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authorPeter Breitenlohner <peb@mppmu.mpg.de>2009-05-29 11:31:46 +0000
committerPeter Breitenlohner <peb@mppmu.mpg.de>2009-05-29 11:31:46 +0000
commit030c7d295204835a00a4084ca59b1f712afb39fe (patch)
treecaca6301bdaf276428e3cb513231f92407a1299c /Build/source
parentf17356b770f3dd2fa28b8d5632d20e0e0f5542d7 (diff)
revive Web2C versions of omega font utils
some cleanup git-svn-id: svn://tug.org/texlive/trunk@13517 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Build/source')
-rwxr-xr-xBuild/source/configure47
-rwxr-xr-xBuild/source/libs/configure7
-rw-r--r--Build/source/libs/graphite/Makefile.am4
-rw-r--r--Build/source/texk/bibtex8/Makefile.am2
-rwxr-xr-xBuild/source/texk/configure7
-rw-r--r--Build/source/texk/dvipdfmx/Makefile.am2
-rw-r--r--Build/source/texk/dvipdfmx/data/Makefile.am5
-rw-r--r--Build/source/texk/dvipdfmx/src/Makefile.am4
-rw-r--r--Build/source/texk/dvipsk/Makefile.am2
-rw-r--r--Build/source/texk/kpathsea/ChangeLog70
-rw-r--r--Build/source/texk/seetexk/Makefile.am2
-rw-r--r--Build/source/texk/ttfdump/Makefile.am2
-rw-r--r--Build/source/texk/web2c/ChangeLog5
-rw-r--r--Build/source/texk/web2c/Makefile.in226
-rw-r--r--Build/source/texk/web2c/ac/web2c.ac4
-rwxr-xr-xBuild/source/texk/web2c/configure65
-rw-r--r--Build/source/texk/web2c/configure.ac2
-rw-r--r--Build/source/texk/web2c/omegafonts/Makefile.am6
-rw-r--r--Build/source/texk/web2c/omegafonts/Makefile.in25
-rw-r--r--Build/source/texk/web2c/omegaware/ChangeLog4
-rw-r--r--Build/source/texk/web2c/omegaware/am/omegaware.am53
-rw-r--r--Build/source/texk/web2c/omegaware/ofm2opl.ch461
-rw-r--r--Build/source/texk/web2c/omegaware/ofm2opl.web2322
-rw-r--r--Build/source/texk/web2c/omegaware/opl2ofm.ch337
-rw-r--r--Build/source/texk/web2c/omegaware/opl2ofm.web4363
-rw-r--r--Build/source/texk/web2c/omegaware/ovf2ovp.ch610
-rw-r--r--Build/source/texk/web2c/omegaware/ovf2ovp.web3138
-rw-r--r--Build/source/texk/web2c/omegaware/ovp2ovf.ch320
-rw-r--r--Build/source/texk/web2c/omegaware/ovp2ovf.web5071
-rw-r--r--Build/source/texk/web2c/otps/Makefile.am17
-rw-r--r--Build/source/texk/web2c/otps/Makefile.in44
-rw-r--r--Build/source/texk/web2c/otps/Makefile.in.orig53
-rw-r--r--Build/source/texk/web2c/window/Makefile.am2
-rw-r--r--Build/source/texk/xdv2pdf/Makefile.am2
-rw-r--r--Build/source/texk/xdvipdfmx/Makefile.am2
-rw-r--r--Build/source/texk/xdvipdfmx/data/Makefile.am7
-rw-r--r--Build/source/texk/xdvipdfmx/src/Makefile.am4
-rwxr-xr-xBuild/source/utils/configure7
38 files changed, 17039 insertions, 265 deletions
diff --git a/Build/source/configure b/Build/source/configure
index 6e38be412d4..bd14af70292 100755
--- a/Build/source/configure
+++ b/Build/source/configure
@@ -938,6 +938,7 @@ with_editor
enable_auto_core
enable_dump_share
enable_ipc
+enable_omfonts
enable_tex
enable_etex
enable_aleph
@@ -1717,6 +1718,8 @@ Optional Features:
--disable-dump-share make fmt/base/mem files architecture-dependent
--disable-ipc disable TeX's --ipc option, i.e., pipe to a
program
+ --disable-omfonts do not compile and install omfonts (use Web2C
+ versions)
--disable-tex do not compile and install TeX
--enable-etex compile and install e-TeX
--disable-aleph do not compile and install Aleph
@@ -2695,6 +2698,10 @@ fi
if test "${enable_ipc+set}" = set; then
enableval=$enable_ipc;
fi
+# Check whether --enable-omfonts was given.
+if test "${enable_omfonts+set}" = set; then
+ enableval=$enable_omfonts;
+fi
# Check whether --enable-tex was given.
if test "${enable_tex+set}" = set; then
enableval=$enable_tex;
@@ -6158,13 +6165,13 @@ if test "${lt_cv_nm_interface+set}" = set; then
else
lt_cv_nm_interface="BSD nm"
echo "int some_variable = 0;" > conftest.$ac_ext
- (eval echo "\"\$as_me:6161: $ac_compile\"" >&5)
+ (eval echo "\"\$as_me:6168: $ac_compile\"" >&5)
(eval "$ac_compile" 2>conftest.err)
cat conftest.err >&5
- (eval echo "\"\$as_me:6164: $NM \\\"conftest.$ac_objext\\\"\"" >&5)
+ (eval echo "\"\$as_me:6171: $NM \\\"conftest.$ac_objext\\\"\"" >&5)
(eval "$NM \"conftest.$ac_objext\"" 2>conftest.err > conftest.out)
cat conftest.err >&5
- (eval echo "\"\$as_me:6167: output\"" >&5)
+ (eval echo "\"\$as_me:6174: output\"" >&5)
cat conftest.out >&5
if $GREP 'External.*some_variable' conftest.out > /dev/null; then
lt_cv_nm_interface="MS dumpbin"
@@ -7370,7 +7377,7 @@ ia64-*-hpux*)
;;
*-*-irix6*)
# Find out which ABI we are using.
- echo '#line 7373 "configure"' > conftest.$ac_ext
+ echo '#line 7380 "configure"' > conftest.$ac_ext
if { (eval echo "$as_me:$LINENO: \"$ac_compile\"") >&5
(eval $ac_compile) 2>&5
ac_status=$?
@@ -9316,11 +9323,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:9319: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:9326: $lt_compile\"" >&5)
(eval "$lt_compile" 2>conftest.err)
ac_status=$?
cat conftest.err >&5
- echo "$as_me:9323: \$? = $ac_status" >&5
+ echo "$as_me:9330: \$? = $ac_status" >&5
if (exit $ac_status) && test -s "$ac_outfile"; then
# The compiler can only warn and ignore the option if not recognized
# So say no if there are warnings other than the usual output.
@@ -9655,11 +9662,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:9658: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:9665: $lt_compile\"" >&5)
(eval "$lt_compile" 2>conftest.err)
ac_status=$?
cat conftest.err >&5
- echo "$as_me:9662: \$? = $ac_status" >&5
+ echo "$as_me:9669: \$? = $ac_status" >&5
if (exit $ac_status) && test -s "$ac_outfile"; then
# The compiler can only warn and ignore the option if not recognized
# So say no if there are warnings other than the usual output.
@@ -9760,11 +9767,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:9763: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:9770: $lt_compile\"" >&5)
(eval "$lt_compile" 2>out/conftest.err)
ac_status=$?
cat out/conftest.err >&5
- echo "$as_me:9767: \$? = $ac_status" >&5
+ echo "$as_me:9774: \$? = $ac_status" >&5
if (exit $ac_status) && test -s out/conftest2.$ac_objext
then
# The compiler can only warn and ignore the option if not recognized
@@ -9815,11 +9822,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:9818: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:9825: $lt_compile\"" >&5)
(eval "$lt_compile" 2>out/conftest.err)
ac_status=$?
cat out/conftest.err >&5
- echo "$as_me:9822: \$? = $ac_status" >&5
+ echo "$as_me:9829: \$? = $ac_status" >&5
if (exit $ac_status) && test -s out/conftest2.$ac_objext
then
# The compiler can only warn and ignore the option if not recognized
@@ -12615,7 +12622,7 @@ else
lt_dlunknown=0; lt_dlno_uscore=1; lt_dlneed_uscore=2
lt_status=$lt_dlunknown
cat > conftest.$ac_ext <<_LT_EOF
-#line 12618 "configure"
+#line 12625 "configure"
#include "confdefs.h"
#if HAVE_DLFCN_H
@@ -12711,7 +12718,7 @@ else
lt_dlunknown=0; lt_dlno_uscore=1; lt_dlneed_uscore=2
lt_status=$lt_dlunknown
cat > conftest.$ac_ext <<_LT_EOF
-#line 12714 "configure"
+#line 12721 "configure"
#include "confdefs.h"
#if HAVE_DLFCN_H
@@ -19145,11 +19152,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:19148: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:19155: $lt_compile\"" >&5)
(eval "$lt_compile" 2>conftest.err)
ac_status=$?
cat conftest.err >&5
- echo "$as_me:19152: \$? = $ac_status" >&5
+ echo "$as_me:19159: \$? = $ac_status" >&5
if (exit $ac_status) && test -s "$ac_outfile"; then
# The compiler can only warn and ignore the option if not recognized
# So say no if there are warnings other than the usual output.
@@ -19244,11 +19251,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:19247: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:19254: $lt_compile\"" >&5)
(eval "$lt_compile" 2>out/conftest.err)
ac_status=$?
cat out/conftest.err >&5
- echo "$as_me:19251: \$? = $ac_status" >&5
+ echo "$as_me:19258: \$? = $ac_status" >&5
if (exit $ac_status) && test -s out/conftest2.$ac_objext
then
# The compiler can only warn and ignore the option if not recognized
@@ -19296,11 +19303,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:19299: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:19306: $lt_compile\"" >&5)
(eval "$lt_compile" 2>out/conftest.err)
ac_status=$?
cat out/conftest.err >&5
- echo "$as_me:19303: \$? = $ac_status" >&5
+ echo "$as_me:19310: \$? = $ac_status" >&5
if (exit $ac_status) && test -s out/conftest2.$ac_objext
then
# The compiler can only warn and ignore the option if not recognized
diff --git a/Build/source/libs/configure b/Build/source/libs/configure
index edee723770f..95aac015872 100755
--- a/Build/source/libs/configure
+++ b/Build/source/libs/configure
@@ -701,6 +701,7 @@ with_editor
enable_auto_core
enable_dump_share
enable_ipc
+enable_omfonts
enable_tex
enable_etex
enable_aleph
@@ -1466,6 +1467,8 @@ Optional Features:
--disable-dump-share make fmt/base/mem files architecture-dependent
--disable-ipc disable TeX's --ipc option, i.e., pipe to a
program
+ --disable-omfonts do not compile and install omfonts (use Web2C
+ versions)
--disable-tex do not compile and install TeX
--enable-etex compile and install e-TeX
--disable-aleph do not compile and install Aleph
@@ -2414,6 +2417,10 @@ fi
if test "${enable_ipc+set}" = set; then
enableval=$enable_ipc;
fi
+# Check whether --enable-omfonts was given.
+if test "${enable_omfonts+set}" = set; then
+ enableval=$enable_omfonts;
+fi
# Check whether --enable-tex was given.
if test "${enable_tex+set}" = set; then
enableval=$enable_tex;
diff --git a/Build/source/libs/graphite/Makefile.am b/Build/source/libs/graphite/Makefile.am
index f8011a56dad..aa2f7421dc7 100644
--- a/Build/source/libs/graphite/Makefile.am
+++ b/Build/source/libs/graphite/Makefile.am
@@ -1,3 +1,7 @@
+## Makefile.am for the TeX Live subdirectory libs/graphite/
+##
+## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
+## You may freely use, modify and/or distribute this file.
##
ACLOCAL_AMFLAGS = -I ../../m4
diff --git a/Build/source/texk/bibtex8/Makefile.am b/Build/source/texk/bibtex8/Makefile.am
index f1fee26d6bc..e95d325f990 100644
--- a/Build/source/texk/bibtex8/Makefile.am
+++ b/Build/source/texk/bibtex8/Makefile.am
@@ -1,4 +1,4 @@
-## Makefile.am for the TeX Live subdirectory texk/afm2pl/
+## Makefile.am for the TeX Live subdirectory texk/bibtex8/
##
## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
## You may freely use, modify and/or distribute this file.
diff --git a/Build/source/texk/configure b/Build/source/texk/configure
index a1ab02f3ca5..7f8741bf04a 100755
--- a/Build/source/texk/configure
+++ b/Build/source/texk/configure
@@ -701,6 +701,7 @@ with_editor
enable_auto_core
enable_dump_share
enable_ipc
+enable_omfonts
enable_tex
enable_etex
enable_aleph
@@ -1484,6 +1485,8 @@ Optional Features:
--disable-dump-share make fmt/base/mem files architecture-dependent
--disable-ipc disable TeX's --ipc option, i.e., pipe to a
program
+ --disable-omfonts do not compile and install omfonts (use Web2C
+ versions)
--disable-tex do not compile and install TeX
--enable-etex compile and install e-TeX
--disable-aleph do not compile and install Aleph
@@ -2432,6 +2435,10 @@ fi
if test "${enable_ipc+set}" = set; then
enableval=$enable_ipc;
fi
+# Check whether --enable-omfonts was given.
+if test "${enable_omfonts+set}" = set; then
+ enableval=$enable_omfonts;
+fi
# Check whether --enable-tex was given.
if test "${enable_tex+set}" = set; then
enableval=$enable_tex;
diff --git a/Build/source/texk/dvipdfmx/Makefile.am b/Build/source/texk/dvipdfmx/Makefile.am
index 670bb1d70b8..d24f39af936 100644
--- a/Build/source/texk/dvipdfmx/Makefile.am
+++ b/Build/source/texk/dvipdfmx/Makefile.am
@@ -1,4 +1,4 @@
-## Makefile.am for the TeX Live subdirectory texk/dtl/
+## Makefile.am for the TeX Live subdirectory texk/dvipdfmx/
##
## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
## You may freely use, modify and/or distribute this file.
diff --git a/Build/source/texk/dvipdfmx/data/Makefile.am b/Build/source/texk/dvipdfmx/data/Makefile.am
index 9cb35ba15d8..d3afd2bba97 100644
--- a/Build/source/texk/dvipdfmx/data/Makefile.am
+++ b/Build/source/texk/dvipdfmx/data/Makefile.am
@@ -1,3 +1,8 @@
+## Makefile.am for the TeX Live subdirectory texk/dvipdfmx/data/
+##
+## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
+## You may freely use, modify and/or distribute this file.
+##
configdatadir = ${prefix}/texmf/dvipdfmx
dist_configdata_DATA = \
$(srcdir)/dvipdfmx.cfg
diff --git a/Build/source/texk/dvipdfmx/src/Makefile.am b/Build/source/texk/dvipdfmx/src/Makefile.am
index 0a39cdfb9eb..bdd8e9ecf38 100644
--- a/Build/source/texk/dvipdfmx/src/Makefile.am
+++ b/Build/source/texk/dvipdfmx/src/Makefile.am
@@ -1,3 +1,7 @@
+## Makefile.am for the TeX Live subdirectory texk/dvipdfmx/src/
+##
+## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
+## You may freely use, modify and/or distribute this file.
##
INCLUDES = $(KPATHSEA_INCLUDES) $(LIBPNG_INCLUDES) $(ZLIB_INCLUDES)
AM_CPPFLAGS =
diff --git a/Build/source/texk/dvipsk/Makefile.am b/Build/source/texk/dvipsk/Makefile.am
index 6b9215baea8..cd8958e2919 100644
--- a/Build/source/texk/dvipsk/Makefile.am
+++ b/Build/source/texk/dvipsk/Makefile.am
@@ -1,4 +1,4 @@
-## Makefile.am for the TeX Live subdirectory texk/ stamp-squeeze/
+## Makefile.am for the TeX Live subdirectory texk/dvipsk/
##
## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
## You may freely use, modify and/or distribute this file.
diff --git a/Build/source/texk/kpathsea/ChangeLog b/Build/source/texk/kpathsea/ChangeLog
index 65a362523b4..240c7527c86 100644
--- a/Build/source/texk/kpathsea/ChangeLog
+++ b/Build/source/texk/kpathsea/ChangeLog
@@ -68,26 +68,14 @@
New Kpathsea API: Make libkpathsea reenterable.
- * src/texk/kpathsea/extend-fname.c, src/texk/kpathsea/file-p.c,
- src/texk/kpathsea/xftello.c, src/texk/kpathsea/make-suffix.c,
- src/texk/kpathsea/xcalloc.c, src/texk/kpathsea/line.c,
- src/texk/kpathsea/readlink.c, src/texk/kpathsea/concat3.c,
- src/texk/kpathsea/line.h, src/texk/kpathsea/str-llist.c,
- src/texk/kpathsea/kpsestat.c, src/texk/kpathsea/xmalloc.c,
- src/texk/kpathsea/str-llist.h, src/texk/kpathsea/xbasename.c,
- src/texk/kpathsea/xfseeko.c, src/texk/kpathsea/xgetcwd.c,
- src/texk/kpathsea/concat.c, src/texk/kpathsea/xstat.h,
- src/texk/kpathsea/atou.c, src/texk/kpathsea/rm-suffix.c,
- src/texk/kpathsea/str-list.c, src/texk/kpathsea/find-suffix.c,
- src/texk/kpathsea/hash.c, src/texk/kpathsea/xfseek.c,
- src/texk/kpathsea/debug.c, src/texk/kpathsea/str-list.h,
- src/texk/kpathsea/hash.h, src/texk/kpathsea/xopendir.c,
- src/texk/kpathsea/uppercasify.c, src/texk/kpathsea/debug.h,
- src/texk/kpathsea/xopendir.h, src/texk/kpathsea/xftell.c,
- src/texk/kpathsea/xfopen.c, src/texk/kpathsea/access.c,
- src/texk/kpathsea/fn.c, src/texk/kpathsea/xdirname.c,
- src/texk/kpathsea/fn.h, src/texk/kpathsea/xstrdup.c,
- src/texk/kpathsea/xrealloc.c, src/texk/kpathsea/xstat.c:
+ * extend-fname.c, file-p.c, xftello.c, make-suffix.c, xcalloc.c,
+ line.c, readlink.c, concat3.c, line.h, str-llist.c, kpsestat.c,
+ xmalloc.c, str-llist.h, xbasename.c, xfseeko.c, xgetcwd.c,
+ concat.c, xstat.h, atou.c, rm-suffix.c, str-list.c,
+ find-suffix.c, hash.c, xfseek.c, debug.c, str-list.h, hash.h,
+ xopendir.c, uppercasify.c, debug.h, xopendir.h, xftell.c,
+ xfopen.c, access.c, fn.c, xdirname.c, fn.h, xstrdup.c,
+ xrealloc.c, xstat.c:
All of these files have stopped using the PxC and PxH macros.
Besides this change, there are a few extra changes to specific
@@ -101,25 +89,13 @@
* concat3.c: now allows the second and third argument to be NULL
- * src/texk/kpathsea/tex-hush.h, src/texk/kpathsea/tex-make.c,
- src/texk/kpathsea/progname.h, src/texk/kpathsea/dir.c,
- src/texk/kpathsea/absolute.c, src/texk/kpathsea/expand.c,
- src/texk/kpathsea/tex-make.h, src/texk/kpathsea/tex-glyph.c,
- src/texk/kpathsea/tex-file.h, src/texk/kpathsea/absolute.h,
- src/texk/kpathsea/expand.h, src/texk/kpathsea/truncate.c,
- src/texk/kpathsea/variable.c, src/texk/kpathsea/tex-glyph.h,
- src/texk/kpathsea/default.h, src/texk/kpathsea/variable.h,
- src/texk/kpathsea/truncate.h, src/texk/kpathsea/kdefault.c,
- src/texk/kpathsea/readable.c, src/texk/kpathsea/tilde.c,
- src/texk/kpathsea/fontmap.c, src/texk/kpathsea/readable.h,
- src/texk/kpathsea/tilde.h, src/texk/kpathsea/cnf.c,
- src/texk/kpathsea/fontmap.h, src/texk/kpathsea/cnf.h,
- src/texk/kpathsea/path-elt.c, src/texk/kpathsea/pathsearch.c,
- src/texk/kpathsea/elt-dirs.c, src/texk/kpathsea/db.c,
- src/texk/kpathsea/pathsearch.h, src/texk/kpathsea/db.h,
- src/texk/kpathsea/proginit.c, src/texk/kpathsea/magstep.c,
- src/texk/kpathsea/proginit.h, src/texk/kpathsea/magstep.h,
- src/texk/kpathsea/tex-hush.c:
+ * tex-hush.h, tex-make.c, progname.h, dir.c,
+ absolute.c, expand.c, tex-make.h, tex-glyph.c, tex-file.h,
+ absolute.h, expand.h, truncate.c, variable.c, tex-glyph.h,
+ default.h, variable.h, truncate.h, kdefault.c, readable.c,
+ tilde.c, fontmap.c, readable.h, tilde.h, cnf.c, fontmap.h,
+ cnf.h, path-elt.c, pathsearch.c, elt-dirs.c, db.c, pathsearch.h,
+ db.h, proginit.c, magstep.c, proginit.h, magstep.h, tex-hush.c:
All of these files have stopped using the PxC and PxH macros.
In all of these files, the exported functions whose names
@@ -146,14 +122,14 @@
* tex-file.c: The default instance variable is moved to the new
file kpathsea.c
- * src/texk/kpathsea/kpathsea.c: New file containing the default
+ * kpathsea.c: New file containing the default
instance variables and the new functions kpathsea_new() and
kpathsea_finish()
- * src/texk/kpathsea/version.c: Variable kpse_bug_address renamed
+ * version.c: Variable kpse_bug_address renamed
to kpathsea_bug_address.
- * src/texk/kpathsea/types.h:
+ * types.h:
Added a preprocessor define KPSE_COMPAT_API, used throughout the
library. If it is undefined then the old-style functions and
definitions are not compiled.
@@ -169,7 +145,7 @@
kpse_format_info, program_invocation_name, and
program_invocation_short_name
- * src/texk/kpathsea/mingw32.c:
+ * mingw32.c:
Disabled home directory caching: removed the function
uncache_home_directory() and the cached_home_directory
structure item.
@@ -178,15 +154,15 @@
and GetCachedVolumeInformation(), as well as the functions
get_volume_info() and is_fat_volume().
- * src/texk/kpathsea/mingw32.h: Removed volume_user_date typedef
+ * mingw32.h: Removed volume_user_date typedef
and added declaration for get_home_directory()
- * src/texk/kpathsea/kpsewhich.c: stop using PxC macros and
+ * kpsewhich.c: stop using PxC macros and
switch to new API interface
- * src/texk/kpathsea/configure.ac: Bump the version numbers to 5.0.0 (provisionally)
+ * configure.ac: Bump the version numbers to 5.0.0 (provisionally)
- * src/texk/kpathsea/Makefile.am: Add kpathsea.c
+ * Makefile.am: Add kpathsea.c
2009-03-05 Peter Breitenlohner <peb@mppmu.mpg.de>
diff --git a/Build/source/texk/seetexk/Makefile.am b/Build/source/texk/seetexk/Makefile.am
index 7fe873c1e04..f9838dfad7c 100644
--- a/Build/source/texk/seetexk/Makefile.am
+++ b/Build/source/texk/seetexk/Makefile.am
@@ -1,4 +1,4 @@
-## Makefile.am for the TeX Live subdirectory texk/deetexk/
+## Makefile.am for the TeX Live subdirectory texk/seetexk/
##
## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
## You may freely use, modify and/or distribute this file.
diff --git a/Build/source/texk/ttfdump/Makefile.am b/Build/source/texk/ttfdump/Makefile.am
index 8ce8e170e73..bbccbcb76e6 100644
--- a/Build/source/texk/ttfdump/Makefile.am
+++ b/Build/source/texk/ttfdump/Makefile.am
@@ -1,4 +1,4 @@
-## Makefile.am for the TeX Live subdirectory texk/afm2pl/
+## Makefile.am for the TeX Live subdirectory texk/ttfdump/
##
## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
## You may freely use, modify and/or distribute this file.
diff --git a/Build/source/texk/web2c/ChangeLog b/Build/source/texk/web2c/ChangeLog
index 0052727c228..e41bdfea405 100644
--- a/Build/source/texk/web2c/ChangeLog
+++ b/Build/source/texk/web2c/ChangeLog
@@ -1,3 +1,8 @@
+2009-05-29 Peter Breitenlohner <peb@mppmu.mpg.de>
+
+ * configure.ac, ac/web2c.ac (enable_omfonts): allow to choose
+ between Web2C versions of ofm2opl&Co and symlinks to omfonts.
+
2009-05-28 Peter Breitenlohner <peb@mppmu.mpg.de>
* help.h (DVITOMPHELP): remove help for obsolete Web2C version.
diff --git a/Build/source/texk/web2c/Makefile.in b/Build/source/texk/web2c/Makefile.in
index dad0e5c4f17..dfea0154e2a 100644
--- a/Build/source/texk/web2c/Makefile.in
+++ b/Build/source/texk/web2c/Makefile.in
@@ -37,21 +37,21 @@ host_triplet = @host@
EXTRA_PROGRAMS = $(am__EXEEXT_1) tex$(EXEEXT) mf$(EXEEXT) \
mf-nowin$(EXEEXT) mpost$(EXEEXT) etex$(EXEEXT) pdftex$(EXEEXT) \
ttf2afm$(EXEEXT) pdftosrc$(EXEEXT) luatex$(EXEEXT) \
- luatangle$(EXEEXT) xetex$(EXEEXT) $(am__EXEEXT_2) \
+ luatangle$(EXEEXT) xetex$(EXEEXT) $(am__EXEEXT_4) \
aleph$(EXEEXT)
-bin_PROGRAMS = tangle$(EXEEXT) ctangle$(EXEEXT) $(am__EXEEXT_3) \
- ctie$(EXEEXT) cweave$(EXEEXT) tie$(EXEEXT) $(am__EXEEXT_4) \
- $(am__EXEEXT_5) $(am__EXEEXT_6) $(am__EXEEXT_7) \
- $(am__EXEEXT_8) $(am__EXEEXT_9) $(am__EXEEXT_10) \
- $(am__EXEEXT_11) $(am__EXEEXT_12) $(am__EXEEXT_13) \
- synctex$(EXEEXT)
+bin_PROGRAMS = tangle$(EXEEXT) ctangle$(EXEEXT) $(am__EXEEXT_5) \
+ ctie$(EXEEXT) cweave$(EXEEXT) tie$(EXEEXT) $(am__EXEEXT_6) \
+ $(am__EXEEXT_7) $(am__EXEEXT_8) $(am__EXEEXT_9) \
+ $(am__EXEEXT_10) $(am__EXEEXT_11) $(am__EXEEXT_12) \
+ $(am__EXEEXT_13) $(am__EXEEXT_14) $(am__EXEEXT_15) \
+ $(am__EXEEXT_16) synctex$(EXEEXT)
noinst_PROGRAMS = tangleboot$(EXEEXT) ctangleboot$(EXEEXT)
-check_PROGRAMS = $(am__EXEEXT_14) $(am__EXEEXT_15) $(am__EXEEXT_16) \
- $(am__EXEEXT_17) md5main$(EXEEXT)
-TESTS = tangle.test $(am__EXEEXT_20) ctiedir/ctie.test \
+check_PROGRAMS = $(am__EXEEXT_17) $(am__EXEEXT_18) $(am__EXEEXT_19) \
+ $(am__EXEEXT_20) md5main$(EXEEXT)
+TESTS = tangle.test $(am__EXEEXT_23) ctiedir/ctie.test \
cwebdir/cweave.test tiedir/tie.test $(am__append_4) \
$(am__append_8) $(am__append_11) $(am__append_14) \
- $(am__append_19) $(am__append_34) libmd5/md5.test
+ $(am__append_19) $(am__append_35) libmd5/md5.test
DIST_COMMON = README $(am__configure_deps) $(dist_man_MANS) \
$(srcdir)/../../build-aux/config.guess \
$(srcdir)/../../build-aux/config.sub \
@@ -146,25 +146,26 @@ DIST_COMMON = README $(am__configure_deps) $(dist_man_MANS) \
@XETEX_GRAPHITE_TRUE@ xetexdir/XeTeXGrLayout.cpp \
@XETEX_GRAPHITE_TRUE@ xetexdir/XeTeXGrLayout.h
-@OTANGLE_TRUE@am__append_33 = $(omegaware_programs)
-@OTANGLE_TRUE@am__append_34 = omegaware/otangle.test
-@ALEPH_TRUE@am__append_35 = aleph
-@TEX_SYNCTEX_TRUE@am__append_36 = -I$(srcdir)/synctexdir $(ZLIB_INCLUDES)
-@TEX_SYNCTEX_TRUE@am__append_37 = $(ZLIB_LIBS)
-@TEX_SYNCTEX_TRUE@am__append_38 = \
+@OTANGLE_TRUE@am__append_33 = $(omegaware_tools)
+@OMFONTS_FALSE@@OTANGLE_TRUE@am__append_34 = $(omegaware_font_tools)
+@OTANGLE_TRUE@am__append_35 = omegaware/otangle.test
+@ALEPH_TRUE@am__append_36 = aleph
+@TEX_SYNCTEX_TRUE@am__append_37 = -I$(srcdir)/synctexdir $(ZLIB_INCLUDES)
+@TEX_SYNCTEX_TRUE@am__append_38 = $(ZLIB_LIBS)
+@TEX_SYNCTEX_TRUE@am__append_39 = \
@TEX_SYNCTEX_TRUE@ synctex.c
-@ETEX_SYNCTEX_TRUE@am__append_39 = -I$(srcdir)/synctexdir $(ZLIB_INCLUDES)
-@ETEX_SYNCTEX_TRUE@am__append_40 = $(ZLIB_LIBS)
-@ETEX_SYNCTEX_TRUE@am__append_41 = \
+@ETEX_SYNCTEX_TRUE@am__append_40 = -I$(srcdir)/synctexdir $(ZLIB_INCLUDES)
+@ETEX_SYNCTEX_TRUE@am__append_41 = $(ZLIB_LIBS)
+@ETEX_SYNCTEX_TRUE@am__append_42 = \
@ETEX_SYNCTEX_TRUE@ synctex-e.c
-@PDFTEX_SYNCTEX_TRUE@am__append_42 = -I$(srcdir)/synctexdir
-@PDFTEX_SYNCTEX_TRUE@am__append_43 = \
+@PDFTEX_SYNCTEX_TRUE@am__append_43 = -I$(srcdir)/synctexdir
+@PDFTEX_SYNCTEX_TRUE@am__append_44 = \
@PDFTEX_SYNCTEX_TRUE@ synctex-pdf.c
-@XETEX_SYNCTEX_TRUE@am__append_44 = -I$(srcdir)/synctexdir
-@XETEX_SYNCTEX_TRUE@am__append_45 = \
+@XETEX_SYNCTEX_TRUE@am__append_45 = -I$(srcdir)/synctexdir
+@XETEX_SYNCTEX_TRUE@am__append_46 = \
@XETEX_SYNCTEX_TRUE@ synctex-xe.c
subdir = .
@@ -439,25 +440,29 @@ am__EXEEXT_1 = bibtex$(EXEEXT) dvicopy$(EXEEXT) dvitype$(EXEEXT) \
pltotf$(EXEEXT) pooltype$(EXEEXT) tftopl$(EXEEXT) \
vftovp$(EXEEXT) vptovf$(EXEEXT) weave$(EXEEXT)
am__EXEEXT_2 = odvicopy$(EXEEXT) odvitype$(EXEEXT) otangle$(EXEEXT)
-@WEB_TRUE@am__EXEEXT_3 = $(am__EXEEXT_1)
-@TEX_TRUE@am__EXEEXT_4 = tex$(EXEEXT)
-@MF_TRUE@am__EXEEXT_5 = mf$(EXEEXT)
-@MFN_TRUE@@MF_TRUE@am__EXEEXT_6 = mf-nowin$(EXEEXT)
-@MP_TRUE@am__EXEEXT_7 = mpost$(EXEEXT)
-@ETEX_TRUE@am__EXEEXT_8 = etex$(EXEEXT)
-@PDFTEX_TRUE@am__EXEEXT_9 = pdftex$(EXEEXT) ttf2afm$(EXEEXT) \
+am__EXEEXT_3 = ofm2opl$(EXEEXT) opl2ofm$(EXEEXT) ovf2ovp$(EXEEXT) \
+ ovp2ovf$(EXEEXT)
+am__EXEEXT_4 = $(am__EXEEXT_2) $(am__EXEEXT_3)
+@WEB_TRUE@am__EXEEXT_5 = $(am__EXEEXT_1)
+@TEX_TRUE@am__EXEEXT_6 = tex$(EXEEXT)
+@MF_TRUE@am__EXEEXT_7 = mf$(EXEEXT)
+@MFN_TRUE@@MF_TRUE@am__EXEEXT_8 = mf-nowin$(EXEEXT)
+@MP_TRUE@am__EXEEXT_9 = mpost$(EXEEXT)
+@ETEX_TRUE@am__EXEEXT_10 = etex$(EXEEXT)
+@PDFTEX_TRUE@am__EXEEXT_11 = pdftex$(EXEEXT) ttf2afm$(EXEEXT) \
@PDFTEX_TRUE@ pdftosrc$(EXEEXT)
-@LUATEX_TRUE@am__EXEEXT_10 = luatex$(EXEEXT) luatangle$(EXEEXT)
-@XETEX_TRUE@am__EXEEXT_11 = xetex$(EXEEXT)
-@OTANGLE_TRUE@am__EXEEXT_12 = $(am__EXEEXT_2)
-@ALEPH_TRUE@am__EXEEXT_13 = aleph$(EXEEXT)
+@LUATEX_TRUE@am__EXEEXT_12 = luatex$(EXEEXT) luatangle$(EXEEXT)
+@XETEX_TRUE@am__EXEEXT_13 = xetex$(EXEEXT)
+@OTANGLE_TRUE@am__EXEEXT_14 = $(am__EXEEXT_2)
+@OMFONTS_FALSE@@OTANGLE_TRUE@am__EXEEXT_15 = $(am__EXEEXT_3)
+@ALEPH_TRUE@am__EXEEXT_16 = aleph$(EXEEXT)
am__installdirs = "$(DESTDIR)$(bindir)" "$(DESTDIR)$(man1dir)" \
"$(DESTDIR)$(man5dir)"
-@TEX_TRUE@am__EXEEXT_14 = dvitype$(EXEEXT) pltotf$(EXEEXT) \
+@TEX_TRUE@am__EXEEXT_17 = dvitype$(EXEEXT) pltotf$(EXEEXT) \
@TEX_TRUE@ tftopl$(EXEEXT)
-@MF_TRUE@am__EXEEXT_15 = gftype$(EXEEXT) tftopl$(EXEEXT)
-@MP_TRUE@am__EXEEXT_16 = pltotf$(EXEEXT) tftopl$(EXEEXT)
-@ETEX_TRUE@am__EXEEXT_17 = dvitype$(EXEEXT) pltotf$(EXEEXT) \
+@MF_TRUE@am__EXEEXT_18 = gftype$(EXEEXT) tftopl$(EXEEXT)
+@MP_TRUE@am__EXEEXT_19 = pltotf$(EXEEXT) tftopl$(EXEEXT)
+@ETEX_TRUE@am__EXEEXT_20 = dvitype$(EXEEXT) pltotf$(EXEEXT) \
@ETEX_TRUE@ tftopl$(EXEEXT)
PROGRAMS = $(bin_PROGRAMS) $(noinst_PROGRAMS)
am_aleph_OBJECTS = aleph-aleph.$(OBJEXT) aleph-alephbis.$(OBJEXT)
@@ -564,10 +569,26 @@ nodist_odvitype_OBJECTS = odvitype.$(OBJEXT)
odvitype_OBJECTS = $(nodist_odvitype_OBJECTS)
odvitype_LDADD = $(LDADD)
odvitype_DEPENDENCIES = $(proglib) $(am__DEPENDENCIES_1)
+nodist_ofm2opl_OBJECTS = ofm2opl.$(OBJEXT)
+ofm2opl_OBJECTS = $(nodist_ofm2opl_OBJECTS)
+ofm2opl_LDADD = $(LDADD)
+ofm2opl_DEPENDENCIES = $(proglib) $(am__DEPENDENCIES_1)
+nodist_opl2ofm_OBJECTS = opl2ofm.$(OBJEXT)
+opl2ofm_OBJECTS = $(nodist_opl2ofm_OBJECTS)
+opl2ofm_LDADD = $(LDADD)
+opl2ofm_DEPENDENCIES = $(proglib) $(am__DEPENDENCIES_1)
nodist_otangle_OBJECTS = otangle.$(OBJEXT)
otangle_OBJECTS = $(nodist_otangle_OBJECTS)
otangle_LDADD = $(LDADD)
otangle_DEPENDENCIES = $(proglib) $(am__DEPENDENCIES_1)
+nodist_ovf2ovp_OBJECTS = ovf2ovp.$(OBJEXT)
+ovf2ovp_OBJECTS = $(nodist_ovf2ovp_OBJECTS)
+ovf2ovp_LDADD = $(LDADD)
+ovf2ovp_DEPENDENCIES = $(proglib) $(am__DEPENDENCIES_1)
+nodist_ovp2ovf_OBJECTS = ovp2ovf.$(OBJEXT)
+ovp2ovf_OBJECTS = $(nodist_ovp2ovf_OBJECTS)
+ovp2ovf_LDADD = $(LDADD)
+ovp2ovf_DEPENDENCIES = $(proglib) $(am__DEPENDENCIES_1)
nodist_patgen_OBJECTS = patgen.$(OBJEXT)
patgen_OBJECTS = $(nodist_patgen_OBJECTS)
patgen_LDADD = $(LDADD)
@@ -710,7 +731,9 @@ SOURCES = $(libff_a_SOURCES) $(liblua51_a_SOURCES) \
$(md5main_SOURCES) $(nodist_mf_SOURCES) \
$(nodist_mf_nowin_SOURCES) $(nodist_mft_SOURCES) \
$(nodist_mpost_SOURCES) $(nodist_odvicopy_SOURCES) \
- $(nodist_odvitype_SOURCES) $(nodist_otangle_SOURCES) \
+ $(nodist_odvitype_SOURCES) $(nodist_ofm2opl_SOURCES) \
+ $(nodist_opl2ofm_SOURCES) $(nodist_otangle_SOURCES) \
+ $(nodist_ovf2ovp_SOURCES) $(nodist_ovp2ovf_SOURCES) \
$(nodist_patgen_SOURCES) $(dist_pdftex_SOURCES) \
$(nodist_pdftex_SOURCES) $(nodist_EXTRA_pdftex_SOURCES) \
$(pdftosrc_SOURCES) $(nodist_EXTRA_pdftosrc_SOURCES) \
@@ -777,12 +800,12 @@ ETAGS = etags
CTAGS = ctags
am__tty_colors = \
red=; grn=; lgn=; blu=; std=
-am__EXEEXT_18 = bibtex.test dvicopy.test dvitype.test gftodvi.test \
+am__EXEEXT_21 = bibtex.test dvicopy.test dvitype.test gftodvi.test \
gftopk.test gftype.test mft.test patgen.test pktogf.test \
pktype.test pltotf.test pooltype.test tftopl.test vftovp.test \
vptovf.test weave.test
-am__EXEEXT_19 = $(am__EXEEXT_18)
-@WEB_TRUE@am__EXEEXT_20 = $(am__EXEEXT_19)
+am__EXEEXT_22 = $(am__EXEEXT_21)
+@WEB_TRUE@am__EXEEXT_23 = $(am__EXEEXT_22)
DIST_SUBDIRS = $(SUBDIRS)
DISTFILES = $(DIST_COMMON) $(DIST_SOURCES) $(TEXINFOS) $(EXTRA_DIST)
distdir = $(PACKAGE)-$(VERSION)
@@ -1192,26 +1215,27 @@ EXTRA_DIST = PROJECTS cftests config.h cpascal.h help.h tangle.web \
xetexdir/ChangeLog xetexdir/LICENSE.txt \
xetexdir/acx_pthread.m4 xetexdir/tests.ac \
xetexdir/withenable.ac xetexdir/xetex.mk omegaware/ChangeLog \
- $(odvicopy_sources) $(odvitype_sources) $(otangle_sources) \
- omegaware/otangle.test $(aleph_web_srcs) $(aleph_ch_srcs) \
- lib/texmfmp.c alephdir/ChangeLog alephdir/Makefile \
- alephdir/aleph.defines alephdir/aleph.version \
- alephdir/eomega.ech alephdir/etex.ch alephdir/omega.ch0 \
- alephdir/omega.ch1 alephdir/omega.ch2 alephdir/omxml.ch \
- alephdir/aleph.mk synctexdir/INSTALL synctexdir/Makefile \
- synctexdir/Makefile.in synctexdir/README.txt \
- synctexdir/synctex-common.h synctexdir/synctex-convert.sh \
- synctexdir/synctex.c synctexdir/synctex.defines \
- synctexdir/synctex.h synctexdir/synctex-mem.ch0 \
- synctexdir/synctex-mem.ch1 synctexdir/synctex-mem.ch2 \
- synctexdir/synctex-rec.ch0 synctexdir/synctex-rec.ch1 \
- synctexdir/synctex-rec.ch2 synctexdir/synctex-e-mem.ch0 \
- synctexdir/synctex-e-mem.ch1 synctexdir/synctex-e-rec.ch0 \
- synctexdir/synctex-e-rec.ch1 synctexdir/synctex-pdf-rec.ch2 \
- synctexdir/synctex-xe-mem.ch2 synctexdir/synctex-xe-rec.ch2 \
- synctexdir/synctex-xe-rec.ch3 synctexdir/synctex.mk \
- libmd5/md5.test fmtutil.in Makefile.in.orig configure.in.orig \
- metapost.mk
+ $(odvicopy_sources) $(odvitype_sources) $(ofm2opl_sources) \
+ $(opl2ofm_sources) $(otangle_sources) $(ovf2ovp_sources) \
+ $(ovp2ovf_sources) omegaware/otangle.test $(aleph_web_srcs) \
+ $(aleph_ch_srcs) lib/texmfmp.c alephdir/ChangeLog \
+ alephdir/Makefile alephdir/aleph.defines \
+ alephdir/aleph.version alephdir/eomega.ech alephdir/etex.ch \
+ alephdir/omega.ch0 alephdir/omega.ch1 alephdir/omega.ch2 \
+ alephdir/omxml.ch alephdir/aleph.mk synctexdir/INSTALL \
+ synctexdir/Makefile synctexdir/Makefile.in \
+ synctexdir/README.txt synctexdir/synctex-common.h \
+ synctexdir/synctex-convert.sh synctexdir/synctex.c \
+ synctexdir/synctex.defines synctexdir/synctex.h \
+ synctexdir/synctex-mem.ch0 synctexdir/synctex-mem.ch1 \
+ synctexdir/synctex-mem.ch2 synctexdir/synctex-rec.ch0 \
+ synctexdir/synctex-rec.ch1 synctexdir/synctex-rec.ch2 \
+ synctexdir/synctex-e-mem.ch0 synctexdir/synctex-e-mem.ch1 \
+ synctexdir/synctex-e-rec.ch0 synctexdir/synctex-e-rec.ch1 \
+ synctexdir/synctex-pdf-rec.ch2 synctexdir/synctex-xe-mem.ch2 \
+ synctexdir/synctex-xe-rec.ch2 synctexdir/synctex-xe-rec.ch3 \
+ synctexdir/synctex.mk libmd5/md5.test fmtutil.in \
+ Makefile.in.orig configure.in.orig metapost.mk
DISTCLEANFILES = $(EXTRA_LIBRARIES) tangle.c tangle.h tangle.p \
tangle-web2c stamp-tangle tangleboot.c tangleboot.h ctangle.c \
cweb.c stamp-ctangle cftest.p $(web_programs:=.c) \
@@ -1296,14 +1320,14 @@ web_tests = $(web_programs:=.test)
nodist_ctie_SOURCES = ctie.c
nodist_cweave_SOURCES = cweave.c cweb.c
nodist_tie_SOURCES = tie.c
-tex_CPPFLAGS = $(am__append_36)
+tex_CPPFLAGS = $(am__append_37)
# With --enable-ipc, TeX may need to link with -lsocket.
-tex_LDADD = $(LDADD) $(ipc_socketlibs) $(am__append_37)
+tex_LDADD = $(LDADD) $(ipc_socketlibs) $(am__append_38)
# TeX C sources
tex_c_h = texini.c tex0.c tex1.c tex2.c texcoerce.h texd.h
-nodist_tex_SOURCES = $(tex_c_h) tex-pool.c texextra.c $(am__append_38)
+nodist_tex_SOURCES = $(tex_c_h) tex-pool.c texextra.c $(am__append_39)
tex_ch_srcs = \
tex.web \
tex.ch \
@@ -1342,15 +1366,15 @@ psout_c_h = mppsout.h psout.c mplibps.h
svgout_c_h = mplibsvg.h mpsvgout.h svgout.c
libmplib_web = mplibdir/mp.w mplibdir/psout.w mplibdir/svgout.w \
mplibdir/memio.w mplibdir/tfmin.w
-etex_CPPFLAGS = $(am__append_39)
+etex_CPPFLAGS = $(am__append_40)
# With --enable-ipc, e-TeX may need to link with -lsocket.
-etex_LDADD = $(LDADD) $(ipc_socketlibs) $(am__append_40)
+etex_LDADD = $(LDADD) $(ipc_socketlibs) $(am__append_41)
# e-TeX C sources
etex_c_h = etexini.c etex0.c etex1.c etex2.c etexcoerce.h etexd.h
nodist_etex_SOURCES = $(etex_c_h) etex-pool.c etexextra.c \
- etexdir/etexextra.h $(am__append_41)
+ etexdir/etexextra.h $(am__append_42)
etex_web_srcs = \
tex.web \
etexdir/etex.ch \
@@ -1374,12 +1398,12 @@ pdftex_dependencies = $(proglib) $(LIBPNG_DEPEND) $(ZLIB_DEPEND) \
$(XPDF_DEPEND) $(OBSDCOMPAT_DEPEND) libmd5.a
nodist_EXTRA_pdftex_SOURCES = dummy.cxx
pdf_tangle = WEBINPUTS=.:$(srcdir)/pdftexdir $(buildenv) $(TANGLE)
-pdftex_CPPFLAGS = $(pdftex_cppflags) $(am__append_42)
+pdftex_CPPFLAGS = $(pdftex_cppflags) $(am__append_43)
pdftex_LDADD = $(pdftex_ldadd) $(LDADD) $(ipc_socketlibs)
pdftex_DEPENDENCIES = $(pdftex_dependencies) libpdftex.a
pdftex_c_h = pdftexini.c pdftex0.c pdftex1.c pdftex2.c pdftex3.c pdftexcoerce.h pdftexd.h
nodist_pdftex_SOURCES = $(pdftex_c_h) pdftex-pool.c pdftexextra.c \
- pdftexdir/pdftexextra.h $(am__append_43)
+ pdftexdir/pdftexextra.h $(am__append_44)
pdftex_ch_srcs = \
pdftexdir/pdftex.web \
pdftexdir/tex.ch0 \
@@ -1822,12 +1846,12 @@ xetex_dependencies = $(proglib) $(ICU_DEPEND) $(TECKIT_DEPEND) \
$(am__append_26) $(am__append_29) $(FREETYPE2_DEPEND) \
$(ZLIB_DEPEND)
@XETEX_MACOSX_TRUE@xetex_LDFLAGS = -framework Carbon -framework Cocoa -framework QuickTime
-xetex_CPPFLAGS = $(xetex_cppflags) $(am__append_44)
+xetex_CPPFLAGS = $(xetex_cppflags) $(am__append_45)
xetex_LDADD = $(xetex_ldadd) $(LDADD) $(ipc_socketlibs)
xetex_DEPENDENCIES = $(xetex_dependencies) $(libxetex)
xetex_c_h = xetexini.c xetex0.c xetex1.c xetex2.c xetexcoerce.h xetexd.h
nodist_xetex_SOURCES = $(xetex_c_h) xetex_pool.c xetexextra.c \
- xetexdir/xetexextra.h $(am__append_45)
+ xetexdir/xetexextra.h $(am__append_46)
xetex_web_srcs = \
tex.web \
etexdir/etex.ch \
@@ -1859,14 +1883,24 @@ libxetexmm_a_SOURCES = \
xetexdir/XeTeXFontMgr_Mac.cpp \
xetexdir/XeTeXFontMgr_Mac.h
-omegaware_programs = odvicopy odvitype otangle
+omegaware_tools = odvicopy odvitype otangle
+omegaware_font_tools = ofm2opl opl2ofm ovf2ovp ovp2ovf
+omegaware_programs = $(omegaware_tools) $(omegaware_font_tools)
ow_tangle = WEBINPUTS=$(srcdir)/omegaware $(buildenv) $(TANGLE)
nodist_odvicopy_SOURCES = odvicopy.c odvicopy.h
odvicopy_sources = omegaware/odvicopy.web omegaware/odvicopy.ch
nodist_odvitype_SOURCES = odvitype.c odvitype.h
odvitype_sources = omegaware/odvitype.web omegaware/odvitype.ch
+nodist_ofm2opl_SOURCES = ofm2opl.c ofm2opl.h
+ofm2opl_sources = omegaware/ofm2opl.web omegaware/ofm2opl.ch
+nodist_opl2ofm_SOURCES = opl2ofm.c opl2ofm.h
+opl2ofm_sources = omegaware/opl2ofm.web omegaware/opl2ofm.ch
nodist_otangle_SOURCES = otangle.c otangle.h
otangle_sources = omegaware/otangle.web omegaware/otangle.ch
+nodist_ovf2ovp_SOURCES = ovf2ovp.c ovf2ovp.h
+ovf2ovp_sources = omegaware/ovf2ovp.web omegaware/ovf2ovp.ch
+nodist_ovp2ovf_SOURCES = ovp2ovf.c ovp2ovf.h
+ovp2ovf_sources = omegaware/ovp2ovf.web omegaware/ovp2ovf.ch
aleph_LDADD = $(LDADD) $(ipc_socketlibs)
aleph_CPPFLAGS = -I$(srcdir)/alephdir $(AM_CPPFLAGS)
aleph_c_h = alephini.c aleph0.c aleph1.c aleph2.c aleph3.c alephcoerce.h alephd.h
@@ -2239,9 +2273,21 @@ odvicopy$(EXEEXT): $(odvicopy_OBJECTS) $(odvicopy_DEPENDENCIES)
odvitype$(EXEEXT): $(odvitype_OBJECTS) $(odvitype_DEPENDENCIES)
@rm -f odvitype$(EXEEXT)
$(LINK) $(odvitype_OBJECTS) $(odvitype_LDADD) $(LIBS)
+ofm2opl$(EXEEXT): $(ofm2opl_OBJECTS) $(ofm2opl_DEPENDENCIES)
+ @rm -f ofm2opl$(EXEEXT)
+ $(LINK) $(ofm2opl_OBJECTS) $(ofm2opl_LDADD) $(LIBS)
+opl2ofm$(EXEEXT): $(opl2ofm_OBJECTS) $(opl2ofm_DEPENDENCIES)
+ @rm -f opl2ofm$(EXEEXT)
+ $(LINK) $(opl2ofm_OBJECTS) $(opl2ofm_LDADD) $(LIBS)
otangle$(EXEEXT): $(otangle_OBJECTS) $(otangle_DEPENDENCIES)
@rm -f otangle$(EXEEXT)
$(LINK) $(otangle_OBJECTS) $(otangle_LDADD) $(LIBS)
+ovf2ovp$(EXEEXT): $(ovf2ovp_OBJECTS) $(ovf2ovp_DEPENDENCIES)
+ @rm -f ovf2ovp$(EXEEXT)
+ $(LINK) $(ovf2ovp_OBJECTS) $(ovf2ovp_LDADD) $(LIBS)
+ovp2ovf$(EXEEXT): $(ovp2ovf_OBJECTS) $(ovp2ovf_DEPENDENCIES)
+ @rm -f ovp2ovf$(EXEEXT)
+ $(LINK) $(ovp2ovf_OBJECTS) $(ovp2ovf_LDADD) $(LIBS)
patgen$(EXEEXT): $(patgen_OBJECTS) $(patgen_DEPENDENCIES)
@rm -f patgen$(EXEEXT)
$(LINK) $(patgen_OBJECTS) $(patgen_LDADD) $(LIBS)
@@ -2602,7 +2648,11 @@ distclean-compile:
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/mpost-mpxout.Po@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/odvicopy.Po@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/odvitype.Po@am__quote@
+@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/ofm2opl.Po@am__quote@
+@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/opl2ofm.Po@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/otangle.Po@am__quote@
+@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/ovf2ovp.Po@am__quote@
+@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/ovp2ovf.Po@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/patgen.Po@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/pdftex-dummy.Po@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@./$(DEPDIR)/pdftex-pdftex-pool.Po@am__quote@
@@ -8288,6 +8338,20 @@ odvitype-web2c: $(web2c_depend) odvitype.p
touch odvitype.c odvitype.h
odvitype.p: tangle$(EXEEXT) $(odvitype_sources)
$(ow_tangle) odvitype odvitype
+ofm2opl.c ofm2opl.h: ofm2opl-web2c
+ofm2opl-web2c: $(web2c_depend) ofm2opl.p
+ $(web2c) ofm2opl
+ echo timestamp >$@
+ touch ofm2opl.c ofm2opl.h
+ofm2opl.p: tangle$(EXEEXT) $(ofm2opl_sources)
+ $(ow_tangle) ofm2opl ofm2opl
+opl2ofm.c opl2ofm.h: opl2ofm-web2c
+opl2ofm-web2c: $(web2c_depend) opl2ofm.p
+ $(web2c) opl2ofm
+ echo timestamp >$@
+ touch opl2ofm.c opl2ofm.h
+opl2ofm.p: tangle$(EXEEXT) $(opl2ofm_sources)
+ $(ow_tangle) opl2ofm opl2ofm
otangle.c otangle.h: otangle-web2c
otangle-web2c: $(web2c_depend) otangle.p
$(web2c) otangle
@@ -8295,6 +8359,20 @@ otangle-web2c: $(web2c_depend) otangle.p
touch otangle.c otangle.h
otangle.p: tangle$(EXEEXT) $(otangle_sources)
$(ow_tangle) otangle otangle
+ovf2ovp.c ovf2ovp.h: ovf2ovp-web2c
+ovf2ovp-web2c: $(web2c_depend) ovf2ovp.p
+ $(web2c) ovf2ovp
+ echo timestamp >$@
+ touch ovf2ovp.c ovf2ovp.h
+ovf2ovp.p: tangle$(EXEEXT) $(ovf2ovp_sources)
+ $(ow_tangle) ovf2ovp ovf2ovp
+ovp2ovf.c ovp2ovf.h: ovp2ovf-web2c
+ovp2ovf-web2c: $(web2c_depend) ovp2ovf.p
+ $(web2c) ovp2ovf
+ echo timestamp >$@
+ touch ovp2ovf.c ovp2ovf.h
+ovp2ovf.p: tangle$(EXEEXT) $(ovp2ovf_sources)
+ $(ow_tangle) ovp2ovf ovp2ovf
# We must create alephd.h before building the aleph_OBJECTS.
$(aleph_OBJECTS): alephd.h
diff --git a/Build/source/texk/web2c/ac/web2c.ac b/Build/source/texk/web2c/ac/web2c.ac
index 8fd0fde6fc7..9e99a22e63e 100644
--- a/Build/source/texk/web2c/ac/web2c.ac
+++ b/Build/source/texk/web2c/ac/web2c.ac
@@ -21,6 +21,10 @@ AC_ARG_ENABLE([ipc],
AS_HELP_STRING([--disable-ipc],
[disable TeX's --ipc option, i.e., pipe to a program],
kpse_indent_26))[]dnl
+AC_ARG_ENABLE([omfonts],
+ AS_HELP_STRING([--disable-omfonts],
+ [do not compile and install omfonts (use Web2C versions)],
+ kpse_indent_26))[]dnl
m4_define([kpse_tex_progs], [dnl
[[tex], [yes], [no], [TeX], []],
[[etex], [no], [yes], [e-TeX], []],
diff --git a/Build/source/texk/web2c/configure b/Build/source/texk/web2c/configure
index 4d57fb921ee..a269ffb959a 100755
--- a/Build/source/texk/web2c/configure
+++ b/Build/source/texk/web2c/configure
@@ -860,6 +860,8 @@ MFN_FALSE
MFN_TRUE
MF_FALSE
MF_TRUE
+OMFONTS_FALSE
+OMFONTS_TRUE
OTANGLE_FALSE
OTANGLE_TRUE
XETEX_SYNCTEX_FALSE
@@ -1035,6 +1037,7 @@ with_editor
enable_auto_core
enable_dump_share
enable_ipc
+enable_omfonts
enable_tex
enable_etex
enable_aleph
@@ -1739,6 +1742,8 @@ Optional Features:
--enable-auto-core cause TeX&MF to dump core, given a certain filename
--disable-dump-share make fmt/base/mem files architecture-dependent
--disable-ipc disable TeX's --ipc option, i.e., pipe to a program
+ --disable-omfonts do not compile and install omfonts (use Web2C
+ versions)
--disable-tex do not compile and install TeX
--enable-etex compile and install e-TeX
--disable-aleph do not compile and install Aleph
@@ -4559,13 +4564,13 @@ if test "${lt_cv_nm_interface+set}" = set; then
else
lt_cv_nm_interface="BSD nm"
echo "int some_variable = 0;" > conftest.$ac_ext
- (eval echo "\"\$as_me:4562: $ac_compile\"" >&5)
+ (eval echo "\"\$as_me:4567: $ac_compile\"" >&5)
(eval "$ac_compile" 2>conftest.err)
cat conftest.err >&5
- (eval echo "\"\$as_me:4565: $NM \\\"conftest.$ac_objext\\\"\"" >&5)
+ (eval echo "\"\$as_me:4570: $NM \\\"conftest.$ac_objext\\\"\"" >&5)
(eval "$NM \"conftest.$ac_objext\"" 2>conftest.err > conftest.out)
cat conftest.err >&5
- (eval echo "\"\$as_me:4568: output\"" >&5)
+ (eval echo "\"\$as_me:4573: output\"" >&5)
cat conftest.out >&5
if $GREP 'External.*some_variable' conftest.out > /dev/null; then
lt_cv_nm_interface="MS dumpbin"
@@ -5771,7 +5776,7 @@ ia64-*-hpux*)
;;
*-*-irix6*)
# Find out which ABI we are using.
- echo '#line 5774 "configure"' > conftest.$ac_ext
+ echo '#line 5779 "configure"' > conftest.$ac_ext
if { (eval echo "$as_me:$LINENO: \"$ac_compile\"") >&5
(eval $ac_compile) 2>&5
ac_status=$?
@@ -7717,11 +7722,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:7720: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:7725: $lt_compile\"" >&5)
(eval "$lt_compile" 2>conftest.err)
ac_status=$?
cat conftest.err >&5
- echo "$as_me:7724: \$? = $ac_status" >&5
+ echo "$as_me:7729: \$? = $ac_status" >&5
if (exit $ac_status) && test -s "$ac_outfile"; then
# The compiler can only warn and ignore the option if not recognized
# So say no if there are warnings other than the usual output.
@@ -8056,11 +8061,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:8059: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:8064: $lt_compile\"" >&5)
(eval "$lt_compile" 2>conftest.err)
ac_status=$?
cat conftest.err >&5
- echo "$as_me:8063: \$? = $ac_status" >&5
+ echo "$as_me:8068: \$? = $ac_status" >&5
if (exit $ac_status) && test -s "$ac_outfile"; then
# The compiler can only warn and ignore the option if not recognized
# So say no if there are warnings other than the usual output.
@@ -8161,11 +8166,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:8164: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:8169: $lt_compile\"" >&5)
(eval "$lt_compile" 2>out/conftest.err)
ac_status=$?
cat out/conftest.err >&5
- echo "$as_me:8168: \$? = $ac_status" >&5
+ echo "$as_me:8173: \$? = $ac_status" >&5
if (exit $ac_status) && test -s out/conftest2.$ac_objext
then
# The compiler can only warn and ignore the option if not recognized
@@ -8216,11 +8221,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:8219: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:8224: $lt_compile\"" >&5)
(eval "$lt_compile" 2>out/conftest.err)
ac_status=$?
cat out/conftest.err >&5
- echo "$as_me:8223: \$? = $ac_status" >&5
+ echo "$as_me:8228: \$? = $ac_status" >&5
if (exit $ac_status) && test -s out/conftest2.$ac_objext
then
# The compiler can only warn and ignore the option if not recognized
@@ -11016,7 +11021,7 @@ else
lt_dlunknown=0; lt_dlno_uscore=1; lt_dlneed_uscore=2
lt_status=$lt_dlunknown
cat > conftest.$ac_ext <<_LT_EOF
-#line 11019 "configure"
+#line 11024 "configure"
#include "confdefs.h"
#if HAVE_DLFCN_H
@@ -11112,7 +11117,7 @@ else
lt_dlunknown=0; lt_dlno_uscore=1; lt_dlneed_uscore=2
lt_status=$lt_dlunknown
cat > conftest.$ac_ext <<_LT_EOF
-#line 11115 "configure"
+#line 11120 "configure"
#include "confdefs.h"
#if HAVE_DLFCN_H
@@ -16166,11 +16171,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:16169: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:16174: $lt_compile\"" >&5)
(eval "$lt_compile" 2>conftest.err)
ac_status=$?
cat conftest.err >&5
- echo "$as_me:16173: \$? = $ac_status" >&5
+ echo "$as_me:16178: \$? = $ac_status" >&5
if (exit $ac_status) && test -s "$ac_outfile"; then
# The compiler can only warn and ignore the option if not recognized
# So say no if there are warnings other than the usual output.
@@ -16265,11 +16270,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:16268: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:16273: $lt_compile\"" >&5)
(eval "$lt_compile" 2>out/conftest.err)
ac_status=$?
cat out/conftest.err >&5
- echo "$as_me:16272: \$? = $ac_status" >&5
+ echo "$as_me:16277: \$? = $ac_status" >&5
if (exit $ac_status) && test -s out/conftest2.$ac_objext
then
# The compiler can only warn and ignore the option if not recognized
@@ -16317,11 +16322,11 @@ else
-e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
-e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
-e 's:$: $lt_compiler_flag:'`
- (eval echo "\"\$as_me:16320: $lt_compile\"" >&5)
+ (eval echo "\"\$as_me:16325: $lt_compile\"" >&5)
(eval "$lt_compile" 2>out/conftest.err)
ac_status=$?
cat out/conftest.err >&5
- echo "$as_me:16324: \$? = $ac_status" >&5
+ echo "$as_me:16329: \$? = $ac_status" >&5
if (exit $ac_status) && test -s out/conftest2.$ac_objext
then
# The compiler can only warn and ignore the option if not recognized
@@ -17586,6 +17591,10 @@ fi
if test "${enable_ipc+set}" = set; then
enableval=$enable_ipc;
fi
+# Check whether --enable-omfonts was given.
+if test "${enable_omfonts+set}" = set; then
+ enableval=$enable_omfonts;
+fi
# Check whether --enable-tex was given.
if test "${enable_tex+set}" = set; then
enableval=$enable_tex;
@@ -18846,6 +18855,15 @@ else
OTANGLE_FALSE=
fi
+ if test "x$enable_omfonts" != xno; then
+ OMFONTS_TRUE=
+ OMFONTS_FALSE='#'
+else
+ OMFONTS_TRUE='#'
+ OMFONTS_FALSE=
+fi
+
+
if test "x$enable_mf" != xno; then
MF_TRUE=
MF_FALSE='#'
@@ -24958,6 +24976,13 @@ $as_echo "$as_me: error: conditional \"OTANGLE\" was never defined.
Usually this means the macro was only invoked conditionally." >&2;}
{ (exit 1); exit 1; }; }
fi
+if test -z "${OMFONTS_TRUE}" && test -z "${OMFONTS_FALSE}"; then
+ { { $as_echo "$as_me:$LINENO: error: conditional \"OMFONTS\" was never defined.
+Usually this means the macro was only invoked conditionally." >&5
+$as_echo "$as_me: error: conditional \"OMFONTS\" was never defined.
+Usually this means the macro was only invoked conditionally." >&2;}
+ { (exit 1); exit 1; }; }
+fi
if test -z "${MF_TRUE}" && test -z "${MF_FALSE}"; then
{ { $as_echo "$as_me:$LINENO: error: conditional \"MF\" was never defined.
Usually this means the macro was only invoked conditionally." >&5
diff --git a/Build/source/texk/web2c/configure.ac b/Build/source/texk/web2c/configure.ac
index c3649484fd5..fe23be2bb2b 100644
--- a/Build/source/texk/web2c/configure.ac
+++ b/Build/source/texk/web2c/configure.ac
@@ -138,6 +138,8 @@ AS_IF([test "x$enable_aleph:$enable_xetex" = xno:no],
AM_CONDITIONAL([OTANGLE],
[test "x$enable_otangle" = xyes])[]dnl
+AM_CONDITIONAL([OMFONTS], [test "x$enable_omfonts" != xno])
+
AM_CONDITIONAL([MF], [test "x$enable_mf" != xno])
AM_CONDITIONAL([MFN], [test "x$enable_mf_nowin" != xno])
diff --git a/Build/source/texk/web2c/omegafonts/Makefile.am b/Build/source/texk/web2c/omegafonts/Makefile.am
index 479fcf3c9a8..d8b553a639a 100644
--- a/Build/source/texk/web2c/omegafonts/Makefile.am
+++ b/Build/source/texk/web2c/omegafonts/Makefile.am
@@ -19,7 +19,10 @@ $(proglib): $(KPATHSEA_DEPEND) ${top_srcdir}/lib/*.c
## Rebuild libkpathsea
@KPATHSEA_RULE@
+if OTANGLE
bin_PROGRAMS = omfonts
+endif OTANGLE
+EXTRA_PROGRAMS = omfonts
omfonts_SOURCES = \
char_routines.c \
@@ -62,15 +65,16 @@ DISTCLEANFILES = pl-parser.output
linked_programs = ofm2opl opl2ofm ovf2ovp ovp2ovf
+if OTANGLE
install-exec-hook:
cd $(DESTDIR)$(bindir) && \
for f in $(linked_programs); do \
rm -f $$f$(EXEEXT) && \
$(LN_S) omfonts$(EXEEXT) $$f$(EXEEXT) || exit 1; \
done
-
unistall-hook:
for f in $(linked_programs); do \
rm -f $(DESTDIR)$(bindir)/$$f$(EXEEXT); \
done
+endif OTANGLE
diff --git a/Build/source/texk/web2c/omegafonts/Makefile.in b/Build/source/texk/web2c/omegafonts/Makefile.in
index eae2202ad1a..cbb33f321dd 100644
--- a/Build/source/texk/web2c/omegafonts/Makefile.in
+++ b/Build/source/texk/web2c/omegafonts/Makefile.in
@@ -34,7 +34,8 @@ PRE_UNINSTALL = :
POST_UNINSTALL = :
build_triplet = @build@
host_triplet = @host@
-bin_PROGRAMS = omfonts$(EXEEXT)
+@OTANGLE_TRUE@bin_PROGRAMS = omfonts$(EXEEXT)
+EXTRA_PROGRAMS = omfonts$(EXEEXT)
subdir = omegafonts
DIST_COMMON = $(srcdir)/Makefile.am $(srcdir)/Makefile.in ChangeLog \
pl-lexer.c pl-parser.c pl-parser.h
@@ -589,6 +590,7 @@ maintainer-clean-generic:
-rm -f pl-lexer.c
-rm -f pl-parser.c
-rm -f pl-parser.h
+@OTANGLE_FALSE@install-exec-hook:
clean: clean-am
clean-am: clean-binPROGRAMS clean-generic clean-libtool mostlyclean-am
@@ -687,17 +689,16 @@ $(proglib): $(KPATHSEA_DEPEND) ${top_srcdir}/lib/*.c
@KPATHSEA_RULE@
-install-exec-hook:
- cd $(DESTDIR)$(bindir) && \
- for f in $(linked_programs); do \
- rm -f $$f$(EXEEXT) && \
- $(LN_S) omfonts$(EXEEXT) $$f$(EXEEXT) || exit 1; \
- done
-
-unistall-hook:
- for f in $(linked_programs); do \
- rm -f $(DESTDIR)$(bindir)/$$f$(EXEEXT); \
- done
+@OTANGLE_TRUE@install-exec-hook:
+@OTANGLE_TRUE@ cd $(DESTDIR)$(bindir) && \
+@OTANGLE_TRUE@ for f in $(linked_programs); do \
+@OTANGLE_TRUE@ rm -f $$f$(EXEEXT) && \
+@OTANGLE_TRUE@ $(LN_S) omfonts$(EXEEXT) $$f$(EXEEXT) || exit 1; \
+@OTANGLE_TRUE@ done
+@OTANGLE_TRUE@unistall-hook:
+@OTANGLE_TRUE@ for f in $(linked_programs); do \
+@OTANGLE_TRUE@ rm -f $(DESTDIR)$(bindir)/$$f$(EXEEXT); \
+@OTANGLE_TRUE@ done
# Tell versions [3.59,3.63) of GNU make to not export all variables.
# Otherwise a system limit (for SysV at least) may be exceeded.
diff --git a/Build/source/texk/web2c/omegaware/ChangeLog b/Build/source/texk/web2c/omegaware/ChangeLog
index 3641928bb4e..34f6cf91f5a 100644
--- a/Build/source/texk/web2c/omegaware/ChangeLog
+++ b/Build/source/texk/web2c/omegaware/ChangeLog
@@ -1,3 +1,7 @@
+2009-05-29 Peter Breitenlohner <peb@mppmu.mpg.de>
+
+ * {ofm2opl,opl2ofm,ovf2ovp,ovp2ovf}.{ch,web}: revived.
+
2009-05-26 Peter Breitenlohner <peb@mppmu.mpg.de>
* {ofm2opl,opl2ofm,ovf2ovp,ovp2ovf}.{ch,web} (removed):
diff --git a/Build/source/texk/web2c/omegaware/am/omegaware.am b/Build/source/texk/web2c/omegaware/am/omegaware.am
index 4351dc680d7..8cae810b4ee 100644
--- a/Build/source/texk/web2c/omegaware/am/omegaware.am
+++ b/Build/source/texk/web2c/omegaware/am/omegaware.am
@@ -3,10 +3,15 @@
## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
## You may freely use, modify and/or distribute this file.
-omegaware_programs = odvicopy odvitype otangle
+omegaware_tools = odvicopy odvitype otangle
+omegaware_font_tools = ofm2opl opl2ofm ovf2ovp ovp2ovf
+omegaware_programs = $(omegaware_tools) $(omegaware_font_tools)
if OTANGLE
-bin_PROGRAMS += $(omegaware_programs)
+bin_PROGRAMS += $(omegaware_tools)
+if !OMFONTS
+bin_PROGRAMS += $(omegaware_font_tools)
+endif !OMFONTS
endif OTANGLE
EXTRA_PROGRAMS += $(omegaware_programs)
@@ -38,6 +43,28 @@ odvitype_sources = omegaware/odvitype.web omegaware/odvitype.ch
odvitype.p: tangle$(EXEEXT) $(odvitype_sources)
$(ow_tangle) odvitype odvitype
+nodist_ofm2opl_SOURCES = ofm2opl.c ofm2opl.h
+ofm2opl.c ofm2opl.h: ofm2opl-web2c
+ofm2opl-web2c: $(web2c_depend) ofm2opl.p
+ $(web2c) ofm2opl
+ echo timestamp >$@
+ touch ofm2opl.c ofm2opl.h
+EXTRA_DIST += $(ofm2opl_sources)
+ofm2opl_sources = omegaware/ofm2opl.web omegaware/ofm2opl.ch
+ofm2opl.p: tangle$(EXEEXT) $(ofm2opl_sources)
+ $(ow_tangle) ofm2opl ofm2opl
+
+nodist_opl2ofm_SOURCES = opl2ofm.c opl2ofm.h
+opl2ofm.c opl2ofm.h: opl2ofm-web2c
+opl2ofm-web2c: $(web2c_depend) opl2ofm.p
+ $(web2c) opl2ofm
+ echo timestamp >$@
+ touch opl2ofm.c opl2ofm.h
+EXTRA_DIST += $(opl2ofm_sources)
+opl2ofm_sources = omegaware/opl2ofm.web omegaware/opl2ofm.ch
+opl2ofm.p: tangle$(EXEEXT) $(opl2ofm_sources)
+ $(ow_tangle) opl2ofm opl2ofm
+
nodist_otangle_SOURCES = otangle.c otangle.h
otangle.c otangle.h: otangle-web2c
otangle-web2c: $(web2c_depend) otangle.p
@@ -49,6 +76,28 @@ otangle_sources = omegaware/otangle.web omegaware/otangle.ch
otangle.p: tangle$(EXEEXT) $(otangle_sources)
$(ow_tangle) otangle otangle
+nodist_ovf2ovp_SOURCES = ovf2ovp.c ovf2ovp.h
+ovf2ovp.c ovf2ovp.h: ovf2ovp-web2c
+ovf2ovp-web2c: $(web2c_depend) ovf2ovp.p
+ $(web2c) ovf2ovp
+ echo timestamp >$@
+ touch ovf2ovp.c ovf2ovp.h
+EXTRA_DIST += $(ovf2ovp_sources)
+ovf2ovp_sources = omegaware/ovf2ovp.web omegaware/ovf2ovp.ch
+ovf2ovp.p: tangle$(EXEEXT) $(ovf2ovp_sources)
+ $(ow_tangle) ovf2ovp ovf2ovp
+
+nodist_ovp2ovf_SOURCES = ovp2ovf.c ovp2ovf.h
+ovp2ovf.c ovp2ovf.h: ovp2ovf-web2c
+ovp2ovf-web2c: $(web2c_depend) ovp2ovf.p
+ $(web2c) ovp2ovf
+ echo timestamp >$@
+ touch ovp2ovf.c ovp2ovf.h
+EXTRA_DIST += $(ovp2ovf_sources)
+ovp2ovf_sources = omegaware/ovp2ovf.web omegaware/ovp2ovf.ch
+ovp2ovf.p: tangle$(EXEEXT) $(ovp2ovf_sources)
+ $(ow_tangle) ovp2ovf ovp2ovf
+
## Tests
##
EXTRA_DIST += omegaware/otangle.test
diff --git a/Build/source/texk/web2c/omegaware/ofm2opl.ch b/Build/source/texk/web2c/omegaware/ofm2opl.ch
new file mode 100644
index 00000000000..4b99c98d152
--- /dev/null
+++ b/Build/source/texk/web2c/omegaware/ofm2opl.ch
@@ -0,0 +1,461 @@
+%
+% This file is part of the Omega project, which
+% is based in the web2c distribution of TeX.
+%
+% Copyright (c) 1994--1998 John Plaice and Yannis Haralambous
+% applies only to the changes to the original tftopl.ch.
+%
+% tftopl.ch for C compilation with web2c.
+%
+% 04/04/83 (PC) Original version, made to work with version 1.0 of TFtoPL,
+% released with version 0.96 of TeX in February, 1983.
+% 04/16/83 (PC) Brought up to version 1.0 released with version 0.97 of TeX
+% in April, 1983.
+% 06/30/83 (HWT) Revised changefile format, for use with version 1.7 Tangle.
+% 07/28/83 (HWT) Brought up to version 2
+% 11/21/83 (HWT) Brought up to version 2.1
+% 03/24/84 (HWT) Brought up to version 2.2
+% 07/12/84 (HWT) Brought up to version 2.3
+% 07/05/87 (ETM) Brought up to version 2.5
+% 03/22/88 (ETM) Converted for use with WEB to C.
+% 11/30/89 (KB) Version 3.
+% 01/16/90 (SR) Version 3.1.
+% (more recent changes in the ChangeLog)
+
+@x [0] WEAVE: print changes only.
+\pageno=\contentspagenumber \advance\pageno by 1
+@y
+\pageno=\contentspagenumber \advance\pageno by 1
+%\let\maybe=\iffalse
+%\def\title{TF\lowercase{to}PL changes for C}
+@z
+
+% [2] Fix files in program statement. We need to tell web2c about one
+% special variable. Perhaps it would be better to allow @define's
+% anywhere in a source file, but that seemed just as painful as this.
+@x
+@p program OFM2OPL(@!tfm_file,@!pl_file,@!output);
+@y
+@p
+{Tangle doesn't recognize @@ when it's right after the \.=.}
+@\@= @@define var tfm;@>@\
+program OFM2OPL(@!tfm_file,@!pl_file,@!output);
+@z
+
+@x [still 2] Don't print banner until later (and unless verbose).
+procedure initialize; {this procedure gets things started properly}
+ begin print_ln(banner);@/
+@y
+@<Define |parse_arguments|@>
+procedure initialize; {this procedure gets things started properly}
+ begin
+ kpse_set_progname (argv[0]);
+ kpse_init_prog ('OFM2OPL', 0, nil, nil);
+ {We |xrealloc| when we know how big the file is. The 1000 comes
+ from the negative lower bound.}
+ tfm_file_array := cast_to_byte_pointer (xmalloc (2000000));
+ parse_arguments;
+@z
+
+%@x [5] Increase sizes to match vptovf.
+%@!tfm_size=30000; {maximum length of |tfm| data, in bytes}
+%@!lig_size=5000; {maximum length of |lig_kern| program, in words}
+%@!hash_size=5003; {preferably a prime number, a bit larger than the number
+% of character pairs in lig/kern steps}
+%@y
+%@!tfm_size=40000; {maximum length of |tfm| data, in bytes}
+%@!lig_size=8000; {maximum length of |lig_kern| program, in words ($<2^{15}$)}
+%@!hash_size=8009; {preferably a prime number, a bit larger than the number
+% of character pairs in lig/kern steps}
+%@z
+
+@x [7] Open the TFM file.
+@ On some systems you may have to do something special to read a
+packed file of bytes. For example, the following code didn't work
+when it was first tried at Stanford, because packed files have to be
+opened with a special switch setting on the \PASCAL\ that was used.
+@^system dependencies@>
+
+@<Set init...@>=
+reset(tfm_file);
+@y
+@ On some systems you may have to do something special to read a
+packed file of bytes. With C under Unix, we just open the file by name
+and read characters from it.
+
+@<Set init...@>=
+tfm_file := kpse_open_file (tfm_name, kpse_ofm_format);
+if verbose then begin
+ print (banner);
+ print_ln (version_string);
+end;
+@z
+
+@x [17] Open the PL file.
+@!pl_file:text;
+
+@ @<Set init...@>=
+rewrite(pl_file);
+@y
+@!pl_file:text;
+
+@ If an explicit filename isn't given, we write to |stdout|.
+
+@<Set init...@>=
+if optind + 1 = argc then begin
+ pl_file := stdout;
+end else begin
+ pl_name := extend_filename (cmdline (optind + 1), 'opl');
+ rewrite (pl_file, pl_name);
+end;
+@z
+
+@x [18,19] Make |tfm| be dynamically allocated, and rename `index'.
+@<Types...@>=
+@!byte=0..255; {unsigned eight-bit quantity}
+@!index=-1000..tfm_size; {address of a byte in |tfm|}
+@!char_type=0..65535;
+@!xchar_type=0..65536;
+@!xxchar_type=0..65537;
+@!xxxchar_type=0..65538;
+
+@
+@<Glob...@>=
+@!tfm:array [-1000..tfm_size] of byte; {the input data all goes here}
+@y
+@d index == index_type
+
+@<Types...@>=
+@!byte=0..255; {unsigned eight-bit quantity}
+@!index=integer; {address of a byte in |tfm|}
+@!char_type=0..65535;
+@!xchar_type=0..65536;
+@!xxchar_type=0..65537;
+@!xxxchar_type=0..65538;
+
+@ CHECK OUT tfm array ranges.
+@<Glob...@>=
+{Kludge here to define |tfm| as a macro which takes care of the negative
+ lower bound. We've defined |tfm| for the benefit of web2c above.}
+@=#define tfm (tfmfilearray + 1001);@>@\
+@!tfm_file_array: pointer_to_byte; {the input data all goes here}
+@z
+
+@x [20] Send error output to stderr.
+@d abort(#)==begin print_ln(#);
+ print_ln('Sorry, but I can''t go on; are you sure this is a OFM?');
+@y
+@d abort(#)==begin write_ln(stderr, #);
+ write_ln(stderr, 'Sorry, but I can''t go on; are you sure this is a OFM?');
+@z
+
+@x [20] Allow arbitrarily large input files.
+if 4*lf-1>tfm_size then abort('The file is bigger than I can handle!');
+@.The file is bigger...@>
+@y
+{|tfm_file_array
+ := cast_to_byte_pointer (xrealloc (tfm_file_array, 4 * lf - 1 + 1108));|}
+@z
+
+% [27, 28] Change strings to C char pointers. The Pascal strings are
+% indexed starting at 1, so we pad with a blank.
+@x
+@!ASCII_04,@!ASCII_10,@!ASCII_14,HEX: packed array [1..32] of char;
+ {strings for output in the user's external character set}
+@!MBL_string,@!RI_string,@!RCE_string:packed array [1..3] of char;
+ {handy string constants for |face| codes}
+@y
+@!ASCII_04,@!ASCII_10,@!ASCII_14,HEX: c_string;
+ {strings for output in the user's external character set}
+@!ASCII_all: packed array[0..256] of char;
+@!MBL_string,@!RI_string,@!RCE_string: c_string;
+ {handy string constants for |face| codes}
+@z
+
+@x
+ASCII_04:=' !"#$%&''()*+,-./0123456789:;<=>?';@/
+ASCII_10:='@@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_';@/
+ASCII_14:='`abcdefghijklmnopqrstuvwxyz{|}~ ';@/
+HEX:='0123456789ABCDEF';@/
+MBL_string:='MBL'; RI_string:='RI '; RCE_string:='RCE';
+@y
+ASCII_04:=' !"#$%&''()*+,-./0123456789:;<=>?';@/
+ASCII_10:=' @@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_';@/
+ASCII_14:=' `abcdefghijklmnopqrstuvwxyz{|}~ ';@/
+HEX:=' 0123456789ABCDEF';@/
+strcpy (ASCII_all, ASCII_04);
+strcat (ASCII_all, '@@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_');
+strcat (ASCII_all, '`abcdefghijklmnopqrstuvwxyz{|}~');@/
+MBL_string:=' MBL'; RI_string:=' RI '; RCE_string:=' RCE';
+@z
+
+% [38] How we output the character code depends on |charcode_format|.
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@x
+begin if font_type>vanilla then
+ out_hex_char(c)
+else if (c>="0")and(c<="9") then
+ out(' C ',c-"0":1)
+else if (c>="A")and(c<="Z") then
+ out(' C ',ASCII_10[c-"A"+2])
+else if (c>="a")and(c<="z") then
+ out(' C ',ASCII_14[c-"a"+2])
+else out_hex_char(c);
+@y
+begin if (font_type > vanilla) or (charcode_format = charcode_hex) then
+ out_hex_char(c)
+else if (charcode_format = charcode_ascii) and (c > " ") and (c <= "~")
+ and (c <> "(") and (c <> ")") then
+ out(' C ', ASCII_all[c - " " + 1])
+{default case, use hex}
+else out_hex_char(c);
+@z
+
+% [39] Don't output the face code as an integer.
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@x
+ out(MBL_string[1+(b mod 3)]);
+ out(RI_string[1+s]);
+ out(RCE_string[1+(b div 3)]);
+@y
+ put_byte(MBL_string[1+(b mod 3)], pl_file);
+ put_byte(RI_string[1+s], pl_file);
+ put_byte(RCE_string[1+(b div 3)], pl_file);
+@z
+
+@x [40] Force 32-bit constant arithmetic for 16-bit machines.
+f:=((tfm[k+1] mod 16)*@'400+tfm[k+2])*@'400+tfm[k+3];
+@y
+f:=((tfm[k+1] mod 16)*intcast(@'400)+tfm[k+2])*@'400+tfm[k+3];
+@z
+
+% [78] No progress reports unless verbose.
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@x
+ incr(chars_on_line);
+ end;
+ if no_repeats(c)>0 then begin
+ print_hex(c); print('-'); print_hex(c+no_repeats(c));
+ left; out('CHARREPEAT'); out_char(c); out_char(no_repeats(c)); out_ln;
+ end
+ else begin
+ print_hex(c); {progress report}
+ left; out('CHARACTER'); out_char(c); out_ln;
+ end;
+@y
+ if verbose then incr(chars_on_line);
+ end;
+ if no_repeats(c)>0 then begin
+ if verbose then begin
+ print_hex(c); print('-'); print_hex(c+no_repeats(c));
+ end;
+ left; out('CHARREPEAT'); out_char(c); out_char(no_repeats(c)); out_ln;
+ end
+ else begin
+ if verbose then print_hex(c); {progress report}
+ left; out('CHARACTER'); out_char(c); out_ln;
+ end;
+@z
+
+% [89] Change the name of the variable `class', since AIX 3.1's <math.h>
+% defines a function by that name.
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@x
+@d pending=4 {$f(x,y)$ is being evaluated}
+@y
+@d pending=4 {$f(x,y)$ is being evaluated}
+
+@d class == class_var
+@z
+
+% [90] Change name of the function `f'.
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@x
+ r:=f(r,(hash[r]-1)div xmax_char,(hash[r]-1)mod xmax_char);
+@y
+ r:=f_fn(r,(hash[r]-1)div xmax_char,(hash[r]-1)mod xmax_char);
+@z
+
+% [94] web2c can't handle these mutually recursive procedures.
+% But let's do a fake definition of f here, so that it gets into web2c's
+% symbol table. We also have to change the name, because there is also a
+% variable named `f', and some C compilers can't deal with that.
+@x
+@p function f(@!h,@!x,@!y:index):index; forward;@t\2@>
+ {compute $f$ for arguments known to be in |hash[h]|}
+@y
+@p
+ifdef('notdef')
+function f_fn(@!h,@!x,@!y:index):index; begin end;@t\2@>
+ {compute $f$ for arguments known to be in |hash[h]|}
+endif('notdef')
+@z
+@x
+else eval:=f(h,x,y);
+@y
+else eval:=f_fn(h,x,y);
+@z
+
+% [95] The real definition of f.
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@x
+@p function f;
+@y
+@p function f_fn(@!h,@!x,@!y:index):index;
+@z
+@x
+f:=lig_z[h];
+@y
+f_fn:=lig_z[h];
+@z
+
+% [99] No final newline unless verbose.
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@x
+do_characters; print_ln('.');@/
+@y
+do_characters; if verbose then print_ln('.');@/
+@z
+
+@x [100] System-dependent changes.
+This section should be replaced, if necessary, by changes to the program
+that are necessary to make \.{TFtoPL} work at a particular installation.
+It is usually best to design your change file so that all changes to
+previous sections preserve the section numbering; then everybody's version
+will be consistent with the printed program. More extensive changes,
+which introduce new sections, can be inserted here; then only the index
+itself will get a new section number.
+@^system dependencies@>
+@y
+Parse a Unix-style command line.
+
+@d argument_is (#) == (strcmp (long_options[option_index].name, #) = 0)
+
+@<Define |parse_arguments|@> =
+procedure parse_arguments;
+const n_options = 4; {Pascal won't count array lengths for us.}
+var @!long_options: array[0..n_options] of getopt_struct;
+ @!getopt_return_val: integer;
+ @!option_index: c_int_type;
+ @!current_option: 0..n_options;
+begin
+ @<Initialize the option variables@>;
+ @<Define the option table@>;
+ repeat
+ getopt_return_val := getopt_long_only (argc, argv, '', long_options,
+ address_of (option_index));
+ if getopt_return_val = -1 then begin
+ {End of arguments; we exit the loop below.} ;
+
+ end else if getopt_return_val = "?" then begin
+ usage ('ofm2opl');
+
+ end else if argument_is ('help') then begin
+ usage_help (OFM2OPL_HELP, nil);
+
+ end else if argument_is ('version') then begin
+ print_version_and_exit
+ (banner, nil, 'J. Plaice, Y. Haralambous, D.E. Knuth', nil);
+
+ end else if argument_is ('charcode-format') then begin
+ if strcmp (optarg, 'ascii') = 0 then
+ charcode_format := charcode_ascii
+ else if strcmp (optarg, 'hex') = 0 then
+ charcode_format := charcode_hex
+ else
+ write_ln (stderr, 'Bad character code format', optarg, '.');
+
+ end; {Else it was a flag; |getopt| has already done the assignment.}
+ until getopt_return_val = -1;
+
+ {Now |optind| is the index of first non-option on the command line.}
+ if (optind + 1 <> argc) and (optind + 2 <> argc) then begin
+ write_ln (stderr, 'ofm2opl: Need one or two file arguments.');
+ usage ('ofm2opl');
+ end;
+
+ tfm_name := cmdline (optind);
+end;
+
+@ Here are the options we allow. The first is one of the standard GNU options.
+@.-help@>
+
+@<Define the option...@> =
+current_option := 0;
+long_options[current_option].name := 'help';
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+incr (current_option);
+
+@ Another of the standard options.
+@.-version@>
+
+@<Define the option...@> =
+long_options[current_option].name := 'version';
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+incr (current_option);
+
+@ Print progress information?
+@.-verbose@>
+
+@<Define the option...@> =
+long_options[current_option].name := 'verbose';
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := address_of (verbose);
+long_options[current_option].val := 1;
+incr (current_option);
+
+@
+@<Glob...@> =
+@!verbose: c_int_type;
+
+@
+@<Initialize the option...@> =
+verbose := false;
+
+@ This option changes how we output character codes.
+@.-charcode-format@>
+
+@<Define the option...@> =
+long_options[current_option].name := 'charcode-format';
+long_options[current_option].has_arg := 1;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+incr (current_option);
+
+@ We use an ``enumerated'' type to store the information.
+
+@<Type...@> =
+@!charcode_format_type = charcode_ascii..charcode_default;
+
+@
+@<Const...@> =
+@!charcode_ascii = 0;
+@!charcode_hex = 1;
+@!charcode_default = 2;
+
+@
+@<Global...@> =
+@!charcode_format: charcode_format_type;
+
+@ It starts off as the default, which is hex for OFM2OPL.
+
+@<Initialize the option...@> =
+charcode_format := charcode_default;
+
+@ An element with all zeros always ends the list.
+
+@<Define the option...@> =
+long_options[current_option].name := 0;
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+
+@ Global filenames.
+
+@<Global...@> =
+@!tfm_name, @!pl_name:c_string;
+@z
diff --git a/Build/source/texk/web2c/omegaware/ofm2opl.web b/Build/source/texk/web2c/omegaware/ofm2opl.web
new file mode 100644
index 00000000000..d18931fd3a9
--- /dev/null
+++ b/Build/source/texk/web2c/omegaware/ofm2opl.web
@@ -0,0 +1,2322 @@
+%
+% This file is part of the Omega project, which
+% is based in the web2c distribution of TeX.
+%
+% Copyright (c) 1994--2000 John Plaice and Yannis Haralambous
+% applies only to the changes to the original tftopl.web.
+%
+% This program by D. E. Knuth is not copyrighted and can be used freely.
+% Version 0 was implemented in January 1982.
+% In February 1982 a new restriction on ligature steps was added.
+% In June 1982 the routines were divided into smaller pieces for IBM people,
+% and the result was designated "Version 1" in September 1982.
+% Slight changes were made in October, 1982, for version 0.6 of TeX.
+% Version 2 (July 1983) was released with TeX version 0.999.
+% Version 2.1 (September 1983) changed TEXINFO to FONTDIMEN.
+% Version 2.2 (February 1984) simplified decimal fraction output.
+% Version 2.3 (May 1984) fixed a bug when lh=17.
+% Version 2.4 (July 1984) fixed a bug involving unused ligature code.
+% Version 2.5 (September 1985) updated the standard codingscheme names.
+% Version 3 (October 1989) introduced new ligature capabilities.
+% Version 3.1 (November 1989) renamed z[] to lig_z[] for better portability.
+
+% Version 1.0 of OFM2OPL (December 1995) allows one to read OFM files.
+
+% Here is TeX material that gets inserted after \input webmac
+\def\hang{\hangindent 3em\indent\ignorespaces}
+\font\ninerm=cmr9
+\let\mc=\ninerm % medium caps for names like SAIL
+\def\PASCAL{Pascal}
+
+\def\(#1){} % this is used to make section names sort themselves better
+\def\9#1{} % this is used for sort keys in the index
+
+\def\title{OFM2OPL}
+\def\contentspagenumber{201}
+\def\topofcontents{\null
+ \def\titlepage{F} % include headline on the contents page
+ \def\rheader{\mainfont\hfil \contentspagenumber}
+ \vfill
+ \centerline{\titlefont The {\ttitlefont OFM2OPL} processor}
+ \vskip 15pt
+ \centerline{(Version 1.11, February 2000)}
+ \vfill}
+\def\botofcontents{\vfill
+ \centerline{\hsize 5in\baselineskip9pt
+ \vbox{\ninerm\noindent
+ The preparation of the original report
+ by D. E. Knuth
+ was supported in part by the National Science
+ Foundation under grants IST-8201926 and MCS-8300984,
+ and by the System Development Foundation. `\TeX' is a
+ trademark of the American Mathematical Society.}}}
+\pageno=\contentspagenumber \advance\pageno by 1
+
+@* Introduction.
+The \.{OFM2OPL} utility program converts $\Omega$ and \TeX\ font
+metric (``\.{TFM}'' and ``\.{OFM}'') files into equivalent
+property-list (``\.{PL}'' and ``\.{OPL}'') files. It also
+makes a thorough check of the given \.{TFM} or \.{OFM} file,
+using essentially the same algorithm as \TeX\ or $\Omega$. Thus
+if \TeX\ or $\Omega$ complains that a \.{TFM} or an \.{OFM}
+file is ``bad,'' this program will pinpoint the source or sources of
+badness. A \.{PL} or \.{OPL} file output by this program can be edited
+with a normal text editor, and the result can be converted back to \.{TFM}
+or \.{OFM} format using the companion program \.{OPLtoOFM}.
+
+The first \.{TFtoPL} program was designed by Leo Guibas in the summer of
+1978. Contributions by Frank Liang, Doug Wyatt, and Lyle Ramshaw
+also had a significant effect on the evolution of the present code.
+
+Extensions for an enhanced ligature mechanism were added by
+D. E. Knuth in 1989.
+
+Extensions to handle extended font metric files (``\.{OFM}'') were
+added by John Plaice in December 1995 and January 1996, resulting in
+the new program \.{OFM2OPL}. In the following documentation, all
+unchanged references to the \.{TFtoPL} program and to \.{TFM} and
+\.{PL} files also apply to the \.{OFM2OPL} program and to \.{OFM}
+and \.{OPL} files.
+
+The |banner| string defined here should be changed whenever \.{OFM2OPL}
+gets modified.
+
+@d banner=='This is OFM2OPL, Version 1.11'
+
+@ This program is written entirely in standard \PASCAL, except that
+it occasionally has lower case letters in strings that are output.
+Such letters can be converted to upper case if necessary. The input is read
+from |tfm_file|, and the output is written on |pl_file|; error messages and
+other remarks are written on the |output| file, which the user may
+choose to assign to the terminal if the system permits it.
+@^system dependencies@>
+
+The term |print| is used instead of |write| when this program writes on
+the |output| file, so that all such output can be easily deflected.
+
+@d print(#)==write(#)
+@d print_ln(#)==write_ln(#)
+
+@p program OFM2OPL(@!tfm_file,@!pl_file,@!output);
+label @<Labels in the outer block@>@/
+const @<Constants in the outer block@>@/
+type @<Types in the outer block@>@/
+var @<Globals in the outer block@>@/
+procedure initialize; {this procedure gets things started properly}
+ begin print_ln(banner);@/
+ @<Set initial values@>@/
+ end;
+
+@ If the program has to stop prematurely, it goes to the
+`|final_end|'.
+
+@d final_end=9999 {label for the end of it all}
+
+@<Labels...@>=final_end;
+
+@ The following parameters can be changed at compile time to extend or
+reduce \.{TFtoPL}'s capacity.
+
+@<Constants...@>=
+@!tfm_size=2000000; {maximum length of |tfm| data, in bytes}
+@!lig_size=800000; {maximum length of |lig_kern| program, in words}
+@!hash_size=130003; {preferably a prime number, a bit larger than the number
+ of character pairs in lig/kern steps}
+@!hash_mult=16007; {another prime}
+@!max_char=65535; {the largest character number in a font}
+@!xmax_char=65536; {|max_char|+1}
+@!xxmax_char=65537;{|max_char|+2}
+@!xmax_label=80001;{must be greater than |max_lig_steps|}
+@!mem_size=262152; {|max_char|*4+8}
+
+@ Here are some macros for common programming idioms.
+
+@d incr(#) == #:=#+1 {increase a variable by unity}
+@d decr(#) == #:=#-1 {decrease a variable by unity}
+@d do_nothing == {empty statement}
+
+@* Font metric data.
+The following description of \.{TFM} files is not sufficient for
+\.{OFM} files. The additional documentation necessary for the
+\.{OFM} files can be found in another file, such as the $\Omega$
+change files.
+
+The idea behind \.{TFM} files is that typesetting routines like \TeX\
+need a compact way to store the relevant information about several
+dozen fonts, and computer centers need a compact way to store the
+relevant information about several hundred fonts. \.{TFM} files are
+compact, and most of the information they contain is highly relevant,
+so they provide a solution to the problem.
+
+The information in a \.{TFM} file appears in a sequence of 8-bit bytes.
+Since the number of bytes is always a multiple of 4, we could
+also regard the file as a sequence of 32-bit words; but \TeX\ uses the
+byte interpretation, and so does \.{TFtoPL}. Note that the bytes
+are considered to be unsigned numbers.
+
+@<Glob...@>=
+@!tfm_file:packed file of 0..255;
+
+@ On some systems you may have to do something special to read a
+packed file of bytes. For example, the following code didn't work
+when it was first tried at Stanford, because packed files have to be
+opened with a special switch setting on the \PASCAL\ that was used.
+@^system dependencies@>
+
+@<Set init...@>=
+reset(tfm_file);
+
+@ The first 24 bytes (6 words) of a \.{TFM} file contain twelve 16-bit
+integers that give the lengths of the various subsequent portions
+of the file. These twelve integers are, in order:
+$$\vbox{\halign{\hfil#&$\null=\null$#\hfil\cr
+|@!lf|&length of the entire file, in words;\cr
+|@!lh|&length of the header data, in words;\cr
+|@!bc|&smallest character code in the font;\cr
+|@!ec|&largest character code in the font;\cr
+|@!nw|&number of words in the width table;\cr
+|@!nh|&number of words in the height table;\cr
+|@!nd|&number of words in the depth table;\cr
+|@!ni|&number of words in the italic correction table;\cr
+|@!nl|&number of words in the lig/kern table;\cr
+|@!nk|&number of words in the kern table;\cr
+|@!ne|&number of words in the extensible character table;\cr
+|@!np|&number of font parameter words.\cr}}$$
+They are all nonnegative and less than $2^{15}$. We must have |bc-1<=ec<=255|,
+|ne<=256|, and
+$$\hbox{|lf=6+lh+(ec-bc+1)+nw+nh+nd+ni+nl+nk+ne+np|.}$$
+Note that a font may contain as many as 256 characters (if |bc=0| and |ec=255|),
+and as few as 0 characters (if |bc=ec+1|).
+
+Incidentally, when two or more 8-bit bytes are combined to form an integer of
+16 or more bits, the most significant bytes appear first in the file.
+This is called BigEndian order.
+
+@<Glob...@>=
+@!ofm_level,
+@!nco,@!ncw,@!npc,@!nki,@!nwi,@!nkf,@!nwf,@!nkr,@!nwr,@!nkg,@!nwg,@!nkp,@!nwp,
+@!nkm,@!nwm,@!real_lf,
+@!lf,@!lh,@!bc,@!ec,@!nw,@!nh,@!nd,@!ni,@!nl,@!nk,@!ne,@!np,@!font_dir:integer;
+ {subfile sizes}
+@!ofm_on:boolean;
+
+@ @<Set init...@>=
+ofm_on:=false; ofm_level:=-1; lf:=0; lh:=0;
+nco:=0; ncw:=0; npc:=0; bc:=0; ec:=0; nw:=0; nh:=0; nd:=0; ni:=0;
+nl:=0; nk:=0; ne:=0; np:=0;
+nki:=0; nwi:=0; nkf:=0; nwf:=0;
+nkm:=0; nwm:=0; real_lf:=0;
+nkr:=0; nwr:=0; nkg:=0; nwg:=0;
+nkp:=0; nwp:=0; font_dir:=0;
+
+@ The rest of the \.{TFM} file may be regarded as a sequence of ten data
+arrays having the informal specification
+$$\def\arr$[#1]#2${\&{array} $[#1]$ \&{of} #2}
+\vbox{\halign{\hfil\\{#}&$\,:\,$\arr#\hfil\cr
+header&|[0..lh-1]stuff|\cr
+char\_info&|[bc..ec]char_info_word|\cr
+width&|[0..nw-1]fix_word|\cr
+height&|[0..nh-1]fix_word|\cr
+depth&|[0..nd-1]fix_word|\cr
+italic&|[0..ni-1]fix_word|\cr
+lig\_kern&|[0..nl-1]lig_kern_command|\cr
+kern&|[0..nk-1]fix_word|\cr
+exten&|[0..ne-1]extensible_recipe|\cr
+param&|[1..np]fix_word|\cr}}$$
+The most important data type used here is a |@!fix_word|, which is
+a 32-bit representation of a binary fraction. A |fix_word| is a signed
+quantity, with the two's complement of the entire word used to represent
+negation. Of the 32 bits in a |fix_word|, exactly 12 are to the left of the
+binary point; thus, the largest |fix_word| value is $2048-2^{-20}$, and
+the smallest is $-2048$. We will see below, however, that all but one of
+the |fix_word| values will lie between $-16$ and $+16$.
+
+@ The first data array is a block of header information, which contains
+general facts about the font. The header must contain at least two words,
+and for \.{TFM} files to be used with Xerox printing software it must
+contain at least 18 words, allocated as described below. When different
+kinds of devices need to be interfaced, it may be necessary to add further
+words to the header block.
+
+\yskip\hang|header[0]| is a 32-bit check sum that \TeX\ will copy into the
+\.{DVI} output file whenever it uses the font. Later on when the \.{DVI}
+file is printed, possibly on another computer, the actual font that gets
+used is supposed to have a check sum that agrees with the one in the
+\.{TFM} file used by \TeX. In this way, users will be warned about
+potential incompatibilities. (However, if the check sum is zero in either
+the font file or the \.{TFM} file, no check is made.) The actual relation
+between this check sum and the rest of the \.{TFM} file is not important;
+the check sum is simply an identification number with the property that
+incompatible fonts almost always have distinct check sums.
+@^check sum@>
+
+\yskip\hang|header[1]| is a |fix_word| containing the design size of the
+font, in units of \TeX\ points (7227 \TeX\ points = 254 cm). This number
+must be at least 1.0; it is fairly arbitrary, but usually the design size
+is 10.0 for a ``10 point'' font, i.e., a font that was designed to look
+best at a 10-point size, whatever that really means. When a \TeX\ user
+asks for a font `\.{at} $\delta$ \.{pt}', the effect is to override the
+design size and replace it by $\delta$, and to multiply the $x$ and~$y$
+coordinates of the points in the font image by a factor of $\delta$
+divided by the design size. {\sl All other dimensions in the\/\ \.{TFM}
+file are |fix_word|\kern-1pt\ numbers in design-size units.} Thus, for example,
+the value of |param[6]|, one \.{em} or \.{\\quad}, is often the |fix_word|
+value $2^{20}=1.0$, since many fonts have a design size equal to one em.
+The other dimensions must be less than 16 design-size units in absolute
+value; thus, |header[1]| and |param[1]| are the only |fix_word| entries in
+the whole \.{TFM} file whose first byte might be something besides 0 or
+255. @^design size@>
+
+\yskip\hang|header[2..11]|, if present, contains 40 bytes that identify
+the character coding scheme. The first byte, which must be between 0 and
+39, is the number of subsequent ASCII bytes actually relevant in this
+string, which is intended to specify what character-code-to-symbol
+convention is present in the font. Examples are \.{ASCII} for standard
+ASCII, \.{TeX text} for fonts like \.{cmr10} and \.{cmti9}, \.{TeX math
+extension} for \.{cmex10}, \.{XEROX text} for Xerox fonts, \.{GRAPHIC} for
+special-purpose non-alphabetic fonts, \.{UNSPECIFIED} for the default case
+when there is no information. Parentheses should not appear in this name.
+(Such a string is said to be in {\mc BCPL} format.)
+@^coding scheme@>
+
+\yskip\hang|header[12..16]|, if present, contains 20 bytes that name the
+font family (e.g., \.{CMR} or \.{HELVETICA}), in {\mc BCPL} format.
+This field is also known as the ``font identifier.''
+@^family name@>
+@^font identifier@>
+
+\yskip\hang|header[17]|, if present, contains a first byte called the
+|seven_bit_safe_flag|, then two bytes that are ignored, and a fourth byte
+called the |face|. If the value of the fourth byte is less than 18, it has
+the following interpretation as a ``weight, slope, and expansion'': Add 0
+or 2 or 4 (for medium or bold or light) to 0 or 1 (for roman or italic) to
+0 or 6 or 12 (for regular or condensed or extended). For example, 13 is
+0+1+12, so it represents medium italic extended. A three-letter code
+(e.g., \.{MIE}) can be used for such |face| data.
+
+\yskip\hang|header[18..@twhatever@>]| might also be present; the individual
+words are simply called |header[18]|, |header[19]|, etc., at the moment.
+
+@ Next comes the |char_info| array, which contains one |char_info_word|
+per character. Each |char_info_word| contains six fields packed into
+four bytes as follows.
+
+\yskip\hang first byte: |width_index| (8 bits)\par
+\hang second byte: |height_index| (4 bits) times 16, plus |depth_index|
+ (4~bits)\par
+\hang third byte: |italic_index| (6 bits) times 4, plus |tag|
+ (2~bits)\par
+\hang fourth byte: |remainder| (8 bits)\par
+\yskip\noindent
+The actual width of a character is |width[width_index]|, in design-size
+units; this is a device for compressing information, since many characters
+have the same width. Since it is quite common for many characters
+to have the same height, depth, or italic correction, the \.{TFM} format
+imposes a limit of 16 different heights, 16 different depths, and
+64 different italic corrections.
+
+Incidentally, the relation |width[0]=height[0]=depth[0]=italic[0]=0|
+should always hold, so that an index of zero implies a value of zero.
+The |width_index| should never be zero unless the character does
+not exist in the font, since a character is valid if and only if it lies
+between |bc| and |ec| and has a nonzero |width_index|.
+
+@ The |tag| field in a |char_info_word| has four values that explain how to
+interpret the |remainder| field.
+
+\yskip\hang|tag=0| (|no_tag|) means that |remainder| is unused.\par
+\hang|tag=1| (|lig_tag|) means that this character has a ligature/kerning
+program starting at |lig_kern[remainder]|.\par
+\hang|tag=2| (|list_tag|) means that this character is part of a chain of
+characters of ascending sizes, and not the largest in the chain. The
+|remainder| field gives the character code of the next larger character.\par
+\hang|tag=3| (|ext_tag|) means that this character code represents an
+extensible character, i.e., a character that is built up of smaller pieces
+so that it can be made arbitrarily large. The pieces are specified in
+|exten[remainder]|.\par
+
+@d no_tag=0 {vanilla character}
+@d lig_tag=1 {character has a ligature/kerning program}
+@d list_tag=2 {character has a successor in a charlist}
+@d ext_tag=3 {character is extensible}
+
+@ The |lig_kern| array contains instructions in a simple programming language
+that explains what to do for special letter pairs. Each word is a
+|lig_kern_command| of four bytes.
+
+\yskip\hang first byte: |skip_byte|, indicates that this is the final program
+ step if the byte is 128 or more, otherwise the next step is obtained by
+ skipping this number of intervening steps.\par
+\hang second byte: |next_char|, ``if |next_char| follows the current character,
+ then perform the operation and stop, otherwise continue.''\par
+\hang third byte: |op_byte|, indicates a ligature step if less than~128,
+ a kern step otherwise.\par
+\hang fourth byte: |remainder|.\par
+\yskip\noindent
+In a kern step, an
+additional space equal to |kern[256*(op_byte-128)+remainder]| is inserted
+between the current character and |next_char|. This amount is
+often negative, so that the characters are brought closer together
+by kerning; but it might be positive.
+
+There are eight kinds of ligature steps, having |op_byte| codes $4a+2b+c$ where
+$0\le a\le b+c$ and $0\le b,c\le1$. The character whose code is
+|remainder| is inserted between the current character and |next_char|;
+then the current character is deleted if $b=0$, and |next_char| is
+deleted if $c=0$; then we pass over $a$~characters to reach the next
+current character (which may have a ligature/kerning program of its own).
+
+Notice that if $a=0$ and $b=1$, the current character is unchanged; if
+$a=b$ and $c=1$, the current character is changed but the next character is
+unchanged. \.{TFtoPL} will check to see that infinite loops are avoided.
+
+If the very first instruction of the |lig_kern| array has |skip_byte=255|,
+the |next_char| byte is the so-called right boundary character of this font;
+the value of |next_char| need not lie between |bc| and~|ec|.
+If the very last instruction of the |lig_kern| array has |skip_byte=255|,
+there is a special ligature/kerning program for a left boundary character,
+beginning at location |256*op_byte+remainder|.
+The interpretation is that \TeX\ puts implicit boundary characters
+before and after each consecutive string of characters from the same font.
+These implicit characters do not appear in the output, but they can affect
+ligatures and kerning.
+
+If the very first instruction of a character's |lig_kern| program has
+|skip_byte>128|, the program actually begins in location
+|256*op_byte+remainder|. This feature allows access to large |lig_kern|
+arrays, because the first instruction must otherwise
+appear in a location |<=255|.
+
+Any instruction with |skip_byte>128| in the |lig_kern| array must have
+|256*op_byte+remainder<nl|. If such an instruction is encountered during
+normal program execution, it denotes an unconditional halt; no ligature
+command is performed.
+
+@d stop_flag=128 {value indicating `\.{STOP}' in a lig/kern program}
+@d kern_flag=128 {op code for a kern step}
+
+@ Extensible characters are specified by an |extensible_recipe|,
+which consists of four bytes called |top|, |mid|,
+|bot|, and |rep| (in this order). These bytes are the character codes
+of individual pieces used to build up a large symbol.
+If |top|, |mid|, or |bot| are zero,
+they are not present in the built-up result. For example, an extensible
+vertical line is like an extensible bracket, except that the top and
+bottom pieces are missing.
+
+
+@ The final portion of a \.{TFM} file is the |param| array, which is another
+sequence of |fix_word| values.
+
+\yskip\hang|param[1]=@!slant| is the amount of italic slant, which is used
+to help position accents. For example, |slant=.25| means that when you go
+up one unit, you also go .25 units to the right. The |slant| is a pure
+number; it's the only |fix_word| other than the design size itself that is
+not scaled by the design size.
+
+\hang|param[2]=space| is the normal spacing between words in text.
+Note that character |" "| in the font need not have anything to do with
+blank spaces.
+
+\hang|param[3]=space_stretch| is the amount of glue stretching between words.
+
+\hang|param[4]=space_shrink| is the amount of glue shrinking between words.
+
+\hang|param[5]=x_height| is the height of letters for which accents don't
+have to be raised or lowered.
+
+\hang|param[6]=quad| is the size of one em in the font.
+
+\hang|param[7]=extra_space| is the amount added to |param[2]| at the
+ends of sentences.
+
+When the character coding scheme is \.{TeX math symbols}, the font is
+supposed to have 15 additional parameters called |num1|, |num2|, |num3|,
+|denom1|, |denom2|, |sup1|, |sup2|, |sup3|, |sub1|, |sub2|, |supdrop|,
+|subdrop|, |delim1|, |delim2|, and |axis_height|, respectively. When the
+character coding scheme is \.{TeX math extension}, the font is supposed to
+have six additional parameters called |default_rule_thickness| and
+|big_op_spacing1| through |big_op_spacing5|.
+
+@ So that is what \.{TFM} files hold. The next question is, ``What about
+\.{PL} files?'' A complete answer to that question appears in the
+documentation of the companion program, \.{PLtoTF}, so it will not
+be repeated here. Suffice it to say that a \.{PL} file is an ordinary
+\PASCAL\ text file, and that the output of \.{TFtoPL} uses only a
+subset of the possible constructions that might appear in a \.{PL} file.
+Furthermore, hardly anybody really wants to look at the formal
+definition of \.{PL} format, because it is almost self-explanatory when
+you see an example or two.
+
+@<Glob...@>=
+@!pl_file:text;
+
+@ @<Set init...@>=
+rewrite(pl_file);
+
+@* Unpacked representation.
+The first thing \.{TFtoPL} does is read the entire |tfm_file| into an array of
+bytes, |tfm[0..(4*lf-1)]|.
+
+@<Types...@>=
+@!byte=0..255; {unsigned eight-bit quantity}
+@!index=-1000..tfm_size; {address of a byte in |tfm|}
+@!char_type=0..65535;
+@!xchar_type=0..65536;
+@!xxchar_type=0..65537;
+@!xxxchar_type=0..65538;
+
+@
+@<Glob...@>=
+@!tfm:array [-1000..tfm_size] of byte; {the input data all goes here}
+ {the negative addresses avoid range checks for invalid characters}
+@!top_char,@!top_width,@!top_height,@!top_depth,@!top_italic:integer;
+@!start_ptr,@!check_sum,@!design_size,@!scheme,@!family,@!random_word:integer;
+@!header_length,@!char_ptr,@!copies,@!j:integer;
+
+@ The input may, of course, be all screwed up and not a \.{TFM} file
+at all. So we begin cautiously.
+
+@d abort(#)==begin print_ln(#);
+ print_ln('Sorry, but I can''t go on; are you sure this is a OFM?');
+ goto final_end;
+ end
+
+@<Read the whole input file@>=
+read(tfm_file,tfm[0]);
+if tfm[0]>127 then abort('The first byte of the input file exceeds 127!');
+@.The first byte...@>
+if eof(tfm_file) then abort('The input file is only one byte long!');
+@.The input...one byte long@>
+read(tfm_file,tfm[1]); lf:=tfm[0]*@'400+tfm[1];
+if lf=0 then begin
+ for i:=2 to 7 do
+ begin
+ if eof(tfm_file)
+ then abort('The input file is too short to designate its length!');
+ read(tfm_file, tfm[i]);
+ end;
+ ofm_on := true; ofm_level := tfm[2]*@"100+tfm[3];
+ if tfm[4]>127 then abort('The fifth byte of the input file exceeds 127!');
+ lf := tfm[4]*@"1000000 + tfm[5]*@"10000 + tfm[6]*@"100 + tfm[7];
+end
+else
+begin
+ ofm_on := false;
+end;
+case ofm_level of
+-1: begin start_ptr:=2; check_sum:=24; end;
+ 0: begin start_ptr:=8; check_sum:=56; end;
+ 1: begin start_ptr:=8; check_sum:=116; end;
+end;
+design_size:=check_sum+4;
+scheme:=design_size+4;
+family:=scheme+40;
+random_word:=family+20;
+if lf=0 then
+ abort('The file claims to have length zero, but that''s impossible!');
+@.The file claims...@>
+if 4*lf-1>tfm_size then abort('The file is bigger than I can handle!');
+@.The file is bigger...@>
+for tfm_ptr:=start_ptr to 4*lf-1 do
+ begin if eof(tfm_file) then
+ abort('The file has fewer bytes than it claims!');
+@.The file has fewer bytes...@>
+ read(tfm_file,tfm[tfm_ptr]);
+ end;
+if not eof(tfm_file) then
+ begin print_ln('There''s some extra junk at the end of the OFM file,');
+@.There's some extra junk...@>
+ print_ln('but I''ll proceed as if it weren''t there.');
+ end
+
+@ After the file has been read successfully, we look at the subfile sizes
+to see if they check out.
+
+@d eval_two_bytes(#)==begin if tfm[tfm_ptr]>127 then
+ abort('One of the subfile sizes is negative!');
+@.One of the subfile sizes...@>
+ #:=tfm[tfm_ptr]*@'400+tfm[tfm_ptr+1];
+ tfm_ptr:=tfm_ptr+2;
+ end
+@d eval_four_bytes(#)==begin if tfm[tfm_ptr]>127 then
+ abort('One of the subfile sizes is negative!');
+@.One of the subfile sizes...@>
+ #:=tfm[tfm_ptr]*@"1000000+tfm[tfm_ptr+1]*@"10000+
+ tfm[tfm_ptr+2]*@"100+tfm[tfm_ptr+3];
+ tfm_ptr:=tfm_ptr+4;
+ end
+
+@<Set subfile sizes |lh|, |bc|, \dots, |np|@>=
+begin
+if not ofm_on then begin
+ tfm_ptr:=2;
+ eval_two_bytes(lh);
+ eval_two_bytes(bc);
+ eval_two_bytes(ec);
+ eval_two_bytes(nw);
+ eval_two_bytes(nh);
+ eval_two_bytes(nd);
+ eval_two_bytes(ni);
+ eval_two_bytes(nl);
+ eval_two_bytes(nk);
+ eval_two_bytes(ne);
+ eval_two_bytes(np);
+ ncw:=(ec-bc+1);
+ header_length:=6;
+ top_char:=255;
+ top_width:=255;
+ top_height:=15;
+ top_depth:=15;
+ top_italic:=63;
+ end
+else begin
+ tfm_ptr:=8;
+ eval_four_bytes(lh);
+ eval_four_bytes(bc);
+ eval_four_bytes(ec);
+ eval_four_bytes(nw);
+ eval_four_bytes(nh);
+ eval_four_bytes(nd);
+ eval_four_bytes(ni);
+ eval_four_bytes(nl);
+ eval_four_bytes(nk);
+ eval_four_bytes(ne);
+ eval_four_bytes(np);
+ eval_four_bytes(font_dir);
+ top_char:=65535;
+ top_width:=65535;
+ top_height:=255;
+ top_depth:=255;
+ top_italic:=255;
+ if ofm_level=0 then begin
+ header_length:=14;
+ ncw:=2*(ec-bc+1);
+ end
+ else begin
+ header_length:=29;
+ eval_four_bytes(nco);
+ eval_four_bytes(ncw);
+ eval_four_bytes(npc);
+ eval_four_bytes(nki); {Kinds of font ivalues}
+ eval_four_bytes(nwi); {Words of font ivalues}
+ eval_four_bytes(nkf); {Kinds of font fvalues}
+ eval_four_bytes(nwf); {Words of font fvalues}
+ eval_four_bytes(nkm); {Kinds of font mvalues}
+ eval_four_bytes(nwm); {Words of font mvalues}
+ eval_four_bytes(nkr); {Kinds of font rules}
+ eval_four_bytes(nwr); {Words of font rules}
+ eval_four_bytes(nkg); {Kinds of font glues}
+ eval_four_bytes(nwg); {Words of font glues}
+ eval_four_bytes(nkp); {Kinds of font penalties}
+ eval_four_bytes(nwp); {Words of font penalties}
+ end;
+ end;
+if lf<>(header_length+lh+ncw+nw+nh+nd+ni+2*nl+nk+2*ne+np+
+ nki+nwi+nkf+nwf+nkm+nwm+nkr+nwr+nkg+nwg+nkp+nwp) then
+ abort('Subfile sizes don''t add up to the stated total!');
+@.Subfile sizes don't add up...@>
+if lh<2 then abort('The header length is only ',lh:1,'!');
+@.The header length...@>
+if (2*nl)>(4*lig_size) then
+ abort('The lig/kern program is longer than I can handle!');
+@.The lig/kern program...@>
+if (bc>ec+1)or(ec>top_char) then abort('The character code range ',
+@.The character code range...@>
+ bc:1,'..',ec:1,'is illegal!');
+if ec>max_char then
+ abort('Character ',ec:1,'is too large. Ask a wizard to enlarge me.');
+if (nw=0)or(nh=0)or(nd=0)or(ni=0) then
+ abort('Incomplete subfiles for character dimensions!');
+@.Incomplete subfiles...@>
+if ne>(top_char+1) then abort('There are ',ne:1,' extensible recipes!');
+@.There are ... recipes@>
+end
+
+@ Once the input data successfully passes these basic checks,
+\.{TFtoPL} believes that it is a \.{TFM} file, and the conversion
+to \.{PL} format will take place. Access to the various subfiles
+is facilitated by computing the following base addresses. For example,
+the |char_info| for character |c| in a \.{TFM} file will start in location
+|4*(char_base+c)| of the |tfm| array.
+
+@<Globals...@>=
+@!ivalues_start,@!fvalues_start,@!mvalues_start,
+@!rules_start,@!glues_start,@!penalties_start:
+integer;
+@!ivalues_base,@!fvalues_base,@!mvalues_base,
+@!rules_base,@!glues_base,@!penalties_base:
+integer;
+@!char_base,@!width_base,@!height_base,@!depth_base,@!italic_base: integer;
+@!lig_kern_base,@!kern_base,@!exten_base,@!param_base:integer;
+ {base addresses for the subfiles}
+@!char_start:array [0..max_char] of integer;
+@!bytes_per_entry:integer;
+
+@ @<Compute the base addresses@>=
+begin
+ivalues_start:=header_length+lh;
+fvalues_start:=ivalues_start+nki;
+mvalues_start:=fvalues_start+nkf;
+rules_start:=mvalues_start+nkm;
+glues_start:=rules_start+nkr;
+penalties_start:=glues_start+nkg;
+ivalues_base:=penalties_start+nkp;
+fvalues_base:=ivalues_base+nwi;
+mvalues_base:=fvalues_base+nwf;
+rules_base:=mvalues_base+nwm;
+glues_base:=rules_base+nwr;
+penalties_base:=glues_base+nwg;
+char_base:=penalties_base+nwp;
+bytes_per_entry:=(12 + 2*npc) div 4 * 4;
+if not ofm_on then begin
+ for i:=bc to ec do begin
+ char_start[i]:=4*char_base+4*(i-bc);
+ end;
+ end
+else if ofm_level=0 then begin
+ for i:=bc to ec do begin
+ char_start[i]:=4*char_base+8*(i-bc);
+ end;
+ end
+else begin
+ char_ptr:=4*char_base;
+ i:=bc;
+ while i<=ec do begin
+ copies:=1+256*tfm[char_ptr+8]+tfm[char_ptr+9];
+ for j:=1 to copies do begin
+ char_start[i]:=char_ptr;
+ i:=i+1;
+ end;
+ char_ptr:=char_ptr + bytes_per_entry;
+ end;
+ if char_ptr<>(4*(char_base+ncw)) then
+ abort('Length of char info table does not correspond to specification');
+ end;
+width_base:=char_base+ncw;
+height_base:=width_base+nw;
+depth_base:=height_base+nh;
+italic_base:=depth_base+nd;
+lig_kern_base:=italic_base+ni;
+kern_base:=lig_kern_base+2*nl;
+exten_base:=kern_base+nk;
+param_base:=exten_base+2*ne-1;
+end
+
+@ Of course we want to define macros that suppress the detail of how the
+font information is actually encoded. Each word will be referred to by
+the |tfm| index of its first byte. For example, if |c| is a character
+code between |bc| and |ec|, then |tfm[char_info(c)]| will be the
+first byte of its |char_info|, i.e., the |width_index|; furthermore
+|width(c)| will point to the |fix_word| for |c|'s width.
+
+@d char_info(#)==char_start[#]
+@d nonexistent(#)==((#<bc)or(#>ec)or(width_index(#)=0))
+@d width(#)==4*(width_base+width_index(#))
+@d height(#)==4*(height_base+height_index(#))
+@d depth(#)==4*(depth_base+depth_index(#))
+@d italic(#)==4*(italic_base+italic_index(#))
+@d kern(#)==4*(kern_base+#) {here \#\ is an index, not a character}
+@d param(#)==4*(param_base+#) {likewise}
+
+@p function width_index(c:char_type):integer;
+begin if not ofm_on then
+ width_index:=tfm[char_info(c)]
+else
+ width_index:=256*tfm[char_info(c)]+tfm[char_info(c)+1];
+end;
+
+function height_index(c:char_type):integer;
+begin if not ofm_on then
+ height_index:=tfm[char_info(c)+1] div 16
+else
+ height_index:=tfm[char_info(c)+2];
+end;
+
+function depth_index(c:char_type):integer;
+begin if not ofm_on then
+ depth_index:=tfm[char_info(c)+1] mod 16
+else
+ depth_index:=tfm[char_info(c)+3];
+end;
+
+function italic_index(c:char_type):integer;
+begin if not ofm_on then
+ italic_index:=tfm[char_info(c)+2] div 4
+else if ofm_level=0 then
+ italic_index:=tfm[char_info(c)+4]*64 + tfm[char_info(c)+5] div 4
+else
+ italic_index:=tfm[char_info(c)+4];
+end;
+
+function tag(c:char_type):integer;
+begin if not ofm_on then
+ tag:=tfm[char_info(c)+2] mod 4
+else
+ tag:=tfm[char_info(c)+5] mod 4;
+end;
+
+procedure set_no_tag(c:char_type);
+begin if not ofm_on then
+ tfm[char_info(c)+2] := (tfm[char_info(c)+2] div 64)*64 + no_tag
+else
+ tfm[char_info(c)+5] := (tfm[char_info(c)+5] div 64)*64 + no_tag;
+end;
+
+function ctag(c:char_type):boolean;
+begin if not (ofm_level=1) then
+ ctag:=false
+else
+ ctag:=tfm[char_info(c)+5] div 4 mod 2;
+end;
+
+procedure set_no_ctag(c:char_type);
+begin if not (ofm_level=1) then
+ tfm[char_info(c)+5] :=
+ tfm[char_info(c)+5] div 8 * 8 + tfm[char_info(c)+5] mod 4;
+end;
+
+function no_repeats(c:char_type):integer;
+begin if ofm_level<=0 then
+ no_repeats:=0
+else
+ no_repeats:=256*tfm[char_info(c)+8]+tfm[char_info(c)+9];
+end;
+
+function char_param(c:char_type; i:integer):integer;
+begin
+ char_param:=256*tfm[char_info(c)+2*i+10]+tfm[char_info(c)+2*i+11];
+end;
+
+function rremainder(c:char_type):integer;
+begin if not ofm_on then
+ rremainder:=tfm[char_info(c)+3]
+else
+ rremainder:=256*tfm[char_info(c)+6]+tfm[char_info(c)+7];
+end;
+
+function lig_step(c:char_type):integer;
+begin if not ofm_on then
+ lig_step:=4*(lig_kern_base+c)
+else
+ lig_step:=4*(lig_kern_base+2*c);
+end;
+
+function exten(c:char_type):integer;
+begin if not ofm_on then
+ exten:=4*(exten_base+rremainder(c))
+else
+ exten:=4*(exten_base+2*rremainder(c));
+end;
+
+function l_skip_byte(c:integer):integer;
+begin if not ofm_on then
+ l_skip_byte:=tfm[c]
+else
+ l_skip_byte:=256*tfm[c]+tfm[c+1];
+end;
+
+procedure set_l_skip_byte(c:integer; newc:integer);
+begin if not ofm_on then
+ tfm[c]:=newc
+else begin
+ tfm[c]:=newc div 256;
+ tfm[c+1]:=newc mod 256
+ end
+end;
+
+function l_next_char(c:integer):integer;
+begin if not ofm_on then
+ l_next_char:=tfm[c+1]
+else
+ l_next_char:=256*tfm[c+2]+tfm[c+3];
+end;
+
+procedure set_l_next_char(c:integer; newc:char_type);
+begin if not ofm_on then
+ tfm[c+1]:=newc
+else begin
+ tfm[c+2]:=newc div 256;
+ tfm[c+3]:=newc mod 256
+ end
+end;
+
+function l_op_byte(c:integer):integer;
+begin if not ofm_on then
+ l_op_byte:=tfm[c+2]
+else
+ l_op_byte:=256*tfm[c+4]+tfm[c+5];
+end;
+
+procedure set_l_op_byte(c:integer; newc:integer);
+begin if not ofm_on then
+ tfm[c+2]:=newc
+else begin
+ tfm[c+2]:=newc div 256;
+ tfm[c+3]:=newc mod 256
+ end
+end;
+
+function l_remainder(c:integer):integer;
+begin if not ofm_on then
+ l_remainder:=tfm[c+3]
+else
+ l_remainder:=256*tfm[c+6]+tfm[c+7];
+end;
+
+procedure set_l_remainder(c:integer; newc:char_type);
+begin if not ofm_on then
+ tfm[c+3]:=newc
+else begin
+ tfm[c+6]:=newc div 256;
+ tfm[c+7]:=newc mod 256
+ end
+end;
+
+@ One of the things we would like to do is take cognizance of fonts whose
+character coding scheme is \.{TeX math symbols} or \.{TeX math extension};
+we will set the |font_type| variable to one of the three choices
+|vanilla|, |mathsy|, or |mathex|.
+
+@d vanilla=0 {not a special scheme}
+@d mathsy=1 {\.{TeX math symbols} scheme}
+@d mathex=2 {\.{TeX math extension} scheme}
+
+@<Glob...@>=
+@!font_type:vanilla..mathex; {is this font special?}
+
+@* Basic output subroutines.
+Let us now define some procedures that will reduce the rest of \.{TFtoPL}'s
+work to a triviality.
+
+First of all, it is convenient to have an abbreviation for output to the
+\.{PL} file:
+
+@d out(#)==write(pl_file,#)
+
+@ In order to stick to standard \PASCAL, we use three strings called
+|ASCII_04|, |ASCII_10|, and |ASCII_14|, in terms of which we can do the
+appropriate conversion of ASCII codes. Three other little strings are
+used to produce |face| codes like \.{MIE}.
+
+@<Glob...@>=
+@!ASCII_04,@!ASCII_10,@!ASCII_14,HEX: packed array [1..32] of char;
+ {strings for output in the user's external character set}
+@!MBL_string,@!RI_string,@!RCE_string:packed array [1..3] of char;
+ {handy string constants for |face| codes}
+
+@ @<Set init...@>=
+ASCII_04:=' !"#$%&''()*+,-./0123456789:;<=>?';@/
+ASCII_10:='@@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_';@/
+ASCII_14:='`abcdefghijklmnopqrstuvwxyz{|}~ ';@/
+HEX:='0123456789ABCDEF';@/
+MBL_string:='MBL'; RI_string:='RI '; RCE_string:='RCE';
+
+@ The array |dig| will hold a sequence of digits to be output.
+
+@<Glob...@>=
+@!dig:array[0..32] of integer;
+
+@ Here, in fact, are two procedures that output
+|dig[j-1]|$\,\ldots\,$|dig[0]|, given $j>0$.
+
+@p procedure out_digs(j:integer); {outputs |j| digits}
+begin repeat decr(j); out(HEX[1+dig[j]]);
+ until j=0;
+end;
+@#
+procedure print_digs(j:integer); {prints |j| digits}
+begin repeat decr(j); print(HEX[1+dig[j]]);
+ until j=0;
+end;
+
+@ The |print_number| procedure indicates how |print_digs| can be used.
+This procedure can print in octal, decimal or hex notation.
+
+@d print_hex(#)==print_number(#,16)
+@d print_octal(#)==print_number(#,8)
+@d print_decimal(#)==print_number(#,10)
+
+@p procedure print_number(c:integer; form:integer); {prints value of |c|}
+var j:0..32; {index into |dig|}
+begin
+j:=0;
+if (c<0) then begin
+ print_ln('Internal error: print_number (negative value)');
+ c:=0;
+ end;
+if form=8 then
+ print('''') {an apostrophe indicates the octal notation}
+else if form=16 then
+ print('"') { a double apostrophe indicates the hexadecimal notation}
+else if form<>10 then begin
+ print_ln('Internal error: print_number (form)');
+ form:=16;
+ end;
+while (c>0) or (j=0) do begin
+ dig[j]:=c mod form; c:=c div form;
+ j:=j+1;
+ end;
+print_digs(j);
+end;
+
+@ A \.{PL} file has nested parentheses, and we want to format the output
+so that its structure is clear. The |level| variable keeps track of the
+depth of nesting.
+
+@<Glob...@>=
+@!level:0..5;
+
+@ @<Set init...@>=
+level:=0;
+
+@ Three simple procedures suffice to produce the desired structure in the
+output.
+
+@p procedure out_ln; {finishes one line, indents the next}
+var l:0..5;
+begin write_ln(pl_file);
+for l:=1 to level do out(' ');
+end;
+@#
+procedure left; {outputs a left parenthesis}
+begin incr(level); out('(');
+end;
+@#
+procedure right; {outputs a right parenthesis and finishes a line}
+begin decr(level); out(')'); out_ln;
+end;
+
+@ The value associated with a property can be output in a variety of
+ways. For example, we might want to output a {\mc BCPL} string that
+begins in |tfm[k]|:
+
+@p procedure out_BCPL(@!k:index); {outputs a string, preceded by a blank space}
+var l:0..39; {the number of bytes remaining}
+begin out(' '); l:=tfm[k];
+while l>0 do
+ begin incr(k); decr(l);
+ case tfm[k] div @'40 of
+ 1: out(ASCII_04[1+(tfm[k] mod @'40)]);
+ 2: out(ASCII_10[1+(tfm[k] mod @'40)]);
+ 3: out(ASCII_14[1+(tfm[k] mod @'40)]);
+ end;
+ end;
+end;
+
+@ The property value might also be a sequence of |l| bytes, beginning
+in |tfm[k]|, that we would like to output in hex notation.
+The following procedure assumes that |l<=4|, but larger values of |l|
+could be handled easily by enlarging the |dig| array and increasing
+the upper bounds on |b| and |j|.
+
+@d out_octal_number(#)==out_number(#,8)
+@d out_decimal_number(#)==out_number(#,10)
+@d out_hex_number(#)==out_number(#,16)
+@d out_dec(#)==out_decimal_number(#)
+@d out_hex_char(#)==out_hex_number(#)
+
+@p procedure out_number(c:integer; form:integer); {outputs value of |c|}
+var j:0..32; {index into |dig|}
+begin
+j:=0;
+if (c<0) then begin
+ print_ln('Internal error: print_number (negative value)');
+ c:=0;
+ end;
+if form=8 then
+ out(' O ')
+else if form=10 then
+ out(' D ')
+else if form=16 then
+ out(' H ')
+else begin
+ print_ln('Internal error: print_number (form)');
+ form:=16;
+ out(' H ')
+ end;
+while (c>0) or (j=0) do begin
+ dig[j]:=c mod form; c:=c div form;
+ j:=j+1;
+ end;
+out_digs(j);
+end;
+@#
+procedure out_hex(@!k,@!l:index);
+ {outputs |l| bytes in hex}
+var a:0..@"7FFFFFFF; {accumulator for bits not yet output}
+@!b:0..32; {the number of significant bits in |a|}
+@!j:0..11; {the number of digits of output}
+begin
+out(' H ');
+a:=0; b:=0; j:=0;
+while l>0 do @<Reduce \(1)|l| by one, preserving the invariants@>;
+while (a>0)or(j=0) do begin
+ dig[j]:=a mod 16; a:=a div 16; incr(j);
+ end;
+out_digs(j);
+end;
+
+@ @<Reduce \(1)|l|...@>=
+begin decr(l);
+if tfm[k+l]<>0 then begin
+ while b>3 do begin
+ dig[j]:=a mod 16; a:=a div 16; b:=b-4; incr(j);
+ end;
+ case b of
+ 0: a:=tfm[k+l];
+ 1:a:=a+2*tfm[k+l];
+ 2:a:=a+4*tfm[k+l];
+ 3:a:=a+8*tfm[k+l];
+ end;
+ end;
+b:=b+8;
+end
+
+@ The property value may be a character, which is output in hex
+unless it is a letter or a digit. This procedure is the only place
+where a lowercase letter will be output to the \.{PL} file.
+@^system dependencies@>
+
+@p procedure out_char(@!c:integer); {outputs a character}
+begin if font_type>vanilla then
+ out_hex_char(c)
+else if (c>="0")and(c<="9") then
+ out(' C ',c-"0":1)
+else if (c>="A")and(c<="Z") then
+ out(' C ',ASCII_10[c-"A"+2])
+else if (c>="a")and(c<="z") then
+ out(' C ',ASCII_14[c-"a"+2])
+else out_hex_char(c);
+end;
+
+@ The property value might be a ``face'' byte, which is output in the
+curious code mentioned earlier, provided that it is less than 18.
+
+@p procedure out_face(@!k:index); {outputs a |face|}
+var s:0..1; {the slope}
+@!b:0..8; {the weight and expansion}
+begin if tfm[k]>=18 then out_hex(k,1)
+else begin out(' F '); {specify face-code format}
+ s:=tfm[k] mod 2; b:=tfm[k] div 2;
+ out(MBL_string[1+(b mod 3)]);
+ out(RI_string[1+s]);
+ out(RCE_string[1+(b div 3)]);
+ end;
+end;
+
+@ And finally, the value might be a |fix_word|, which is output in
+decimal notation with just enough decimal places for \.{PLtoTF}
+to recover every bit of the given |fix_word|.
+
+All of the numbers involved in the intermediate calculations of
+this procedure will be nonnegative and less than $10\cdot2^{24}$.
+
+@p procedure out_fix(@!k:index); {outputs a |fix_word|}
+var a:0..@'7777; {accumulator for the integer part}
+@!f:integer; {accumulator for the fraction part}
+@!j:0..12; {index into |dig|}
+@!delta:integer; {amount if allowable inaccuracy}
+begin out(' R '); {specify real format}
+a:=(tfm[k]*16)+(tfm[k+1] div 16);
+f:=((tfm[k+1] mod 16)*@'400+tfm[k+2])*@'400+tfm[k+3];
+if a>@'3777 then @<Reduce \(2)negative to positive@>;
+@<Output the integer part, |a|, in decimal notation@>;
+@<Output the fraction part, $|f|/2^{20}$, in decimal notation@>;
+end;
+
+@ The following code outputs at least one digit even if |a=0|.
+
+@<Output the integer...@>=
+begin j:=0;
+repeat dig[j]:=a mod 10; a:=a div 10; incr(j);
+until a=0;
+out_digs(j);
+end
+
+@ And the following code outputs at least one digit to the right
+of the decimal point.
+
+@<Output the fraction...@>=
+begin out('.'); f:=10*f+5; delta:=10;
+repeat if delta>@'4000000 then f:=f+@'2000000-(delta div 2);
+out(f div @'4000000:1); f:=10*(f mod @'4000000); delta:=delta*10;
+until f<=delta;
+end;
+
+@ @<Reduce \(2)negative to positive@>=
+begin out('-'); a:=@'10000-a;
+if f>0 then begin
+ f:=@'4000000-f; decr(a);
+ end;
+end
+
+@* Doing it.
+\TeX\ checks the information of a \.{TFM} file for validity as the
+file is being read in, so that no further checks will be needed when
+typesetting is going on. And when it finds something wrong, it justs
+calls the file ``bad,'' without identifying the nature of the problem,
+since \.{TFM} files are supposed to be good almost all of the time.
+
+Of course, a bad file shows up every now and again, and that's where
+\.{TFtoPL} comes in. This program wants to catch at least as many errors as
+\TeX\ does, and to give informative error messages besides.
+All of the errors are corrected, so that the \.{PL} output will
+be correct (unless, of course, the \.{TFM} file was so loused up
+that no attempt is being made to fathom it).
+
+@ Just before each character is processed, its code is printed in hex
+notation. Up to eight such codes appear on a line; so we have a variable
+to keep track of how many are currently there. We also keep track of
+whether or not any errors have had to be corrected.
+
+@<Glob...@>=
+@!chars_on_line:0..8; {the number of characters printed on the current line}
+@!perfect:boolean; {was the file free of errors?}
+
+@ @<Set init...@>=
+chars_on_line:=0;@/
+perfect:=true; {innocent until proved guilty}
+
+@ Error messages are given with the help of the |bad| and |range_error|
+and |bad_char| macros:
+
+@d bad(#)==begin perfect:=false; if chars_on_line>0 then print_ln(' ');
+ chars_on_line:=0; print_ln('Bad OFM file: ',#);
+ end
+@.Bad OFM file@>
+@d range_error(#)==begin perfect:=false; print_ln(' ');
+ print(#,' index for character ');
+ print_hex(c); print_ln(' is too large;');
+ print_ln('so I reset it to zero.');
+ end
+@d bad_char_tail(#)==print_hex(#); print_ln('.');
+ end
+@d bad_char(#)==begin perfect:=false; if chars_on_line>0 then print_ln(' ');
+ chars_on_line:=0; print('Bad OFM file: ',#,' nonexistent character ');
+ bad_char_tail
+@d correct_bad_char_tail(#)==#(k,0)
+ end
+@d correct_bad_char_middle(#)==print_hex(#(k)); print_ln('.');
+ correct_bad_char_tail
+@d correct_bad_char(#)== begin perfect:=false;
+ if chars_on_line>0 then print_ln(' ');
+ chars_on_line:=0; print('Bad OFM file: ',#,' nonexistent character ');
+ correct_bad_char_middle
+
+@<Glob...@>=
+@!i:integer; {an index to words of a subfile}
+@!c:xchar_type; {a random character}
+@!d:0..3; {byte number in a word}
+@!k:index; {a random index}
+@!r:0..65535; {a random two-byte value}
+@!count:0..127; {for when we need to enumerate a small set}
+
+@ There are a lot of simple things to do, and they have to be done one
+at a time, so we might as well get down to business. The first things
+that \.{TFtoPL} will put into the \.{PL} file appear in the header part.
+
+@<Do the header@>=
+begin
+case ofm_level of
+0: begin out('(OFMLEVEL H 0)'); out_ln; end;
+1: begin out('(OFMLEVEL H 1)'); out_ln; end;
+end;
+if ofm_on then begin
+ left;
+ if font_dir<=7 then out('FONTDIR')
+ else out('NFONTDIR');
+ case font_dir mod 8 of
+ 0: out(' TL');
+ 1: out(' LT');
+ 2: out(' TR');
+ 3: out(' LB');
+ 4: out(' BL');
+ 5: out(' RT');
+ 6: out(' BR');
+ 7: out(' RB');
+ end;
+ right
+ end;
+font_type:=vanilla;
+if lh>=12 then begin
+ @<Set the true |font_type|@>;
+ if lh>=17 then begin
+ @<Output the family name@>;
+ if lh>=18 then @<Output the rest of the header@>;
+ end;
+ @<Output the character coding scheme@>;
+ end;
+@<Output the design size@>;
+@<Output the check sum@>;
+@<Output the |seven_bit_safe_flag|@>;
+end
+
+@ @<Output the check sum@>=
+left; out('CHECKSUM'); out_hex(check_sum,4);
+right
+
+@ Incorrect design sizes are changed to 10 points.
+
+@d bad_design(#)==begin bad('Design size ',#,'!');
+@.Design size wrong@>
+ print_ln('I''ve set it to 10 points.');
+ out(' D 10');
+ end
+
+@ @<Output the design size@>=
+left; out('DESIGNSIZE');
+if tfm[design_size]>127 then bad_design('negative')
+else if (tfm[design_size]=0)and(tfm[design_size+1]<16) then
+ bad_design('too small')
+else out_fix(design_size);
+right;
+out('(COMMENT DESIGNSIZE IS IN POINTS)'); out_ln;
+out('(COMMENT OTHER SIZES ARE MULTIPLES OF DESIGNSIZE)'); out_ln
+@.DESIGNSIZE IS IN POINTS@>
+
+@ Since we have to check two different {\mc BCPL} strings for validity,
+we might as well write a subroutine to make the check.
+
+@p procedure check_BCPL(@!k,@!l:index); {checks a string of length |<l|}
+var j:index; {runs through the string}
+@!c:integer; {character being checked}
+begin if tfm[k]>=l then
+ begin bad('String is too long; I''ve shortened it drastically.');
+@.String is too long...@>
+ tfm[k]:=1;
+ end;
+for j:=k+1 to k+tfm[k] do
+ begin c:=tfm[j];
+ if (c="(")or(c=")") then
+ begin bad('Parenthesis in string has been changed to slash.');
+@.Parenthesis...changed to slash@>
+ tfm[j]:="/";
+ end
+ else if (c<" ")or(c>"~") then
+ begin bad('Nonstandard ASCII code has been blotted out.');
+@.Nonstandard ASCII code...@>
+ tfm[j]:="?";
+ end
+ else if (c>="a")and(c<="z") then tfm[j]:=c+"A"-"a"; {upper-casify letters}
+ end;
+end;
+
+@ The |font_type| starts out |vanilla|; possibly we need to reset it.
+
+@<Set the true |font_type|@>=
+begin check_BCPL(scheme,40);
+if (tfm[scheme]>=11)and@|(tfm[scheme+1]="T")and@|
+ (tfm[scheme+2]="E")and@|(tfm[scheme+3]="X")and@|
+ (tfm[scheme+4]=" ")and@|(tfm[scheme+5]="M")and@|
+ (tfm[scheme+6]="A")and@|(tfm[scheme+7]="T")and@|
+ (tfm[scheme+8]="H")and@|(tfm[scheme+9]=" ") then
+ begin if (tfm[scheme+10]="S")and(tfm[scheme+11]="Y") then font_type:=mathsy
+ else if (tfm[scheme+10]="E")and(tfm[scheme+11]="X") then font_type:=mathex;
+ end;
+end
+
+@ @<Output the character coding scheme@>=
+left; out('CODINGSCHEME');
+out_BCPL(scheme);
+right
+
+@ @<Output the family name@>=
+left; out('FAMILY');
+check_BCPL(family,20);
+out_BCPL(family);
+right
+
+@ @<Output the rest of the header@>=
+begin left; out('FACE'); out_face(random_word+3); right;
+for i:=18 to lh-1 do begin
+ left; out('HEADER D ',i:1);
+ out_hex(check_sum+4*i,@,4); right;
+ end;
+end
+
+@ This program does not check to see if the |seven_bit_safe_flag| has the
+correct setting, i.e., if it really reflects the seven-bit-safety of
+the \.{TFM} file; the stated value is merely put into the \.{PL} file.
+The \.{PLtoTF} program will store a correct value and give a warning
+message if a file falsely claims to be safe.
+
+@<Output the |seven_bit_safe_flag|@>=
+begin left; out('SEVENBITSAFEFLAG FALSE'); right;
+end
+
+@ The next thing to take care of is the list of parameters.
+
+@<Do the parameters@>=
+if np>0 then begin
+ left; out('FONTDIMEN'); out_ln;
+ for i:=1 to np do @<Check and output the $i$th parameter@>;
+ right;
+ end;
+@<Check to see if |np| is complete for this font type@>;
+
+@ @<Check to see if |np|...@>=
+if (font_type=mathsy)and(np<>22) then
+ print_ln('Unusual number of fontdimen parameters for a math symbols font (',
+@.Unusual number of fontdimen...@>
+ np:1,' not 22).')
+else if (font_type=mathex)and(np<>13) then
+ print_ln('Unusual number of fontdimen parameters for an extension font (',
+ np:1,' not 13).')
+
+@ All |fix_word| values except the design size and the first parameter
+will be checked to make sure that they are less than 16.0 in magnitude,
+using the |check_fix| macro:
+
+@d check_fix_tail(#)==bad(#,' ',i:1,' is too big;');
+ print_ln('I have set it to zero.');
+ end
+@d check_fix(#)==if (tfm[#]>0)and(tfm[#]<255) then
+ begin tfm[#]:=0; tfm[(#)+1]:=0; tfm[(#)+2]:=0; tfm[(#)+3]:=0;
+ check_fix_tail
+
+@<Check and output the $i$th parameter@>=
+begin left;
+if i=1 then out('SLANT') {this parameter is not checked}
+else begin check_fix(param(i))('Parameter');@/
+@.Parameter n is too big@>
+ @<Output the name of parameter $i$@>;
+ end;
+out_fix(param(i)); right;
+end
+
+@ @<Output the name...@>=
+if i<=7 then case i of
+ 2:out('SPACE');@+3:out('STRETCH');@+4:out('SHRINK');
+ 5:out('XHEIGHT');@+6:out('QUAD');@+7:out('EXTRASPACE')@+end
+else if (i<=22)and(font_type=mathsy) then case i of
+ 8:out('NUM1');@+9:out('NUM2');@+10:out('NUM3');
+ 11:out('DENOM1');@+12:out('DENOM2');
+ 13:out('SUP1');@+14:out('SUP2');@+15:out('SUP3');
+ 16:out('SUB1');@+17:out('SUB2');
+ 18:out('SUPDROP');@+19:out('SUBDROP');
+ 20:out('DELIM1');@+21:out('DELIM2');
+ 22:out('AXISHEIGHT')@+end
+else if (i<=13)and(font_type=mathex) then
+ if i=8 then out('DEFAULTRULETHICKNESS')
+ else out('BIGOPSPACING',i-8:1)
+else out('PARAMETER D ',i:1)
+
+@ @<Glob...@>=
+@!start_counter,@!base_counter,@!number_entries:integer;
+@!value:integer;
+
+@ @<Do the ivalue parameters@>=
+if nki>0 then begin
+ start_counter:=ivalues_start*4;
+ base_counter:=ivalues_base*4;
+ for i:=0 to nki-1 do @<Check and output the $i$th ivalue table@>;
+ end;
+
+@ @<Check and output the $i$th ivalue table@>=
+begin
+left; out('FONTIVALUE'); out_hex_number(i); out_ln;
+number_entries:=256*tfm[start_counter+2]+tfm[start_counter+3];
+for j:=0 to number_entries-1 do begin
+ left; out('IVALUE'); out_hex_number(j); out_ln;
+ value:=256*tfm[base_counter+2]+tfm[base_counter+3];
+ left; out('IVALUEVAL'); out_hex_number(value); right;
+ right;
+ base_counter:=base_counter+4;
+ end;
+right;
+start_counter:=start_counter+4;;
+end;
+
+@ @<Do the fvalue parameters@>=
+if nkf>0 then begin
+ start_counter:=fvalues_start*4;
+ base_counter:=fvalues_base*4;
+ for i:=0 to nkf-1 do @<Check and output the $i$th fvalue table@>;
+ end;
+
+@ @<Check and output the $i$th fvalue table@>=
+begin
+left; out('FONTFVALUE'); out_hex_number(i); out_ln;
+number_entries:=256*tfm[start_counter+2]+tfm[start_counter+3];
+for j:=0 to number_entries-1 do begin
+ left; out('FVALUE'); out_hex_number(j); out_ln;
+ left; out('FVALUEVAL'); out_fix(base_counter); right;
+ right;
+ base_counter:=base_counter+4;
+ end;
+right;
+start_counter:=start_counter+4;
+end;
+
+@ @<Do the mvalue parameters@>=
+if nkm>0 then begin
+ start_counter:=mvalues_start*4;
+ base_counter:=mvalues_base*4;
+ for i:=0 to nkm-1 do @<Check and output the $i$th mvalue table@>;
+ end;
+
+@ @<Check and output the $i$th mvalue table@>=
+begin
+left; out('FONTMVALUE'); out_hex_number(i); out_ln;
+number_entries:=256*tfm[start_counter+2]+tfm[start_counter+3];
+for j:=0 to number_entries-1 do begin
+ left; out('MVALUE'); out_hex_number(j); out_ln;
+ left; out('MVALUEVAL'); out_fix(base_counter); right;
+ right;
+ base_counter:=base_counter+4;
+ end;
+right;
+start_counter:=start_counter+4;
+end;
+
+@ @<Do the rule parameters@>=
+if nkr>0 then
+ begin
+ start_counter:=rules_start*4;
+ base_counter:=rules_base*4;
+ for i:=0 to nkr-1 do @<Check and output the $i$th rule table@>;
+ end;
+
+@ @<Check and output the $i$th rule table@>=
+begin
+left; out('FONTRULE'); out_hex_number(i); out_ln;
+number_entries:=256*tfm[start_counter+2]+tfm[start_counter+3];
+for j:=0 to number_entries-1 do begin
+ left; out('RULE'); out_hex_number(j); out_ln;
+ left; out('RULEWD'); out_fix(base_counter); right;
+ left; out('RULEHT'); out_fix(base_counter+4); right;
+ left; out('RULEDP'); out_fix(base_counter+8); right;
+ right;
+ base_counter:=base_counter+12;
+ end;
+right;
+start_counter:=start_counter+4;
+end;
+
+@ @<Do the glue parameters@>=
+if nkg>0 then begin
+ start_counter:=glues_start*4;
+ base_counter:=glues_base*4;
+ for i:=0 to nkg-1 do @<Check and output the $i$th glue table@>;
+ end;
+
+@ @<Glob...@>=
+@!glue_subtype,@!glue_argument_kind,@!glue_stretch_order,
+@!glue_shrink_order,@!glue_argument:integer;
+
+@ @<Check and output the $i$th glue table@>=
+begin
+left; out('FONTGLUE'); out_hex_number(i); out_ln;
+number_entries:=256*tfm[start_counter+2]+tfm[start_counter+3];
+for j:=0 to number_entries-1 do begin
+ left; out('GLUE'); out_hex_number(j); out_ln;
+ glue_subtype:=tfm[base_counter] div 16;
+ glue_argument_kind:=tfm[base_counter] mod 16;
+ glue_stretch_order:=tfm[base_counter+1] div 16;
+ glue_shrink_order:=tfm[base_counter+1] mod 16;
+ glue_argument:=tfm[base_counter+2]*256+tfm[base_counter+3];
+ left;
+ out('GLUETYPE');
+ case glue_subtype of
+ 0: out(' H 0');
+ 1: out(' H 1');
+ 2: out(' H 2');
+ 3: out(' H 3');
+ end;
+ right;
+ case glue_argument_kind of
+ 1: begin
+ left; out('GLUERULE'); out_hex_number(glue_argument); right;
+ end;
+ 2: begin
+ left; out('GLUECHAR'); out_hex_number(glue_argument); right;
+ end;
+ end;
+ left;
+ out('GLUESTRETCHORDER');
+ case glue_stretch_order of
+ 0: out(' H 0');
+ 1: out(' H 1');
+ 2: out(' H 2');
+ 3: out(' H 3');
+ 4: out(' H 4');
+ end;
+ right;
+ left;
+ out('GLUESHRINKORDER');
+ case glue_shrink_order of
+ 0: out(' H 0');
+ 1: out(' H 1');
+ 2: out(' H 2');
+ 3: out(' H 3');
+ 4: out(' H 4');
+ end;
+ right;
+ left; out('GLUEWD'); out_fix(base_counter+4); right;
+ left; out('GLUESTRETCH'); out_fix(base_counter+8); right;
+ left; out('GLUESHRINK'); out_fix(base_counter+12); right;
+ right;
+ base_counter:=base_counter+16;
+ end;
+right;
+start_counter:=start_counter+4;
+end;
+
+@ @<Do the penalty parameters@>=
+if nkp>0 then begin
+ start_counter:=penalties_start*4;
+ base_counter:=penalties_base*4;
+ for i:=0 to nkp-1 do @<Check and output the $i$th penalty table@>;
+ end;
+
+@ @<Check and output the $i$th penalty table@>=
+begin
+left; out('FONTPENALTY'); out_hex_number(i); out_ln;
+number_entries:=256*tfm[start_counter+2]+tfm[start_counter+3];
+for j:=0 to number_entries-1 do begin
+ left; out('PENALTY'); out_hex_number(j); out_ln;
+ value:=256*tfm[base_counter+2]+tfm[base_counter+3];
+ left; out('PENALTYVAL'); out_hex_number(value); right;
+ right;
+ base_counter:=base_counter+4;
+ end;
+right;
+start_counter:=start_counter+4;
+end;
+
+@ We need to check the range of all the remaining |fix_word| values,
+and to make sure that |width[0]=0|, etc.
+
+@d nonzero_fix(#)==(tfm[#]>0)or(tfm[#+1]>0)or(tfm[#+2]>0)or(tfm[#+3]>0)
+
+@<Check the |fix_word| entries@>=
+if nonzero_fix(4*width_base) then bad('width[0] should be zero.');
+@.should be zero@>
+if nonzero_fix(4*height_base) then bad('height[0] should be zero.');
+if nonzero_fix(4*depth_base) then bad('depth[0] should be zero.');
+if nonzero_fix(4*italic_base) then bad('italic[0] should be zero.');
+for i:=0 to nw-1 do check_fix(4*(width_base+i))('Width');
+@.Width n is too big@>
+for i:=0 to nh-1 do check_fix(4*(height_base+i))('Height');
+@.Height n is too big@>
+for i:=0 to nd-1 do check_fix(4*(depth_base+i))('Depth');
+@.Depth n is too big@>
+for i:=0 to ni-1 do check_fix(4*(italic_base+i))('Italic correction');
+@.Italic correction n is too big@>
+if nk>0 then for i:=0 to nk-1 do check_fix(kern(i))('Kern');
+@.Kern n is too big@>
+
+@ The ligature/kerning program comes next. Before we can put it out in
+\.{PL} format, we need to make a table of ``labels'' that will be inserted
+into the program. For each character |c| whose |tag| is |lig_tag| and
+whose starting address is |r|, we will store the pair |(c,r)| in the
+|label_table| array. If there's a boundary-char program starting at~|r|,
+we also store the pair |(256,r)|.
+This array is sorted by its second components, using the
+simple method of straight insertion.
+
+@<Glob...@>=
+@!label_table:array[xxxchar_type] of record
+@!cc:xchar_type;@!rr:0..lig_size;ischar:boolean;end;
+@!label_ptr:xxchar_type; {the largest entry in |label_table|}
+@!sort_ptr:xxchar_type; {index into |label_table|}
+@!boundary_char:xchar_type; {boundary character, or |xmax_char| if none}
+@!bchar_label:0..xmax_label; {beginning of boundary character program}
+
+@ @<Set init...@>=
+boundary_char:=xmax_char; bchar_label:=xmax_label;@/
+label_ptr:=0; label_table[0].rr:=0; {a sentinel appears at the bottom}
+
+@ We'll also identify and remove inaccessible program steps, using the
+|activity| array.
+
+@d unreachable=0 {a program step not known to be reachable}
+@d pass_through=1 {a program step passed through on initialization}
+@d accessible=2 {a program step that can be relevant}
+
+@<Glob...@>=
+@!activity:array[0..lig_size] of unreachable..accessible;
+@!ai,@!acti:0..lig_size; {indices into |activity|}
+
+@ @<Do the ligatures and kerns@>=
+if nl>0 then
+ begin for ai:=0 to (nl-1) do activity[ai]:=unreachable;
+ @<Check for a boundary char@>;
+ end;
+@<Build the label table@>;
+if nl>0 then
+ begin left; out('LIGTABLE'); out_ln;@/
+ @<Compute the |activity| array@>;
+ @<Output and correct the ligature/kern program@>;
+ right;
+ @<Check for ligature cycles@>;
+ end
+
+@ We build the label table even when |nl=0|, because this catches errors
+that would not otherwise be detected.
+
+@<Build...@>=
+for c:=bc to ec do
+if (tag(c)=lig_tag) or (ctag(c)) then begin
+ r:=rremainder(c);
+ if (l_skip_byte(lig_step(r)) div 256)=0 then begin
+ if r<nl then begin
+ if l_skip_byte(lig_step(r))>stop_flag then begin
+ r:=256*l_op_byte(lig_step(r))+l_remainder(lig_step(r));
+ if r<nl then
+ if activity[rremainder(c)]=unreachable then
+ activity[rremainder(c)]:=pass_through;
+ end;
+ end;
+ end;
+ if r>=nl then begin
+ perfect:=false; print_ln(' ');
+ print('Ligature/kern starting index for character '); print_hex(c);
+ print_ln(' is too large;'); print_ln('so I removed it.'); set_no_tag(c);
+ set_no_ctag(c);
+@.Ligature/kern starting index...@>
+ end
+ else @<Insert |(c,r)| into |label_table|@>;
+ end;
+label_table[label_ptr+1].rr:=lig_size; {put ``infinite'' sentinel at the end}
+
+@ @<Insert |(c,r)|...@>=
+begin sort_ptr:=label_ptr; {there's a hole at position |sort_ptr+1|}
+while label_table[sort_ptr].rr>r do begin
+ label_table[sort_ptr+1]:=label_table[sort_ptr];
+ decr(sort_ptr); {move the hole}
+ end;
+label_table[sort_ptr+1].ischar:=not ctag(c);
+if ctag(c) then
+ label_table[sort_ptr+1].cc:=char_param(c,0)
+else
+ label_table[sort_ptr+1].cc:=c;
+label_table[sort_ptr+1].rr:=r; {fill the hole}
+incr(label_ptr); activity[r]:=accessible;
+end
+
+@ @<Check for a bound...@>=
+if l_skip_byte(lig_step(0))=255 then begin
+ left; out('BOUNDARYCHAR');
+ boundary_char:=l_next_char(lig_step(0)); out_char(boundary_char); right;
+ activity[0]:=pass_through;
+ end;
+if l_skip_byte(lig_step(nl-1))=255 then begin
+ r:=256*l_op_byte(lig_step(nl-1))+l_remainder(lig_step(nl-1));
+ if r>=nl then begin
+ perfect:=false; print_ln(' ');
+ print('Ligature/kern starting index for boundarychar is too large;');
+ print_ln('so I removed it.');
+@.Ligature/kern starting index...@>
+ end
+ else begin label_ptr:=1; label_table[1].cc:=xmax_char;
+ label_table[1].rr:=r;
+ bchar_label:=r; activity[r]:=accessible;
+ end;
+ activity[nl-1]:=pass_through;
+ end
+
+@ @<Compute the |activity| array@>=
+for ai:=0 to (nl-1) do
+if (l_skip_byte(lig_step(ai)) div 256)=1 then
+ activity[ai]:=accessible
+else if activity[ai]=accessible then begin
+ r:=l_skip_byte(lig_step(ai));
+ if r<stop_flag then begin
+ r:=r+ai+1;
+ if r>=nl then begin
+ bad('Ligature/kern step ',ai:1,' skips too far;');
+@.Lig...skips too far@>
+ print_ln('I made it stop.'); set_l_skip_byte(lig_step(ai),stop_flag);
+ end
+ else activity[r]:=accessible;
+ end;
+ end
+
+@ We ignore |pass_through| items, which don't need to be mentioned in
+the \.{PL} file.
+
+@<Output and correct the ligature...@>=
+sort_ptr:=1; {point to the next label that will be needed}
+for acti:=0 to nl-1 do if activity[acti]<>pass_through then
+ begin i:=acti; @<Take care of commenting out unreachable steps@>;
+ @<Output any labels for step $i$@>;
+ @<Output step $i$ of the ligature/kern program@>;
+ end;
+if level=2 then right {the final step was unreachable}
+
+@ @<Globals...@>=
+@!output_clabels:array[0..256] of boolean;
+@!clabel_runner:integer;
+
+@ @<Set init...@>=
+for clabel_runner:=0 to 256 do
+ output_clabels[clabel_runner]:=false;
+
+@ @<Output any labels...@>=
+while i=label_table[sort_ptr].rr do begin
+ if not label_table[sort_ptr].ischar then begin
+ if not output_clabels[label_table[sort_ptr].cc] then begin
+ output_clabels[label_table[sort_ptr].cc]:=true;
+ left;
+ out('CLABEL');
+ out_char(label_table[sort_ptr].cc);
+ right;
+ end
+ end
+ else begin
+ left;
+ out('LABEL');
+ if label_table[sort_ptr].cc=xmax_char then out(' BOUNDARYCHAR')
+ else out_char(label_table[sort_ptr].cc);
+ right;
+ end;
+ incr(sort_ptr);
+ end
+
+@ @<Take care of commenting out...@>=
+if activity[i]=unreachable then begin
+ if level=1 then begin
+ left; out('COMMENT THIS PART OF THE PROGRAM IS NEVER USED!'); out_ln;
+ end
+ end
+else if level=2 then right
+
+@ @<Output step $i$...@>=
+begin k:=lig_step(i);
+if (l_skip_byte(k) div 256)=1 then begin
+ case l_op_byte(k) of
+ 17: begin
+ left; out('CPEN');
+ out_hex_number(l_next_char(k));
+ out_hex_number(l_remainder(k));
+ right;
+ end;
+ 18: begin
+ left; out('CGLUE');
+ out_hex_number(l_next_char(k));
+ out_hex_number(l_remainder(k));
+ right;
+ end;
+ 19: begin
+ left; out('CPENGLUE');
+ out_hex_number(l_next_char(k));
+ out_hex_number(l_remainder(k) div 256);
+ out_hex_number(l_remainder(k) mod 256);
+ right;
+ end;
+ 20: begin
+ left; out('CKRN');
+ out_hex_number(l_next_char(k));
+ r:=l_remainder(k);
+ if r>=nk then begin
+ bad('Kern index too large.');
+@.Kern index too large@>
+ out(' R 0.0');
+ end
+ else out_fix(kern(r));
+ right;
+ end;
+ end;
+ end
+else if l_skip_byte(k)>stop_flag then begin
+ if (256*l_op_byte(k)+l_remainder(k))>=nl then
+ bad('Ligature unconditional stop command address is too big.');
+@.Ligature unconditional stop...@>
+ end
+else if l_op_byte(k)>=kern_flag then @<Output a kern step@>
+else @<Output a ligature step@>;
+if (l_skip_byte(k) mod 256)>0 then
+ if level=1 then @<Output either \.{SKIP} or \.{STOP}@>;
+end
+
+@ The \.{SKIP} command is a bit tricky, because we will be omitting all
+inaccessible commands.
+
+@<Output either...@>=
+begin
+if (l_skip_byte(k) mod 256)>=stop_flag then out('(STOP)')
+else begin
+ count:=0;
+ for ai:=(i+1) to (i+(l_skip_byte(k) mod 256)) do
+ if activity[ai]=accessible then incr(count);
+ out('(SKIP D ',count:1,')'); {possibly $count=0$, so who cares}
+ end;
+out_ln;
+end
+
+@ @<Output a kern step@>=
+begin if nonexistent(l_next_char(k)) then
+ if l_next_char(k)<>boundary_char then
+ correct_bad_char('Kern step for')(l_next_char)(set_l_next_char);
+@.Kern step for nonexistent...@>
+left; out('KRN'); out_char(l_next_char(k));
+r:=256*(l_op_byte(k)-kern_flag)+l_remainder(k);
+if r>=nk then
+ begin bad('Kern index too large.');
+@.Kern index too large@>
+ out(' R 0.0');
+ end
+else out_fix(kern(r));
+right;
+end
+
+@ @<Output a ligature step@>=
+begin
+if nonexistent(l_next_char(k)) then
+ if l_next_char(k)<>boundary_char then
+ correct_bad_char('Ligature step for')(l_next_char)(set_l_next_char);
+@.Ligature step for nonexistent...@>
+if nonexistent(l_remainder(k)) then
+ correct_bad_char('Ligature step produces the')(l_remainder)(set_l_remainder);
+@.Ligature step produces...@>
+left; r:=l_op_byte(k);
+if (r=4)or((r>7)and(r<>11)) then begin
+ print_ln('Ligature step with nonstandard code changed to LIG');
+ r:=0; set_l_op_byte(k,0);
+ end;
+if r mod 4>1 then out('/');
+out('LIG');
+if odd(r) then out('/');
+while r>3 do begin
+ out('>'); r:=r-4;
+ end;
+out_char(l_next_char(k)); out_char(l_remainder(k)); right;
+end
+
+@ The last thing on \.{TFtoPL}'s agenda is to go through the
+list of |char_info| and spew out the information about each individual
+character.
+
+@<Do the characters@>=
+sort_ptr:=0; {this will suppress `\.{STOP}' lines in ligature comments}
+c:=bc;
+while (c<=ec) do
+begin
+if width_index(c)>0 then begin
+ if chars_on_line=8 then begin
+ print_ln(' '); chars_on_line:=1;
+ end
+ else begin
+ if chars_on_line>0 then print(' ');
+ incr(chars_on_line);
+ end;
+ if no_repeats(c)>0 then begin
+ print_hex(c); print('-'); print_hex(c+no_repeats(c));
+ left; out('CHARREPEAT'); out_char(c); out_char(no_repeats(c)); out_ln;
+ end
+ else begin
+ print_hex(c); {progress report}
+ left; out('CHARACTER'); out_char(c); out_ln;
+ end;
+ @<Output the character's width@>;
+ if height_index(c)>0 then @<Output the character's height@>;
+ if depth_index(c)>0 then @<Output the character's depth@>;
+ if italic_index(c)>0 then @<Output the italic correction@>;
+ case tag(c) of
+ no_tag: do_nothing;
+ lig_tag: @<Output the applicable part of the ligature/kern
+ program as a comment@>;
+ list_tag: @<Output the character link unless there is a problem@>;
+ ext_tag: @<Output an extensible character recipe@>;
+ end; {there are no other cases}
+ for i:=0 to npc-1 do begin
+ if char_param(c,i)<>0 then begin
+ left;
+ if i<nki then begin
+ out('CHARIVALUE'); out_hex_number(i);
+ end
+ else if i<(nki+nkf) then begin
+ out('CHARFVALUE'); out_hex_number(i-nki);
+ end
+ else if i<(nki+nkf+nkr) then begin
+ out('CHARRULE'); out_hex_number(i-nki-nkf);
+ end
+ else if i<(nki+nkf+nkr+nkg) then begin
+ out('CHARGLUE'); out_hex_number(i-nki-nkf-nkr);
+ end
+ else if i<(nki+nkf+nkr+nkg+nkp) then begin
+ out('CHARPENALTY'); out_hex_number(i-nki-nkf-nkr-nkg);
+ end;
+ out_hex_number(char_param(c,i));
+ right;
+ end;
+ end;
+ right;
+ end;
+c:=c+1+no_repeats(c);
+end
+
+@ @<Output the character's width@>=
+if width_index(c)>=nw then range_error('Width')
+@.Width index for char...@>
+else begin left; out('CHARWD'); out_fix(width(c)); right;
+ end
+
+@ @<Output the character's height@>=
+if height_index(c)>=nh then range_error('Height')
+@.Height index for char...@>
+else begin left; out('CHARHT'); out_fix(height(c)); right;
+ end
+
+@ @<Output the character's depth@>=
+if depth_index(c)>=nd then range_error('Depth')
+@.Depth index for char@>
+else begin left; out('CHARDP'); out_fix(depth(c)); right;
+ end
+
+@ @<Output the italic correction@>=
+if italic_index(c)>=ni then range_error('Italic correction')
+@.Italic correction index for char...@>
+else begin left; out('CHARIC'); out_fix(italic(c)); right;
+ end
+
+@ @<Output the applicable part of the ligature...@>=
+begin left; out('COMMENT'); out_ln;@/
+i:=rremainder(c); r:=lig_step(i);
+if (l_skip_byte(r) mod 256)>stop_flag
+then i:=256*l_op_byte(r)+l_remainder(r);
+repeat @<Output step...@>;
+if (l_skip_byte(k) mod 256)>=stop_flag then i:=nl
+else i:=i+1+(l_skip_byte(k) mod 256);
+until i>=nl;
+right;
+end
+
+@ We want to make sure that there is no cycle of characters linked together
+by |list_tag| entries, since such a cycle would get \TeX\ into an endless
+loop. If such a cycle exists, the routine here detects it when processing
+the largest character code in the cycle.
+
+@<Output the character link unless there is a problem@>=
+begin r:=rremainder(c);
+if nonexistent(r) then
+ begin bad_char('Character list link to')(r); set_no_tag(c);
+@.Character list link...@>
+ end
+else begin while (r<c)and(tag(r)=list_tag) do r:=rremainder(r);
+ if r=c then
+ begin bad('Cycle in a character list!');
+@.Cycle in a character list@>
+ print('Character '); print_hex(c);
+ print_ln(' now ends the list.');
+ set_no_tag(c);
+ end
+ else begin left; out('NEXTLARGER'); out_char(rremainder(c));
+ right;
+ end;
+ end;
+end
+
+@ @<Output an extensible character recipe@>=
+if rremainder(c)>=ne then
+ begin range_error('Extensible'); set_no_tag(c);
+@.Extensible index for char@>
+ end
+else begin left; out('VARCHAR'); out_ln;
+ @<Output the extensible pieces that exist@>;
+ right;
+ end
+
+@ @<Glob...@>=
+@!exten_char:integer;
+
+@ @<Output the extensible pieces that...@>=
+for d:=0 to 3 do begin
+ if not ofm_on then begin
+ k:=exten(c)+d;
+ exten_char:=tfm[k];
+ end
+ else begin
+ k:=exten(c)+2*d;
+ exten_char:=256*tfm[k]+tfm[k+1];
+ end;
+ if (d=3)or(exten_char>0) then begin
+ left;
+ case d of
+ 0:out('TOP');@+1:out('MID');@+2:out('BOT');@+3:out('REP')@+end;
+ if nonexistent(exten_char) then out_char(c)
+ else out_char(exten_char);
+ right;
+ end
+ end
+
+@ Some of the extensible recipes may not actually be used, but \TeX\ will
+complain about them anyway if they refer to nonexistent characters.
+Therefore \.{TFtoPL} must check them too.
+
+@<Check the extensible recipes@>=
+if ne>0 then
+ for c:=0 to ne-1 do
+ for d:=0 to 3 do begin
+ if not ofm_on then begin
+ k:=4*(exten_base+c)+d;
+ exten_char:=tfm[k];
+ end
+ else begin
+ k:=4*(exten_base+c)+2*d;
+ exten_char:=256*tfm[k]+tfm[k+1];
+ end;
+ if (exten_char>0)or(d=3) then begin
+ if nonexistent(exten_char) then begin
+ bad_char('Extensible recipe involves the')(exten_char);
+@.Extensible recipe involves...@>
+ if d<3 then begin
+ if not ofm_on then begin
+ tfm[k]:=0;
+ end
+ else begin
+ tfm[k]:=0;
+ tfm[k+1]:=0;
+ end;
+ end;
+ end;
+ end;
+ end
+
+@* Checking for ligature loops.
+We have programmed almost everything but the most interesting calculation of
+all, which has been saved for last as a special treat. \TeX's extended
+ligature mechanism allows unwary users to specify sequences of ligature
+replacements that never terminate. For example, the pair of commands
+$$\.{(/LIG $x$ $y$) (/LIG $y$ $x$)}$$
+alternately replaces character $x$ by character $y$ and vice versa. A similar
+loop occurs if \.{(LIG/ $z$ $y$)} occurs in the program for $x$ and
+ \.{(LIG/ $z$ $x$)} occurs in the program for $y$.
+
+More complicated loops are also possible. For example, suppose the ligature
+programs for $x$ and $y$ are
+$$\vcenter{\halign{#\hfil\cr
+\.{(LABEL $x$)(/LIG/ $z$ $w$)(/LIG/> $w$ $y$)} \dots,\cr
+\.{(LABEL $y$)(LIG $w$ $x$)} \dots;\cr}}$$
+then the adjacent characters $xz$ change to $xwz$, $xywz$, $xxz$, $xxwz$,
+\dots, ad infinitum.
+
+@ To detect such loops, \.{TFtoPL} attempts to evaluate the function
+$f(x,y)$ for all character pairs $x$ and~$y$, where $f$ is defined as
+follows: If the current character is $x$ and the next character is
+$y$, we say the ``cursor'' is between $x$ and $y$; when the cursor
+first moves past $y$, the character immediately to its left is
+$f(x,y)$. This function is defined if and only if no infinite loop is
+generated when the cursor is between $x$ and~$y$.
+
+The function $f(x,y)$ can be defined recursively. It turns out that all pairs
+$(x,y)$ belong to one of five classes. The simplest class has $f(x,y)=y$;
+this happens if there's no ligature between $x$ and $y$, or in the cases
+\.{LIG/>} and \.{/LIG/>>}. Another simple class arises when there's a
+\.{LIG} or \.{/LIG>} between $x$ and~$y$, generating the character~$z$;
+then $f(x,y)=z$. Otherwise we always have $f(x,y)$ equal to
+either $f(x,z)$ or $f(z,y)$ or $f(f(x,z),y)$, where $z$ is the inserted
+ligature character.
+
+The first two of these classes can be merged; we can also consider
+$(x,y)$ to belong to the simple class when $f(x,y)$ has been evaluated.
+For technical reasons we allow $x$ to be 256 (for the boundary character
+at the left) or 257 (in cases when an error has been detected).
+
+For each pair $(x,y)$ having a ligature program step, we store
+$(x,y)$ in a hash table from which the values $z$ and $class$ can be read.
+
+@d simple=0 {$f(x,y)=z$}
+@d left_z=1 {$f(x,y)=f(z,y)$}
+@d right_z=2 {$f(x,y)=f(x,z)$}
+@d both_z=3 {$f(x,y)=f(f(x,z),y)$}
+@d pending=4 {$f(x,y)$ is being evaluated}
+
+@<Glob...@>=
+@!hash:array[0..hash_size] of integer;
+@!class:array[0..hash_size] of simple..pending;
+@!lig_z:array[0..hash_size] of xxchar_type;
+@!hash_ptr:0..hash_size; {the number of nonzero entries in |hash|}
+@!hash_list:array[0..hash_size] of 0..hash_size;
+ {list of those nonzero entries}
+@!h,@!hh:0..hash_size; {indices into the hash table}
+@!x_lig_cycle,@!y_lig_cycle:integer; {problematic ligature pair}
+
+@ @<Check for ligature cycles@>=
+hash_ptr:=0; y_lig_cycle:=xmax_char;
+for hh:=0 to hash_size do hash[hh]:=0; {clear the hash table}
+for c:=bc to ec do if tag(c)=lig_tag then
+ begin i:=rremainder(c);
+ if (l_skip_byte(lig_step(i)) mod 256)>stop_flag then
+ i:=256*l_op_byte(lig_step(i))+l_remainder(lig_step(i));
+ @<Enter data for character $c$ starting at location |i| in the hash table@>;
+ end;
+if bchar_label<nl then
+ begin c:=xmax_char; i:=bchar_label;
+ @<Enter data for character $c$ starting at location |i| in the hash table@>;
+ end;
+if hash_ptr=hash_size then
+ begin print_ln('Sorry, I haven''t room for so many ligature/kern pairs!');
+@.Sorry, I haven't room...@>
+ goto final_end;
+ end;
+for hh:=1 to hash_ptr do
+ begin r:=hash_list[hh];
+ if class[r]>simple then {make sure $f$ is defined}
+ r:=f(r,(hash[r]-1)div xmax_char,(hash[r]-1)mod xmax_char);
+ end;
+if y_lig_cycle<xmax_char then
+ begin print('Infinite ligature loop starting with ');
+@.Infinite ligature loop...@>
+ if x_lig_cycle=xmax_char
+ then print('boundary')@+else print_hex(x_lig_cycle);
+ print(' and '); print_hex(y_lig_cycle); print_ln('!');
+ out('(INFINITE LIGATURE LOOP MUST BE BROKEN!)'); goto final_end;
+ end
+
+@ @<Enter data for character $c$...@>=
+repeat hash_input; k:=l_skip_byte(lig_step(i));
+if k>=stop_flag then i:=nl
+else i:=i+1+k;
+until i>=nl
+
+@ We use an ``ordered hash table'' with linear probing, because such a table
+is efficient when the lookup of a random key tends to be unsuccessful.
+
+@p procedure hash_input; {enter data for character |c| and command |i|}
+label 30; {go here for a quick exit}
+var @!cc:simple..both_z; {class of data being entered}
+@!zz:char_type; {function value or ligature character being entered}
+@!y:char_type; {the character after the cursor}
+@!key:integer; {value to be stored in |hash|}
+@!t:integer; {temporary register for swapping}
+begin if hash_ptr=hash_size then goto 30;
+@<Compute the command parameters |y|, |cc|, and |zz|@>;
+key:=xmax_char*c+y+1; h:=(hash_mult*(key mod hash_size)) mod hash_size;
+while hash[h]>0 do
+ begin if hash[h]<=key then
+ begin if hash[h]=key then goto 30; {unused ligature command}
+ t:=hash[h]; hash[h]:=key; key:=t; {do ordered-hash-table insertion}
+ t:=class[h]; class[h]:=cc; cc:=t; {namely, do a swap}
+ t:=lig_z[h]; lig_z[h]:=zz; zz:=t;
+ end;
+ if h>0 then decr(h)@+else h:=hash_size;
+ end;
+hash[h]:=key; class[h]:=cc; lig_z[h]:=zz;
+incr(hash_ptr); hash_list[hash_ptr]:=h;
+30:end;
+
+@ We must store kern commands as well as ligature commands, because
+the former might make the latter inapplicable.
+
+@<Compute the command param...@>=
+k:=lig_step(i); y:=l_next_char(k); t:=l_op_byte(k);
+cc:=simple; zz:=l_remainder(k);
+if t>=kern_flag then zz:=y
+else begin case t of
+ 0,6:do_nothing; {\.{LIG},\.{/LIG>}}
+ 5,11:zz:=y; {\.{LIG/>}, \.{/LIG/>>}}
+ 1,7:cc:=left_z; {\.{LIG/}, \.{/LIG/>}}
+ 2:cc:=right_z; {\.{/LIG}}
+ 3:cc:=both_z; {\.{/LIG/}}
+ end; {there are no other cases}
+ end
+
+@ Evaluation of $f(x,y)$ is handled by two mutually recursive procedures.
+Kind of a neat algorithm, generalizing a depth-first search.
+
+@p function f(@!h,@!x,@!y:index):index; forward;@t\2@>
+ {compute $f$ for arguments known to be in |hash[h]|}
+function eval(@!x,@!y:index):index; {compute $f(x,y)$ with hashtable lookup}
+var @!key:integer; {value sought in hash table}
+begin key:=xmax_char*x+y+1; h:=(hash_mult*key) mod hash_size;
+while hash[h]>key do
+ if h>0 then decr(h)@+else h:=hash_size;
+if hash[h]<key then eval:=y {not in ordered hash table}
+else eval:=f(h,x,y);
+end;
+
+@ Pascal's beastly convention for |forward| declarations prevents us from
+saying |function f(h,x,y:index):index| here.
+
+@p function f;
+begin case class[h] of
+simple: do_nothing;
+left_z: begin class[h]:=pending; lig_z[h]:=eval(lig_z[h],y); class[h]:=simple;
+ end;
+right_z: begin class[h]:=pending; lig_z[h]:=eval(x,lig_z[h]); class[h]:=simple;
+ end;
+both_z: begin class[h]:=pending; lig_z[h]:=eval(eval(x,lig_z[h]),y);
+ class[h]:=simple;
+ end;
+pending: begin x_lig_cycle:=x; y_lig_cycle:=y;
+ lig_z[h]:=xxmax_char; class[h]:=simple;
+ end; {the value |xxmax_char| will break all cycles,
+ since it's not in |hash|}
+end; {there are no other cases}
+f:=lig_z[h];
+end;
+
+@* The main program.
+The routines sketched out so far need to be packaged into separate procedures,
+on some systems, since some \PASCAL\ compilers place a strict limit on the
+size of a routine. The packaging is done here in an attempt to avoid some
+system-dependent changes.
+
+First comes the |organize| procedure, which reads the input data and
+gets ready for subsequent events. If something goes wrong, the routine
+returns |false|.
+
+@p function organize:boolean;
+label final_end, 30;
+var tfm_ptr:index; {an index into |tfm|}
+begin @<Read the whole input file@>;@/
+@<Set subfile sizes |lh|, |bc|, \dots, |np|@>;@/
+@<Compute the base addresses@>;@/
+organize:=true; goto 30;
+final_end: organize:=false;
+30: end;
+
+@ Next we do the simple things.
+
+@p procedure do_simple_things;
+var i:integer; {an index to words of a subfile}
+begin @<Do the header@>;@/
+@<Do the parameters@>;@/
+@<Do the ivalue parameters@>;@/
+@<Do the fvalue parameters@>;@/
+@<Do the mvalue parameters@>;@/
+@<Do the rule parameters@>;@/
+@<Do the glue parameters@>;@/
+@<Do the penalty parameters@>;@/
+@<Check the |fix_word| entries@>@/
+end;
+
+@ And then there's a routine for individual characters.
+
+@p procedure do_characters;
+var @!c:integer; {character being done}
+@!k:index; {a random index}
+@!ai:0..lig_size; {index into |activity|}
+begin @<Do the characters@>;@/
+end;
+
+@ Here is where \.{TFtoPL} begins and ends.
+@p begin initialize;@/
+if not organize then goto final_end;
+do_simple_things;@/
+@<Do the ligatures and kerns@>;
+@<Check the extensible recipes@>;
+do_characters; print_ln('.');@/
+if level<>0 then print_ln('This program isn''t working!');
+@.This program isn't working@>
+if not perfect then
+ out('(COMMENT THE OFM FILE WAS BAD, SO THE DATA HAS BEEN CHANGED!)');
+@.THE OFM FILE WAS BAD...@>
+final_end:end.
+
+@* System-dependent changes.
+This section should be replaced, if necessary, by changes to the program
+that are necessary to make \.{TFtoPL} work at a particular installation.
+It is usually best to design your change file so that all changes to
+previous sections preserve the section numbering; then everybody's version
+will be consistent with the printed program. More extensive changes,
+which introduce new sections, can be inserted here; then only the index
+itself will get a new section number.
+@^system dependencies@>
+
+@* Index.
+Pointers to error messages appear here together with the section numbers
+where each ident\-i\-fier is used.
diff --git a/Build/source/texk/web2c/omegaware/opl2ofm.ch b/Build/source/texk/web2c/omegaware/opl2ofm.ch
new file mode 100644
index 00000000000..d4b4b372b14
--- /dev/null
+++ b/Build/source/texk/web2c/omegaware/opl2ofm.ch
@@ -0,0 +1,337 @@
+%
+% This file is part of the Omega project, which
+% is based in the web2c distribution of TeX.
+%
+% Copyright (c) 1994--1998 John Plaice and Yannis Haralambous
+% applies only to the changes to the original pltotf.ch.
+%
+% pltotf.ch for C compilation with web2c.
+%
+% 04/04/83 (PC) Original version, made to work with version 1.2 of PLtoTF.
+% 04/16/83 (PC) Brought up to version 1.3 of PLtoTF.
+% 06/30/83 (HWT) Revised changefile format for version 1.7 Tangle
+% 07/28/83 (HWT) Brought up to version 2
+% 12/19/86 (ETM) Brought up to version 2.1
+% 07/05/87 (ETM) Brought up to version 2.3
+% 03/22/88 (ETM) Converted for use with WEB to C
+% 11/29/89 (KB) Version 3.
+% 01/16/90 (SR) Version 3.2.
+% (more recent changes in the ChangeLog)
+
+@x [0] WEAVE: print changes only.
+\pageno=\contentspagenumber \advance\pageno by 1
+@y
+\pageno=\contentspagenumber \advance\pageno by 1
+%\let\maybe=\iffalse
+%\def\title{OPL2OFM changes for C}
+@z
+
+@x [still 2] No banner unless verbose.
+procedure initialize; {this procedure gets things started properly}
+ var @<Local variables for initialization@>@/
+ begin print_ln(banner);@/
+@y
+@<Define |parse_arguments|@>
+procedure initialize; {this procedure gets things started properly}
+ var @<Local variables for initialization@>@/
+begin
+ kpse_set_progname (argv[0]);
+ parse_arguments;
+@z
+
+@x [3] Larger constants.
+@!buf_size=60; {length of lines displayed in error messages}
+@y
+@!buf_size=3000; {max input line length, output error line length}
+@z
+%@x
+%@!max_lig_steps=5000;
+% {maximum length of ligature program, must be at most $32767-257=32510$}
+%@!max_kerns=500; {the maximum number of distinct kern values}
+%@!hash_size=5003; {preferably a prime number, a bit larger than the number
+% of character pairs in lig/kern steps}
+%@y
+%@!max_lig_steps=32500;
+% {maximum length of ligature program, must be at most $32767-257=32510$}
+%@!max_kerns=15000; {the maximum number of distinct kern values}
+%@!hash_size=15077; {preferably a prime number, a bit larger than the number
+% of character pairs in lig/kern steps}
+%@z
+
+@x [6] Open PL file.
+reset(pl_file);
+@y
+reset (pl_file, pl_name);
+if verbose then begin
+ print (banner);
+ print_ln (version_string);
+end;
+@z
+
+@x [16] Open TFM file.
+@ On some systems you may have to do something special to write a
+packed file of bytes. For example, the following code didn't work
+when it was first tried at Stanford, because packed files have to be
+opened with a special switch setting on the \PASCAL\ that was used.
+@^system dependencies@>
+
+@<Set init...@>=
+rewrite(tfm_file);
+@y
+@ On some systems you may have to do something special to write a
+packed file of bytes. It's no problem in C.
+@^system dependencies@>
+
+@<Set init...@>=
+rewritebin (tfm_file, tfm_name);
+@z
+
+@x [79] `index' might be a library routine.
+|k|th element of its list.
+@y
+|k|th element of its list.
+@d index == index_var
+@z
+
+@x [103] No output (except errors) unless verbose.
+@<Print |c| in hex notation@>;
+@y
+if verbose then @<Print |c| in hex notation@>;
+@z
+
+% [27, 28] Change strings to C char pointers. The Pascal strings are
+% indexed starting at 1, so we pad with a blank.
+@x
+@!ASCII_04,@!ASCII_10,@!ASCII_14,HEX: packed array [1..32] of char;
+ {strings for output in the user's external character set}
+@!MBL_string,@!RI_string,@!RCE_string:packed array [1..3] of char;
+ {handy string constants for |face| codes}
+@y
+@!ASCII_04,@!ASCII_10,@!ASCII_14,HEX: c_string;
+ {strings for output in the user's external character set}
+@!ASCII_all: packed array[0..256] of char;
+@!MBL_string,@!RI_string,@!RCE_string: c_string;
+ {handy string constants for |face| codes}
+@z
+
+@x
+ASCII_04:=' !"#$%&''()*+,-./0123456789:;<=>?';@/
+ASCII_10:='@@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_';@/
+ASCII_14:='`abcdefghijklmnopqrstuvwxyz{|}~ ';@/
+HEX:='0123456789ABCDEF';@/
+MBL_string:='MBL'; RI_string:='RI '; RCE_string:='RCE';
+@y
+ASCII_04:=' !"#$%&''()*+,-./0123456789:;<=>?';@/
+ASCII_10:=' @@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_';@/
+ASCII_14:=' `abcdefghijklmnopqrstuvwxyz{|}~ ';@/
+HEX:=' 0123456789ABCDEF';@/
+strcpy (ASCII_all, ASCII_04);
+strcat (ASCII_all, '@@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_');
+strcat (ASCII_all, '`abcdefghijklmnopqrstuvwxyz{|}~');@/
+MBL_string:=' MBL'; RI_string:=' RI '; RCE_string:=' RCE';
+@z
+
+@x [115] Output of reals.
+@ @d round_message(#)==if delta>0 then print_ln('I had to round some ',
+@.I had to round...@>
+ #,'s by ',(((delta+1) div 2)/@'4000000):1:7,' units.')
+@y
+@ @d round_message(#)==if delta>0 then begin print('I had to round some ',
+@.I had to round...@>
+ #,'s by '); print_real((((delta+1) div 2)/@'4000000),1,7);
+ print_ln(' units.'); end
+@z
+
+% [118] Change the name of the variable `class', since AIX 3.1's <math.h>
+% defines a function by that name.
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@x
+@d pending=4 {$f(x,y)$ is being evaluated}
+@y
+@d pending=4 {$f(x,y)$ is being evaluated}
+@d class == class_var {Avoid problems with AIX \.{<math.h>}}
+@z
+
+% [123] web2c can't handle these mutually recursive procedures.
+% But let's do a fake definition of f here, so that it gets into web2c's
+% symbol table...
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@x
+@p function f(@!h,@!x,@!y:indx):indx; forward;@t\2@>
+ {compute $f$ for arguments known to be in |hash[h]|}
+@y
+@p
+ifdef('notdef')
+function f(@!h,@!x,@!y:indx):indx; begin end;@t\2@>
+ {compute $f$ for arguments known to be in |hash[h]|}
+endif('notdef')
+@z
+
+% [124] ... and then really define it now.
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@x
+@p function f;
+@y
+@p function f(@!h,@!x,@!y:indx):indx;
+@z
+
+@x [127] Fix up output of bytes.
+@d out(#)==write(tfm_file,#)
+@y
+@d out(#)==putbyte(#,tfm_file)
+@z
+
+@x [136] Fix output of reals.
+@p procedure out_scaled(x:fix_word); {outputs a scaled |fix_word|}
+var @!n:byte; {the first byte after the sign}
+@!m:0..65535; {the two least significant bytes}
+begin if abs(x/design_units)>=16.0 then begin
+ print_ln('The relative dimension ',x/@'4000000:1:3,
+ ' is too large.');
+@.The relative dimension...@>
+ print(' (Must be less than 16*designsize');
+ if design_units<>unity then print(' =',design_units/@'200000:1:3,
+ ' designunits');
+@y
+@p procedure out_scaled(x:fix_word); {outputs a scaled |fix_word|}
+var @!n:byte; {the first byte after the sign}
+@!m:0..65535; {the two least significant bytes}
+begin if fabs(x/design_units)>=16.0 then begin
+ print('The relative dimension ');
+ print_real(x/@'4000000,1,3);
+ print_ln(' is too large.');
+@.The relative dimension...@>
+ print(' (Must be less than 16*designsize');
+ if design_units<>unity then begin print(' =');
+ print_real(design_units/@'200000,1,3);
+ print(' designunits');
+ end;
+@z
+
+% [141] char_remainder[c] is unsigned, and label_table[sort_ptr].rr
+% might be -1, and if -1 is coerced to being unsigned, it will be bigger
+% than anything else.
+@x
+ while label_table[sort_ptr].rr>char_remainder[c] do begin
+@y
+ while label_table[sort_ptr].rr>intcast(char_remainder[c]) do begin
+@z
+
+@x [147] Be quiet unless verbose.
+read_input; print('.');@/
+@y
+read_input;
+if verbose then print_ln('.');
+@z
+
+@x [148] System-dependent changes.
+This section should be replaced, if necessary, by changes to the program
+that are necessary to make \.{PLtoTF} work at a particular installation.
+It is usually best to design your change file so that all changes to
+previous sections preserve the section numbering; then everybody's version
+will be consistent with the printed program. More extensive changes,
+which introduce new sections, can be inserted here; then only the index
+itself will get a new section number.
+@^system dependencies@>
+@y
+Parse a Unix-style command line.
+
+@d argument_is (#) == (strcmp (long_options[option_index].name, #) = 0)
+
+@<Define |parse_arguments|@> =
+procedure parse_arguments;
+const n_options = 3; {Pascal won't count array lengths for us.}
+var @!long_options: array[0..n_options] of getopt_struct;
+ @!getopt_return_val: integer;
+ @!option_index: c_int_type;
+ @!current_option: 0..n_options;
+begin
+ @<Initialize the option variables@>;
+ @<Define the option table@>;
+ repeat
+ getopt_return_val := getopt_long_only (argc, argv, '', long_options,
+ address_of (option_index));
+ if getopt_return_val = -1 then begin
+ {End of arguments; we exit the loop below.} ;
+
+ end else if getopt_return_val = "?" then begin
+ usage ('opl2ofm');
+
+ end else if argument_is ('help') then begin
+ usage_help (OPL2OFM_HELP, nil);
+
+ end else if argument_is ('version') then begin
+ print_version_and_exit
+ (banner, nil, 'J. Plaice, Y. Haralambous, D.E. Knuth', nil);
+
+ end; {Else it was a flag; |getopt| has already done the assignment.}
+ until getopt_return_val = -1;
+
+ {Now |optind| is the index of first non-option on the command line.
+ We must have one or two remaining arguments.}
+ if (optind + 1 <> argc) and (optind + 2 <> argc) then begin
+ write_ln (stderr, 'opl2ofm: Need one or two file arguments.');
+ usage ('opl2ofm');
+ end;
+
+ pl_name := extend_filename (cmdline (optind), 'opl');
+
+ {If an explicit output filename isn't given, construct it from |pl_name|.}
+ if optind + 2 = argc then begin
+ tfm_name := extend_filename (cmdline (optind + 1), 'ofm');
+ end else begin
+ tfm_name := basename_change_suffix (pl_name, '.opl', '.ofm');
+ end;
+end;
+
+@ Here are the options we allow. The first is one of the standard GNU options.
+@.-help@>
+
+@<Define the option...@> =
+current_option := 0;
+long_options[current_option].name := 'help';
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+incr (current_option);
+
+@ Another of the standard options.
+@.-version@>
+
+@<Define the option...@> =
+long_options[current_option].name := 'version';
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+incr (current_option);
+
+@ Print progress information?
+
+@<Define the option...@> =
+long_options[current_option].name := 'verbose';
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := address_of (verbose);
+long_options[current_option].val := 1;
+incr (current_option);
+
+@
+@<Glob...@> =
+@!verbose: c_int_type;
+
+@
+@<Initialize the option...@> =
+verbose := false;
+
+@ An element with all zeros always ends the list.
+
+@<Define the option...@> =
+long_options[current_option].name := 0;
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+
+@ Global filenames.
+
+@<Global...@> =
+@!tfm_name,@!pl_name:c_string;
+@z
diff --git a/Build/source/texk/web2c/omegaware/opl2ofm.web b/Build/source/texk/web2c/omegaware/opl2ofm.web
new file mode 100644
index 00000000000..df91a25dfee
--- /dev/null
+++ b/Build/source/texk/web2c/omegaware/opl2ofm.web
@@ -0,0 +1,4363 @@
+%
+% This file is part of the Omega project, which
+% is based in the web2c distribution of TeX.
+%
+% Copyright (c) 1994--2000 John Plaice and Yannis Haralambous
+% applies only to the changes to the original pltotf.web
+%
+% This program by D. E. Knuth is not copyrighted and can be used freely.
+% Version 0 was implemented in January 1982.
+% In February 1982 a new restriction on ligature steps was added.
+% In June 1982 the routines were divided into smaller pieces for IBM people.
+% Hex was added in September 1982, and the result became "Version 1".
+% Version 1.1 fixed a bug in section 28 (since eoln is undefined after eof).
+% Slight changes were made in October, 1982, for version 0.6 of TeX.
+% Version 1.2 fixed a bug in section 115 (TOP, MID, and BOT can be zero)
+% Version 1.3 (April 1983) blanked out unused BCPL header bytes
+% Version 2 (July 1983) was released with TeX version 0.999.
+% Version 2.1 (September 1983) changed TEXINFO to FONTDIMEN.
+% Version 2.2 (May 1985) added checksum computation to match METAFONT.
+% Version 2.3 (August 1985) introduced `backup' to fix a minor bug.
+% Version 3 (October 1989) introduced extended ligature features.
+% Version 3.1 (November 1989) fixed two bugs (notably min_nl:=0).
+% Version 3.2 (December 1989) improved `shorten', increased max_letters.
+% Version 3.3 (September 1990) fixed `nonexistent char 0' (John Gourlay).
+% Version 3.4 (March 1991) has more robust `out_scaled' (Wayne Sullivan).
+% Version 3.5 (March 1995) initialized lk_step_ended (Armin K\"ollner).
+
+% Version 1.0 of OPL2OFM (March 1997) allows one to read OPL files
+% and generate OFM files.
+
+% Here is TeX material that gets inserted after \input webmac
+\def\hang{\hangindent 3em\indent\ignorespaces}
+\font\ninerm=cmr9
+\let\mc=\ninerm % medium caps for names like SAIL
+\def\PASCAL{Pascal}
+\font\logo=logo10 % for the METAFONT logo
+\def\MF{{\logo METAFONT}}
+
+\def\(#1){} % this is used to make section names sort themselves better
+\def\9#1{} % this is used for sort keys in the index
+
+\def\title{OPL2OFM}
+\def\contentspagenumber{301}
+\def\topofcontents{\null
+ \def\titlepage{F} % include headline on the contents page
+ \def\rheader{\mainfont\hfil \contentspagenumber}
+ \vfill
+ \centerline{\titlefont The {\ttitlefont OPL2OFM} processor}
+ \vskip 15pt
+ \centerline{(Version 1.11, February 2000)}
+ \vfill}
+\def\botofcontents{\vfill
+ \centerline{\hsize 5in\baselineskip9pt
+ \vbox{\ninerm\noindent
+ The preparation of the original report
+ was supported in part by the National Science
+ Foundation under grants IST-8201926 and MCS-8300984,
+ and by the System Development Foundation. `\TeX' is a
+ trademark of the American Mathematical Society.}}}
+\pageno=\contentspagenumber \advance\pageno by 1
+
+@* Introduction.
+The \.{OPL2OFM} utility program converts property-list (``\.{PL}''
+and (``\.{OPL}'') files into equivalent \TeX\ and $\Omega$ font metric
+(``\.{TFM}'' and ``\.{OFM}) files. It also makes a thorough check of
+the given \.{PL} or \.{OPL} file, so that the \.{TFM} or \.{OFM} file
+should be acceptable to \TeX\ or $\Omega$.
+
+The first \.{PLtoTF} program was designed by Leo Guibas in the summer of
+1978. Contributions by Frank Liang, Doug Wyatt, and Lyle Ramshaw
+also had a significant effect on the evolution of the present code.
+
+Extensions for an enhanced ligature mechanism were added by D. E. Knuth
+in 1989.
+
+Extensions to handle extended font metric files (``\.{OFM}'') were
+added by John Plaice in December 1995 and January 1996, resulting in the
+new program \.{OPLtoOFM}. In the following documentation, all unchanged
+references to the \.{PLtoTF} program and to \.{TFM} and \.{PL} files also
+apply to the \.{OPLtoOFM} program and to \.{OFM} and \.{OPL} files.
+
+The |banner| string defined here should be changed whenever \.{OPLtoOFM}
+gets modified.
+
+@d banner=='This is OPL2OFM, Version 1.11'
+
+@ This program is written entirely in standard \PASCAL, except that
+it has to do some slightly system-dependent character code conversion
+on input. Furthermore, lower case letters are used in error messages;
+they could be converted to upper case if necessary. The input is read
+from |pl_file|, and the output is written on |tfm_file|; error messages and
+other remarks are written on the |output| file, which the user may
+choose to assign to the terminal if the system permits it.
+@^system dependencies@>
+
+The term |print| is used instead of |write| when this program writes on
+the |output| file, so that all such output can be easily deflected.
+
+@d print(#)==write(#)
+@d print_ln(#)==write_ln(#)
+
+@p program OPL2OFM(@!pl_file,@!tfm_file,@!output);
+const @<Constants in the outer block@>@/
+type @<Types in the outer block@>@/
+var @<Globals in the outer block@>@/
+procedure initialize; {this procedure gets things started properly}
+ var @<Local variables for initialization@>@/
+ begin print_ln(banner);@/
+ @<Set initial values@>@/
+ end;
+
+@ The following parameters can be changed at compile time to extend or
+reduce \.{PLtoTF}'s capacity.
+
+@<Constants...@>=
+@!buf_size=60; {length of lines displayed in error messages}
+@!max_header_bytes=100; {four times the maximum number of words allowed in
+ the \.{TFM} file header block, must be 1024 or less}
+@!max_param_words=100; {the maximum number of \.{fontdimen} parameters allowed}
+@!max_lig_steps=800000;
+ {maximum length of ligature program, must be at most $32767-257=32510$}
+@!xmax_label=800001;
+@!max_kerns=50000; {the maximum number of distinct kern values}
+@!hash_size=130003; {preferably a prime number, a bit larger than the number
+ of character pairs in lig/kern steps}
+@!hash_mult=16007; {another prime}
+@!tfm_size=2000000; {maximum length of |tfm| data, in bytes}
+@!lig_size=800000; {maximum length of |lig_kern| program, in words}
+@!max_char=65535; {the largest character number in a font}
+@!xmax_char=65536; {|max_char|+1}
+@!xxmax_char=65537;{|max_char|+2}
+@!xxxmax_char=65538;{|max_char|+3}
+@!mem_size=262144; {|max_char|*4+8}
+@!max_width=65535; {the largest character width number}
+@!max_height=255; {the largest character height number}
+@!max_depth=255; {the largest character depth number}
+@!max_italic=255; {the largest character italic correction number}
+
+@ Here are some macros for common programming idioms.
+
+@d incr(#) == #:=#+1 {increase a variable by unity}
+@d decr(#) == #:=#-1 {decrease a variable by unity}
+@d do_nothing == {empty statement}
+
+@* Property list description of font metric data.
+The idea behind \.{PL} files is that precise details about fonts, i.e., the
+facts that are needed by typesetting routines like \TeX, sometimes have to
+be supplied by hand. The nested property-list format provides a reasonably
+convenient way to do this.
+
+A good deal of computation is necessary to parse and process a
+\.{PL} file, so it would be inappropriate for \TeX\ itself to do this
+every time it loads a font. \TeX\ deals only with the compact descriptions
+of font metric data that appear in \.{TFM} files. Such data is so compact,
+however, it is almost impossible for anybody but a computer to read it.
+The purpose of \.{PLtoTF} is to convert from a human-oriented file of text
+to a computer-oriented file of binary numbers.
+
+@<Glob...@>=
+@!pl_file:text;
+
+@ @<Set init...@>=
+reset(pl_file);
+
+@ A \.{PL} file is a list of entries of the form
+$$\.{(PROPERTYNAME VALUE)}$$
+where the property name is one of a finite set of names understood by
+this program, and the value may itself in turn be a property list.
+The idea is best understood by looking at an example, so let's consider
+a fragment of the \.{PL} file for a hypothetical font.
+$$\vbox{\halign{\.{#}\hfil\cr
+(FAMILY NOVA)\cr
+(FACE F MIE)\cr
+(CODINGSCHEME ASCII)\cr
+(DESIGNSIZE D 10)\cr
+(DESIGNUNITS D 18)\cr
+(COMMENT A COMMENT IS IGNORED)\cr
+(COMMENT (EXCEPT THIS ONE ISN'T))\cr
+(COMMENT (ACTUALLY IT IS, EVEN THOUGH\cr
+\qquad\qquad IT SAYS IT ISN'T))\cr
+(FONTDIMEN\cr
+\qquad (SLANT R -.25)\cr
+\qquad (SPACE D 6)\cr
+\qquad (SHRINK D 2)\cr
+\qquad (STRETCH D 3)\cr
+\qquad (XHEIGHT R 10.55)\cr
+\qquad (QUAD D 18)\cr
+\qquad )\cr
+(LIGTABLE\cr
+\qquad (LABEL C f)\cr
+\qquad (LIG C f O 200)\cr
+\qquad (SKIP D 1)\cr
+\qquad (LABEL O 200)\cr
+\qquad (LIG C i O 201)\cr
+\qquad (KRN O 51 R 1.5)\cr
+\qquad (/LIG C ? C f)\cr
+\qquad (STOP)\cr
+\qquad )\cr
+(CHARACTER C f\cr
+\qquad (CHARWD D 6)\cr
+\qquad (CHARHT R 13.5)\cr
+\qquad (CHARIC R 1.5)\cr
+\qquad )\cr}}$$
+This example says that the font whose metric information is being described
+belongs to the hypothetical
+\.{NOVA} family; its face code is medium italic extended;
+and the characters appear in ASCII code positions. The design size is 10 points,
+and all other sizes in this \.{PL} file are given in units such that 18 units
+equals the design size. The font is slanted with a slope of $-.25$ (hence the
+letters actually slant backward---perhaps that is why the family name is
+\.{NOVA}). The normal space between words is 6 units (i.e., one third of
+the 18-unit design size), with glue that shrinks by 2 units or stretches by 3.
+The letters for which accents don't need to be raised or lowered are 10.55
+units high, and one em equals 18 units.
+
+The example ligature table is a bit trickier. It specifies that the
+letter \.f followed by another \.f is changed to code @'200, while
+code @'200 followed by \.i is changed to @'201; presumably codes @'200
+and @'201 represent the ligatures `ff' and `ffi'. Moreover, in both cases
+\.f and @'200, if the following character is the code @'51 (which is a
+right parenthesis), an additional 1.5 units of space should be inserted
+before the @'51. (The `\.{SKIP}~\.D~\.1' skips over one \.{LIG} or
+\.{KRN} command, which in this case is the second \.{LIG}; in this way
+two different ligature/kern programs can come together.)
+Finally, if either \.f or @'200 is followed by a question mark,
+the question mark is replaced by \.f and the ligature program is
+started over. (Thus, the character pair `\.{f?}' would actually become
+the ligature `ff', and `\.{ff?}' or `\.{f?f}' would become `fff'. To
+avoid this restart procedure, the \.{/LIG} command could be replaced
+by \.{/LIG>}; then `\.{f?} would become `f\kern0ptf' and `\.{f?f}'
+would become `f\kern0ptff'.)
+
+Character \.f itself is 6 units wide and 13.5 units tall, in this example.
+Its depth is zero (since \.{CHARDP} is not given), and its italic correction
+is 1.5 units.
+
+@ The example above illustrates most of the features found in \.{PL} files.
+Note that some property names, like \.{FAMILY} or \.{COMMENT}, take a
+string as their value; this string continues until the first unmatched
+right parenthesis. But most property names, like \.{DESIGNSIZE} and \.{SLANT}
+and \.{LABEL}, take a number as their value. This number can be expressed in
+a variety of ways, indicated by a prefixed code; \.D stands for decimal,
+\.H for hexadecimal, \.O for octal, \.R for real, \.C for character, and
+\.F for ``face.'' Other property names, like \.{LIG}, take two numbers as
+their value. And still other names, like \.{FONTDIMEN} and \.{LIGTABLE} and
+\.{CHARACTER}, have more complicated values that involve property lists.
+
+A property name is supposed to be used only in an appropriate property
+list. For example, \.{CHARWD} shouldn't occur on the outer level or
+within \.{FONTDIMEN}.
+
+The individual property-and-value pairs in a property list can appear in
+any order. For instance, `\.{SHRINK}' precedes `\.{STRETCH}' in the above
+example, although the \.{TFM} file always puts the stretch parameter first.
+One could even give the information about characters like `\.f' before
+specifying the number of units in the design size, or before specifying the
+ligature and kerning table. However, the \.{LIGTABLE} itself is an exception
+to this rule; the individual elements of the \.{LIGTABLE} property list
+can be reordered only to a certain extent without changing the meaning
+of that table.
+
+If property-and-value pairs are omitted, a default value is used. For example,
+we have already noted that the default for \.{CHARDP} is zero. The default
+for {\sl every\/} numeric value is, in fact, zero, unless otherwise stated
+below.
+
+If the same property name is used more than once, \.{PLtoTF} will not notice
+the discrepancy; it simply uses the final value given. Once again, however, the
+\.{LIGTABLE} is an exception to this rule; \.{PLtoTF} will complain if there
+is more than one label for some character. And of course many of the
+entries in the \.{LIGTABLE} property list have the same property name.
+
+From these rules, you can guess (correctly) that \.{PLtoTF} operates in four
+main steps. First it assigns the default values to all properties; then it scans
+through the \.{PL} file, changing property values as new ones are seen; then
+it checks the information and corrects any problems; and finally it outputs
+the \.{TFM} file.
+
+@ Instead of relying on a hypothetical example, let's consider a complete
+grammar for \.{PL} files. At the outer level, the following property names
+are valid:
+
+\yskip\hang\.{CHECKSUM} (four-byte value). The value, which should be a
+nonnegative integer less than $2^{32}$, is used to identify a particular
+version of a font; it should match the check sum value stored with the font
+itself. An explicit check sum of zero is used to bypass
+check sum testing. If no checksum is specified in the \.{PL} file,
+\.{PLtoTF} will compute the checksum that \MF\ would compute from the
+same data.
+
+\yskip\hang\.{DESIGNSIZE} (numeric value, default is 10). The value, which
+should be a real number in the range |1.0<=x<2048|, represents the default
+amount by which all quantities will be scaled if the font is not loaded
+with an `\.{at}' specification. For example, if one says
+`\.{\\font\\A=cmr10 at 15pt}' in \TeX\ language, the design size in the \.{TFM}
+file is ignored and effectively replaced by 15 points; but if one simply
+says `\.{\\font\\A=cmr10}' the stated design size is used. This quantity is
+always in units of printer's points.
+
+\yskip\hang\.{DESIGNUNITS} (numeric value, default is 1). The value
+should be a positive real number; it says how many units equals the design
+size (or the eventual `\.{at}' size, if the font is being scaled). For
+example, suppose you have a font that has been digitized with 600 pixels per
+em, and the design size is one em; then you could say `\.{(DESIGNUNITS R 600)}'
+if you wanted to give all of your measurements in units of pixels.
+
+\yskip\hang\.{CODINGSCHEME} (string value, default is `\.{UNSPECIFIED}').
+The string should not contain parentheses, and its length must be less than 40.
+It identifies the correspondence between the numeric codes and font characters.
+(\TeX\ ignores this information, but other software programs make use of it.)
+
+\yskip\hang\.{FAMILY} (string value, default is `\.{UNSPECIFIED}').
+The string should not contain parentheses, and its length must be less than 20.
+It identifies the name of the family to which this font belongs, e.g.,
+`\.{HELVETICA}'. (\TeX\ ignores this information; but it is needed, for
+example, when converting \.{DVI} files to \.{PRESS} files for Xerox
+equipment.)
+
+\yskip\hang\.{FACE} (one-byte value). This number, which must lie between
+0 and 255 inclusive, is a subsidiary ident\-ifi\-ca\-tion of the font within its
+family. For example, bold italic condensed fonts might have the same family name
+as light roman extended fonts, differing only in their face byte. (\TeX\
+ignores this information; but it is needed, for example, when converting
+\.{DVI} files to \.{PRESS} files for Xerox equipment.)
+
+\yskip\hang\.{SEVENBITSAFEFLAG} (string value, default is `\.{FALSE}'). The
+value should start with either `\.T' (true) or `\.F' (false). If true, character
+codes less than 128 cannot lead to codes of 128 or more via ligatures or
+charlists or extensible characters. (\TeX82 ignores this flag, but older
+versions of \TeX\ would only accept \.{TFM} files that were seven-bit safe.)
+\.{PLtoTF} computes the correct value of this flag and gives an error message
+only if a claimed ``true'' value is incorrect.
+
+\yskip\hang\.{HEADER} (a one-byte value followed by a four-byte value).
+The one-byte value should be between 18 and a maximum limit that can be
+raised or lowered depending on the compile-time setting of |max_header_bytes|.
+The four-byte value goes into the header word whose index is the one-byte
+value; for example, to set |header[18]:=1|, one may write
+`\.{(HEADER D 18 O 1)}'. This notation is used for header information that
+is presently unnamed. (\TeX\ ignores it.)
+
+\yskip\hang\.{FONTDIMEN} (property list value). See below for the names
+allowed in this property list.
+
+\yskip\hang\.{LIGTABLE} (property list value). See below for the rules
+about this special kind of property list.
+
+\yskip\hang\.{BOUNDARYCHAR} (integer value). If this character appears in
+a \.{LIGTABLE} command, it matches ``end of word'' as well as itself.
+If no boundary character is given and no \.{LABEL} \.{BOUNDARYCHAR} occurs
+within \.{LIGTABLE}, word boundaries will not affect ligatures or kerning.
+
+\yskip\hang\.{CHARACTER}. The value is an integer followed by
+a property list. The integer represents the number of a character that is
+present in the font; the property list of a character is defined below.
+The default is an empty property list.
+
+@ Numeric property list values can be given in various forms identified by
+a prefixed letter.
+
+\yskip\hang\.C denotes an ASCII character, which should be a standard visible
+character that is not a parenthesis. The numeric value will therefore be
+between @'41 and @'176 but not @'50 or @'51.
+
+\yskip\hang\.D denotes a decimal integer, which must be nonnegative and
+less than 256. (Use \.R for larger values or for negative values.)
+
+\yskip\hang\.F denotes a three-letter Xerox face code; the admissible codes
+are \.{MRR}, \.{MIR}, \.{BRR}, \.{BIR}, \.{LRR}, \.{LIR}, \.{MRC}, \.{MIC},
+\.{BRC}, \.{BIC}, \.{LRC}, \.{LIC}, \.{MRE}, \.{MIE}, \.{BRE}, \.{BIE},
+\.{LRE}, and \.{LIE}, denoting the integers 0 to 17, respectively.
+
+\yskip\hang\.O denotes an unsigned octal integer, which must be less than
+$2^{32}$, i.e., at most `\.{O 37777777777}'.
+
+\yskip\hang\.H denotes an unsigned hexadecimal integer, which must be less than
+$2^{32}$, i.e., at most `\.{H FFFFFFFF}'.
+
+\yskip\hang\.R denotes a real number in decimal notation, optionally preceded
+by a `\.+' or `\.-' sign, and optionally including a decimal point. The
+absolute value must be less than 2048.
+
+@ The property names allowed in a \.{FONTDIMEN} property list correspond to
+various \TeX\ parameters, each of which has a (real) numeric value. All
+of the parameters except \.{SLANT} are in design units. The admissible
+names are \.{SLANT}, \.{SPACE}, \.{STRETCH}, \.{SHRINK}, \.{XHEIGHT},
+\.{QUAD}, \.{EXTRASPACE}, \.{NUM1}, \.{NUM2}, \.{NUM3}, \.{DENOM1},
+\.{DENOM2}, \.{SUP1}, \.{SUP2}, \.{SUP3}, \.{SUB1}, \.{SUB2}, \.{SUPDROP},
+\.{SUBDROP}, \.{DELIM1}, \.{DELIM2}, and \.{AXISHEIGHT}, for parameters
+1~to~22. The alternate names \.{DEFAULTRULETHICKNESS},
+\.{BIGOPSPACING1}, \.{BIGOPSPACING2}, \.{BIGOPSPACING3},
+\.{BIGOPSPACING4}, and \.{BIGOPSPACING5}, may also be used for parameters
+8 to 13.
+
+The notation `\.{PARAMETER} $n$' provides another way to specify the
+$n$th parameter; for example, `\.{(PARAMETER} \.{D 1 R -.25)}' is another way
+to specify that the \.{SLANT} is $-0.25$. The value of $n$ must be positive
+and less than |max_param_words|.
+
+@ The elements of a \.{CHARACTER} property list can be of six different types.
+
+\yskip\hang\.{CHARWD} (real value) denotes the character's width in
+design units.
+
+\yskip\hang\.{CHARHT} (real value) denotes the character's height in
+design units.
+
+\yskip\hang\.{CHARDP} (real value) denotes the character's depth in
+design units.
+
+\yskip\hang\.{CHARIC} (real value) denotes the character's italic correction in
+design units.
+
+\yskip\hang\.{NEXTLARGER} (integer value), specifies the character that
+follows the present one in a ``charlist.'' The value must be the number of a
+character in the font, and there must be no infinite cycles of supposedly
+larger and larger characters.
+
+\yskip\hang\.{VARCHAR} (property list value), specifies an extensible character.
+This option and \.{NEXTLARGER} are mutually exclusive; i.e., they cannot
+both be used within the same \.{CHARACTER} list.
+
+\yskip\noindent
+The elements of a \.{VARCHAR} property list are either \.{TOP}, \.{MID},
+\.{BOT} or \.{REP}; the values are integers, which must be zero or the number
+of a character in the font. A zero value for \.{TOP}, \.{MID}, or \.{BOT} means
+that the corresponding piece of the extensible character is absent. A nonzero
+value, or a \.{REP} value of zero, denotes the character code used to make
+up the top, middle, bottom, or replicated piece of an extensible character.
+
+@ A \.{LIGTABLE} property list contains elements of four kinds, specifying a
+program in a simple command language that \TeX\ uses for ligatures and kerns.
+If several \.{LIGTABLE} lists appear, they are effectively concatenated into
+a single list.
+
+\yskip\hang\.{LABEL} (integer value) means that the program for the
+stated character value starts here. The integer must be the number of a
+character in the font; its \.{CHARACTER} property list must not have a
+\.{NEXTLARGER} or \.{VARCHAR} field. At least one \.{LIG} or \.{KRN} step
+must follow.
+
+\yskip\hang\.{LABEL} \.{BOUNDARYCHAR} means that the program for
+beginning-of-word ligatures starts here.
+
+\yskip\hang\.{LIG} (two integer values). The instruction `\.{(LIG} $c$ $r$\.)'
+means, ``If the next character is $c$, then insert character~$r$ and
+possibly delete the current character and/or~$c$;
+otherwise go on to the next instruction.''
+Characters $r$ and $c$ must be present in the font. \.{LIG} may be immediately
+preceded or followed by a slash, and then immediately followed by \.>
+characters not exceeding the number of slashes. Thus there are eight
+possible forms:
+$$\hbox to .8\hsize{\.{LIG}\hfil\.{/LIG}\hfil\.{/LIG>}\hfil
+\.{LIG/}\hfil\.{LIG/>}\hfil\.{/LIG/}\hfil\.{/LIG/>}\hfil\.{/LIG/>>}}$$
+The slashes specify retention of the left or right original character; the
+\.> signs specify passing over the result without further ligature processing.
+
+\yskip\hang\.{KRN} (an integer value and a real value). The instruction
+`\.{(KRN} $c$ $r$\.)' means, ``If the next character is $c$, then insert
+a blank space of width $r$ between the current character character and $c$;
+otherwise go on to the next intruction.'' The value of $r$, which is in
+units of the design size, is often negative. Character code $c$ must exist
+in the font.
+
+\yskip\hang\.{STOP} (no value). This instruction ends a ligature/kern program.
+It must follow either a \.{LIG} or \.{KRN} instruction, not a \.{LABEL}
+or \.{STOP} or \.{SKIP}.
+
+\yskip\hang\.{SKIP} (value in the range |0..127|). This instruction specifies
+continuation of a ligature/kern program after the specified number of \.{LIG}
+or \.{KRN} has been skipped over. The number of subsequent \.{LIG} and \.{KRN}
+instructions must therefore exceed this specified amount.
+
+@ In addition to all these possibilities, the property name \.{COMMENT} is
+allowed in any property list. Such comments are ignored.
+
+@ So that is what \.{PL} files hold. The next question is, ``What about
+\.{TFM} files?'' A complete answer to that question appears in the
+documentation of the companion program, \.{TFtoPL}, so it will not
+be repeated here. Suffice it to say that a \.{TFM} file stores all of the
+relevant font information in a sequence of 8-bit bytes. The number of
+bytes is always a multiple of 4, so we could regard the \.{TFM} file
+as a sequence of 32-bit words; but \TeX\ uses the byte interpretation,
+and so does \.{PLtoTF}. Note that the bytes are considered to be unsigned
+numbers.
+
+@<Glob...@>=
+@!tfm_file:packed file of 0..255;
+
+@ On some systems you may have to do something special to write a
+packed file of bytes. For example, the following code didn't work
+when it was first tried at Stanford, because packed files have to be
+opened with a special switch setting on the \PASCAL\ that was used.
+@^system dependencies@>
+
+@<Set init...@>=
+rewrite(tfm_file);
+
+@* Basic input routines.
+For the purposes of this program, a |byte| is an unsigned 16-bit quantity,
+and an |ASCII_code| is an integer between @'40 and @'177. Such ASCII codes
+correspond to one-character constants like \.{"A"} in \.{WEB} language.
+
+@<Types...@>=
+@!byte=0..65535; {unsigned sixteen-bit quantity}
+@!ASCII_code=@'40..@'177; {standard ASCII code numbers}
+
+@ One of the things \.{PLtoTF} has to do is convert characters of strings
+to ASCII form, since that is the code used for the family name and the
+coding scheme in a \.{TFM} file. An array |xord| is used to do the
+conversion from |char|; the method below should work with little or no change
+on most \PASCAL\ systems.
+@^system dependencies@>
+
+@d first_ord=0 {ordinal number of the smallest element of |char|}
+@d last_ord=127 {ordinal number of the largest element of |char|}
+
+@<Global...@>=
+@!xord:array[char] of ASCII_code; {conversion table}
+
+@ @<Local variables for init...@>=
+@!k:integer; {all-purpose initialization index}
+
+@ Characters that should not appear in \.{PL} files (except in comments)
+are mapped into @'177.
+
+@d invalid_code=@'177 {code deserving an error message}
+
+@<Set init...@>=
+for k:=first_ord to last_ord do xord[chr(k)]:=invalid_code;
+xord[' ']:=" "; xord['!']:="!"; xord['"']:=""""; xord['#']:="#";
+xord['$']:="$"; xord['%']:="%"; xord['&']:="&"; xord['''']:="'";
+xord['(']:="("; xord[')']:=")"; xord['*']:="*"; xord['+']:="+"; xord[',']:=",";
+xord['-']:="-"; xord['.']:="."; xord['/']:="/"; xord['0']:="0"; xord['1']:="1";
+xord['2']:="2"; xord['3']:="3"; xord['4']:="4"; xord['5']:="5"; xord['6']:="6";
+xord['7']:="7"; xord['8']:="8"; xord['9']:="9"; xord[':']:=":"; xord[';']:=";";
+xord['<']:="<"; xord['=']:="="; xord['>']:=">"; xord['?']:="?";
+xord['@@']:="@@"; xord['A']:="A"; xord['B']:="B"; xord['C']:="C";
+xord['D']:="D"; xord['E']:="E"; xord['F']:="F"; xord['G']:="G"; xord['H']:="H";
+xord['I']:="I"; xord['J']:="J"; xord['K']:="K"; xord['L']:="L"; xord['M']:="M";
+xord['N']:="N"; xord['O']:="O"; xord['P']:="P"; xord['Q']:="Q"; xord['R']:="R";
+xord['S']:="S"; xord['T']:="T"; xord['U']:="U"; xord['V']:="V"; xord['W']:="W";
+xord['X']:="X"; xord['Y']:="Y"; xord['Z']:="Z"; xord['[']:="["; xord['\']:="\";
+xord[']']:="]"; xord['^']:="^"; xord['_']:="_"; xord['`']:="`"; xord['a']:="a";
+xord['b']:="b"; xord['c']:="c"; xord['d']:="d"; xord['e']:="e"; xord['f']:="f";
+xord['g']:="g"; xord['h']:="h"; xord['i']:="i"; xord['j']:="j"; xord['k']:="k";
+xord['l']:="l"; xord['m']:="m"; xord['n']:="n"; xord['o']:="o"; xord['p']:="p";
+xord['q']:="q"; xord['r']:="r"; xord['s']:="s"; xord['t']:="t"; xord['u']:="u";
+xord['v']:="v"; xord['w']:="w"; xord['x']:="x"; xord['y']:="y"; xord['z']:="z";
+xord['{']:="{"; xord['|']:="|"; xord['}']:="}"; xord['~']:="~";
+
+@ In order to help catch errors of badly nested parentheses, \.{PLtoTF}
+assumes that the user will begin each line with a number of blank spaces equal
+to some constant times the number of open parentheses at the beginning of
+that line. However, the program doesn't know in advance what the constant
+is, nor does it want to print an error message on every line for a user
+who has followed no consistent pattern of indentation.
+
+Therefore the following strategy is adopted: If the user has been consistent
+with indentation for ten or more lines, an indentation error will be
+reported. The constant of indentation is reset on every line that should
+have nonzero indentation.
+
+@<Glob...@>=
+@!line:integer; {the number of the current line}
+@!good_indent:integer; {the number of lines since the last bad indentation}
+@!indent: integer; {the number of spaces per open parenthesis, zero if unknown}
+@!level: integer; {the current number of open parentheses}
+
+@ @<Set init...@>=
+line:=0; good_indent:=0; indent:=0; level:=0;
+
+@ The input need not really be broken into lines of any maximum length, and
+we could read it character by character without any buffering. But we shall
+place it into a small buffer so that offending lines can be displayed in error
+messages.
+
+@<Glob...@>=
+@!left_ln,@!right_ln:boolean; {are the left and right ends of the buffer
+ at end-of-line marks?}
+@!limit:0..buf_size; {position of the last character present in the buffer}
+@!loc:0..buf_size; {position of the last character read in the buffer}
+@!buffer:array[1..buf_size] of char;
+@!input_has_ended:boolean; {there is no more input to read}
+
+@ @<Set init...@>=
+limit:=0; loc:=0; left_ln:=true; right_ln:=true; input_has_ended:=false;
+
+@ Just before each \.{CHARACTER} property list is evaluated, the character
+code is printed in octal notation. Up to eight such codes appear on a line;
+so we have a variable to keep track of how many are currently there.
+
+@<Glob...@>=
+@!chars_on_line:0..8; {the number of characters printed on the current line}
+
+@ @<Set init...@>=
+chars_on_line:=0;
+
+@ The following routine prints an error message and an indication of
+where the error was detected. The error message should not include any
+final punctuation, since this procedure supplies its own.
+
+@d err_print(#)==begin if chars_on_line>0 then print_ln(' ');
+ print(#); show_error_context;
+ end
+
+@p procedure show_error_context; {prints the current scanner location}
+var k:0..buf_size; {an index into |buffer|}
+begin print_ln(' (line ',line:1,').');
+if not left_ln then print('...');
+for k:=1 to loc do print(buffer[k]); {print the characters already scanned}
+print_ln(' ');
+if not left_ln then print(' ');
+for k:=1 to loc do print(' '); {space out the second line}
+for k:=loc+1 to limit do print(buffer[k]); {print the characters yet unseen}
+if right_ln then print_ln(' ')@+else print_ln('...');
+chars_on_line:=0;
+end;
+
+@ Here is a procedure that does the right thing when we are done
+reading the present contents of the buffer. It keeps |buffer[buf_size]|
+empty, in order to avoid range errors on certain \PASCAL\ compilers.
+
+An infinite sequence of right parentheses is placed at the end of the
+file, so that the program is sure to get out of whatever level of nesting
+it is in.
+
+On some systems it is desirable to modify this code so that tab marks
+in the buffer are replaced by blank spaces. (Simply setting
+|xord[chr(@'11)]:=" "| would not work; for example, two-line
+error messages would not come out properly aligned.)
+@^system dependencies@>
+
+@p procedure fill_buffer;
+begin left_ln:=right_ln; limit:=0; loc:=0;
+if left_ln then begin
+ if line>0 then read_ln(pl_file);
+ incr(line);
+ end;
+if eof(pl_file) then begin
+ limit:=1; buffer[1]:=')'; right_ln:=false; input_has_ended:=true;
+ end
+else begin
+ while (limit<buf_size-1)and(not eoln(pl_file)) do begin
+ incr(limit); read(pl_file,buffer[limit]);
+ end;
+ buffer[limit+1]:=' '; right_ln:=eoln(pl_file);
+ if left_ln then @<Set |loc| to the number of leading blanks in
+ the buffer, and check the indentation@>;
+ end;
+end;
+
+@ The interesting part about |fill_buffer| is the part that learns what
+indentation conventions the user is following, if any.
+
+@d bad_indent(#)==begin if good_indent>=10 then err_print(#);
+ good_indent:=0; indent:=0;
+ end
+
+@<Set |loc|...@>=
+begin while (loc<limit)and(buffer[loc+1]=' ') do incr(loc);
+if loc<limit then begin
+ if level=0 then
+ if loc=0 then incr(good_indent)
+ else bad_indent('Warning: Indented line occurred at level zero')
+@.Warning: Indented line...@>
+ else if indent=0 then
+ if loc mod level=0 then begin
+ indent:=loc div level; good_indent:=1;
+ end
+ else good_indent:=0
+ else if indent*level=loc then incr(good_indent)
+ else bad_indent('Warning: Inconsistent indentation; ',
+@.Warning: Inconsistent indentation...@>
+ 'you are at parenthesis level ',level:1);
+ end;
+end
+
+@* Basic scanning routines.
+The global variable |cur_char| holds the ASCII code corresponding to the
+character most recently read from the input buffer, or to a character that
+has been substituted for the real one.
+
+@<Global...@>=
+@!cur_char:ASCII_code; {we have just read this}
+
+@ Here is a procedure that sets |cur_char| to an ASCII code for the
+next character of input, if that character is a letter or digit or slash
+or \.>. Otherwise
+it sets |cur_char:=" "|, and the input system will be poised to reread the
+character that was rejected, whether or not it was a space.
+Lower case letters are converted to upper case.
+
+@p procedure get_keyword_char;
+begin while (loc=limit)and(not right_ln) do fill_buffer;
+if loc=limit then cur_char:=" " {end-of-line counts as a delimiter}
+else begin
+ cur_char:=xord[buffer[loc+1]];
+ if cur_char>="a" then cur_char:=cur_char-@'40;
+ if ((cur_char>="0")and(cur_char<="9")) then incr(loc)
+ else if ((cur_char>="A")and(cur_char<="Z")) then incr(loc)
+ else if cur_char="/" then incr(loc)
+ else if cur_char=">" then incr(loc)
+ else cur_char:=" ";
+ end;
+end;
+
+@ The following procedure sets |cur_char| to the next character code,
+and converts lower case to upper case. If the character is a left or
+right parenthesis, it will not be ``digested''; the character will
+be read again and again, until the calling routine does something
+like `|incr(loc)|' to get past it. Such special treatment of parentheses
+insures that the structural information they contain won't be lost in
+the midst of other error recovery operations.
+
+@d backup==begin if (cur_char>")")or(cur_char<"(") then decr(loc);
+ end {undoes the effect of |get_next|}
+
+@p procedure get_next; {sets |cur_char| to next, balks at parentheses}
+begin while loc=limit do fill_buffer;
+incr(loc); cur_char:=xord[buffer[loc]];
+if cur_char>="a" then
+ if cur_char<="z" then cur_char:=cur_char-@'40 {uppercasify}
+ else begin
+ if cur_char=invalid_code then begin
+ err_print('Illegal character in the file');
+@.Illegal character...@>
+ cur_char:="?";
+ end;
+ end
+else if (cur_char<=")")and(cur_char>="(") then decr(loc);
+end;
+
+@ The next procedure is used to ignore the text of a comment, or to pass over
+erroneous material. As such, it has the privilege of passing parentheses.
+It stops after the first right parenthesis that drops the level below
+the level in force when the procedure was called.
+
+@p procedure skip_to_end_of_item;
+var l:integer; {initial value of |level|}
+begin l:=level;
+while level>=l do begin
+ while loc=limit do fill_buffer;
+ incr(loc);
+ if buffer[loc]=')' then decr(level)
+ else if buffer[loc]='(' then incr(level);
+ end;
+if input_has_ended then err_print('File ended unexpectedly: No closing ")"');
+@.File ended unexpectedly...@>
+cur_char:=" "; {now the right parenthesis has been read and digested}
+end;
+
+@ Sometimes we merely want to skip past characters in the input until we
+reach a left or a right parenthesis. For example, we do this whenever we
+have finished scanning a property value and we hope that a right parenthesis
+is next (except for possible blank spaces).
+
+@d skip_to_paren==repeat get_next@;@+ until (cur_char="(")or(cur_char=")")
+@d skip_error(#)==begin err_print(#); skip_to_paren;
+ end {this gets to the right parenthesis if something goes wrong}
+@d flush_error(#)==begin err_print(#); skip_to_end_of_item;
+ end {this gets past the right parenthesis if something goes wrong}
+
+@ After a property value has been scanned, we want to move just past the
+right parenthesis that should come next in the input (except for possible
+blank spaces).
+
+@p procedure finish_the_property; {do this when the value has been scanned}
+begin while cur_char=" " do get_next;
+if cur_char<>")" then err_print('Junk after property value will be ignored');
+@.Junk after property value...@>
+skip_to_end_of_item;
+end;
+
+@* Scanning property names.
+We have to figure out the meaning of names that appear in the \.{PL} file,
+by looking them up in a dictionary of known keywords. Keyword number $n$
+appears in locations |start[n]| through |start[n+1]-1| of an array called
+|dictionary|.
+
+@d max_name_index=300 {upper bound on the number of keywords}
+@d max_letters=3000 {upper bound on the total length of all keywords}
+
+@<Global...@>=
+@!start:array[1..max_name_index] of 0..max_letters;
+@!dictionary:array[0..max_letters] of ASCII_code;
+@!start_ptr:0..max_name_index; {the first available place in |start|}
+@!dict_ptr:0..max_letters; {the first available place in |dictionary|}
+
+@ @<Set init...@>=
+start_ptr:=1; start[1]:=0; dict_ptr:=0;
+
+@ When we are looking for a name, we put it into the |cur_name| array.
+When we have found it, the corresponding |start| index will go into
+the global variable |name_ptr|.
+
+@d longest_name=20 {length of \.{DEFAULTRULETHICKNESS}}
+
+@<Glob...@>=
+@!cur_name:array[1..longest_name] of ASCII_code; {a name to look up}
+@!name_length:0..longest_name; {its length}
+@!name_ptr:0..max_name_index; {its ordinal number in the dictionary}
+
+@ A conventional hash table with linear probing (cf.\ Algorithm 6.4L
+in {\sl The Art of Computer Pro\-gram\-ming\/}) is used for the dictionary
+operations. If |nhash[h]=0|, the table position is empty, otherwise |nhash[h]|
+points into the |start| array.
+
+@d hash_prime=307 {size of the hash table}
+
+@<Glob...@>=
+@!nhash:array[0..hash_prime-1] of 0..max_name_index;
+@!cur_hash:0..hash_prime-1; {current position in the hash table}
+
+@ @<Local...@>=
+@!h:0..hash_prime-1; {runs through the hash table}
+
+@ @<Set init...@>=
+for h:=0 to hash_prime-1 do nhash[h]:=0;
+
+@ Since there is no chance of the hash table overflowing, the procedure
+is very simple. After |lookup| has done its work, |cur_hash| will point
+to the place where the given name was found, or where it should be inserted.
+
+@p procedure lookup; {finds |cur_name| in the dictionary}
+var k:0..longest_name; {index into |cur_name|}
+@!j:0..max_letters; {index into |dictionary|}
+@!not_found:boolean; {clumsy thing necessary to avoid |goto| statement}
+@!cur_hash_reset:boolean;
+begin @<Compute the hash code, |cur_hash|, for |cur_name|@>;
+not_found:=true;
+cur_hash_reset:=false;
+while not_found do begin
+ if (cur_hash=0) and (cur_hash_reset) then
+ not_found:=false
+ else begin
+ if cur_hash=0 then begin
+ cur_hash:=hash_prime-1;
+ cur_hash_reset:=true
+ end
+ else decr(cur_hash);
+ if nhash[cur_hash]=0 then not_found:=false
+ else begin
+ j:=start[nhash[cur_hash]];
+ if start[nhash[cur_hash]+1]=j+name_length then begin
+ not_found:=false;
+ for k:=1 to name_length do
+ if dictionary[j+k-1]<>cur_name[k] then not_found:=true;
+ end
+ end
+ end
+ end;
+name_ptr:=nhash[cur_hash];
+end;
+
+@ @<Compute the hash...@>=
+cur_hash:=cur_name[1];
+for k:=2 to name_length do
+ cur_hash:=(cur_hash+cur_hash+cur_name[k]) mod hash_prime
+
+@ The ``meaning'' of the keyword that begins at |start[k]| in the
+dictionary is kept in |equiv[k]|. The numeric |equiv| codes are given
+symbolic meanings by the following definitions.
+
+@d comment_code=0
+@d check_sum_code=1
+@d design_size_code=2
+@d design_units_code=3
+@d coding_scheme_code=4
+@d family_code=5
+@d face_code=6
+@d seven_bit_safe_flag_code=7
+@d header_code= 8
+@d font_dimen_code=9
+@d lig_table_code=10
+@d boundary_char_code=11
+@d font_dir_code=14
+@d n_font_dir_code=15
+@d character_code=16
+@d parameter_code=30
+@d char_info_code=70
+@d width=1
+@d height=2
+@d depth=3
+@d italic=4
+@d sec_width=5
+@d sec_height=6
+@d sec_depth=7
+@d sec_italic=8
+@d accent=9
+@d prim_top_axis=10
+@d prim_top_axis_bis=11
+@d prim_bot_axis=12
+@d prim_bot_axis_bis=13
+@d prim_mid_hor=14
+@d prim_mid_vert=15
+@d prim_base_slant=16
+@d sec_top_axis=17
+@d sec_top_axis_bis=18
+@d sec_bot_axis=19
+@d sec_bot_axis_bis=20
+@d sec_mid_hor=21
+@d sec_mid_vert=22
+@d sec_base_slant=23
+@d char_wd_code=char_info_code+width
+@d char_ht_code=char_info_code+height
+@d char_dp_code=char_info_code+depth
+@d char_ic_code=char_info_code+italic
+@d sec_width_code=char_info_code+sec_width
+@d sec_height_code=char_info_code+sec_height
+@d sec_depth_code=char_info_code+sec_depth
+@d sec_italic_code=char_info_code+sec_italic
+@d accent_code=char_info_code+accent
+@d prim_top_axis_code=char_info_code+prim_top_axis
+@d prim_top_axis_bis_code=char_info_code+prim_top_axis_bis
+@d prim_bot_axis_code=char_info_code+prim_bot_axis
+@d prim_bot_axis_bis_code=char_info_code+prim_bot_axis_bis
+@d prim_mid_hor_code=char_info_code+prim_mid_hor
+@d prim_mid_vert_code=char_info_code+prim_mid_vert
+@d prim_base_slant_code=char_info_code+prim_base_slant
+@d sec_top_axis_code=char_info_code+sec_top_axis
+@d sec_top_axis_bis_code=char_info_code+sec_top_axis_bis
+@d sec_bot_axis_code=char_info_code+sec_bot_axis
+@d sec_bot_axis_bis_code=char_info_code+sec_bot_axis_bis
+@d sec_mid_hor_code=char_info_code+sec_mid_hor
+@d sec_mid_vert_code=char_info_code+sec_mid_vert
+@d sec_base_slant_code=char_info_code+sec_base_slant
+@d next_larger_code=100
+@d var_char_code=102
+@d label_code=130
+@d stop_code=131
+@d skip_code=132
+@d krn_code=133
+@d lig_code=134
+@d ofm_level_code=140
+@d char_repeat_code=150
+@d char_ivalue_code=151
+@d char_fvalue_code=152
+@d char_mvalue_code=153
+@d char_rule_code=154
+@d char_glue_code=155
+@d char_penalty_code=156
+@d font_rule_code=160
+@d rule_code=161
+@d rule_width_code=162
+@d rule_height_code=163
+@d rule_depth_code=164
+@d font_glue_code=170
+@d glue_code=171
+@d glue_type_code=172
+@d glue_stretch_order_code=173
+@d glue_shrink_order_code=174
+@d glue_width_code=175
+@d glue_stretch_code=176
+@d glue_shrink_code=177
+@d glue_char_code=178
+@d glue_rule_code=179
+@d order_unit_code=181
+@d order_fi_code=182
+@d order_fil_code=183
+@d order_fill_code=184
+@d order_filll_code=185
+@d type_normal_code=186
+@d type_aleaders_code=187
+@d type_cleaders_code=188
+@d type_xleaders_code=189
+@d font_penalty_code=190
+@d penalty_code=191
+@d penalty_val_code=192
+@d font_mvalue_code=200
+@d mvalue_code=201
+@d mvalue_val_code=202
+@d font_fvalue_code=210
+@d fvalue_code=211
+@d fvalue_val_code=212
+@d font_ivalue_code=220
+@d ivalue_code=221
+@d ivalue_val_code=222
+@d clabel_code=231
+@d cpen_code=232
+@d cglue_code=233
+@d cpenglue_code=234
+@d ckrn_code=235
+@d TL_dir_code=240
+@d LT_dir_code=241
+@d TR_dir_code=242
+@d LB_dir_code=243
+@d BL_dir_code=244
+@d RT_dir_code=245
+@d BR_dir_code=246
+@d RB_dir_code=247
+
+
+@<Glo...@>=
+@!equiv:array[0..max_name_index] of byte;
+@!cur_code:byte; {equivalent most recently found in |equiv|}
+
+@ We have to get the keywords into the hash table and into the dictionary in
+the first place (sigh). The procedure that does this has the desired
+|equiv| code as a parameter. In order to facilitate \.{WEB} macro writing
+for the initialization, the keyword being initialized is placed into the
+last positions of |cur_name|, instead of the first positions.
+
+@p procedure enter_name(v:byte); {|cur_name| goes into the dictionary}
+var k:0..longest_name;
+begin for k:=1 to name_length do
+ cur_name[k]:=cur_name[k+longest_name-name_length];
+{now the name has been shifted into the correct position}
+lookup; {this sets |cur_hash| to the proper insertion place}
+nhash[cur_hash]:=start_ptr; equiv[start_ptr]:=v;
+for k:=1 to name_length do
+ begin dictionary[dict_ptr]:=cur_name[k]; incr(dict_ptr);
+ end;
+incr(start_ptr); start[start_ptr]:=dict_ptr;
+end;
+
+@ Here are the macros to load a name of up to 20 letters into the
+dictionary. For example, the macro |load5| is used for five-letter keywords.
+
+@d tail(#)==enter_name(#)
+@d t20(#)==cur_name[20]:=#;tail
+@d t19(#)==cur_name[19]:=#;t20
+@d t18(#)==cur_name[18]:=#;t19
+@d t17(#)==cur_name[17]:=#;t18
+@d t16(#)==cur_name[16]:=#;t17
+@d t15(#)==cur_name[15]:=#;t16
+@d t14(#)==cur_name[14]:=#;t15
+@d t13(#)==cur_name[13]:=#;t14
+@d t12(#)==cur_name[12]:=#;t13
+@d t11(#)==cur_name[11]:=#;t12
+@d t10(#)==cur_name[10]:=#;t11
+@d t9(#)==cur_name[9]:=#;t10
+@d t8(#)==cur_name[8]:=#;t9
+@d t7(#)==cur_name[7]:=#;t8
+@d t6(#)==cur_name[6]:=#;t7
+@d t5(#)==cur_name[5]:=#;t6
+@d t4(#)==cur_name[4]:=#;t5
+@d t3(#)==cur_name[3]:=#;t4
+@d t2(#)==cur_name[2]:=#;t3
+@d t1(#)==cur_name[1]:=#;t2
+@d load2==name_length:=2;t19
+@d load3==name_length:=3;t18
+@d load4==name_length:=4;t17
+@d load5==name_length:=5;t16
+@d load6==name_length:=6;t15
+@d load7==name_length:=7;t14
+@d load8==name_length:=8;t13
+@d load9==name_length:=9;t12
+@d load10==name_length:=10;t11
+@d load11==name_length:=11;t10
+@d load12==name_length:=12;t9
+@d load13==name_length:=13;t8
+@d load14==name_length:=14;t7
+@d load15==name_length:=15;t6
+@d load16==name_length:=16;t5
+@d load17==name_length:=17;t4
+@d load18==name_length:=18;t3
+@d load19==name_length:=19;t2
+@d load20==name_length:=20;t1
+
+@ (Thank goodness for keyboard macros in the text editor used to create this
+\.{WEB} file.)
+
+@<Enter all of the names and their equivalents, except the parameter names@>=
+equiv[0]:=comment_code; {this is used after unknown keywords}
+load8("C")("H")("E")("C")("K")("S")("U")("M")(check_sum_code);@/
+load10("D")("E")("S")("I")("G")("N")("S")("I")("Z")("E")(design_size_code);@/
+load11("D")("E")("S")("I")("G")("N")
+ ("U")("N")("I")("T")("S")(design_units_code);@/
+load12("C")("O")("D")("I")("N")("G")
+ ("S")("C")("H")("E")("M")("E")(coding_scheme_code);@/
+load6("F")("A")("M")("I")("L")("Y")(family_code);@/
+load4("F")("A")("C")("E")(face_code);@/
+load16("S")("E")("V")("E")("N")("B")("I")("T")@/@t\hskip2em@>
+ ("S")("A")("F")("E")("F")("L")("A")("G")(seven_bit_safe_flag_code);@/
+load6("H")("E")("A")("D")("E")("R")(header_code);@/
+load9("F")("O")("N")("T")("D")("I")("M")("E")("N")(font_dimen_code);@/
+load8("L")("I")("G")("T")("A")("B")("L")("E")(lig_table_code);@/
+load12("B")("O")("U")("N")("D")("A")("R")("Y")("C")("H")("A")("R")
+ (boundary_char_code);@/
+load9("C")("H")("A")("R")("A")("C")("T")("E")("R")(character_code);@/
+load9("P")("A")("R")("A")("M")("E")("T")("E")("R")(parameter_code);@/
+load6("C")("H")("A")("R")("W")("D")(char_wd_code);@/
+load6("C")("H")("A")("R")("H")("T")(char_ht_code);@/
+load6("C")("H")("A")("R")("D")("P")(char_dp_code);@/
+load6("C")("H")("A")("R")("I")("C")(char_ic_code);@/
+load5("S")("E")("C")("W")("D")(sec_width_code);@/
+load5("S")("E")("C")("H")("T")(sec_height_code);@/
+load5("S")("E")("C")("D")("P")(sec_depth_code);@/
+load5("S")("E")("C")("I")("C")(sec_italic_code);@/
+load6("A")("C")("C")("E")("N")("T")(accent_code);@/
+load11("P")("R")("I")("M")("T")("O")("P")("A")("X")("I")("S")(prim_top_axis_code);@/
+load14("P")("R")("I")("M")("T")("O")("P")("A")("X")("I")("S")("B")("I")("S")(prim_top_axis_bis_code);@/
+load11("P")("R")("I")("M")("B")("O")("T")("A")("X")("I")("S")(prim_bot_axis_code);@/
+load14("P")("R")("I")("M")("B")("O")("T")("A")("X")("I")("S")("B")("I")("S")(prim_bot_axis_bis_code);@/
+load10("P")("R")("I")("M")("M")("I")("D")("H")("O")("R")(prim_mid_hor_code);@/
+load10("P")("R")("I")("M")("M")("I")("D")("V")("E")("R")(prim_mid_vert_code);@/
+load13("P")("R")("I")("M")("B")("A")("S")("E")("S")("L")("A")("N")("T")(prim_base_slant_code);@/
+load10("S")("E")("C")("T")("O")("P")("A")("X")("I")("S")(sec_top_axis_code);@/
+load13("S")("E")("C")("T")("O")("P")("A")("X")("I")("S")("B")("I")("S")(sec_top_axis_bis_code);@/
+load10("S")("E")("C")("B")("O")("T")("A")("X")("I")("S")(sec_bot_axis_code);@/
+load13("S")("E")("C")("B")("O")("T")("A")("X")("I")("S")("B")("I")("S")(sec_bot_axis_bis_code);@/
+load9("S")("E")("C")("M")("I")("D")("H")("O")("R")(sec_mid_hor_code);@/
+load9("S")("E")("C")("M")("I")("D")("V")("E")("R")(sec_mid_vert_code);@/
+load12("S")("E")("C")("B")("A")("S")("E")("S")("L")("A")("N")("T")(sec_base_slant_code);@/
+load10("N")("E")("X")("T")("L")("A")("R")("G")("E")("R")(next_larger_code);@/
+load7("V")("A")("R")("C")("H")("A")("R")(var_char_code);@/
+load3("T")("O")("P")(var_char_code+1);@/
+load3("M")("I")("D")(var_char_code+2);@/
+load3("B")("O")("T")(var_char_code+3);@/
+load3("R")("E")("P")(var_char_code+4);@/
+load3("E")("X")("T")(var_char_code+4); {compatibility with older \.{PL} format}
+load7("C")("O")("M")("M")("E")("N")("T")(comment_code);@/
+load5("L")("A")("B")("E")("L")(label_code);@/
+load4("S")("T")("O")("P")(stop_code);@/
+load4("S")("K")("I")("P")(skip_code);@/
+load3("K")("R")("N")(krn_code);@/
+load3("L")("I")("G")(lig_code);@/
+load4("/")("L")("I")("G")(lig_code+2);@/
+load5("/")("L")("I")("G")(">")(lig_code+6);@/
+load4("L")("I")("G")("/")(lig_code+1);@/
+load5("L")("I")("G")("/")(">")(lig_code+5);@/
+load5("/")("L")("I")("G")("/")(lig_code+3);@/
+load6("/")("L")("I")("G")("/")(">")(lig_code+7);@/
+load7("/")("L")("I")("G")("/")(">")(">")(lig_code+11);@/
+load6("C")("L")("A")("B")("E")("L")(clabel_code);@/
+load4("C")("P")("E")("N")(cpen_code);@/
+load5("C")("G")("L")("U")("E")(cglue_code);@/
+load8("C")("P")("E")("N")("G")("L")("U")("E")(cpenglue_code);@/
+load4("C")("K")("R")("N")(ckrn_code);@/
+load8("O")("F")("M")("L")("E")("V")("E")("L")(ofm_level_code);@/
+load7("F")("O")("N")("T")("D")("I")("R")(font_dir_code);@/
+load8("N")("F")("O")("N")("T")("D")("I")("R")(n_font_dir_code);@/
+load10("C")("H")("A")("R")("R")("E")("P")("E")("A")("T")(char_repeat_code);@/
+load10("C")("H")("A")("R")("I")("V")("A")("L")("U")("E")(char_ivalue_code);@/
+load10("C")("H")("A")("R")("F")("V")("A")("L")("U")("E")(char_fvalue_code);@/
+load10("C")("H")("A")("R")("M")("V")("A")("L")("U")("E")(char_mvalue_code);@/
+load8("C")("H")("A")("R")("R")("U")("L")("E")(char_rule_code);@/
+load8("C")("H")("A")("R")("G")("L")("U")("E")(char_glue_code);@/
+load11("C")("H")("A")("R")("P")("E")("N")("A")("L")("T")("Y")(char_penalty_code);@/
+load8("F")("O")("N")("T")("R")("U")("L")("E")(font_rule_code);@/
+load4("R")("U")("L")("E")(rule_code);@/
+load6("R")("U")("L")("E")("W")("D")(rule_width_code);@/
+load6("R")("U")("L")("E")("H")("T")(rule_height_code);@/
+load6("R")("U")("L")("E")("D")("P")(rule_depth_code);@/
+load8("F")("O")("N")("T")("G")("L")("U")("E")(font_glue_code);@/
+load4("G")("L")("U")("E")(glue_code);@/
+load8("G")("L")("U")("E")("T")("Y")("P")("E")(glue_type_code);@/
+load16("G")("L")("U")("E")("S")("T")("R")("E")("T")("C")("H")("O")("R")("D")("E")("R")(glue_stretch_order_code);@/
+load15("G")("L")("U")("E")("S")("H")("R")("I")("N")("K")("O")("R")("D")("E")("R")(glue_shrink_order_code);@/
+load8("G")("L")("U")("E")("R")("U")("L")("E")(glue_rule_code);@/
+load8("G")("L")("U")("E")("C")("H")("A")("R")(glue_char_code);@/
+load6("G")("L")("U")("E")("W")("D")(glue_width_code);@/
+load11("G")("L")("U")("E")("S")("T")("R")("E")("T")("C")("H")(glue_stretch_code);@/
+load10("G")("L")("U")("E")("S")("H")("R")("I")("N")("K")(glue_shrink_code);@/
+load4("U")("N")("I")("T")(order_unit_code);@/
+load2("F")("I")(order_fi_code);@/
+load3("F")("I")("L")(order_fil_code);@/
+load4("F")("I")("L")("L")(order_fill_code);@/
+load5("F")("I")("L")("L")("L")(order_filll_code);@/
+load6("N")("O")("R")("M")("A")("L")(type_normal_code);@/
+load8("A")("L")("E")("A")("D")("E")("R")("S")(type_aleaders_code);@/
+load8("C")("L")("E")("A")("D")("E")("R")("S")(type_cleaders_code);@/
+load8("X")("L")("E")("A")("D")("E")("R")("S")(type_xleaders_code);@/
+load11("F")("O")("N")("T")("P")("E")("N")("A")("L")("T")("Y")(font_penalty_code);@/
+load7("P")("E")("N")("A")("L")("T")("Y")(penalty_code);@/
+load10("P")("E")("N")("A")("L")("T")("Y")("V")("A")("L")(penalty_val_code);@/
+load10("F")("O")("N")("T")("M")("V")("A")("L")("U")("E")(font_mvalue_code);@/
+load6("M")("V")("A")("L")("U")("E")(mvalue_code);@/
+load9("M")("V")("A")("L")("U")("E")("V")("A")("L")(mvalue_val_code);@/
+load10("F")("O")("N")("T")("F")("V")("A")("L")("U")("E")(font_fvalue_code);@/
+load6("F")("V")("A")("L")("U")("E")(fvalue_code);@/
+load9("F")("V")("A")("L")("U")("E")("V")("A")("L")(fvalue_val_code);@/
+load10("F")("O")("N")("T")("I")("V")("A")("L")("U")("E")(font_ivalue_code);@/
+load6("I")("V")("A")("L")("U")("E")(ivalue_code);@/
+load9("I")("V")("A")("L")("U")("E")("V")("A")("L")(ivalue_val_code);@/
+load2("T")("L")(TL_dir_code);
+load2("L")("T")(LT_dir_code);
+load2("T")("R")(TR_dir_code);
+load2("L")("B")(LB_dir_code);
+load2("B")("L")(BL_dir_code);
+load2("R")("T")(RT_dir_code);
+load2("B")("R")(BR_dir_code);
+load2("R")("B")(RB_dir_code);
+
+@ @<Enter the parameter names@>=
+load5("S")("L")("A")("N")("T")(parameter_code+1);@/
+load5("S")("P")("A")("C")("E")(parameter_code+2);@/
+load7("S")("T")("R")("E")("T")("C")("H")(parameter_code+3);@/
+load6("S")("H")("R")("I")("N")("K")(parameter_code+4);@/
+load7("X")("H")("E")("I")("G")("H")("T")(parameter_code+5);@/
+load4("Q")("U")("A")("D")(parameter_code+6);@/
+load10("E")("X")("T")("R")("A")("S")("P")("A")("C")("E")(parameter_code+7);@/
+load4("N")("U")("M")("1")(parameter_code+8);@/
+load4("N")("U")("M")("2")(parameter_code+9);@/
+load4("N")("U")("M")("3")(parameter_code+10);@/
+load6("D")("E")("N")("O")("M")("1")(parameter_code+11);@/
+load6("D")("E")("N")("O")("M")("2")(parameter_code+12);@/
+load4("S")("U")("P")("1")(parameter_code+13);@/
+load4("S")("U")("P")("2")(parameter_code+14);@/
+load4("S")("U")("P")("3")(parameter_code+15);@/
+load4("S")("U")("B")("1")(parameter_code+16);@/
+load4("S")("U")("B")("2")(parameter_code+17);@/
+load7("S")("U")("P")("D")("R")("O")("P")(parameter_code+18);@/
+load7("S")("U")("B")("D")("R")("O")("P")(parameter_code+19);@/
+load6("D")("E")("L")("I")("M")("1")(parameter_code+20);@/
+load6("D")("E")("L")("I")("M")("2")(parameter_code+21);@/
+load10("A")("X")("I")("S")("H")("E")("I")("G")("H")("T")(parameter_code+22);@/
+load20("D")("E")("F")("A")("U")("L")("T")("R")("U")("L")("E")@/@t\hskip2em@>
+ ("T")("H")("I")("C")("K")("N")("E")("S")("S")(parameter_code+8);@/
+load13("B")("I")("G")("O")("P")
+ ("S")("P")("A")("C")("I")("N")("G")("1")(parameter_code+9);@/
+load13("B")("I")("G")("O")("P")
+ ("S")("P")("A")("C")("I")("N")("G")("2")(parameter_code+10);@/
+load13("B")("I")("G")("O")("P")
+ ("S")("P")("A")("C")("I")("N")("G")("3")(parameter_code+11);@/
+load13("B")("I")("G")("O")("P")
+ ("S")("P")("A")("C")("I")("N")("G")("4")(parameter_code+12);@/
+load13("B")("I")("G")("O")("P")
+ ("S")("P")("A")("C")("I")("N")("G")("5")(parameter_code+13);@/
+
+@ When a left parenthesis has been scanned, the following routine
+is used to interpret the keyword that follows, and to store the
+equivalent value in |cur_code|.
+
+@p procedure get_name;
+begin incr(loc); incr(level); {pass the left parenthesis}
+cur_char:=" ";
+while cur_char=" " do get_next;
+if (cur_char>")")or(cur_char<"(") then decr(loc); {back up one character}
+name_length:=0; get_keyword_char; {prepare to scan the name}
+while cur_char<>" " do begin
+ if name_length=longest_name then cur_name[1]:="X" {force error}
+ else incr(name_length);
+ cur_name[name_length]:=cur_char;
+ get_keyword_char;
+ end;
+lookup;
+if name_ptr=0 then err_print('Sorry, I don''t know that property name');
+@.Sorry, I don't know...@>
+cur_code:=equiv[name_ptr];
+end;
+
+@* Scanning numeric data.
+The next thing we need is a trio of subroutines to read the one-byte,
+four-byte, and real numbers that may appear as property values.
+These subroutines are careful to stick to numbers between $-2^{31}$
+and $2^{31}-1$, inclusive, so that a computer with two's complement
+32-bit arithmetic will not be interrupted by overflow.
+
+@ The first number scanner, which returns a one-byte value, surely has
+no problems of arithmetic overflow.
+
+@p function get_byte:byte; {scans a one-byte property value}
+var acc:integer; {an accumulator}
+@!t:ASCII_code; {the type of value to be scanned}
+begin repeat get_next;
+until cur_char<>" "; {skip the blanks before the type code}
+t:=cur_char; acc:=0;
+repeat get_next;
+until cur_char<>" "; {skip the blanks after the type code}
+if t="C" then @<Scan an ASCII character code@>
+else if t="D" then @<Scan a small decimal number@>
+else if t="O" then @<Scan a small octal number@>
+else if t="H" then @<Scan a small hexadecimal number@>
+else if t="F" then @<Scan a face code@>
+else skip_error('You need "C" or "D" or "O" or "H" or "F" here');
+@.You need "C" or "D" ...here@>
+cur_char:=" "; get_byte:=acc;
+end;
+
+@ The |get_next| routine converts lower case to upper case, but it leaves
+the character in the buffer, so we can unconvert it.
+
+@<Scan an ASCII...@>=
+if (cur_char>=@'41)and(cur_char<=@'176)and
+ ((cur_char<"(")or(cur_char>")")) then
+ acc:=xord[buffer[loc]]
+else skip_error('"C" value must be standard ASCII and not a paren')
+@:C value}\.{"C" value must be...@>
+
+@ @<Scan a small dec...@>=
+begin while (cur_char>="0")and(cur_char<="9") do begin
+ acc:=acc*10+cur_char-"0";
+ if acc>65535 then begin
+ skip_error('This value shouldn''t exceed 65535');
+@.This value shouldn't...@>
+ acc:=0; cur_char:=" ";
+ end
+ else get_next;
+ end;
+backup;
+end
+
+@ @<Scan a small oct...@>=
+begin while (cur_char>="0")and(cur_char<="7") do
+ begin acc:=acc*8+cur_char-"0";
+ if acc>65535 then begin
+ skip_error('This value shouldn''t exceed ''177777');
+@.This value shouldn't...@>
+ acc:=0; cur_char:=" ";
+ end
+ else get_next;
+ end;
+backup;
+end
+
+@ @<Scan a small hex...@>=
+begin while ((cur_char>="0")and(cur_char<="9"))or
+ ((cur_char>="A")and(cur_char<="F")) do begin
+ if cur_char>="A" then cur_char:=cur_char+"0"+10-"A";
+ acc:=acc*16+cur_char-"0";
+ if acc>65535 then begin
+ skip_error('This value shouldn''t exceed "FFFF');
+@.This value shouldn't...@>
+ acc:=0; cur_char:=" ";
+ end
+ else get_next;
+ end;
+backup;
+end
+
+@ @<Scan a face...@>=
+begin if cur_char="B" then acc:=2
+else if cur_char="L" then acc:=4
+else if cur_char<>"M" then acc:=18;
+get_next;
+if cur_char="I" then incr(acc)
+else if cur_char<>"R" then acc:=18;
+get_next;
+if cur_char="C" then acc:=acc+6
+else if cur_char="E" then acc:=acc+12
+else if cur_char<>"R" then acc:=18;
+if acc>=18 then begin
+ skip_error('Illegal face code, I changed it to MRR');
+@.Illegal face code...@>
+ acc:=0;
+ end;
+end
+
+@ The routine that scans a four-byte value puts its output into |cur_bytes|,
+which is a record containing (yes, you guessed it) four bytes.
+
+@<Types...@>=
+@!four_bytes=record @!b0:byte;@+@!b1:byte;@+@!b2:byte;@+@!b3:byte;@+end;
+
+@ @d c0==cur_bytes.b0
+@d c1==cur_bytes.b1
+@d c2==cur_bytes.b2
+@d c3==cur_bytes.b3
+
+@<Glob...@>=
+@!cur_bytes:four_bytes; {a four-byte accumulator}
+@!zero_bytes:four_bytes; {four bytes all zero}
+
+@ @<Set init...@>=
+zero_bytes.b0:=0; zero_bytes.b1:=0; zero_bytes.b2:=0; zero_bytes.b3:=0;
+
+@ Since the |get_four_bytes| routine is used very infrequently, no attempt
+has been made to make it fast; we only want it to work.
+This is no longer the case, but we hope that it is not too slow.
+
+@p procedure get_four_bytes; {scans an unsigned constant and sets |four_bytes|}
+var c:integer; {leading byte}
+@!r:integer; {radix}
+begin repeat get_next;
+until cur_char<>" "; {skip the blanks before the type code}
+r:=0; cur_bytes:=zero_bytes; {start with the accumulator zero}
+if cur_char="H" then r:=16
+else if cur_char="O" then r:=8
+else if cur_char="D" then r:=10
+else skip_error('Decimal ("D"), octal ("O") or hex ("H") value is needed here');
+@.Decimal ("D"), octal ("O") or hex ("H")...@>
+if r>0 then begin
+ repeat get_next;
+ until cur_char<>" "; {skip the blanks after the type code}
+ while ((cur_char>="0")and(cur_char<="9"))or@|
+ ((cur_char>="A")and(cur_char<="F")) do
+ @<Multiply by |r|, add |cur_char-"0"|, and |get_next|@>;
+ end;
+end;
+
+function get_integer:integer; {scans an integer property value}
+begin get_four_bytes;
+get_integer:=(c0*@"1000000)+(c1*@"10000)+(c2*@"100)+c3;
+end;
+
+@ @<Multiply by |r|...@>=
+begin if cur_char>="A" then cur_char:=cur_char+"0"+10-"A";
+if cur_char>="0"+r then skip_error('Illegal digit')
+@.Illegal digit@>
+else begin
+ c:=c3*r+cur_char-"0"; c3:=c mod 256;@/
+ c:=c2*r+c div 256; c2:=c mod 256;@/
+ c:=c1*r+c div 256; c1:=c mod 256;@/
+ c:=c0*r+c div 256;
+ if c<256 then c0:=c
+ else begin
+ cur_bytes:=zero_bytes;
+ if r=8 then
+ skip_error('Sorry, the maximum octal value is O 37777777777')
+@.Sorry, the maximum...@>
+ else if r=10 then
+ skip_error('Sorry, the maximum decimal value is D 4294967295')
+ else skip_error('Sorry, the maximum hex value is H FFFFFFFF');
+ end;
+ get_next;
+ end;
+end
+
+@ The remaining scanning routine is the most interesting. It scans a real
+constant and returns the nearest |fix_word| approximation to that constant.
+A |fix_word| is a 32-bit integer that represents a real value that
+has been multiplied by $2^{20}$. Since \.{PLtoTF} restricts the magnitude
+of reals to 2048, the |fix_word| will have a magnitude less than $2^{31}$.
+
+@d unity==@'4000000 {$2^{20}$, the |fix_word| 1.0}
+
+@<Types...@>=
+@!fix_word=integer; {a scaled real value with 20 bits of fraction}
+@!unsigned_integer=integer;
+
+@ When a real value is desired, we might as well treat `\.D' and `\.R'
+formats as if they were identical.
+
+@p function get_fix:fix_word; {scans a real property value}
+var negative:boolean; {was there a minus sign?}
+@!acc:integer; {an accumulator}
+@!int_part:integer; {the integer part}
+@!j:0..7; {the number of decimal places stored}
+begin repeat get_next;
+until cur_char<>" "; {skip the blanks before the type code}
+negative:=false; acc:=0; {start with the accumulators zero}
+if (cur_char<>"R")and(cur_char<>"D") then
+ skip_error('An "R" or "D" value is needed here')
+@.An "R" or "D" ... needed here@>
+else begin
+ @<Scan the blanks and/or signs after the type code@>;
+ while (cur_char>="0") and (cur_char<="9") do
+ @<Multiply by 10, add |cur_char-"0"|, and |get_next|@>;
+ int_part:=acc; acc:=0;
+ if cur_char="." then @<Scan the fraction part and put it in |acc|@>;
+ if (acc>=unity)and(int_part=2047) then
+ skip_error('Real constants must be less than 2048')
+@.Real constants must be...@>
+ else acc:=int_part*unity+acc;
+ end;
+if negative then get_fix:=-acc@+else get_fix:=acc;
+end;
+
+@ @<Scan the blanks...@>=
+repeat get_next;
+if cur_char="-" then begin
+ cur_char:=" "; negative:=true;
+ end
+else if cur_char="+" then cur_char:=" ";
+until cur_char<>" "
+
+@ @<Multiply by 10...@>=
+begin acc:=acc*10+cur_char-"0";
+if acc>=2048 then begin
+ skip_error('Real constants must be less than 2048');
+@.Real constants must be...@>
+ acc:=0; cur_char:=" ";
+ end
+else get_next;
+end
+
+@ To scan the fraction $.d_1d_2\ldots\,$, we keep track of up to seven
+of the digits $d_j$. A correct result is obtained if we first compute
+$f^\prime=\lfloor 2^{21}(d_1\ldots d_j)/10^j\rfloor$, after which
+$f=\lfloor(f^\prime+1)/2\rfloor$. It is possible to have $f=1.0$.
+
+@<Glob...@>=
+@!fraction_digits:array[1..7] of integer; {$2^{21}$ times $d_j$}
+
+@ @<Scan the frac...@>=
+begin j:=0; get_next;
+while (cur_char>="0")and(cur_char<="9") do begin
+ if j<7 then begin
+ incr(j); fraction_digits[j]:=@'10000000*(cur_char-"0");
+ end;
+ get_next;
+ end;
+acc:=0;
+while j>0 do begin
+ acc:=fraction_digits[j]+(acc div 10); decr(j);
+ end;
+acc:=(acc+10) div 20;
+end
+
+@* Storing the property values.
+When property values have been found, they are squirreled away in a bunch
+of arrays. The header information is unpacked into bytes in an array
+called |header_bytes|. The ligature/kerning program is stored in an array
+of type |four_bytes|.
+Another |four_bytes| array holds the specifications of extensible characters.
+The kerns and parameters are stored in separate arrays of |fix_word| values.
+
+Instead of storing the design size in the header array, we will keep it
+in a |fix_word| variable until the last minute. The number of units in the
+design size is also kept in a |fix_word|.
+
+@<Glob...@>=
+@!header_bytes:array[header_index] of byte; {the header block}
+@!header_ptr:header_index; {the number of header bytes in use}
+@!design_size:fix_word; {the design size}
+@!design_units:fix_word; {reciprocal of the scaling factor}
+@!seven_bit_safe_flag:boolean; {does the file claim to be seven-bit-safe?}
+@!lig_kern:array[0..max_lig_steps] of four_bytes; {the ligature program}
+@!nl:unsigned_integer; {the number of ligature/kern instructions so far}
+@!min_nl:unsigned_integer; {the final value of |nl| must be at least this}
+@!kern:array[0..max_kerns] of fix_word; {the distinct kerning amounts}
+@!nk:0..max_kerns; {the number of entries of |kern|}
+@!exten:array[char_type] of four_bytes; {extensible character specs}
+@!ne:xchar_type; {the number of extensible characters}
+@!param:array[1..max_param_words] of fix_word; {\.{FONTDIMEN} parameters}
+@!np:0..max_param_words; {the largest parameter set nonzero}
+@!check_sum_specified:boolean; {did the user name the check sum?}
+@!bchar:xchar_type; {the right boundary character, or 256 if unspecified}
+@!font_dir:integer; {font direction}
+
+@ @<Types...@>=
+@!char_type=0..max_char;
+@!xchar_type=0..xmax_char;
+@!xxchar_type=0..xxmax_char;
+@!xxxchar_type=0..xxxmax_char;
+@!header_index=0..max_header_bytes;
+@!indx=xxchar_type;
+
+@ @<Local...@>=
+@!d:header_index; {an index into |header_bytes|}
+
+@ We start by setting up the default values.
+
+@d check_sum_loc=0
+@d design_size_loc=4
+@d coding_scheme_loc=8
+@d family_loc=coding_scheme_loc+40
+@d seven_flag_loc=family_loc+20
+@d face_loc=seven_flag_loc+3
+
+@<Set init...@>=
+for d:=0 to 18*4-1 do header_bytes[d]:=0;
+header_bytes[8]:=11; header_bytes[9]:="U";
+header_bytes[10]:="N";
+header_bytes[11]:="S";
+header_bytes[12]:="P";
+header_bytes[13]:="E";
+header_bytes[14]:="C";
+header_bytes[15]:="I";
+header_bytes[16]:="F";
+header_bytes[17]:="I";
+header_bytes[18]:="E";
+header_bytes[19]:="D";
+@.UNSPECIFIED@>
+for d:=family_loc to family_loc+11 do header_bytes[d]:=header_bytes[d-40];
+design_size:=10*unity; design_units:=unity; seven_bit_safe_flag:=false;@/
+header_ptr:=18*4; nl:=0; min_nl:=0; nk:=0; ne:=0; np:=0;@/
+check_sum_specified:=false; bchar:=xmax_char;
+font_dir:=0;
+
+@ Most of the dimensions, however, go into the |memory| array. There are
+at most |max_char+2| widths, |max_char+2| heights, |max_char+2| depths,
+and |max_char+2| italic corrections, since the value 0 is required but
+it need not be used. So |memory| has room for |4*max_char+8| entries,
+each of which is a |fix_word|. An auxiliary table called |link| is
+used to link these words together in linear lists, so that sorting and
+other operations can be done conveniently.
+
+We also add four ``list head'' words to the |memory| and |link| arrays;
+these are in locations |width| through |italic|, i.e., 1 through 4.
+For example, |link[height]| points to the smallest element in
+the sorted list of distinct heights that have appeared so far, and
+|memory[height]| is the number of distinct heights.
+
+@<Types...@>=
+@!pointer=0..mem_size; {an index into memory}
+
+@ The arrays |char_wd|, |char_ht|, |char_dp|, and |char_ic| contain
+pointers to the |memory| array entries where the corresponding dimensions
+appear. Two other arrays, |char_tag| and |char_remainder|, hold
+the other information that \.{TFM} files pack into a |char_info_word|.
+
+@d no_tag=0 {vanilla character}
+@d lig_tag=1 {character has a ligature/kerning program}
+@d list_tag=2 {character has a successor in a charlist}
+@d ext_tag=3 {character is extensible}
+@d bchar_label==char_remainder[xmax_char]
+ {beginning of ligature program for left boundary}
+
+@<Glob...@>=
+@!memory:array[pointer] of fix_word; {character dimensions and kerns}
+@!mem_ptr:pointer; {largest |memory| word in use}
+@!link:array[pointer] of pointer; {to make lists of |memory| items}
+@!char_wd:array[char_type] of pointer; {pointers to the widths}
+@!char_ht:array[char_type] of pointer; {pointers to the heights}
+@!char_dp:array[char_type] of pointer; {pointers to the depths}
+@!char_ic:array[char_type] of pointer; {pointers to italic corrections}
+@!char_tag:array[char_type] of no_tag..ext_tag; {character tags}
+@!char_remainder:array[xchar_type] of xchar_type;
+ {pointers to ligature labels,
+ next larger characters, or extensible characters}
+@!top_width,@!top_height,@!top_depth,@!top_italic:integer;
+
+@ @<Local...@>=
+@!c:integer; {runs through all character codes}
+
+@ @<Set init...@>=
+bchar_label:=xmax_label;
+for c:=0 to max_char do begin
+ char_wd[c]:=0; char_ht[c]:=0; char_dp[c]:=0; char_ic[c]:=0;@/
+ char_tag[c]:=no_tag; char_remainder[c]:=0;
+ end;
+memory[0]:=@'17777777777; {an ``infinite'' element at the end of the lists}
+memory[width]:=0; link[width]:=0; {width list is empty}
+memory[height]:=0; link[height]:=0; {height list is empty}
+memory[depth]:=0; link[depth]:=0; {depth list is empty}
+memory[italic]:=0; link[italic]:=0; {italic list is empty}
+mem_ptr:=italic;
+
+@ As an example of these data structures, let us consider the simple
+routine that inserts a potentially new element into one of the dimension
+lists. The first parameter indicates the list head (i.e., |h=width| for
+the width list, etc.); the second parameter is the value that is to be
+inserted into the list if it is not already present. The procedure
+returns the value of the location where the dimension appears in |memory|.
+The fact that |memory[0]| is larger than any legal dimension makes the
+algorithm particularly short.
+
+We do have to handle two somewhat subtle situations. A width of zero must be
+put into the list, so that a zero-width character in the font will not appear
+to be nonexistent (i.e., so that its |char_wd| index will not be zero), but
+this does not need to be done for heights, depths, or italic corrections.
+Furthermore, it is necessary to test for memory overflow even though we
+have provided room for the maximum number of different dimensions in any
+legal font, since the \.{PL} file might foolishly give any number of
+different sizes to the same character.
+
+@p function sort_in(@!h:pointer;@!d:fix_word):pointer; {inserts into list}
+var p:pointer; {the current node of interest}
+begin if (d=0)and(h<>width) then sort_in:=0
+else begin
+ p:=h;
+ while d>=memory[link[p]] do p:=link[p];
+ if (d=memory[p])and(p<>h) then sort_in:=p
+ else if mem_ptr=mem_size then
+ begin err_print('Memory overflow: too many widths, etc');
+@.Memory overflow...@>
+ print_ln('Congratulations! It''s hard to make this error.');
+ sort_in:=p;
+ end
+ else begin
+ incr(mem_ptr); memory[mem_ptr]:=d;
+ link[mem_ptr]:=link[p]; link[p]:=mem_ptr; incr(memory[h]);
+ sort_in:=mem_ptr;
+ end;
+ end;
+end;
+
+@ When these lists of dimensions are eventually written to the \.{OFM}
+file, we may have to do some rounding of values, because the \.{OFM} file
+allows at most 65536 widths, 256 heights, 256 depths, and 256 italic
+corrections. The following procedure takes a given list head |h| and a
+given dimension |d|, and returns the minimum $m$ such that the elements
+of the list can be covered by $m$ intervals of width $d$. It also sets
+|next_d| to the smallest value $d^\prime>d$ such that the covering found
+by this procedure would be different. In particular, if $d=0$ it computes
+the number of elements of the list, and sets |next_d| to the smallest
+distance between two list elements. (The covering by intervals of width
+|next_d| is not guaranteed to have fewer than $m$ elements, but in
+practice this seems to happen most of the time.)
+
+@<Glob...@>=
+@!next_d:fix_word; {the next larger interval that is worth trying}
+
+@ Once again we can make good use of the fact that |memory[0]| is ``infinite.''
+
+@p function min_cover(@!h:pointer;@!d:fix_word):integer;
+var p:pointer; {the current node of interest}
+@!l:fix_word; {the least element covered by the current interval}
+@!m:integer; {the current size of the cover being generated}
+begin m:=0; p:=link[h]; next_d:=memory[0];
+while p<>0 do begin
+ incr(m); l:=memory[p];
+ while memory[link[p]]<=l+d do p:=link[p];
+ p:=link[p];
+ if memory[p]-l<next_d then next_d:=memory[p]-l;
+ end;
+min_cover:=m;
+end;
+
+@ The following procedure uses |min_cover| to determine the smallest $d$
+such that a given list can be covered with at most a given number of
+intervals.
+
+@p function shorten(@!h:pointer;m:integer):fix_word; {finds best way to round}
+var d:fix_word; {the current trial interval length}
+@!k:integer; {the size of a minimum cover}
+begin if memory[h]>m then begin
+ excess:=memory[h]-m;
+ k:=min_cover(h,0); d:=next_d; {now the answer is at least |d|}
+ repeat d:=d+d; k:=min_cover(h,d);
+ until k<=m; {first we ascend rapidly until finding the range}
+ d:=d div 2; k:=min_cover(h,d); {now we run through the feasible steps}
+ while k>m do begin
+ d:=next_d; k:=min_cover(h,d);
+ end;
+ shorten:=d;
+ end
+else shorten:=0;
+end;
+
+@ When we are nearly ready to output the \.{TFM} file, we will set
+|index[p]:=k| if the dimension in |memory[p]| is being rounded to the
+|k|th element of its list.
+
+@<Glob...@>=
+@!index:array[pointer] of byte;
+@!excess:byte; {number of words to remove, if list is being shortened}
+
+@ Here is the procedure that sets the |index| values. It also shortens
+the list so that there is only one element per covering interval;
+the remaining elements are the midpoints of their clusters.
+
+@p procedure set_indices(@!h:pointer;@!d:fix_word);
+ {reduces and indexes a list}
+var p:pointer; {the current node of interest}
+@!q:pointer; {trails one step behind |p|}
+@!m:byte; {index number of nodes in the current interval}
+@!l:fix_word; {least value in the current interval}
+begin q:=h; p:=link[q]; m:=0;
+while p<>0 do begin
+ incr(m); l:=memory[p]; index[p]:=m;
+ while memory[link[p]]<=l+d do begin
+ p:=link[p]; index[p]:=m; decr(excess);
+ if excess=0 then d:=0;
+ end;
+ link[q]:=p; memory[p]:=l+(memory[p]-l) div 2; q:=p; p:=link[p];
+ end;
+memory[h]:=m;
+end;
+
+@* The input phase.
+We're ready now to read and parse the \.{PL} file, storing property
+values as we go.
+
+@<Glob...@>=
+@!c:integer; {the current character or byte being processed}
+@!cprime:char_type; {Processing for several characters together}
+@!crange:char_type; {ditto}
+
+@ @<Read all the input@>=
+cur_char:=" ";
+repeat while cur_char=" " do get_next;
+if cur_char="(" then @<Read a font property value@>
+else if (cur_char=")")and not input_has_ended then begin
+ err_print('Extra right parenthesis');
+ incr(loc); cur_char:=" ";
+ end
+@.Extra right parenthesis@>
+else if not input_has_ended then junk_error;
+until input_has_ended
+
+@ The |junk_error| routine just referred to is called when something
+appears in the forbidden area between properties of a property list.
+
+@p procedure junk_error; {gets past no man's land}
+begin err_print('There''s junk here that is not in parentheses');
+@.There's junk here...@>
+skip_to_paren;
+end;
+
+@ For each font property, we are supposed to read the data from the
+left parenthesis that is the current value of |cur_char| to the right
+parenthesis that matches it in the input. The main complication is
+to recover with reasonable grace from various error conditions that
+might arise.
+
+@<Read a font property value@>=
+begin get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if (cur_code<110) and (cur_code>character_code) then
+ flush_error('This property name doesn''t belong on the outer level')
+else if (cur_code>=110) and ((cur_code mod 10)<>0) then
+ flush_error('This property name doesn''t belong on the outer level')
+@.This property name doesn't belong...@>
+else begin @<Read the font property value specified by |cur_code|@>;
+ finish_the_property;
+ end;
+end
+
+@ @<Read the font property value spec...@>=
+case cur_code of
+ check_sum_code: begin
+ check_sum_specified:=true;
+ read_four_bytes(check_sum_loc);
+ end;
+ design_size_code: @<Read the design size@>;
+ design_units_code: @<Read the design units@>;
+ coding_scheme_code: read_BCPL(coding_scheme_loc,40);
+ family_code: read_BCPL(family_loc,20);
+ face_code: begin
+ c:=get_byte; if c>255 then
+ begin err_print('FACE clipped to 255'); c:=255 end;
+ header_bytes[face_loc]:=c
+ end;
+ seven_bit_safe_flag_code: @<Read the seven-bit-safe flag@>;
+ header_code: @<Read an indexed header word@>;
+ font_dimen_code: @<Read font parameter list@>;
+ lig_table_code: read_lig_kern;
+ boundary_char_code: bchar:=get_byte;
+ character_code: read_char_info;
+ ofm_level_code: @<Read OFM level code@>;
+ font_dir_code: @<Read font direction code@>;
+ n_font_dir_code: @<Read natural font direction code@>;
+ char_repeat_code: read_repeated_character_info;
+ font_rule_code: read_font_rule_list;
+ font_glue_code: read_font_glue_list;
+ font_penalty_code: read_font_penalty_list;
+ font_mvalue_code: read_font_mvalue_list;
+ font_fvalue_code: read_font_fvalue_list;
+ font_ivalue_code: read_font_ivalue_list;
+ end
+
+@ The |case| statement just given makes use of two subroutines that we
+haven't defined yet. The first of these puts a 32-bit octal quantity
+into four specified bytes of the header block.
+
+@p procedure read_four_bytes(l:header_index);
+begin get_four_bytes;
+header_bytes[l]:=c0;
+header_bytes[l+1]:=c1;
+header_bytes[l+2]:=c2;
+header_bytes[l+3]:=c3;
+end;
+
+@ The second little procedure is used to scan a string and to store it in
+the ``{\mc BCPL} format'' required by \.{TFM} files. The string is supposed
+to contain at most |n| bytes, including the first byte (which holds the
+length of the rest of the string).
+
+@p procedure read_BCPL(l:header_index;n:byte);
+var k:header_index;
+begin k:=l;
+while cur_char=" " do get_next;
+while (cur_char<>"(")and(cur_char<>")") do begin
+ if k<l+n then incr(k);
+ if k<l+n then header_bytes[k]:=cur_char;
+ get_next;
+ end;
+if k=l+n then begin
+ err_print('String is too long; its first ',n-1:1,
+@.String is too long...@>
+ ' characters will be kept'); decr(k);
+ end;
+header_bytes[l]:=k-l;
+while k<l+n-1 do begin {tidy up the remaining bytes by setting them to nulls}
+ incr(k); header_bytes[k]:=0;
+ end;
+end;
+
+@ @<Read the design size@>=
+begin next_d:=get_fix;
+if next_d<unity then
+ err_print('The design size must be at least 1')
+@.The design size must...@>
+else design_size:=next_d;
+end
+
+@ @<Read the design units@>=
+begin next_d:=get_fix;
+if next_d<=0 then
+ err_print('The number of units per design size must be positive')
+@.The number of units...@>
+else design_units:=next_d;
+end
+
+@ @<Read the seven-bit-safe...@>=
+begin while cur_char=" " do get_next;
+if cur_char="T" then seven_bit_safe_flag:=true
+else if cur_char="F" then seven_bit_safe_flag:=false
+else err_print('The flag value should be "TRUE" or "FALSE"');
+@.The flag value should be...@>
+skip_to_paren;
+end
+
+@ @<Read an indexed header word@>=
+begin c:=get_byte;
+if c<18 then skip_error('HEADER indices should be 18 or more')
+@.HEADER indices...@>
+else if 4*c+4>max_header_bytes then
+ skip_error('This HEADER index is too big for my present table size')
+@.This HEADER index is too big...@>
+else begin
+ while header_ptr<4*c+4 do begin
+ header_bytes[header_ptr]:=0; incr(header_ptr);
+ end;
+ read_four_bytes(4*c);
+ end;
+end
+
+@ The remaining kinds of font property values that need to be read are
+those that involve property lists on higher levels. Each of these has a
+loop similar to the one that was used at level zero. Then we put the
+right parenthesis back so that `|finish_the_property|' will be happy;
+there is probably a more elegant way to do this.
+
+@d finish_inner_property_list==begin decr(loc); incr(level); cur_char:=")";
+ end
+
+@<Read font parameter list@>=
+begin while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a parameter value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a parameter value@>=
+begin get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if (cur_code<parameter_code)or(cur_code>=char_wd_code) then
+ flush_error('This property name doesn''t belong in a FONTDIMEN list')
+@.This property name doesn't belong...@>
+else begin
+ if cur_code=parameter_code then c:=get_integer
+ else c:=cur_code-parameter_code;
+ if c=0 then flush_error('PARAMETER index must not be zero')
+@.PARAMETER index must not...@>
+ else if c>max_param_words then
+ flush_error('This PARAMETER index is too big for my present table size')
+@.This PARAMETER index is too big...@>
+ else begin
+ while np<c do begin
+ incr(np); param[np]:=0;
+ end;
+ param[c]:=get_fix;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Read ligature/kern list@>=
+begin lk_step_ended:=false;
+while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then read_lig_kern_command
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a ligature/kern command@>=
+begin get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if (cur_code>=label_code) and (cur_code<=(lig_code+11)) then begin
+ case cur_code of
+ label_code:@<Read a label step@>;
+ stop_code:@<Read a stop step@>;
+ skip_code:@<Read a skip step@>;
+ krn_code:@<Read a kerning step@>;
+ lig_code,lig_code+1,lig_code+2,lig_code+3,lig_code+5,
+ lig_code+6,lig_code+7,lig_code+11:@<Read a ligature step@>;
+ end; {there are no other cases |>=label_code|}
+ finish_the_property;
+end
+else if (cur_code>=clabel_code) and (cur_code<=cpenglue_code) then begin
+ case cur_code of
+ clabel_code:@<Read an extended label step@>;
+ cpen_code:@<Read an extended penalty step@>;
+ cglue_code:@<Read an extended glue step@>;
+ cpenglue_code:@<Read an extended penalty/glue step@>;
+ ckrn_code:@<Read an extended kern step@>;
+ end; {there are no other cases |>=label_code|}
+ finish_the_property;
+end
+else flush_error('This property name doesn''t belong in a LIGTABLE list');
+@.This property name doesn't belong...@>
+end
+
+@ When a character is about to be tagged, we call the following
+procedure so that an error message is given in case of multiple tags.
+
+@p procedure check_tag(c:integer); {print error if |c| already tagged}
+begin case char_tag[c] of
+ no_tag: do_nothing;
+ lig_tag: err_print('This character already appeared in a LIGTABLE LABEL');
+@.This character already...@>
+ list_tag: err_print('This character already has a NEXTLARGER spec');
+ ext_tag: err_print('This character already has a VARCHAR spec');
+ end;
+end;
+
+@ @<Read a label step@>=
+begin while cur_char=" " do get_next;
+if cur_char="B" then begin
+ bchar_label:=nl; skip_to_paren; {\.{LABEL BOUNDARYCHAR}}
+ end
+else begin
+ backup; c:=get_byte;
+ check_tag(c); char_tag[c]:=lig_tag; char_remainder[c]:=nl;
+ end;
+if min_nl<=nl then min_nl:=nl+1;
+lk_step_ended:=false;
+end
+
+@ @d stop_flag=128 {value indicating `\.{STOP}' in a lig/kern program}
+@d kern_flag=128 {op code for a kern step}
+
+@<Globals...@>=
+@!lk_step_ended:boolean;
+ {was the last \.{LIGTABLE} property \.{LIG} or \.{KRN}?}
+@!krn_ptr:0..max_kerns; {an index into |kern|}
+
+@ @<Read a stop step@>=
+if not lk_step_ended then
+ err_print('STOP must follow LIG or KRN')
+@.STOP must follow LIG or KRN@>
+else begin
+ lig_kern[nl-1].b0:=lig_kern[nl-1].b0 div 256 * 256 + stop_flag;
+ lk_step_ended:=false;
+ end
+
+@ @<Read a skip step@>=
+if not lk_step_ended then
+ err_print('SKIP must follow LIG or KRN')
+@.SKIP must follow LIG or KRN@>
+else begin
+ c:=get_byte;
+ if c>=128 then err_print('Maximum SKIP amount is 127')
+@.Maximum SKIP amount...@>
+ else if nl+c>=max_lig_steps then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+ else begin
+ lig_kern[nl-1].b0:=c;
+ if min_nl<=nl+c then min_nl:=nl+c+1;
+ end;
+ lk_step_ended:=false;
+ end
+
+@ @<Read a ligature step@>=
+begin lig_kern[nl].b0:=0;
+lig_kern[nl].b2:=cur_code-lig_code;
+lig_kern[nl].b1:=get_byte;
+lig_kern[nl].b3:=get_byte;
+if nl>=max_lig_steps-1 then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+else incr(nl);
+lk_step_ended:=true;
+end
+
+@ @<Read a kerning step@>=
+begin lig_kern[nl].b0:=0; lig_kern[nl].b1:=get_byte;
+kern[nk]:=get_fix; krn_ptr:=0;
+while kern[krn_ptr]<>kern[nk] do incr(krn_ptr);
+if krn_ptr=nk then begin
+ if nk<max_kerns then incr(nk)
+ else begin
+ err_print('Sorry, too many different kerns for me to handle');
+@.Sorry, too many different kerns...@>
+ decr(krn_ptr);
+ end;
+ end;
+if ofm_level=-1 then begin
+ lig_kern[nl].b2:=kern_flag+(krn_ptr div 256);
+ lig_kern[nl].b3:=krn_ptr mod 256;
+ end
+else begin
+ lig_kern[nl].b2:=kern_flag+(krn_ptr div 65536);
+ lig_kern[nl].b3:=krn_ptr mod 65536;
+ end;
+if nl>=max_lig_steps-1 then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+else incr(nl);
+lk_step_ended:=true;
+end
+
+@ @<Global...@>=
+@!category_remainders:array[0..256] of integer;
+@!ivalue_category,@!max_ivalue_category:integer;
+@!glue_category,@!max_glue_category:integer;
+@!penalty_category,@!max_penalty_category:integer;
+
+@ @<Set init...@>=
+for ivalue_category:=0 to 256 do begin
+ category_remainders[ivalue_category]:=-1;
+ end;
+max_ivalue_category:=-1;
+max_glue_category:=-1;
+max_penalty_category:=-1;
+
+@ @<Read an extended label step@>=
+begin
+c:=get_byte;
+category_remainders[c]:=nl;
+if max_ivalue_category<c then max_ivalue_category:=c;
+if min_nl<=nl then min_nl:=nl+1;
+lk_step_ended:=false;
+end
+
+@ @<Read an extended penalty step@>=
+begin lig_kern[nl].b0:=256; lig_kern[nl].b1:=get_byte;
+lig_kern[nl].b2:=17;
+penalty_category:=get_byte;
+if max_penalty_category<penalty_category then
+ max_penalty_category:=penalty_category;
+lig_kern[nl].b3:=penalty_category;
+if nl>=max_lig_steps-1 then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+else incr(nl);
+lk_step_ended:=true;
+end
+
+@ @<Read an extended glue step@>=
+begin lig_kern[nl].b0:=256; lig_kern[nl].b1:=get_byte;
+lig_kern[nl].b2:=18;
+glue_category:=get_byte;
+if max_glue_category<glue_category then
+ max_glue_category:=glue_category;
+lig_kern[nl].b3:=glue_category;
+if nl>=max_lig_steps-1 then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+else incr(nl);
+lk_step_ended:=true;
+end
+
+@ @<Read an extended penalty/glue step@>=
+begin lig_kern[nl].b0:=256; lig_kern[nl].b1:=get_byte;
+lig_kern[nl].b2:=19;
+penalty_category:=get_byte;
+if max_penalty_category<penalty_category then
+ max_penalty_category:=penalty_category;
+glue_category:=get_byte;
+if max_glue_category<glue_category then
+ max_glue_category:=glue_category;
+lig_kern[nl].b3:=penalty_category*256+glue_category;
+if nl>=max_lig_steps-1 then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+else incr(nl);
+lk_step_ended:=true;
+end
+
+@ @<Read an extended kern step@>=
+begin lig_kern[nl].b0:=256; lig_kern[nl].b1:=get_byte;
+lig_kern[nl].b2:=20;
+kern[nk]:=get_fix; krn_ptr:=0;
+while kern[krn_ptr]<>kern[nk] do incr(krn_ptr);
+if krn_ptr=nk then begin
+ if nk<max_kerns then incr(nk)
+ else begin
+ err_print('Sorry, too many different kerns for me to handle');
+@.Sorry, too many different kerns...@>
+ decr(krn_ptr);
+ end;
+ end;
+if krn_ptr>65535 then
+ err_print('Sorry, too many different kerns for me to handle');
+lig_kern[nl].b3:=krn_ptr;
+if nl>=max_lig_steps-1 then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+else incr(nl);
+lk_step_ended:=true;
+end
+
+@ @<Globals...@>=
+@!char_extended_tag:array [char_type] of boolean;
+
+@ @<Set init...@>=
+for c:=0 to max_char do
+ char_extended_tag[c]:=false;
+
+@ @<Finish up the extended font stuff@>=
+begin
+if max_penalty_category>0 then begin
+ if nkp=0 then
+ err_print('No PENALTY table')
+ else if npp[0]<max_penalty_category then
+ err_print('Not enough PENALTY entries');
+ end;
+if max_glue_category>0 then begin
+ if nkg=0 then
+ err_print('No GLUE table')
+ else if npg[0]<max_glue_category then
+ err_print('Not enough GLUE entries');
+ end;
+if max_ivalue_category>0 then begin
+ if nki=0 then
+ err_print('No IVALUE table')
+ else if npi[0]<max_ivalue_category then
+ err_print('Not enough IVALUE entries')
+ else begin
+ for c:=0 to max_char do begin
+ if (char_wd[c]<>0) then begin
+ for j:=0 to max_ivalue_category do
+ if char_table[c,0]=j then begin
+ if category_remainders[j]<>-1 then begin
+ if char_tag[c]<>0 then
+ err_print('Character already has a tag')
+ else begin
+ char_extended_tag[c]:=true;
+ char_remainder[c]:=category_remainders[j];
+ end;
+ end;
+ end;
+ end;
+ end;
+ end;
+ end;
+end
+
+@ @<Global...@>=
+tables_read:boolean;
+
+@ @<Set init...@>=
+tables_read:=false;
+
+@ Finally we come to the part of \.{PLtoTF}'s input mechanism
+that is used most, the processing of individual character data.
+
+@<Read character info list@>=
+begin
+if not tables_read then begin
+ compute_new_header_ofm;
+ tables_read:=true;
+ end;
+c:=get_byte; {read the character code that is being specified}
+@<Print |c| in hex notation@>;
+while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then read_character_property
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+if char_wd[c]=0 then char_wd[c]:=sort_in(width,0); {legitimatize |c|}
+finish_inner_property_list;
+end
+
+@ @<Globals...@>=
+@!char_original:array [0..max_char] of integer;
+@!char_repeats:array [0..max_char] of integer;
+@!diff:boolean;
+@!needed_space,@!extra_bytes:integer;
+
+@ @<Set init...@>=
+for ch_entry:=0 to max_char do begin
+ char_original[ch_entry]:=ch_entry;
+ char_repeats[ch_entry]:=0;
+ end;
+
+@ @<Read repeated character info@>=
+begin
+if not tables_read then begin
+ @<Compute the new header information for OFM files@>;
+ tables_read:=true;
+ end;
+c:=get_byte; {read the character code that is being specified}
+@<Print |c| in hex notation@>;
+crange:=get_byte; {read how many characters are being defined}
+if (crange<0) then begin
+ err_print('Character ranges must be positive');
+ crange:=0;
+ end;
+if ((c+crange)>max_char) then begin
+ err_print('Character range too large');
+ crange:=0;
+ end;
+print('-'); print_hex(c+crange);
+while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then read_character_property
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+if char_wd[c]=0 then char_wd[c]:=sort_in(width,0); {legitimatize |c|}
+finish_inner_property_list;
+cprime:=c;
+for c:=(cprime+1) to (cprime+crange) do begin
+ char_wd[c]:=char_wd[cprime];
+ char_ht[c]:=char_ht[cprime];
+ char_dp[c]:=char_dp[cprime];
+ char_ic[c]:=char_ic[cprime];
+ for tab:=0 to (nki+nkf+nkr+nkg+nkp-1) do begin
+ char_table[c,tab]:= char_table[cprime,tab];
+ end;
+ end;
+end
+
+@ Tables for character parameters
+
+@d char_param_tables==8
+
+@<Globals...@>=
+@!char_table:array [0..max_char,0..char_param_tables] of integer;
+@!ch_table,@!ch_entry:integer;
+@!temp_value:integer;
+
+@ @<Set init...@>=
+for c:=0 to max_char do
+ for ch_table:=0 to char_param_tables do
+ char_table[c,ch_table]:=0;
+
+@ @<Read a character property@>=
+begin get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if (cur_code<char_wd_code)or
+ ((cur_code>var_char_code)and
+ ((cur_code<char_ivalue_code)or(cur_code>char_penalty_code)))
+then
+ flush_error('This property name doesn''t belong in a CHARACTER list')
+@.This property name doesn't belong...@>
+else begin
+ case cur_code of
+ char_wd_code:char_wd[c]:=sort_in(width,get_fix);
+ char_ht_code:char_ht[c]:=sort_in(height,get_fix);
+ char_dp_code:char_dp[c]:=sort_in(depth,get_fix);
+ char_ic_code:char_ic[c]:=sort_in(italic,get_fix);
+ sec_width_code:temp_value:=get_fix;
+ sec_height_code:temp_value:=get_fix;
+ sec_depth_code:temp_value:=get_fix;
+ sec_italic_code:temp_value:=get_fix;
+ accent_code:temp_value:=get_fix;
+ prim_top_axis_code:temp_value:=get_fix;
+ prim_top_axis_bis_code:temp_value:=get_fix;
+ prim_bot_axis_code:temp_value:=get_fix;
+ prim_bot_axis_bis_code:temp_value:=get_fix;
+ prim_mid_hor_code:temp_value:=get_fix;
+ prim_mid_vert_code:temp_value:=get_fix;
+ prim_base_slant_code:temp_value:=get_fix;
+ sec_top_axis_code:temp_value:=get_fix;
+ sec_top_axis_bis_code:temp_value:=get_fix;
+ sec_bot_axis_code:temp_value:=get_fix;
+ sec_bot_axis_bis_code:temp_value:=get_fix;
+ sec_mid_hor_code:temp_value:=get_fix;
+ sec_mid_vert_code:temp_value:=get_fix;
+ sec_base_slant_code:temp_value:=get_fix;
+ next_larger_code:begin check_tag(c); char_tag[c]:=list_tag;
+ char_remainder[c]:=get_byte;
+ end;
+ var_char_code:@<Read an extensible recipe for |c|@>;
+ char_ivalue_code: begin
+ ch_table:=get_integer;
+ ch_entry:=get_integer;
+ char_table[c,ch_table]:=ch_entry;
+ if ch_table>nkci then nkci:=ch_table;
+ end;
+ char_fvalue_code: begin
+ ch_table:=get_integer+nki;
+ ch_entry:=get_integer;
+ char_table[c,ch_table]:=ch_entry;
+ if ch_table>nkcf then nkcf:=ch_table;
+ end;
+ char_mvalue_code: begin
+ ch_table:=get_integer+nki+nkf;
+ ch_entry:=get_integer;
+ char_table[c,ch_table]:=ch_entry;
+ if ch_table>nkcm then nkcm:=ch_table;
+ end;
+ char_rule_code: begin
+ ch_table:=get_integer+nki+nkf+nkm;
+ ch_entry:=get_integer;
+ char_table[c,ch_table]:=ch_entry;
+ if ch_table>nkcr then nkcr:=ch_table;
+ end;
+ char_glue_code: begin
+ ch_table:=get_integer+nki+nkf+nkm+nkr;
+ ch_entry:=get_integer;
+ char_table[c,ch_table]:=ch_entry;
+ if ch_table>nkcg then nkcg:=ch_table;
+ end;
+ char_penalty_code: begin
+ ch_table:=get_integer+nki+nkf+nkm+nkr+nkg;
+ ch_entry:=get_integer;
+ char_table[c,ch_table]:=ch_entry;
+ if ch_table>nkcp then nkcp:=ch_table;
+ end;
+ end;@/
+ finish_the_property;
+ end;
+end
+
+@ @<Read an extensible r...@>=
+begin if ne=xmax_char then
+ err_print('Sorry, too many VARCHAR specs')
+@.Sorry, too many VARCHAR specs@>
+else begin
+ check_tag(c); char_tag[c]:=ext_tag; char_remainder[c]:=ne;@/
+ exten[ne]:=zero_bytes;
+ while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read an extensible piece@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ incr(ne);
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read an extensible p...@>=
+begin get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if (cur_code<var_char_code+1)or(cur_code>var_char_code+4) then
+ flush_error('This property name doesn''t belong in a VARCHAR list')
+@.This property name doesn't belong...@>
+else begin
+ case cur_code-(var_char_code+1) of
+ 0:exten[ne].b0:=get_byte;
+ 1:exten[ne].b1:=get_byte;
+ 2:exten[ne].b2:=get_byte;
+ 3:exten[ne].b3:=get_byte;
+ end;@/
+ finish_the_property;
+ end;
+end
+
+@ The input routine is now complete except for the following code,
+which prints a progress report as the file is being read.
+@<Glob...@>=
+@!ASCII_04,@!ASCII_10,@!ASCII_14,HEX: packed array [1..32] of char;
+ {strings for output in the user's external character set}
+@!MBL_string,@!RI_string,@!RCE_string:packed array [1..3] of char;
+ {handy string constants for |face| codes}
+
+@ @<Set init...@>=
+ASCII_04:=' !"#$%&''()*+,-./0123456789:;<=>?';@/
+ASCII_10:='@@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_';@/
+ASCII_14:='`abcdefghijklmnopqrstuvwxyz{|}~ ';@/
+HEX:='0123456789ABCDEF';@/
+MBL_string:='MBL'; RI_string:='RI '; RCE_string:='RCE';
+
+@ The array |dig| will hold a sequence of digits to be output.
+
+@<Glob...@>=
+@!dig:array[0..32] of integer;
+
+@ Here, in fact, are two procedures that output
+|dig[j-1]|$\,\ldots\,$|dig[0]|, given $j>0$.
+
+@p procedure out_digs(j:integer); {outputs |j| digits}
+begin repeat decr(j); out(HEX[1+dig[j]]);
+until j=0;
+end;
+@#
+procedure print_digs(j:integer); {prints |j| digits}
+begin repeat decr(j); print(HEX[1+dig[j]]);
+until j=0;
+end;
+
+
+@ The |print_number| procedure indicates how |print_digs| can be used.
+This procedure can print in octal, decimal or hex notation.
+
+@d print_hex(#)==print_number(#,16)
+@d print_octal(#)==print_number(#,8)
+@d print_decimal(#)==print_number(#,10)
+
+@p procedure print_number(c:integer; form:integer); {prints value of |c|}
+var j:0..32; {index into |dig|}
+begin
+j:=0;
+if (c<0) then begin
+ print_ln('Internal error: print_number (negative value)');
+ c:=0
+ end;
+if form=8 then
+ print('''') {an apostrophe indicates the octal notation}
+else if form=16 then
+ print('"') { a double apostrophe indicates the hexadecimal notation}
+else if form<>10 then begin
+ print_ln('Internal error: print_number');
+ form:=10
+ end;
+while (c>0) or (j=0) do begin
+ dig[j]:=c mod form; c:=c div form;
+ j:=j+1;
+ end;
+print_digs(j);
+end;
+
+
+@ @<Print |c| in hex...@>=
+begin if chars_on_line=8 then begin
+ print_ln(' '); chars_on_line:=1;
+ end
+else begin
+ if chars_on_line>0 then print(' ');
+ incr(chars_on_line);
+ end;
+print_hex(c); {progress report}
+end
+
+@* The checking and massaging phase.
+Once the whole \.{PL} file has been read in, we must check it for consistency
+and correct any errors. This process consists mainly of running through
+the characters that exist and seeing if they refer to characters that
+don't exist. We also compute the true value of |seven_unsafe|; we make sure
+that the charlists and ligature programs contain no loops; and we
+shorten the lists of widths, heights, depths, and italic corrections,
+if necessary, to keep from exceeding the required maximum sizes.
+
+@<Glob...@>=
+@!seven_unsafe:boolean; {do seven-bit characters generate eight-bit ones?}
+
+@ @<Correct and check the information@>=
+if nl>0 then @<Make sure the ligature/kerning program ends appropriately@>;
+seven_unsafe:=false;
+for c:=0 to max_char do if char_wd[c]<>0 then
+ @<For all characters |g| generated by |c|,
+ make sure that |char_wd[g]| is nonzero, and
+ set |seven_unsafe| if |c<128<=g|@>;
+if bchar_label<xmax_label then begin
+ c:=xmax_char; @<Check ligature program of |c|@>;
+ end;
+if seven_bit_safe_flag and seven_unsafe then
+ print_ln('The font is not really seven-bit-safe!');
+@.The font is not...safe@>
+@<Check for infinite ligature loops@>;
+@<Doublecheck the lig/kern commands and the extensible recipes@>;
+finish_extended_font;
+for c:=0 to max_char do
+ @<Make sure that |c| is not the largest element of a charlist cycle@>;
+@<Put the width, height, depth, and italic lists into final form@>
+
+@ The checking that we need in several places is accomplished by three
+macros that are only slightly tricky.
+
+@d existence_tail(#)==begin char_wd[g]:=sort_in(width,0);
+ print(#,' '); print_hex(c);
+ print_ln(' had no CHARACTER spec.');
+ end;
+ end
+@d check_existence_and_safety(#)==begin g:=#;
+ if (g>=128)and(c<128) then seven_unsafe:=true;
+ if char_wd[g]=0 then existence_tail
+@d check_existence(#)==begin g:=#;
+ if char_wd[g]=0 then existence_tail
+
+@<For all characters |g| generated by |c|...@>=
+case char_tag[c] of
+ no_tag: do_nothing;
+ lig_tag: @<Check ligature program of |c|@>;
+ list_tag: check_existence_and_safety(char_remainder[c])
+ ('The character NEXTLARGER than');
+@.The character NEXTLARGER...@>
+ ext_tag:@<Check the pieces of |exten[c]|@>;
+ end
+
+@ @<Check the pieces...@>=
+begin if exten[char_remainder[c]].b0>0 then
+ check_existence_and_safety(exten[char_remainder[c]].b0)
+ ('TOP piece of character');
+@.TOP piece of character...@>
+if exten[char_remainder[c]].b1>0 then
+ check_existence_and_safety(exten[char_remainder[c]].b1)
+ ('MID piece of character');
+@.MID piece of character...@>
+if exten[char_remainder[c]].b2>0 then
+ check_existence_and_safety(exten[char_remainder[c]].b2)
+ ('BOT piece of character');
+@.BOT piece of character...@>
+check_existence_and_safety(exten[char_remainder[c]].b3)
+ ('REP piece of character');
+@.REP piece of character...@>
+end
+
+@ @<Make sure that |c| is not the largest element of a charlist cycle@>=
+if char_tag[c]=list_tag then begin
+ g:=char_remainder[c];
+ while (g<c)and(char_tag[g]=list_tag) do g:=char_remainder[g];
+ if g=c then begin
+ char_tag[c]:=no_tag;
+ print('A cycle of NEXTLARGER characters has been broken at ');
+@.A cycle of NEXTLARGER...@>
+ print_hex(c); print_ln('.');
+ end;
+ end
+
+@ @<Global...@>=
+@!delta:fix_word; {size of the intervals needed for rounding}
+
+@ @d round_message(#)==if delta>0 then print_ln('I had to round some ',
+@.I had to round...@>
+ #,'s by ',(((delta+1) div 2)/@'4000000):1:7,' units.')
+
+@<Put the width, height, depth, and italic lists into final form@>=
+case ofm_level of
+ -1: begin
+ top_width:=255; top_depth:=15; top_height:=15; top_italic:=63;
+ end;
+ 0: begin
+ top_width:=65535; top_depth:=255; top_height:=255; top_italic:=255;
+ end;
+ 1: begin
+ top_width:=65535; top_depth:=255; top_height:=255; top_italic:=255;
+ end;
+ end;
+delta:=shorten(width,top_width); set_indices(width,delta);
+ round_message('width');@/
+delta:=shorten(height,top_height); set_indices(height,delta);
+ round_message('height');@/
+delta:=shorten(depth,top_depth); set_indices(depth,delta);
+ round_message('depth');@/
+delta:=shorten(italic,top_italic); set_indices(italic,delta);
+ round_message('italic correction');
+
+@ @d clear_lig_kern_entry== {make an unconditional \.{STOP}}
+ lig_kern[nl].b0:=255; lig_kern[nl].b1:=0;
+ lig_kern[nl].b2:=0; lig_kern[nl].b3:=0
+
+@<Make sure the ligature/kerning program ends...@>=
+begin if bchar_label<xmax_label then {make room for it} begin
+ clear_lig_kern_entry; incr(nl);
+ end; {|bchar_label| will be stored later}
+while min_nl>nl do begin
+ clear_lig_kern_entry; incr(nl);
+ end;
+if (lig_kern[nl-1].b0 mod 256)=0 then
+ lig_kern[nl-1].b0:=lig_kern[nl-1].b0 div 256 * 256 + stop_flag;
+end
+
+@ It's not trivial to check for infinite loops generated by repeated
+insertion of ligature characters. But fortunately there is a nice
+algorithm for such testing, copied here from the program \.{TFtoPL}
+where it is explained further.
+
+@d simple=0 {$f(x,y)=z$}
+@d left_z=1 {$f(x,y)=f(z,y)$}
+@d right_z=2 {$f(x,y)=f(x,z)$}
+@d both_z=3 {$f(x,y)=f(f(x,z),y)$}
+@d pending=4 {$f(x,y)$ is being evaluated}
+
+
+@ @<Glo...@>=
+@!lig_ptr:0..max_lig_steps; {an index into |lig_kern|}
+@!hash:array[0..hash_size] of integer;
+@!class:array[0..hash_size] of simple..pending;
+@!lig_z:array[0..hash_size] of xxchar_type;
+@!hash_ptr:0..hash_size; {the number of nonzero entries in |hash|}
+@!hash_list:array[0..hash_size] of 0..hash_size; {list of those nonzero entries}
+@!h,@!hh:0..hash_size; {indices into the hash table}
+@!tt:indx; {temporary register}
+@!x_lig_cycle,@!y_lig_cycle:xchar_type; {problematic ligature pair}
+
+@ @<Set init...@>=
+hash_ptr:=0; y_lig_cycle:=xmax_char;
+for k:=0 to hash_size do hash[k]:=0;
+
+@ @d lig_exam==lig_kern[lig_ptr].b1
+@d lig_gen==lig_kern[lig_ptr].b3
+
+@<Check lig...@>=
+begin lig_ptr:=char_remainder[c];
+if (lig_kern[lig_ptr].b0 div 256)=0 then
+begin
+repeat if hash_input(lig_ptr,c) then begin
+ if lig_kern[lig_ptr].b2<kern_flag then begin
+ if lig_exam<>bchar then
+ check_existence(lig_exam)('LIG character examined by');
+@.LIG character examined...@>
+ check_existence(lig_gen)('LIG character generated by');
+@.LIG character generated...@>
+ if lig_gen>=128 then if(c<128)or(c=bchar) then
+ if(lig_exam<128)or(lig_exam=bchar) then seven_unsafe:=true;
+ end
+ else if lig_exam<>bchar then
+ check_existence(lig_exam)('KRN character examined by');
+@.KRN character examined...@>
+ end;
+if (lig_kern[lig_ptr].b0 mod 256)>=stop_flag then lig_ptr:=nl
+else lig_ptr:=lig_ptr+1+lig_kern[lig_ptr].b0;
+until lig_ptr>=nl;
+end;
+end
+
+@ The |hash_input| procedure is copied from \.{TFtoPL}, but it is made
+into a boolean function that returns |false| if the ligature command
+was masked by a previous one.
+
+@p function hash_input(@!p,@!c:indx):boolean;
+ {enter data for character |c| and command in location |p|, unless it isn't new}
+label 30; {go here for a quick exit}
+var @!cc:simple..both_z; {class of data being entered}
+@!zz:char_type; {function value or ligature character being entered}
+@!y:char_type; {the character after the cursor}
+@!key:integer; {value to be stored in |hash|}
+@!t:integer; {temporary register for swapping}
+begin if hash_ptr=hash_size then
+ begin hash_input:=false; goto 30;@+end;
+@<Compute the command parameters |y|, |cc|, and |zz|@>;
+key:=xmax_char*c+y+1; h:=(hash_mult*(key mod hash_size)) mod hash_size;
+while hash[h]>0 do begin
+ if hash[h]<=key then begin
+ if hash[h]=key then begin
+ hash_input:=false; goto 30; {unused ligature command}
+ end;
+ t:=hash[h]; hash[h]:=key; key:=t; {do ordered-hash-table insertion}
+ t:=class[h]; class[h]:=cc; cc:=t; {namely, do a swap}
+ t:=lig_z[h]; lig_z[h]:=zz; zz:=t;
+ end;
+ if h>0 then decr(h)@+else h:=hash_size;
+ end;
+hash[h]:=key; class[h]:=cc; lig_z[h]:=zz;
+incr(hash_ptr); hash_list[hash_ptr]:=h;
+hash_input:=true;
+30:end;
+
+@ @<Compute the command param...@>=
+y:=lig_kern[p].b1; t:=lig_kern[p].b2; cc:=simple;
+zz:=lig_kern[p].b3;
+if t>=kern_flag then zz:=y
+else begin
+ case t of
+ 0,6:do_nothing; {\.{LIG},\.{/LIG>}}
+ 5,11:zz:=y; {\.{LIG/>}, \.{/LIG/>>}}
+ 1,7:cc:=left_z; {\.{LIG/}, \.{/LIG/>}}
+ 2:cc:=right_z; {\.{/LIG}}
+ 3:cc:=both_z; {\.{/LIG/}}
+ end; {there are no other cases}
+ end
+
+@ (More good stuff from \.{TFtoPL}.)
+
+@p function f(@!h,@!x,@!y:indx):indx; forward;@t\2@>
+ {compute $f$ for arguments known to be in |hash[h]|}
+function eval(@!x,@!y:indx):indx; {compute $f(x,y)$ with hashtable lookup}
+var @!key:integer; {value sought in hash table}
+begin key:=xmax_char*x+y+1; h:=(hash_mult*key) mod hash_size;
+while hash[h]>key do
+ if h>0 then decr(h)@+else h:=hash_size;
+if hash[h]<key then eval:=y {not in ordered hash table}
+else eval:=f(h,x,y);
+end;
+
+@ Pascal's beastly convention for |forward| declarations prevents us from
+saying |function f(h,x,y:indx):indx| here.
+
+@p function f;
+begin
+case class[h] of
+ simple: do_nothing;
+ left_z: begin class[h]:=pending; lig_z[h]:=eval(lig_z[h],y); class[h]:=simple;
+ end;
+ right_z: begin class[h]:=pending; lig_z[h]:=eval(x,lig_z[h]); class[h]:=simple;
+ end;
+ both_z: begin class[h]:=pending; lig_z[h]:=eval(eval(x,lig_z[h]),y);
+ class[h]:=simple;
+ end;
+ pending: begin x_lig_cycle:=x; y_lig_cycle:=y;
+ lig_z[h]:=xxmax_char; class[h]:=simple;
+ end; {the value |xxmax_char| will break all cycles,
+ since it's not in |hash|}
+ end; {there are no other cases}
+f:=lig_z[h];
+end;
+
+@ @<Check for infinite...@>=
+if hash_ptr<hash_size then for hh:=1 to hash_ptr do begin
+ tt:=hash_list[hh];
+ if class[tt]>simple then {make sure $f$ is well defined}
+ tt:=f(tt,(hash[tt]-1)div xmax_char,(hash[tt]-1)mod xmax_char);
+ end;
+if(hash_ptr=hash_size)or(y_lig_cycle<xmax_char) then begin
+ if hash_ptr<hash_size then begin
+ print('Infinite ligature loop starting with ');
+@.Infinite ligature loop...@>
+ if x_lig_cycle=xmax_char
+ then print('boundary')@+else print_hex(x_lig_cycle);
+ print(' and '); print_hex(y_lig_cycle); print_ln('!');
+ end
+ else print_ln('Sorry, I haven''t room for so many ligature/kern pairs!');
+@.Sorry, I haven't room...@>
+ print_ln('All ligatures will be cleared.');
+ for c:=0 to max_char do if char_tag[c]=lig_tag then begin
+ char_tag[c]:=no_tag; char_remainder[c]:=0;
+ end;
+ nl:=0; bchar:=xmax_char; bchar_label:=xmax_label;
+ end
+
+@ The lig/kern program may still contain references to nonexistent characters,
+if parts of that program are never used. Similarly, there may be extensible
+characters that are never used, because they were overridden by
+\.{NEXTLARGER}, say. This would produce an invalid \.{TFM} file; so we
+must fix such errors.
+
+@d double_check_tail(#)==@t\1@>if char_wd[0]=0
+ then char_wd[0]:=sort_in(width,0);
+ print('Unused ',#,' refers to nonexistent character ');
+ print_hex(c); print_ln('!');
+ end;
+ end
+@d double_check_lig(#)==begin c:=lig_kern[lig_ptr].#;
+ if char_wd[c]=0 then if c<>bchar then
+ begin lig_kern[lig_ptr].#:=0; double_check_tail
+@d double_check_ext(#)==begin c:=exten[g].#;
+ if c>0 then if char_wd[c]=0 then
+ begin exten[g].#:=0; double_check_tail
+@d double_check_rep(#)==begin c:=exten[g].#;
+ if char_wd[c]=0 then
+ begin exten[g].#:=0; double_check_tail
+
+@<Doublecheck...@>=
+if nl>0 then for lig_ptr:=0 to nl-1 do
+ if (lig_kern[lig_ptr].b0 div 256)=0 then begin
+ if lig_kern[lig_ptr].b2<kern_flag then begin
+ if lig_kern[lig_ptr].b0<255 then begin
+ double_check_lig(b1)('LIG step'); double_check_lig(b3)('LIG step');
+ end;
+ end
+ else double_check_lig(b1)('KRN step');
+ end;
+@.Unused LIG step...@>
+@.Unused KRN step...@>
+if ne>0 then for g:=0 to ne-1 do begin
+ double_check_ext(b0)('VARCHAR TOP');
+ double_check_ext(b1)('VARCHAR MID');
+ double_check_ext(b2)('VARCHAR BOT');
+ double_check_rep(b3)('VARCHAR REP');
+@.Unused VARCHAR...@>
+ end
+
+@* The output phase.
+Now that we know how to get all of the font data correctly stored in
+\.{PLtoTF}'s memory, it only remains to write the answers out.
+
+First of all, it is convenient to have an abbreviation for output to the
+\.{TFM} file:
+
+@d out(#)==write(tfm_file,#)
+
+@ The general plan for producing \.{TFM} files is long but simple:
+
+@<Do the font metric output@>=
+compute_subfile_sizes;
+output_subfile_sizes;
+@<Output the header block@>;
+output_new_information_ofm;
+output_character_info;
+@<Output the dimensions themselves@>;
+@<Output the ligature/kern program@>;
+@<Output the extensible character recipes@>;
+@<Output the parameters@>;
+
+@ A \.{TFM} file begins with 12 numbers that tell how big its subfiles are.
+We already know most of these numbers; for example, the number of distinct
+widths is |memory[width]+1|, where the $+1$ accounts for the zero width that
+is always supposed to be present. But we still should compute the beginning
+and ending character codes (|bc| and |ec|), the number of header words (|lh|),
+and the total number of words in the \.{TFM} file (|lf|).
+
+@<Gl...@>=
+@!bc:byte; {the smallest character code in the font}
+@!ec:byte; {the largest character code in the font}
+@!lh:byte; {the number of words in the header block}
+@!lf:unsigned_integer; {the number of words in the entire \.{TFM} file}
+@!not_found:boolean; {has a font character been found?}
+@!temp_width:fix_word; {width being used to compute a check sum}
+@!ncw,@!nco,@!npc:integer;
+
+@ It might turn out that no characters exist at all. But \.{PLtoTF} keeps
+going and writes the \.{TFM} anyway. In this case |ec| will be~0 and |bc|
+will be~1.
+
+@<Compute the subfile sizes@>=
+case ofm_level of
+ -1: begin
+ lh:=header_ptr div 4;@/
+ not_found:=true; bc:=0;
+ while not_found do
+ if (char_wd[bc]>0)or(bc=255) then not_found:=false
+ else incr(bc);
+ not_found:=true; ec:=255;
+ while not_found do
+ if (char_wd[ec]>0)or(ec=0) then not_found:=false
+ else decr(ec);
+ if bc>ec then bc:=1;
+ incr(memory[width]); incr(memory[height]); incr(memory[depth]);
+ incr(memory[italic]);@/
+ @<Compute the ligature/kern program offset@>;
+ lf:=6+lh+(ec-bc+1)+memory[width]+memory[height]+memory[depth]+
+ memory[italic]+nl+lk_offset+nk+ne+np;
+ end;
+ 0: begin
+ lh:=header_ptr div 4;@/
+ not_found:=true; bc:=0;
+ while not_found do
+ if (char_wd[bc]>0)or(bc=max_char) then not_found:=false
+ else incr(bc);
+ not_found:=true; ec:=max_char;
+ while not_found do
+ if (char_wd[ec]>0)or(ec=0) then not_found:=false
+ else decr(ec);
+ if bc>ec then bc:=1;
+ incr(memory[width]); incr(memory[height]); incr(memory[depth]);
+ incr(memory[italic]);@/
+ @<Compute the ligature/kern program offset@>;
+ lf:=14+lh+2*(ec-bc+1)+memory[width]+memory[height]+memory[depth]+
+ memory[italic]+2*nl+lk_offset+nk+2*ne+np;
+ end;
+ 1: begin
+ lh:=header_ptr div 4;@/
+ not_found:=true; bc:=0;
+ while not_found do
+ if (char_wd[bc]>0)or(bc=max_char) then not_found:=false
+ else incr(bc);
+ not_found:=true; ec:=max_char;
+ while not_found do
+ if (char_wd[ec]>0)or(ec=0) then not_found:=false
+ else decr(ec);
+ if bc>ec then bc:=1;
+ incr(memory[width]); incr(memory[height]); incr(memory[depth]);
+ incr(memory[italic]);@/
+ @<Compute the ligature/kern program offset@>;
+ @<Compute the character info size@>;
+ lf:=29+lh+ncw+memory[width]+memory[height]+memory[depth]+
+ memory[italic]+2*(nl+lk_offset)+nk+2*ne+np+
+ nki+nwi+nkf+nwf+nkm+nwm++nkr+nwr+nkg+nwg+nkp+nwp;
+ nco:=29+lh+nki+nwi+nkf+nwf+nkm+nwm++nkr+nwr+nkg+nwg+nkp+nwp;
+ end;
+ end;
+
+@ @d out_size(#)==out((#) div 256); out((#) mod 256)
+ @d out_integer(#)==out((#) div @"1000000);
+ out(((#) mod @"1000000) div @"10000);
+ out(((#) mod @"10000) div @"100);
+ out((#) mod @"100)
+
+@<Output the subfile sizes@>=
+case ofm_level of
+ -1: begin
+ out_size(lf); out_size(lh); out_size(bc); out_size(ec);
+ out_size(memory[width]); out_size(memory[height]);
+ out_size(memory[depth]); out_size(memory[italic]);
+ out_size(nl+lk_offset); out_size(nk); out_size(ne); out_size(np);
+ end;
+ 0: begin
+ out_integer(0);
+ out_integer(lf); out_integer(lh); out_integer(bc); out_integer(ec);
+ out_integer(memory[width]); out_integer(memory[height]);
+ out_integer(memory[depth]); out_integer(memory[italic]);
+ out_integer(nl+lk_offset); out_integer(nk);
+ out_integer(ne); out_integer(np); out_integer(font_dir);
+ end;
+ 1: begin
+ out_integer(1);
+ out_integer(lf); out_integer(lh);
+ out_integer(bc); out_integer(ec);
+ out_integer(memory[width]); out_integer(memory[height]);
+ out_integer(memory[depth]); out_integer(memory[italic]);
+ out_integer(nl+lk_offset); out_integer(nk);
+ out_integer(ne); out_integer(np); out_integer(font_dir);
+ out_integer(nco); out_integer(ncw); out_integer(npc);
+ out_integer(nki); out_integer(nwi); out_integer(nkf); out_integer(nwf);
+ out_integer(nkm); out_integer(nwm); out_integer(nkr); out_integer(nwr);
+ out_integer(nkg); out_integer(nwg); out_integer(nkp); out_integer(nwp);
+ end;
+ end;
+
+@ The routines that follow need a few temporary variables of different types.
+
+@<Gl...@>=
+@!j:0..max_header_bytes; {index into |header_bytes|}
+@!p:pointer; {index into |memory|}
+@!q:width..italic; {runs through the list heads for dimensions}
+@!par_ptr:0..max_param_words; {runs through the parameters}
+
+@ The header block follows the subfile sizes. The necessary information all
+appears in |header_bytes|, except that the design size and the seven-bit-safe
+flag must still be set.
+
+@<Output the header block@>=
+if not check_sum_specified then @<Compute the check sum@>;
+header_bytes[design_size_loc]:=design_size div @'100000000;
+ {this works since |design_size>0|}
+header_bytes[design_size_loc+1]:=(design_size div @'200000) mod 256;
+header_bytes[design_size_loc+2]:=(design_size div 256) mod 256;
+header_bytes[design_size_loc+3]:=design_size mod 256;
+if not seven_unsafe then header_bytes[seven_flag_loc]:=128;
+for j:=0 to header_ptr-1 do out(header_bytes[j]);
+
+@ @<Compute the check sum@>=
+begin c0:=bc; c1:=ec; c2:=bc; c3:=ec;
+for c:=bc to ec do if char_wd[c]>0 then begin
+ temp_width:=memory[char_wd[c]];
+ if design_units<>unity then
+ temp_width:=round((temp_width/design_units)*1048576.0);
+ temp_width:=temp_width + (c+4)*@'20000000; {this should be positive}
+ c0:=(c0+c0+temp_width) mod 255;
+ c1:=(c1+c1+temp_width) mod 253;
+ c2:=(c2+c2+temp_width) mod 251;
+ c3:=(c3+c3+temp_width) mod 247;
+ end;
+header_bytes[check_sum_loc]:=c0;
+header_bytes[check_sum_loc+1]:=c1;
+header_bytes[check_sum_loc+2]:=c2;
+header_bytes[check_sum_loc+3]:=c3;
+end
+
+@ @<Global...@>=
+@!tab:integer;
+
+@
+@<Compute the character info size@>=
+if ofm_level=1 then begin
+ ncw:=0;
+ if nkcp>-1 then
+ npc:=nki+nkf+nkr+nkg+nkcp+1
+ else if nkcg>-1 then
+ npc:=nki+nkf+nkr+nkcg+1
+ else if nkcr>-1 then
+ npc:=nki+nkf+nkcr+1
+ else if nkcf>-1 then
+ npc:=nki+nkcf+1
+ else if nkci>-1 then
+ npc:=nkci+1
+ else
+ npc:=0;
+ needed_space:=(12+npc*2) div 4;
+ extra_bytes:=(needed_space*4) - (10+npc*2);
+ for c:=bc to ec do begin
+ if char_original[c]=c then begin
+ cprime:=c+1;
+ diff:=false;
+ while (not diff) and (cprime<=ec) do begin
+ if index[char_wd[c]]<>index[char_wd[cprime]] then diff:=true;
+ if index[char_ht[c]]<>index[char_ht[cprime]] then diff:=true;
+ if index[char_dp[c]]<>index[char_dp[cprime]] then diff:=true;
+ if index[char_ic[c]]<>index[char_ic[cprime]] then diff:=true;
+ if char_remainder[c]<>char_remainder[cprime] then diff:=true;
+ for tab:=0 to npc-1 do begin
+ if char_table[c,tab]<>char_table[cprime,tab] then diff:=true;
+ end;
+ if not diff then begin
+ char_original[cprime]:=c;
+ cprime:=cprime+1;
+ end;
+ end;
+ if cprime>(c+1) then begin
+ char_repeats[c]:=cprime-c-1;
+ end;
+ ncw:=ncw+needed_space;
+ end;
+ end;
+ end;
+
+@ The next block contains packed |char_info|.
+
+@<Output the character info@>=
+index[0]:=0;
+for c:=bc to ec do
+case ofm_level of
+ -1: begin
+ out(index[char_wd[c]]);
+ out(index[char_ht[c]]*16+index[char_dp[c]]);
+ out(index[char_ic[c]]*4+char_tag[c]);
+ out(char_remainder[c]);
+ end;
+ 0: begin
+ out(index[char_wd[c]] div 256); out(index[char_wd[c]] mod 256);
+ out(index[char_ht[c]]); out(index[char_dp[c]]);
+ out(index[char_ic[c]] div 64);out((index[char_ic[c]] mod 64)*4+char_tag[c]);
+ out(char_remainder[c] div 256); out(char_remainder[c] mod 256);
+ end;
+ 1: begin
+ if c=char_original[c] then begin
+ out(index[char_wd[c]] div 256); out(index[char_wd[c]] mod 256);
+ out(index[char_ht[c]]); out(index[char_dp[c]]);
+ out(index[char_ic[c]]);
+ tab:=char_tag[c];
+ if char_extended_tag[c] then begin
+ tab:=5;
+ end;
+ out(tab);
+ out(char_remainder[c] div 256); out(char_remainder[c] mod 256);
+ out_size(char_repeats[c]);
+ for tab:=0 to npc-1 do begin
+ out(char_table[c,tab] div 256); out(char_table[c,tab] mod 256);
+ end;
+ for tab:=1 to extra_bytes do begin
+ out(0);
+ end;
+ end;
+ end;
+ end;
+
+
+@ When a scaled quantity is output, we may need to divide it by |design_units|.
+The following subroutine takes care of this, using floating point arithmetic
+only if |design_units<>1.0|.
+
+@p procedure out_scaled(x:fix_word); {outputs a scaled |fix_word|}
+var @!n:byte; {the first byte after the sign}
+@!m:0..65535; {the two least significant bytes}
+begin if abs(x/design_units)>=16.0 then begin
+ print_ln('The relative dimension ',x/@'4000000:1:3,
+ ' is too large.');
+@.The relative dimension...@>
+ print(' (Must be less than 16*designsize');
+ if design_units<>unity then print(' =',design_units/@'200000:1:3,
+ ' designunits');
+ print_ln(')'); x:=0;
+ end;
+if design_units<>unity then x:=round((x/design_units)*1048576.0);
+if x<0 then begin
+ out(255); x:=x+@'100000000;
+ if x<=0 then x:=1;
+ end
+else begin out(0);
+ if x>=@'100000000 then x:=@'77777777;
+ end;
+n:=x div @'200000; m:=x mod @'200000;
+out(n); out(m div 256); out(m mod 256);
+end;
+
+@ We have output the packed indices for individual characters.
+The scaled widths, heights, depths, and italic corrections are next.
+
+@<Output the dimensions themselves@>=
+for q:=width to italic do begin
+ out(0); out(0); out(0); out(0); {output the zero word}
+ p:=link[q]; {head of list}
+ while p>0 do begin
+ out_scaled(memory[p]);
+ p:=link[p];
+ end;
+ end;
+
+@ One embarrassing problem remains: The ligature/kern program might be very
+long, but the starting addresses in |char_remainder| can be at most~255.
+Therefore we need to output some indirect address information; we want to
+compute |lk_offset| so that addition of |lk_offset| to all remainders makes
+all but |lk_offset| distinct remainders less than~256.
+
+For this we need a sorted table of all relevant remainders.
+
+@<Glob...@>=
+@!label_table:array[xchar_type] of record
+ @!rr: -1..xmax_label; {sorted label values}
+ @!cc: integer; {associated characters}
+ end;
+@!label_ptr:xchar_type; {index of highest entry in |label_table|}
+@!sort_ptr:xchar_type; {index into |label_table|}
+@!lk_offset:xchar_type; {smallest offset value that might work}
+@!t:0..xmax_label; {label value that is being redirected}
+@!extra_loc_needed:boolean; {do we need a special word for |bchar|?}
+
+@ @<Compute the ligature/kern program offset@>=
+@<Insert all labels into |label_table|@>;
+if bchar<xmax_char then begin
+ extra_loc_needed:=true; lk_offset:=1;
+ end
+else begin
+ extra_loc_needed:=false; lk_offset:=0;
+ end;
+@<Find the minimum |lk_offset| and adjust all remainders@>;
+if bchar_label<xmax_label then begin
+ if ofm_level=-1 then begin
+ lig_kern[nl-1].b2:=(bchar_label+lk_offset)div 256;
+ lig_kern[nl-1].b3:=(bchar_label+lk_offset)mod 256;
+ end
+ else begin
+ lig_kern[nl-1].b2:=(bchar_label+lk_offset)div 65536;
+ lig_kern[nl-1].b3:=(bchar_label+lk_offset)mod 65536;
+ end
+ end
+
+@ @<Insert all labels...@>=
+label_ptr:=0; label_table[0].rr:=-1; {sentinel}
+for c:=bc to ec do if char_tag[c]=lig_tag then begin
+ sort_ptr:=label_ptr; {there's a hole at position |sort_ptr+1|}
+ while label_table[sort_ptr].rr>char_remainder[c] do begin
+ label_table[sort_ptr+1]:=label_table[sort_ptr];
+ decr(sort_ptr); {move the hole}
+ end;
+ label_table[sort_ptr+1].cc:=c;
+ label_table[sort_ptr+1].rr:=char_remainder[c];
+ incr(label_ptr);
+ end
+
+@ @<Find the minimum |lk_offset| and adjust all remainders@>=
+begin sort_ptr:=label_ptr; {the largest unallocated label}
+if ofm_level=-1 then begin
+ if label_table[sort_ptr].rr+lk_offset > 255 then begin
+ lk_offset:=0; extra_loc_needed:=false; {location 0 can do double duty}
+ repeat char_remainder[label_table[sort_ptr].cc]:=lk_offset;
+ while label_table[sort_ptr-1].rr=label_table[sort_ptr].rr do begin
+ decr(sort_ptr); char_remainder[label_table[sort_ptr].cc]:=lk_offset;
+ end;
+ incr(lk_offset); decr(sort_ptr);
+ until lk_offset+label_table[sort_ptr].rr<256;
+ {N.B.: |lk_offset=256| satisfies this when |sort_ptr=0|}
+ end;
+ end
+else begin
+ if label_table[sort_ptr].rr+lk_offset > 65535 then begin
+ lk_offset:=0; extra_loc_needed:=false; {location 0 can do double duty}
+ repeat char_remainder[label_table[sort_ptr].cc]:=lk_offset;
+ while label_table[sort_ptr-1].rr=label_table[sort_ptr].rr do begin
+ decr(sort_ptr); char_remainder[label_table[sort_ptr].cc]:=lk_offset;
+ end;
+ incr(lk_offset); decr(sort_ptr);
+ until lk_offset+label_table[sort_ptr].rr<65536;
+ {N.B.: |lk_offset=65536| satisfies this when |sort_ptr=0|}
+ end;
+ end;
+if lk_offset>0 then while sort_ptr>0 do begin
+ char_remainder[label_table[sort_ptr].cc]:=
+ char_remainder[label_table[sort_ptr].cc]+lk_offset;
+ decr(sort_ptr);
+ end;
+end
+
+@ @<Output the ligature/kern program@>=
+if ofm_level=-1 then begin
+ if extra_loc_needed then begin {|lk_offset=1|}
+ out(255); out(bchar); out(0); out(0);
+ end
+ else for sort_ptr:=1 to lk_offset do begin {output the redirection specs}
+ t:=label_table[label_ptr].rr;
+ if bchar<256 then begin
+ out(255); out(bchar);
+ end
+ else begin
+ out(254); out(0);
+ end;
+ out_size(t+lk_offset);
+ repeat decr(label_ptr); until label_table[label_ptr].rr<t;
+ end;
+ if nl>0 then for lig_ptr:=0 to nl-1 do begin
+ out(lig_kern[lig_ptr].b0);
+ out(lig_kern[lig_ptr].b1);
+ out(lig_kern[lig_ptr].b2);
+ out(lig_kern[lig_ptr].b3);
+ end;
+ if nk>0 then for krn_ptr:=0 to nk-1 do out_scaled(kern[krn_ptr])
+ end
+else begin
+ if extra_loc_needed then {|lk_offset=1|} begin
+ out_size(255); out_size(bchar); out_size(0); out_size(0);
+ end
+ else
+ for sort_ptr:=1 to lk_offset do {output the redirection specs} begin
+ t:=label_table[label_ptr].rr;
+ if bchar<xmax_char then begin
+ out_size(255); out_size(bchar);
+ end
+ else begin
+ out_size(254); out_size(0);
+ end;
+ out_size((t+lk_offset) div 256);
+ out_size((t+lk_offset) mod 256);
+ repeat decr(label_ptr); until label_table[label_ptr].rr<t;
+ end;
+ if nl>0 then for lig_ptr:=0 to nl-1 do begin
+ out_size(lig_kern[lig_ptr].b0);
+ out_size(lig_kern[lig_ptr].b1);
+ out_size(lig_kern[lig_ptr].b2);
+ out_size(lig_kern[lig_ptr].b3);
+ end;
+ if nk>0 then for krn_ptr:=0 to nk-1 do out_scaled(kern[krn_ptr])
+ end
+
+@ @<Output the extensible character recipes@>=
+if ofm_level=-1 then begin
+ if ne>0 then for c:=0 to ne-1 do begin
+ out(exten[c].b0);
+ out(exten[c].b1);
+ out(exten[c].b2);
+ out(exten[c].b3);
+ end;
+ end
+else begin
+ if ne>0 then for c:=0 to ne-1 do begin
+ out_size(exten[c].b0);
+ out_size(exten[c].b1);
+ out_size(exten[c].b2);
+ out_size(exten[c].b3);
+ end;
+ end;
+
+@ For our grand finale, we wind everything up by outputting the parameters.
+
+@<Output the parameters@>=
+for par_ptr:=1 to np do begin
+ if par_ptr=1 then
+ @<Output the slant (|param[1]|) without scaling@>
+ else out_scaled(param[par_ptr]);
+ end
+
+@ @<Output the slant...@>=
+begin if param[1]<0 then begin
+ param[1]:=param[1]+@'10000000000;
+ out((param[1] div @'100000000)+256-64);
+ end
+else out(param[1] div @'100000000);
+out((param[1] div @'200000) mod 256);
+out((param[1] div 256) mod 256);
+out(param[1] mod 256);
+end
+
+@* The main program.
+The routines sketched out so far need to be packaged into separate procedures,
+on some systems, since some \PASCAL\ compilers place a strict limit on the
+size of a routine. The packaging is done here in an attempt to avoid some
+system-dependent changes.
+
+@p procedure param_enter;
+begin @<Enter the parameter names@>;
+end;
+@#
+procedure name_enter; {enter all names and their equivalents}
+begin @<Enter all of the names...@>;
+param_enter;
+end;
+@#
+procedure read_lig_kern;
+var @!krn_ptr:0..max_kerns; {an index into |kern|}
+@!c:integer; {runs through all character codes}
+begin @<Read ligature/kern list@>;
+end;
+@#
+procedure output_new_information_ofm;
+begin @<Output the new information for OFM files@>;
+end;
+@#
+procedure compute_new_header_ofm;
+begin @<Compute the new header information for OFM files@>;
+end;
+@#
+procedure finish_extended_font;
+begin @<Finish up the extended font stuff@>;
+end;
+@#
+procedure output_subfile_sizes;
+begin @<Output the subfile sizes@>;
+end;
+@#
+procedure compute_subfile_sizes;
+begin @<Compute the subfile sizes@>;
+end;
+@#
+procedure output_character_info;
+begin @<Output the character info@>;
+end;
+@#
+procedure read_font_rule_list;
+begin @<Read font rule list@>;
+end;
+@#
+procedure read_font_glue_list;
+begin @<Read font glue list@>;
+end;
+@#
+procedure read_font_penalty_list;
+begin @<Read font penalty list@>;
+end;
+@#
+procedure read_font_mvalue_list;
+begin @<Read font mvalue list@>;
+end;
+@#
+procedure read_font_fvalue_list;
+begin @<Read font fvalue list@>;
+end;
+@#
+procedure read_font_ivalue_list;
+begin @<Read font ivalue list@>;
+end;
+@#
+procedure read_repeated_character_info;
+begin @<Read repeated character info@>;
+end;
+@#
+procedure read_lig_kern_command;
+begin @<Read a ligature/kern command@>;
+end;
+@#
+procedure read_character_property;
+begin @<Read a character property@>;
+end;
+@#
+procedure read_char_info;
+begin @<Read character info list@>;
+end;
+@#
+procedure read_input;
+var @!c:integer; {header or parameter index}
+begin @<Read all the input@>;
+end;
+@#
+procedure corr_and_check;
+var @!c:integer; {runs through all character codes}
+@!hh:0..hash_size; {an index into |hash_list|}
+@!lig_ptr:0..max_lig_steps; {an index into |lig_kern|}
+@!g:byte; {a character generated by the current character |c|}
+begin @<Correct and check the information@>
+end;
+
+@ Here is where \.{PLtoTF} begins and ends.
+
+@p begin initialize;@/
+name_enter;@/
+read_input; print('.');@/
+corr_and_check;@/
+@<Do the font metric output@>;
+end.
+
+@ @<Global...@>=
+@!ofm_level:integer;
+
+@ @<Set init...@>=
+ofm_level:=-1; {Suppose that it is a TFM file}
+
+@ @<Read OFM level code@>=
+begin
+ofm_level:=get_integer;
+if (ofm_level<0) or (ofm_level>1) then begin
+ flush_error('OFMLEVEL must be 0 or 1 -- 1 assumed');
+ ofm_level:=1;
+ end;
+end
+
+@ @<Read font direction code@>=
+begin
+font_dir:=-1;
+repeat get_next;
+until cur_char<>" ";
+case cur_char of
+ "T": begin get_next;
+ if cur_char="L" then font_dir:=0
+ else if cur_char="R" then font_dir:=2;
+ end;
+ "B": begin get_next;
+ if cur_char="L" then font_dir:=4
+ else if cur_char="R" then font_dir:=6;
+ end;
+ "R": begin get_next;
+ if cur_char="T" then font_dir:=5
+ else if cur_char="B" then font_dir:=7;
+ end;
+ "L": begin get_next;
+ if cur_char="T" then font_dir:=1
+ else if cur_char="B" then font_dir:=3;
+ end;
+ end;
+while cur_char<>")" do get_next;
+if font_dir = -1 then begin
+ flush_error('FONTDIR must be valid direction, -- TR assumed');
+ font_dir:=0;
+ end;
+end
+
+@ @<Read natural font direction code@>=
+begin
+font_dir:=-1;
+repeat get_next;
+until cur_char<>" ";
+case cur_char of
+ "T": begin get_next;
+ if cur_char="L" then font_dir:=8
+ else if cur_char="R" then font_dir:=10;
+ end;
+ "B": begin get_next;
+ if cur_char="L" then font_dir:=12
+ else if cur_char="R" then font_dir:=14;
+ end;
+ "R": begin get_next;
+ if cur_char="T" then font_dir:=13
+ else if cur_char="B" then font_dir:=15;
+ end;
+ "L": begin get_next;
+ if cur_char="T" then font_dir:=9
+ else if cur_char="B" then font_dir:=11;
+ end;
+ end;
+while cur_char<>")" do get_next;
+if font_dir = -1 then begin
+ flush_error('NFONTDIR must be valid direction, -- TR assumed');
+ font_dir:=8;
+ end;
+end
+
+@
+Here are some general values for the various entries.
+They can all be changed.
+
+@d arrays_per_kind==20
+@d entries_per_array==200
+
+@ @<Constants...@>=
+@!rule_arrays=arrays_per_kind;
+@!rule_entries=entries_per_array;
+
+@ @<Types...@>=
+rule_array_type=0..rule_arrays;
+rule_entry_type=0..rule_entries;
+rule_node=
+record
+ rn_width: fix_word;
+ rn_height: fix_word;
+ rn_depth: fix_word;
+end;
+
+@ @<Global...@>=
+@!rules:array[rule_array_type,rule_entry_type] of rule_node;
+@!npr:array[rule_array_type] of integer;
+@!nkr:integer;
+@!nkcr:integer;
+@!nwr:integer;
+@!r_array:integer;
+@!r_number:integer;
+
+@ @<Set init...@>=
+for r_array := 0 to rule_arrays do begin
+ npr[r_array]:=0;
+ @<Null out the rule@>;
+ end;
+nkr:=-1;
+nkcr:=-1;
+
+@ @<Read font rule list@>=
+begin
+if tables_read then
+ flush_error('All parameter tables must appear before character info');
+r_array:=get_integer;
+if r_array>rule_arrays then
+ flush_error('This FONTRULE table index is too big for my present size')
+else if r_array<0 then
+ flush_error('This FONTRULE index is negative')
+else begin
+ if r_array>nkr then nkr:=r_array;
+ while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a rule@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read a rule@>=
+begin
+get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if cur_code<>rule_code then
+ flush_error('This property name doesn''t belong in a RULE list')
+else begin
+ r_number:=get_integer;
+ if r_number>rule_entries then
+ flush_error('This RULE index is too big for my present table size')
+ else if r_number<0 then
+ flush_error('This RULE index is negative')
+ else begin
+ while npr[r_array]<r_number do begin
+ incr(npr[r_array]); @<Null out the rule@>;
+ end;
+ @<Read all of a rule's values@>;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Null out the rule@>=
+begin
+rules[r_array,npr[r_array]].rn_width:=0;
+rules[r_array,npr[r_array]].rn_depth:=0;
+rules[r_array,npr[r_array]].rn_height:=0;
+end
+
+@ @<Read all of a rule's values@>=
+begin
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a single rule value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a single rule value@>=
+begin
+get_name;
+case cur_code of
+ rule_width_code:
+ rules[r_array,r_number].rn_width:=get_fix;
+ rule_height_code:
+ rules[r_array,r_number].rn_height:=get_fix;
+ rule_depth_code:
+ rules[r_array,r_number].rn_depth:=get_fix;
+ end;
+finish_the_property;
+end
+
+@ @<Header information for rules@>=
+begin
+nwr:=0;
+for r_array := 0 to nkr do begin
+ incr(npr[r_array]);
+ nwr := nwr + 3*npr[r_array];
+ end;
+incr(nkr);
+end
+
+@ @<Output the rules@>=
+begin
+for r_array:= 0 to nkr-1 do
+ for r_number:=0 to npr[r_array]-1 do begin
+ out_scaled(rules[r_array,r_number].rn_width);
+ out_scaled(rules[r_array,r_number].rn_height);
+ out_scaled(rules[r_array,r_number].rn_depth);
+ end;
+end
+
+@ @<Output the rule headers@>=
+begin
+for r_array:= 0 to nkr-1 do begin
+ out_integer(npr[r_array]);
+ end;
+end
+
+@ @<Constants...@>=
+@!glue_arrays=arrays_per_kind;
+@!glue_entries=entries_per_array;
+
+@
+@d t_normal==0
+@d t_aleaders==1
+@d t_cleaders==2
+@d t_xleaders==3
+
+@d o_unit==0
+@d o_fi==1
+@d o_fil==2
+@d o_fill==3
+@d o_filll==4
+
+@d g_space==0
+@d g_rule==1
+@d g_char==2
+
+@<Types...@>=
+glue_array_type=0..glue_arrays;
+glue_entry_type=0..glue_entries;
+glue_node=
+record
+ gn_width: fix_word;
+ gn_stretch: fix_word;
+ gn_shrink: fix_word;
+ gn_type: integer;
+ gn_arg_type: g_space..g_char;
+ gn_stretch_order: integer;
+ gn_shrink_order: integer;
+ gn_argument: integer;
+end;
+
+@ @<Global...@>=
+@!glues:array[glue_array_type,glue_entry_type] of glue_node;
+@!npg:array[glue_array_type] of integer;
+@!nkg:integer;
+@!nkcg:integer;
+@!nwg:integer;
+@!g_array:integer;
+@!g_byte:integer;
+@!g_number:integer;
+
+@ @<Set init...@>=
+for g_array := 0 to glue_arrays do
+begin
+ npg[g_array]:=0;
+ @<Null out the glue@>;
+end;
+nkg:=-1;
+nkcg:=-1;
+
+@ @<Read font glue list@>=
+begin
+if tables_read then
+ flush_error('All parameter tables must appear before character info');
+g_array:=get_integer;
+if g_array>glue_arrays then
+ flush_error('This FONTGLUE table index is too big for my present size')
+else if g_array<0 then
+ flush_error('This FONTGLUE index is negative')
+else begin
+ if g_array>nkg then nkg:=g_array;
+ while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a glue@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read a glue@>=
+begin
+get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if cur_code<>glue_code then
+ flush_error('This property name doesn''t belong in a GLUE list')
+else begin
+ g_number:=get_integer;
+ if g_number>glue_entries then
+ flush_error('This GLUE index is too big for my present table size')
+ else if g_number<0 then
+ flush_error('This GLUE index is negative')
+ else begin
+ while npg[g_array]<g_number do begin
+ incr(npg[g_array]); @<Null out the glue@>;
+ end;
+ @<Read all of a glue's values@>;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Null out the glue@>=
+begin
+glues[g_array,npg[g_array]].gn_width:=0;
+glues[g_array,npg[g_array]].gn_stretch:=0;
+glues[g_array,npg[g_array]].gn_shrink:=0;
+glues[g_array,npg[g_array]].gn_type:=0;
+glues[g_array,npg[g_array]].gn_arg_type:=0;
+glues[g_array,npg[g_array]].gn_stretch_order:=0;
+glues[g_array,npg[g_array]].gn_shrink_order:=0;
+glues[g_array,npg[g_array]].gn_argument:=0;
+end
+
+@ @<Read all of a glue's values@>=
+begin
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a single glue value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a single glue value@>=
+begin
+get_name;
+case cur_code of
+ glue_width_code:
+ glues[g_array,g_number].gn_width:=get_fix;
+ glue_stretch_code:
+ glues[g_array,g_number].gn_stretch:=get_fix;
+ glue_shrink_code:
+ glues[g_array,g_number].gn_shrink:=get_fix;
+ glue_type_code: begin
+ g_byte:=get_integer;
+ if (g_byte<0) or (g_byte>3) then begin
+ g_byte:=0;
+ end;
+ glues[g_array,g_number].gn_type:=g_byte;
+ end;
+ glue_stretch_order_code: begin
+ g_byte:=get_integer;
+ if (g_byte<0) or (g_byte>4) then begin
+ g_byte:=0;
+ end;
+ glues[g_array,g_number].gn_stretch_order:=g_byte;
+ end;
+ glue_shrink_order_code: begin
+ g_byte:=get_integer;
+ if (g_byte<0) or (g_byte>4) then begin
+ g_byte:=0;
+ end;
+ glues[g_array,g_number].gn_shrink_order:=g_byte;
+ end;
+ glue_char_code: begin
+ glues[g_array,g_number].gn_argument:=get_integer;
+ glues[g_array,g_number].gn_arg_type:=g_char;
+ end;
+ glue_rule_code: begin
+ glues[g_array,g_number].gn_argument:=get_integer;
+ glues[g_array,g_number].gn_arg_type:=g_rule;
+ end;
+ end;
+finish_the_property;
+end
+
+@ @<Header information for glues@>=
+begin
+nwg:=0;
+for g_array := 0 to nkg do begin
+ incr(npg[g_array]);
+ nwg := nwg + 4*npg[g_array];
+ end;
+incr(nkg);
+end
+
+@ @<Output the glues@>=
+begin
+for g_array:= 0 to nkg-1 do
+ for g_number:=0 to npg[g_array]-1 do begin
+ g_byte:=glues[g_array,g_number].gn_type*16+
+ glues[g_array,g_number].gn_arg_type;
+ out(g_byte);
+ g_byte:=glues[g_array,g_number].gn_stretch_order*16+
+ glues[g_array,g_number].gn_shrink_order;
+ out(g_byte);
+ g_byte:=glues[g_array,g_number].gn_argument div 256;
+ out(g_byte);
+ g_byte:=glues[g_array,g_number].gn_argument mod 256;
+ out(g_byte);
+ out_scaled(glues[g_array,g_number].gn_width);
+ out_scaled(glues[g_array,g_number].gn_stretch);
+ out_scaled(glues[g_array,g_number].gn_shrink);
+ end;
+end
+
+@ @<Output the glue headers@>=
+begin
+for g_array:= 0 to nkg-1 do begin
+ out_integer(npg[g_array]);
+ end;
+end
+
+@ @<Constants...@>=
+@!penalty_arrays=arrays_per_kind;
+@!penalty_entries=entries_per_array;
+
+@ @<Types...@>=
+penalty_array_type=0..penalty_arrays;
+penalty_entry_type=0..penalty_entries;
+penalty_node=
+record
+ pn_val: integer;
+end;
+
+@ @<Global...@>=
+@!penalties:array[penalty_array_type,penalty_entry_type] of penalty_node;
+@!npp:array[penalty_array_type] of integer;
+@!nkp:integer;
+@!nkcp:integer;
+@!nwp:integer;
+@!p_array:integer;
+@!p_number:integer;
+
+@ @<Set init...@>=
+for p_array := 0 to penalty_arrays do begin
+ npp[p_array]:=0;
+ @<Null out the penalty@>;
+ end;
+nkp:=-1;
+nkcp:=-1;
+
+@ @<Read font penalty list@>=
+begin
+if tables_read then
+ flush_error('All parameter tables must appear before character info');
+p_array:=get_integer;
+if p_array>penalty_arrays then
+ flush_error('This FONTPENALTY table index is too big for my present size')
+else if p_array<0 then
+ flush_error('This FONTPENALTY index is negative')
+else begin
+ if p_array>nkp then nkp:=p_array;
+ while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a penalty@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read a penalty@>=
+begin
+get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if cur_code<>penalty_code then
+ flush_error('This property name doesn''t belong in a PENALTY list')
+else begin
+ p_number:=get_integer;
+ if p_number>penalty_entries then
+ flush_error('This PENALTY index is too big for my present table size')
+ else if p_number<0 then
+ flush_error('This PENALTY index is negative')
+ else begin
+ while npp[p_array]<p_number do begin
+ incr(npp[p_array]); @<Null out the penalty@>;
+ end;
+ @<Read all of a penalty's values@>;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Null out the penalty@>=
+begin
+penalties[p_array,npp[p_array]].pn_val:=0;
+end
+
+@ @<Read all of a penalty's values@>=
+begin
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a single penalty value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a single penalty value@>=
+begin
+get_name;
+case cur_code of
+ penalty_val_code:
+ penalties[p_array,p_number].pn_val:=get_integer;
+ end;
+finish_the_property;
+end
+
+@ @<Header information for penalties@>=
+begin
+nwp:=0;
+for p_array := 0 to nkp do begin
+ incr(npp[p_array]);
+ nwp := nwp + npp[p_array];
+ end;
+incr(nkp);
+end
+
+@ @<Output the penalties@>=
+begin
+for p_array:= 0 to nkp-1 do
+ for p_number:=0 to npp[p_array]-1 do begin
+ out_integer(penalties[p_array,p_number].pn_val);
+ end;
+end
+
+@ @<Output the penalty headers@>=
+begin
+for p_array:= 0 to nkp-1 do begin
+ out_integer(npp[p_array]);
+ end;
+end
+
+@ @<Constants...@>=
+@!mvalue_arrays=arrays_per_kind;
+@!mvalue_entries=entries_per_array;
+
+@ @<Types...@>=
+mvalue_array_type=0..mvalue_arrays;
+mvalue_entry_type=0..mvalue_entries;
+mvalue_node=
+record
+ fn_val: fix_word;
+end;
+
+@ @<Global...@>=
+@!mvalues:array[mvalue_array_type,mvalue_entry_type] of mvalue_node;
+@!npm:array[mvalue_array_type] of integer;
+@!nkm:integer;
+@!nkcm:integer;
+@!nwm:integer;
+@!m_array:integer;
+@!m_number:integer;
+
+@ @<Set init...@>=
+for m_array := 0 to mvalue_arrays do begin
+ npm[m_array]:=0;
+ @<Null out the mvalue@>;
+ end;
+nkm:=-1;
+nkcm:=-1;
+
+@ @<Read font mvalue list@>=
+begin
+if tables_read then
+ flush_error('All parameter tables must appear before character info');
+m_array:=get_integer;
+if m_array>mvalue_arrays then
+ flush_error('This FONTMVALUE table index is too big for my present size')
+else if m_array<0 then
+ flush_error('This FONTMVALUE index is negative')
+else begin
+ if m_array>nkm then nkm:=m_array;
+ while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read an mvalue@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read an mvalue@>=
+begin
+get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if cur_code<>mvalue_code then
+ flush_error('This property name doesn''t belong in an MVALUE list')
+else begin
+ m_number:=get_integer;
+ if m_number>mvalue_entries then
+ flush_error('This MVALUE index is too big for my present table size')
+ else if m_number<0 then
+ flush_error('This MVALUE index is negative')
+ else begin
+ while npm[m_array]<m_number do begin
+ incr(npm[m_array]); @<Null out the mvalue@>;
+ end;
+ @<Read all of an mvalue's values@>;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Null out the mvalue@>=
+begin
+mvalues[m_array,npm[m_array]].fn_val:=0;
+end
+
+@ @<Read all of an mvalue's values@>=
+begin
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a single mvalue value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a single mvalue value@>=
+begin
+get_name;
+case cur_code of
+ mvalue_val_code:
+ mvalues[m_array,m_number].fn_val:=get_fix;
+ end;
+finish_the_property;
+end
+
+@ @<Header information for mvalues@>=
+begin
+nwm:=0;
+for m_array := 0 to nkm do begin
+ incr(npm[m_array]);
+ nwm := nwm + npm[m_array];
+ end;
+incr(nkm);
+end
+
+@ @<Output the mvalues@>=
+begin
+for m_array:= 0 to nkm-1 do
+ for m_number:=0 to npm[m_array]-1 do begin
+ out_scaled(mvalues[m_array,m_number].fn_val);
+ end;
+end
+
+@ @<Output the mvalue headers@>=
+begin
+for m_array:= 0 to nkm-1 do begin
+ out_integer(npm[m_array]);
+ end;
+end
+
+@ @<Constants...@>=
+@!fvalue_arrays=arrays_per_kind;
+@!fvalue_entries=entries_per_array;
+
+@ @<Types...@>=
+fvalue_array_type=0..fvalue_arrays;
+fvalue_entry_type=0..fvalue_entries;
+fvalue_node=
+record
+ fn_val: fix_word;
+end;
+
+@ @<Global...@>=
+@!fvalues:array[fvalue_array_type,fvalue_entry_type] of fvalue_node;
+@!npf:array[fvalue_array_type] of integer;
+@!nkf:integer;
+@!nkcf:integer;
+@!nwf:integer;
+@!f_array:integer;
+@!f_number:integer;
+
+@ @<Set init...@>=
+for f_array := 0 to fvalue_arrays do begin
+ npf[f_array]:=0;
+ @<Null out the fvalue@>;
+ end;
+nkf:=-1;
+nkcf:=-1;
+
+@ @<Read font fvalue list@>=
+begin
+if tables_read then
+ flush_error('All parameter tables must appear before character info');
+f_array:=get_integer;
+if f_array>fvalue_arrays then
+ flush_error('This FONTFVALUE table index is too big for my present size')
+else if f_array<0 then
+ flush_error('This FONTFVALUE index is negative')
+else begin
+ if f_array>nkf then nkf:=f_array;
+ while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read an fvalue@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read an fvalue@>=
+begin
+get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if cur_code<>fvalue_code then
+ flush_error('This property name doesn''t belong in an FVALUE list')
+else begin
+ f_number:=get_integer;
+ if f_number>fvalue_entries then
+ flush_error('This FVALUE index is too big for my present table size')
+ else if f_number<0 then
+ flush_error('This FVALUE index is negative')
+ else begin
+ while npf[f_array]<f_number do begin
+ incr(npf[f_array]); @<Null out the fvalue@>;
+ end;
+ @<Read all of an fvalue's values@>;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Null out the fvalue@>=
+begin
+fvalues[f_array,npf[f_array]].fn_val:=0;
+end
+
+@ @<Read all of an fvalue's values@>=
+begin
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a single fvalue value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a single fvalue value@>=
+begin
+get_name;
+case cur_code of
+ fvalue_val_code:
+ fvalues[f_array,f_number].fn_val:=get_fix;
+ end;
+finish_the_property;
+end
+
+@ @<Header information for fvalues@>=
+begin
+nwf:=0;
+for f_array := 0 to nkf do begin
+ incr(npf[f_array]);
+ nwf := nwf + npf[f_array];
+ end;
+incr(nkf);
+end
+
+@ @<Output the fvalues@>=
+begin
+for f_array:= 0 to nkf-1 do
+ for f_number:=0 to npf[f_array]-1 do begin
+ out_scaled(fvalues[f_array,f_number].fn_val);
+ end;
+end
+
+@ @<Output the fvalue headers@>=
+begin
+for f_array:= 0 to nkf-1 do begin
+ out_integer(npf[f_array]);
+ end;
+end
+
+@ @<Constants...@>=
+@!ivalue_arrays=arrays_per_kind;
+@!ivalue_entries=entries_per_array;
+
+@ @<Types...@>=
+ivalue_array_type=0..ivalue_arrays;
+ivalue_entry_type=0..ivalue_entries;
+ivalue_node=
+record
+ in_val: integer;
+end;
+
+@ @<Global...@>=
+@!ivalues:array[ivalue_array_type,ivalue_entry_type] of ivalue_node;
+@!npi:array[ivalue_array_type] of integer;
+@!font_i_array:boolean;
+@!nki:integer;
+@!nkci:integer;
+@!nwi:integer;
+@!i_array:integer;
+@!i_number:integer;
+
+@ @<Set init...@>=
+for i_array := 0 to ivalue_arrays do begin
+ npi[i_array]:=0;
+ @<Null out the ivalue@>;
+ end;
+nki:=-1;
+nkci:=-1;
+
+@ @<Read font ivalue list@>=
+begin
+if tables_read then
+ flush_error('All parameter tables must appear before character info');
+i_array:=get_integer;
+if i_array>ivalue_arrays then
+ flush_error('This FONTIVALUE table index is too big for my present size')
+else if i_array<0 then
+ flush_error('This FONTIVALUE index is negative')
+else begin
+ if i_array>nki then nki:=i_array;
+ while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read an ivalue@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read an ivalue@>=
+begin
+get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if cur_code<>ivalue_code then
+ flush_error('This property name doesn''t belong in an IVALUE list')
+else begin
+ i_number:=get_integer;
+ if i_number>ivalue_entries then
+ flush_error('This IVALUE index is too big for my present table size')
+ else if i_number<0 then
+ flush_error('This IVALUE index is negative')
+ else begin
+ while npi[i_array]<i_number do begin
+ incr(npi[i_array]); @<Null out the ivalue@>;
+ end;
+ @<Read all of an ivalue's values@>;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Null out the ivalue@>=
+begin
+ivalues[i_array,npi[i_array]].in_val:=0;
+end
+
+@ @<Read all of an ivalue's values@>=
+begin
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a single ivalue value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a single ivalue value@>=
+begin
+get_name;
+case cur_code of
+ ivalue_val_code:
+ ivalues[i_array,i_number].in_val:=get_integer;
+ end;
+finish_the_property;
+end
+
+@ @<Header information for ivalues@>=
+begin
+nwi:=0;
+for i_array := 0 to nki do begin
+ incr(npi[i_array]);
+ nwi := nwi + npi[i_array];
+ end;
+incr(nki);
+end
+
+@ @<Output the ivalues@>=
+begin
+for i_array:= 0 to nki-1 do
+ for i_number:=0 to npi[i_array]-1 do begin
+ out_integer(ivalues[i_array,i_number].in_val);
+ end;
+end
+
+@ @<Output the ivalue headers@>=
+begin
+for i_array:= 0 to nki-1 do begin
+ out_integer(npi[i_array]);
+ end;
+end
+
+@ @<Compute the new header information for OFM files@>=
+begin
+@<Header information for ivalues@>;
+@<Header information for fvalues@>;
+@<Header information for mvalues@>;
+@<Header information for rules@>;
+@<Header information for glues@>;
+@<Header information for penalties@>;
+end
+
+@ @<Output the new information for OFM files@>=
+begin
+@<Output the ivalue headers@>;
+@<Output the fvalue headers@>;
+@<Output the mvalue headers@>;
+@<Output the rule headers@>;
+@<Output the glue headers@>;
+@<Output the penalty headers@>;
+@<Output the ivalues@>;
+@<Output the fvalues@>;
+@<Output the rules@>;
+@<Output the glues@>;
+@<Output the penalties@>;
+end
+
+@* System-dependent changes.
+This section should be replaced, if necessary, by changes to the program
+that are necessary to make \.{PLtoTF} work at a particular installation.
+It is usually best to design your change file so that all changes to
+previous sections preserve the section numbering; then everybody's version
+will be consistent with the printed program. More extensive changes,
+which introduce new sections, can be inserted here; then only the index
+itself will get a new section number.
+@^system dependencies@>
+
+@* Index.
+Pointers to error messages appear here together with the section numbers
+where each ident\-i\-fier is used.
diff --git a/Build/source/texk/web2c/omegaware/ovf2ovp.ch b/Build/source/texk/web2c/omegaware/ovf2ovp.ch
new file mode 100644
index 00000000000..167509717ac
--- /dev/null
+++ b/Build/source/texk/web2c/omegaware/ovf2ovp.ch
@@ -0,0 +1,610 @@
+%
+% This file is part of the Omega project, which
+% is based in the web2c distribution of TeX.
+%
+% Copyright (c) 1994--1998 John Plaice and Yannis Haralambous
+% applies only to the changes to the original vftovp.ch.
+%
+% vftovp.ch for C compilation with web2c.
+% Written by kb@cs.umb.edu.
+% This file is in the public domain.
+
+@x [0] WEAVE: print changes only.
+\pageno=\contentspagenumber \advance\pageno by 1
+@y
+\pageno=\contentspagenumber \advance\pageno by 1
+%\let\maybe=\iffalse
+%\def\title{VF$\,$\lowercase{to}$\,$VP changes for C}
+@z
+
+@x still [2] Set up for path reading.
+procedure initialize; {this procedure gets things started properly}
+ var @!k:integer; {all-purpose index for initialization}
+ begin print_ln(banner);@/
+@y
+@<Define |parse_arguments|@>
+procedure initialize; {this procedure gets things started properly}
+ var @!k:integer; {all-purpose index for initialization}
+ begin
+ kpse_set_progname (argv[0]);
+ kpse_init_prog ('VFTOVP', 0, nil, nil);
+ parse_arguments;
+@z
+
+% [4] No name_length.
+% Also, AIX defines `class' in <math.h>, so let's take this opportunity to
+% define that away.
+@x
+@<Constants...@>=
+@y
+@d class == class_var
+@<Constants...@>=
+@z
+
+@x
+@!name_length=50; {a file name shouldn't be longer than this}
+@y
+@z
+
+@x [11] Open the files.
+@ On some systems you may have to do something special to read a
+packed file of bytes. For example, the following code didn't work
+when it was first tried at Stanford, because packed files have to be
+opened with a special switch setting on the \PASCAL\ that was used.
+@^system dependencies@>
+
+@<Set init...@>=
+reset(tfm_file); reset(vf_file);
+@y
+@ We don't have to do anything special to read a packed file of bytes,
+but we do want to use environment variables to find the input files.
+@^system dependencies@>
+
+@<Set init...@>=
+{See comments at |kpse_find_vf| in \.{kpathsea/tex-file.h} for why we
+ don't use it.}
+vf_file := kpse_open_file (vf_name, kpse_ovf_format);
+tfm_file := kpse_open_file (tfm_name, kpse_ofm_format);
+
+if verbose then begin
+ print (banner);
+ print_ln (version_string);
+end;
+@z
+
+@x [21] Open VPL file.
+@!vpl_file:text;
+
+@ @<Set init...@>=
+rewrite(vpl_file);
+@y
+@!vpl_file:text;
+
+@ If an explicit filename isn't given, we write to |stdout|.
+
+@<Set init...@>=
+if optind + 3 > argc then begin
+ vpl_file := stdout;
+end else begin
+ vpl_name := extend_filename (cmdline (optind + 2), 'ovp');
+ rewrite (vpl_file, vpl_name);
+end;
+@z
+
+% [24] `index' is not a good choice of identifier in C.
+@x
+@<Types...@>=
+@!index=0..tfm_size; {address of a byte in |tfm|}
+@y
+@d index == index_type
+
+@<Types...@>=
+@!index=0..tfm_size; {address of a byte in |tfm|}
+@z
+
+% [24] abort() should cause a bad exit code.
+@x
+@d abort(#)==begin print_ln(#);
+ print_ln('Sorry, but I can''t go on; are you sure this is a OFM?');
+ goto final_end;
+ end
+@y
+@d abort(#)==begin print_ln(#);
+ write_ln(stderr, 'Sorry, but I can''t go on; are you sure this is a OFM?');
+ uexit(1);
+ end
+@z
+
+% [31] Ditto for vf_abort.
+@x
+@d vf_abort(#)==begin
+ print_ln(#);
+ print_ln('Sorry, but I can''t go on; are you sure this is a OVF?');
+ goto final_end;
+ end
+@y
+@d vf_abort(#)==begin
+ write_ln(stderr, #);
+ write_ln(stderr, 'Sorry, but I can''t go on; are you sure this is a OVF?');
+ uexit(1);
+ end
+@z
+
+@x [32] Be quiet if not -verbose.
+for k:=0 to vf_ptr-1 do print(xchr[vf[k]]);
+print_ln(' '); reg_count:=0;
+@y
+if verbose then begin
+ for k:=0 to vf_ptr-1 do print(xchr[vf[k]]);
+ print_ln(' ');
+end;
+reg_count:=0;
+@z
+
+@x [35] Be quiet if not -verbose.
+@<Print the name of the local font@>;
+@y
+if verbose then begin
+ @<Print the name of the local font@>;
+end;
+@z
+
+@x [36] Output of real numbers.
+print_ln(' at ',(((vf[k]*256+vf[k+1])*256+vf[k+2])/@'4000000)*real_dsize:2:2,
+ 'pt')
+@y
+print(' at ');
+print_real((((vf[k]*256+vf[k+1])*256+vf[k+2])/@'4000000)*real_dsize, 2, 2);
+print_ln('pt')
+@z
+
+@x [37] No arbitrary max on cur_name.
+@!cur_name:packed array[1..name_length] of char; {external name,
+ with no lower case letters}
+@y
+@!cur_name:^char; {external tfm name}
+@z
+
+@x [39] Open another TFM file.
+reset(tfm_file,cur_name);
+@^system dependencies@>
+if eof(tfm_file) then
+ print_ln('---not loaded, font metric file can''t be opened!')
+@.font metric file can\'t be opened@>
+else begin font_bc:=0; font_ec:=65536; {will cause error if not modified soon}
+@y
+tfm_file := kpse_open_file (cur_name, kpse_ofm_format);
+@^system dependencies@>
+if eof(tfm_file) then
+ print_ln('---not loaded, font metric file can''t be opened!')
+@.font metric file can\'t be opened@>
+else begin font_bc:=0; font_ec:=65536; {will cause error if not modified soon}
+@z
+
+@x [40] Be quiet if not -verbose.
+ print_ln('Check sum in OVF file being replaced by font metric check sum');
+@y
+ if verbose then
+ print_ln('Check sum in OVF file being replaced by font metric check sum');
+@z
+
+@x [42] Remove initialization of now-defunct array.
+@ @<Set init...@>=
+default_directory:=default_directory_name;
+@y
+@ (No initialization to be done. Keep this module to preserve numbering.)
+@z
+
+@x [44] Don't append `.tfm' here, and keep lowercase.
+for k:=1 to name_length do cur_name[k]:=' ';
+if a=0 then begin
+ for k:=1 to default_directory_name_length do
+ cur_name[k]:=default_directory[k];
+ r:=default_directory_name_length;
+ end
+else r:=0;
+for k:=font_start[font_ptr]+14 to vf_ptr-1 do begin
+ incr(r);
+ if r+4>name_length then vf_abort('Font name too long for me!');
+@.Font name too long for me@>
+ if (vf[k]>="a")and(vf[k]<="z") then
+ cur_name[r]:=xchr[vf[k]-@'40]
+ else cur_name[r]:=xchr[vf[k]];
+ end;
+cur_name[r+1]:='.'; cur_name[r+2]:='T'; cur_name[r+3]:='F'; cur_name[r+4]:='M'
+@y
+@ The string |cur_name| is supposed to be set to the external name of the
+\.{TFM} file for the current font. We do not impose an arbitrary limit
+on the filename length.
+@^system dependencies@>
+
+@d name_start == (font_start[font_ptr] + 14)
+@d name_end == vf_ptr
+
+@<Move font name into the |cur_name| string@>=
+r := name_end - name_start;
+cur_name := xmalloc (r + 1);
+{|strncpy| might be faster, but it's probably a good idea to keep the
+ |xchr| translation.}
+for k := name_start to name_end do begin
+ cur_name[k - name_start] := xchr[vf[k]];
+end;
+cur_name[r] := 0; {Append null byte since this is C.}
+@z
+
+@x [49] Change strings to C char pointers, so we can initialize them.
+@!ASCII_04,@!ASCII_10,@!ASCII_14,HEX: packed array [1..32] of char;
+ {strings for output in the user's external character set}
+@!xchr:packed array [0..255] of char;
+@!MBL_string,@!RI_string,@!RCE_string:packed array [1..3] of char;
+ {handy string constants for |face| codes}
+@y
+@!ASCII_04,@!ASCII_10,@!ASCII_14,HEX: c_string;
+ {strings for output in the user's external character set}
+@!ASCII_all: packed array[0..256] of char;
+@!xchr:packed array [0..255] of char;
+@!MBL_string,@!RI_string,@!RCE_string: c_string;
+ {handy string constants for |face| codes}
+@z
+
+@x [50] The Pascal strings are indexed starting at 1, so we pad with a blank.
+ASCII_04:=' !"#$%&''()*+,-./0123456789:;<=>?';@/
+ASCII_10:='@@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_';@/
+ASCII_14:='`abcdefghijklmnopqrstuvwxyz{|}~?';@/
+HEX:='0123456789ABCDEF';@/
+@y
+ASCII_04:=' !"#$%&''()*+,-./0123456789:;<=>?';@/
+ASCII_10:=' @@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_';@/
+ASCII_14:=' `abcdefghijklmnopqrstuvwxyz{|}~?';@/
+HEX:=' 0123456789ABCDEF';@/
+strcpy (ASCII_all, ASCII_04);
+strcat (ASCII_all, '@@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_');
+strcat (ASCII_all, '`abcdefghijklmnopqrstuvwxyz{|}~');@/
+@z
+
+@x
+MBL_string:='MBL'; RI_string:='RI '; RCE_string:='RCE';
+@y
+MBL_string:=' MBL'; RI_string:=' RI '; RCE_string:=' RCE';
+@z
+
+% [60] How we output the character code depends on |charcode_format|.
+@x
+begin if font_type>vanilla then
+ out_hex_char(c)
+else if (c>="0")and(c<="9") then
+ out(' C ',c-"0":1)
+else if (c>="A")and(c<="Z") then
+ out(' C ',ASCII_10[c-"A"+2])
+else if (c>="a")and(c<="z") then
+ out(' C ',ASCII_14[c-"a"+2])
+else out_hex_char(c);
+end;
+@y
+begin if (font_type > vanilla) or (charcode_format = charcode_hex) then
+ out_hex_char(c)
+else if (charcode_format = charcode_ascii) and (c > " ") and (c <= "~")
+ and (c <> "(") and (c <> ")") then
+ out(' C ', ASCII_all[c - " " + 1])
+{default case, use hex}
+else out_hex_char(c);
+end;
+@z
+
+% [61] Don't output the face code as an integer.
+@x
+ out(MBL_string[1+(b mod 3)]);
+ out(RI_string[1+s]);
+ out(RCE_string[1+(b div 3)]);
+@y
+ put_byte(MBL_string[1+(b mod 3)], vpl_file);
+ put_byte(RI_string[1+s], vpl_file);
+ put_byte(RCE_string[1+(b div 3)], vpl_file);
+@z
+
+@x [62] Force 32-bit constant arithmetic for 16-bit machines.
+f:=((tfm[k+1] mod 16)*@'400+tfm[k+2])*@'400+tfm[k+3];
+@y
+f:=((tfm[k+1] mod 16)*intcast(@'400)+tfm[k+2])*@'400+tfm[k+3];
+@z
+
+% [100] No progress reports unless verbose.
+@x
+ incr(chars_on_line);
+ end;
+ for cprime:=c to (c+no_repeats(c)) do begin
+ print_hex(cprime); {progress report}
+@y
+ if verbose then incr(chars_on_line);
+ end;
+ for cprime:=c to (c+no_repeats(c)) do begin
+ if verbose then print_hex(cprime); {progress report}
+@z
+
+% [112] No nonlocal goto's.
+@x
+ print_ln('Sorry, I haven''t room for so many ligature/kern pairs!');
+@.Sorry, I haven't room...@>
+ goto final_end;
+@y
+ write_ln(stderr, 'Sorry, I haven''t room for so many ligature/kern pairs!');
+@.Sorry, I haven't room...@>
+ uexit(1);
+@z
+
+% still [112] We can't have a function named `f', because of the local
+% variable in do_simple_things. It would be better, but harder, to fix
+% web2c.
+@x
+ r:=f(r,(hash[r]-1)div xmax_char,(hash[r]-1)mod xmax_char);
+@y
+ r:=lig_f(r,(hash[r]-1)div xmax_char,(hash[r]-1)mod xmax_char);
+@z
+
+@x
+ out('(INFINITE LIGATURE LOOP MUST BE BROKEN!)'); goto final_end;
+@y
+ out('(INFINITE LIGATURE LOOP MUST BE BROKEN!)'); uexit(1);
+@z
+
+% [116] web2c can't handle these mutually recursive procedures.
+% But let's do a fake definition of f here, so that it gets into web2c's
+% symbol table...
+@x
+@p function f(@!h,@!x,@!y:index):index; forward;@t\2@>
+ {compute $f$ for arguments known to be in |hash[h]|}
+@y
+@p
+ifdef('notdef')
+function lig_f(@!h,@!x,@!y:index):index; begin end;@t\2@>
+ {compute $f$ for arguments known to be in |hash[h]|}
+endif('notdef')
+@z
+
+@x
+else eval:=f(h,x,y);
+@y
+else eval:=lig_f(h,x,y);
+@z
+
+@x [117] ... and then really define it now.
+@p function f;
+@y
+@p function lig_f(@!h,@!x,@!y:index):index;
+@z
+
+@x
+f:=lig_z[h];
+@y
+lig_f:=lig_z[h];
+@z
+
+@x [124] Some cc's can't handle 136 case labels.
+ o:=vf[vf_ptr]; incr(vf_ptr);
+ case o of
+ @<Cases of \.{DVI} instructions that can appear in character packets@>@;
+@y
+ o:=vf[vf_ptr]; incr(vf_ptr);
+ if ((o<=set_char_0+127))or
+ ((o>=set1)and(o<=set1+3))or((o>=put1)and(o<=put1+3)) then
+begin if o>=set1 then
+ if o>=put1 then c:=get_bytes(o-put1+1,false)
+ else c:=get_bytes(o-set1+1,false)
+ else c:=o;
+ if f=font_ptr then
+ bad_vf('Character ',c:1,' in undeclared font will be ignored')
+@.Character...will be ignored@>
+ else begin vf[font_start[f+1]-1]:=c; {store |c| in the ``hole'' we left}
+ k:=font_chars[f];@+while vf[k]<>c do incr(k);
+ if k=font_start[f+1]-1 then
+ bad_vf('Character ',c:1,' in font ',f:1,' will be ignored')
+ else begin if o>=put1 then out('(PUSH)');
+ left; out('SETCHAR'); out_char(c);
+ if o>=put1 then out(')(POP');
+ right;
+ end;
+ end;
+ end
+ else case o of
+ @<Cases of \.{DVI} instructions that can appear in character packets@>
+@z
+
+@x [125] `signed' is a reserved word in ANSI C.
+@p function get_bytes(@!k:integer;@!signed:boolean):integer;
+@y
+@d signed == is_signed {|signed| is a reserved word in ANSI C}
+@p function get_bytes(@!k:integer;@!signed:boolean):integer;
+@z
+
+@x [126] No nonlocal goto's.
+ begin print_ln('Stack overflow!'); goto final_end;
+@y
+ begin write_ln(stderr, 'Stack overflow!'); uexit(1);
+@z
+
+@x [129] This code moved outside the case statement
+@ Before we typeset a character we make sure that it exists.
+
+@<Cases...@>=
+sixty_four_cases(set_char_0),sixty_four_cases(set_char_0+64),
+ four_cases(set1),four_cases(put1):begin if o>=set1 then
+ if o>=put1 then c:=get_bytes(o-put1+1,false)
+ else c:=get_bytes(o-set1+1,false)
+ else c:=o;
+ if f=font_ptr then
+ bad_vf('Character ',c:1,' in undeclared font will be ignored')
+@.Character...will be ignored@>
+ else begin vf[font_start[f+1]-1]:=c; {store |c| in the ``hole'' we left}
+ k:=font_chars[f];@+while vf[k]<>c do incr(k);
+ if k=font_start[f+1]-1 then
+ bad_vf('Character ',c:1,' in font ',f:1,' will be ignored')
+ else begin if o>=put1 then out('(PUSH)');
+ left; out('SETCHAR'); out_char(c);
+ if o>=put1 then out(')(POP');
+ right;
+ end;
+ end;
+ end;
+@y
+@ Before we typeset a character we make sure that it exists.
+(These cases moved outside the case statement, section 124.)
+@z
+
+@x [134] No final newline unless verbose.
+print_ln('.');@/
+@y
+if verbose then print_ln('.');@/
+@z
+
+@x [135] System-dependent changes.
+This section should be replaced, if necessary, by changes to the program
+that are necessary to make \.{VFtoVP} work at a particular installation.
+It is usually best to design your change file so that all changes to
+previous sections preserve the section numbering; then everybody's version
+will be consistent with the printed program. More extensive changes,
+which introduce new sections, can be inserted here; then only the index
+itself will get a new section number.
+@^system dependencies@>
+@y
+Parse a Unix-style command line.
+
+@d argument_is (#) == (strcmp (long_options[option_index].name, #) = 0)
+
+@<Define |parse_arguments|@> =
+procedure parse_arguments;
+const n_options = 4; {Pascal won't count array lengths for us.}
+var @!long_options: array[0..n_options] of getopt_struct;
+ @!getopt_return_val: integer;
+ @!option_index: c_int_type;
+ @!current_option: 0..n_options;
+begin
+ @<Initialize the option variables@>;
+ @<Define the option table@>;
+ repeat
+ getopt_return_val := getopt_long_only (argc, argv, '', long_options,
+ address_of (option_index));
+ if getopt_return_val = -1 then begin
+ {End of arguments; we exit the loop below.} ;
+ end else if getopt_return_val = "?" then begin
+ usage ('ovf2ovp');
+
+ end else if argument_is ('help') then begin
+ usage_help (OVF2OVP_HELP, nil);
+
+ end else if argument_is ('version') then begin
+ print_version_and_exit
+ (banner, nil, 'J. Plaice, Y. Haralambous, D.E. Knuth', nil);
+
+ end else if argument_is ('charcode-format') then begin
+ if strcmp (optarg, 'ascii') = 0 then
+ charcode_format := charcode_ascii
+ else if strcmp (optarg, 'hex') = 0 then
+ charcode_format := charcode_hex
+ else
+ write_ln (stderr, 'Bad character code format', optarg, '.');
+
+ end; {Else it was a flag; |getopt| has already done the assignment.}
+ until getopt_return_val = -1;
+
+ {Now |optind| is the index of first non-option on the command line.
+ We must have one two three remaining arguments.}
+ if (optind + 1 <> argc) and (optind + 2 <> argc)
+ and (optind + 3 <> argc) then begin
+ write_ln (stderr, 'ovf2ovp: Need one to three file arguments.');
+ usage ('ovf2ovp');
+ end;
+
+ vf_name := cmdline (optind);
+ if optind + 2 <= argc then begin
+ tfm_name := cmdline (optind + 1); {The user specified the TFM name.}
+ end else begin
+ {User did not specify TFM name; default it from the VF name.}
+ tfm_name := basename_change_suffix (vf_name, '.ovf', '.ofm');
+ end;
+end;
+
+@ Here are the options we allow. The first is one of the standard GNU options.
+@.-help@>
+
+@<Define the option...@> =
+current_option := 0;
+long_options[current_option].name := 'help';
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+incr (current_option);
+
+@ Another of the standard options.
+@.-version@>
+
+@<Define the option...@> =
+long_options[current_option].name := 'version';
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+incr (current_option);
+
+@ Print progress information?
+@.-verbose@>
+
+@<Define the option...@> =
+long_options[current_option].name := 'verbose';
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := address_of (verbose);
+long_options[current_option].val := 1;
+incr (current_option);
+
+@ The global variable |verbose| determines whether or not we print
+progress information.
+
+@<Glob...@> =
+@!verbose: c_int_type;
+
+@ It starts off |false|.
+
+@<Initialize the option...@> =
+verbose := false;
+
+@ Here is an option to change how we output character codes.
+@.-charcode-format@>
+
+@<Define the option...@> =
+long_options[current_option].name := 'charcode-format';
+long_options[current_option].has_arg := 1;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+incr (current_option);
+
+@ We use an ``enumerated'' type to store the information.
+
+@<Type...@> =
+@!charcode_format_type = charcode_ascii..charcode_default;
+
+@
+@<Const...@> =
+@!charcode_ascii = 0;
+@!charcode_hex = 1;
+@!charcode_default = 2;
+
+@
+@<Global...@> =
+@!charcode_format: charcode_format_type;
+
+@ It starts off as the default, which is hex for OFM2OPL.
+
+@<Initialize the option...@> =
+charcode_format := charcode_default;
+
+@ An element with all zeros always ends the list.
+
+@<Define the option...@> =
+long_options[current_option].name := 0;
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+
+@ Global filenames.
+
+@<Global...@> =
+@!vf_name, @!tfm_name, @!vpl_name:c_string;
+@z
diff --git a/Build/source/texk/web2c/omegaware/ovf2ovp.web b/Build/source/texk/web2c/omegaware/ovf2ovp.web
new file mode 100644
index 00000000000..2e2e374dca5
--- /dev/null
+++ b/Build/source/texk/web2c/omegaware/ovf2ovp.web
@@ -0,0 +1,3138 @@
+%
+% This file is part of the Omega project, which
+% is based in the web2c distribution of TeX.
+%
+% Copyright (c) 1994--2000 John Plaice and Yannis Haralambous
+% applies only to the changes to the original vftovp.web.
+%
+% This program by D. E. Knuth is not copyrighted and can be used freely.
+% Version 1 was implemented in December 1989.
+% Version 1.1 fixed problems of strict Pascal (April 1990).
+% Version 1.2 fixed various bugs found by Peter Breitenlohner (September 1990).
+
+% Here is TeX material that gets inserted after \input webmac
+\def\hang{\hangindent 3em\indent\ignorespaces}
+\font\ninerm=cmr9
+\let\mc=\ninerm % medium caps for names like SAIL
+\def\PASCAL{Pascal}
+
+\def\(#1){} % this is used to make section names sort themselves better
+\def\9#1{} % this is used for sort keys in the index
+
+\def\title{OVF2OVP}
+\def\contentspagenumber{101}
+\def\topofcontents{\null
+ \def\titlepage{F} % include headline on the contents page
+ \def\rheader{\mainfont\hfil \contentspagenumber}
+ \vfill
+ \centerline{\titlefont The {\ttitlefont OVF2OVP} processor}
+ \vskip 15pt
+ \centerline{(Version 1.11, February 2000)}
+ \vfill}
+\def\botofcontents{\vfill
+ \centerline{\hsize 5in\baselineskip9pt
+ \vbox{\ninerm\noindent
+ The preparation of this program
+ was supported in part by the National Science
+ Foundation and by the System Development Foundation. `\TeX' is a
+ trademark of the American Mathematical Society.}}}
+\pageno=\contentspagenumber \advance\pageno by 1
+
+@* Introduction.
+The \.{VFtoVP} utility program converts a virtual font (``\.{VF}'') file
+and its associated \TeX\ font metric (``\.{TFM}'')
+file into an equivalent virtual-property-list (``\.{VPL}'') file. It also
+makes a thorough check of the given files, using algorithms that are
+essentially the same as those used by
+\.{DVI} device drivers and by \TeX. Thus if \TeX\ or a \.{DVI} driver
+complains that a \.{TFM} or \.{VF}
+file is ``bad,'' this program will pinpoint the source or sources of
+badness. A \.{VPL} file output by this program can be edited with
+a normal text editor, and the result can be converted back to \.{VF} and \.{TFM}
+format using the companion program \.{VPtoVF}.
+
+\indent\.{VFtoVP} is an extended version of the program \.{TFtoPL}, which
+is part of the standard \TeX ware library.
+The idea of a virtual font was inspired by the work of David R. Fuchs
+@^Fuchs, David Raymond@>
+who designed a similar set of conventions in 1984 while developing a
+device driver for ArborText, Inc. He wrote a somewhat similar program
+called \.{AMFtoXPL}.
+
+The |banner| string defined here should be changed whenever \.{VFtoVP}
+gets modified.
+
+@d banner=='This is OVF2OVP, Version 1.11' {printed when the program starts}
+
+@ This program is written entirely in standard \PASCAL, except that
+it occasionally has lower case letters in strings that are output.
+Such letters can be converted to upper case if necessary. The input is read
+from |vf_file| and |tfm_file|; the output is written on |vpl_file|.
+Error messages and
+other remarks are written on the |output| file, which the user may
+choose to assign to the terminal if the system permits it.
+@^system dependencies@>
+
+The term |print| is used instead of |write| when this program writes on
+the |output| file, so that all such output can be easily deflected.
+
+@d print(#)==write(#)
+@d print_ln(#)==write_ln(#)
+
+@p program OVF2OVP(@!vf_file,@!tfm_file,@!vpl_file,@!output);
+label @<Labels in the outer block@>@/
+const @<Constants in the outer block@>@/
+type @<Types in the outer block@>@/
+var @<Globals in the outer block@>@/
+procedure initialize; {this procedure gets things started properly}
+ var @!k:integer; {all-purpose index for initialization}
+ begin print_ln(banner);@/
+ @<Set initial values@>@/
+ end;
+
+@ If the program has to stop prematurely, it goes to the
+`|final_end|'.
+
+@d final_end=9999 {label for the end of it all}
+
+@<Labels...@>=final_end;
+
+@ The following parameters can be changed at compile time to extend or
+reduce \.{VFtoVP}'s capacity.
+
+@<Constants...@>=
+@!tfm_size=2000000; {maximum length of |tfm| data, in bytes}
+@!vf_size=600000; {maximum length of |vf| data, in bytes}
+@!max_fonts=300; {maximum number of local fonts in the |vf| file}
+@!lig_size=800000; {maximum length of |lig_kern| program, in words}
+@!hash_size=130003; {preferably a prime number, a bit larger than the number
+ of character pairs in lig/kern steps}
+@!hash_mult=16007; {another prime}
+@!max_char=65535; {the largest character number in a font}
+@!xmax_char=65536; {|max_char|+1}
+@!xxmax_char=65537;{|max_char|+2}
+@!xmax_label=80001;{must be greater than |max_lig_steps|}
+@!mem_size=40008; {|max_char|*4+8}
+@!name_length=50; {a file name shouldn't be longer than this}
+@!max_stack=50; {maximum depth of \.{DVI} stack in character packets}
+
+@ Here are some macros for common programming idioms.
+
+@d incr(#) == #:=#+1 {increase a variable by unity}
+@d decr(#) == #:=#-1 {decrease a variable by unity}
+@d do_nothing == {empty statement}
+@d exit=10 {go here to leave a procedure}
+@d not_found=45 {go here when you've found nothing}
+@d return==goto exit {terminate a procedure call}
+@f return==nil
+
+@<Types...@>=
+@!byte=0..255; {unsigned eight-bit quantity}
+
+@* Virtual fonts. The idea behind \.{VF} files is that a general
+interface mechanism is needed to switch between the myriad font
+layouts provided by different suppliers of typesetting equipment.
+Without such a mechanism, people must go to great lengths writing
+inscrutable macros whenever they want to use typesetting conventions
+based on one font layout in connection with actual fonts that have
+another layout. This puts an extra burden on the typesetting system,
+interfering with the other things it needs to do (like kerning,
+hyphenation, and ligature formation).
+
+These difficulties go away when we have a ``virtual font,''
+i.e., a font that exists in a logical sense but not a physical sense.
+A typesetting system like \TeX\ can do its job without knowing where the
+actual characters come from; a device driver can then do its job by
+letting a \.{VF} file tell what actual characters correspond to the
+characters \TeX\ imagined were present. The actual characters
+can be shifted and/or magnified and/or combined with other characters
+from many different fonts. A virtual font can even make use of characters
+from virtual fonts, including itself.
+
+Virtual fonts also allow convenient character substitutions for proofreading
+purposes, when fonts designed for one output device are unavailable on another.
+
+@ A \.{VF} file is organized as a stream of 8-bit bytes, using conventions
+borrowed from \.{DVI} and \.{PK} files. Thus, a device driver that knows
+about \.{DVI} and \.{PK} format will already
+contain most of the mechanisms necessary to process \.{VF} files.
+We shall assume that \.{DVI} format is understood; the conventions in the
+\.{DVI} documentation (see, for example, {\sl \TeX: The Program}, part 31)
+are adopted here to define \.{VF} format.
+
+A preamble
+appears at the beginning, followed by a sequence of character definitions,
+followed by a postamble. More precisely, the first byte of every \.{VF} file
+must be the first byte of the following ``preamble command'':
+
+\yskip\hang|pre| 247 |i[1]| |k[1]| |x[k]| |cs[4]| |ds[4]|.
+Here |i| is the identification byte of \.{VF}, currently 202. The string
+|x| is merely a comment, usually indicating the source of the \.{VF} file.
+Parameters |cs| and |ds| are respectively the check sum and the design size
+of the virtual font; they should match the first two words in the header of
+the \.{TFM} file, as described below.
+
+\yskip
+After the |pre| command, the preamble continues with font definitions;
+every font needed to specify ``actual'' characters in later
+\\{set\_char} commands is defined here. The font definitions are
+exactly the same in \.{VF} files as they are in \.{DVI} files, except
+that the scaled size |s| is relative and the design size |d| is absolute:
+
+\yskip\hang|fnt_def1| 243 |k[1]| |c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|.
+Define font |k|, where |0<=k<256|.
+
+\yskip\hang|@!fnt_def2| 244 |k[2]| |c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|.
+Define font |k|, where |0<=k<65536|.
+
+\yskip\hang|@!fnt_def3| 245 |k[3]| |c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|.
+Define font |k|, where |0<=k<@t$2^{24}$@>|.
+
+\yskip\hang|@!fnt_def4| 246 |k[4]| |c[4]| |s[4]| |d[4]| |a[1]| |l[1]| |n[a+l]|.
+Define font |k|, where |@t$-2^{31}$@><=k<@t$2^{31}$@>|.
+
+\yskip\noindent
+These font numbers |k| are ``local''; they have no relation to font numbers
+defined in the \.{DVI} file that uses this virtual font. The dimension~|s|,
+which represents the scaled size of the local font being defined,
+is a |fix_word| relative to the design size of the virtual font.
+Thus if the local font is to be used at the same size
+as the design size of the virtual font itself, |s| will be the
+integer value $2^{20}$. The value of |s| must be positive and less than
+$2^{24}$ (thus less than 16 when considered as a |fix_word|).
+The dimension~|d| is a |fix_word| in units of printer's points; hence it
+is identical to the design size found in the corresponding \.{TFM} file.
+
+@d id_byte=202
+
+@<Glob...@>=
+@!vf_file:packed file of byte;
+
+@ The preamble is followed by zero or more character packets, where each
+character packet begins with a byte that is $<243$. Character packets have
+two formats, one long and one short:
+
+\yskip\hang|long_char| 242 |pl[4]| |cc[4]| |tfm[4]| |dvi[pl]|. This long form
+specifies a virtual character in the general case.
+
+\yskip\hang|short_char0..short_char241|
+|pl[1]| |cc[1]| |tfm[3]| |dvi[pl]|. This short form specifies a
+virtual character in the common case
+when |0<=pl<242| and |0<=cc<256| and $0\le|tfm|<2^{24}$.
+
+\yskip\noindent
+Here |pl| denotes the packet length following the |tfm| value; |cc| is
+the character code; and |tfm| is the character width copied from the
+\.{TFM} file for this virtual font. There should be at most one character
+packet having any given |cc| code.
+
+The |dvi| bytes are a sequence of complete \.{DVI} commands, properly
+nested with respect to |push| and |pop|. All \.{DVI} operations are
+permitted except |bop|, |eop|, and commands with opcodes |>=243|.
+Font selection commands (|fnt_num0| through |fnt4|) must refer to fonts
+defined in the preamble.
+
+Dimensions that appear in the \.{DVI} instructions are analogous to
+|fix_word| quantities; i.e., they are integer multiples of $2^{-20}$ times
+the design size of the virtual font. For example, if the virtual font
+has design size $10\,$pt, the \.{DVI} command to move down $5\,$pt
+would be a \\{down} instruction with parameter $2^{19}$. The virtual font
+itself might be used at a different size, say $12\,$pt; then that
+\\{down} instruction would move down $6\,$pt instead. Each dimension
+must be less than $2^{24}$ in absolute value.
+
+Device drivers processing \.{VF} files treat the sequences of |dvi| bytes
+as subroutines or macros, implicitly enclosing them with |push| and |pop|.
+Each subroutine begins with |w=x=y=z=0|, and with current font~|f| the
+number of the first-defined in the preamble (undefined if there's no
+such font). After the |dvi| commands have been
+performed, the |h| and~|v| position registers of \.{DVI} format and the
+current font~|f| are restored to their former values;
+then, if the subroutine has been invoked by a \\{set\_char} or \\{set}
+command, |h|~is increased by the \.{TFM} width
+(properly scaled)---just as if a simple character had been typeset.
+
+@d long_char=242 {\.{VF} command for general character packet}
+@d set_char_0=0 {\.{DVI} command to typeset character 0 and move right}
+@d set1=128 {typeset a character and move right}
+@d set_rule=132 {typeset a rule and move right}
+@d put1=133 {typeset a character}
+@d put_rule=137 {typeset a rule}
+@d nop=138 {no operation}
+@d push=141 {save the current positions}
+@d pop=142 {restore previous positions}
+@d right1=143 {move right}
+@d w0=147 {move right by |w|}
+@d w1=148 {move right and set |w|}
+@d x0=152 {move right by |x|}
+@d x1=153 {move right and set |x|}
+@d down1=157 {move down}
+@d y0=161 {move down by |y|}
+@d y1=162 {move down and set |y|}
+@d z0=166 {move down by |z|}
+@d z1=167 {move down and set |z|}
+@d fnt_num_0=171 {set current font to 0}
+@d fnt1=235 {set current font}
+@d xxx1=239 {extension to \.{DVI} primitives}
+@d xxx4=242 {potentially long extension to \.{DVI} primitives}
+@d fnt_def1=243 {define the meaning of a font number}
+@d pre=247 {preamble}
+@d post=248 {postamble beginning}
+@d improper_DVI_for_VF==139,140,243,244,245,246,247,248,249,250,251,252,
+ 253,254,255
+
+@ The character packets are followed by a trivial postamble, consisting of
+one or more bytes all equal to |post| (248). The total number of bytes
+in the file should be a multiple of~4.
+
+@* Font metric data.
+The idea behind \.{TFM} files is that typesetting routines like \TeX\
+need a compact way to store the relevant information about several
+dozen fonts, and computer centers need a compact way to store the
+relevant information about several hundred fonts. \.{TFM} files are
+compact, and most of the information they contain is highly relevant,
+so they provide a solution to the problem.
+
+The information in a \.{TFM} file appears in a sequence of 8-bit bytes.
+Since the number of bytes is always a multiple of 4, we could
+also regard the file as a sequence of 32-bit words; but \TeX\ uses the
+byte interpretation, and so does \.{VFtoVP}. Note that the bytes
+are considered to be unsigned numbers.
+
+@<Glob...@>=
+@!tfm_file:packed file of byte;
+
+@ On some systems you may have to do something special to read a
+packed file of bytes. For example, the following code didn't work
+when it was first tried at Stanford, because packed files have to be
+opened with a special switch setting on the \PASCAL\ that was used.
+@^system dependencies@>
+
+@<Set init...@>=
+reset(tfm_file); reset(vf_file);
+
+@ The first 24 bytes (6 words) of a \.{TFM} file contain twelve 16-bit
+integers that give the lengths of the various subsequent portions
+of the file. These twelve integers are, in order:
+$$\vbox{\halign{\hfil#&$\null=\null$#\hfil\cr
+|@!lf|&length of the entire file, in words;\cr
+|@!lh|&length of the header data, in words;\cr
+|@!bc|&smallest character code in the font;\cr
+|@!ec|&largest character code in the font;\cr
+|@!nw|&number of words in the width table;\cr
+|@!nh|&number of words in the height table;\cr
+|@!nd|&number of words in the depth table;\cr
+|@!ni|&number of words in the italic correction table;\cr
+|@!nl|&number of words in the lig/kern table;\cr
+|@!nk|&number of words in the kern table;\cr
+|@!ne|&number of words in the extensible character table;\cr
+|@!np|&number of font parameter words.\cr}}$$
+They are all nonnegative and less than $2^{15}$. We must have |bc-1<=ec<=255|,
+|ne<=256|, and
+$$\hbox{|lf=6+lh+(ec-bc+1)+nw+nh+nd+ni+nl+nk+ne+np|.}$$
+Note that a font may contain as many as 256 characters (if |bc=0| and |ec=255|),
+and as few as 0 characters (if |bc=ec+1|).
+
+Incidentally, when two or more 8-bit bytes are combined to form an integer of
+16 or more bits, the most significant bytes appear first in the file.
+This is called BigEndian order.
+
+@<Glob...@>=
+@!ofm_level,
+@!nco,@!ncw,@!npc,@!nki,@!nwi,@!nkf,@!nwf,@!nkr,@!nwr,@!nkg,@!nwg,@!nkp,@!nwp,
+@!nkm,@!nwm,@!real_lf,
+@!lf,@!lh,@!bc,@!ec,@!nw,@!nh,@!nd,@!ni,@!nl,@!nk,@!ne,@!np,@!font_dir:integer;
+ {subfile sizes}
+@!ofm_on:boolean;
+
+@ @<Set init...@>=
+ofm_on:=false; ofm_level:=-1; lf:=0; lh:=0;
+nco:=0; ncw:=0; npc:=0; bc:=0; ec:=0; nw:=0; nh:=0; nd:=0; ni:=0;
+nl:=0; nk:=0; ne:=0; np:=0;
+nki:=0; nwi:=0; nkf:=0; nwf:=0;
+nkm:=0; nwm:=0; real_lf:=0;
+nkr:=0; nwr:=0; nkg:=0; nwg:=0;
+nkp:=0; nwp:=0; font_dir:=0;
+
+@ The rest of the \.{TFM} file may be regarded as a sequence of ten data
+arrays having the informal specification
+$$\def\arr$[#1]#2${\&{array} $[#1]$ \&{of} #2}
+\vbox{\halign{\hfil\\{#}&$\,:\,$\arr#\hfil\cr
+header&|[0..lh-1]stuff|\cr
+char\_info&|[bc..ec]char_info_word|\cr
+width&|[0..nw-1]fix_word|\cr
+height&|[0..nh-1]fix_word|\cr
+depth&|[0..nd-1]fix_word|\cr
+italic&|[0..ni-1]fix_word|\cr
+lig\_kern&|[0..nl-1]lig_kern_command|\cr
+kern&|[0..nk-1]fix_word|\cr
+exten&|[0..ne-1]extensible_recipe|\cr
+param&|[1..np]fix_word|\cr}}$$
+The most important data type used here is a |@!fix_word|, which is
+a 32-bit representation of a binary fraction. A |fix_word| is a signed
+quantity, with the two's complement of the entire word used to represent
+negation. Of the 32 bits in a |fix_word|, exactly 12 are to the left of the
+binary point; thus, the largest |fix_word| value is $2048-2^{-20}$, and
+the smallest is $-2048$. We will see below, however, that all but one of
+the |fix_word| values will lie between $-16$ and $+16$.
+
+@ The first data array is a block of header information, which contains
+general facts about the font. The header must contain at least two words,
+and for \.{TFM} files to be used with Xerox printing software it must
+contain at least 18 words, allocated as described below. When different
+kinds of devices need to be interfaced, it may be necessary to add further
+words to the header block.
+
+\yskip\hang|header[0]| is a 32-bit check sum that \TeX\ will copy into the
+\.{DVI} output file whenever it uses the font. Later on when the \.{DVI}
+file is printed, possibly on another computer, the actual font that gets
+used is supposed to have a check sum that agrees with the one in the
+\.{TFM} file used by \TeX. In this way, users will be warned about
+potential incompatibilities. (However, if the check sum is zero in either
+the font file or the \.{TFM} file, no check is made.) The actual relation
+between this check sum and the rest of the \.{TFM} file is not important;
+the check sum is simply an identification number with the property that
+incompatible fonts almost always have distinct check sums.
+@^check sum@>
+
+\yskip\hang|header[1]| is a |fix_word| containing the design size of the
+font, in units of \TeX\ points (7227 \TeX\ points = 254 cm). This number
+must be at least 1.0; it is fairly arbitrary, but usually the design size
+is 10.0 for a ``10 point'' font, i.e., a font that was designed to look
+best at a 10-point size, whatever that really means. When a \TeX\ user
+asks for a font `\.{at} $\delta$ \.{pt}', the effect is to override the
+design size and replace it by $\delta$, and to multiply the $x$ and~$y$
+coordinates of the points in the font image by a factor of $\delta$
+divided by the design size. {\sl All other dimensions in the\/\ \.{TFM}
+file are |fix_word|\kern-1pt\ numbers in design-size units.} Thus, for example,
+the value of |param[6]|, one \.{em} or \.{\\quad}, is often the |fix_word|
+value $2^{20}=1.0$, since many fonts have a design size equal to one em.
+The other dimensions must be less than 16 design-size units in absolute
+value; thus, |header[1]| and |param[1]| are the only |fix_word| entries in
+the whole \.{TFM} file whose first byte might be something besides 0 or
+255. @^design size@>
+
+\yskip\hang|header[2..11]|, if present, contains 40 bytes that identify
+the character coding scheme. The first byte, which must be between 0 and
+39, is the number of subsequent ASCII bytes actually relevant in this
+string, which is intended to specify what character-code-to-symbol
+convention is present in the font. Examples are \.{ASCII} for standard
+ASCII, \.{TeX text} for fonts like \.{cmr10} and \.{cmti9}, \.{TeX math
+extension} for \.{cmex10}, \.{XEROX text} for Xerox fonts, \.{GRAPHIC} for
+special-purpose non-alphabetic fonts, \.{UNSPECIFIED} for the default case
+when there is no information. Parentheses should not appear in this name.
+(Such a string is said to be in {\mc BCPL} format.)
+@^coding scheme@>
+
+\yskip\hang|header[12..16]|, if present, contains 20 bytes that name the
+font family (e.g., \.{CMR} or \.{HELVETICA}), in {\mc BCPL} format.
+This field is also known as the ``font identifier.''
+@^family name@>
+@^font identifier@>
+
+\yskip\hang|header[17]|, if present, contains a first byte called the
+|seven_bit_safe_flag|, then two bytes that are ignored, and a fourth byte
+called the |face|. If the value of the fourth byte is less than 18, it has
+the following interpretation as a ``weight, slope, and expansion'': Add 0
+or 2 or 4 (for medium or bold or light) to 0 or 1 (for roman or italic) to
+0 or 6 or 12 (for regular or condensed or extended). For example, 13 is
+0+1+12, so it represents medium italic extended. A three-letter code
+(e.g., \.{MIE}) can be used for such |face| data.
+
+\yskip\hang|header[18..@twhatever@>]| might also be present; the individual
+words are simply called |header[18]|, |header[19]|, etc., at the moment.
+
+@ Next comes the |char_info| array, which contains one |char_info_word|
+per character. Each |char_info_word| contains six fields packed into
+four bytes as follows.
+
+\yskip\hang first byte: |width_index| (8 bits)\par
+\hang second byte: |height_index| (4 bits) times 16, plus |depth_index|
+ (4~bits)\par
+\hang third byte: |italic_index| (6 bits) times 4, plus |tag|
+ (2~bits)\par
+\hang fourth byte: |remainder| (8 bits)\par
+\yskip\noindent
+The actual width of a character is |width[width_index]|, in design-size
+units; this is a device for compressing information, since many characters
+have the same width. Since it is quite common for many characters
+to have the same height, depth, or italic correction, the \.{TFM} format
+imposes a limit of 16 different heights, 16 different depths, and
+64 different italic corrections.
+
+Incidentally, the relation |width[0]=height[0]=depth[0]=italic[0]=0|
+should always hold, so that an index of zero implies a value of zero.
+The |width_index| should never be zero unless the character does
+not exist in the font, since a character is valid if and only if it lies
+between |bc| and |ec| and has a nonzero |width_index|.
+
+@ The |tag| field in a |char_info_word| has four values that explain how to
+interpret the |remainder| field.
+
+\yskip\hang|tag=0| (|no_tag|) means that |remainder| is unused.\par
+\hang|tag=1| (|lig_tag|) means that this character has a ligature/kerning
+program starting at |lig_kern[remainder]|.\par
+\hang|tag=2| (|list_tag|) means that this character is part of a chain of
+characters of ascending sizes, and not the largest in the chain. The
+|remainder| field gives the character code of the next larger character.\par
+\hang|tag=3| (|ext_tag|) means that this character code represents an
+extensible character, i.e., a character that is built up of smaller pieces
+so that it can be made arbitrarily large. The pieces are specified in
+|exten[remainder]|.\par
+
+@d no_tag=0 {vanilla character}
+@d lig_tag=1 {character has a ligature/kerning program}
+@d list_tag=2 {character has a successor in a charlist}
+@d ext_tag=3 {character is extensible}
+
+@ The |lig_kern| array contains instructions in a simple programming language
+that explains what to do for special letter pairs. Each word is a
+|lig_kern_command| of four bytes.
+
+\yskip\hang first byte: |skip_byte|, indicates that this is the final program
+ step if the byte is 128 or more, otherwise the next step is obtained by
+ skipping this number of intervening steps.\par
+\hang second byte: |next_char|, ``if |next_char| follows the current character,
+ then perform the operation and stop, otherwise continue.''\par
+\hang third byte: |op_byte|, indicates a ligature step if less than~128,
+ a kern step otherwise.\par
+\hang fourth byte: |remainder|.\par
+\yskip\noindent
+In a kern step, an
+additional space equal to |kern[256*(op_byte-128)+remainder]| is inserted
+between the current character and |next_char|. This amount is
+often negative, so that the characters are brought closer together
+by kerning; but it might be positive.
+
+There are eight kinds of ligature steps, having |op_byte| codes $4a+2b+c$ where
+$0\le a\le b+c$ and $0\le b,c\le1$. The character whose code is
+|remainder| is inserted between the current character and |next_char|;
+then the current character is deleted if $b=0$, and |next_char| is
+deleted if $c=0$; then we pass over $a$~characters to reach the next
+current character (which may have a ligature/kerning program of its own).
+
+Notice that if $a=0$ and $b=1$, the current character is unchanged; if
+$a=b$ and $c=1$, the current character is changed but the next character is
+unchanged. \.{VFtoVP} will check to see that infinite loops are avoided.
+
+If the very first instruction of the |lig_kern| array has |skip_byte=255|,
+the |next_char| byte is the so-called right boundary character of this font;
+the value of |next_char| need not lie between |bc| and~|ec|.
+If the very last instruction of the |lig_kern| array has |skip_byte=255|,
+there is a special ligature/kerning program for a left boundary character,
+beginning at location |256*op_byte+remainder|.
+The interpretation is that \TeX\ puts implicit boundary characters
+before and after each consecutive string of characters from the same font.
+These implicit characters do not appear in the output, but they can affect
+ligatures and kerning.
+
+If the very first instruction of a character's |lig_kern| program has
+|skip_byte>128|, the program actually begins in location
+|256*op_byte+remainder|. This feature allows access to large |lig_kern|
+arrays, because the first instruction must otherwise
+appear in a location |<=255|.
+
+Any instruction with |skip_byte>128| in the |lig_kern| array must have
+|256*op_byte+remainder<nl|. If such an instruction is encountered during
+normal program execution, it denotes an unconditional halt; no ligature
+command is performed.
+
+@d stop_flag=128 {value indicating `\.{STOP}' in a lig/kern program}
+@d kern_flag=128 {op code for a kern step}
+
+@ Extensible characters are specified by an |extensible_recipe|,
+which consists of four bytes called |top|, |mid|,
+|bot|, and |rep| (in this order). These bytes are the character codes
+of individual pieces used to build up a large symbol.
+If |top|, |mid|, or |bot| are zero,
+they are not present in the built-up result. For example, an extensible
+vertical line is like an extensible bracket, except that the top and
+bottom pieces are missing.
+
+
+@ The final portion of a \.{TFM} file is the |param| array, which is another
+sequence of |fix_word| values.
+
+\yskip\hang|param[1]=@!slant| is the amount of italic slant, which is used
+to help position accents. For example, |slant=.25| means that when you go
+up one unit, you also go .25 units to the right. The |slant| is a pure
+number; it's the only |fix_word| other than the design size itself that is
+not scaled by the design size.
+
+\hang|param[2]=space| is the normal spacing between words in text.
+Note that character |" "| in the font need not have anything to do with
+blank spaces.
+
+\hang|param[3]=space_stretch| is the amount of glue stretching between words.
+
+\hang|param[4]=space_shrink| is the amount of glue shrinking between words.
+
+\hang|param[5]=x_height| is the height of letters for which accents don't
+have to be raised or lowered.
+
+\hang|param[6]=quad| is the size of one em in the font.
+
+\hang|param[7]=extra_space| is the amount added to |param[2]| at the
+ends of sentences.
+
+When the character coding scheme is \.{TeX math symbols}, the font is
+supposed to have 15 additional parameters called |num1|, |num2|, |num3|,
+|denom1|, |denom2|, |sup1|, |sup2|, |sup3|, |sub1|, |sub2|, |supdrop|,
+|subdrop|, |delim1|, |delim2|, and |axis_height|, respectively. When the
+character coding scheme is \.{TeX math extension}, the font is supposed to
+have six additional parameters called |default_rule_thickness| and
+|big_op_spacing1| through |big_op_spacing5|.
+
+@ So that is what \.{TFM} files hold. The next question is, ``What about
+\.{VPL} files?'' A complete answer to that question appears in the
+documentation of the companion program, \.{VPtoVF}, so it will not
+be repeated here. Suffice it to say that a \.{VPL} file is an ordinary
+\PASCAL\ text file, and that the output of \.{VFtoVP} uses only a
+subset of the possible constructions that might appear in a \.{VPL} file.
+Furthermore, hardly anybody really wants to look at the formal
+definition of \.{VPL} format, because it is almost self-explanatory when
+you see an example or two.
+
+@<Glob...@>=
+@!vpl_file:text;
+
+@ @<Set init...@>=
+rewrite(vpl_file);
+
+@* Unpacking the TFM file.
+The first thing \.{VFtoVP} does is read the entire |tfm_file| into an array of
+bytes, |tfm[0..(4*lf-1)]|.
+
+@<Types...@>=
+@!index=0..tfm_size; {address of a byte in |tfm|}
+@!char_type=0..65535;
+@!xchar_type=0..65536;
+@!xxchar_type=0..65537;
+@!xxxchar_type=0..65538;
+
+@
+@<Glob...@>=
+@!tfm:array [-1000..tfm_size] of byte; {the input data all goes here}
+ {the negative addresses avoid range checks for invalid characters}
+@!top_char,@!top_width,@!top_height,@!top_depth,@!top_italic:integer;
+@!start_ptr,@!check_sum,@!design_size,@!scheme,@!family,@!random_word:integer;
+@!header_length,@!char_ptr,@!copies,@!j:integer;
+
+@ The input may, of course, be all screwed up and not a \.{TFM} file
+at all. So we begin cautiously.
+
+@d abort(#)==begin print_ln(#);
+ print_ln('Sorry, but I can''t go on; are you sure this is a OFM?');
+ goto final_end;
+ end
+
+@<Read the whole font metric file@>=
+read(tfm_file,tfm[0]);
+if tfm[0]>127 then abort('The first byte of the input file exceeds 127!');
+@.The first byte...@>
+if eof(tfm_file) then abort('The input file is only one byte long!');
+@.The input...one byte long@>
+read(tfm_file,tfm[1]); lf:=tfm[0]*@'400+tfm[1];
+if lf=0 then begin
+ for i:=2 to 7 do begin
+ if eof(tfm_file)
+ then abort('The input file is too short to designate its length!');
+ read(tfm_file, tfm[i]);
+ end;
+ ofm_on := true; ofm_level := tfm[2]*@"100+tfm[3];
+ if tfm[4]>127 then abort('The fifth byte of the input file exceeds 127!');
+ lf := tfm[4]*@"1000000 + tfm[5]*@"10000 + tfm[6]*@"100 + tfm[7];
+ end
+else begin
+ ofm_on := false;
+ end;
+case ofm_level of
+ -1: begin start_ptr:=2; check_sum:=24; end;
+ 0: begin start_ptr:=8; check_sum:=56; end;
+ 1: begin start_ptr:=8; check_sum:=116; end;
+ end;
+design_size:=check_sum+4;
+scheme:=design_size+4;
+family:=scheme+40;
+random_word:=family+20;
+if lf=0 then
+ abort('The file claims to have length zero, but that''s impossible!');
+@.The file claims...@>
+if 4*lf-1>tfm_size then abort('The file is bigger than I can handle!');
+@.The file is bigger...@>
+for tfm_ptr:=start_ptr to 4*lf-1 do begin
+ if eof(tfm_file) then
+ abort('The file has fewer bytes than it claims!');
+@.The file has fewer bytes...@>
+ read(tfm_file,tfm[tfm_ptr]);
+ end;
+if not eof(tfm_file) then begin
+ print_ln('There''s some extra junk at the end of the OFM file,');
+@.There's some extra junk...@>
+ print_ln('but I''ll proceed as if it weren''t there.');
+ end
+
+@ After the file has been read successfully, we look at the subfile sizes
+to see if they check out.
+
+@d eval_two_bytes(#)==begin if tfm[tfm_ptr]>127 then
+ abort('One of the subfile sizes is negative!');
+@.One of the subfile sizes...@>
+ #:=tfm[tfm_ptr]*@'400+tfm[tfm_ptr+1];
+ tfm_ptr:=tfm_ptr+2;
+ end
+@d eval_four_bytes(#)==begin if tfm[tfm_ptr]>127 then
+ abort('One of the subfile sizes is negative!');
+@.One of the subfile sizes...@>
+ #:=tfm[tfm_ptr]*@"1000000+tfm[tfm_ptr+1]*@"10000+
+ tfm[tfm_ptr+2]*@"100+tfm[tfm_ptr+3];
+ tfm_ptr:=tfm_ptr+4;
+ end
+
+@<Set subfile sizes |lh|, |bc|, \dots, |np|@>=
+begin
+if not ofm_on then begin
+ tfm_ptr:=2;
+ eval_two_bytes(lh);
+ eval_two_bytes(bc);
+ eval_two_bytes(ec);
+ eval_two_bytes(nw);
+ eval_two_bytes(nh);
+ eval_two_bytes(nd);
+ eval_two_bytes(ni);
+ eval_two_bytes(nl);
+ eval_two_bytes(nk);
+ eval_two_bytes(ne);
+ eval_two_bytes(np);
+ ncw:=(ec-bc+1);
+ header_length:=6;
+ top_char:=255;
+ top_width:=255;
+ top_height:=15;
+ top_depth:=15;
+ top_italic:=63;
+ end
+else begin
+ tfm_ptr:=8;
+ eval_four_bytes(lh);
+ eval_four_bytes(bc);
+ eval_four_bytes(ec);
+ eval_four_bytes(nw);
+ eval_four_bytes(nh);
+ eval_four_bytes(nd);
+ eval_four_bytes(ni);
+ eval_four_bytes(nl);
+ eval_four_bytes(nk);
+ eval_four_bytes(ne);
+ eval_four_bytes(np);
+ eval_four_bytes(font_dir);
+ top_char:=65535;
+ top_width:=65535;
+ top_height:=255;
+ top_depth:=255;
+ top_italic:=255;
+ if ofm_level=0 then begin
+ header_length:=14;
+ ncw:=2*(ec-bc+1);
+ end
+ else begin
+ header_length:=29;
+ eval_four_bytes(nco);
+ eval_four_bytes(ncw);
+ eval_four_bytes(npc);
+ eval_four_bytes(nki); {Kinds of font ivalues}
+ eval_four_bytes(nwi); {Words of font ivalues}
+ eval_four_bytes(nkf); {Kinds of font fvalues}
+ eval_four_bytes(nwf); {Words of font fvalues}
+ eval_four_bytes(nkm); {Kinds of font mvalues}
+ eval_four_bytes(nwm); {Words of font mvalues}
+ eval_four_bytes(nkr); {Kinds of font rules}
+ eval_four_bytes(nwr); {Words of font rules}
+ eval_four_bytes(nkg); {Kinds of font glues}
+ eval_four_bytes(nwg); {Words of font glues}
+ eval_four_bytes(nkp); {Kinds of font penalties}
+ eval_four_bytes(nwp); {Words of font penalties}
+ end;
+ end;
+if lf<>(header_length+lh+ncw+nw+nh+nd+ni+2*nl+nk+2*ne+np+
+ nki+nwi+nkf+nwf+nkr+nwr+nkg+nwg+nkp+nwp) then
+ abort('Subfile sizes don''t add up to the stated total!');
+@.Subfile sizes don't add up...@>
+if lh<2 then abort('The header length is only ',lh:1,'!');
+@.The header length...@>
+if (2*nl)>(4*lig_size) then
+ abort('The lig/kern program is longer than I can handle!');
+@.The lig/kern program...@>
+if (bc>ec+1)or(ec>top_char) then abort('The character code range ',
+@.The character code range...@>
+ bc:1,'..',ec:1,'is illegal!');
+if ec>max_char then
+ abort('Character ',ec:1,'is too large. Ask a wizard to enlarge me.');
+if (nw=0)or(nh=0)or(nd=0)or(ni=0) then
+ abort('Incomplete subfiles for character dimensions!');
+@.Incomplete subfiles...@>
+if ne>(top_char+1) then abort('There are ',ne:1,' extensible recipes!');
+@.There are ... recipes@>
+end
+
+@ Once the input data successfully passes these basic checks,
+\.{TFtoPL} believes that it is a \.{TFM} file, and the conversion
+to \.{PL} format will take place. Access to the various subfiles
+is facilitated by computing the following base addresses. For example,
+the |char_info| for character |c| in a \.{TFM} file will start in location
+|4*(char_base+c)| of the |tfm| array.
+
+@<Globals...@>=
+@!ivalues_start,@!fvalues_start,@!mvalues_start,
+@!rules_start,@!glues_start,@!penalties_start:
+integer;
+@!ivalues_base,@!fvalues_base,@!mvalues_base,
+@!rules_base,@!glues_base,@!penalties_base:
+integer;
+@!char_base,@!width_base,@!height_base,@!depth_base,@!italic_base: integer;
+@!lig_kern_base,@!kern_base,@!exten_base,@!param_base:integer;
+ {base addresses for the subfiles}
+@!char_start:array [0..max_char] of integer;
+@!bytes_per_entry:integer;
+
+@ @<Compute the base addresses@>=
+begin
+ivalues_start:=header_length+lh;
+fvalues_start:=ivalues_start+nki;
+mvalues_start:=fvalues_start+nkf;
+rules_start:=mvalues_start+nkm;
+glues_start:=rules_start+nkr;
+penalties_start:=glues_start+nkg;
+ivalues_base:=penalties_start+nkp;
+fvalues_base:=ivalues_base+nwi;
+mvalues_base:=fvalues_base+nwi;
+rules_base:=mvalues_base+nwm;
+glues_base:=rules_base+nwr;
+penalties_base:=glues_base+nwg;
+char_base:=penalties_base+nwp;
+bytes_per_entry:=(12 + 2*npc) div 4 * 4;
+if not ofm_on then begin
+ for i:=bc to ec do begin
+ char_start[i]:=4*char_base+4*(i-bc);
+ end;
+ end
+else if ofm_level=0 then begin
+ for i:=bc to ec do begin
+ char_start[i]:=4*char_base+8*(i-bc);
+ end;
+ end
+else begin
+ char_ptr:=4*char_base;
+ i:=bc;
+ while i<=ec do begin
+ copies:=1+256*tfm[char_ptr+8]+tfm[char_ptr+9];
+ for j:=1 to copies do begin
+ char_start[i]:=char_ptr;
+ i:=i+1;
+ end;
+ char_ptr:=char_ptr + bytes_per_entry;
+ end;
+ if char_ptr<>(4*(char_base+ncw)) then
+ abort('Length of char info table does not correspond to specification');
+ end;
+width_base:=char_base+ncw;
+height_base:=width_base+nw;
+depth_base:=height_base+nh;
+italic_base:=depth_base+nd;
+lig_kern_base:=italic_base+ni;
+kern_base:=lig_kern_base+2*nl;
+exten_base:=kern_base+nk;
+param_base:=exten_base+2*ne-1;
+end
+
+@ Of course we want to define macros that suppress the detail of how the
+font information is actually encoded. Each word will be referred to by
+the |tfm| index of its first byte. For example, if |c| is a character
+code between |bc| and |ec|, then |tfm[char_info(c)]| will be the
+first byte of its |char_info|, i.e., the |width_index|; furthermore
+|width(c)| will point to the |fix_word| for |c|'s width.
+
+@d char_info(#)==char_start[#]
+@d nonexistent(#)==((#<bc)or(#>ec)or(width_index(#)=0))
+@d width(#)==4*(width_base+width_index(#))
+@d height(#)==4*(height_base+height_index(#))
+@d depth(#)==4*(depth_base+depth_index(#))
+@d italic(#)==4*(italic_base+italic_index(#))
+@d kern(#)==4*(kern_base+#) {here \#\ is an index, not a character}
+@d param(#)==4*(param_base+#) {likewise}
+
+@p function width_index(c:char_type):integer;
+begin if not ofm_on then
+ width_index:=tfm[char_info(c)]
+else
+ width_index:=256*tfm[char_info(c)]+tfm[char_info(c)+1];
+end;
+
+function height_index(c:char_type):integer;
+begin if not ofm_on then
+ height_index:=tfm[char_info(c)+1] div 16
+else
+ height_index:=tfm[char_info(c)+2];
+end;
+
+function depth_index(c:char_type):integer;
+begin if not ofm_on then
+ depth_index:=tfm[char_info(c)+1] mod 16
+else
+ depth_index:=tfm[char_info(c)+3];
+end;
+
+function italic_index(c:char_type):integer;
+begin if not ofm_on then
+ italic_index:=tfm[char_info(c)+2] div 4
+else if ofm_level=0 then
+ italic_index:=tfm[char_info(c)+4]*64 + tfm[char_info(c)+5] div 4
+else
+ italic_index:=tfm[char_info(c)+4];
+end;
+
+function tag(c:char_type):integer;
+begin if not ofm_on then
+ tag:=tfm[char_info(c)+2] mod 4
+else
+ tag:=tfm[char_info(c)+5] mod 4;
+end;
+
+procedure set_no_tag(c:char_type);
+begin if not ofm_on then
+ tfm[char_info(c)+2] := (tfm[char_info(c)+2] div 64)*64 + no_tag
+else
+ tfm[char_info(c)+5] := (tfm[char_info(c)+5] div 64)*64 + no_tag;
+end;
+
+function ctag(c:char_type):boolean;
+begin if not (ofm_level=1) then
+ ctag:=false
+else
+ ctag:=tfm[char_info(c)+5] div 4 mod 2;
+end;
+
+procedure set_no_ctag(c:char_type);
+begin if not (ofm_level=1) then
+ tfm[char_info(c)+5] :=
+ tfm[char_info(c)+5] div 8 * 8 + tfm[char_info(c)+5] mod 4;
+end;
+
+function no_repeats(c:char_type):integer;
+begin if ofm_level<=0 then
+ no_repeats:=0
+else
+ no_repeats:=256*tfm[char_info(c)+8]+tfm[char_info(c)+9];
+end;
+
+function char_param(c:char_type; i:integer):integer;
+begin
+ char_param:=256*tfm[char_info(c)+2*i+10]+tfm[char_info(c)+2*i+11];
+end;
+
+function rremainder(c:char_type):integer;
+begin if not ofm_on then
+ rremainder:=tfm[char_info(c)+3]
+else
+ rremainder:=256*tfm[char_info(c)+6]+tfm[char_info(c)+7];
+end;
+
+function lig_step(c:char_type):integer;
+begin if not ofm_on then
+ lig_step:=4*(lig_kern_base+c)
+else
+ lig_step:=4*(lig_kern_base+2*c);
+end;
+
+function exten(c:char_type):integer;
+begin if not ofm_on then
+ exten:=4*(exten_base+rremainder(c))
+else
+ exten:=4*(exten_base+2*rremainder(c));
+end;
+
+function l_skip_byte(c:integer):integer;
+begin if not ofm_on then
+ l_skip_byte:=tfm[c]
+else
+ l_skip_byte:=256*tfm[c]+tfm[c+1];
+end;
+
+procedure set_l_skip_byte(c:integer; newc:integer);
+begin if not ofm_on then
+ tfm[c]:=newc
+else begin
+ tfm[c]:=newc div 256;
+ tfm[c+1]:=newc mod 256
+ end
+end;
+
+function l_next_char(c:integer):integer;
+begin if not ofm_on then
+ l_next_char:=tfm[c+1]
+else
+ l_next_char:=256*tfm[c+2]+tfm[c+3];
+end;
+
+procedure set_l_next_char(c:integer; newc:char_type);
+begin if not ofm_on then
+ tfm[c+1]:=newc
+else begin
+ tfm[c+2]:=newc div 256;
+ tfm[c+3]:=newc mod 256
+ end
+end;
+
+function l_op_byte(c:integer):integer;
+begin if not ofm_on then
+ l_op_byte:=tfm[c+2]
+else
+ l_op_byte:=256*tfm[c+4]+tfm[c+5];
+end;
+
+procedure set_l_op_byte(c:integer; newc:integer);
+begin if not ofm_on then
+ tfm[c+2]:=newc
+else begin
+ tfm[c+2]:=newc div 256;
+ tfm[c+3]:=newc mod 256
+ end
+end;
+
+function l_remainder(c:integer):integer;
+begin if not ofm_on then
+ l_remainder:=tfm[c+3]
+else
+ l_remainder:=256*tfm[c+6]+tfm[c+7];
+end;
+
+procedure set_l_remainder(c:integer; newc:char_type);
+begin if not ofm_on then
+ tfm[c+3]:=newc
+else begin
+ tfm[c+6]:=newc div 256;
+ tfm[c+7]:=newc mod 256
+ end
+end;
+
+@ One of the things we would like to do is take cognizance of fonts whose
+character coding scheme is \.{TeX math symbols} or \.{TeX math extension};
+we will set the |font_type| variable to one of the three choices
+|vanilla|, |mathsy|, or |mathex|.
+
+@d vanilla=0 {not a special scheme}
+@d mathsy=1 {\.{TeX math symbols} scheme}
+@d mathex=2 {\.{TeX math extension} scheme}
+
+@<Glob...@>=
+@!font_type:vanilla..mathex; {is this font special?}
+
+@* Unpacking the VF file.
+Once the \.{TFM} file has been brought into memory, \.{VFtoVP} completes
+the input phase by reading the \.{VF} information into another array of bytes.
+In this case we don't store all the data; we check the redundant bytes
+for consistency with their \.{TFM} counterparts, and we partially decode
+the packets.
+
+@<Glob...@>=
+@!vf:array[0..vf_size] of byte; {the \.{VF} input data goes here}
+@!font_number:array[0..max_fonts] of integer; {local font numbers}
+@!font_start,@!font_chars:array[0..max_fonts] of 0..vf_size; {font info}
+@!font_ptr:0..max_fonts; {number of local fonts}
+@!packet_start,@!packet_end:array[char_type] of 0..vf_size;
+ {character packet boundaries}
+@!packet_found:boolean; {at least one packet has appeared}
+@!temp_byte:byte;@+@!reg_count:integer; {registers for simple calculations}
+@!real_dsize:real; {the design size, converted to floating point}
+@!pl:integer; {packet length}
+@!vf_ptr:0..vf_size; {first unused location in |vf|}
+@!vf_count:integer; {number of bytes read from |vf_file|}
+
+@ Again we cautiously verify that we've been given decent data.
+
+@d read_vf(#)==read(vf_file,#)
+@d vf_abort(#)==begin
+ print_ln(#);
+ print_ln('Sorry, but I can''t go on; are you sure this is a OVF?');
+ goto final_end;
+ end
+
+@<Read the whole \.{VF} file@>=
+read_vf(temp_byte);
+if temp_byte<>pre then vf_abort('The first byte isn''t `pre''!');
+@.The first byte...@>
+@<Read the preamble command@>;
+@<Read and store the font definitions and character packets@>;
+@<Read and verify the postamble@>
+
+@ @d vf_store(#)==@t@>@;@/
+ if vf_ptr+#>=vf_size then vf_abort('The file is bigger than I can handle!');
+@.The file is bigger...@>
+ for k:=vf_ptr to vf_ptr+#-1 do
+ begin if eof(vf_file) then vf_abort('The file ended prematurely!');
+@.The file ended prematurely@>
+ read_vf(vf[k]);
+ end;
+ vf_count:=vf_count+#; vf_ptr:=vf_ptr+#
+
+@<Read the preamble command@>=
+if eof(vf_file) then vf_abort('The input file is only one byte long!');
+@.The input...one byte long@>
+read_vf(temp_byte);
+if temp_byte<>id_byte then vf_abort('Wrong OVF version number in second byte!');
+@.Wrong OVF version...@>
+if eof(vf_file) then vf_abort('The input file is only two bytes long!');
+read_vf(temp_byte); {read the length of introductory comment}
+vf_count:=11; vf_ptr:=0; vf_store(temp_byte);
+for k:=0 to vf_ptr-1 do print(xchr[vf[k]]);
+print_ln(' '); reg_count:=0;
+for k:=0 to 7 do
+ begin if eof(vf_file) then vf_abort('The file ended prematurely!');
+@.The file ended prematurely@>
+ read_vf(temp_byte);
+ if temp_byte=tfm[check_sum+k] then incr(reg_count);
+ end;
+real_dsize:=(((tfm[design_size]*256+tfm[design_size+1])*256+tfm[design_size+2])
+ *256+tfm[design_size+3])/@'4000000;
+if reg_count<>8 then
+ begin print_ln('Check sum and/or design size mismatch.');
+@.Check sum...mismatch@>
+ print_ln('Data from OFM file will be assumed correct.');
+ end
+
+@ @<Read and store the font definitions and character packets@>=
+for k:=0 to 65535 do packet_start[k]:=vf_size;
+font_ptr:=0; packet_found:=false; font_start[0]:=vf_ptr;
+repeat if eof(vf_file) then
+ begin print_ln('File ended without a postamble!'); temp_byte:=post;
+@.File ended without a postamble@>
+ end
+else begin read_vf(temp_byte); incr(vf_count);
+ if temp_byte<>post then
+ if temp_byte>long_char then @<Read and store a font definition@>
+ else @<Read and store a character packet@>;
+ end;
+until temp_byte=post
+
+@ @<Read and verify the postamble@>=
+while (temp_byte=post)and not eof(vf_file) do
+ begin read_vf(temp_byte); incr(vf_count);
+ end;
+if not eof(vf_file) then
+ begin print_ln('There''s some extra junk at the end of the OVF file.');
+@.There's some extra junk...@>
+ print_ln('I''ll proceed as if it weren''t there.');
+ end;
+if vf_count mod 4 <> 0 then
+ print_ln('VF data not a multiple of 4 bytes')
+@.VF data not a multiple of 4 bytes@>
+
+@ @<Read and store a font definition@>=
+begin if packet_found or(temp_byte>=pre) then
+ vf_abort('Illegal byte ',temp_byte:1,' at beginning of character packet!');
+@.Illegal byte...@>
+font_number[font_ptr]:=vf_read(temp_byte-fnt_def1+1);
+if font_ptr=max_fonts then vf_abort('I can''t handle that many fonts!');
+@.I can't handle that many fonts@>
+vf_store(14); {|c[4]| |s[4]| |d[4]| |a[1]| |l[1]|}
+if vf[vf_ptr-10]>0 then {|s| is negative or exceeds $2^{24}-1$}
+ vf_abort('Mapped font size is too big!');
+@.Mapped font size...big@>
+a:=vf[vf_ptr-2]; l:=vf[vf_ptr-1]; vf_store(a+l); {|n[a+l]|}
+@<Print the name of the local font@>;
+@<Read the local font's \.{TFM} file and record the characters it contains@>;
+incr(font_ptr); font_start[font_ptr]:=vf_ptr;
+end
+
+@ The font area may need to be separated from the font name on some systems.
+Here we simply reproduce the font area and font name (with no space
+or punctuation between them).
+@^system dependencies@>
+
+@<Print the name...@>=
+print('MAPFONT ',font_ptr:1,': ');
+for k:=font_start[font_ptr]+14 to vf_ptr-1 do print(xchr[vf[k]]);
+k:=font_start[font_ptr]+5;
+print_ln(' at ',(((vf[k]*256+vf[k+1])*256+vf[k+2])/@'4000000)*real_dsize:2:2,
+ 'pt')
+
+@ Now we must read in another \.{TFM} file. But this time we needn't be so
+careful, because we merely want to discover which characters are present.
+The next few sections of the program are copied pretty much verbatim from
+\.{DVItype}, so that system-dependent modifications can be copied from existing
+software.
+
+It turns out to be convenient to read four bytes at a time, when we are
+inputting from the local \.{TFM} files. The input goes into global variables
+|b0|, |b1|, |b2|, and |b3|, with |b0| getting the first byte and |b3|
+the fourth.
+
+@<Glob...@>=
+@!a:integer; {length of the area/directory spec}
+@!l:integer; {length of the font name proper}
+@!cur_name:packed array[1..name_length] of char; {external name,
+ with no lower case letters}
+@!b0,@!b1,@!b2,@!b3: byte; {four bytes input at once}
+@!font_lh:integer; {header length of current local font}
+@!font_bc,@!font_ec:integer; {character range of current local font}
+@!font_ofm_level,@!font_extra_words:integer;
+@!font_kprime,@!font_j:integer;
+
+@ The |read_tfm_word| procedure sets |b0| through |b3| to the next
+four bytes in the current \.{TFM} file.
+@^system dependencies@>
+
+@d read_tfm(#)==if eof(tfm_file) then #:=0@+else read(tfm_file,#)
+
+@p procedure read_tfm_word;
+begin read_tfm(b0); read_tfm(b1);
+read_tfm(b2); read_tfm(b3);
+end;
+
+@ We use the |vf| array to store a list of all valid characters in the
+local font, beginning at location |font_chars[f]|.
+
+@<Read the local font's \.{TFM} file...@>=
+font_chars[font_ptr]:=vf_ptr;
+@<Move font name into the |cur_name| string@>;
+reset(tfm_file,cur_name);
+@^system dependencies@>
+if eof(tfm_file) then
+ print_ln('---not loaded, font metric file can''t be opened!')
+@.font metric file can\'t be opened@>
+else begin font_bc:=0; font_ec:=65536; {will cause error if not modified soon}
+ @<Read past the header@>;
+ if font_bc<=font_ec then
+ if font_ec>65535 then print_ln('---not loaded, bad font metric file!')
+@.bad font metric file@>
+ else @<Read |char_info| entries@>;
+ if eof(tfm_file) then
+ print_ln('---trouble is brewing, font metric file ended too soon!');
+@.trouble is brewing...@>
+ end;
+incr(vf_ptr) {leave space for character search later}
+
+@ @<Read past the header@>=
+read_tfm_word;
+if (b0*256+b1)<>0 then begin {TFM file}
+ font_ofm_level:=-1;
+ font_lh:=b2*256+b3;
+ read_tfm_word; font_bc:=b0*256+b1; font_ec:=b2*256+b3;
+ if font_ec<font_bc then font_bc:=font_ec+1;
+ read_tfm_word;
+ for k:=1 to 3+font_lh do begin
+ read_tfm_word;
+ if k=4 then @<Check the check sum@>;
+ if k=5 then @<Check the design size@>;
+ end;
+ end
+else begin
+ font_ofm_level:=b2*256+b3;
+ read_tfm_word; font_lh:=((b0*256+b1)*256+b2)*256+b3;
+ read_tfm_word; font_bc:=((b0*256+b1)*256+b2)*256+b3;
+ read_tfm_word; font_ec:=((b0*256+b1)*256+b2)*256+b3;
+ if font_ec<font_bc then font_bc:=font_ec+1;
+ read_tfm_word;
+ for k:=1 to 8 do begin
+ read_tfm_word;
+ end;
+ if font_ofm_level=1 then begin
+ read_tfm_word; read_tfm_word; read_tfm_word;
+ font_extra_words:=(((b0*256+b1)*256+b2)*256+b3) div 2;
+ for k:=1 to 5 do begin
+ read_tfm_word;
+ end;
+ end;
+ for k:=1 to lh do begin
+ read_tfm_word;
+ if k=1 then @<Check the check sum@>;
+ if k=2 then @<Check the design size@>;
+ end;
+ end
+
+@ @<Read |char_info| entries@>=
+case font_ofm_level of
+ -1: begin
+ for k:=font_bc to font_ec do begin
+ read_tfm_word;
+ if b0>0 then begin {character |k| exists in the font}
+ vf[vf_ptr]:=k; incr(vf_ptr);
+ if vf_ptr=vf_size then vf_abort('I''m out of OVF memory!');
+ end;
+ end;
+ end;
+ 0: begin
+ for k:=font_bc to font_ec do
+ begin read_tfm_word;
+ if (b0*256+b1)>0 then {character |k| exists in the font}
+ begin vf[vf_ptr]:=k; incr(vf_ptr);
+ if vf_ptr=vf_size then vf_abort('I''m out of OVF memory!');
+ end;
+ read_tfm_word;
+ end;
+ end;
+ 1: begin
+ k:=font_bc;
+ while k<font_ec do begin
+ read_tfm_word;
+ if (b0*256+b1)>0 then begin {character |k| exists in the font}
+ vf[vf_ptr]:=k; incr(vf_ptr);
+ if vf_ptr=vf_size then vf_abort('I''m out of OVF memory!');
+ end;
+ read_tfm_word; read_tfm_word;
+ font_kprime:=k+(b0*256+b1);
+ for font_j:=k+1 to font_kprime do begin
+ vf[vf_ptr]:=font_j; incr(vf_ptr);
+ if vf_ptr=vf_size then vf_abort('I''m out of OVF memory!');
+ end;
+ k:=font_kprime;
+ for font_j:=1 to font_extra_words do
+ read_tfm_word;
+ end
+ end;
+end;
+
+@ @<Check the check sum@>=
+if b0+b1+b2+b3>0 then
+ if(b0<>vf[font_start[font_ptr]])or@|
+ (b1<>vf[font_start[font_ptr]+1])or@|
+ (b2<>vf[font_start[font_ptr]+2])or@|
+ (b3<>vf[font_start[font_ptr]+3]) then begin
+ print_ln('Check sum in OVF file being replaced by font metric check sum');
+@.Check sum...replaced...@>
+ vf[font_start[font_ptr]]:=b0;
+ vf[font_start[font_ptr]+1]:=b1;
+ vf[font_start[font_ptr]+2]:=b2;
+ vf[font_start[font_ptr]+3]:=b3;
+ end
+
+@ @<Check the design size@>=
+if(b0<>vf[font_start[font_ptr]+8])or@|
+ (b1<>vf[font_start[font_ptr]+9])or@|
+ (b2<>vf[font_start[font_ptr]+10])or@|
+ (b3<>vf[font_start[font_ptr]+11]) then
+ begin print_ln('Design size in OVF file being replaced by font metric design size');
+@.Design size...replaced...@>
+ vf[font_start[font_ptr]+8]:=b0;
+ vf[font_start[font_ptr]+9]:=b1;
+ vf[font_start[font_ptr]+10]:=b2;
+ vf[font_start[font_ptr]+11]:=b3;
+ end
+
+@ If no font directory has been specified, \.{DVI}-reading software
+is supposed to use the default font directory, which is a
+system-dependent place where the standard fonts are kept.
+The string variable |default_directory| contains the name of this area.
+@^system dependencies@>
+
+@d default_directory_name=='TeXfonts:' {change this to the correct name}
+@d default_directory_name_length=9 {change this to the correct length}
+
+@<Glob...@>=
+@!default_directory:packed array[1..default_directory_name_length] of char;
+
+@ @<Set init...@>=
+default_directory:=default_directory_name;
+
+@ The string |cur_name| is supposed to be set to the external name of the
+\.{TFM} file for the current font. This usually means that we need to
+prepend the name of the default directory, and
+to append the suffix `\.{.TFM}'. Furthermore, we change lower case letters
+to upper case, since |cur_name| is a \PASCAL\ string.
+@^system dependencies@>
+
+@<Move font name into the |cur_name| string@>=
+for k:=1 to name_length do cur_name[k]:=' ';
+if a=0 then begin
+ for k:=1 to default_directory_name_length do
+ cur_name[k]:=default_directory[k];
+ r:=default_directory_name_length;
+ end
+else r:=0;
+for k:=font_start[font_ptr]+14 to vf_ptr-1 do begin
+ incr(r);
+ if r+4>name_length then vf_abort('Font name too long for me!');
+@.Font name too long for me@>
+ if (vf[k]>="a")and(vf[k]<="z") then
+ cur_name[r]:=xchr[vf[k]-@'40]
+ else cur_name[r]:=xchr[vf[k]];
+ end;
+cur_name[r+1]:='.'; cur_name[r+2]:='T'; cur_name[r+3]:='F'; cur_name[r+4]:='M'
+
+
+@ It's convenient to have a subroutine
+that reads a |k|-byte number from |vf_file|.
+
+@d get_vf(#)==if eof(vf_file) then #:=0 @+else read_vf(#)
+
+@p function vf_read(@!k:integer):integer; {actually |1<=k<=4|}
+var @!b:byte; {input byte}
+@!a:integer; {accumulator}
+begin vf_count:=vf_count+k; get_vf(b); a:=b;
+if k=4 then if b>=128 then a:=a-256; {4-byte numbers are signed}
+while k>1 do begin
+ get_vf(b);
+ a:=256*a+b; decr(k);
+ end;
+vf_read:=a;
+end;
+
+@ The \.{VF} format supports arbitrary 4-byte character codes,
+but \.{VPL} format presently does not. But \.{OVP} does.
+
+@<Read and store a character packet@>=
+begin if temp_byte=long_char then
+ begin pl:=vf_read(4); c:=vf_read(4); reg_count:=vf_read(4);
+ {|pl[4]| |cc[4]| |tfm[4]|}
+ end
+else begin pl:=temp_byte; c:=vf_read(1); reg_count:=vf_read(3);
+ {|pl[1]| |cc[1]| |tfm[3]|}
+ end;
+if nonexistent(c) then vf_abort('Character ',c:1,' does not exist!');
+@.Character c does not exist@>
+if packet_start[c]<vf_size then
+ print_ln('Discarding earlier packet for character ',c:1);
+@.Discarding earlier packet...@>
+if reg_count<>tfm_width(c) then
+ print_ln('Incorrect OFM width for character ',c:1,' in OVF file');
+@.Incorrect OFM width...@>
+if pl<0 then vf_abort('Negative packet length!');
+@.Negative packet length@>
+packet_start[c]:=vf_ptr; vf_store(pl); packet_end[c]:=vf_ptr-1;
+packet_found:=true;
+end
+
+@ The preceding code requires a simple subroutine that evaluates \.{TFM} data.
+
+@p function tfm_width(@!c:integer):integer;
+var @!a:integer; {accumulator}
+@!k:index; {index into |tfm|}
+begin k:=width(c); {we assume that character |c| exists}
+a:=tfm[k];
+if a>=128 then a:=a-256;
+tfm_width:=((256*a+tfm[k+1])*256+tfm[k+2])*256+tfm[k+3];
+end;
+
+@* Basic output subroutines.
+Let us now define some procedures that will reduce the rest of \.{VFtoVP}'s
+work to a triviality.
+
+First of all, it is convenient to have an abbreviation for output to the
+\.{VPL} file:
+
+@d out(#)==write(vpl_file,#)
+
+@ In order to stick to standard \PASCAL, we use an |xchr| array to do
+appropriate conversion of ASCII codes. Three other little strings are
+used to produce |face| codes like \.{MIE}.
+
+@<Glob...@>=
+@!ASCII_04,@!ASCII_10,@!ASCII_14,HEX: packed array [1..32] of char;
+ {strings for output in the user's external character set}
+@!xchr:packed array [0..255] of char;
+@!MBL_string,@!RI_string,@!RCE_string:packed array [1..3] of char;
+ {handy string constants for |face| codes}
+
+@ @<Set init...@>=
+ASCII_04:=' !"#$%&''()*+,-./0123456789:;<=>?';@/
+ASCII_10:='@@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_';@/
+ASCII_14:='`abcdefghijklmnopqrstuvwxyz{|}~?';@/
+HEX:='0123456789ABCDEF';@/
+for k:=0 to 255 do xchr[k]:='?';
+for k:=0 to @'37 do begin
+ xchr[k+@'40]:=ASCII_04[k+1];
+ xchr[k+@'100]:=ASCII_10[k+1];
+ xchr[k+@'140]:=ASCII_14[k+1];
+ end;
+MBL_string:='MBL'; RI_string:='RI '; RCE_string:='RCE';
+
+@ The array |dig| will hold a sequence of digits to be output.
+
+@<Glob...@>=
+@!dig:array[0..11] of integer;
+
+@ Here, in fact, are two procedures that output
+|dig[j-1]|$\,\ldots\,$|dig[0]|, given $j>0$.
+
+@p procedure out_digs(j:integer); {outputs |j| digits}
+begin repeat decr(j); out(HEX[1+dig[j]]);
+ until j=0;
+end;
+@#
+procedure print_digs(j:integer); {prints |j| digits}
+begin repeat decr(j); print(HEX[1+dig[j]]);
+ until j=0;
+end;
+
+@ The |print_number| procedure indicates how |print_digs| can be used.
+This procedure can print in octal, decimal or hex notation.
+
+@d print_hex(#)==print_number(#,16)
+@d print_octal(#)==print_number(#,8)
+@d print_decimal(#)==print_number(#,10)
+
+@p procedure print_number(c:integer; form:integer); {prints value of |c|}
+var j:0..32; {index into |dig|}
+begin
+j:=0;
+if (c<0) then begin
+ print_ln('Internal error: print_number (negative value)');
+ c:=0;
+ end;
+if form=8 then
+ print('''') {an apostrophe indicates the octal notation}
+else if form=16 then
+ print('"') { a double apostrophe indicates the hexadecimal notation}
+else if form<>10 then begin
+ print_ln('Internal error: print_number (form)');
+ form:=16;
+ end;
+while (c>0) or (j=0) do begin
+ dig[j]:=c mod form; c:=c div form;
+ j:=j+1;
+ end;
+print_digs(j);
+end;
+
+@ A \.{VPL} file has nested parentheses, and we want to format the output
+so that its structure is clear. The |level| variable keeps track of the
+depth of nesting.
+
+@<Glob...@>=
+@!level:0..5;
+
+@ @<Set init...@>=
+level:=0;
+
+@ Three simple procedures suffice to produce the desired structure in the
+output.
+
+@p procedure out_ln; {finishes one line, indents the next}
+var l:0..5;
+begin write_ln(vpl_file);
+for l:=1 to level do out(' ');
+end;
+@#
+procedure left; {outputs a left parenthesis}
+begin incr(level); out('(');
+end;
+@#
+procedure right; {outputs a right parenthesis and finishes a line}
+begin decr(level); out(')'); out_ln;
+end;
+
+@ The value associated with a property can be output in a variety of
+ways. For example, we might want to output a {\mc BCPL} string that
+begins in |tfm[k]|:
+
+@p procedure out_BCPL(@!k:index); {outputs a string, preceded by a blank space}
+var l:0..39; {the number of bytes remaining}
+begin out(' '); l:=tfm[k];
+while l>0 do begin
+ incr(k); decr(l); out(xchr[tfm[k]]);
+ end;
+end;
+
+@ The property value might also be a sequence of |l| bytes, beginning
+in |tfm[k]|, that we would like to output in hex notation.
+The following procedure assumes that |l<=4|, but larger values of |l|
+could be handled easily by enlarging the |dig| array and increasing
+the upper bounds on |b| and |j|.
+
+@d out_octal_number(#)==out_number(#,8)
+@d out_decimal_number(#)==out_number(#,10)
+@d out_hex_number(#)==out_number(#,16)
+@d out_dec(#)==out_decimal_number(#)
+@d out_hex_char(#)==out_hex_number(#)
+
+@p procedure out_number(c:integer; form:integer); {outputs value of |c|}
+var j:0..32; {index into |dig|}
+begin
+j:=0;
+if (c<0) then begin
+ print_ln('Internal error: print_number (negative value)');
+ c:=0;
+ end;
+if form=8 then
+ out(' O ')
+else if form=10 then
+ out(' D ')
+else if form=16 then
+ out(' H ')
+else begin
+ print_ln('Internal error: print_number (form)');
+ form:=16;
+ out(' H ')
+ end;
+while (c>0) or (j=0) do begin
+ dig[j]:=c mod form; c:=c div form;
+ j:=j+1;
+ end;
+out_digs(j);
+end;
+@#
+procedure out_hex(@!k,@!l:index);
+ {outputs |l| bytes in hex}
+var a:0..@"7FFFFFFF; {accumulator for bits not yet output}
+@!b:0..32; {the number of significant bits in |a|}
+@!j:0..11; {the number of digits of output}
+begin
+out(' H ');
+a:=0; b:=0; j:=0;
+while l>0 do @<Reduce \(1)|l| by one, preserving the invariants@>;
+while (a>0)or(j=0) do begin
+ dig[j]:=a mod 16; a:=a div 16; incr(j);
+ end;
+out_digs(j);
+end;
+
+@ @<Reduce \(1)|l|...@>=
+begin decr(l);
+if tfm[k+l]<>0 then begin
+ while b>2 do begin
+ dig[j]:=a mod 16; a:=a div 16; b:=b-4; incr(j);
+ end;
+ case b of
+ 0: a:=tfm[k+l];
+ 1:a:=a+2*tfm[k+l];
+ 2:a:=a+4*tfm[k+l];
+ 3:a:=a+8*tfm[k+l];
+ end;
+ end;
+b:=b+8;
+end
+
+@ The property value may be a character, which is output in hex
+unless it is a letter or a digit. This procedure is the only place
+where a lowercase letter will be output to the \.{PL} file.
+@^system dependencies@>
+
+@p procedure out_char(@!c:integer); {outputs a character}
+begin if font_type>vanilla then
+ out_hex_char(c)
+else if (c>="0")and(c<="9") then
+ out(' C ',c-"0":1)
+else if (c>="A")and(c<="Z") then
+ out(' C ',ASCII_10[c-"A"+2])
+else if (c>="a")and(c<="z") then
+ out(' C ',ASCII_14[c-"a"+2])
+else out_hex_char(c);
+end;
+
+@ The property value might be a ``face'' byte, which is output in the
+curious code mentioned earlier, provided that it is less than 18.
+
+@p procedure out_face(@!k:index); {outputs a |face|}
+var s:0..1; {the slope}
+@!b:0..8; {the weight and expansion}
+begin if tfm[k]>=18 then out_hex(k,1)
+else begin
+ out(' F '); {specify face-code format}
+ s:=tfm[k] mod 2; b:=tfm[k] div 2;
+ out(MBL_string[1+(b mod 3)]);
+ out(RI_string[1+s]);
+ out(RCE_string[1+(b div 3)]);
+ end;
+end;
+
+@ And finally, the value might be a |fix_word|, which is output in
+decimal notation with just enough decimal places for \.{VPtoVF}
+to recover every bit of the given |fix_word|.
+
+All of the numbers involved in the intermediate calculations of
+this procedure will be nonnegative and less than $10\cdot2^{24}$.
+
+@p procedure out_fix(@!k:index); {outputs a |fix_word|}
+var a:0..@'7777; {accumulator for the integer part}
+@!f:integer; {accumulator for the fraction part}
+@!j:0..12; {index into |dig|}
+@!delta:integer; {amount if allowable inaccuracy}
+begin out(' R '); {specify real format}
+a:=(tfm[k]*16)+(tfm[k+1] div 16);
+f:=((tfm[k+1] mod 16)*@'400+tfm[k+2])*@'400+tfm[k+3];
+if a>@'3777 then @<Reduce \(2)negative to positive@>;
+@<Output the integer part, |a|, in decimal notation@>;
+@<Output the fraction part, $|f|/2^{20}$, in decimal notation@>;
+end;
+
+@ The following code outputs at least one digit even if |a=0|.
+
+@<Output the integer...@>=
+begin j:=0;
+repeat dig[j]:=a mod 10; a:=a div 10; incr(j);
+until a=0;
+out_digs(j);
+end
+
+@ And the following code outputs at least one digit to the right
+of the decimal point.
+
+@<Output the fraction...@>=
+begin out('.'); f:=10*f+5; delta:=10;
+repeat if delta>@'4000000 then f:=f+@'2000000-(delta div 2);
+out(f div @'4000000:1); f:=10*(f mod @'4000000); delta:=delta*10;
+until f<=delta;
+end;
+
+@ @<Reduce \(2)negative to positive@>=
+begin out('-'); a:=@'10000-a;
+if f>0 then begin
+ f:=@'4000000-f; decr(a);
+ end;
+end
+
+@* Outputting the TFM info.
+\TeX\ checks the information of a \.{TFM} file for validity as the
+file is being read in, so that no further checks will be needed when
+typesetting is going on. And when it finds something wrong, it justs
+calls the file ``bad,'' without identifying the nature of the problem,
+since \.{TFM} files are supposed to be good almost all of the time.
+
+Of course, a bad file shows up every now and again, and that's where
+\.{VFtoVP} comes in. This program wants to catch at least as many errors as
+\TeX\ does, and to give informative error messages besides.
+All of the errors are corrected, so that the \.{VPL} output will
+be correct (unless, of course, the \.{TFM} file was so loused up
+that no attempt is being made to fathom it).
+
+@ Just before each character is processed, its code is printed in hex
+notation. Up to eight such codes appear on a line; so we have a variable
+to keep track of how many are currently there. We also keep track of
+whether or not any errors have had to be corrected.
+
+@<Glob...@>=
+@!chars_on_line:0..8; {the number of characters printed on the current line}
+@!perfect:boolean; {was the file free of errors?}
+
+@ @<Set init...@>=
+chars_on_line:=0;@/
+perfect:=true; {innocent until proved guilty}
+
+@ Error messages are given with the help of the |bad| and |range_error|
+and |bad_char| macros:
+
+@d bad(#)==begin perfect:=false; if chars_on_line>0 then print_ln(' ');
+ chars_on_line:=0; print_ln('Bad OFM file: ',#);
+ end
+@.Bad OFM file@>
+@d range_error(#)==begin perfect:=false; print_ln(' ');
+ print(#,' index for character ');
+ print_hex(c); print_ln(' is too large;');
+ print_ln('so I reset it to zero.');
+ end
+@d bad_char_tail(#)==print_hex(#); print_ln('.');
+ end
+@d bad_char(#)==begin perfect:=false; if chars_on_line>0 then print_ln(' ');
+ chars_on_line:=0; print('Bad OFM file: ',#,' nonexistent character ');
+ bad_char_tail
+@d correct_bad_char_tail(#)==#(k,0)
+ end
+@d correct_bad_char_middle(#)==print_hex(#(k)); print_ln('.');
+ correct_bad_char_tail
+@d correct_bad_char(#)== begin perfect:=false;
+ if chars_on_line>0 then print_ln(' ');
+ chars_on_line:=0; print('Bad OFM file: ',#,' nonexistent character ');
+ correct_bad_char_middle
+
+@<Glob...@>=
+@!i:integer; {an index to words of a subfile}
+@!c:xchar_type; {a random character}
+@!d:0..3; {byte number in a word}
+@!k:index; {a random index}
+@!r:0..65535; {a random two-byte value}
+@!count:0..127; {for when we need to enumerate a small set}
+
+@ There are a lot of simple things to do, and they have to be done one
+at a time, so we might as well get down to business. The first things
+that \.{VFtoVP} will put into the \.{VPL} file appear in the header part.
+
+@<Do the header@>=
+begin
+case ofm_level of
+ 0: begin out('(OFMLEVEL H 0)'); out_ln; end;
+ 1: begin out('(OFMLEVEL H 1)'); out_ln; end;
+ end;
+if ofm_on then begin
+ left;
+ if font_dir<=7 then out('FONTDIR')
+ else out('NFONTDIR');
+ case font_dir mod 8 of
+ 0: out(' TL');
+ 1: out(' LT');
+ 2: out(' TR');
+ 3: out(' LB');
+ 4: out(' BL');
+ 5: out(' RT');
+ 6: out(' BR');
+ 7: out(' RB');
+ end;
+ right
+ end;
+font_type:=vanilla;
+if lh>=12 then begin
+ @<Set the true |font_type|@>;
+ if lh>=17 then begin
+ @<Output the family name@>;
+ if lh>=18 then @<Output the rest of the header@>;
+ end;
+ @<Output the character coding scheme@>;
+ end;
+@<Output the design size@>;
+@<Output the check sum@>;
+@<Output the |seven_bit_safe_flag|@>;
+end
+
+@ @<Output the check sum@>=
+left; out('CHECKSUM'); out_hex(check_sum,4);
+right
+
+@ Incorrect design sizes are changed to 10 points.
+
+@d bad_design(#)==begin bad('Design size ',#,'!');
+@.Design size wrong@>
+ print_ln('I''ve set it to 10 points.');
+ out(' D 10');
+ end
+
+@ @<Output the design size@>=
+left; out('DESIGNSIZE');
+if tfm[design_size]>127 then bad_design('negative')
+else if (tfm[design_size]=0)and(tfm[design_size+1]<16) then
+ bad_design('too small')
+else out_fix(design_size);
+right;
+out('(COMMENT DESIGNSIZE IS IN POINTS)'); out_ln;
+out('(COMMENT OTHER SIZES ARE MULTIPLES OF DESIGNSIZE)'); out_ln
+@.DESIGNSIZE IS IN POINTS@>
+
+@ Since we have to check two different {\mc BCPL} strings for validity,
+we might as well write a subroutine to make the check.
+
+@p procedure check_BCPL(@!k,@!l:index); {checks a string of length |<l|}
+var j:index; {runs through the string}
+@!c:integer; {character being checked}
+begin if tfm[k]>=l then begin
+ bad('String is too long; I''ve shortened it drastically.');
+@.String is too long...@>
+ tfm[k]:=1;
+ end;
+for j:=k+1 to k+tfm[k] do begin
+ c:=tfm[j];
+ if (c="(")or(c=")") then
+ begin bad('Parenthesis in string has been changed to slash.');
+@.Parenthesis...changed to slash@>
+ tfm[j]:="/";
+ end
+ else if (c<" ")or(c>"~") then begin
+ bad('Nonstandard ASCII code has been blotted out.');
+@.Nonstandard ASCII code...@>
+ tfm[j]:="?";
+ end
+ else if (c>="a")and(c<="z") then tfm[j]:=c+"A"-"a"; {upper-casify letters}
+ end;
+end;
+
+@ The |font_type| starts out |vanilla|; possibly we need to reset it.
+
+@<Set the true |font_type|@>=
+begin check_BCPL(scheme,40);
+if (tfm[scheme]>=11)and@|(tfm[scheme+1]="T")and@|
+ (tfm[scheme+2]="E")and@|(tfm[scheme+3]="X")and@|
+ (tfm[scheme+4]=" ")and@|(tfm[scheme+5]="M")and@|
+ (tfm[scheme+6]="A")and@|(tfm[scheme+7]="T")and@|
+ (tfm[scheme+8]="H")and@|(tfm[scheme+9]=" ") then begin
+ if (tfm[scheme+10]="S")and(tfm[scheme+11]="Y") then font_type:=mathsy
+ else if (tfm[scheme+10]="E")and(tfm[scheme+11]="X") then font_type:=mathex;
+ end;
+end
+
+@ @<Output the character coding scheme@>=
+left; out('CODINGSCHEME');
+out_BCPL(scheme);
+right
+
+@ @<Output the family name@>=
+left; out('FAMILY');
+check_BCPL(family,20);
+out_BCPL(family);
+right
+
+@ @<Output the rest of the header@>=
+begin left; out('FACE'); out_face(random_word+3); right;
+for i:=18 to lh-1 do begin
+ left; out('HEADER D ',i:1);
+ out_hex(check_sum+4*i,@,4); right;
+ end;
+end
+
+@ This program does not check to see if the |seven_bit_safe_flag| has the
+correct setting, i.e., if it really reflects the seven-bit-safety of
+the \.{TFM} file; the stated value is merely put into the \.{VPL} file.
+The \.{VPtoVF} program will store a correct value and give a warning
+message if a file falsely claims to be safe.
+
+@<Output the |seven_bit_safe_flag|@>=
+if (lh>17) and (tfm[random_word]>127) then begin
+ left; out('SEVENBITSAFEFLAG FALSE'); right;
+ end
+
+@ The next thing to take care of is the list of parameters.
+
+@<Do the parameters@>=
+if np>0 then begin
+ left; out('FONTDIMEN'); out_ln;
+ for i:=1 to np do @<Check and output the $i$th parameter@>;
+ right;
+ end;
+@<Check to see if |np| is complete for this font type@>;
+
+@ @<Check to see if |np|...@>=
+if (font_type=mathsy)and(np<>22) then
+ print_ln('Unusual number of fontdimen parameters for a math symbols font (',
+@.Unusual number of fontdimen...@>
+ np:1,' not 22).')
+else if (font_type=mathex)and(np<>13) then
+ print_ln('Unusual number of fontdimen parameters for an extension font (',
+ np:1,' not 13).')
+
+@ All |fix_word| values except the design size and the first parameter
+will be checked to make sure that they are less than 16.0 in magnitude,
+using the |check_fix| macro:
+
+@d check_fix_tail(#)==bad(#,' ',i:1,' is too big;');
+ print_ln('I have set it to zero.');
+ end
+@d check_fix(#)==if (tfm[#]>0)and(tfm[#]<255) then
+ begin tfm[#]:=0; tfm[(#)+1]:=0; tfm[(#)+2]:=0; tfm[(#)+3]:=0;
+ check_fix_tail
+
+@<Check and output the $i$th parameter@>=
+begin left;
+if i=1 then out('SLANT') {this parameter is not checked}
+else begin check_fix(param(i))('Parameter');@/
+@.Parameter n is too big@>
+ @<Output the name of parameter $i$@>;
+ end;
+out_fix(param(i)); right;
+end
+
+@ @<Output the name...@>=
+if i<=7 then case i of
+ 2:out('SPACE');@+3:out('STRETCH');@+4:out('SHRINK');
+ 5:out('XHEIGHT');@+6:out('QUAD');@+7:out('EXTRASPACE')@+end
+else if (i<=22)and(font_type=mathsy) then case i of
+ 8:out('NUM1');@+9:out('NUM2');@+10:out('NUM3');
+ 11:out('DENOM1');@+12:out('DENOM2');
+ 13:out('SUP1');@+14:out('SUP2');@+15:out('SUP3');
+ 16:out('SUB1');@+17:out('SUB2');
+ 18:out('SUPDROP');@+19:out('SUBDROP');
+ 20:out('DELIM1');@+21:out('DELIM2');
+ 22:out('AXISHEIGHT')@+end
+else if (i<=13)and(font_type=mathex) then
+ if i=8 then out('DEFAULTRULETHICKNESS')
+ else out('BIGOPSPACING',i-8:1)
+else out('PARAMETER D ',i:1)
+
+@ @<Glob...@>=
+@!start_counter,@!base_counter,@!number_entries:integer;
+@!value:integer;
+
+@ @<Do the ivalue parameters@>=
+if nki>0 then begin
+ start_counter:=ivalues_start*4;
+ base_counter:=ivalues_base*4;
+ for i:=0 to nki-1 do @<Check and output the $i$th ivalue table@>;
+ end;
+
+@ @<Check and output the $i$th ivalue table@>=
+begin
+left; out('FONTIVALUE'); out_hex_number(i); out_ln;
+number_entries:=256*tfm[start_counter+2]+tfm[start_counter+3];
+for j:=0 to number_entries-1 do begin
+ left; out('IVALUE'); out_hex_number(j); out_ln;
+ value:=256*tfm[base_counter+2]+tfm[base_counter+3];
+ left; out('IVALUEVAL'); out_hex_number(value); right;
+ right;
+ base_counter:=base_counter+4;
+ end;
+right;
+start_counter:=start_counter+4;;
+end;
+
+@ @<Do the fvalue parameters@>=
+if nkf>0 then begin
+ start_counter:=fvalues_start*4;
+ base_counter:=fvalues_base*4;
+ for i:=0 to nkf-1 do @<Check and output the $i$th fvalue table@>;
+ end;
+
+@ @<Check and output the $i$th fvalue table@>=
+begin
+left; out('FONTFVALUE'); out_hex_number(i); out_ln;
+number_entries:=256*tfm[start_counter+2]+tfm[start_counter+3];
+for j:=0 to number_entries-1 do begin
+ left; out('FVALUE'); out_hex_number(j); out_ln;
+ left; out('FVALUEVAL'); out_fix(base_counter); right;
+ right;
+ base_counter:=base_counter+4;
+ end;
+right;
+start_counter:=start_counter+4;
+end;
+
+@ @<Do the mvalue parameters@>=
+if nkm>0 then begin
+ start_counter:=mvalues_start*4;
+ base_counter:=mvalues_base*4;
+ for i:=0 to nkm-1 do @<Check and output the $i$th mvalue table@>;
+ end;
+
+@ @<Check and output the $i$th mvalue table@>=
+begin
+left; out('FONTMVALUE'); out_hex_number(i); out_ln;
+number_entries:=256*tfm[start_counter+2]+tfm[start_counter+3];
+for j:=0 to number_entries-1 do begin
+ left; out('MVALUE'); out_hex_number(j); out_ln;
+ left; out('MVALUEVAL'); out_fix(base_counter); right;
+ right;
+ base_counter:=base_counter+4;
+ end;
+right;
+start_counter:=start_counter+4;
+end;
+
+@ @<Do the rule parameters@>=
+if nkr>0 then begin
+ start_counter:=rules_start*4;
+ base_counter:=rules_base*4;
+ for i:=0 to nkr-1 do @<Check and output the $i$th rule table@>;
+ end;
+
+@ @<Check and output the $i$th rule table@>=
+begin
+left; out('FONTRULE'); out_hex_number(i); out_ln;
+number_entries:=256*tfm[start_counter+2]+tfm[start_counter+3];
+for j:=0 to number_entries-1 do begin
+ left; out('RULE'); out_hex_number(j); out_ln;
+ left; out('RULEWD'); out_fix(base_counter); right;
+ left; out('RULEHT'); out_fix(base_counter+4); right;
+ left; out('RULEDP'); out_fix(base_counter+8); right;
+ right;
+ base_counter:=base_counter+12;
+ end;
+right;
+start_counter:=start_counter+4;
+end;
+
+@ @<Do the glue parameters@>=
+if nkg>0 then begin
+ start_counter:=glues_start*4;
+ base_counter:=glues_base*4;
+ for i:=0 to nkg-1 do @<Check and output the $i$th glue table@>;
+ end;
+
+@ @<Glob...@>=
+@!glue_subtype,@!glue_argument_kind,@!glue_stretch_order,
+@!glue_shrink_order,@!glue_argument:integer;
+
+@ @<Check and output the $i$th glue table@>=
+begin
+left; out('FONTGLUE'); out_hex_number(i); out_ln;
+number_entries:=256*tfm[start_counter+2]+tfm[start_counter+3];
+for j:=0 to number_entries-1 do begin
+ left; out('GLUE'); out_hex_number(j); out_ln;
+ glue_subtype:=tfm[base_counter] div 16;
+ glue_argument_kind:=tfm[base_counter] mod 16;
+ glue_stretch_order:=tfm[base_counter+1] div 16;
+ glue_shrink_order:=tfm[base_counter+1] mod 16;
+ glue_argument:=tfm[base_counter+2]*256+tfm[base_counter+3];
+ left;
+ out('GLUETYPE');
+ case glue_subtype of
+ 0: out(' H 0');
+ 1: out(' H 1');
+ 2: out(' H 2');
+ 3: out(' H 3');
+ end;
+ right;
+ case glue_argument_kind of
+ 1: begin
+ left; out('GLUERULE'); out_hex_number(glue_argument); right;
+ end;
+ 2: begin
+ left; out('GLUECHAR'); out_hex_number(glue_argument); right;
+ end;
+ end;
+ left;
+ out('GLUESTRETCHORDER');
+ case glue_stretch_order of
+ 0: out(' H 0');
+ 1: out(' H 1');
+ 2: out(' H 2');
+ 3: out(' H 3');
+ 4: out(' H 4');
+ end;
+ right;
+ left;
+ out('GLUESHRINKORDER');
+ case glue_shrink_order of
+ 0: out(' H 0');
+ 1: out(' H 1');
+ 2: out(' H 2');
+ 3: out(' H 3');
+ 4: out(' H 4');
+ end;
+ right;
+ left; out('GLUEWD'); out_fix(base_counter+4); right;
+ left; out('GLUESTRETCH'); out_fix(base_counter+8); right;
+ left; out('GLUESHRINK'); out_fix(base_counter+12); right;
+ right;
+ base_counter:=base_counter+16;
+ end;
+right;
+start_counter:=start_counter+4;
+end;
+
+@ @<Do the penalty parameters@>=
+if nkp>0 then begin
+ start_counter:=penalties_start*4;
+ base_counter:=penalties_base*4;
+ for i:=0 to nkp-1 do @<Check and output the $i$th penalty table@>;
+ end;
+
+@ @<Check and output the $i$th penalty table@>=
+begin
+left; out('FONTPENALTY'); out_hex_number(i); out_ln;
+number_entries:=256*tfm[start_counter+2]+tfm[start_counter+3];
+for j:=0 to number_entries-1 do begin
+ left; out('PENALTY'); out_hex_number(j); out_ln;
+ value:=256*tfm[base_counter+2]+tfm[base_counter+3];
+ left; out('PENALTYVAL'); out_hex_number(value); right;
+ right;
+ base_counter:=base_counter+4;
+ end;
+right;
+start_counter:=start_counter+4;
+end;
+
+@ We need to check the range of all the remaining |fix_word| values,
+and to make sure that |width[0]=0|, etc.
+
+@d nonzero_fix(#)==(tfm[#]>0)or(tfm[#+1]>0)or(tfm[#+2]>0)or(tfm[#+3]>0)
+
+@<Check the |fix_word| entries@>=
+if nonzero_fix(4*width_base) then bad('width[0] should be zero.');
+@.should be zero@>
+if nonzero_fix(4*height_base) then bad('height[0] should be zero.');
+if nonzero_fix(4*depth_base) then bad('depth[0] should be zero.');
+if nonzero_fix(4*italic_base) then bad('italic[0] should be zero.');
+for i:=0 to nw-1 do check_fix(4*(width_base+i))('Width');
+@.Width n is too big@>
+for i:=0 to nh-1 do check_fix(4*(height_base+i))('Height');
+@.Height n is too big@>
+for i:=0 to nd-1 do check_fix(4*(depth_base+i))('Depth');
+@.Depth n is too big@>
+for i:=0 to ni-1 do check_fix(4*(italic_base+i))('Italic correction');
+@.Italic correction n is too big@>
+if nk>0 then for i:=0 to nk-1 do check_fix(kern(i))('Kern');
+@.Kern n is too big@>
+
+@ The ligature/kerning program comes next. Before we can put it out in
+\.{PL} format, we need to make a table of ``labels'' that will be inserted
+into the program. For each character |c| whose |tag| is |lig_tag| and
+whose starting address is |r|, we will store the pair |(c,r)| in the
+|label_table| array. If there's a boundary-char program starting at~|r|,
+we also store the pair |(256,r)|.
+This array is sorted by its second components, using the
+simple method of straight insertion.
+
+@<Glob...@>=
+@!label_table:array[xxxchar_type] of record
+@!cc:xchar_type;@!rr:0..lig_size;ischar:boolean;end;
+@!label_ptr:xxchar_type; {the largest entry in |label_table|}
+@!sort_ptr:xxchar_type; {index into |label_table|}
+@!boundary_char:xchar_type; {boundary character, or |xmax_char| if none}
+@!bchar_label:0..xmax_label; {beginning of boundary character program}
+
+@ @<Set init...@>=
+boundary_char:=xmax_char; bchar_label:=xmax_label;@/
+label_ptr:=0; label_table[0].rr:=0; {a sentinel appears at the bottom}
+
+@ We'll also identify and remove inaccessible program steps, using the
+|activity| array.
+
+@d unreachable=0 {a program step not known to be reachable}
+@d pass_through=1 {a program step passed through on initialization}
+@d accessible=2 {a program step that can be relevant}
+
+@<Glob...@>=
+@!activity:array[0..lig_size] of unreachable..accessible;
+@!ai,@!acti:0..lig_size; {indices into |activity|}
+
+@ @<Do the ligatures and kerns@>=
+if nl>0 then begin
+ for ai:=0 to (nl-1) do activity[ai]:=unreachable;
+ @<Check for a boundary char@>;
+ end;
+@<Build the label table@>;
+if nl>0 then begin
+ left; out('LIGTABLE'); out_ln;@/
+ @<Compute the |activity| array@>;
+ @<Output and correct the ligature/kern program@>;
+ right;
+ @<Check for ligature cycles@>;
+ end
+
+@ We build the label table even when |nl=0|, because this catches errors
+that would not otherwise be detected.
+
+@<Build...@>=
+for c:=bc to ec do
+if (tag(c)=lig_tag) or (ctag(c)) then begin
+ r:=rremainder(c);
+ if (l_skip_byte(lig_step(r)) div 256)=0 then begin
+ if r<nl then begin
+ if l_skip_byte(lig_step(r))>stop_flag then begin
+ r:=256*l_op_byte(lig_step(r))+l_remainder(lig_step(r));
+ if r<nl then if activity[rremainder(c)]=unreachable then
+ activity[rremainder(c)]:=pass_through;
+ end;
+ end;
+ end;
+ if r>=nl then begin
+ perfect:=false; print_ln(' ');
+ print('Ligature/kern starting index for character '); print_hex(c);
+ print_ln(' is too large;'); print_ln('so I removed it.'); set_no_tag(c);
+ set_no_ctag(c);
+@.Ligature/kern starting index...@>
+ end
+ else @<Insert |(c,r)| into |label_table|@>;
+ end;
+label_table[label_ptr+1].rr:=lig_size; {put ``infinite'' sentinel at the end}
+
+@ @<Insert |(c,r)|...@>=
+begin sort_ptr:=label_ptr; {there's a hole at position |sort_ptr+1|}
+while label_table[sort_ptr].rr>r do begin
+ label_table[sort_ptr+1]:=label_table[sort_ptr];
+ decr(sort_ptr); {move the hole}
+ end;
+label_table[sort_ptr+1].ischar:=not ctag(c);
+if ctag(c) then
+ label_table[sort_ptr+1].cc:=char_param(c,0)
+else
+ label_table[sort_ptr+1].cc:=c;
+label_table[sort_ptr+1].rr:=r; {fill the hole}
+incr(label_ptr); activity[r]:=accessible;
+end
+
+@ @<Check for a bound...@>=
+if l_skip_byte(lig_step(0))=255 then begin
+ left; out('BOUNDARYCHAR');
+ boundary_char:=l_next_char(lig_step(0)); out_char(boundary_char); right;
+ activity[0]:=pass_through;
+ end;
+if l_skip_byte(lig_step(nl-1))=255 then begin
+ r:=256*l_op_byte(lig_step(nl-1))+l_remainder(lig_step(nl-1));
+ if r>=nl then begin
+ perfect:=false; print_ln(' ');
+ print('Ligature/kern starting index for boundarychar is too large;');
+ print_ln('so I removed it.');
+@.Ligature/kern starting index...@>
+ end
+ else begin
+ label_ptr:=1; label_table[1].cc:=xmax_char;
+ label_table[1].rr:=r;
+ bchar_label:=r; activity[r]:=accessible;
+ end;
+ activity[nl-1]:=pass_through;
+ end
+
+@ @<Compute the |activity| array@>=
+for ai:=0 to (nl-1) do
+if (l_skip_byte(lig_step(ai)) div 256)=1 then
+ activity[ai]:=accessible
+else if activity[ai]=accessible then begin
+ r:=l_skip_byte(lig_step(ai));
+ if r<stop_flag then begin
+ r:=r+ai+1;
+ if r>=nl then begin
+ bad('Ligature/kern step ',ai:1,' skips too far;');
+@.Lig...skips too far@>
+ print_ln('I made it stop.'); set_l_skip_byte(lig_step(ai),stop_flag);
+ end
+ else activity[r]:=accessible;
+ end;
+ end
+
+@ We ignore |pass_through| items, which don't need to be mentioned in
+the \.{PL} file.
+
+@<Output and correct the ligature...@>=
+sort_ptr:=1; {point to the next label that will be needed}
+for acti:=0 to nl-1 do if activity[acti]<>pass_through then begin
+ i:=acti; @<Take care of commenting out unreachable steps@>;
+ @<Output any labels for step $i$@>;
+ @<Output step $i$ of the ligature/kern program@>;
+ end;
+if level=2 then right {the final step was unreachable}
+
+@ @<Globals...@>=
+@!output_clabels:array[0..256] of boolean;
+@!clabel_runner:integer;
+@!cprime:integer;
+
+@ @<Set init...@>=
+for clabel_runner:=0 to 256 do
+ output_clabels[clabel_runner]:=false;
+
+@ @<Output any labels...@>=
+while i=label_table[sort_ptr].rr do begin
+ if not label_table[sort_ptr].ischar then begin
+ if not output_clabels[label_table[sort_ptr].cc] then begin
+ output_clabels[label_table[sort_ptr].cc]:=true;
+ left;
+ out('CLABEL');
+ out_char(label_table[sort_ptr].cc);
+ right;
+ end
+ end
+ else begin
+ left;
+ out('LABEL');
+ if label_table[sort_ptr].cc=xmax_char then out(' BOUNDARYCHAR')
+ else out_char(label_table[sort_ptr].cc);
+ right;
+ end;
+ incr(sort_ptr);
+ end
+
+@ @<Take care of commenting out...@>=
+if activity[i]=unreachable then begin
+ if level=1 then begin
+ left; out('COMMENT THIS PART OF THE PROGRAM IS NEVER USED!'); out_ln;
+ end
+ end
+else if level=2 then right
+
+@ @<Output step $i$...@>=
+begin k:=lig_step(i);
+if (l_skip_byte(k) div 256)=1 then begin
+ case l_op_byte(k) of
+ 17: begin
+ left; out('CPEN');
+ out_hex_number(l_next_char(k));
+ out_hex_number(l_remainder(k));
+ right;
+ end;
+ 18: begin
+ left; out('CGLUE');
+ out_hex_number(l_next_char(k));
+ out_hex_number(l_remainder(k));
+ right;
+ end;
+ 19: begin
+ left; out('CPENGLUE');
+ out_hex_number(l_next_char(k));
+ out_hex_number(l_remainder(k) div 256);
+ out_hex_number(l_remainder(k) mod 256);
+ right;
+ end;
+ 20: begin
+ left; out('CKRN');
+ out_hex_number(l_next_char(k));
+ r:=l_remainder(k);
+ if r>=nk then begin
+ bad('Kern index too large.');
+@.Kern index too large@>
+ out(' R 0.0');
+ end
+ else out_fix(kern(r));
+ right;
+ end;
+ end;
+ end
+else if l_skip_byte(k)>stop_flag then begin
+ if (256*l_op_byte(k)+l_remainder(k))>=nl then
+ bad('Ligature unconditional stop command address is too big.');
+@.Ligature unconditional stop...@>
+ end
+else if l_op_byte(k)>=kern_flag then @<Output a kern step@>
+else @<Output a ligature step@>;
+if (l_skip_byte(k) mod 256)>0 then
+ if level=1 then @<Output either \.{SKIP} or \.{STOP}@>;
+end
+
+@ The \.{SKIP} command is a bit tricky, because we will be omitting all
+inaccessible commands.
+
+@<Output either...@>=
+begin if (l_skip_byte(k) mod 256)>=stop_flag then out('(STOP)')
+else begin
+ count:=0;
+ for ai:=(i+1) to (i+(l_skip_byte(k) mod 256)) do
+ if activity[ai]=accessible then incr(count);
+ out('(SKIP D ',count:1,')'); {possibly $count=0$, so who cares}
+ end;
+out_ln;
+end
+
+@ @<Output a kern step@>=
+begin if nonexistent(l_next_char(k)) then
+ if l_next_char(k)<>boundary_char then
+ correct_bad_char('Kern step for')(l_next_char)(set_l_next_char);
+@.Kern step for nonexistent...@>
+left; out('KRN'); out_char(l_next_char(k));
+r:=256*(l_op_byte(k)-kern_flag)+l_remainder(k);
+if r>=nk then begin
+ bad('Kern index too large.');
+@.Kern index too large@>
+ out(' R 0.0');
+ end
+else out_fix(kern(r));
+right;
+end
+
+@ @<Output a ligature step@>=
+begin if nonexistent(l_next_char(k)) then
+ if l_next_char(k)<>boundary_char then
+ correct_bad_char('Ligature step for')(l_next_char)(set_l_next_char);
+@.Ligature step for nonexistent...@>
+if nonexistent(l_remainder(k)) then
+correct_bad_char('Ligature step produces the')(l_remainder)(set_l_remainder);
+@.Ligature step produces...@>
+left; r:=l_op_byte(k);
+if (r=4)or((r>7)and(r<>11)) then begin
+ print_ln('Ligature step with nonstandard code changed to LIG');
+ r:=0; set_l_op_byte(k,0);
+ end;
+if r mod 4>1 then out('/');
+out('LIG');
+if odd(r) then out('/');
+while r>3 do begin
+ out('>'); r:=r-4;
+ end;
+out_char(l_next_char(k)); out_char(l_remainder(k)); right;
+end
+
+@ The last thing on \.{VFtoVP}'s agenda is to go through the
+list of |char_info| and spew out the information about each individual
+character.
+
+@<Do the characters@>=
+sort_ptr:=0; {this will suppress `\.{STOP}' lines in ligature comments}
+c:=bc;
+while (c<=ec) do begin
+ if width_index(c)>0 then begin
+ if chars_on_line=8 then begin
+ print_ln(' '); chars_on_line:=1;
+ end
+ else begin
+ if chars_on_line>0 then print(' ');
+ incr(chars_on_line);
+ end;
+ for cprime:=c to (c+no_repeats(c)) do begin
+ print_hex(cprime); {progress report}
+ left; out('CHARACTER'); out_char(cprime); out_ln;
+ @<Output the character's width@>;
+ if height_index(c)>0 then @<Output the character's height@>;
+ if depth_index(c)>0 then @<Output the character's depth@>;
+ if italic_index(c)>0 then @<Output the italic correction@>;
+ case tag(c) of
+ no_tag: do_nothing;
+ lig_tag: @<Output the applicable part of the ligature/kern
+ program as a comment@>;
+ list_tag: @<Output the character link unless there is a problem@>;
+ ext_tag: @<Output an extensible character recipe@>;
+ end; {there are no other cases}
+ for i:=0 to npc-1 do begin
+ if char_param(c,i)<>0 then begin
+ left;
+ if i<nki then begin
+ out('CHARIVALUE'); out_hex_number(i);
+ end
+ else if i<(nki+nkf) then begin
+ out('CHARFVALUE'); out_hex_number(i-nki);
+ end
+ else if i<(nki+nkf+nkr) then begin
+ out('CHARRULE'); out_hex_number(i-nki-nkf);
+ end
+ else if i<(nki+nkf+nkr+nkg) then begin
+ out('CHARGLUE'); out_hex_number(i-nki-nkf-nkr);
+ end
+ else if i<(nki+nkf+nkr+nkg+nkp) then begin
+ out('CHARPENALTY'); out_hex_number(i-nki-nkf-nkr-nkg);
+ end;
+ out_hex_number(char_param(c,i));
+ right;
+ end;
+ end;
+ if not do_map(cprime) then goto final_end;
+ right;
+ end;
+ end;
+ c:=c+1+no_repeats(c);
+ end
+
+@ @<Output the character's width@>=
+if width_index(c)>=nw then range_error('Width')
+@.Width index for char...@>
+else begin left; out('CHARWD'); out_fix(width(c)); right;
+ end
+
+@ @<Output the character's height@>=
+if height_index(c)>=nh then range_error('Height')
+@.Height index for char...@>
+else begin left; out('CHARHT'); out_fix(height(c)); right;
+ end
+
+@ @<Output the character's depth@>=
+if depth_index(c)>=nd then range_error('Depth')
+@.Depth index for char@>
+else begin left; out('CHARDP'); out_fix(depth(c)); right;
+ end
+
+@ @<Output the italic correction@>=
+if italic_index(c)>=ni then range_error('Italic correction')
+@.Italic correction index for char...@>
+else begin left; out('CHARIC'); out_fix(italic(c)); right;
+ end
+
+@ @<Output the applicable part of the ligature...@>=
+begin left; out('COMMENT'); out_ln;@/
+i:=rremainder(c); r:=lig_step(i);
+if (l_skip_byte(r) mod 256)>stop_flag
+then i:=256*l_op_byte(r)+l_remainder(r);
+repeat @<Output step...@>;
+if (l_skip_byte(k) mod 256)>=stop_flag then i:=nl
+else i:=i+1+(l_skip_byte(k) mod 256);
+until i>=nl;
+right;
+end
+
+@ We want to make sure that there is no cycle of characters linked together
+by |list_tag| entries, since such a cycle would get \TeX\ into an endless
+loop. If such a cycle exists, the routine here detects it when processing
+the largest character code in the cycle.
+
+@<Output the character link unless there is a problem@>=
+begin r:=rremainder(c);
+if nonexistent(r) then begin
+ bad_char('Character list link to')(r); set_no_tag(c);
+@.Character list link...@>
+ end
+else begin
+ while (r<c)and(tag(r)=list_tag) do r:=rremainder(r);
+ if r=c then begin
+ bad('Cycle in a character list!');
+@.Cycle in a character list@>
+ print('Character '); print_hex(c);
+ print_ln(' now ends the list.');
+ set_no_tag(c);
+ end
+ else begin
+ left; out('NEXTLARGER'); out_char(rremainder(c));
+ right;
+ end;
+ end;
+end
+
+@ @<Output an extensible character recipe@>=
+if rremainder(c)>=ne then begin
+ range_error('Extensible'); set_no_tag(c);
+@.Extensible index for char@>
+ end
+else begin
+ left; out('VARCHAR'); out_ln;
+ @<Output the extensible pieces that exist@>;
+ right;
+ end
+
+@ @<Glob...@>=
+@!exten_char:integer;
+
+@ @<Output the extensible pieces that...@>=
+for d:=0 to 3 do begin
+ if not ofm_on then begin
+ k:=exten(c)+d;
+ exten_char:=tfm[k];
+ end
+ else begin
+ k:=exten(c)+2*d;
+ exten_char:=256*tfm[k]+tfm[k+1];
+ end;
+ if (d=3)or(exten_char>0) then begin
+ left;
+ case d of
+ 0:out('TOP');@+1:out('MID');@+2:out('BOT');@+3:out('REP')@+end;
+ if nonexistent(exten_char) then out_char(c)
+ else out_char(exten_char);
+ right;
+ end
+ end
+
+@ Some of the extensible recipes may not actually be used, but \TeX\ will
+complain about them anyway if they refer to nonexistent characters.
+Therefore \.{VFtoVP} must check them too.
+
+@<Check the extensible recipes@>=
+if ne>0 then
+ for c:=0 to ne-1 do
+ for d:=0 to 3 do begin
+ if not ofm_on then begin
+ k:=4*(exten_base+c)+d;
+ exten_char:=tfm[k];
+ end
+ else begin
+ k:=4*(exten_base+c)+2*d;
+ exten_char:=256*tfm[k]+tfm[k+1];
+ end;
+ if (exten_char>0)or(d=3) then begin
+ if nonexistent(exten_char) then begin
+ bad_char('Extensible recipe involves the')(exten_char);
+@.Extensible recipe involves...@>
+ if d<3 then begin
+ if not ofm_on then begin
+ tfm[k]:=0;
+ end
+ else begin
+ tfm[k]:=0;
+ tfm[k+1]:=0;
+ end;
+ end;
+ end;
+ end;
+ end
+
+@* Checking for ligature loops.
+We have programmed almost everything but the most interesting calculation of
+all, which has been saved for last as a special treat. \TeX's extended
+ligature mechanism allows unwary users to specify sequences of ligature
+replacements that never terminate. For example, the pair of commands
+$$\.{(/LIG $x$ $y$) (/LIG $y$ $x$)}$$
+alternately replaces character $x$ by character $y$ and vice versa. A similar
+loop occurs if \.{(LIG/ $z$ $y$)} occurs in the program for $x$ and
+ \.{(LIG/ $z$ $x$)} occurs in the program for $y$.
+
+More complicated loops are also possible. For example, suppose the ligature
+programs for $x$ and $y$ are
+$$\vcenter{\halign{#\hfil\cr
+\.{(LABEL $x$)(/LIG/ $z$ $w$)(/LIG/> $w$ $y$)} \dots,\cr
+\.{(LABEL $y$)(LIG $w$ $x$)} \dots;\cr}}$$
+then the adjacent characters $xz$ change to $xwz$, $xywz$, $xxz$, $xxwz$,
+\dots, ad infinitum.
+
+@ To detect such loops, \.{TFtoPL} attempts to evaluate the function
+$f(x,y)$ for all character pairs $x$ and~$y$, where $f$ is defined as
+follows: If the current character is $x$ and the next character is
+$y$, we say the ``cursor'' is between $x$ and $y$; when the cursor
+first moves past $y$, the character immediately to its left is
+$f(x,y)$. This function is defined if and only if no infinite loop is
+generated when the cursor is between $x$ and~$y$.
+
+The function $f(x,y)$ can be defined recursively. It turns out that all pairs
+$(x,y)$ belong to one of five classes. The simplest class has $f(x,y)=y$;
+this happens if there's no ligature between $x$ and $y$, or in the cases
+\.{LIG/>} and \.{/LIG/>>}. Another simple class arises when there's a
+\.{LIG} or \.{/LIG>} between $x$ and~$y$, generating the character~$z$;
+then $f(x,y)=z$. Otherwise we always have $f(x,y)$ equal to
+either $f(x,z)$ or $f(z,y)$ or $f(f(x,z),y)$, where $z$ is the inserted
+ligature character.
+
+The first two of these classes can be merged; we can also consider
+$(x,y)$ to belong to the simple class when $f(x,y)$ has been evaluated.
+For technical reasons we allow $x$ to be 256 (for the boundary character
+at the left) or 257 (in cases when an error has been detected).
+
+For each pair $(x,y)$ having a ligature program step, we store
+$(x,y)$ in a hash table from which the values $z$ and $class$ can be read.
+
+@d simple=0 {$f(x,y)=z$}
+@d left_z=1 {$f(x,y)=f(z,y)$}
+@d right_z=2 {$f(x,y)=f(x,z)$}
+@d both_z=3 {$f(x,y)=f(f(x,z),y)$}
+@d pending=4 {$f(x,y)$ is being evaluated}
+
+@<Glob...@>=
+@!hash:array[0..hash_size] of integer;
+@!class:array[0..hash_size] of simple..pending;
+@!lig_z:array[0..hash_size] of xxchar_type;
+@!hash_ptr:0..hash_size; {the number of nonzero entries in |hash|}
+@!hash_list:array[0..hash_size] of 0..hash_size;
+ {list of those nonzero entries}
+@!h,@!hh:0..hash_size; {indices into the hash table}
+@!x_lig_cycle,@!y_lig_cycle:xchar_type; {problematic ligature pair}
+
+@ @<Check for ligature cycles@>=
+hash_ptr:=0; y_lig_cycle:=xmax_char;
+for hh:=0 to hash_size do hash[hh]:=0; {clear the hash table}
+for c:=bc to ec do if tag(c)=lig_tag then begin
+ i:=rremainder(c);
+ if (l_skip_byte(lig_step(i)) mod 256)>stop_flag then
+ i:=256*l_op_byte(lig_step(i))+l_remainder(lig_step(i));
+ @<Enter data for character $c$ starting at location |i| in the hash table@>;
+ end;
+if bchar_label<nl then begin
+ c:=xmax_char; i:=bchar_label;
+ @<Enter data for character $c$ starting at location |i| in the hash table@>;
+ end;
+if hash_ptr=hash_size then begin
+ print_ln('Sorry, I haven''t room for so many ligature/kern pairs!');
+@.Sorry, I haven't room...@>
+ goto final_end;
+ end;
+for hh:=1 to hash_ptr do begin
+ r:=hash_list[hh];
+ if class[r]>simple then {make sure $f$ is defined}
+ r:=f(r,(hash[r]-1)div xmax_char,(hash[r]-1)mod xmax_char);
+ end;
+if y_lig_cycle<xmax_char then begin
+ print('Infinite ligature loop starting with ');
+@.Infinite ligature loop...@>
+ if x_lig_cycle=xmax_char
+ then print('boundary')@+else print_hex(x_lig_cycle);
+ print(' and '); print_hex(y_lig_cycle); print_ln('!');
+ out('(INFINITE LIGATURE LOOP MUST BE BROKEN!)'); goto final_end;
+ end
+
+@ @<Enter data for character $c$...@>=
+repeat hash_input; k:=l_skip_byte(lig_step(i));
+if k>=stop_flag then i:=nl
+else i:=i+1+k;
+until i>=nl
+
+@ We use an ``ordered hash table'' with linear probing, because such a table
+is efficient when the lookup of a random key tends to be unsuccessful.
+
+@p procedure hash_input; {enter data for character |c| and command |i|}
+label 30; {go here for a quick exit}
+var @!cc:simple..both_z; {class of data being entered}
+@!zz:char_type; {function value or ligature character being entered}
+@!y:char_type; {the character after the cursor}
+@!key:integer; {value to be stored in |hash|}
+@!t:integer; {temporary register for swapping}
+begin if hash_ptr=hash_size then goto 30;
+@<Compute the command parameters |y|, |cc|, and |zz|@>;
+key:=xmax_char*c+y+1; h:=(hash_mult*(key mod hash_size)) mod hash_size;
+while hash[h]>0 do begin
+ if hash[h]<=key then begin
+ if hash[h]=key then goto 30; {unused ligature command}
+ t:=hash[h]; hash[h]:=key; key:=t; {do ordered-hash-table insertion}
+ t:=class[h]; class[h]:=cc; cc:=t; {namely, do a swap}
+ t:=lig_z[h]; lig_z[h]:=zz; zz:=t;
+ end;
+ if h>0 then decr(h)@+else h:=hash_size;
+ end;
+hash[h]:=key; class[h]:=cc; lig_z[h]:=zz;
+incr(hash_ptr); hash_list[hash_ptr]:=h;
+30:end;
+
+@ We must store kern commands as well as ligature commands, because
+the former might make the latter inapplicable.
+
+@<Compute the command param...@>=
+k:=lig_step(i); y:=l_next_char(k); t:=l_op_byte(k);
+cc:=simple; zz:=l_remainder(k);
+if t>=kern_flag then zz:=y
+else begin case t of
+ 0,6:do_nothing; {\.{LIG},\.{/LIG>}}
+ 5,11:zz:=y; {\.{LIG/>}, \.{/LIG/>>}}
+ 1,7:cc:=left_z; {\.{LIG/}, \.{/LIG/>}}
+ 2:cc:=right_z; {\.{/LIG}}
+ 3:cc:=both_z; {\.{/LIG/}}
+ end; {there are no other cases}
+ end
+
+@ Evaluation of $f(x,y)$ is handled by two mutually recursive procedures.
+Kind of a neat algorithm, generalizing a depth-first search.
+
+@p function f(@!h,@!x,@!y:index):index; forward;@t\2@>
+ {compute $f$ for arguments known to be in |hash[h]|}
+function eval(@!x,@!y:index):index; {compute $f(x,y)$ with hashtable lookup}
+var @!key:integer; {value sought in hash table}
+begin key:=xmax_char*x+y+1; h:=(hash_mult*key) mod hash_size;
+while hash[h]>key do
+ if h>0 then decr(h)@+else h:=hash_size;
+if hash[h]<key then eval:=y {not in ordered hash table}
+else eval:=f(h,x,y);
+end;
+
+@ Pascal's beastly convention for |forward| declarations prevents us from
+saying |function f(h,x,y:index):index| here.
+
+@p function f;
+begin case class[h] of
+simple: do_nothing;
+left_z: begin class[h]:=pending; lig_z[h]:=eval(lig_z[h],y); class[h]:=simple;
+ end;
+right_z: begin class[h]:=pending; lig_z[h]:=eval(x,lig_z[h]); class[h]:=simple;
+ end;
+both_z: begin class[h]:=pending; lig_z[h]:=eval(eval(x,lig_z[h]),y);
+ class[h]:=simple;
+ end;
+pending: begin x_lig_cycle:=x; y_lig_cycle:=y;
+ lig_z[h]:=xxmax_char; class[h]:=simple;
+ end; {the value |xxmax_char| will break all cycles,
+ since it's not in |hash|}
+end; {there are no other cases}
+f:=lig_z[h];
+end;
+
+@* Outputting the VF info.
+The routines we've used for output from the |tfm| array have counterparts
+for output from |vf|. One difference is that the string outputs from |vf|
+need to be checked for balanced parentheses. The |string_balance| routine
+tests the string of length~|l| that starts at location~|k|.
+
+@p function string_balance(@!k,@!l:integer):boolean;
+label not_found,exit;
+var @!j,@!bal:integer;
+begin if l>0 then if vf[k]=" " then goto not_found;
+ {a leading blank is considered unbalanced}
+bal:=0;
+for j:=k to k+l-1 do begin
+ if (vf[j]<" ")or(vf[j]>=127) then goto not_found;
+ if vf[j]="(" then incr(bal)
+ else if vf[j]=")" then
+ if bal=0 then goto not_found else decr(bal);
+ end;
+if bal>0 then goto not_found;
+string_balance:=true; return;
+not_found:string_balance:=false;
+exit:end;
+
+@ @d bad_vf(#)==begin perfect:=false; if chars_on_line>0 then print_ln(' ');
+ chars_on_line:=0; print_ln('Bad OVF file: ',#);
+ end
+@.Bad OVF file@>
+
+@<Do the virtual font title@>=
+if string_balance(0,font_start[0]) then begin
+ left; out('VTITLE ');
+ for k:=0 to font_start[0]-1 do out(xchr[vf[k]]);
+ right;
+ end
+else bad_vf('Title is not a balanced ASCII string')
+@.Title is not balanced@>
+
+@ We can re-use some code by moving |fix_word| data to |tfm|, using the
+fact that the design size has already been output.
+
+@p procedure out_as_fix(@!x:integer);
+var @!k:1..3;
+begin if abs(x)>=@'100000000 then
+ bad_vf('Oversize dimension has been reset to zero.');
+@.Oversize dimension...@>
+if x>=0 then tfm[design_size]:=0
+else begin
+ tfm[design_size]:=255; x:=x+@'100000000;
+ end;
+for k:=3 downto 1 do begin
+ tfm[design_size+k]:=x mod 256; x:=x div 256;
+ end;
+out_fix(design_size);
+end;
+
+@ @<Do the local fonts@>=
+for f:=0 to font_ptr-1 do begin
+ left; out('MAPFONT D ',f:1); out_ln;
+ @<Output the font area and name@>;
+ for k:=0 to 11 do tfm[k]:=vf[font_start[f]+k];
+ if tfm[0]+tfm[1]+tfm[2]+tfm[3]>0 then begin
+ left; out('FONTCHECKSUM'); out_hex(0,4); right;
+ end;
+ left; out('FONTAT'); out_fix(4); right;
+ left; out('FONTDSIZE'); out_fix(8); right; right;
+ end
+
+@ @<Output the font area and name@>=
+a:=vf[font_start[f]+12]; l:=vf[font_start[f]+13];
+if a>0 then
+ if not string_balance(font_start[f]+14,a) then
+ bad_vf('Improper font area will be ignored')
+@.Improper font area@>
+ else begin
+ left; out('FONTAREA ');
+ for k:=font_start[f]+14 to font_start[f]+a+13 do out(xchr[vf[k]]);
+ right;
+ end;
+if (l=0)or not string_balance(font_start[f]+14+a,l) then
+ bad_vf('Improper font name will be ignored')
+@.Improper font name@>
+else begin
+ left; out('FONTNAME ');
+ for k:=font_start[f]+14+a to font_start[f]+a+l+13 do out(xchr[vf[k]]);
+ right;
+ end
+
+@ Now we get to the interesting part of \.{VF} output, where \.{DVI}
+commands are translated into symbolic form. The \.{VPL} language is a subset
+of \.{DVI}, so we sometimes need to output semantic equivalents of
+the commands instead of producing a literal translation. This causes a
+small but tolerable loss of efficiency. We need to simulate the stack
+used by \.{DVI}-reading software.
+
+@<Glob...@>=
+@!top:0..max_stack; {\.{DVI} stack pointer}
+@!wstack,@!xstack,@!ystack,@!zstack:array[0..max_stack] of integer;
+ {stacked values of \.{DVI} registers |w|, |x|, |y|, |z|}
+@!vf_limit:0..vf_size; {the current packet ends here}
+@!o:byte; {the current opcode}
+
+@ @<Do the packet for character |c|@>=
+if packet_start[c]=vf_size then
+ bad_vf('Missing packet for character ',c:1)
+@.Missing packet@>
+else begin
+ left; out('MAP'); out_ln;
+ top:=0; wstack[0]:=0; xstack[0]:=0; ystack[0]:=0; zstack[0]:=0;
+ vf_ptr:=packet_start[c]; vf_limit:=packet_end[c]+1; f:=0;
+ while vf_ptr<vf_limit do begin
+ o:=vf[vf_ptr]; incr(vf_ptr);
+ case o of
+ @<Cases of \.{DVI} instructions that can appear in character packets@>@;
+ improper_DVI_for_VF: bad_vf('Illegal DVI code ',o:1,' will be ignored');
+ end; {there are no other cases}
+ end;
+ if top>0 then begin
+ bad_vf('More pushes than pops!');
+@.More pushes than pops@>
+ repeat out('(POP)'); decr(top);@+until top=0;
+ end;
+ right;
+ end
+
+@ A procedure called |get_bytes| helps fetch the parameters of \.{DVI} commands.
+
+@p function get_bytes(@!k:integer;@!signed:boolean):integer;
+var @!a:integer; {accumulator}
+begin if vf_ptr+k>vf_limit then begin
+ bad_vf('Packet ended prematurely'); k:=vf_limit-vf_ptr;
+ end;
+a:=vf[vf_ptr];
+if (k=4) or signed then
+ if a>=128 then a:=a-256;
+incr(vf_ptr);
+while k>1 do begin
+ a:=a*256+vf[vf_ptr]; incr(vf_ptr); decr(k);
+ end;
+get_bytes:=a;
+end;
+
+@ Let's look at the simplest cases first, in order to get some experience.
+
+@d four_cases(#)==#,#+1,#+2,#+3
+@d eight_cases(#)==four_cases(#),four_cases(#+4)
+@d sixteen_cases(#)==eight_cases(#),eight_cases(#+8)
+@d thirty_two_cases(#)==sixteen_cases(#),sixteen_cases(#+16)
+@d sixty_four_cases(#)==thirty_two_cases(#),thirty_two_cases(#+32)
+
+@<Cases...@>=
+nop:do_nothing;
+push:begin if top=max_stack then
+ begin print_ln('Stack overflow!'); goto final_end;
+@.Stack overflow@>
+ end;
+ incr(top); wstack[top]:=wstack[top-1]; xstack[top]:=xstack[top-1];
+ ystack[top]:=ystack[top-1]; zstack[top]:=zstack[top-1]; out('(PUSH)');
+ out_ln;
+ end;
+pop:if top=0 then bad_vf('More pops than pushes!')
+@.More pops than pushes@>
+ else begin decr(top); out('(POP)'); out_ln;
+ end;
+set_rule,put_rule:begin if o=put_rule then out('(PUSH)');
+ left; out('SETRULE'); out_as_fix(get_bytes(4,true));
+ out_as_fix(get_bytes(4,true));
+ if o=put_rule then out(')(POP');
+ right;
+ end;
+
+@ Horizontal and vertical motions become \.{RIGHT} and \.{DOWN} in \.{VPL}
+lingo.
+
+@<Cases...@>=
+four_cases(right1):begin out('(MOVERIGHT');
+ out_as_fix(get_bytes(o-right1+1,true));
+ out(')'); out_ln;@+end;
+w0,four_cases(w1):begin if o<>w0 then wstack[top]:=get_bytes(o-w1+1,true);
+ out('(MOVERIGHT'); out_as_fix(wstack[top]); out(')'); out_ln;@+end;
+x0,four_cases(x1):begin if o<>x0 then xstack[top]:=get_bytes(o-x1+1,true);
+ out('(MOVERIGHT'); out_as_fix(xstack[top]); out(')'); out_ln;@+end;
+four_cases(down1):begin out('(MOVEDOWN'); out_as_fix(get_bytes(o-down1+1,true));
+ out(')'); out_ln;@+end;
+y0,four_cases(y1):begin if o<>y0 then ystack[top]:=get_bytes(o-y1+1,true);
+ out('(MOVEDOWN'); out_as_fix(ystack[top]); out(')'); out_ln;@+end;
+z0,four_cases(z1):begin if o<>z0 then zstack[top]:=get_bytes(o-z1+1,true);
+ out('(MOVEDOWN'); out_as_fix(zstack[top]); out(')'); out_ln;@+end;
+
+@ Variable |f| always refers to the current font. If |f=font_ptr|, it's
+a font that hasn't been defined (so its characters will be ignored).
+
+@<Cases...@>=
+sixty_four_cases(fnt_num_0),four_cases(fnt1):begin f:=0;
+ if o>=fnt1 then font_number[font_ptr]:=get_bytes(o-fnt1+1,false)
+ else font_number[font_ptr]:=o-fnt_num_0;
+ while font_number[f]<>font_number[font_ptr] do incr(f);
+ if f=font_ptr then bad_vf('Undeclared font selected')
+@.Undeclared font selected@>
+ else begin out('(SELECTFONT D ',f:1,')'); out_ln;
+ end;
+ end;
+
+@ Before we typeset a character we make sure that it exists.
+
+@<Cases...@>=
+sixty_four_cases(set_char_0),sixty_four_cases(set_char_0+64),
+ four_cases(set1),four_cases(put1):begin if o>=set1 then
+ if o>=put1 then c:=get_bytes(o-put1+1,false)
+ else c:=get_bytes(o-set1+1,false)
+ else c:=o;
+ if f=font_ptr then
+ bad_vf('Character ',c:1,' in undeclared font will be ignored')
+@.Character...will be ignored@>
+ else begin vf[font_start[f+1]-1]:=c; {store |c| in the ``hole'' we left}
+ k:=font_chars[f];@+while vf[k]<>c do incr(k);
+ if k=font_start[f+1]-1 then
+ bad_vf('Character ',c:1,' in font ',f:1,' will be ignored')
+ else begin if o>=put1 then out('(PUSH)');
+ left; out('SETCHAR'); out_char(c);
+ if o>=put1 then out(')(POP');
+ right;
+ end;
+ end;
+ end;
+
+@ The ``special'' commands are the only ones remaining to be dealt with.
+We use a hexadecimal
+output in the general case, if a simple string would be inadequate.
+
+@d vf_out_hex(#)==begin a:=#;
+ if a<10 then out(a:1)
+ else out(xchr[a-10+"A"]);
+ end
+
+@<Cases...@>=
+four_cases(xxx1):begin k:=get_bytes(o-xxx1+1,false);
+ if k<0 then bad_vf('String of negative length!')
+ else begin left;
+ if k+vf_ptr>vf_limit then
+ begin bad_vf('Special command truncated to packet length');
+ k:=vf_limit-vf_ptr;
+ end;
+ if (k>64)or not string_balance(vf_ptr,k) then
+ begin out('SPECIALHEX ');
+ while k>0 do
+ begin if k mod 32=0 then out_ln
+ else if k mod 4=0 then out(' ');
+ vf_out_hex(vf[vf_ptr] div 16); vf_out_hex(vf[vf_ptr] mod 16);
+ incr(vf_ptr); decr(k);
+ end;
+ end
+ else begin out('SPECIAL ');
+ while k>0 do
+ begin out(xchr[vf[vf_ptr]]); incr(vf_ptr); decr(k);
+ end;
+ end;
+ right;
+ end;
+ end;
+
+@* The main program.
+The routines sketched out so far need to be packaged into separate procedures,
+on some systems, since some \PASCAL\ compilers place a strict limit on the
+size of a routine. The packaging is done here in an attempt to avoid some
+system-dependent changes.
+
+First come the |vf_input| and |organize| procedures, which read the input data
+and get ready for subsequent events. If something goes wrong, the routines
+return |false|.
+
+@p function vf_input:boolean;
+label final_end, exit;
+var vf_ptr:0..vf_size; {an index into |vf|}
+@!k:integer; {all-purpose index}
+@!c:integer; {character code}
+begin @<Read the whole \.{VF} file@>;
+vf_input:=true; return;
+final_end: vf_input:=false;
+exit: end;
+@#
+function organize:boolean;
+label final_end, exit;
+var tfm_ptr:index; {an index into |tfm|}
+begin @<Read the whole font metric file@>;
+@<Set subfile sizes |lh|, |bc|, \dots, |np|@>;
+@<Compute the base addresses@>;
+organize:=vf_input; return;
+final_end: organize:=false;
+exit: end;
+
+@ Next we do the simple things.
+
+@p procedure do_simple_things;
+var i:0..@'77777; {an index to words of a subfile}
+@!f:0..vf_size; {local font number}
+@!k:integer; {all-purpose index}
+begin @<Do the virtual font title@>;
+@<Do the header@>;
+@<Do the parameters@>;
+@<Do the ivalue parameters@>;@/
+@<Do the fvalue parameters@>;@/
+@<Do the rule parameters@>;@/
+@<Do the glue parameters@>;@/
+@<Do the penalty parameters@>;@/
+@<Do the local fonts@>;
+@<Check the |fix_word| entries@>;
+end;
+
+@ And then there's a routine for individual characters.
+
+@p function do_map(@!c:integer):boolean;
+label final_end,exit;
+var @!k:integer;
+@!f:0..vf_size; {current font number}
+begin @<Do the packet for character |c|@>;
+do_map:=true; return;
+final_end: do_map:=false;
+exit:end;
+@#
+function do_characters:boolean;
+label final_end, exit;
+var @!c:integer; {character being done}
+@!k:index; {a random index}
+@!ai:0..lig_size; {index into |activity|}
+begin @<Do the characters@>;@/
+do_characters:=true; return;
+final_end: do_characters:=false;
+exit:end;
+
+@ Here is where \.{VFtoVP} begins and ends.
+@p begin initialize;@/
+if not organize then goto final_end;
+do_simple_things;@/
+@<Do the ligatures and kerns@>;
+@<Check the extensible recipes@>;
+if not do_characters then goto final_end;
+print_ln('.');@/
+if level<>0 then print_ln('This program isn''t working!');
+@.This program isn't working@>
+if not perfect then begin
+ out('(COMMENT THE OFM AND/OR OVF FILE WAS BAD, ');
+ out('SO THE DATA HAS BEEN CHANGED!)');
+ end;
+@.THE OFM AND/OR OVF FILE WAS BAD...@>
+final_end:end.
+
+@* System-dependent changes.
+This section should be replaced, if necessary, by changes to the program
+that are necessary to make \.{VFtoVP} work at a particular installation.
+It is usually best to design your change file so that all changes to
+previous sections preserve the section numbering; then everybody's version
+will be consistent with the printed program. More extensive changes,
+which introduce new sections, can be inserted here; then only the index
+itself will get a new section number.
+@^system dependencies@>
+
+@* Index.
+Pointers to error messages appear here together with the section numbers
+where each ident\-i\-fier is used.
diff --git a/Build/source/texk/web2c/omegaware/ovp2ovf.ch b/Build/source/texk/web2c/omegaware/ovp2ovf.ch
new file mode 100644
index 00000000000..058f755c138
--- /dev/null
+++ b/Build/source/texk/web2c/omegaware/ovp2ovf.ch
@@ -0,0 +1,320 @@
+%
+% This file is part of the Omega project, which
+% is based in the web2c distribution of TeX.
+%
+% Copyright (c) 1994--1998 John Plaice and Yannis Haralambous
+% applies only to the changes to the original vptovf.ch.
+%
+% vptovf.ch for C compilation with web2c.
+
+@x [0] WEAVE: print changes only.
+\pageno=\contentspagenumber \advance\pageno by 1
+@y
+\pageno=\contentspagenumber \advance\pageno by 1
+%\let\maybe=\iffalse
+%\def\title{OVP2OVF changes for C}
+@z
+
+@x [2] Print the banner later.
+procedure initialize; {this procedure gets things started properly}
+ var @<Local variables for initialization@>@/
+ begin print_ln(banner);@/
+@y
+@<Define |parse_arguments|@>
+procedure initialize; {this procedure gets things started properly}
+ var @<Local variables for initialization@>@/
+ begin
+ kpse_set_progname (argv[0]);
+ parse_arguments;
+@z
+
+@x [3] Increase constants.
+@!buf_size=60; {length of lines displayed in error messages}
+@y
+@!buf_size=3000; {max input line length, output error line length}
+@z
+%@x
+%@!vf_size=10000; {maximum length of |vf| data, in bytes}
+%@!max_stack=100; {maximum depth of simulated \.{DVI} stack}
+%@!max_param_words=30; {the maximum number of \.{fontdimen} parameters allowed}
+%@!max_lig_steps=5000;
+% {maximum length of ligature program, must be at most $32767-257=32510$}
+%@!max_kerns=500; {the maximum number of distinct kern values}
+%@!hash_size=5003; {preferably a prime number, a bit larger than the number
+% of character pairs in lig/kern steps}
+%@y
+%@!vf_size=50000; {maximum length of |vf| data, in bytes}
+%@!max_stack=100; {maximum depth of simulated \.{DVI} stack}
+%@!max_param_words=30; {the maximum number of \.{fontdimen} parameters allowed}
+%@!max_lig_steps=10000;
+% {maximum length of ligature program, must be at most $32767-257=32510$}
+%@!max_kerns=10000; {the maximum number of distinct kern values}
+%@!hash_size=10007; {preferably a prime number, a bit larger than the number
+% of character pairs in lig/kern steps}
+%@z
+
+@x [6] Open VPL file.
+reset(vpl_file);
+@y
+reset (vpl_file, vpl_name);
+if verbose then begin
+ print (banner);
+ print_ln (banner);
+end;
+@z
+
+@x [22] Open output files.
+@ On some systems you may have to do something special to write a
+packed file of bytes. For example, the following code didn't work
+when it was first tried at Stanford, because packed files have to be
+opened with a special switch setting on the \PASCAL\ that was used.
+@^system dependencies@>
+
+@<Set init...@>=
+rewrite(vf_file); rewrite(tfm_file);
+@y
+@ On some systems you may have to do something special to write a
+packed file of bytes.
+@^system dependencies@>
+
+@<Set init...@>=
+rewritebin (vf_file, vf_name);
+rewritebin (tfm_file, tfm_name);
+@z
+
+% [89] `index' is not a good choice for an identifier on Unix systems.
+% Neither is `class', on AIX.
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@x
+|k|th element of its list.
+@y
+|k|th element of its list.
+
+@d index == index_var
+@d class == class_var
+@z
+
+@x [118] No output unless verbose.
+@<Print |c| in hex notation@>;
+@y
+if verbose then @<Print |c| in hex notation@>;
+@z
+
+@x
+@!HEX: packed array [1..32] of char;
+@y
+@!HEX: c_string;
+@z
+
+@x
+HEX:='0123456789ABCDEF';@/
+@y
+HEX:=' 0123456789ABCDEF';@/
+@z
+
+@x [144] Output of real numbers.
+@ @d round_message(#)==if delta>0 then print_ln('I had to round some ',
+@.I had to round...@>
+ #,'s by ',(((delta+1) div 2)/@'4000000):1:7,' units.')
+@y
+@ @d round_message(#)==if delta>0 then begin print('I had to round some ',
+@.I had to round...@>
+ #,'s by '); print_real((((delta+1) div 2)/@'4000000),1,7);
+ print_ln(' units.'); end
+@z
+
+@x [152] Fix up the mutually recursive procedures a la pltotf.
+@p function f(@!h,@!x,@!y:indx):indx; forward;@t\2@>
+ {compute $f$ for arguments known to be in |hash[h]|}
+@y
+@p
+ifdef('notdef')
+function f(@!h,@!x,@!y:indx):indx; begin end;@t\2@>
+ {compute $f$ for arguments known to be in |hash[h]|}
+endif('notdef')
+@z
+
+@x [153] Finish fixing up f.
+@p function f;
+@y
+@p function f(@!h,@!x,@!y:indx):indx;
+@z
+
+@x [156] Change TFM-byte output to fix ranges.
+@d out(#)==write(tfm_file,#)
+@y
+@d out(#)==putbyte(#,tfm_file)
+@z
+
+@x [165] Fix output of reals.
+@p procedure out_scaled(x:fix_word); {outputs a scaled |fix_word|}
+var @!n:byte; {the first byte after the sign}
+@!m:0..65535; {the two least significant bytes}
+begin if abs(x/design_units)>=16.0 then begin
+ print_ln('The relative dimension ',x/@'4000000:1:3,
+ ' is too large.');
+@.The relative dimension...@>
+ print(' (Must be less than 16*designsize');
+ if design_units<>unity then print(' =',design_units/@'200000:1:3,
+ ' designunits');
+@y
+@p procedure out_scaled(x:fix_word); {outputs a scaled |fix_word|}
+var @!n:byte; {the first byte after the sign}
+@!m:0..65535; {the two least significant bytes}
+begin if fabs(x/design_units)>=16.0 then begin
+ print('The relative dimension ');
+ print_real(x/@'4000000,1,3);
+ print_ln(' is too large.');
+@.The relative dimension...@>
+ print(' (Must be less than 16*designsize');
+ if design_units<>unity then begin print(' =');
+ print_real(design_units/@'200000,1,3);
+ print(' designunits');
+ end;
+@z
+
+% [141] char_remainder[c] is unsigned, and label_table[sort_ptr].rr
+% might be -1, and if -1 is coerced to being unsigned, it will be bigger
+% than anything else.
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+@x
+ while label_table[sort_ptr].rr>char_remainder[c] do begin
+@y
+ while label_table[sort_ptr].rr>intcast(char_remainder[c]) do begin
+@z
+
+@x [175] Change VF-byte output to fix ranges.
+@d vout(#)==write(vf_file,#)
+@y
+@d vout(#)==putbyte(#,vf_file)
+@z
+
+@x [181] Be quiet unless verbose.
+read_input; print_ln('.');@/
+@y
+read_input;
+if verbose then print_ln('.');
+@z
+
+@x [182] System-dependent changes.
+This section should be replaced, if necessary, by changes to the program
+that are necessary to make \.{VPtoVF} work at a particular installation.
+It is usually best to design your change file so that all changes to
+previous sections preserve the section numbering; then everybody's version
+will be consistent with the printed program. More extensive changes,
+which introduce new sections, can be inserted here; then only the index
+itself will get a new section number.
+@^system dependencies@>
+@y
+Parse a Unix-style command line.
+
+@d argument_is (#) == (strcmp (long_options[option_index].name, #) = 0)
+
+@<Define |parse_arguments|@> =
+procedure parse_arguments;
+const n_options = 3; {Pascal won't count array lengths for us.}
+var @!long_options: array[0..n_options] of getopt_struct;
+ @!getopt_return_val: integer;
+ @!option_index: c_int_type;
+ @!current_option: 0..n_options;
+begin
+ @<Initialize the option variables@>;
+ @<Define the option table@>;
+ repeat
+ getopt_return_val := getopt_long_only (argc, argv, '', long_options,
+ address_of (option_index));
+ if getopt_return_val = -1 then begin
+ {End of arguments; we exit the loop below.} ;
+
+ end else if getopt_return_val = "?" then begin
+ usage ('ovp2ovf'); {|getopt| has already given an error message.}
+
+ end else if argument_is ('help') then begin
+ usage_help (OVP2OVF_HELP, nil);
+
+ end else if argument_is ('version') then begin
+ print_version_and_exit
+ (banner, nil, 'J. Plaice, Y. Haralambous, D.E. Knuth', nil);
+
+ end; {Else it was a flag; |getopt| has already done the assignment.}
+ until getopt_return_val = -1;
+
+ {Now |optind| is the index of first non-option on the command line.
+ We must have one to three remaining arguments.}
+ if (optind + 1 <> argc) and (optind + 2 <> argc)
+ and (optind + 3 <> argc) then begin
+ write_ln (stderr, 'ovp2ovf: Need one to three file arguments.');
+ usage ('ovp2ovf');
+ end;
+
+ vpl_name := extend_filename (cmdline (optind), 'ovp');
+
+ if optind + 2 <= argc then begin
+ {Specified one or both of the output files.}
+ vf_name := extend_filename (cmdline (optind + 1), 'ovf');
+ if optind + 3 <= argc then begin {Both.}
+ tfm_name := extend_filename (cmdline (optind + 2), 'ofm');
+ end else begin {Just one.}
+ tfm_name := extend_filename (cmdline (optind + 1), 'ofm');
+ end;
+ end else begin {Neither.}
+ vf_name := basename_change_suffix (vpl_name, '.ovp', '.ovf');
+ tfm_name := basename_change_suffix (vpl_name, '.ovp', '.ofm');
+ end;
+end;
+
+@ Here are the options we allow. The first is one of the standard GNU options.
+@.-help@>
+
+@<Define the option...@> =
+current_option := 0;
+long_options[current_option].name := 'help';
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+incr (current_option);
+
+@ Another of the standard options.
+@.-version@>
+
+@<Define the option...@> =
+long_options[current_option].name := 'version';
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+incr (current_option);
+
+@ Print progress information?
+@.-verbose@>
+
+@<Define the option...@> =
+long_options[current_option].name := 'verbose';
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := address_of (verbose);
+long_options[current_option].val := 1;
+incr (current_option);
+
+@ The global variable |verbose| determines whether or not we print
+progress information.
+
+@<Glob...@> =
+@!verbose: c_int_type;
+
+@ It starts off |false|.
+
+@<Initialize the option...@> =
+verbose := false;
+
+@ An element with all zeros always ends the list.
+
+@<Define the option...@> =
+long_options[current_option].name := 0;
+long_options[current_option].has_arg := 0;
+long_options[current_option].flag := 0;
+long_options[current_option].val := 0;
+
+@ Global filenames.
+
+@<Global...@> =
+@!vpl_name, @!tfm_name, @!vf_name:c_string;
+@z
diff --git a/Build/source/texk/web2c/omegaware/ovp2ovf.web b/Build/source/texk/web2c/omegaware/ovp2ovf.web
new file mode 100644
index 00000000000..0b6a6a329a7
--- /dev/null
+++ b/Build/source/texk/web2c/omegaware/ovp2ovf.web
@@ -0,0 +1,5071 @@
+%
+% This file is part of the Omega project, which
+% is based in the web2c distribution of TeX.
+%
+% Copyright (c) 1994--2000 John Plaice and Yannis Haralambous
+% applies only to the changes to the original vptovf.web.
+%
+% This program by D. E. Knuth is not copyrighted and can be used freely.
+% Version 1 was implemented in December 1989.
+% Version 1.1 fixed some for-loop indices for stricter Pascal (April 1990).
+% Version 1.2 fixed `nonexistent char 0' bug, and a bit more (September 1990).
+% Version 1.3 has more robust `out_scaled' (March 1991).
+% Version 1.4 (March 1995) initialized lk_step_ended (Armin K\"ollner).
+
+% Here is TeX material that gets inserted after \input webmac
+\def\hang{\hangindent 3em\indent\ignorespaces}
+\font\ninerm=cmr9
+\let\mc=\ninerm % medium caps for names like SAIL
+\def\PASCAL{Pascal}
+\font\logo=logo10 % for the METAFONT logo
+\def\MF{{\logo METAFONT}}
+
+\def\(#1){} % this is used to make section names sort themselves better
+\def\9#1{} % this is used for sort keys in the index
+
+\def\title{OVP2OVF}
+\def\contentspagenumber{201}
+\def\topofcontents{\null
+ \def\titlepage{F} % include headline on the contents page
+ \def\rheader{\mainfont\hfil \contentspagenumber}
+ \vfill
+ \centerline{\titlefont The {\ttitlefont OVP2OVF} processor}
+ \vskip 15pt
+ \centerline{(Version 1.11, February 2000)}
+ \vfill}
+\def\botofcontents{\vfill
+ \centerline{\hsize 5in\baselineskip9pt
+ \vbox{\ninerm\noindent
+ The preparation of this program
+ was supported in part by the National Science
+ Foundation and by the System Development Foundation. `\TeX' is a
+ trademark of the American Mathematical Society.}}}
+\pageno=\contentspagenumber \advance\pageno by 1
+
+@* Introduction.
+The \.{OVP2OVF} utility program converts virtual-property-list (``\.{VPL}''
+and ``\.{OVP}'') files into an equivalent pair of files called a virtual
+font (``\.{OVF}'') file and an $\Omega$ font metric (``\.{OFM}'') file.
+It also makes a thorough check of the given \.{VPL} or \.{OVP} file,
+so that the \.{OVF} file should be acceptable to device drivers and
+the \.{OFM} file should be acceptable to $\Omega$.
+
+In the following documentation, all unchanged references to
+the \.{VPtoVF} program and to \.{VPL}, \.{VF} and \.{TFM} files also apply to
+the \.{OVP2OVF} program and to \.{OVP}, \.{OVF} and \.{OFM} files.
+
+\indent\.{VPtoVF} is an extended version of the program \.{PLtoTF}, which
+is part of the standard \TeX ware library.
+\.{OVP2OVF} is an extended version of \.{VPtoVF} that allows
+much larger fonts.
+The idea of a virtual font was inspired by the work of David R. Fuchs
+@^Fuchs, David Raymond@>
+who designed a similar set of conventions in 1984 while developing a
+device driver for ArborText, Inc. He wrote a somewhat similar program
+called \.{PLFONT}.
+
+The |banner| string defined here should be changed whenever \.{OVP2OVF}
+gets modified.
+
+@d banner=='This is OVP2OVF, Version 1.11'
+{printed when the program starts}
+
+@ This program is written entirely in standard \PASCAL, except that
+it has to do some slightly system-dependent character code conversion
+on input. Furthermore, lower case letters are used in error messages;
+they could be converted to upper case if necessary. The input is read
+from |vpl_file|, and the output is written on |vf_file| and |tfm_file|;
+error messages and
+other remarks are written on the |output| file, which the user may
+choose to assign to the terminal if the system permits it.
+@^system dependencies@>
+
+The term |print| is used instead of |write| when this program writes on
+the |output| file, so that all such output can be easily deflected.
+
+@d print(#)==write(#)
+@d print_ln(#)==write_ln(#)
+
+@p program OVP2OVF(@!vpl_file,@!vf_file,@!tfm_file,@!output);
+const @<Constants in the outer block@>@/
+type @<Types in the outer block@>@/
+var @<Globals in the outer block@>@/
+procedure initialize; {this procedure gets things started properly}
+ var @<Local variables for initialization@>@/
+ begin print_ln(banner);@/
+ @<Set initial values@>@/
+ end;
+
+@ The following parameters can be changed at compile time to extend or
+reduce \.{VPtoVF}'s capacity.
+
+@<Constants...@>=
+@!ofm_type=0; {16-bit OFM; sufficient for most purposes}
+@!max_char=65535; {the largest character number in a font}
+@!xmax_char=65536; {|max_char|+1}
+@!xxmax_char=65537;{|max_char|+2}
+@!mem_size=262148; {|max_char|*4+8}
+@!max_font=1000; {the largest font number}
+@!xmax_font=1001; {|max_font|+1}
+@!xxmax_font=1002; {|max_font|+2}
+@!max_width=65535; {the largest character width number}
+@!max_height=255; {the largest character height number}
+@!max_depth=255; {the largest character depth number}
+@!max_italic=255; {the largest character italic correction number}
+@!buf_size=60; {length of lines displayed in error messages}
+@!max_header_bytes=100; {four times the maximum number of words allowed in
+ the \.{TFM} file header block, must be 1024 or less}
+@!vf_size=200000; {maximum length of |vf| data, in bytes}
+@!max_stack=100; {maximum depth of simulated \.{DVI} stack}
+@!max_param_words=100; {the maximum number of \.{fontdimen} parameters allowed}
+@!max_lig_steps=800000; {maximum length of ligature program}
+@!xmax_label=800001; {must be greater than |max_lig_steps|}
+@!hash_size=130003; {preferably a prime number,
+ a bit larger than |max_lig_steps|, the number
+ of character pairs in lig/kern steps}
+@!hash_mult=16007; {another prime}
+@!max_kerns=100000; {the maximum number of distinct kern values}
+
+@ Here are some macros for common programming idioms.
+
+@d incr(#) == #:=#+1 {increase a variable by unity}
+@d decr(#) == #:=#-1 {decrease a variable by unity}
+@d do_nothing == {empty statement}
+
+@* Property list description of font metric data.
+The idea behind \.{VPL} files is that precise details about fonts, i.e., the
+facts that are needed by typesetting routines like \TeX, sometimes have to
+be supplied by hand. The nested property-list format provides a reasonably
+convenient way to do this.
+
+A good deal of computation is necessary to parse and process a
+\.{VPL} file, so it would be inappropriate for \TeX\ itself to do this
+every time it loads a font. \TeX\ deals only with the compact descriptions
+of font metric data that appear in \.{TFM} files. Such data is so compact,
+however, it is almost impossible for anybody but a computer to read it.
+
+Device drivers also need a compact way to describe mappings from \TeX's idea
+of a font to the actual characters a device can produce. They can do this
+conveniently when given a packed sequence of bytes called a \.{VF} file.
+
+The purpose of \.{VPtoVF} is to convert from a human-oriented file of text
+to computer-oriented files of binary numbers. There's a companion program,
+\.{VFtoVP}, which goes the other way.
+
+@<Glob...@>=
+@!vpl_file:text;
+
+@ @<Set init...@>=
+reset(vpl_file);
+
+@ A \.{VPL} file is like a \.{PL} file with a few extra features, so we
+can begin to define it by reviewing the definition of \.{PL} files. The
+material in the next few sections is copied from the program \.{PLtoTF}.
+An \.{OVP} file is simply a \.{VPL} file that does not restrict fonts
+to 256 characters.
+
+A \.{PL} file is a list of entries of the form
+$$\.{(PROPERTYNAME VALUE)}$$
+where the property name is one of a finite set of names understood by
+this program, and the value may itself in turn be a property list.
+The idea is best understood by looking at an example, so let's consider
+a fragment of the \.{PL} file for a hypothetical font.
+$$\vbox{\halign{\.{#}\hfil\cr
+(FAMILY NOVA)\cr
+(FACE F MIE)\cr
+(CODINGSCHEME ASCII)\cr
+(DESIGNSIZE D 10)\cr
+(DESIGNUNITS D 18)\cr
+(COMMENT A COMMENT IS IGNORED)\cr
+(COMMENT (EXCEPT THIS ONE ISN'T))\cr
+(COMMENT (ACTUALLY IT IS, EVEN THOUGH\cr
+\qquad\qquad IT SAYS IT ISN'T))\cr
+(FONTDIMEN\cr
+\qquad (SLANT R -.25)\cr
+\qquad (SPACE D 6)\cr
+\qquad (SHRINK D 2)\cr
+\qquad (STRETCH D 3)\cr
+\qquad (XHEIGHT R 10.55)\cr
+\qquad (QUAD D 18)\cr
+\qquad )\cr
+(LIGTABLE\cr
+\qquad (LABEL C f)\cr
+\qquad (LIG C f O 200)\cr
+\qquad (SKIP D 1)\cr
+\qquad (LABEL O 200)\cr
+\qquad (LIG C i O 201)\cr
+\qquad (KRN O 51 R 1.5)\cr
+\qquad (/LIG C ? C f)\cr
+\qquad (STOP)\cr
+\qquad )\cr
+(CHARACTER C f\cr
+\qquad (CHARWD D 6)\cr
+\qquad (CHARHT R 13.5)\cr
+\qquad (CHARIC R 1.5)\cr
+\qquad )\cr}}$$
+This example says that the font whose metric information is being described
+belongs to the hypothetical
+\.{NOVA} family; its face code is medium italic extended;
+and the characters appear in ASCII code positions. The design size is 10 points,
+and all other sizes in this \.{PL} file are given in units such that 18 units
+equals the design size. The font is slanted with a slope of $-.25$ (hence the
+letters actually slant backward---perhaps that is why the family name is
+\.{NOVA}). The normal space between words is 6 units (i.e., one third of
+the 18-unit design size), with glue that shrinks by 2 units or stretches by 3.
+The letters for which accents don't need to be raised or lowered are 10.55
+units high, and one em equals 18 units.
+
+The example ligature table is a bit trickier. It specifies that the
+letter \.f followed by another \.f is changed to code @'200, while
+code @'200 followed by \.i is changed to @'201; presumably codes @'200
+and @'201 represent the ligatures `ff' and `ffi'. Moreover, in both cases
+\.f and @'200, if the following character is the code @'51 (which is a
+right parenthesis), an additional 1.5 units of space should be inserted
+before the @'51. (The `\.{SKIP}~\.D~\.1' skips over one \.{LIG} or
+\.{KRN} command, which in this case is the second \.{LIG}; in this way
+two different ligature/kern programs can come together.)
+Finally, if either \.f or @'200 is followed by a question mark,
+the question mark is replaced by \.f and the ligature program is
+started over. (Thus, the character pair `\.{f?}' would actually become
+the ligature `ff', and `\.{ff?}' or `\.{f?f}' would become `fff'. To
+avoid this restart procedure, the \.{/LIG} command could be replaced
+by \.{/LIG>}; then `\.{f?} would become `f\kern0ptf' and `\.{f?f}'
+would become `f\kern0ptff'.)
+
+Character \.f itself is 6 units wide and 13.5 units tall, in this example.
+Its depth is zero (since \.{CHARDP} is not given), and its italic correction
+is 1.5 units.
+
+@ The example above illustrates most of the features found in \.{PL} files.
+Note that some property names, like \.{FAMILY} or \.{COMMENT}, take a
+string as their value; this string continues until the first unmatched
+right parenthesis. But most property names, like \.{DESIGNSIZE} and \.{SLANT}
+and \.{LABEL}, take a number as their value. This number can be expressed in
+a variety of ways, indicated by a prefixed code; \.D stands for decimal,
+\.H for hexadecimal, \.O for octal, \.R for real, \.C for character, and
+\.F for ``face.'' Other property names, like \.{LIG}, take two numbers as
+their value. And still other names, like \.{FONTDIMEN} and \.{LIGTABLE} and
+\.{CHARACTER}, have more complicated values that involve property lists.
+
+A property name is supposed to be used only in an appropriate property
+list. For example, \.{CHARWD} shouldn't occur on the outer level or
+within \.{FONTDIMEN}.
+
+The individual property-and-value pairs in a property list can appear in
+any order. For instance, `\.{SHRINK}' precedes `\.{STRETCH}' in the above
+example, although the \.{TFM} file always puts the stretch parameter first.
+One could even give the information about characters like `\.f' before
+specifying the number of units in the design size, or before specifying the
+ligature and kerning table. However, the \.{LIGTABLE} itself is an exception
+to this rule; the individual elements of the \.{LIGTABLE} property list
+can be reordered only to a certain extent without changing the meaning
+of that table.
+
+If property-and-value pairs are omitted, a default value is used. For example,
+we have already noted that the default for \.{CHARDP} is zero. The default
+for {\sl every\/} numeric value is, in fact, zero, unless otherwise stated
+below.
+
+If the same property name is used more than once, \.{VPtoVF} will not notice
+the discrepancy; it simply uses the final value given. Once again, however, the
+\.{LIGTABLE} is an exception to this rule; \.{VPtoVF} will complain if there
+is more than one label for some character. And of course many of the
+entries in the \.{LIGTABLE} property list have the same property name.
+
+@ A \.{VPL} file also includes information about how to create each character,
+by typesetting characters from other fonts and/or by drawing lines, etc.
+Such information is the value of the `\.{MAP}' property, which can be
+illustrated as follows:
+$$\vbox{\halign{\.{#}\hfil\cr
+(MAPFONT D 0 (FONTNAME Times-Roman))\cr
+(MAPFONT D 1 (FONTNAME Symbol))\cr
+(MAPFONT D 2 (FONTNAME cmr10)(FONTAT D 20))\cr
+(CHARACTER O 0 (MAP (SELECTFONT D 1)(SETCHAR C G)))\cr
+(CHARACTER O 76 (MAP (SETCHAR O 277)))\cr
+(CHARACTER D 197 (MAP\cr
+\qquad(PUSH)(SETCHAR C A)(POP)\cr
+\qquad(MOVEUP R 0.937)(MOVERIGHT R 1.5)(SETCHAR O 312)))\cr
+(CHARACTER O 200 (MAP (MOVEDOWN R 2.1)(SETRULE R 1 R 8)))\cr
+(CHARACTER O 201 (MAP\cr
+\qquad (SPECIAL ps: /SaveGray currentgray def .5 setgray)\cr
+\qquad (SELECTFONT D 2)(SETCHAR C A)\cr
+\qquad (SPECIAL ps: SaveGray setgray)))\cr
+}}$$
+(These specifications appear in addition to the conventional \.{PL}
+information. The \.{MAP} attribute can be mixed in with other attributes
+like \.{CHARWD} or it can be given separately.)
+
+In this example, the virtual font is composed of characters that can be
+fabricated from three actual fonts, `\.{Times-Roman}',
+`\.{Symbol}', and `\.{cmr10} \.{at} \.{20\\u}' (where \.{\\u}
+is the unit size in this \.{VPL} file). Character |@'0| is typeset as
+a `G' from the symbol font. Character |@'76| is typeset as character |@'277|
+from the ordinary Times font. (If no other font is selected, font
+number~0 is the default. If no \.{MAP} attribute is given, the default map
+is a character of the same number in the default font.)
+
+Character 197 (decimal) is more interesting: First an A is typeset (in the
+default font Times), and this is enclosed by \.{PUSH} and \.{POP} so that
+the original position is restored. Then the accent character |@'312| is
+typeset, after moving up .937 units and right 1.5 units.
+
+To typeset character |@'200| in this virtual font, we move down 2.1 units,
+then typeset a rule that is 1 unit high and 8 units wide.
+
+Finally, to typeset character |@'201|, we do something that requires a
+special ability to interpret PostScript commands; this example
+sets the PostScript ``color'' to 50\char`\%\ gray and typesets an `A'
+from \.{cmr10} in that color.
+
+In general, the \.{MAP} attribute of a virtual character can be any sequence
+of typesetting commands that might appear in a page of a \.{DVI} file.
+A single character might map into an entire page.
+
+@ But instead of relying on a hypothetical example, let's consider a complete
+grammar for \.{VPL} files, beginning with the (unchanged) grammatical rules
+for \.{PL} files. At the outer level, the following property names
+are valid in any \.{PL} file:
+
+\yskip\hang\.{CHECKSUM} (four-byte value). The value, which should be a
+nonnegative integer less than $2^{32}$, is used to identify a particular
+version of a font; it should match the check sum value stored with the font
+itself. An explicit check sum of zero is used to bypass
+check sum testing. If no checksum is specified in the \.{VPL} file,
+\.{VPtoVF} will compute the checksum that \MF\ would compute from the
+same data.
+
+\yskip\hang\.{DESIGNSIZE} (numeric value, default is 10). The value, which
+should be a real number in the range |1.0<=x<2048|, represents the default
+amount by which all quantities will be scaled if the font is not loaded
+with an `\.{at}' specification. For example, if one says
+`\.{\\font\\A=cmr10 at 15pt}' in \TeX\ language, the design size in the \.{TFM}
+file is ignored and effectively replaced by 15 points; but if one simply
+says `\.{\\font\\A=cmr10}' the stated design size is used. This quantity is
+always in units of printer's points.
+
+\yskip\hang\.{DESIGNUNITS} (numeric value, default is 1). The value
+should be a positive real number; it says how many units equals the design
+size (or the eventual `\.{at}' size, if the font is being scaled). For
+example, suppose you have a font that has been digitized with 600 pixels per
+em, and the design size is one em; then you could say `\.{(DESIGNUNITS R 600)}'
+if you wanted to give all of your measurements in units of pixels.
+
+\yskip\hang\.{CODINGSCHEME} (string value, default is `\.{UNSPECIFIED}').
+The string should not contain parentheses, and its length must be less than 40.
+It identifies the correspondence between the numeric codes and font characters.
+(\TeX\ ignores this information, but other software programs make use of it.)
+
+\yskip\hang\.{FAMILY} (string value, default is `\.{UNSPECIFIED}').
+The string should not contain parentheses, and its length must be less than 20.
+It identifies the name of the family to which this font belongs, e.g.,
+`\.{HELVETICA}'. (\TeX\ ignores this information; but it is needed, for
+example, when converting \.{DVI} files to \.{PRESS} files for Xerox
+equipment.)
+
+\yskip\hang\.{FACE} (one-byte value). This number, which must lie between
+0 and 255 inclusive, is a subsidiary ident\-ifi\-ca\-tion of the font within its
+family. For example, bold italic condensed fonts might have the same family name
+as light roman extended fonts, differing only in their face byte. (\TeX\
+ignores this information; but it is needed, for example, when converting
+\.{DVI} files to \.{PRESS} files for Xerox equipment.)
+
+\yskip\hang\.{SEVENBITSAFEFLAG} (string value, default is `\.{FALSE}'). The
+value should start with either `\.T' (true) or `\.F' (false). If true, character
+codes less than 128 cannot lead to codes of 128 or more via ligatures or
+charlists or extensible characters. (\TeX82 ignores this flag, but older
+versions of \TeX\ would only accept \.{TFM} files that were seven-bit safe.)
+\.{VPtoVF} computes the correct value of this flag and gives an error message
+only if a claimed ``true'' value is incorrect.
+
+\yskip\hang\.{HEADER} (a one-byte value followed by a four-byte value).
+The one-byte value should be between 18 and a maximum limit that can be
+raised or lowered depending on the compile-time setting of |max_header_bytes|.
+The four-byte value goes into the header word whose index is the one-byte
+value; for example, to set |header[18]:=1|, one may write
+`\.{(HEADER D 18 O 1)}'. This notation is used for header information that
+is presently unnamed. (\TeX\ ignores it.)
+
+\yskip\hang\.{FONTDIMEN} (property list value). See below for the names
+allowed in this property list.
+
+\yskip\hang\.{LIGTABLE} (property list value). See below for the rules
+about this special kind of property list.
+
+\yskip\hang\.{BOUNDARYCHAR} (integer value). If this character appears in
+a \.{LIGTABLE} command, it matches ``end of word'' as well as itself.
+If no boundary character is given and no \.{LABEL} \.{BOUNDARYCHAR} occurs
+within \.{LIGTABLE}, word boundaries will not affect ligatures or kerning.
+
+\yskip\hang\.{CHARACTER}. The value is an integer followed by
+a property list. The integer represents the number of a character that is
+present in the font; the property list of a character is defined below.
+The default is an empty property list.
+
+@ Numeric property list values can be given in various forms identified by
+a prefixed letter.
+
+\yskip\hang\.C denotes an ASCII character, which should be a standard visible
+character that is not a parenthesis. The numeric value will therefore be
+between @'41 and @'176 but not @'50 or @'51.
+
+\yskip\hang\.D denotes an unsigned decimal integer, which must be
+less than $2^{32}$, i.e., at most `\.{D 4294967295}'.
+
+\yskip\hang\.F denotes a three-letter Xerox face code; the admissible codes
+are \.{MRR}, \.{MIR}, \.{BRR}, \.{BIR}, \.{LRR}, \.{LIR}, \.{MRC}, \.{MIC},
+\.{BRC}, \.{BIC}, \.{LRC}, \.{LIC}, \.{MRE}, \.{MIE}, \.{BRE}, \.{BIE},
+\.{LRE}, and \.{LIE}, denoting the integers 0 to 17, respectively.
+
+\yskip\hang\.O denotes an unsigned octal integer, which must be less than
+$2^{32}$, i.e., at most `\.{O 37777777777}'.
+
+\yskip\hang\.H denotes an unsigned hexadecimal integer, which must be less than
+$2^{32}$, i.e., at most `\.{H FFFFFFFF}'.
+
+\yskip\hang\.R denotes a real number in decimal notation, optionally preceded
+by a `\.+' or `\.-' sign, and optionally including a decimal point. The
+absolute value must be less than 2048.
+
+@ The property names allowed in a \.{FONTDIMEN} property list correspond to
+various \TeX\ parameters, each of which has a (real) numeric value. All
+of the parameters except \.{SLANT} are in design units. The admissible
+names are \.{SLANT}, \.{SPACE}, \.{STRETCH}, \.{SHRINK}, \.{XHEIGHT},
+\.{QUAD}, \.{EXTRASPACE}, \.{NUM1}, \.{NUM2}, \.{NUM3}, \.{DENOM1},
+\.{DENOM2}, \.{SUP1}, \.{SUP2}, \.{SUP3}, \.{SUB1}, \.{SUB2}, \.{SUPDROP},
+\.{SUBDROP}, \.{DELIM1}, \.{DELIM2}, and \.{AXISHEIGHT}, for parameters
+1~to~22. The alternate names \.{DEFAULTRULETHICKNESS},
+\.{BIGOPSPACING1}, \.{BIGOPSPACING2}, \.{BIGOPSPACING3},
+\.{BIGOPSPACING4}, and \.{BIGOPSPACING5}, may also be used for parameters
+8 to 13.
+
+The notation `\.{PARAMETER} $n$' provides another way to specify the
+$n$th parameter; for example, `\.{(PARAMETER} \.{D 1 R -.25)}' is another way
+to specify that the \.{SLANT} is $-0.25$. The value of $n$ must be positive
+and less than |max_param_words|.
+
+@ The elements of a \.{CHARACTER} property list can be of six different types.
+
+\yskip\hang\.{CHARWD} (real value) denotes the character's width in
+design units.
+
+\yskip\hang\.{CHARHT} (real value) denotes the character's height in
+design units.
+
+\yskip\hang\.{CHARDP} (real value) denotes the character's depth in
+design units.
+
+\yskip\hang\.{CHARIC} (real value) denotes the character's italic correction in
+design units.
+
+\yskip\hang\.{NEXTLARGER} (integer value), specifies the character that
+follows the present one in a ``charlist.'' The value must be the number of a
+character in the font, and there must be no infinite cycles of supposedly
+larger and larger characters.
+
+\yskip\hang\.{VARCHAR} (property list value), specifies an extensible character.
+This option and \.{NEXTLARGER} are mutually exclusive; i.e., they cannot
+both be used within the same \.{CHARACTER} list.
+
+\yskip\noindent
+The elements of a \.{VARCHAR} property list are either \.{TOP}, \.{MID},
+\.{BOT} or \.{REP}; the values are integers, which must be zero or the number
+of a character in the font. A zero value for \.{TOP}, \.{MID}, or \.{BOT} means
+that the corresponding piece of the extensible character is absent. A nonzero
+value, or a \.{REP} value of zero, denotes the character code used to make
+up the top, middle, bottom, or replicated piece of an extensible character.
+
+@ A \.{LIGTABLE} property list contains elements of four kinds, specifying a
+program in a simple command language that \TeX\ uses for ligatures and kerns.
+If several \.{LIGTABLE} lists appear, they are effectively concatenated into
+a single list.
+
+\yskip\hang\.{LABEL} (integer value) means that the program for the
+stated character value starts here. The integer must be the number of a
+character in the font; its \.{CHARACTER} property list must not have a
+\.{NEXTLARGER} or \.{VARCHAR} field. At least one \.{LIG} or \.{KRN} step
+must follow.
+
+\yskip\hang\.{LABEL} \.{BOUNDARYCHAR} means that the program for
+beginning-of-word ligatures starts here.
+
+\yskip\hang\.{LIG} (two integer values). The instruction `\.{(LIG} $c$ $r$\.)'
+means, ``If the next character is $c$, then insert character~$r$ and
+possibly delete the current character and/or~$c$;
+otherwise go on to the next instruction.''
+Characters $r$ and $c$ must be present in the font. \.{LIG} may be immediately
+preceded or followed by a slash, and then immediately followed by \.>
+characters not exceeding the number of slashes. Thus there are eight
+possible forms:
+$$\hbox to .8\hsize{\.{LIG}\hfil\.{/LIG}\hfil\.{/LIG>}\hfil
+\.{LIG/}\hfil\.{LIG/>}\hfil\.{/LIG/}\hfil\.{/LIG/>}\hfil\.{/LIG/>>}}$$
+The slashes specify retention of the left or right original character; the
+\.> signs specify passing over the result without further ligature processing.
+
+\yskip\hang\.{KRN} (an integer value and a real value). The instruction
+`\.{(KRN} $c$ $r$\.)' means, ``If the next character is $c$, then insert
+a blank space of width $r$ between the current character character and $c$;
+otherwise go on to the next intruction.'' The value of $r$, which is in
+units of the design size, is often negative. Character code $c$ must exist
+in the font.
+
+\yskip\hang\.{STOP} (no value). This instruction ends a ligature/kern program.
+It must follow either a \.{LIG} or \.{KRN} instruction, not a \.{LABEL}
+or \.{STOP} or \.{SKIP}.
+
+\yskip\hang\.{SKIP} (value in the range |0..127|). This instruction specifies
+continuation of a ligature/kern program after the specified number of \.{LIG}
+or \.{KRN} has been skipped over. The number of subsequent \.{LIG} and \.{KRN}
+instructions must therefore exceed this specified amount.
+
+@ In addition to all these possibilities, the property name \.{COMMENT} is
+allowed in any property list. Such comments are ignored.
+
+@ So that is what \.{PL} files hold. In a \.{VPL} file additional
+properties are recognized; two of these are valid on the outermost level:
+
+\yskip\hang\.{VTITLE} (string value, default is empty). The value will be
+reproduced at the beginning of the \.{VF} file (and printed on the terminal
+by \.{VFtoVP} when it examines that file).
+
+\yskip\hang\.{MAPFONT}. The value is a nonnegative integer followed by
+a property list. The integer represents an identifying number for fonts
+used in \.{MAP} attributes. The property list, which identifies the font and
+relative size, is defined below.
+
+\yskip\noindent
+And one additional ``virtual property'' is valid within a \.{CHARACTER}:
+
+\yskip\hang\.{MAP}. The value is a property list consisting of typesetting
+commands. Default is the single command \.{SETCHAR}~$c$, where $c$ is
+the current character number.
+
+@ The elements of a \.{MAPFONT} property list can be of the following types.
+
+\yskip\hang\.{FONTNAME} (string value, default is \.{NULL}).
+This is the font's identifying name.
+
+\yskip\hang\.{FONTAREA} (string value, default is empty). If the font appears
+in a nonstandard directory, according to local conventions, the directory
+name is given here. (This is system dependent, just as in \.{DVI} files.)
+
+\yskip\hang\.{FONTCHECKSUM} (four-byte value, default is zero). This value,
+which should be a nonnegative integer less than $2^{32}$, can be used to
+check that the font being referred to matches the intended font. If nonzero,
+it should equal the \.{CHECKSUM} parameter in that font.
+
+\yskip\hang\.{FONTAT} (numeric value, default is the \.{DESIGNUNITS} of the
+present virtual font). This value is relative to the design units of
+the present virtual font, hence it will be scaled when the virtual
+font is magnified or reduced. It represents the value that will
+effectively replace the design size of the font being referred to,
+so that all characters will be scaled appropriately.
+
+\yskip\hang\.{FONTDSIZE} (numeric value, default is 10). This value is
+absolute, in units of printer's points. It should equal the \.{DESIGNSIZE}
+parameter in the font being referred to.
+
+\yskip\noindent
+If any of the
+string values contain parentheses, the parentheses must be balanced. Leading
+blanks are removed from the strings, but trailing blanks are not.
+
+@ Finally, the elements of a \.{MAP} property list are an ordered sequence
+of typesetting commands chosen from among the following:
+
+\yskip\hang\.{SELECTFONT} (four-byte integer value). The value must be the
+number of a previously defined \.{MAPFONT}. This font (or more precisely, the
+final font that is mapped to that code number, if two \.{MAPFONT} properties
+happen to specify the same code) will be used in subsequent \.{SETCHAR}
+instructions until overridden by another \.{SELECTFONT}. The first-specified
+\.{MAPFONT} is implicitly selected before the first \.{SELECTFONT} in every
+character's map.
+
+\yskip\hang\.{SETCHAR} (integer value). There must be a character of
+this number in the currently selected font. (\.{VPtoVF} doesn't check that
+the character is valid, but \.{VFtoVP} does.) That character is typeset at the
+current position, and the typesetter moves right by the \.{CHARWD} in
+that character's \.{TFM} file.
+
+\yskip\hang\.{SETRULE} (two real values). The first value specifies height,
+the second specifies width, in design units. If both height and width are
+positive, a rule is typeset at the current position. Then the typesetter
+moves right, by the specified width.
+
+\yskip\hang\.{MOVERIGHT}, \.{MOVELEFT}, \.{MOVEUP}, \.{MOVEDOWN} (real
+value). The typesetter moves its current position
+by the number of design units specified.
+
+\yskip\hang\.{PUSH} The current typesetter position is remembered, to
+be restored on a subsequent \.{POP}.
+
+\yskip\hang\.{POP} The current typesetter position is reset to where it
+was on the most recent unmatched \.{PUSH}. The \.{PUSH} and \.{POP}
+commands in any \.{MAP} must be properly nested like balanced parentheses.
+
+\yskip\hang\.{SPECIAL} (string value). The subsequent characters, starting
+with the first nonblank and ending just before the first `\.)' that has no
+matching `\.(', are interpreted according to local conventions with the
+same system-dependent meaning as a `special' (\\{xxx}) command
+in a \.{DVI} file.
+
+\yskip\hang\.{SPECIALHEX} (hexadecimal string value). The subsequent
+nonblank characters before the next `\.)' must consist entirely of
+hexadecimal digits, and they must contain an even number of such digits.
+Each pair of hex digits specifies a byte, and this string of bytes is
+treated just as the value of a \.{SPECIAL}. (This convention permits
+arbitrary byte strings to be represented in an ordinary text file.)
+
+@ Virtual font mapping is a recursive process, like macro expansion.
+Thus, a \.{MAPFONT} might
+specify another virtual font, whose characters are themselves mapped to
+other fonts. As an example of this possibility, consider the
+following curious file called \.{recurse.vpl}, which defines a
+virtual font that is self-contained and self-referential:
+$$\vbox{\halign{\.{#}\cr
+(VTITLE Example of recursion)\cr
+(MAPFONT D 0 (FONTNAME recurse)(FONTAT D 2))\cr
+(CHARACTER C A (CHARWD D 1)(CHARHT D 1)(MAP (SETRULE D 1 D 1)))\cr
+(CHARACTER C B (CHARWD D 2)(CHARHT D 2)(MAP (SETCHAR C A)))\cr
+(CHARACTER C C (CHARWD D 4)(CHARHT D 4)(MAP (SETCHAR C B)))\cr
+}}$$
+The design size is 10 points (the default), hence the character \.A
+in font \.{recurse} is a $10\times10$ point black square. Character \.B
+is typeset as character \.A in \.{recurse} {scaled} {2000}, hence it
+is a $20\times20$ point black square. And character \.C is typeset as
+character \.{B} in \.{recurse} {scaled} {2000}, hence its size is
+$40\times40$.
+
+Users are responsible for making sure that infinite recursion doesn't happen.
+
+@ So that is what \.{VPL} files hold. From these rules,
+you can guess (correctly) that \.{VPtoVF} operates in four main stages.
+First it assigns the default values to all properties; then it scans
+through the \.{VPL} file, changing property values as new ones are seen; then
+it checks the information and corrects any problems; and finally it outputs
+the \.{VF} and \.{TFM} files.
+
+@ The next question is, ``What are \.{VF} and
+\.{TFM} files?'' A complete answer to that question appears in the
+documentation of the companion programs, \.{VFtoVP} and
+\.{TFtoPL}, so the details will not
+be repeated here. Suffice it to say that a \.{VF} or
+\.{TFM} file stores all of the
+relevant font information in a sequence of 8-bit bytes. The number of
+bytes is always a multiple of 4, so we could regard the files
+as sequences of 32-bit words; but \TeX\ uses the byte interpretation,
+and so does \.{VPtoVF}. Note that the bytes are considered to be unsigned
+numbers.
+
+@<Glob...@>=
+@!vf_file:packed file of 0..255;
+@!tfm_file:packed file of 0..255;
+
+@ On some systems you may have to do something special to write a
+packed file of bytes. For example, the following code didn't work
+when it was first tried at Stanford, because packed files have to be
+opened with a special switch setting on the \PASCAL\ that was used.
+@^system dependencies@>
+
+@<Set init...@>=
+rewrite(vf_file); rewrite(tfm_file);
+
+@* Basic input routines.
+For the purposes of this program, a |byte| is an unsigned 16-bit quantity,
+and an |ASCII_code| is an integer between @'40 and @'177. Such ASCII codes
+correspond to one-character constants like \.{"A"} in \.{WEB} language.
+
+@<Types...@>=
+@!byte=0..65535; {unsigned 16-bit quantity}
+@!ASCII_code=@'40..@'177; {standard ASCII code numbers}
+
+@ One of the things \.{VPtoVF} has to do is convert characters of strings
+to ASCII form, since that is the code used for the family name and the
+coding scheme in a \.{TFM} file. An array |xord| is used to do the
+conversion from |char|; the method below should work with little or no change
+on most \PASCAL\ systems.
+@^system dependencies@>
+
+@d first_ord=0 {ordinal number of the smallest element of |char|}
+@d last_ord=127 {ordinal number of the largest element of |char|}
+
+@<Global...@>=
+@!xord:array[char] of ASCII_code; {conversion table}
+
+@ @<Local variables for init...@>=
+@!k:integer; {all-purpose initialization index}
+
+@ Characters that should not appear in \.{VPL} files (except in comments)
+are mapped into @'177.
+
+@d invalid_code=@'177 {code deserving an error message}
+
+@<Set init...@>=
+for k:=first_ord to last_ord do xord[chr(k)]:=invalid_code;
+xord[' ']:=" "; xord['!']:="!"; xord['"']:=""""; xord['#']:="#";
+xord['$']:="$"; xord['%']:="%"; xord['&']:="&"; xord['''']:="'";
+xord['(']:="("; xord[')']:=")"; xord['*']:="*"; xord['+']:="+"; xord[',']:=",";
+xord['-']:="-"; xord['.']:="."; xord['/']:="/"; xord['0']:="0"; xord['1']:="1";
+xord['2']:="2"; xord['3']:="3"; xord['4']:="4"; xord['5']:="5"; xord['6']:="6";
+xord['7']:="7"; xord['8']:="8"; xord['9']:="9"; xord[':']:=":"; xord[';']:=";";
+xord['<']:="<"; xord['=']:="="; xord['>']:=">"; xord['?']:="?";
+xord['@@']:="@@"; xord['A']:="A"; xord['B']:="B"; xord['C']:="C";
+xord['D']:="D"; xord['E']:="E"; xord['F']:="F"; xord['G']:="G"; xord['H']:="H";
+xord['I']:="I"; xord['J']:="J"; xord['K']:="K"; xord['L']:="L"; xord['M']:="M";
+xord['N']:="N"; xord['O']:="O"; xord['P']:="P"; xord['Q']:="Q"; xord['R']:="R";
+xord['S']:="S"; xord['T']:="T"; xord['U']:="U"; xord['V']:="V"; xord['W']:="W";
+xord['X']:="X"; xord['Y']:="Y"; xord['Z']:="Z"; xord['[']:="["; xord['\']:="\";
+xord[']']:="]"; xord['^']:="^"; xord['_']:="_"; xord['`']:="`"; xord['a']:="a";
+xord['b']:="b"; xord['c']:="c"; xord['d']:="d"; xord['e']:="e"; xord['f']:="f";
+xord['g']:="g"; xord['h']:="h"; xord['i']:="i"; xord['j']:="j"; xord['k']:="k";
+xord['l']:="l"; xord['m']:="m"; xord['n']:="n"; xord['o']:="o"; xord['p']:="p";
+xord['q']:="q"; xord['r']:="r"; xord['s']:="s"; xord['t']:="t"; xord['u']:="u";
+xord['v']:="v"; xord['w']:="w"; xord['x']:="x"; xord['y']:="y"; xord['z']:="z";
+xord['{']:="{"; xord['|']:="|"; xord['}']:="}"; xord['~']:="~";
+
+@ In order to help catch errors of badly nested parentheses, \.{VPtoVF}
+assumes that the user will begin each line with a number of blank spaces equal
+to some constant times the number of open parentheses at the beginning of
+that line. However, the program doesn't know in advance what the constant
+is, nor does it want to print an error message on every line for a user
+who has followed no consistent pattern of indentation.
+
+Therefore the following strategy is adopted: If the user has been consistent
+with indentation for ten or more lines, an indentation error will be
+reported. The constant of indentation is reset on every line that should
+have nonzero indentation.
+
+@<Glob...@>=
+@!line:integer; {the number of the current line}
+@!good_indent:integer; {the number of lines since the last bad indentation}
+@!indent: integer; {the number of spaces per open parenthesis, zero if unknown}
+@!level: integer; {the current number of open parentheses}
+
+@ @<Set init...@>=
+line:=0; good_indent:=0; indent:=0; level:=0;
+
+@ The input need not really be broken into lines of any maximum length, and
+we could read it character by character without any buffering. But we shall
+place it into a small buffer so that offending lines can be displayed in error
+messages.
+
+@<Glob...@>=
+@!left_ln,@!right_ln:boolean; {are the left and right ends of the buffer
+ at end-of-line marks?}
+@!limit:0..buf_size; {position of the last character present in the buffer}
+@!loc:0..buf_size; {position of the last character read in the buffer}
+@!buffer:array[1..buf_size] of char;
+@!input_has_ended:boolean; {there is no more input to read}
+
+@ @<Set init...@>=
+limit:=0; loc:=0; left_ln:=true; right_ln:=true; input_has_ended:=false;
+
+@ Just before each \.{CHARACTER} property list is evaluated, the character
+code is printed in octal notation. Up to eight such codes appear on a line;
+so we have a variable to keep track of how many are currently there.
+
+@<Glob...@>=
+@!chars_on_line:0..8; {the number of characters printed on the current line}
+
+@ @<Set init...@>=
+chars_on_line:=0;
+
+@ The following routine prints an error message and an indication of
+where the error was detected. The error message should not include any
+final punctuation, since this procedure supplies its own.
+
+@d err_print(#)==begin if chars_on_line>0 then print_ln(' ');
+ print(#); show_error_context;
+ end
+
+@p procedure show_error_context; {prints the current scanner location}
+var k:0..buf_size; {an index into |buffer|}
+begin print_ln(' (line ',line:1,').');
+if not left_ln then print('...');
+for k:=1 to loc do print(buffer[k]); {print the characters already scanned}
+print_ln(' ');
+if not left_ln then print(' ');
+for k:=1 to loc do print(' '); {space out the second line}
+for k:=loc+1 to limit do print(buffer[k]); {print the characters yet unseen}
+if right_ln then print_ln(' ')@+else print_ln('...');
+chars_on_line:=0;
+end;
+
+@ Here is a procedure that does the right thing when we are done
+reading the present contents of the buffer. It keeps |buffer[buf_size]|
+empty, in order to avoid range errors on certain \PASCAL\ compilers.
+
+An infinite sequence of right parentheses is placed at the end of the
+file, so that the program is sure to get out of whatever level of nesting
+it is in.
+
+On some systems it is desirable to modify this code so that tab marks
+in the buffer are replaced by blank spaces. (Simply setting
+|xord[chr(@'11)]:=" "| would not work; for example, two-line
+error messages would not come out properly aligned.)
+@^system dependencies@>
+
+@p procedure fill_buffer;
+begin left_ln:=right_ln; limit:=0; loc:=0;
+if left_ln then begin
+ if line>0 then read_ln(vpl_file);
+ incr(line);
+ end;
+if eof(vpl_file) then begin
+ limit:=1; buffer[1]:=')'; right_ln:=false; input_has_ended:=true;
+ end
+else begin
+ while (limit<buf_size-1)and(not eoln(vpl_file)) do begin
+ incr(limit); read(vpl_file,buffer[limit]);
+ end;
+ buffer[limit+1]:=' '; right_ln:=eoln(vpl_file);
+ if left_ln then @<Set |loc| to the number of leading blanks in
+ the buffer, and check the indentation@>;
+ end;
+end;
+
+@ The interesting part about |fill_buffer| is the part that learns what
+indentation conventions the user is following, if any.
+
+@d bad_indent(#)==begin if good_indent>=10 then err_print(#);
+ good_indent:=0; indent:=0;
+ end
+
+@<Set |loc|...@>=
+begin while (loc<limit)and(buffer[loc+1]=' ') do incr(loc);
+if loc<limit then begin
+ if level=0 then
+ if loc=0 then incr(good_indent)
+ else bad_indent('Warning: Indented line occurred at level zero')
+@.Warning: Indented line...@>
+ else if indent=0 then
+ if loc mod level=0 then begin
+ indent:=loc div level; good_indent:=1;
+ end
+ else good_indent:=0
+ else if indent*level=loc then incr(good_indent)
+ else bad_indent('Warning: Inconsistent indentation; ',
+@.Warning: Inconsistent indentation...@>
+ 'you are at parenthesis level ',level:1);
+ end;
+end
+
+@* Basic scanning routines.
+The global variable |cur_char| holds the ASCII code corresponding to the
+character most recently read from the input buffer, or to a character that
+has been substituted for the real one.
+
+@<Global...@>=
+@!cur_char:ASCII_code; {we have just read this}
+
+@ Here is a procedure that sets |cur_char| to an ASCII code for the
+next character of input, if that character is a letter or digit or slash
+or \.>. Otherwise
+it sets |cur_char:=" "|, and the input system will be poised to reread the
+character that was rejected, whether or not it was a space.
+Lower case letters are converted to upper case.
+
+@p procedure get_keyword_char;
+begin while (loc=limit)and(not right_ln) do fill_buffer;
+if loc=limit then cur_char:=" " {end-of-line counts as a delimiter}
+else begin
+ cur_char:=xord[buffer[loc+1]];
+ if cur_char>="a" then cur_char:=cur_char-@'40;
+ if ((cur_char>="0")and(cur_char<="9")) then incr(loc)
+ else if ((cur_char>="A")and(cur_char<="Z")) then incr(loc)
+ else if cur_char="/" then incr(loc)
+ else if cur_char=">" then incr(loc)
+ else cur_char:=" ";
+ end;
+end;
+
+@ The following procedure sets |cur_char| to the next character code,
+and converts lower case to upper case. If the character is a left or
+right parenthesis, it will not be ``digested''; the character will
+be read again and again, until the calling routine does something
+like `|incr(loc)|' to get past it. Such special treatment of parentheses
+insures that the structural information they contain won't be lost in
+the midst of other error recovery operations.
+
+@d backup==begin if (cur_char>")")or(cur_char<"(") then decr(loc);
+ end {undoes the effect of |get_next|}
+
+@p procedure get_next; {sets |cur_char| to next, balks at parentheses}
+begin while loc=limit do fill_buffer;
+incr(loc); cur_char:=xord[buffer[loc]];
+if cur_char>="a" then
+ if cur_char<="z" then cur_char:=cur_char-@'40 {uppercasify}
+ else begin
+ if cur_char=invalid_code then begin
+ err_print('Illegal character in the file');
+@.Illegal character...@>
+ cur_char:="?";
+ end;
+ end
+else if (cur_char<=")")and(cur_char>="(") then decr(loc);
+end;
+
+@ Here's a procedure that scans a hexadecimal digit or a right parenthesis.
+
+@p function get_hex:byte;
+var @!a:integer; {partial result}
+begin repeat get_next;
+until cur_char<>" ";
+a:=cur_char-")";
+if a>0 then begin
+ a:=cur_char-"0";
+ if cur_char>"9" then
+ if cur_char<"A" then a:=-1 else a:=cur_char-"A"+10;
+ end;
+if (a<0)or(a>15) then begin
+ err_print('Illegal hexadecimal digit'); get_hex:=0;
+@.Illegal hexadecimal digit@>
+ end
+else get_hex:=a;
+end;
+
+@ The next procedure is used to ignore the text of a comment, or to pass over
+erroneous material. As such, it has the privilege of passing parentheses.
+It stops after the first right parenthesis that drops the level below
+the level in force when the procedure was called.
+
+@p procedure skip_to_end_of_item;
+var l:integer; {initial value of |level|}
+begin l:=level;
+while level>=l do begin
+ while loc=limit do fill_buffer;
+ incr(loc);
+ if buffer[loc]=')' then decr(level)
+ else if buffer[loc]='(' then incr(level);
+ end;
+if input_has_ended then err_print('File ended unexpectedly: No closing ")"');
+@.File ended unexpectedly...@>
+cur_char:=" "; {now the right parenthesis has been read and digested}
+end;
+
+@ A similar procedure copies the bytes remaining in an item. The copied bytes
+go into an array |vf| that we'll declare later. Leading blanks are ignored.
+
+@d vf_store(#)==
+ begin vf[vf_ptr]:=#;
+ if vf_ptr=vf_size then err_print('I''m out of memory---increase my vfsize!')
+@.I'm out of memory...@>
+ else incr(vf_ptr);
+ end
+
+@p procedure copy_to_end_of_item;
+label 30;
+var l:integer; {initial value of |level|}
+@!nonblank_found:boolean; {have we seen a nonblank character yet?}
+begin l:=level; nonblank_found:=false;
+while true do begin
+ while loc=limit do fill_buffer;
+ if buffer[loc+1]=')' then
+ if level=l then goto 30@+else decr(level);
+ incr(loc);
+ if buffer[loc]='(' then incr(level);
+ if buffer[loc]<>' ' then nonblank_found:=true;
+ if nonblank_found then
+ if xord[buffer[loc]]=invalid_code then begin
+ err_print('Illegal character in the file');
+@.Illegal character...@>
+ vf_store("?");
+ end
+ else vf_store(xord[buffer[loc]]);
+ end;
+30:end;
+
+@ Sometimes we merely want to skip past characters in the input until we
+reach a left or a right parenthesis. For example, we do this whenever we
+have finished scanning a property value and we hope that a right parenthesis
+is next (except for possible blank spaces).
+
+@d skip_to_paren==repeat get_next@;@+ until (cur_char="(")or(cur_char=")")
+@d skip_error(#)==begin err_print(#); skip_to_paren;
+ end {this gets to the right parenthesis if something goes wrong}
+@d flush_error(#)==begin err_print(#); skip_to_end_of_item;
+ end {this gets past the right parenthesis if something goes wrong}
+
+@ After a property value has been scanned, we want to move just past the
+right parenthesis that should come next in the input (except for possible
+blank spaces).
+
+@p procedure finish_the_property; {do this when the value has been scanned}
+begin while cur_char=" " do get_next;
+if cur_char<>")" then err_print('Junk after property value will be ignored');
+@.Junk after property value...@>
+skip_to_end_of_item;
+end;
+
+@* Scanning property names.
+We have to figure out the meaning of names that appear in the \.{VPL} file,
+by looking them up in a dictionary of known keywords. Keyword number $n$
+appears in locations |start[n]| through |start[n+1]-1| of an array called
+|dictionary|.
+
+@d max_name_index=300 {upper bound on the number of keywords}
+@d max_letters=3000 {upper bound on the total length of all keywords}
+
+@<Global...@>=
+@!start:array[1..max_name_index] of 0..max_letters;
+@!dictionary:array[0..max_letters] of ASCII_code;
+@!start_ptr:0..max_name_index; {the first available place in |start|}
+@!dict_ptr:0..max_letters; {the first available place in |dictionary|}
+
+@ @<Set init...@>=
+start_ptr:=1; start[1]:=0; dict_ptr:=0;
+
+@ When we are looking for a name, we put it into the |cur_name| array.
+When we have found it, the corresponding |start| index will go into
+the global variable |name_ptr|.
+
+@d longest_name=20 {length of \.{DEFAULTRULETHICKNESS}}
+
+@<Glob...@>=
+@!cur_name:array[1..longest_name] of ASCII_code; {a name to look up}
+@!name_length:0..longest_name; {its length}
+@!name_ptr:0..max_name_index; {its ordinal number in the dictionary}
+
+@ A conventional hash table with linear probing (cf.\ Algorithm 6.4L
+in {\sl The Art of Computer Pro\-gram\-ming\/}) is used for the dictionary
+operations. If |nhash[h]=0|, the table position is empty, otherwise |nhash[h]|
+points into the |start| array.
+
+@d hash_prime=307 {size of the hash table}
+
+@<Glob...@>=
+@!nhash:array[0..hash_prime-1] of 0..max_name_index;
+@!cur_hash:0..hash_prime-1; {current position in the hash table}
+
+@ @<Local...@>=
+@!h:0..hash_prime-1; {runs through the hash table}
+
+@ @<Set init...@>=
+for h:=0 to hash_prime-1 do nhash[h]:=0;
+
+@ Since there is no chance of the hash table overflowing, the procedure
+is very simple. After |lookup| has done its work, |cur_hash| will point
+to the place where the given name was found, or where it should be inserted.
+
+@p procedure lookup; {finds |cur_name| in the dictionary}
+var k:0..longest_name; {index into |cur_name|}
+@!j:0..max_letters; {index into |dictionary|}
+@!not_found:boolean; {clumsy thing necessary to avoid |goto| statement}
+@!cur_hash_reset:boolean;
+begin @<Compute the hash code, |cur_hash|, for |cur_name|@>;
+not_found:=true;
+cur_hash_reset:=false;
+while not_found do begin
+ if (cur_hash=0) and (cur_hash_reset) then
+ not_found:=false
+ else begin
+ if cur_hash=0 then begin
+ cur_hash:=hash_prime-1;
+ cur_hash_reset:=true
+ end
+ else decr(cur_hash);
+ if nhash[cur_hash]=0 then not_found:=false
+ else begin
+ j:=start[nhash[cur_hash]];
+ if start[nhash[cur_hash]+1]=j+name_length then begin
+ not_found:=false;
+ for k:=1 to name_length do
+ if dictionary[j+k-1]<>cur_name[k] then not_found:=true;
+ end
+ end
+ end
+ end;
+name_ptr:=nhash[cur_hash];
+end;
+
+@ @<Compute the hash...@>=
+cur_hash:=cur_name[1];
+for k:=2 to name_length do
+ cur_hash:=(cur_hash+cur_hash+cur_name[k]) mod hash_prime
+
+@ The ``meaning'' of the keyword that begins at |start[k]| in the
+dictionary is kept in |equiv[k]|. The numeric |equiv| codes are given
+symbolic meanings by the following definitions.
+
+@d comment_code=0
+@d check_sum_code=1
+@d design_size_code=2
+@d design_units_code=3
+@d coding_scheme_code=4
+@d family_code=5
+@d face_code=6
+@d seven_bit_safe_flag_code=7
+@d header_code= 8
+@d font_dimen_code=9
+@d lig_table_code=10
+@d boundary_char_code=11
+@d virtual_title_code=12
+@d map_font_code=13
+@d font_dir_code=14
+@d n_font_dir_code=15
+@d character_code=16
+@d font_name_code=21
+@d font_area_code=22
+@d font_checksum_code=23
+@d font_at_code=24
+@d font_dsize_code=25
+@d parameter_code=30
+@d char_info_code=70
+@d width=1
+@d height=2
+@d depth=3
+@d italic=4
+@d sec_width=5
+@d sec_height=6
+@d sec_depth=7
+@d sec_italic=8
+@d accent=9
+@d prim_top_axis=10
+@d prim_top_axis_bis=11
+@d prim_bot_axis=12
+@d prim_bot_axis_bis=13
+@d prim_mid_hor=14
+@d prim_mid_vert=15
+@d prim_base_slant=16
+@d sec_top_axis=17
+@d sec_top_axis_bis=18
+@d sec_bot_axis=19
+@d sec_bot_axis_bis=20
+@d sec_mid_hor=21
+@d sec_mid_vert=22
+@d sec_base_slant=23
+@d char_wd_code=char_info_code+width
+@d char_ht_code=char_info_code+height
+@d char_dp_code=char_info_code+depth
+@d char_ic_code=char_info_code+italic
+@d sec_width_code=char_info_code+sec_width
+@d sec_height_code=char_info_code+sec_height
+@d sec_depth_code=char_info_code+sec_depth
+@d sec_italic_code=char_info_code+sec_italic
+@d accent_code=char_info_code+accent
+@d prim_top_axis_code=char_info_code+prim_top_axis
+@d prim_top_axis_bis_code=char_info_code+prim_top_axis_bis
+@d prim_bot_axis_code=char_info_code+prim_bot_axis
+@d prim_bot_axis_bis_code=char_info_code+prim_bot_axis_bis
+@d prim_mid_hor_code=char_info_code+prim_mid_hor
+@d prim_mid_vert_code=char_info_code+prim_mid_vert
+@d prim_base_slant_code=char_info_code+prim_base_slant
+@d sec_top_axis_code=char_info_code+sec_top_axis
+@d sec_top_axis_bis_code=char_info_code+sec_top_axis_bis
+@d sec_bot_axis_code=char_info_code+sec_bot_axis
+@d sec_bot_axis_bis_code=char_info_code+sec_bot_axis_bis
+@d sec_mid_hor_code=char_info_code+sec_mid_hor
+@d sec_mid_vert_code=char_info_code+sec_mid_vert
+@d sec_base_slant_code=char_info_code+sec_base_slant
+@d next_larger_code=100
+@d map_code=101
+@d var_char_code=102
+@d select_font_code=110
+@d set_char_code=111
+@d set_rule_code=112
+@d move_right_code=113
+@d move_down_code=115
+@d push_code=117
+@d pop_code=118
+@d special_code=119
+@d special_hex_code=120
+@d label_code=130
+@d stop_code=131
+@d skip_code=132
+@d krn_code=133
+@d lig_code=134
+@d ofm_level_code=140
+@d char_repeat_code=150
+@d char_ivalue_code=151
+@d char_fvalue_code=152
+@d char_mvalue_code=153
+@d char_rule_code=154
+@d char_glue_code=155
+@d char_penalty_code=156
+@d font_rule_code=160
+@d rule_code=161
+@d rule_width_code=162
+@d rule_height_code=163
+@d rule_depth_code=164
+@d font_glue_code=170
+@d glue_code=171
+@d glue_type_code=172
+@d glue_stretch_order_code=173
+@d glue_shrink_order_code=174
+@d glue_width_code=175
+@d glue_stretch_code=176
+@d glue_shrink_code=177
+@d glue_char_code=178
+@d glue_rule_code=179
+@d order_unit_code=181
+@d order_fi_code=182
+@d order_fil_code=183
+@d order_fill_code=184
+@d order_filll_code=185
+@d type_normal_code=186
+@d type_aleaders_code=187
+@d type_cleaders_code=188
+@d type_xleaders_code=189
+@d font_penalty_code=190
+@d penalty_code=191
+@d penalty_val_code=192
+@d font_mvalue_code=200
+@d mvalue_code=201
+@d mvalue_val_code=202
+@d font_fvalue_code=210
+@d fvalue_code=211
+@d fvalue_val_code=212
+@d font_ivalue_code=220
+@d ivalue_code=221
+@d ivalue_val_code=222
+@d clabel_code=231
+@d cpen_code=232
+@d cglue_code=233
+@d cpenglue_code=234
+@d ckrn_code=235
+@d TL_dir_code=240
+@d LT_dir_code=241
+@d TR_dir_code=242
+@d LB_dir_code=243
+@d BL_dir_code=244
+@d RT_dir_code=245
+@d BR_dir_code=246
+@d RB_dir_code=247
+
+@<Glo...@>=
+@!equiv:array[0..max_name_index] of byte;
+@!cur_code:byte; {equivalent most recently found in |equiv|}
+
+@ We have to get the keywords into the hash table and into the dictionary in
+the first place (sigh). The procedure that does this has the desired
+|equiv| code as a parameter. In order to facilitate \.{WEB} macro writing
+for the initialization, the keyword being initialized is placed into the
+last positions of |cur_name|, instead of the first positions.
+
+@p procedure enter_name(v:byte); {|cur_name| goes into the dictionary}
+var k:0..longest_name;
+begin for k:=1 to name_length do
+ cur_name[k]:=cur_name[k+longest_name-name_length];
+{now the name has been shifted into the correct position}
+lookup; {this sets |cur_hash| to the proper insertion place}
+nhash[cur_hash]:=start_ptr; equiv[start_ptr]:=v;
+for k:=1 to name_length do begin
+ dictionary[dict_ptr]:=cur_name[k]; incr(dict_ptr);
+ end;
+incr(start_ptr); start[start_ptr]:=dict_ptr;
+end;
+
+@ Here are the macros to load a name of up to 20 letters into the
+dictionary. For example, the macro |load5| is used for five-letter keywords.
+
+@d tail(#)==enter_name(#)
+@d t20(#)==cur_name[20]:=#;tail
+@d t19(#)==cur_name[19]:=#;t20
+@d t18(#)==cur_name[18]:=#;t19
+@d t17(#)==cur_name[17]:=#;t18
+@d t16(#)==cur_name[16]:=#;t17
+@d t15(#)==cur_name[15]:=#;t16
+@d t14(#)==cur_name[14]:=#;t15
+@d t13(#)==cur_name[13]:=#;t14
+@d t12(#)==cur_name[12]:=#;t13
+@d t11(#)==cur_name[11]:=#;t12
+@d t10(#)==cur_name[10]:=#;t11
+@d t9(#)==cur_name[9]:=#;t10
+@d t8(#)==cur_name[8]:=#;t9
+@d t7(#)==cur_name[7]:=#;t8
+@d t6(#)==cur_name[6]:=#;t7
+@d t5(#)==cur_name[5]:=#;t6
+@d t4(#)==cur_name[4]:=#;t5
+@d t3(#)==cur_name[3]:=#;t4
+@d t2(#)==cur_name[2]:=#;t3
+@d t1(#)==cur_name[1]:=#;t2
+@d load2==name_length:=2;t19
+@d load3==name_length:=3;t18
+@d load4==name_length:=4;t17
+@d load5==name_length:=5;t16
+@d load6==name_length:=6;t15
+@d load7==name_length:=7;t14
+@d load8==name_length:=8;t13
+@d load9==name_length:=9;t12
+@d load10==name_length:=10;t11
+@d load11==name_length:=11;t10
+@d load12==name_length:=12;t9
+@d load13==name_length:=13;t8
+@d load14==name_length:=14;t7
+@d load15==name_length:=15;t6
+@d load16==name_length:=16;t5
+@d load17==name_length:=17;t4
+@d load18==name_length:=18;t3
+@d load19==name_length:=19;t2
+@d load20==name_length:=20;t1
+
+@ (Thank goodness for keyboard macros in the text editor used to create this
+\.{WEB} file.)
+
+@<Enter all the \.{PL} names and their equivalents,
+ except the parameter names@>=
+equiv[0]:=comment_code; {this is used after unknown keywords}
+load8("C")("H")("E")("C")("K")("S")("U")("M")(check_sum_code);@/
+load10("D")("E")("S")("I")("G")("N")("S")("I")("Z")("E")(design_size_code);@/
+load11("D")("E")("S")("I")("G")("N")
+ ("U")("N")("I")("T")("S")(design_units_code);@/
+load12("C")("O")("D")("I")("N")("G")
+ ("S")("C")("H")("E")("M")("E")(coding_scheme_code);@/
+load6("F")("A")("M")("I")("L")("Y")(family_code);@/
+load4("F")("A")("C")("E")(face_code);@/
+load16("S")("E")("V")("E")("N")("B")("I")("T")@/@t\hskip2em@>
+ ("S")("A")("F")("E")("F")("L")("A")("G")(seven_bit_safe_flag_code);@/
+load6("H")("E")("A")("D")("E")("R")(header_code);@/
+load9("F")("O")("N")("T")("D")("I")("M")("E")("N")(font_dimen_code);@/
+load8("L")("I")("G")("T")("A")("B")("L")("E")(lig_table_code);@/
+load12("B")("O")("U")("N")("D")("A")("R")("Y")("C")("H")("A")("R")
+ (boundary_char_code);@/
+load9("C")("H")("A")("R")("A")("C")("T")("E")("R")(character_code);@/
+load9("P")("A")("R")("A")("M")("E")("T")("E")("R")(parameter_code);@/
+load6("C")("H")("A")("R")("W")("D")(char_wd_code);@/
+load6("C")("H")("A")("R")("H")("T")(char_ht_code);@/
+load6("C")("H")("A")("R")("D")("P")(char_dp_code);@/
+load6("C")("H")("A")("R")("I")("C")(char_ic_code);@/
+load5("S")("E")("C")("W")("D")(sec_width_code);@/
+load5("S")("E")("C")("H")("T")(sec_height_code);@/
+load5("S")("E")("C")("D")("P")(sec_depth_code);@/
+load5("S")("E")("C")("I")("C")(sec_italic_code);@/
+load6("A")("C")("C")("E")("N")("T")(accent_code);@/
+load11("P")("R")("I")("M")("T")("O")("P")("A")("X")("I")("S")(prim_top_axis_code);@/
+load14("P")("R")("I")("M")("T")("O")("P")("A")("X")("I")("S")("B")("I")("S")(prim_top_axis_bis_code);@/
+load11("P")("R")("I")("M")("B")("O")("T")("A")("X")("I")("S")(prim_bot_axis_code);@/
+load14("P")("R")("I")("M")("B")("O")("T")("A")("X")("I")("S")("B")("I")("S")(prim_bot_axis_bis_code);@/
+load10("P")("R")("I")("M")("M")("I")("D")("H")("O")("R")(prim_mid_hor_code);@/
+load10("P")("R")("I")("M")("M")("I")("D")("V")("E")("R")(prim_mid_vert_code);@/
+load13("P")("R")("I")("M")("B")("A")("S")("E")("S")("L")("A")("N")("T")(prim_base_slant_code);@/
+load10("S")("E")("C")("T")("O")("P")("A")("X")("I")("S")(sec_top_axis_code);@/
+load13("S")("E")("C")("T")("O")("P")("A")("X")("I")("S")("B")("I")("S")(sec_top_axis_bis_code);@/
+load10("S")("E")("C")("B")("O")("T")("A")("X")("I")("S")(sec_bot_axis_code);@/
+load13("S")("E")("C")("B")("O")("T")("A")("X")("I")("S")("B")("I")("S")(sec_bot_axis_bis_code);@/
+load9("S")("E")("C")("M")("I")("D")("H")("O")("R")(sec_mid_hor_code);@/
+load9("S")("E")("C")("M")("I")("D")("V")("E")("R")(sec_mid_vert_code);@/
+load12("S")("E")("C")("B")("A")("S")("E")("S")("L")("A")("N")("T")(sec_base_slant_code);@/
+load10("N")("E")("X")("T")("L")("A")("R")("G")("E")("R")(next_larger_code);@/
+load7("V")("A")("R")("C")("H")("A")("R")(var_char_code);@/
+load3("T")("O")("P")(var_char_code+1);@/
+load3("M")("I")("D")(var_char_code+2);@/
+load3("B")("O")("T")(var_char_code+3);@/
+load3("R")("E")("P")(var_char_code+4);@/
+load3("E")("X")("T")(var_char_code+4); {compatibility with older \.{PL} format}
+load7("C")("O")("M")("M")("E")("N")("T")(comment_code);@/
+load5("L")("A")("B")("E")("L")(label_code);@/
+load4("S")("T")("O")("P")(stop_code);@/
+load4("S")("K")("I")("P")(skip_code);@/
+load3("K")("R")("N")(krn_code);@/
+load3("L")("I")("G")(lig_code);@/
+load4("/")("L")("I")("G")(lig_code+2);@/
+load5("/")("L")("I")("G")(">")(lig_code+6);@/
+load4("L")("I")("G")("/")(lig_code+1);@/
+load5("L")("I")("G")("/")(">")(lig_code+5);@/
+load5("/")("L")("I")("G")("/")(lig_code+3);@/
+load6("/")("L")("I")("G")("/")(">")(lig_code+7);@/
+load7("/")("L")("I")("G")("/")(">")(">")(lig_code+11);@/
+load6("C")("L")("A")("B")("E")("L")(clabel_code);@/
+load4("C")("P")("E")("N")(cpen_code);@/
+load5("C")("G")("L")("U")("E")(cglue_code);@/
+load8("C")("P")("E")("N")("G")("L")("U")("E")(cpenglue_code);@/
+load4("C")("K")("R")("N")(ckrn_code);@/
+load8("O")("F")("M")("L")("E")("V")("E")("L")(ofm_level_code);@/
+load7("F")("O")("N")("T")("D")("I")("R")(font_dir_code);@/
+load8("N")("F")("O")("N")("T")("D")("I")("R")(n_font_dir_code);@/
+load10("C")("H")("A")("R")("R")("E")("P")("E")("A")("T")(char_repeat_code);@/
+load10("C")("H")("A")("R")("I")("V")("A")("L")("U")("E")(char_ivalue_code);@/
+load10("C")("H")("A")("R")("F")("V")("A")("L")("U")("E")(char_fvalue_code);@/
+load10("C")("H")("A")("R")("M")("V")("A")("L")("U")("E")(char_mvalue_code);@/
+load8("C")("H")("A")("R")("R")("U")("L")("E")(char_rule_code);@/
+load8("C")("H")("A")("R")("G")("L")("U")("E")(char_glue_code);@/
+load11("C")("H")("A")("R")("P")("E")("N")("A")("L")("T")("Y")(char_penalty_code);@/
+load8("F")("O")("N")("T")("R")("U")("L")("E")(font_rule_code);@/
+load4("R")("U")("L")("E")(rule_code);@/
+load6("R")("U")("L")("E")("W")("D")(rule_width_code);@/
+load6("R")("U")("L")("E")("H")("T")(rule_height_code);@/
+load6("R")("U")("L")("E")("D")("P")(rule_depth_code);@/
+load8("F")("O")("N")("T")("G")("L")("U")("E")(font_glue_code);@/
+load4("G")("L")("U")("E")(glue_code);@/
+load8("G")("L")("U")("E")("T")("Y")("P")("E")(glue_type_code);@/
+load16("G")("L")("U")("E")("S")("T")("R")("E")("T")("C")("H")("O")("R")("D")("E")("R")(glue_stretch_order_code);@/
+load15("G")("L")("U")("E")("S")("H")("R")("I")("N")("K")("O")("R")("D")("E")("R")(glue_shrink_order_code);@/
+load8("G")("L")("U")("E")("R")("U")("L")("E")(glue_rule_code);@/
+load8("G")("L")("U")("E")("C")("H")("A")("R")(glue_char_code);@/
+load6("G")("L")("U")("E")("W")("D")(glue_width_code);@/
+load11("G")("L")("U")("E")("S")("T")("R")("E")("T")("C")("H")(glue_stretch_code);@/
+load10("G")("L")("U")("E")("S")("H")("R")("I")("N")("K")(glue_shrink_code);@/
+load4("U")("N")("I")("T")(order_unit_code);@/
+load2("F")("I")(order_fi_code);@/
+load3("F")("I")("L")(order_fil_code);@/
+load4("F")("I")("L")("L")(order_fill_code);@/
+load5("F")("I")("L")("L")("L")(order_filll_code);@/
+load6("N")("O")("R")("M")("A")("L")(type_normal_code);@/
+load8("A")("L")("E")("A")("D")("E")("R")("S")(type_aleaders_code);@/
+load8("C")("L")("E")("A")("D")("E")("R")("S")(type_cleaders_code);@/
+load8("X")("L")("E")("A")("D")("E")("R")("S")(type_xleaders_code);@/
+load11("F")("O")("N")("T")("P")("E")("N")("A")("L")("T")("Y")(font_penalty_code);@/
+load7("P")("E")("N")("A")("L")("T")("Y")(penalty_code);@/
+load10("P")("E")("N")("A")("L")("T")("Y")("V")("A")("L")(penalty_val_code);@/
+load10("F")("O")("N")("T")("M")("V")("A")("L")("U")("E")(font_mvalue_code);@/
+load6("M")("V")("A")("L")("U")("E")(mvalue_code);@/
+load9("M")("V")("A")("L")("U")("E")("V")("A")("L")(mvalue_val_code);@/
+load10("F")("O")("N")("T")("F")("V")("A")("L")("U")("E")(font_fvalue_code);@/
+load6("F")("V")("A")("L")("U")("E")(fvalue_code);@/
+load9("F")("V")("A")("L")("U")("E")("V")("A")("L")(fvalue_val_code);@/
+load10("F")("O")("N")("T")("I")("V")("A")("L")("U")("E")(font_ivalue_code);@/
+load6("I")("V")("A")("L")("U")("E")(ivalue_code);@/
+load9("I")("V")("A")("L")("U")("E")("V")("A")("L")(ivalue_val_code);@/
+load2("T")("L")(TL_dir_code);
+load2("L")("T")(LT_dir_code);
+load2("T")("R")(TR_dir_code);
+load2("L")("B")(LB_dir_code);
+load2("B")("L")(BL_dir_code);
+load2("R")("T")(RT_dir_code);
+load2("B")("R")(BR_dir_code);
+load2("R")("B")(RB_dir_code);
+
+@ \.{VPL} files may contain the following in addition to the \.{PL} names.
+
+@<Enter all the \.{VPL} names@>=
+load6("V")("T")("I")("T")("L")("E")(virtual_title_code);@/
+load7("M")("A")("P")("F")("O")("N")("T")(map_font_code);@/
+load3("M")("A")("P")(map_code);@/
+load8("F")("O")("N")("T")("N")("A")("M")("E")(font_name_code);@/
+load8("F")("O")("N")("T")("A")("R")("E")("A")(font_area_code);@/
+load12("F")("O")("N")("T")
+ ("C")("H")("E")("C")("K")("S")("U")("M")(font_checksum_code);@/
+load6("F")("O")("N")("T")("A")("T")(font_at_code);@/
+load9("F")("O")("N")("T")("D")("S")("I")("Z")("E")(font_dsize_code);@/
+load10("S")("E")("L")("E")("C")("T")("F")("O")("N")("T")(select_font_code);@/
+load7("S")("E")("T")("C")("H")("A")("R")(set_char_code);@/
+load7("S")("E")("T")("R")("U")("L")("E")(set_rule_code);@/
+load9("M")("O")("V")("E")("R")("I")("G")("H")("T")(move_right_code);@/
+load8("M")("O")("V")("E")("L")("E")("F")("T")(move_right_code+1);@/
+load8("M")("O")("V")("E")("D")("O")("W")("N")(move_down_code);@/
+load6("M")("O")("V")("E")("U")("P")(move_down_code+1);@/
+load4("P")("U")("S")("H")(push_code);@/
+load3("P")("O")("P")(pop_code);@/
+load7("S")("P")("E")("C")("I")("A")("L")(special_code);@/
+load10("S")("P")("E")("C")("I")("A")("L")("H")("E")("X")(special_hex_code);@/
+
+@ @<Enter the parameter names@>=
+load5("S")("L")("A")("N")("T")(parameter_code+1);@/
+load5("S")("P")("A")("C")("E")(parameter_code+2);@/
+load7("S")("T")("R")("E")("T")("C")("H")(parameter_code+3);@/
+load6("S")("H")("R")("I")("N")("K")(parameter_code+4);@/
+load7("X")("H")("E")("I")("G")("H")("T")(parameter_code+5);@/
+load4("Q")("U")("A")("D")(parameter_code+6);@/
+load10("E")("X")("T")("R")("A")("S")("P")("A")("C")("E")(parameter_code+7);@/
+load4("N")("U")("M")("1")(parameter_code+8);@/
+load4("N")("U")("M")("2")(parameter_code+9);@/
+load4("N")("U")("M")("3")(parameter_code+10);@/
+load6("D")("E")("N")("O")("M")("1")(parameter_code+11);@/
+load6("D")("E")("N")("O")("M")("2")(parameter_code+12);@/
+load4("S")("U")("P")("1")(parameter_code+13);@/
+load4("S")("U")("P")("2")(parameter_code+14);@/
+load4("S")("U")("P")("3")(parameter_code+15);@/
+load4("S")("U")("B")("1")(parameter_code+16);@/
+load4("S")("U")("B")("2")(parameter_code+17);@/
+load7("S")("U")("P")("D")("R")("O")("P")(parameter_code+18);@/
+load7("S")("U")("B")("D")("R")("O")("P")(parameter_code+19);@/
+load6("D")("E")("L")("I")("M")("1")(parameter_code+20);@/
+load6("D")("E")("L")("I")("M")("2")(parameter_code+21);@/
+load10("A")("X")("I")("S")("H")("E")("I")("G")("H")("T")(parameter_code+22);@/
+load20("D")("E")("F")("A")("U")("L")("T")("R")("U")("L")("E")@/@t\hskip2em@>
+ ("T")("H")("I")("C")("K")("N")("E")("S")("S")(parameter_code+8);@/
+load13("B")("I")("G")("O")("P")
+ ("S")("P")("A")("C")("I")("N")("G")("1")(parameter_code+9);@/
+load13("B")("I")("G")("O")("P")
+ ("S")("P")("A")("C")("I")("N")("G")("2")(parameter_code+10);@/
+load13("B")("I")("G")("O")("P")
+ ("S")("P")("A")("C")("I")("N")("G")("3")(parameter_code+11);@/
+load13("B")("I")("G")("O")("P")
+ ("S")("P")("A")("C")("I")("N")("G")("4")(parameter_code+12);@/
+load13("B")("I")("G")("O")("P")
+ ("S")("P")("A")("C")("I")("N")("G")("5")(parameter_code+13);@/
+
+@ When a left parenthesis has been scanned, the following routine
+is used to interpret the keyword that follows, and to store the
+equivalent value in |cur_code|.
+
+@p procedure get_name;
+begin incr(loc); incr(level); {pass the left parenthesis}
+cur_char:=" ";
+while cur_char=" " do get_next;
+if (cur_char>")")or(cur_char<"(") then decr(loc); {back up one character}
+name_length:=0; get_keyword_char; {prepare to scan the name}
+while cur_char<>" " do begin
+ if name_length=longest_name then cur_name[1]:="X" {force error}
+ else incr(name_length);
+ cur_name[name_length]:=cur_char;
+ get_keyword_char;
+ end;
+lookup;
+if name_ptr=0 then err_print('Sorry, I don''t know that property name');
+@.Sorry, I don't know...@>
+cur_code:=equiv[name_ptr];
+end;
+
+@* Scanning numeric data.
+The next thing we need is a trio of subroutines to read the one-byte,
+four-byte, and real numbers that may appear as property values.
+These subroutines are careful to stick to numbers between $-2^{31}$
+and $2^{31}-1$, inclusive, so that a computer with two's complement
+32-bit arithmetic will not be interrupted by overflow.
+
+@ The first number scanner, which returns a one-byte value, surely has
+no problems of arithmetic overflow.
+
+@p function get_byte:byte; {scans a one-byte property value}
+var acc:integer; {an accumulator}
+@!t:ASCII_code; {the type of value to be scanned}
+begin repeat get_next;
+until cur_char<>" "; {skip the blanks before the type code}
+t:=cur_char; acc:=0;
+repeat get_next;
+until cur_char<>" "; {skip the blanks after the type code}
+if t="C" then @<Scan an ASCII character code@>
+else if t="D" then @<Scan a small decimal number@>
+else if t="O" then @<Scan a small octal number@>
+else if t="H" then @<Scan a small hexadecimal number@>
+else if t="F" then @<Scan a face code@>
+else skip_error('You need "C" or "D" or "O" or "H" or "F" here');
+@.You need "C" or "D" ...here@>
+cur_char:=" "; get_byte:=acc;
+end;
+
+@ The |get_next| routine converts lower case to upper case, but it leaves
+the character in the buffer, so we can unconvert it.
+
+@<Scan an ASCII...@>=
+if (cur_char>=@'41)and(cur_char<=@'176)and
+ ((cur_char<"(")or(cur_char>")")) then
+ acc:=xord[buffer[loc]]
+else skip_error('"C" value must be standard ASCII and not a paren')
+@:C value}\.{"C" value must be...@>
+
+@ @<Scan a small dec...@>=
+begin while (cur_char>="0")and(cur_char<="9") do begin
+ acc:=acc*10+cur_char-"0";
+ if acc>65535 then begin
+ skip_error('This value shouldn''t exceed 65535');
+@.This value shouldn't...@>
+ acc:=0; cur_char:=" ";
+ end
+ else get_next;
+ end;
+backup;
+end
+
+@ @<Scan a small oct...@>=
+begin while (cur_char>="0")and(cur_char<="7") do begin
+ acc:=acc*8+cur_char-"0";
+ if acc>65535 then begin
+ skip_error('This value shouldn''t exceed ''177777');
+@.This value shouldn't...@>
+ acc:=0; cur_char:=" ";
+ end
+ else get_next;
+ end;
+backup;
+end
+
+@ @<Scan a small hex...@>=
+begin while ((cur_char>="0")and(cur_char<="9"))or
+ ((cur_char>="A")and(cur_char<="F")) do begin
+ if cur_char>="A" then cur_char:=cur_char+"0"+10-"A";
+ acc:=acc*16+cur_char-"0";
+ if acc>65535 then begin
+ skip_error('This value shouldn''t exceed "FFFF');
+@.This value shouldn't...@>
+ acc:=0; cur_char:=" ";
+ end
+ else get_next;
+ end;
+backup;
+end
+
+@ @<Scan a face...@>=
+begin if cur_char="B" then acc:=2
+else if cur_char="L" then acc:=4
+else if cur_char<>"M" then acc:=18;
+get_next;
+if cur_char="I" then incr(acc)
+else if cur_char<>"R" then acc:=18;
+get_next;
+if cur_char="C" then acc:=acc+6
+else if cur_char="E" then acc:=acc+12
+else if cur_char<>"R" then acc:=18;
+if acc>=18 then begin
+ skip_error('Illegal face code, I changed it to MRR');
+@.Illegal face code...@>
+ acc:=0;
+ end;
+end
+
+@ The routine that scans a four-byte value puts its output into |cur_bytes|,
+which is a record containing (yes, you guessed it) four bytes.
+
+@<Types...@>=
+@!four_bytes=record @!b0:byte;@+@!b1:byte;@+@!b2:byte;@+@!b3:byte;@+end;
+
+@ @d c0==cur_bytes.b0
+@d c1==cur_bytes.b1
+@d c2==cur_bytes.b2
+@d c3==cur_bytes.b3
+
+@<Glob...@>=
+@!cur_bytes:four_bytes; {a four-byte accumulator}
+@!zero_bytes:four_bytes; {four bytes all zero}
+
+@ @<Set init...@>=
+zero_bytes.b0:=0; zero_bytes.b1:=0; zero_bytes.b2:=0; zero_bytes.b3:=0;
+
+@ Since the |get_four_bytes| routine is used very infrequently, no attempt
+has been made to make it fast; we only want it to work.
+This is no longer the case, but we hope it's not too slow.
+
+@p procedure get_four_bytes; {scans an unsigned constant and sets |four_bytes|}
+var c:integer; {local two-byte accumulator}
+@!r:integer; {radix}
+begin repeat get_next;
+until cur_char<>" "; {skip the blanks before the type code}
+r:=0; cur_bytes:=zero_bytes; {start with the accumulator zero}
+if cur_char="H" then r:=16
+else if cur_char="O" then r:=8
+else if cur_char="D" then r:=10
+else skip_error('Decimal ("D"), octal ("O"), or hex ("H") value needed here');
+@.Decimal ("D"), octal ("O"), or hex...@>
+if r>0 then begin
+ repeat get_next;
+ until cur_char<>" "; {skip the blanks after the type code}
+ while ((cur_char>="0")and(cur_char<="9"))or@|
+ ((cur_char>="A")and(cur_char<="F")) do
+ @<Multiply by |r|, add |cur_char-"0"|, and |get_next|@>;
+ end;
+end;
+
+function get_integer:integer; {scans an integer property value}
+begin get_four_bytes;
+get_integer:=(c0*@"1000000)+(c1*@"10000)+(c2*@"100)+c3;
+end;
+
+
+@ @<Multiply by |r|...@>=
+begin if cur_char>="A" then cur_char:=cur_char+"0"+10-"A";
+if cur_char>="0"+r then skip_error('Illegal digit')
+@.Illegal digit@>
+else begin
+ c:=c3*r+cur_char-"0"; c3:=c mod 256;@/
+ c:=c2*r+c div 256; c2:=c mod 256;@/
+ c:=c1*r+c div 256; c1:=c mod 256;@/
+ c:=c0*r+c div 256;
+ if c<256 then c0:=c
+ else begin
+ cur_bytes:=zero_bytes;
+ if r=8 then
+ skip_error('Sorry, the maximum octal value is O 37777777777')
+@.Sorry, the maximum...@>
+ else if r=10 then
+ skip_error('Sorry, the maximum decimal value is D 4294967295')
+ else skip_error('Sorry, the maximum hex value is H FFFFFFFF');
+ end;
+ get_next;
+ end;
+end
+
+@ The remaining scanning routine is the most interesting. It scans a real
+constant and returns the nearest |fix_word| approximation to that constant.
+A |fix_word| is a 32-bit integer that represents a real value that
+has been multiplied by $2^{20}$. Since \.{VPtoVF} restricts the magnitude
+of reals to 2048, the |fix_word| will have a magnitude less than $2^{31}$.
+
+@d unity==@'4000000 {$2^{20}$, the |fix_word| 1.0}
+
+@<Types...@>=
+@!fix_word=integer; {a scaled real value with 20 bits of fraction}
+@!unsigned_integer=integer;
+
+@ When a real value is desired, we might as well treat `\.D' and `\.R'
+formats as if they were identical.
+
+@p function get_fix:fix_word; {scans a real property value}
+var negative:boolean; {was there a minus sign?}
+@!acc:integer; {an accumulator}
+@!int_part:integer; {the integer part}
+@!j:0..7; {the number of decimal places stored}
+begin repeat get_next;
+until cur_char<>" "; {skip the blanks before the type code}
+negative:=false; acc:=0; {start with the accumulators zero}
+if (cur_char<>"R")and(cur_char<>"D") then
+ skip_error('An "R" or "D" value is needed here')
+@.An "R" or "D" ... needed here@>
+else begin @<Scan the blanks and/or signs after the type code@>;
+ while (cur_char>="0") and (cur_char<="9") do
+ @<Multiply by 10, add |cur_char-"0"|, and |get_next|@>;
+ int_part:=acc; acc:=0;
+ if cur_char="." then @<Scan the fraction part and put it in |acc|@>;
+ if (acc>=unity)and(int_part=2047) then
+ skip_error('Real constants must be less than 2048')
+@.Real constants must be...@>
+ else acc:=int_part*unity+acc;
+ end;
+if negative then get_fix:=-acc@+else get_fix:=acc;
+end;
+
+@ @<Scan the blanks...@>=
+repeat get_next;
+if cur_char="-" then begin
+ cur_char:=" "; negative:=true;
+ end
+else if cur_char="+" then cur_char:=" ";
+until cur_char<>" "
+
+@ @<Multiply by 10...@>=
+begin acc:=acc*10+cur_char-"0";
+if acc>=2048 then begin
+ skip_error('Real constants must be less than 2048');
+@.Real constants must be...@>
+ acc:=0; cur_char:=" ";
+ end
+else get_next;
+end
+
+@ To scan the fraction $.d_1d_2\ldots\,$, we keep track of up to seven
+of the digits $d_j$. A correct result is obtained if we first compute
+$f^\prime=\lfloor 2^{21}(d_1\ldots d_j)/10^j\rfloor$, after which
+$f=\lfloor(f^\prime+1)/2\rfloor$. It is possible to have $f=1.0$.
+
+@<Glob...@>=
+@!fraction_digits:array[1..7] of integer; {$2^{21}$ times $d_j$}
+
+@ @<Scan the frac...@>=
+begin j:=0; get_next;
+while (cur_char>="0")and(cur_char<="9") do begin
+ if j<7 then begin
+ incr(j); fraction_digits[j]:=@'10000000*(cur_char-"0");
+ end;
+ get_next;
+ end;
+acc:=0;
+while j>0 do begin
+ acc:=fraction_digits[j]+(acc div 10); decr(j);
+ end;
+acc:=(acc+10) div 20;
+end
+
+@* Storing the property values.
+When property values have been found, they are squirreled away in a bunch
+of arrays. The header information is unpacked into bytes in an array
+called |header_bytes|. The ligature/kerning program is stored in an array
+of type |four_bytes|.
+Another |four_bytes| array holds the specifications of extensible characters.
+The kerns and parameters are stored in separate arrays of |fix_word| values.
+Virtual font data goes into an array |vf| of single-byte values.
+
+We maintain information about at most |max_font+1| local fonts.
+
+Instead of storing the design size in the header array, we will keep it
+in a |fix_word| variable until the last minute. The number of units in the
+design size is also kept in a |fix_word|.
+
+@<Glob...@>=
+@!header_bytes:array[header_index] of byte; {the header block}
+@!header_ptr:header_index; {the number of header bytes in use}
+@!design_size:fix_word; {the design size}
+@!design_units:fix_word; {reciprocal of the scaling factor}
+@!frozen_du:boolean; {have we used |design_units| irrevocably?}
+@!seven_bit_safe_flag:boolean; {does the file claim to be seven-bit-safe?}
+@!lig_kern:array[0..max_lig_steps] of four_bytes; {the ligature program}
+@!nl:unsigned_integer; {the number of ligature/kern instructions so far}
+@!min_nl:unsigned_integer; {the final value of |nl| must be at least this}
+@!kern:array[0..max_kerns] of fix_word; {the distinct kerning amounts}
+@!nk:0..max_kerns; {the number of entries of |kern|}
+@!exten:array[char_type] of four_bytes; {extensible character specs}
+@!ne:xchar_type; {the number of extensible characters}
+@!param:array[1..max_param_words] of fix_word; {\.{FONTDIMEN} parameters}
+@!np:0..max_param_words; {the largest parameter set nonzero}
+@!check_sum_specified:boolean; {did the user name the check sum?}
+@!bchar:xchar_type; {right boundary character, |xmax_char| if unspecified}
+@!font_dir:integer; {font direction}
+@!vf:array[0..vf_size] of byte; {stored bytes for \.{VF} file}
+@!vf_ptr:0..vf_size; {first unused location in |vf|}
+@!vtitle_start:0..vf_size; {starting location of \.{VTITLE} string}
+@!vtitle_length:byte; {length of \.{VTITLE} string}
+@!packet_start:array[char_type] of 0..vf_size;
+ {beginning location of character packet}
+@!packet_length:array[char_type] of integer; {length of character packet}
+@!font_ptr:xfont_type; {number of distinct local fonts seen}
+@!cur_font:xfont_type; {number of the current local font}
+@!fname_start:array[font_type] of 0..vf_size; {beginning of local font name}
+@!fname_length:array[font_type] of byte; {length of local font name}
+@!farea_start:array[font_type] of 0..vf_size; {beginning of local font area}
+@!farea_length:array[font_type] of byte; {length of local font area}
+@!font_checksum:array[font_type] of four_bytes; {local font checksum}
+@!font_number:array[xfont_type] of integer; {local font id number}
+@!font_at:array[font_type] of fix_word; {local font ``at size''}
+@!font_dsize:array[font_type] of fix_word; {local font design size}
+
+@ @<Types...@>=
+@!char_type=0..max_char;
+@!xchar_type=0..xmax_char;
+@!xxchar_type=0..xxmax_char;
+@!font_type=0..max_font;
+@!xfont_type=0..xmax_font;
+@!header_index=0..max_header_bytes;
+@!indx=xxchar_type;
+
+@ @<Local...@>=
+@!d:header_index; {an index into |header_bytes|}
+
+@ We start by setting up the default values.
+
+@d check_sum_loc=0
+@d design_size_loc=4
+@d coding_scheme_loc=8
+@d family_loc=coding_scheme_loc+40
+@d seven_flag_loc=family_loc+20
+@d face_loc=seven_flag_loc+3
+
+@<Set init...@>=
+for d:=0 to 18*4-1 do header_bytes[d]:=0;
+header_bytes[8]:=11; header_bytes[9]:="U";
+header_bytes[10]:="N";
+header_bytes[11]:="S";
+header_bytes[12]:="P";
+header_bytes[13]:="E";
+header_bytes[14]:="C";
+header_bytes[15]:="I";
+header_bytes[16]:="F";
+header_bytes[17]:="I";
+header_bytes[18]:="E";
+header_bytes[19]:="D";
+@.UNSPECIFIED@>
+for d:=family_loc to family_loc+11 do header_bytes[d]:=header_bytes[d-40];
+design_size:=10*unity; design_units:=unity; frozen_du:=false;
+seven_bit_safe_flag:=false;@/
+header_ptr:=18*4; nl:=0; min_nl:=0; nk:=0; ne:=0; np:=0;@/
+check_sum_specified:=false; bchar:=xmax_char;@/
+font_dir:=0;
+vf_ptr:=0; vtitle_start:=0; vtitle_length:=0; font_ptr:=0;
+for k:=0 to max_char do packet_start[k]:=vf_size;
+for k:=0 to 127 do packet_length[k]:=1;
+for k:=128 to 255 do packet_length[k]:=2;
+for k:=256 to max_char do packet_length[k]:=3;
+
+@ Most of the dimensions, however, go into the |memory| array. There are
+at most |max_char+2| widths, |max_char+2| heights,
+|max_char+2| depths, and |max_char+2| italic corrections,
+since the value 0 is required but it need not be used. So |memory| has room
+for |4*max_char+8| entries, each of which is a |fix_word|. An auxiliary table called
+|link| is used to link these words together in linear lists, so that
+sorting and other operations can be done conveniently.
+
+We also add four ``list head'' words to the |memory| and |link| arrays;
+these are in locations |width| through |italic|, i.e., 1 through 4.
+For example, |link[height]| points to the smallest element in
+the sorted list of distinct heights that have appeared so far, and
+|memory[height]| is the number of distinct heights.
+
+@<Types...@>=
+@!pointer=0..mem_size; {an index into memory}
+
+@ The arrays |char_wd|, |char_ht|, |char_dp|, and |char_ic| contain
+pointers to the |memory| array entries where the corresponding dimensions
+appear. Two other arrays, |char_tag| and |char_remainder|, hold
+the other information that \.{TFM} files pack into a |char_info_word|.
+
+@d no_tag=0 {vanilla character}
+@d lig_tag=1 {character has a ligature/kerning program}
+@d list_tag=2 {character has a successor in a charlist}
+@d ext_tag=3 {character is extensible}
+@d bchar_label==char_remainder[xmax_char]
+ {beginning of ligature program for left boundary}
+
+@<Glob...@>=
+@!memory:array[pointer] of fix_word; {character dimensions and kerns}
+@!mem_ptr:pointer; {largest |memory| word in use}
+@!link:array[pointer] of pointer; {to make lists of |memory| items}
+@!char_wd:array[char_type] of pointer; {pointers to the widths}
+@!char_ht:array[char_type] of pointer; {pointers to the heights}
+@!char_dp:array[char_type] of pointer; {pointers to the depths}
+@!char_ic:array[char_type] of pointer; {pointers to italic corrections}
+@!char_tag:array[char_type] of no_tag..ext_tag; {character tags}
+@!char_remainder:array[xchar_type] of xchar_type;
+ {pointers to ligature labels,
+ next larger characters, or extensible characters}
+@!top_width,@!top_height,@!top_depth,@!top_italic:integer;
+
+@ @<Local...@>=
+@!c:integer; {runs through all character codes}
+
+@ @<Set init...@>=
+bchar_label:=xmax_label;
+for c:=0 to max_char do begin
+ char_wd[c]:=0; char_ht[c]:=0; char_dp[c]:=0; char_ic[c]:=0;@/
+ char_tag[c]:=no_tag; char_remainder[c]:=0;
+ end;
+memory[0]:=@'17777777777; {an ``infinite'' element at the end of the lists}
+memory[width]:=0; link[width]:=0; {width list is empty}
+memory[height]:=0; link[height]:=0; {height list is empty}
+memory[depth]:=0; link[depth]:=0; {depth list is empty}
+memory[italic]:=0; link[italic]:=0; {italic list is empty}
+mem_ptr:=italic;
+
+@ As an example of these data structures, let us consider the simple
+routine that inserts a potentially new element into one of the dimension
+lists. The first parameter indicates the list head (i.e., |h=width| for
+the width list, etc.); the second parameter is the value that is to be
+inserted into the list if it is not already present. The procedure
+returns the value of the location where the dimension appears in |memory|.
+The fact that |memory[0]| is larger than any legal dimension makes the
+algorithm particularly short.
+
+We do have to handle two somewhat subtle situations. A width of zero must be
+put into the list, so that a zero-width character in the font will not appear
+to be nonexistent (i.e., so that its |char_wd| index will not be zero), but
+this does not need to be done for heights, depths, or italic corrections.
+Furthermore, it is necessary to test for memory overflow even though we
+have provided room for the maximum number of different dimensions in any
+legal font, since the \.{VPL} file might foolishly give any number of
+different sizes to the same character.
+
+@p function sort_in(@!h:pointer;@!d:fix_word):pointer; {inserts into list}
+var p:pointer; {the current node of interest}
+begin if (d=0)and(h<>width) then sort_in:=0
+else begin p:=h;
+ while d>=memory[link[p]] do p:=link[p];
+ if (d=memory[p])and(p<>h) then sort_in:=p
+ else if mem_ptr=mem_size then begin
+ err_print('Memory overflow: too many widths, etc');
+@.Memory overflow...@>
+ print_ln('Congratulations! It''s hard to make this error.');
+ sort_in:=p;
+ end
+ else begin
+ incr(mem_ptr); memory[mem_ptr]:=d;
+ link[mem_ptr]:=link[p]; link[p]:=mem_ptr; incr(memory[h]);
+ sort_in:=mem_ptr;
+ end;
+ end;
+end;
+
+@ When these lists of dimensions are eventually written to the \.{OFM}
+file, we may have to do some rounding of values, because the \.{OFM} file
+allows at most 65536 widths, 256 heights, 256 depths, and 256 italic
+corrections. The following procedure takes a given list head |h| and a
+given dimension |d|, and returns the minimum $m$ such that the elements
+of the list can be covered by $m$ intervals of width $d$. It also sets
+|next_d| to the smallest value $d^\prime>d$ such that the covering found
+by this procedure would be different. In particular, if $d=0$ it computes
+the number of elements of the list, and sets |next_d| to the smallest
+distance between two list elements. (The covering by intervals of width
+|next_d| is not guaranteed to have fewer than $m$ elements, but in
+practice this seems to happen most of the time.)
+
+@<Glob...@>=
+@!next_d:fix_word; {the next larger interval that is worth trying}
+
+@ Once again we can make good use of the fact that |memory[0]| is ``infinite.''
+
+@p function min_cover(@!h:pointer;@!d:fix_word):integer;
+var p:pointer; {the current node of interest}
+@!l:fix_word; {the least element covered by the current interval}
+@!m:integer; {the current size of the cover being generated}
+begin m:=0; p:=link[h]; next_d:=memory[0];
+while p<>0 do begin
+ incr(m); l:=memory[p];
+ while memory[link[p]]<=l+d do p:=link[p];
+ p:=link[p];
+ if memory[p]-l<next_d then next_d:=memory[p]-l;
+ end;
+min_cover:=m;
+end;
+
+@ The following procedure uses |min_cover| to determine the smallest $d$
+such that a given list can be covered with at most a given number of
+intervals.
+
+@p function shorten(@!h:pointer;m:integer):fix_word; {finds best way to round}
+var d:fix_word; {the current trial interval length}
+@!k:integer; {the size of a minimum cover}
+begin if memory[h]>m then begin
+ excess:=memory[h]-m;
+ k:=min_cover(h,0); d:=next_d; {now the answer is at least |d|}
+ repeat d:=d+d; k:=min_cover(h,d);
+ until k<=m; {first we ascend rapidly until finding the range}
+ d:=d div 2; k:=min_cover(h,d); {now we run through the feasible steps}
+ while k>m do begin
+ d:=next_d; k:=min_cover(h,d);
+ end;
+ shorten:=d;
+ end
+else shorten:=0;
+end;
+
+@ When we are nearly ready to output the \.{TFM} file, we will set
+|index[p]:=k| if the dimension in |memory[p]| is being rounded to the
+|k|th element of its list.
+
+@<Glob...@>=
+@!index:array[pointer] of byte;
+@!excess:byte; {number of words to remove, if list is being shortened}
+
+@ Here is the procedure that sets the |index| values. It also shortens
+the list so that there is only one element per covering interval;
+the remaining elements are the midpoints of their clusters.
+
+@p procedure set_indices(@!h:pointer;@!d:fix_word); {reduces and indexes a list}
+var p:pointer; {the current node of interest}
+@!q:pointer; {trails one step behind |p|}
+@!m:byte; {index number of nodes in the current interval}
+@!l:fix_word; {least value in the current interval}
+begin q:=h; p:=link[q]; m:=0;
+while p<>0 do begin
+ incr(m); l:=memory[p]; index[p]:=m;
+ while memory[link[p]]<=l+d do begin
+ p:=link[p]; index[p]:=m; decr(excess);
+ if excess=0 then d:=0;
+ end;
+ link[q]:=p; memory[p]:=l+(memory[p]-l) div 2; q:=p; p:=link[p];
+ end;
+memory[h]:=m;
+end;
+
+@* The input phase.
+We're ready now to read and parse the \.{VPL} file, storing property
+values as we go.
+
+@<Glob...@>=
+@!c:integer; {the current character or byte being processed}
+@!cprime:char_type; {Processing for several characters together}
+@!crange:char_type; {ditto}
+@!x:fix_word; {current dimension of interest}
+@!k:integer; {general-purpose index}
+
+@ @<Read all the input@>=
+cur_char:=" ";
+repeat while cur_char=" " do get_next;
+if cur_char="(" then @<Read a font property value@>
+else if (cur_char=")")and not input_has_ended then begin
+ err_print('Extra right parenthesis');
+ incr(loc); cur_char:=" ";
+ end
+@.Extra right parenthesis@>
+else if not input_has_ended then junk_error;
+until input_has_ended
+
+@ The |junk_error| routine just referred to is called when something
+appears in the forbidden area between properties of a property list.
+
+@p procedure junk_error; {gets past no man's land}
+begin err_print('There''s junk here that is not in parentheses');
+@.There's junk here...@>
+skip_to_paren;
+end;
+
+@ For each font property, we are supposed to read the data from the
+left parenthesis that is the current value of |cur_char| to the right
+parenthesis that matches it in the input. The main complication is
+to recover with reasonable grace from various error conditions that
+might arise.
+
+@<Read a font property value@>=
+begin get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if (cur_code<110) and (cur_code>character_code) then
+ flush_error('This property name doesn''t belong on the outer level')
+else if (cur_code>=110) and ((cur_code mod 10)<>0) then
+ flush_error('This property name doesn''t belong on the outer level')
+@.This property name doesn't belong...@>
+else begin
+ @<Read the font property value specified by |cur_code|@>;
+ finish_the_property;
+ end;
+end
+
+@ @<Read the font property value spec...@>=
+case cur_code of
+check_sum_code: begin check_sum_specified:=true; read_four_bytes(check_sum_loc);
+ end;
+design_size_code: @<Read the design size@>;
+design_units_code: @<Read the design units@>;
+coding_scheme_code: read_BCPL(coding_scheme_loc,40);
+family_code: read_BCPL(family_loc,20);
+face_code: begin c:=get_byte; if c>255 then begin
+ err_print('FACE clipped to 255'); c:=255 end;
+ header_bytes[face_loc]:=c
+ end;
+seven_bit_safe_flag_code: @<Read the seven-bit-safe flag@>;
+header_code: @<Read an indexed header word@>;
+font_dimen_code: @<Read font parameter list@>;
+lig_table_code: read_lig_kern;
+boundary_char_code: bchar:=get_byte;
+virtual_title_code: begin vtitle_start:=vf_ptr; copy_to_end_of_item;
+ if vf_ptr>vtitle_start+255 then begin
+ err_print('VTITLE clipped to 255 characters'); vtitle_length:=255;
+@.VTITLE clipped...@>
+ end
+ else vtitle_length:=vf_ptr-vtitle_start;
+ end;
+map_font_code:@<Read a local font list@>;
+character_code: read_char_info;
+ofm_level_code: @<Read OFM level code@>;
+font_dir_code: @<Read font direction code@>;
+n_font_dir_code: @<Read natural font direction code@>;
+char_repeat_code: read_repeated_character_info;
+font_rule_code: read_font_rule_list;
+font_glue_code: read_font_glue_list;
+font_penalty_code: read_font_penalty_list;
+font_mvalue_code: read_font_mvalue_list;
+font_fvalue_code: read_font_fvalue_list;
+font_ivalue_code: read_font_ivalue_list;
+end
+
+@ The |case| statement just given makes use of three subroutines that we
+haven't defined yet. The first of these puts a 32-bit octal quantity
+into four specified bytes of the header block.
+
+@p procedure read_four_bytes(l:header_index);
+begin get_four_bytes;
+header_bytes[l]:=c0;
+header_bytes[l+1]:=c1;
+header_bytes[l+2]:=c2;
+header_bytes[l+3]:=c3;
+end;
+
+@ The second little procedure is used to scan a string and to store it in
+the ``{\mc BCPL} format'' required by \.{TFM} files. The string is supposed
+to contain at most |n| bytes, including the first byte (which holds the
+length of the rest of the string).
+
+@p procedure read_BCPL(l:header_index;n:byte);
+var k:header_index;
+begin k:=l;
+while cur_char=" " do get_next;
+while (cur_char<>"(")and(cur_char<>")") do begin
+ if k<l+n then incr(k);
+ if k<l+n then header_bytes[k]:=cur_char;
+ get_next;
+ end;
+if k=l+n then begin
+ err_print('String is too long; its first ',n-1:1,
+@.String is too long...@>
+ ' characters will be kept'); decr(k);
+ end;
+header_bytes[l]:=k-l;
+while k<l+n-1 do begin {tidy up the remaining bytes by setting them to nulls}
+ incr(k); header_bytes[k]:=0;
+ end;
+end;
+
+@ @<Read the design size@>=
+begin next_d:=get_fix;
+if next_d<unity then
+ err_print('The design size must be at least 1')
+@.The design size must...@>
+else design_size:=next_d;
+end
+
+@ @<Read the design units@>=
+begin next_d:=get_fix;
+if next_d<=0 then
+ err_print('The number of units per design size must be positive')
+@.The number of units...@>
+else if frozen_du then
+ err_print('Sorry, it''s too late to change the design units')
+@.Sorry, it's too late...@>
+else design_units:=next_d;
+end
+
+@ @<Read the seven-bit-safe...@>=
+begin while cur_char=" " do get_next;
+if cur_char="T" then seven_bit_safe_flag:=true
+else if cur_char="F" then seven_bit_safe_flag:=false
+else err_print('The flag value should be "TRUE" or "FALSE"');
+@.The flag value should be...@>
+skip_to_paren;
+end
+
+@ @<Read an indexed header word@>=
+begin c:=get_byte;
+if c<18 then skip_error('HEADER indices should be 18 or more')
+@.HEADER indices...@>
+else if 4*c+4>max_header_bytes then
+ skip_error('This HEADER index is too big for my present table size')
+@.This HEADER index is too big...@>
+else begin
+ while header_ptr<4*c+4 do begin
+ header_bytes[header_ptr]:=0; incr(header_ptr);
+ end;
+ read_four_bytes(4*c);
+ end;
+end
+
+@ The remaining kinds of font property values that need to be read are
+those that involve property lists on higher levels. Each of these has a
+loop similar to the one that was used at level zero. Then we put the
+right parenthesis back so that `|finish_the_property|' will be happy;
+there is probably a more elegant way to do this.
+
+@d finish_inner_property_list==begin decr(loc); incr(level); cur_char:=")";
+ end
+
+@<Read font parameter list@>=
+begin while level=1 do
+ begin while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a parameter value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a parameter value@>=
+begin get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if (cur_code<parameter_code)or(cur_code>=char_wd_code) then
+ flush_error('This property name doesn''t belong in a FONTDIMEN list')
+@.This property name doesn't belong...@>
+else begin if cur_code=parameter_code then c:=get_integer
+ else c:=cur_code-parameter_code;
+ if c=0 then flush_error('PARAMETER index must not be zero')
+@.PARAMETER index must not...@>
+ else if c>max_param_words then
+ flush_error('This PARAMETER index is too big for my present table size')
+@.This PARAMETER index is too big...@>
+ else begin
+ while np<c do begin
+ incr(np); param[np]:=0;
+ end;
+ param[c]:=get_fix;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Read a local font list@>=
+begin font_number[font_ptr]:=get_integer; cur_font:=0;
+while font_number[font_ptr]<>font_number[cur_font] do incr(cur_font);
+if cur_font=font_ptr then {it's a new font number}
+ if font_ptr<xmax_font then @<Initialize a new local font@>
+ else err_print('Sorry, too many different mapfonts');
+@.Sorry, too many different mapfonts@>
+if cur_font=font_ptr then skip_to_end_of_item
+else while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a local font property@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Initialize a new local font@>=
+begin incr(font_ptr);
+fname_start[cur_font]:=vf_size; fname_length[cur_font]:=4; {\.{NULL}}
+farea_start[cur_font]:=vf_size; farea_length[cur_font]:=0;
+font_checksum[cur_font]:=zero_bytes;
+font_at[cur_font]:=@'4000000; {denotes design size of this virtual font}
+font_dsize[cur_font]:=@'50000000; {the |fix_word| for 10}
+end
+
+@ @<Read a local font property@>=
+begin get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if (cur_code<font_name_code)or(cur_code>font_dsize_code) then
+ flush_error('This property name doesn''t belong in a MAPFONT list')
+@.This property name doesn't belong...@>
+else begin
+ case cur_code of
+ font_name_code:@<Read a local font name@>;
+ font_area_code:@<Read a local font area@>;
+ font_checksum_code:begin
+ get_four_bytes; font_checksum[cur_font]:=cur_bytes;
+ end;
+ font_at_code: begin frozen_du:=true;
+ if design_units=unity then font_at[cur_font]:=get_fix
+ else font_at[cur_font]:=round((get_fix/design_units)*1048576.0);
+ end;
+ font_dsize_code:font_dsize[cur_font]:=get_fix;
+ end; {there are no other cases}
+ finish_the_property;
+ end;
+end
+
+@ @<Read a local font name@>=
+begin fname_start[cur_font]:=vf_ptr; copy_to_end_of_item;
+if vf_ptr>fname_start[cur_font]+255 then begin
+ err_print('FONTNAME clipped to 255 characters');
+@.FONTNAME clipped...@>
+ fname_length[cur_font]:=255;
+ end
+else fname_length[cur_font]:=vf_ptr-fname_start[cur_font];
+end
+
+@ @<Read a local font area@>=
+begin farea_start[cur_font]:=vf_ptr; copy_to_end_of_item;
+if vf_ptr>farea_start[cur_font]+255 then begin
+ err_print('FONTAREA clipped to 255 characters');
+@.FONTAREA clipped...@>
+ farea_length[cur_font]:=255;
+ end
+else farea_length[cur_font]:=vf_ptr-farea_start[cur_font];
+end
+
+@ @<Read ligature/kern list@>=
+begin lk_step_ended:=false;
+while level=1 do
+ begin while cur_char=" " do get_next;
+ if cur_char="(" then read_lig_kern_command
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a ligature/kern command@>=
+begin get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if (cur_code>=label_code) and (cur_code<=(lig_code+11)) then begin
+ case cur_code of
+ label_code:@<Read a label step@>;
+ stop_code:@<Read a stop step@>;
+ skip_code:@<Read a skip step@>;
+ krn_code:@<Read a kerning step@>;
+ lig_code,lig_code+1,lig_code+2,lig_code+3,lig_code+5,lig_code+6,
+ lig_code+7,lig_code+11:@<Read a ligature step@>;
+ end; {there are no other cases |>=label_code|}
+ finish_the_property;
+ end
+else if (cur_code>=clabel_code) and (cur_code<=cpenglue_code) then begin
+ case cur_code of
+ clabel_code:@<Read an extended label step@>;
+ cpen_code:@<Read an extended penalty step@>;
+ cglue_code:@<Read an extended glue step@>;
+ cpenglue_code:@<Read an extended penalty/glue step@>;
+ ckrn_code:@<Read an extended kern step@>;
+ end; {there are no other cases |>=label_code|}
+ finish_the_property;
+ end
+else flush_error('This property name doesn''t belong in a LIGTABLE list');
+@.This property name doesn't belong...@>
+end
+
+@ When a character is about to be tagged, we call the following
+procedure so that an error message is given in case of multiple tags.
+
+@p procedure check_tag(c:byte); {print error if |c| already tagged}
+begin case char_tag[c] of
+no_tag: do_nothing;
+lig_tag: err_print('This character already appeared in a LIGTABLE LABEL');
+@.This character already...@>
+list_tag: err_print('This character already has a NEXTLARGER spec');
+ext_tag: err_print('This character already has a VARCHAR spec');
+end;
+end;
+
+@ @<Read a label step@>=
+begin while cur_char=" " do get_next;
+if cur_char="B" then begin
+ bchar_label:=nl; skip_to_paren; {\.{LABEL BOUNDARYCHAR}}
+ end
+else begin
+ backup; c:=get_byte;
+ check_tag(c); char_tag[c]:=lig_tag; char_remainder[c]:=nl;
+ end;
+if min_nl<=nl then min_nl:=nl+1;
+lk_step_ended:=false;
+end
+
+@ @d stop_flag=128 {value indicating `\.{STOP}' in a lig/kern program}
+@d kern_flag=128 {op code for a kern step}
+
+@<Globals...@>=
+@!lk_step_ended:boolean;
+ {was the last \.{LIGTABLE} property \.{LIG} or \.{KRN}?}
+@!krn_ptr:0..max_kerns; {an index into |kern|}
+
+@ @<Read a stop step@>=
+if not lk_step_ended then
+ err_print('STOP must follow LIG or KRN')
+@.STOP must follow LIG or KRN@>
+else begin
+ lig_kern[nl-1].b0:=lig_kern[nl-1].b0 div 256 * 256 + stop_flag;
+ lk_step_ended:=false;
+ end
+
+@ @<Read a skip step@>=
+if not lk_step_ended then
+ err_print('SKIP must follow LIG or KRN')
+@.SKIP must follow LIG or KRN@>
+else begin
+ c:=get_byte;
+ if c>=128 then err_print('Maximum SKIP amount is 127')
+@.Maximum SKIP amount...@>
+ else if nl+c>=max_lig_steps then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+ else begin
+ lig_kern[nl-1].b0:=c;
+ if min_nl<=nl+c then min_nl:=nl+c+1;
+ end;
+ lk_step_ended:=false;
+ end
+
+@ @<Read a ligature step@>=
+begin lig_kern[nl].b0:=0;
+lig_kern[nl].b2:=cur_code-lig_code;
+lig_kern[nl].b1:=get_byte;
+lig_kern[nl].b3:=get_byte;
+if nl>=max_lig_steps-1 then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+else incr(nl);
+lk_step_ended:=true;
+end
+
+@ @<Read a kerning step@>=
+begin lig_kern[nl].b0:=0; lig_kern[nl].b1:=get_byte;
+kern[nk]:=get_fix; krn_ptr:=0;
+while kern[krn_ptr]<>kern[nk] do incr(krn_ptr);
+if krn_ptr=nk then begin
+ if nk<max_kerns then incr(nk)
+ else begin
+ err_print('Sorry, too many different kerns for me to handle');
+@.Sorry, too many different kerns...@>
+ decr(krn_ptr);
+ end;
+ end;
+if ofm_level=-1 then begin
+ lig_kern[nl].b2:=kern_flag+(krn_ptr div 256);
+ lig_kern[nl].b3:=krn_ptr mod 256;
+ end
+else begin
+ lig_kern[nl].b2:=kern_flag+(krn_ptr div 65536);
+ lig_kern[nl].b3:=krn_ptr mod 65536;
+ end;
+if nl>=max_lig_steps-1 then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+else incr(nl);
+lk_step_ended:=true;
+end
+
+@ @<Global...@>=
+@!category_remainders:array[0..256] of integer;
+@!ivalue_category,@!max_ivalue_category:integer;
+@!glue_category,@!max_glue_category:integer;
+@!penalty_category,@!max_penalty_category:integer;
+
+@ @<Set init...@>=
+for ivalue_category:=0 to 256 do begin
+ category_remainders[ivalue_category]:=-1;
+end;
+max_ivalue_category:=-1;
+max_glue_category:=-1;
+max_penalty_category:=-1;
+
+@ @<Read an extended label step@>=
+begin
+c:=get_byte;
+category_remainders[c]:=nl;
+if max_ivalue_category<c then max_ivalue_category:=c;
+if min_nl<=nl then min_nl:=nl+1;
+lk_step_ended:=false;
+end
+
+@ @<Read an extended penalty step@>=
+begin lig_kern[nl].b0:=256; lig_kern[nl].b1:=get_byte;
+lig_kern[nl].b2:=17;
+penalty_category:=get_byte;
+if max_penalty_category<penalty_category then
+ max_penalty_category:=penalty_category;
+lig_kern[nl].b3:=penalty_category;
+if nl>=max_lig_steps-1 then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+else incr(nl);
+lk_step_ended:=true;
+end
+
+@ @<Read an extended glue step@>=
+begin lig_kern[nl].b0:=256; lig_kern[nl].b1:=get_byte;
+lig_kern[nl].b2:=18;
+glue_category:=get_byte;
+if max_glue_category<glue_category then
+ max_glue_category:=glue_category;
+lig_kern[nl].b3:=glue_category;
+if nl>=max_lig_steps-1 then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+else incr(nl);
+lk_step_ended:=true;
+end
+
+@ @<Read an extended penalty/glue step@>=
+begin lig_kern[nl].b0:=256; lig_kern[nl].b1:=get_byte;
+lig_kern[nl].b2:=19;
+penalty_category:=get_byte;
+if max_penalty_category<penalty_category then
+ max_penalty_category:=penalty_category;
+glue_category:=get_byte;
+if max_glue_category<glue_category then
+ max_glue_category:=glue_category;
+lig_kern[nl].b3:=penalty_category*256+glue_category;
+if nl>=max_lig_steps-1 then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+else incr(nl);
+lk_step_ended:=true;
+end
+
+@ @<Read an extended kern step@>=
+begin lig_kern[nl].b0:=256; lig_kern[nl].b1:=get_byte;
+lig_kern[nl].b2:=20;
+kern[nk]:=get_fix; krn_ptr:=0;
+while kern[krn_ptr]<>kern[nk] do incr(krn_ptr);
+if krn_ptr=nk then begin
+ if nk<max_kerns then incr(nk)
+ else begin
+ err_print('Sorry, too many different kerns for me to handle');
+@.Sorry, too many different kerns...@>
+ decr(krn_ptr);
+ end;
+ end;
+if krn_ptr>65535 then
+ err_print('Sorry, too many different kerns for me to handle');
+lig_kern[nl].b3:=krn_ptr;
+if nl>=max_lig_steps-1 then
+ err_print('Sorry, LIGTABLE too long for me to handle')
+@.Sorry, LIGTABLE too long...@>
+else incr(nl);
+lk_step_ended:=true;
+end
+
+@ @<Globals...@>=
+@!char_extended_tag:array [char_type] of boolean;
+
+@ @<Set init...@>=
+for c:=0 to max_char do
+ char_extended_tag[c]:=false;
+
+@ @<Finish up the extended font stuff@>=
+begin
+if max_penalty_category>0 then begin
+ if nkp=0 then
+ err_print('No PENALTY table')
+ else if npp[0]<max_penalty_category then
+ err_print('Not enough PENALTY entries');
+ end;
+if max_glue_category>0 then begin
+ if nkg=0 then
+ err_print('No GLUE table')
+ else if npg[0]<max_glue_category then
+ err_print('Not enough GLUE entries');
+ end;
+if max_ivalue_category>0 then begin
+ if nki=0 then
+ err_print('No IVALUE table')
+ else if npi[0]<max_ivalue_category then
+ err_print('Not enough IVALUE entries')
+ else begin
+ for c:=0 to max_char do begin
+ if (char_wd[c]<>0) then begin
+ for j:=0 to max_ivalue_category do
+ if char_table[c,0]=j then begin
+ if category_remainders[j]<>-1 then begin
+ if char_tag[c]<>0 then
+ err_print('Character already has a tag')
+ else begin
+ char_extended_tag[c]:=true;
+ char_remainder[c]:=category_remainders[j];
+ end;
+ end;
+ end;
+ end;
+ end;
+ end;
+ end;
+end
+
+@ @<Global...@>=
+tables_read:boolean;
+
+@ @<Set init...@>=
+tables_read:=false;
+
+@ Finally we come to the part of \.{VPtoVF}'s input mechanism
+that is used most, the processing of individual character data.
+
+@<Read character info list@>=
+begin
+if not tables_read then begin
+ @<Compute the new header information for OFM files@>;
+ tables_read:=true;
+ end;
+c:=get_byte; {read the character code that is being specified}
+@<Print |c| in hex notation@>;
+while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then read_character_property
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+if char_wd[c]=0 then char_wd[c]:=sort_in(width,0); {legitimatize |c|}
+finish_inner_property_list;
+end
+
+@ @<Globals...@>=
+@!char_original:array [0..max_char] of integer;
+@!char_repeats:array [0..max_char] of integer;
+@!diff:boolean;
+@!needed_space,@!extra_bytes:integer;
+
+@ @<Set init...@>=
+for ch_entry:=0 to max_char do begin
+ char_original[ch_entry]:=ch_entry;
+ char_repeats[ch_entry]:=0;
+ end;
+
+@ @<Read repeated character info@>=
+begin
+if not tables_read then begin
+ compute_new_header_ofm;
+ tables_read:=true;
+ end;
+c:=get_byte; {read the character code that is being specified}
+@<Print |c| in hex notation@>;
+crange:=get_byte; {read how many characters are being defined}
+if (crange<0) then begin
+ err_print('Character ranges must be positive');
+ crange:=0;
+ end;
+if ((c+crange)>max_char) then begin
+ err_print('Character range too large');
+ crange:=0;
+ end;
+print('-'); print_hex(c+crange);
+while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then read_character_property
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+if char_wd[c]=0 then char_wd[c]:=sort_in(width,0); {legitimatize |c|}
+finish_inner_property_list;
+cprime:=c;
+for c:=(cprime+1) to (cprime+crange) do begin
+ char_wd[c]:=char_wd[cprime];
+ char_ht[c]:=char_ht[cprime];
+ char_dp[c]:=char_dp[cprime];
+ char_ic[c]:=char_ic[cprime];
+ for tab:=0 to (nki+nkf+nkr+nkg+nkp-1) do begin
+ char_table[c,tab]:= char_table[cprime,tab];
+ end;
+ end;
+end
+
+@ Tables for character parameters
+
+@d char_param_tables==8
+
+@<Globals...@>=
+@!char_table:array [0..max_char,0..char_param_tables] of integer;
+@!ch_table,@!ch_entry:integer;
+@!temp_value:integer;
+
+@ @<Set init...@>=
+for c:=0 to max_char do
+ for ch_table:=0 to char_param_tables do
+ char_table[c,ch_table]:=0;
+
+@ @<Read a character property@>=
+begin get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if (cur_code<char_wd_code) or
+ ((cur_code>var_char_code) and not
+ ((cur_code>=char_ivalue_code) and (cur_code<=char_penalty_code)))
+ then
+ flush_error('This property name doesn''t belong in a CHARACTER list')
+@.This property name doesn't belong...@>
+else begin
+ case cur_code of
+ char_wd_code:char_wd[c]:=sort_in(width,get_fix);
+ char_ht_code:char_ht[c]:=sort_in(height,get_fix);
+ char_dp_code:char_dp[c]:=sort_in(depth,get_fix);
+ char_ic_code:char_ic[c]:=sort_in(italic,get_fix);
+ sec_width_code:temp_value:=get_fix;
+ sec_height_code:temp_value:=get_fix;
+ sec_depth_code:temp_value:=get_fix;
+ sec_italic_code:temp_value:=get_fix;
+ accent_code:temp_value:=get_fix;
+ prim_top_axis_code:temp_value:=get_fix;
+ prim_top_axis_bis_code:temp_value:=get_fix;
+ prim_bot_axis_code:temp_value:=get_fix;
+ prim_bot_axis_bis_code:temp_value:=get_fix;
+ prim_mid_hor_code:temp_value:=get_fix;
+ prim_mid_vert_code:temp_value:=get_fix;
+ prim_base_slant_code:temp_value:=get_fix;
+ sec_top_axis_code:temp_value:=get_fix;
+ sec_top_axis_bis_code:temp_value:=get_fix;
+ sec_bot_axis_code:temp_value:=get_fix;
+ sec_bot_axis_bis_code:temp_value:=get_fix;
+ sec_mid_hor_code:temp_value:=get_fix;
+ sec_mid_vert_code:temp_value:=get_fix;
+ sec_base_slant_code:temp_value:=get_fix;
+ next_larger_code:begin check_tag(c); char_tag[c]:=list_tag;
+ char_remainder[c]:=get_byte;
+ end;
+ map_code:read_packet(c);
+ var_char_code:@<Read an extensible recipe for |c|@>;
+ char_ivalue_code: begin
+ ch_table:=get_integer;
+ ch_entry:=get_integer;
+ char_table[c,ch_table]:=ch_entry;
+ if ch_table>nkci then nkci:=ch_table;
+ end;
+ char_fvalue_code: begin
+ ch_table:=get_integer+nki;
+ ch_entry:=get_integer;
+ char_table[c,ch_table]:=ch_entry;
+ if ch_table>nkcf then nkcf:=ch_table;
+ end;
+ char_mvalue_code: begin
+ ch_table:=get_integer+nki+nkf;
+ ch_entry:=get_integer;
+ char_table[c,ch_table]:=ch_entry;
+ if ch_table>nkcm then nkcm:=ch_table;
+ end;
+ char_rule_code: begin
+ ch_table:=get_integer+nki+nkf+nkm;
+ ch_entry:=get_integer;
+ char_table[c,ch_table]:=ch_entry;
+ if ch_table>nkcr then nkcr:=ch_table;
+ end;
+ char_glue_code: begin
+ ch_table:=get_integer+nki+nkf+nkm+nkr;
+ ch_entry:=get_integer;
+ char_table[c,ch_table]:=ch_entry;
+ if ch_table>nkcg then nkcg:=ch_table;
+ end;
+ char_penalty_code: begin
+ ch_table:=get_integer+nki+nkf+nkm+nkr+nkg;
+ ch_entry:=get_integer;
+ char_table[c,ch_table]:=ch_entry;
+ if ch_table>nkcp then nkcp:=ch_table;
+ end;
+ end;@/
+ finish_the_property;
+ end;
+end
+
+@ @<Read an extensible r...@>=
+begin if ne=xmax_char then
+ err_print('Sorry, too many VARCHAR specs')
+@.Sorry, too many VARCHAR specs@>
+else begin
+ check_tag(c); char_tag[c]:=ext_tag; char_remainder[c]:=ne;@/
+ exten[ne]:=zero_bytes;
+ while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read an extensible piece@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ incr(ne);
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read an extensible p...@>=
+begin get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if (cur_code<var_char_code+1)or(cur_code>var_char_code+4) then
+ flush_error('This property name doesn''t belong in a VARCHAR list')
+@.This property name doesn't belong...@>
+else begin
+ case cur_code-(var_char_code+1) of
+ 0:exten[ne].b0:=get_byte;
+ 1:exten[ne].b1:=get_byte;
+ 2:exten[ne].b2:=get_byte;
+ 3:exten[ne].b3:=get_byte;
+ end;@/
+ finish_the_property;
+ end;
+end
+
+@ The input routine is now complete except for the following code,
+which prints a progress report as the file is being read.
+
+@ @<Glob...@>=
+@!HEX: packed array [1..32] of char;
+
+@ @<Set init...@>=
+HEX:='0123456789ABCDEF';@/
+
+@ The array |dig| will hold a sequence of digits to be output.
+
+@<Glob...@>=
+@!dig:array[0..32] of integer;
+
+@ Here, in fact, are two procedures that output
+|dig[j-1]|$\,\ldots\,$|dig[0]|, given $j>0$.
+
+@p procedure out_digs(j:integer); {outputs |j| digits}
+begin repeat decr(j); out(HEX[1+dig[j]]);
+ until j=0;
+end;
+@#
+procedure print_digs(j:integer); {prints |j| digits}
+begin repeat decr(j); print(HEX[1+dig[j]]);
+ until j=0;
+end;
+
+@ The |print_number| procedure indicates how |print_digs| can be used.
+This procedure can print in octal, decimal or hex notation.
+
+@d print_hex(#)==print_number(#,16)
+@d print_octal(#)==print_number(#,8)
+@d print_decimal(#)==print_number(#,10)
+
+@p procedure print_number(c:integer; form:integer); {prints value of
+|c|}
+var j:0..32; {index into |dig|}
+begin
+j:=0;
+if (c<0) then begin
+ print_ln('Internal error: print_number (negative value)');
+ c:=0;
+ end;
+if form=8 then
+ print('''') {an apostrophe indicates the octal notation}
+else if form=16 then
+ print('"') { a double apostrophe indicates the hexadecimal
+notation}
+else if form<>10 then begin
+ print_ln('Internal error: print_number (form)');
+ form:=16;
+ end;
+while (c>0) or (j=0) do begin
+ dig[j]:=c mod form; c:=c div form;
+ j:=j+1;
+ end;
+print_digs(j);
+end;
+
+@ @<Print |c| in hex...@>=
+begin if chars_on_line=8 then begin
+ print_ln(' '); chars_on_line:=1;
+ end
+else begin
+ if chars_on_line>0 then print(' ');
+ incr(chars_on_line);
+ end;
+print_hex(c); {progress report}
+end
+
+
+@* Assembling the mappings.
+Each \.{MAP} property is a sequence of \.{DVI} instructions, for which
+we need to know some of the opcodes.
+We add afterwards the definitions for outputting typesetting commands.
+
+@d set_char_0=0 {\.{DVI} command to typeset character 0 and move right}
+@d set1=128 {typeset a character and move right}
+@d set_rule=132 {typeset a rule and move right}
+@d push=141 {save the current positions}
+@d pop=142 {restore previous positions}
+@d right1=143 {move right}
+@d w0=147 {move right by |w|}
+@d w1=148 {move right and set |w|}
+@d x0=152 {move right by |x|}
+@d x1=153 {move right and set |x|}
+@d down1=157 {move down}
+@d y0=161 {move down by |y|}
+@d y1=162 {move down and set |y|}
+@d z0=166 {move down by |z|}
+@d z1=167 {move down and set |z|}
+@d fnt_num_0=171 {set current font to 0}
+@d fnt1=235 {set current font}
+@d xxx1=239 {extension to \.{DVI} primitives}
+@d xxx4=242 {potentially long extension to \.{DVI} primitives}
+@d fnt_def1=243 {define the meaning of a font number}
+@d pre=247 {preamble}
+@d post=248 {postamble beginning}
+@d Incr_Decr(#) == #
+@d Incr(#) == #:=#+Incr_Decr {increase a variable}
+
+@d out_four(#) ==
+if x>=0 then #(x div @"1000000)
+else begin Incr(x)(@"40000000); Incr(x)(@"40000000);
+ #((x div @"1000000) + 128);
+ end;
+x:=x mod @"1000000; #(x div @"10000);
+x:=x mod @"10000; #(x div @"100);
+#(x mod @"100)
+
+@d out_cmd(#) ==
+if (x<@"100)and(x>=0) then begin
+ if (o<>set1)or(x>127) then
+ if (o=fnt1)and(x<64) then Incr(x)(fnt_num_0) @+ else #(o);
+ end
+else begin
+ if (x<@"10000)and(x>=0) then #(o+1) @+ else begin
+ if (x<@"1000000)and(x>=0) then #(o+2) @+ else begin
+ #(o+3);
+ if x>=0 then #(x div @"1000000)
+ else begin
+ Incr(x)(@"40000000); Incr(x)(@"40000000);
+ #((x div @"1000000) + 128); x:=x mod @"1000000;
+ end;
+ #(x div @"10000); x:=x mod @"10000;
+ end;
+ #(x div @"10000); x:=x mod @"10000;
+ end;
+ #(x div @"100); x:=x mod @"100;
+ end;
+#(x)
+
+@p
+procedure vf_store_set(@!x:integer);
+var @!o:byte;
+begin o:=set1; out_cmd(vf_store);
+end;
+
+procedure vfout_set(@!x:integer);
+var @!o:byte;
+begin o:=set1; out_cmd(vout);
+end;
+
+procedure vf_store_fnt(@!x:integer);
+var @!o:byte;
+begin o:=fnt1; out_cmd(vf_store);
+end;
+
+procedure vfout_fntdef(@!x:integer);
+var @!o:byte;
+begin o:=fnt_def1; out_cmd(vout);
+end;
+
+procedure vfout_char(@!x:integer);
+begin out_four(vout);
+end;
+
+
+@ We keep stacks of movement values, in order to optimize the \.{DVI} code
+in simple cases.
+
+@<Glob...@>=
+@!hstack:array[0..max_stack] of 0..2; {number of known horizontal movements}
+@!vstack:array[0..max_stack] of 0..2; {number of known vertical movements}
+@!wstack,@!xstack,@!ystack,@!zstack:array[0..max_stack] of fix_word;
+@!stack_ptr:0..max_stack;
+
+@ The packet is built by straightforward assembly of \.{DVI} instructions.
+
+@p @<Declare the |vf_fix| procedure@>@;@/
+procedure read_packet(@!c:byte);
+var @!cc:char_type; {character being typeset}
+@!x:fix_word; {movement}
+@!h,@!v:0..2; {top of |hstack| and |vstack|}
+@!special_start:0..vf_size; {location of |xxx1| command}
+@!k:0..vf_size; {loop index}
+begin packet_start[c]:=vf_ptr; stack_ptr:=0; h:=0; v:=0;
+cur_font:=0;
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read and assemble a list of \.{DVI} commands@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+while stack_ptr>0 do begin
+ err_print('Missing POP supplied');
+@.Missing POP supplied@>
+ vf_store(pop); decr(stack_ptr);
+ end;
+packet_length[c]:=vf_ptr-packet_start[c];
+finish_inner_property_list;
+end;
+
+@ @<Read and assemble a list of \.{DVI}...@>=
+begin get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if (cur_code<select_font_code)or(cur_code>special_hex_code) then
+ flush_error('This property name doesn''t belong in a MAP list')
+@.This property name doesn't belong...@>
+else begin
+ case cur_code of
+ select_font_code:@<Assemble a font selection@>;
+ set_char_code:@<Assemble a typesetting instruction@>;
+ set_rule_code:@<Assemble a rulesetting instruction@>;
+ move_right_code,move_right_code+1:@<Assemble a horizontal movement@>;
+ move_down_code,move_down_code+1:@<Assemble a vertical movement@>;
+ push_code:@<Assemble a stack push@>;
+ pop_code:@<Assemble a stack pop@>;
+ special_code,special_hex_code:@<Assemble a special command@>;
+ end;@/
+ finish_the_property;
+ end;
+end
+
+@ @<Assemble a font selection@>=
+begin font_number[font_ptr]:=get_integer;
+cur_font:=0;
+while font_number[font_ptr]<>font_number[cur_font] do incr(cur_font);
+if cur_font=font_ptr then err_print('Undefined MAPFONT cannot be selected')
+@.Undefined MAPFONT...@>
+else vf_store_fnt(cur_font);
+end
+
+@ @<Assemble a typesetting instruction@>=
+if cur_font=font_ptr then
+ err_print('Character cannot be typeset in undefined font')
+@.Character cannot be typeset...@>
+else begin
+ cc:=get_byte; vf_store_set(cc);
+ end
+
+@ Here's a procedure that converts a |fix_word| to a sequence of
+\.{DVI} bytes.
+
+@<Declare the |vf_fix|...@>=
+procedure vf_fix(@!opcode:byte;@!x:fix_word);
+var negative:boolean;
+@!k:0..4; {number of bytes to typeset}
+@!t:integer; {threshold}
+begin frozen_du:=true;
+if design_units<>unity then x:=round((x/design_units)*1048576.0);
+if x>0 then negative:=false
+else begin negative:=true; x:=-1-x;@+end;
+if opcode=0 then begin
+ k:=4; t:=@'100000000;@+end
+else begin
+ t:=127; k:=1;
+ while x>t do begin
+ t:=256*t+255; incr(k);
+ end;
+ vf_store(opcode+k-1); t:=t div 128 +1;
+ end;
+repeat if negative then begin
+ vf_store(255-(x div t)); negative:=false;
+ x:=(x div t)*t+t-1-x;
+ end
+else vf_store((x div t) mod 256);
+decr(k); t:=t div 256;
+until k=0;
+end;
+
+@ @<Assemble a rulesetting instruction@>=
+begin vf_store(set_rule); vf_fix(0,get_fix); vf_fix(0,get_fix);
+end
+
+@ @<Assemble a horizontal movement@>=
+begin if cur_code=move_right_code then x:=get_fix@+else x:=-get_fix;
+if h=0 then begin
+ wstack[stack_ptr]:=x; h:=1; vf_fix(w1,x);@+end
+else if x=wstack[stack_ptr] then vf_store(w0)
+else if h=1 then begin
+ xstack[stack_ptr]:=x; h:=2; vf_fix(x1,x);@+end
+else if x=xstack[stack_ptr] then vf_store(x0)
+else vf_fix(right1,x);
+end
+
+@ @<Assemble a vertical movement@>=
+begin if cur_code=move_down_code then x:=get_fix@+else x:=-get_fix;
+if v=0 then begin
+ ystack[stack_ptr]:=x; v:=1; vf_fix(y1,x);@+end
+else if x=ystack[stack_ptr] then vf_store(y0)
+else if v=1 then begin
+ zstack[stack_ptr]:=x; v:=2; vf_fix(z1,x);@+end
+else if x=zstack[stack_ptr] then vf_store(z0)
+else vf_fix(down1,x);
+end
+
+@ @<Assemble a stack push@>=
+if stack_ptr=max_stack then {too pushy}
+ err_print('Don''t push so much---stack is full!')
+@.Don't push so much...@>
+else begin
+ vf_store(push); hstack[stack_ptr]:=h; vstack[stack_ptr]:=v;
+ incr(stack_ptr); h:=0; v:=0;
+ end
+
+@ @<Assemble a stack pop@>=
+if stack_ptr=0 then
+ err_print('Empty stack cannot be popped')
+@.Empty stack...@>
+else begin
+ vf_store(pop); decr(stack_ptr);
+ h:=hstack[stack_ptr]; v:=vstack[stack_ptr];
+ end
+
+@ @<Assemble a special command@>=
+begin vf_store(xxx1); vf_store(0); {dummy length}
+special_start:=vf_ptr;
+if cur_code=special_code then copy_to_end_of_item
+else begin
+ repeat x:=get_hex;
+ if cur_char>")" then vf_store(x*16+get_hex);
+ until cur_char<=")";
+ end;
+if vf_ptr-special_start>255 then @<Convert |xxx1| command to |xxx4|@>
+else vf[special_start-1]:=vf_ptr-special_start;
+end
+
+@ @<Convert |xxx1|...@>=
+if vf_ptr+3>vf_size then begin
+ err_print('Special command being clipped---no room left!');
+@.Special command being clipped...@>
+ vf_ptr:=special_start+255; vf[special_start-1]:=255;
+ end
+else begin
+ for k:=vf_ptr downto special_start do vf[k+3]:=vf[k];
+ x:=vf_ptr-special_start; vf_ptr:=vf_ptr+3;
+ vf[special_start-2]:=xxx4;
+ vf[special_start-1]:=x div @'100000000;
+ vf[special_start]:=(x div @'200000) mod 256;
+ vf[special_start+1]:=(x div @'400) mod 256;
+ vf[special_start+2]:=x mod 256;
+ end
+
+@* The checking and massaging phase.
+Once the whole \.{VPL} file has been read in, we must check it for consistency
+and correct any errors. This process consists mainly of running through
+the characters that exist and seeing if they refer to characters that
+don't exist. We also compute the true value of |seven_unsafe|; we make sure
+that the charlists and ligature programs contain no loops; and we
+shorten the lists of widths, heights, depths, and italic corrections,
+if necessary, to keep from exceeding the required maximum sizes.
+
+@<Glob...@>=
+@!seven_unsafe:boolean; {do seven-bit characters generate eight-bit ones?}
+
+@ @<Correct and check the information@>=
+if nl>0 then @<Make sure the ligature/kerning program ends appropriately@>;
+seven_unsafe:=false;
+for c:=0 to max_char do if char_wd[c]<>0 then
+ @<For all characters |g| generated by |c|,
+ make sure that |char_wd[g]| is nonzero, and
+ set |seven_unsafe| if |c<128<=g|@>;
+if bchar_label<xmax_label then begin
+ c:=xmax_char; @<Check ligature program of |c|@>;
+ end;
+if seven_bit_safe_flag and seven_unsafe then
+ print_ln('The font is not really seven-bit-safe!');
+@.The font is not...safe@>
+@<Check for infinite ligature loops@>;
+@<Doublecheck the lig/kern commands and the extensible recipes@>;
+finish_extended_font;
+for c:=0 to max_char do
+ @<Make sure that |c| is not the largest element of a charlist cycle@>;
+@<Put the width, height, depth, and italic lists into final form@>
+
+@ The checking that we need in several places is accomplished by three
+macros that are only slightly tricky.
+
+@d existence_tail(#)==begin char_wd[g]:=sort_in(width,0);
+ print(#,' '); print_hex(c);
+ print_ln(' had no CHARACTER spec.');
+ end;
+ end
+@d check_existence_and_safety(#)==begin g:=#;
+ if (g>=128)and(c<128) then seven_unsafe:=true;
+ if char_wd[g]=0 then existence_tail
+@d check_existence(#)==begin g:=#;
+ if char_wd[g]=0 then existence_tail
+
+@<For all characters |g| generated by |c|...@>=
+case char_tag[c] of
+no_tag: do_nothing;
+lig_tag: @<Check ligature program of |c|@>;
+list_tag: check_existence_and_safety(char_remainder[c])
+ ('The character NEXTLARGER than');
+@.The character NEXTLARGER...@>
+ext_tag:@<Check the pieces of |exten[c]|@>;
+end
+
+@ @<Check the pieces...@>=
+begin if exten[char_remainder[c]].b0>0 then
+ check_existence_and_safety(exten[char_remainder[c]].b0)
+ ('TOP piece of character');
+@.TOP piece of character...@>
+if exten[char_remainder[c]].b1>0 then
+ check_existence_and_safety(exten[char_remainder[c]].b1)
+ ('MID piece of character');
+@.MID piece of character...@>
+if exten[char_remainder[c]].b2>0 then
+ check_existence_and_safety(exten[char_remainder[c]].b2)
+ ('BOT piece of character');
+@.BOT piece of character...@>
+check_existence_and_safety(exten[char_remainder[c]].b3)
+ ('REP piece of character');
+@.REP piece of character...@>
+end
+
+@ @<Make sure that |c| is not the largest element of a charlist cycle@>=
+if char_tag[c]=list_tag then begin
+ g:=char_remainder[c];
+ while (g<c)and(char_tag[g]=list_tag) do g:=char_remainder[g];
+ if g=c then begin
+ char_tag[c]:=no_tag;
+ print('A cycle of NEXTLARGER characters has been broken at ');
+@.A cycle of NEXTLARGER...@>
+ print_hex(c); print_ln('.');
+ end;
+ end
+
+@ @<Glob...@>=
+@!delta:fix_word; {size of the intervals needed for rounding}
+
+@ @d round_message(#)==if delta>0 then print_ln('I had to round some ',
+@.I had to round...@>
+ #,'s by ',(((delta+1) div 2)/@'4000000):1:7,' units.')
+
+@<Put the width, height, depth, and italic lists into final form@>=
+case ofm_level of
+ -1: begin
+ top_width:=255; top_depth:=15; top_height:=15; top_italic:=63;
+ end;
+ 0: begin
+ top_width:=65535; top_depth:=255; top_height:=255; top_italic:=255;
+ end;
+ 1: begin
+ top_width:=65535; top_depth:=255; top_height:=255; top_italic:=255;
+ end;
+ end;
+delta:=shorten(width,max_width); set_indices(width,delta);
+ round_message('width');@/
+delta:=shorten(height,max_height); set_indices(height,delta);
+ round_message('height');@/
+delta:=shorten(depth,max_depth); set_indices(depth,delta);
+ round_message('depth');@/
+delta:=shorten(italic,max_italic); set_indices(italic,delta);
+ round_message('italic correction');
+
+@ @d clear_lig_kern_entry== {make an unconditional \.{STOP}}
+ lig_kern[nl].b0:=255; lig_kern[nl].b1:=0;
+ lig_kern[nl].b2:=0; lig_kern[nl].b3:=0
+
+@<Make sure the ligature/kerning program ends...@>=
+begin if bchar_label<xmax_label then begin {make room for it}
+ clear_lig_kern_entry; incr(nl);
+ end; {|bchar_label| will be stored later}
+while min_nl>nl do begin
+ clear_lig_kern_entry; incr(nl);
+ end;
+if (lig_kern[nl-1].b0 mod 256)=0 then
+ lig_kern[nl-1].b0:=lig_kern[nl-1].b0 div 256 * 256 + stop_flag;
+end
+
+@ It's not trivial to check for infinite loops generated by repeated
+insertion of ligature characters. But fortunately there is a nice
+algorithm for such testing, copied here from the program \.{TFtoPL}
+where it is explained further.
+
+@d simple=0 {$f(x,y)=z$}
+@d left_z=1 {$f(x,y)=f(z,y)$}
+@d right_z=2 {$f(x,y)=f(x,z)$}
+@d both_z=3 {$f(x,y)=f(f(x,z),y)$}
+@d pending=4 {$f(x,y)$ is being evaluated}
+
+
+@ @<Glo...@>=
+@!lig_ptr:0..max_lig_steps; {an index into |lig_kern|}
+@!hash:array[0..hash_size] of integer;
+@!class:array[0..hash_size] of simple..pending;
+@!lig_z:array[0..hash_size] of xxchar_type;
+@!hash_ptr:0..hash_size; {the number of nonzero entries in |hash|}
+@!hash_list:array[0..hash_size] of 0..hash_size; {list of those nonzero entries}
+@!h,@!hh:0..hash_size; {indices into the hash table}
+@!tt:indx; {temporary register}
+@!x_lig_cycle,@!y_lig_cycle:xchar_type; {problematic ligature pair}
+
+@ @<Set init...@>=
+hash_ptr:=0; y_lig_cycle:=xmax_char;
+for k:=0 to hash_size do hash[k]:=0;
+
+@ @d lig_exam==lig_kern[lig_ptr].b1
+@d lig_gen==lig_kern[lig_ptr].b3
+
+@<Check lig...@>=
+begin lig_ptr:=char_remainder[c];
+repeat if hash_input(lig_ptr,c) then begin
+ if lig_kern[lig_ptr].b2<kern_flag then begin
+ if lig_exam<>bchar then
+ check_existence(lig_exam)('LIG character examined by');
+@.LIG character examined...@>
+ check_existence(lig_gen)('LIG character generated by');
+@.LIG character generated...@>
+ if lig_gen>=128 then if(c<128)or(c=bchar) then
+ if(lig_exam<128)or(lig_exam=bchar) then seven_unsafe:=true;
+ end
+ else if lig_exam<>bchar then
+ check_existence(lig_exam)('KRN character examined by');
+@.KRN character examined...@>
+ end;
+if (lig_kern[lig_ptr].b0 mod 256)>=stop_flag then lig_ptr:=nl
+else lig_ptr:=lig_ptr+1+lig_kern[lig_ptr].b0;
+until lig_ptr>=nl;
+end
+
+@ The |hash_input| procedure is copied from \.{TFtoPL}, but it is made
+into a boolean function that returns |false| if the ligature command
+was masked by a previous one.
+
+@p function hash_input(@!p,@!c:indx):boolean;
+ {enter data for character |c| and command in location |p|, unless it isn't new}
+label 30; {go here for a quick exit}
+var @!cc:simple..both_z; {class of data being entered}
+@!zz:char_type; {function value or ligature character being entered}
+@!y:char_type; {the character after the cursor}
+@!key:integer; {value to be stored in |hash|}
+@!t:integer; {temporary register for swapping}
+begin if hash_ptr=hash_size then
+ begin hash_input:=false; goto 30;@+end;
+@<Compute the command parameters |y|, |cc|, and |zz|@>;
+key:=xmax_char*c+y+1; h:=(hash_mult*(key mod hash_size)) mod hash_size;
+while hash[h]>0 do begin
+ if hash[h]<=key then begin
+ if hash[h]=key then begin
+ hash_input:=false; goto 30; {unused ligature command}
+ end;
+ t:=hash[h]; hash[h]:=key; key:=t; {do ordered-hash-table insertion}
+ t:=class[h]; class[h]:=cc; cc:=t; {namely, do a swap}
+ t:=lig_z[h]; lig_z[h]:=zz; zz:=t;
+ end;
+ if h>0 then decr(h)@+else h:=hash_size;
+ end;
+hash[h]:=key; class[h]:=cc; lig_z[h]:=zz;
+incr(hash_ptr); hash_list[hash_ptr]:=h;
+hash_input:=true;
+30:end;
+
+@ @<Compute the command param...@>=
+y:=lig_kern[p].b1; t:=lig_kern[p].b2; cc:=simple;
+zz:=lig_kern[p].b3;
+if t>=kern_flag then zz:=y
+else begin
+ case t of
+ 0,6:do_nothing; {\.{LIG},\.{/LIG>}}
+ 5,11:zz:=y; {\.{LIG/>}, \.{/LIG/>>}}
+ 1,7:cc:=left_z; {\.{LIG/}, \.{/LIG/>}}
+ 2:cc:=right_z; {\.{/LIG}}
+ 3:cc:=both_z; {\.{/LIG/}}
+ end; {there are no other cases}
+ end
+
+@ (More good stuff from \.{TFtoPL}.)
+
+@p function f(@!h,@!x,@!y:indx):indx; forward;@t\2@>
+ {compute $f$ for arguments known to be in |hash[h]|}
+function eval(@!x,@!y:indx):indx; {compute $f(x,y)$ with hashtable lookup}
+var @!key:integer; {value sought in hash table}
+begin key:=xmax_char*x+y+1; h:=(hash_mult*(key mod hash_size)) mod hash_size;
+while hash[h]>key do
+ if h>0 then decr(h)@+else h:=hash_size;
+if hash[h]<key then eval:=y {not in ordered hash table}
+else eval:=f(h,x,y);
+end;
+
+@ Pascal's beastly convention for |forward| declarations prevents us from
+saying |function f(h,x,y:indx):indx| here.
+
+@p function f;
+begin case class[h] of
+ simple: do_nothing;
+ left_z: begin class[h]:=pending; lig_z[h]:=eval(lig_z[h],y); class[h]:=simple;
+ end;
+ right_z: begin class[h]:=pending; lig_z[h]:=eval(x,lig_z[h]); class[h]:=simple;
+ end;
+ both_z: begin class[h]:=pending; lig_z[h]:=eval(eval(x,lig_z[h]),y);
+ class[h]:=simple;
+ end;
+ pending: begin x_lig_cycle:=x; y_lig_cycle:=y;
+ lig_z[h]:=xxmax_char; class[h]:=simple;
+ end; {the value |xxmax_char| will break all cycles, since it's not in |hash|}
+ end; {there are no other cases}
+f:=lig_z[h];
+end;
+
+@ @<Check for infinite...@>=
+if hash_ptr<hash_size then for hh:=1 to hash_ptr do begin
+ tt:=hash_list[hh];
+ if class[tt]>simple then {make sure $f$ is well defined}
+ tt:=f(tt,(hash[tt]-1)div xmax_char,(hash[tt]-1)mod xmax_char);
+ end;
+if(hash_ptr=hash_size)or(y_lig_cycle<xmax_char) then begin
+ if hash_ptr<hash_size then begin
+ print('Infinite ligature loop starting with ');
+@.Infinite ligature loop...@>
+ if x_lig_cycle=xmax_char
+ then print('boundary')@+else print_hex(x_lig_cycle);
+ print(' and '); print_hex(y_lig_cycle); print_ln('!');
+ end
+ else print_ln('Sorry, I haven''t room for so many ligature/kern pairs!');
+@.Sorry, I haven't room...@>
+ print_ln('All ligatures will be cleared.');
+ for c:=0 to max_char do if char_tag[c]=lig_tag then begin
+ char_tag[c]:=no_tag; char_remainder[c]:=0;
+ end;
+ nl:=0; bchar:=xmax_char; bchar_label:=xmax_label;
+ end
+
+@ The lig/kern program may still contain references to nonexistent characters,
+if parts of that program are never used. Similarly, there may be extensible
+characters that are never used, because they were overridden by
+\.{NEXTLARGER}, say. This would produce an invalid \.{TFM} file; so we
+must fix such errors.
+
+@d double_check_tail(#)==@t\1@>if char_wd[0]=0
+ then char_wd[0]:=sort_in(width,0);
+ print('Unused ',#,' refers to nonexistent character ');
+ print_hex(c); print_ln('!');
+ end;
+ end
+@d double_check_lig(#)==begin c:=lig_kern[lig_ptr].#;
+ if char_wd[c]=0 then if c<>bchar then
+ begin lig_kern[lig_ptr].#:=0; double_check_tail
+@d double_check_ext(#)==begin c:=exten[g].#;
+ if c>0 then if char_wd[c]=0 then
+ begin exten[g].#:=0; double_check_tail
+@d double_check_rep(#)==begin c:=exten[g].#;
+ if char_wd[c]=0 then
+ begin exten[g].#:=0; double_check_tail
+
+@<Doublecheck...@>=
+if nl>0 then for lig_ptr:=0 to nl-1 do
+ if (lig_kern[lig_ptr].b0 div 256)=0 then begin
+ if lig_kern[lig_ptr].b2<kern_flag then begin
+ if lig_kern[lig_ptr].b0<255 then begin
+ double_check_lig(b1)('LIG step'); double_check_lig(b3)('LIG step');
+ end;
+ end
+ else double_check_lig(b1)('KRN step');
+ end;
+@.Unused LIG step...@>
+@.Unused KRN step...@>
+if ne>0 then for g:=0 to ne-1 do begin
+ double_check_ext(b0)('VARCHAR TOP');
+ double_check_ext(b1)('VARCHAR MID');
+ double_check_ext(b2)('VARCHAR BOT');
+ double_check_rep(b3)('VARCHAR REP');
+@.Unused VARCHAR...@>
+ end
+
+@* The TFM output phase.
+Now that we know how to get all of the font data correctly stored in
+\.{VPtoVF}'s memory, it only remains to write the answers out.
+
+First of all, it is convenient to have an abbreviation for output to the
+\.{TFM} file:
+
+@d out(#)==write(tfm_file,#)
+
+@p procedure out_int(@!x:integer);
+begin out_four(out);
+end;
+
+
+@ The general plan for producing \.{TFM} files is long but simple:
+
+@<Do the font metric output@>=
+compute_subfile_sizes;
+output_subfile_sizes;
+@<Output the header block@>;
+output_new_information_ofm;
+output_character_info;
+@<Output the dimensions themselves@>;
+@<Output the ligature/kern program@>;
+@<Output the extensible character recipes@>;
+@<Output the parameters@>
+
+@ A \.{TFM} file begins with 12 numbers that tell how big its subfiles are.
+We already know most of these numbers; for example, the number of distinct
+widths is |memory[width]+1|, where the $+1$ accounts for the zero width that
+is always supposed to be present. But we still should compute the beginning
+and ending character codes (|bc| and |ec|), the number of header words (|lh|),
+and the total number of words in the \.{TFM} file (|lf|).
+
+@<Gl...@>=
+@!bc:char_type; {the smallest character code in the font}
+@!ec:char_type; {the largest character code in the font}
+@!lh:char_type; {the number of words in the header block}
+@!lf:unsigned_integer; {the number of words in the entire \.{TFM} file}
+@!not_found:boolean; {has a font character been found?}
+@!temp_width:fix_word; {width being used to compute a check sum}
+@!ncw,@!nco,@!npc:integer;
+
+@ It might turn out that no characters exist at all. But \.{VPtoVF} keeps
+going and writes the \.{TFM} anyway. In this case |ec| will be~0 and |bc|
+will be~1.
+
+@<Compute the subfile sizes@>=
+case ofm_level of
+ -1: begin
+ lh:=header_ptr div 4;@/
+ not_found:=true; bc:=0;
+ while not_found do
+ if (char_wd[bc]>0)or(bc=255) then not_found:=false
+ else incr(bc);
+ not_found:=true; ec:=255;
+ while not_found do
+ if (char_wd[ec]>0)or(ec=0) then not_found:=false
+ else decr(ec);
+ if bc>ec then bc:=1;
+ incr(memory[width]); incr(memory[height]); incr(memory[depth]);
+ incr(memory[italic]);@/
+ @<Compute the ligature/kern program offset@>;
+ lf:=6+lh+(ec-bc+1)+memory[width]+memory[height]+memory[depth]+
+ memory[italic]+nl+lk_offset+nk+ne+np;
+ end;
+ 0: begin
+ lh:=header_ptr div 4;@/
+ not_found:=true; bc:=0;
+ while not_found do
+ if (char_wd[bc]>0)or(bc=max_char) then not_found:=false
+ else incr(bc);
+ not_found:=true; ec:=max_char;
+ while not_found do
+ if (char_wd[ec]>0)or(ec=0) then not_found:=false
+ else decr(ec);
+ if bc>ec then bc:=1;
+ incr(memory[width]); incr(memory[height]); incr(memory[depth]);
+ incr(memory[italic]);@/
+ @<Compute the ligature/kern program offset@>;
+ lf:=14+lh+2*(ec-bc+1)+memory[width]+memory[height]+memory[depth]+
+ memory[italic]+2*nl+lk_offset+nk+2*ne+np;
+ end;
+ 1: begin
+ lh:=header_ptr div 4;@/
+ not_found:=true; bc:=0;
+ while not_found do
+ if (char_wd[bc]>0)or(bc=max_char) then not_found:=false
+ else incr(bc);
+ not_found:=true; ec:=max_char;
+ while not_found do
+ if (char_wd[ec]>0)or(ec=0) then not_found:=false
+ else decr(ec);
+ if bc>ec then bc:=1;
+ incr(memory[width]); incr(memory[height]); incr(memory[depth]);
+ incr(memory[italic]);@/
+ @<Compute the ligature/kern program offset@>;
+ @<Compute the character info size@>;
+ lf:=29+lh+ncw+memory[width]+memory[height]+memory[depth]+
+ memory[italic]+2*(nl+lk_offset)+nk+2*ne+np+
+ nki+nwi+nkf+nwf+nkm+nwm+nkr+nwr+nkg+nwg+nkp+nwp;
+ nco:=29+lh+nki+nwi+nkf+nwf+nkm+nwm+nkr+nwr+nkg+nwg+nkp+nwp;
+ end;
+ end;
+
+@ @d out_size(#)==out((#) div 256); out((#) mod 256)
+ @d out_integer(#)==out((#) div @"1000000);
+ out(((#) mod @"1000000) div @"10000);
+ out(((#) mod @"10000) div @"100);
+ out((#) mod @"100)
+
+@<Output the subfile sizes@>=
+case ofm_level of
+ -1: begin
+ out_size(lf); out_size(lh); out_size(bc); out_size(ec);
+ out_size(memory[width]); out_size(memory[height]);
+ out_size(memory[depth]); out_size(memory[italic]);
+ out_size(nl+lk_offset); out_size(nk); out_size(ne); out_size(np);
+ end;
+ 0: begin
+ out_integer(0);
+ out_integer(lf); out_integer(lh); out_integer(bc); out_integer(ec);
+ out_integer(memory[width]); out_integer(memory[height]);
+ out_integer(memory[depth]); out_integer(memory[italic]);
+ out_integer(nl+lk_offset); out_integer(nk);
+ out_integer(ne); out_integer(np); out_integer(font_dir);
+ end;
+ 1: begin
+ out_integer(1);
+ out_integer(lf); out_integer(lh);
+ out_integer(bc); out_integer(ec);
+ out_integer(memory[width]); out_integer(memory[height]);
+ out_integer(memory[depth]); out_integer(memory[italic]);
+ out_integer(nl+lk_offset); out_integer(nk);
+ out_integer(ne); out_integer(np); out_integer(font_dir);
+ out_integer(nco); out_integer(ncw); out_integer(npc);
+ out_integer(nki); out_integer(nwi); out_integer(nkf); out_integer(nwf);
+ out_integer(nkm); out_integer(nwm); out_integer(nkr); out_integer(nwr);
+ out_integer(nkg); out_integer(nwg); out_integer(nkp); out_integer(nwp);
+ end;
+ end;
+
+@ The routines that follow need a few temporary variables of different types.
+
+@<Gl...@>=
+@!j:0..max_header_bytes; {index into |header_bytes|}
+@!p:pointer; {index into |memory|}
+@!q:width..italic; {runs through the list heads for dimensions}
+@!par_ptr:0..max_param_words; {runs through the parameters}
+
+@ The header block follows the subfile sizes. The necessary information all
+appears in |header_bytes|, except that the design size and the seven-bit-safe
+flag must still be set.
+
+@<Output the header block@>=
+if not check_sum_specified then @<Compute the check sum@>;
+header_bytes[design_size_loc]:=design_size div @'100000000;
+ {this works since |design_size>0|}
+header_bytes[design_size_loc+1]:=(design_size div @'200000) mod 256;
+header_bytes[design_size_loc+2]:=(design_size div 256) mod 256;
+header_bytes[design_size_loc+3]:=design_size mod 256;
+if not seven_unsafe then header_bytes[seven_flag_loc]:=128;
+for j:=0 to header_ptr-1 do out(header_bytes[j]);
+
+@ @<Compute the check sum@>=
+begin c0:=bc; c1:=ec; c2:=bc; c3:=ec;
+for c:=bc to ec do if char_wd[c]>0 then begin
+ temp_width:=memory[char_wd[c]];
+ if design_units<>unity then
+ temp_width:=round((temp_width/design_units)*1048576.0);
+ temp_width:=temp_width + (c+4)*@'20000000; {this should be positive}
+ c0:=(c0+c0+temp_width) mod 255;
+ c1:=(c1+c1+temp_width) mod 253;
+ c2:=(c2+c2+temp_width) mod 251;
+ c3:=(c3+c3+temp_width) mod 247;
+ end;
+header_bytes[check_sum_loc]:=c0;
+header_bytes[check_sum_loc+1]:=c1;
+header_bytes[check_sum_loc+2]:=c2;
+header_bytes[check_sum_loc+3]:=c3;
+end
+
+@ @<Global...@>=
+@!tab:integer;
+
+@
+@<Compute the character info size@>=
+if ofm_level=1 then begin
+ ncw:=0;
+ if nkcp>-1 then
+ npc:=nki+nkf+nkr+nkg+nkcp+1
+ else if nkcg>-1 then
+ npc:=nki+nkf+nkr+nkcg+1
+ else if nkcr>-1 then
+ npc:=nki+nkf+nkcr+1
+ else if nkcf>-1 then
+ npc:=nki+nkcf+1
+ else if nkci>-1 then
+ npc:=nkci+1
+ else
+ npc:=0;
+ needed_space:=(12+npc*2) div 4;
+ extra_bytes:=(needed_space*4) - (10+npc*2);
+ for c:=bc to ec do begin
+ if char_original[c]=c then begin
+ cprime:=c+1;
+ diff:=false;
+ while (not diff) and (cprime<=ec) do begin
+ if index[char_wd[c]]<>index[char_wd[cprime]] then diff:=true;
+ if index[char_ht[c]]<>index[char_ht[cprime]] then diff:=true;
+ if index[char_dp[c]]<>index[char_dp[cprime]] then diff:=true;
+ if index[char_ic[c]]<>index[char_ic[cprime]] then diff:=true;
+ if char_remainder[c]<>char_remainder[cprime] then diff:=true;
+ for tab:=0 to npc-1 do begin
+ if char_table[c,tab]<>char_table[cprime,tab] then diff:=true;
+ end;
+ if not diff then begin
+ char_original[cprime]:=c;
+ cprime:=cprime+1;
+ end;
+ end;
+ if cprime>(c+1) then begin
+ char_repeats[c]:=cprime-c-1;
+ end;
+ ncw:=ncw+needed_space;
+ end;
+ end;
+ end;
+
+@ The next block contains packed |char_info|.
+
+@d out_two(#)==out((#) div 256); out((#) mod 256)
+
+@d out_three(#)==out((#) div 65536); out_two((#) mod 65536)
+
+
+@<Output the character info@>=
+index[0]:=0;
+for c:=bc to ec do
+case ofm_level of
+ -1: begin
+ out(index[char_wd[c]]);
+ out(index[char_ht[c]]*16+index[char_dp[c]]);
+ out(index[char_ic[c]]*4+char_tag[c]);
+ out(char_remainder[c]);
+ end;
+ 0: begin
+ out(index[char_wd[c]] div 256); out(index[char_wd[c]] mod 256);
+ out(index[char_ht[c]]); out(index[char_dp[c]]);
+ out(index[char_ic[c]] div 64);out((index[char_ic[c]] mod 64)*4+char_tag[c]);
+ out(char_remainder[c] div 256); out(char_remainder[c] mod 256);
+ end;
+ 1: begin
+ if c=char_original[c] then begin
+ out(index[char_wd[c]] div 256); out(index[char_wd[c]] mod 256);
+ out(index[char_ht[c]]); out(index[char_dp[c]]);
+ out(index[char_ic[c]]);
+ tab:=char_tag[c];
+ if char_extended_tag[c] then begin
+ tab:=5;
+ end;
+ out(tab);
+ out(char_remainder[c] div 256); out(char_remainder[c] mod 256);
+ out_size(char_repeats[c]);
+ for tab:=0 to npc-1 do begin
+ out(char_table[c,tab] div 256); out(char_table[c,tab] mod 256);
+ end;
+ for tab:=1 to extra_bytes do begin
+ out(0);
+ end;
+ end;
+ end;
+ end;
+
+@ When a scaled quantity is output, we may need to divide it by |design_units|.
+The following subroutine takes care of this, using floating point arithmetic
+only if |design_units<>1.0|.
+
+@p procedure out_scaled(x:fix_word); {outputs a scaled |fix_word|}
+var @!n:byte; {the first byte after the sign}
+@!m:0..65535; {the two least significant bytes}
+begin if abs(x/design_units)>=16.0 then begin
+ print_ln('The relative dimension ',x/@'4000000:1:3,
+ ' is too large.');
+@.The relative dimension...@>
+ print(' (Must be less than 16*designsize');
+ if design_units<>unity then print(' =',design_units/@'200000:1:3,
+ ' designunits');
+ print_ln(')'); x:=0;
+ end;
+if design_units<>unity then x:=round((x/design_units)*1048576.0);
+if x<0 then begin
+ out(255); x:=x+@'100000000;
+ if x<=0 then x:=1;
+ end
+else begin
+ out(0);
+ if x>=@'100000000 then x:=@'77777777;
+ end;
+n:=x div @'200000; m:=x mod @'200000;
+out(n); out(m div 256); out(m mod 256);
+end;
+
+@ We have output the packed indices for individual characters.
+The scaled widths, heights, depths, and italic corrections are next.
+
+@<Output the dimensions themselves@>=
+for q:=width to italic do begin
+ out(0); out(0); out(0); out(0); {output the zero word}
+ p:=link[q]; {head of list}
+ while p>0 do begin
+ out_scaled(memory[p]);
+ p:=link[p];
+ end;
+ end;
+
+@ One embarrassing problem remains: The ligature/kern program might be very
+long, but the starting addresses in |char_remainder| can be at most~65535.
+Therefore we need to output some indirect address information; we want to
+compute |lk_offset| so that addition of |lk_offset| to all remainders makes
+all but |lk_offset| distinct remainders less than~65536.
+
+For this we need a sorted table of all relevant remainders.
+
+@<Glob...@>=
+@!label_table:array[xchar_type] of record
+ @!rr: -1..xmax_label; {sorted label values}
+ @!cc: char_type; {associated characters}
+ end;
+@!label_ptr:xchar_type; {index of highest entry in |label_table|}
+@!sort_ptr:xchar_type; {index into |label_table|}
+@!lk_offset:xchar_type; {smallest offset value that might work}
+@!t:0..xmax_label; {label value that is being redirected}
+@!extra_loc_needed:boolean; {do we need a special word for |bchar|?}
+
+@ @<Compute the ligature/kern program offset@>=
+@<Insert all labels into |label_table|@>;
+if bchar<xmax_char then begin
+ extra_loc_needed:=true; lk_offset:=1;
+ end
+else begin
+ extra_loc_needed:=false; lk_offset:=0;
+ end;
+@<Find the minimum |lk_offset| and adjust all remainders@>;
+if bchar_label<xmax_label then begin
+ lig_kern[nl-1].b2:=(bchar_label+lk_offset)div 65536;
+ lig_kern[nl-1].b3:=(bchar_label+lk_offset)mod 65536;
+ end
+
+@ @<Insert all labels...@>=
+label_ptr:=0; label_table[0].rr:=-1; {sentinel}
+for c:=bc to ec do if char_tag[c]=lig_tag then begin
+ sort_ptr:=label_ptr; {there's a hole at position |sort_ptr+1|}
+ while label_table[sort_ptr].rr>char_remainder[c] do begin
+ label_table[sort_ptr+1]:=label_table[sort_ptr];
+ decr(sort_ptr); {move the hole}
+ end;
+ label_table[sort_ptr+1].cc:=c;
+ label_table[sort_ptr+1].rr:=char_remainder[c];
+ incr(label_ptr);
+ end
+
+@ @<Find the minimum |lk_offset| and adjust all remainders@>=
+begin sort_ptr:=label_ptr; {the largest unallocated label}
+if ofm_level=-1 then begin
+ if label_table[sort_ptr].rr+lk_offset > 255 then begin
+ lk_offset:=0; extra_loc_needed:=false; {location 0 can do double duty}
+ repeat char_remainder[label_table[sort_ptr].cc]:=lk_offset;
+ while label_table[sort_ptr-1].rr=label_table[sort_ptr].rr do begin
+ decr(sort_ptr); char_remainder[label_table[sort_ptr].cc]:=lk_offset;
+ end;
+ incr(lk_offset); decr(sort_ptr);
+ until lk_offset+label_table[sort_ptr].rr<256;
+ {N.B.: |lk_offset=256| satisfies this when |sort_ptr=0|}
+ end;
+ end
+else begin
+ if label_table[sort_ptr].rr+lk_offset > 65535 then begin
+ lk_offset:=0; extra_loc_needed:=false; {location 0 can do double duty}
+ repeat char_remainder[label_table[sort_ptr].cc]:=lk_offset;
+ while label_table[sort_ptr-1].rr=label_table[sort_ptr].rr do begin
+ decr(sort_ptr); char_remainder[label_table[sort_ptr].cc]:=lk_offset;
+ end;
+ incr(lk_offset); decr(sort_ptr);
+ until lk_offset+label_table[sort_ptr].rr<65536;
+ {N.B.: |lk_offset=65536| satisfies this when |sort_ptr=0|}
+ end;
+ end;
+if lk_offset>0 then
+ while sort_ptr>0 do begin
+ char_remainder[label_table[sort_ptr].cc]:=
+ char_remainder[label_table[sort_ptr].cc]+lk_offset;
+ decr(sort_ptr);
+ end;
+end
+
+@ @<Output the ligature/kern program@>=
+if ofm_level=-1 then begin
+ if extra_loc_needed then begin {|lk_offset=1|}
+ out(255); out(bchar); out(0); out(0);
+ end
+ else for sort_ptr:=1 to lk_offset do begin {output the redirection specs}
+ t:=label_table[label_ptr].rr;
+ if bchar<256 then begin
+ out(255); out(bchar);
+ end
+ else begin
+ out(254); out(0);
+ end;
+ out_size(t+lk_offset);
+ repeat decr(label_ptr); until label_table[label_ptr].rr<t;
+ end;
+ if nl>0 then for lig_ptr:=0 to nl-1 do begin
+ out(lig_kern[lig_ptr].b0);
+ out(lig_kern[lig_ptr].b1);
+ out(lig_kern[lig_ptr].b2);
+ out(lig_kern[lig_ptr].b3);
+ end;
+ if nk>0 then for krn_ptr:=0 to nk-1 do out_scaled(kern[krn_ptr])
+ end
+else begin
+ if extra_loc_needed then begin {|lk_offset=1|}
+ out_size(255); out_size(bchar); out_size(0); out_size(0);
+ end
+ else for sort_ptr:=1 to lk_offset do begin {output the redirection specs}
+ t:=label_table[label_ptr].rr;
+ if bchar<xmax_char then begin
+ out_size(255); out_size(bchar);
+ end
+ else begin
+ out_size(254); out_size(0);
+ end;
+ out_size((t+lk_offset) div 256);
+ out_size((t+lk_offset) mod 256);
+ repeat decr(label_ptr); until label_table[label_ptr].rr<t;
+ end;
+ if nl>0 then for lig_ptr:=0 to nl-1 do begin
+ out_size(lig_kern[lig_ptr].b0);
+ out_size(lig_kern[lig_ptr].b1);
+ out_size(lig_kern[lig_ptr].b2);
+ out_size(lig_kern[lig_ptr].b3);
+ end;
+ if nk>0 then for krn_ptr:=0 to nk-1 do out_scaled(kern[krn_ptr])
+ end
+
+@ @<Output the extensible character recipes@>=
+if ofm_level=-1 then begin
+ if ne>0 then for c:=0 to ne-1 do begin
+ out(exten[c].b0);
+ out(exten[c].b1);
+ out(exten[c].b2);
+ out(exten[c].b3);
+ end;
+ end
+else begin
+ if ne>0 then for c:=0 to ne-1 do begin
+ out_size(exten[c].b0);
+ out_size(exten[c].b1);
+ out_size(exten[c].b2);
+ out_size(exten[c].b3);
+ end;
+ end;
+
+@ For our grand finale, we wind everything up by outputting the parameters.
+
+@<Output the parameters@>=
+for par_ptr:=1 to np do begin
+ if par_ptr=1 then
+ @<Output the slant (|param[1]|) without scaling@>
+ else out_scaled(param[par_ptr]);
+ end
+
+@ @<Output the slant...@>=
+begin if param[1]<0 then begin
+ param[1]:=param[1]+@'10000000000;
+ out((param[1] div @'100000000)+256-64);
+ end
+else out(param[1] div @'100000000);
+out((param[1] div @'200000) mod 256);
+out((param[1] div 256) mod 256);
+out(param[1] mod 256);
+end
+
+@* The VF output phase.
+Output to |vf_file| is considerably simpler.
+
+@d id_byte=202 {current version of \.{VF} format}
+@d vout(#)==write(vf_file,#)
+
+@<Glob...@>=
+@!vcount:integer; {number of bytes written to |vf_file|}
+
+@ We need a routine to output integers as four bytes. Negative values
+will never be less than $-2^{24}$.
+
+@p procedure vout_int(@!x:integer);
+begin if x>=0 then vout(x div @'100000000)
+else begin
+ vout(255); x:=x+@'100000000;
+ end;
+vout((x div @'200000) mod 256);
+vout((x div @'400) mod 256); vout(x mod 256);
+end;
+
+@ @<Do the \.{VF} output@>=
+vout(pre); vout(id_byte); vout(vtitle_length);
+for k:=0 to vtitle_length-1 do vout(vf[vtitle_start+k]);
+for k:=check_sum_loc to design_size_loc+3 do vout(header_bytes[k]);
+vcount:=vtitle_length+11;
+for cur_font:=0 to font_ptr-1 do @<Output a local font definition@>;
+for c:=bc to ec do if char_wd[c]>0 then
+ @<Output a packet for character |c|@>;
+repeat vout(post); incr(vcount);
+until vcount mod 4 = 0
+
+@ @<Output a local font definition@>=
+begin vfout_fntdef(cur_font);@/
+vout(font_checksum[cur_font].b0);
+vout(font_checksum[cur_font].b1);
+vout(font_checksum[cur_font].b2);
+vout(font_checksum[cur_font].b3);
+vout_int(font_at[cur_font]);
+vout_int(font_dsize[cur_font]);
+vout(farea_length[cur_font]);
+vout(fname_length[cur_font]);
+for k:=0 to farea_length[cur_font]-1 do vout(vf[farea_start[cur_font]+k]);
+if fname_start[cur_font]=vf_size then begin
+ vout("N"); vout("U"); vout("L"); vout("L");
+ end
+else for k:=0 to fname_length[cur_font]-1 do vout(vf[fname_start[cur_font]+k]);
+vcount:=vcount+12+farea_length[cur_font]+fname_length[cur_font];
+end
+
+@ @<Output a packet for character |c|@>=
+begin x:=memory[char_wd[c]];
+if design_units<>unity then x:=round((x/design_units)*1048576.0);
+if (packet_length[c]>241)or(x<0)or(x>=@'100000000)or(c<0)or(c>255) then begin
+ vout(242); vout_int(packet_length[c]); vfout_char(c); vout_int(x);
+ vcount:=vcount+13+packet_length[c];
+ end
+else begin
+ vout(packet_length[c]); vout(c); vout(x div @'200000);
+ vout((x div @'400) mod 256); vout(x mod 256);
+ vcount:=vcount+5+packet_length[c];
+ end;
+if packet_start[c]=vf_size then
+ vfout_set(c)
+else for k:=0 to packet_length[c]-1 do vout(vf[packet_start[c]+k]);
+end
+
+@* The main program.
+The routines sketched out so far need to be packaged into separate procedures,
+on some systems, since some \PASCAL\ compilers place a strict limit on the
+size of a routine. The packaging is done here in an attempt to avoid some
+system-dependent changes.
+
+@p procedure param_enter;
+begin @<Enter the parameter names@>;
+end;
+@#
+procedure vpl_enter;
+begin @<Enter all the \.{VPL} names@>;
+end;
+@#
+procedure name_enter; {enter all names and their equivalents}
+begin @<Enter all the \.{PL} names...@>;
+vpl_enter; param_enter;
+end;
+@#
+procedure read_lig_kern;
+var @!krn_ptr:0..max_kerns; {an index into |kern|}
+@!c:byte; {runs through all character codes}
+begin @<Read ligature/kern list@>;
+end;
+@#
+procedure output_new_information_ofm;
+begin @<Output the new information for OFM files@>;
+end;
+@#
+procedure compute_new_header_ofm;
+begin @<Compute the new header information for OFM files@>;
+end;
+@#
+procedure finish_extended_font;
+begin @<Finish up the extended font stuff@>;
+end;
+@#
+procedure output_subfile_sizes;
+begin @<Output the subfile sizes@>;
+end;
+@#
+procedure compute_subfile_sizes;
+begin @<Compute the subfile sizes@>;
+end;
+@#
+procedure output_character_info;
+begin @<Output the character info@>;
+end;
+@#
+@#
+procedure read_font_rule_list;
+begin @<Read font rule list@>;
+end;
+@#
+procedure read_font_glue_list;
+begin @<Read font glue list@>;
+end;
+@#
+procedure read_font_penalty_list;
+begin @<Read font penalty list@>;
+end;
+@#
+procedure read_font_mvalue_list;
+begin @<Read font mvalue list@>;
+end;
+@#
+procedure read_font_fvalue_list;
+begin @<Read font fvalue list@>;
+end;
+@#
+procedure read_font_ivalue_list;
+begin @<Read font ivalue list@>;
+end;
+@#
+procedure read_repeated_character_info;
+begin @<Read repeated character info@>;
+end;
+@#
+procedure read_lig_kern_command;
+begin @<Read a ligature/kern command@>;
+end;
+@#
+procedure read_character_property;
+begin @<Read a character property@>;
+end;
+@#
+procedure read_char_info;
+begin @<Read character info list@>;
+end;
+@#
+procedure read_input;
+var @!c:byte; {header or parameter index}
+begin @<Read all the input@>;
+end;
+@#
+procedure corr_and_check;
+var @!c:xchar_type; {runs through all character codes}
+@!hh:0..hash_size; {an index into |hash_list|}
+@!lig_ptr:0..max_lig_steps; {an index into |lig_kern|}
+@!g:byte; {a character generated by the current character |c|}
+begin @<Correct and check the information@>
+end;
+@#
+procedure vf_output;
+var @!c:char_type; {runs through all character codes}
+@!cur_font:xfont_type; {runs through all local fonts}
+@!k:integer; {loop index}
+begin @<Do the \.{VF} output@>;
+end;
+
+@ Here is where \.{VPtoVF} begins and ends.
+
+@p begin initialize;@/
+name_enter;@/
+read_input; print_ln('.');@/
+corr_and_check;@/
+@<Do the font metric output@>;
+vf_output;
+end.
+
+@ @<Global...@>=
+@!ofm_level:integer;
+
+@ @<Set init...@>=
+ofm_level:=0; {Suppose that it is a level 0 OFM file}
+
+@ @<Read OFM level code@>=
+begin
+ofm_level:=get_integer;
+if (ofm_level<0) or (ofm_level>1) then begin
+ flush_error('OFMLEVEL must be 0 or 1 -- 1 assumed');
+ ofm_level:=1;
+ end;
+end
+
+@ @<Read font direction code@>=
+begin
+font_dir:=-1;
+repeat get_next;
+until cur_char<>" ";
+case cur_char of
+ "T": begin get_next;
+ if cur_char="L" then font_dir:=0
+ else if cur_char="R" then font_dir:=2;
+ end;
+ "B": begin get_next;
+ if cur_char="L" then font_dir:=4
+ else if cur_char="R" then font_dir:=6;
+ end;
+ "R": begin get_next;
+ if cur_char="T" then font_dir:=5
+ else if cur_char="B" then font_dir:=7;
+ end;
+ "L": begin get_next;
+ if cur_char="T" then font_dir:=1
+ else if cur_char="B" then font_dir:=3;
+ end;
+ end;
+while cur_char<>")" do get_next;
+if font_dir = -1 then begin
+ flush_error('FONTDIR must be valid direction, -- TR assumed');
+ font_dir:=0;
+ end;
+end
+
+@ @<Read natural font direction code@>=
+begin
+font_dir:=-1;
+repeat get_next;
+until cur_char<>" ";
+case cur_char of
+ "T": begin get_next;
+ if cur_char="L" then font_dir:=8
+ else if cur_char="R" then font_dir:=10;
+ end;
+ "B": begin get_next;
+ if cur_char="L" then font_dir:=12
+ else if cur_char="R" then font_dir:=14;
+ end;
+ "R": begin get_next;
+ if cur_char="T" then font_dir:=13
+ else if cur_char="B" then font_dir:=15;
+ end;
+ "L": begin get_next;
+ if cur_char="T" then font_dir:=9
+ else if cur_char="B" then font_dir:=11;
+ end;
+ end;
+while cur_char<>")" do get_next;
+if font_dir = -1 then begin
+ flush_error('NFONTDIR must be valid direction, -- TR assumed');
+ font_dir:=8;
+ end;
+end
+
+@
+Here are some general values for the various entries.
+They can all be changed.
+
+@d arrays_per_kind==20
+@d entries_per_array==200
+
+@ @<Constants...@>=
+@!rule_arrays=arrays_per_kind;
+@!rule_entries=entries_per_array;
+
+@ @<Types...@>=
+rule_array_type=0..rule_arrays;
+rule_entry_type=0..rule_entries;
+rule_node=
+record
+ rn_width: fix_word;
+ rn_height: fix_word;
+ rn_depth: fix_word;
+end;
+
+@ @<Global...@>=
+@!rules:array[rule_array_type,rule_entry_type] of rule_node;
+@!npr:array[rule_array_type] of integer;
+@!nkr:integer;
+@!nkcr:integer;
+@!nwr:integer;
+@!r_array:integer;
+@!r_number:integer;
+
+@ @<Set init...@>=
+for r_array := 0 to rule_arrays do begin
+ npr[r_array]:=0;
+ @<Null out the rule@>;
+ end;
+nkr:=-1;
+nkcr:=-1;
+
+@ @<Read font rule list@>=
+begin
+if tables_read then
+ flush_error('All parameter tables must appear before character info');
+r_array:=get_integer;
+if r_array>rule_arrays then
+ flush_error('This FONTRULE table index is too big for my present size')
+else if r_array<0 then
+ flush_error('This FONTRULE index is negative')
+else begin
+ if r_array>nkr then nkr:=r_array;
+ while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a rule@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read a rule@>=
+begin
+get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if cur_code<>rule_code then
+ flush_error('This property name doesn''t belong in a RULE list')
+else begin
+ r_number:=get_integer;
+ if r_number>rule_entries then
+ flush_error('This RULE index is too big for my present table size')
+ else if r_number<0 then
+ flush_error('This RULE index is negative')
+ else begin
+ while npr[r_array]<r_number do begin
+ incr(npr[r_array]); @<Null out the rule@>;
+ end;
+ @<Read all of a rule's values@>;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Null out the rule@>=
+begin
+rules[r_array,npr[r_array]].rn_width:=0;
+rules[r_array,npr[r_array]].rn_depth:=0;
+rules[r_array,npr[r_array]].rn_height:=0;
+end
+
+@ @<Read all of a rule's values@>=
+begin
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a single rule value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a single rule value@>=
+begin
+get_name;
+case cur_code of
+ rule_width_code:
+ rules[r_array,r_number].rn_width:=get_fix;
+ rule_height_code:
+ rules[r_array,r_number].rn_height:=get_fix;
+ rule_depth_code:
+ rules[r_array,r_number].rn_depth:=get_fix;
+ end;
+finish_the_property;
+end
+
+@ @<Header information for rules@>=
+begin
+nwr:=0;
+for r_array := 0 to nkr do begin
+ incr(npr[r_array]);
+ nwr := nwr + 3*npr[r_array];
+ end;
+incr(nkr);
+end
+
+@ @<Output the rules@>=
+begin
+for r_array:= 0 to nkr-1 do
+ for r_number:=0 to npr[r_array]-1 do begin
+ out_scaled(rules[r_array,r_number].rn_width);
+ out_scaled(rules[r_array,r_number].rn_height);
+ out_scaled(rules[r_array,r_number].rn_depth);
+ end;
+end
+
+@ @<Output the rule headers@>=
+begin
+for r_array:= 0 to nkr-1 do begin
+ out_integer(npr[r_array]);
+ end;
+end
+
+@ @<Constants...@>=
+@!glue_arrays=arrays_per_kind;
+@!glue_entries=entries_per_array;
+
+@
+@d t_normal==0
+@d t_aleaders==1
+@d t_cleaders==2
+@d t_xleaders==3
+
+@d o_unit==0
+@d o_fi==1
+@d o_fil==2
+@d o_fill==3
+@d o_filll==4
+
+@d g_space==0
+@d g_rule==1
+@d g_char==2
+
+@<Types...@>=
+glue_array_type=0..glue_arrays;
+glue_entry_type=0..glue_entries;
+glue_node=
+record
+ gn_width: fix_word;
+ gn_stretch: fix_word;
+ gn_shrink: fix_word;
+ gn_type: integer;
+ gn_arg_type: g_space..g_char;
+ gn_stretch_order: integer;
+ gn_shrink_order: integer;
+ gn_argument: integer;
+end;
+
+@ @<Global...@>=
+@!glues:array[glue_array_type,glue_entry_type] of glue_node;
+@!npg:array[glue_array_type] of integer;
+@!nkg:integer;
+@!nkcg:integer;
+@!nwg:integer;
+@!g_array:integer;
+@!g_byte:integer;
+@!g_number:integer;
+
+@ @<Set init...@>=
+for g_array := 0 to glue_arrays do
+begin
+ npg[g_array]:=0;
+ @<Null out the glue@>;
+end;
+nkg:=-1;
+nkcg:=-1;
+
+@ @<Read font glue list@>=
+begin
+if tables_read then
+ flush_error('All parameter tables must appear before character info');
+g_array:=get_integer;
+if g_array>glue_arrays then
+ flush_error('This FONTGLUE table index is too big for my present size')
+else if g_array<0 then
+ flush_error('This FONTGLUE index is negative')
+else begin
+ if g_array>nkg then nkg:=g_array;
+ while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a glue@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read a glue@>=
+begin
+get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if cur_code<>glue_code then
+ flush_error('This property name doesn''t belong in a GLUE list')
+else begin
+ g_number:=get_integer;
+ if g_number>glue_entries then
+ flush_error('This GLUE index is too big for my present table size')
+ else if g_number<0 then
+ flush_error('This GLUE index is negative')
+ else begin
+ while npg[g_array]<g_number do begin
+ incr(npg[g_array]); @<Null out the glue@>;
+ end;
+ @<Read all of a glue's values@>;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Null out the glue@>=
+begin
+glues[g_array,npg[g_array]].gn_width:=0;
+glues[g_array,npg[g_array]].gn_stretch:=0;
+glues[g_array,npg[g_array]].gn_shrink:=0;
+glues[g_array,npg[g_array]].gn_type:=0;
+glues[g_array,npg[g_array]].gn_arg_type:=0;
+glues[g_array,npg[g_array]].gn_stretch_order:=0;
+glues[g_array,npg[g_array]].gn_shrink_order:=0;
+glues[g_array,npg[g_array]].gn_argument:=0;
+end
+
+@ @<Read all of a glue's values@>=
+begin
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a single glue value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a single glue value@>=
+begin
+get_name;
+case cur_code of
+ glue_width_code:
+ glues[g_array,g_number].gn_width:=get_fix;
+ glue_stretch_code:
+ glues[g_array,g_number].gn_stretch:=get_fix;
+ glue_shrink_code:
+ glues[g_array,g_number].gn_shrink:=get_fix;
+ glue_type_code: begin
+ g_byte:=get_integer;
+ if (g_byte<0) or (g_byte>3) then begin
+ g_byte:=0;
+ end;
+ glues[g_array,g_number].gn_type:=g_byte;
+ end;
+ glue_stretch_order_code: begin
+ g_byte:=get_integer;
+ if (g_byte<0) or (g_byte>4) then begin
+ g_byte:=0;
+ end;
+ glues[g_array,g_number].gn_stretch_order:=g_byte;
+ end;
+ glue_shrink_order_code: begin
+ g_byte:=get_integer;
+ if (g_byte<0) or (g_byte>4) then begin
+ g_byte:=0;
+ end;
+ glues[g_array,g_number].gn_shrink_order:=g_byte;
+ end;
+ glue_char_code: begin
+ glues[g_array,g_number].gn_argument:=get_integer;
+ glues[g_array,g_number].gn_arg_type:=g_char;
+ end;
+ glue_rule_code: begin
+ glues[g_array,g_number].gn_argument:=get_integer;
+ glues[g_array,g_number].gn_arg_type:=g_rule;
+ end;
+ end;
+finish_the_property;
+end
+
+@ @<Header information for glues@>=
+begin
+nwg:=0;
+for g_array := 0 to nkg do begin
+ incr(npg[g_array]);
+ nwg := nwg + 4*npg[g_array];
+ end;
+incr(nkg);
+end
+
+@ @<Output the glues@>=
+begin
+for g_array:= 0 to nkg-1 do
+ for g_number:=0 to npg[g_array]-1 do begin
+ g_byte:=glues[g_array,g_number].gn_type*16+
+ glues[g_array,g_number].gn_arg_type;
+ out(g_byte);
+ g_byte:=glues[g_array,g_number].gn_stretch_order*16+
+ glues[g_array,g_number].gn_shrink_order;
+ out(g_byte);
+ g_byte:=glues[g_array,g_number].gn_argument div 256;
+ out(g_byte);
+ g_byte:=glues[g_array,g_number].gn_argument mod 256;
+ out(g_byte);
+ out_scaled(glues[g_array,g_number].gn_width);
+ out_scaled(glues[g_array,g_number].gn_stretch);
+ out_scaled(glues[g_array,g_number].gn_shrink);
+ end;
+end
+
+@ @<Output the glue headers@>=
+begin
+for g_array:= 0 to nkg-1 do begin
+ out_integer(npg[g_array]);
+ end;
+end
+
+@ @<Constants...@>=
+@!penalty_arrays=arrays_per_kind;
+@!penalty_entries=entries_per_array;
+
+@ @<Types...@>=
+penalty_array_type=0..penalty_arrays;
+penalty_entry_type=0..penalty_entries;
+penalty_node=
+record
+ pn_val: integer;
+end;
+
+@ @<Global...@>=
+@!penalties:array[penalty_array_type,penalty_entry_type] of penalty_node;
+@!npp:array[penalty_array_type] of integer;
+@!nkp:integer;
+@!nkcp:integer;
+@!nwp:integer;
+@!p_array:integer;
+@!p_number:integer;
+
+@ @<Set init...@>=
+for p_array := 0 to penalty_arrays do begin
+ npp[p_array]:=0;
+ @<Null out the penalty@>;
+ end;
+nkp:=-1;
+nkcp:=-1;
+
+@ @<Read font penalty list@>=
+begin
+if tables_read then
+ flush_error('All parameter tables must appear before character info');
+p_array:=get_integer;
+if p_array>penalty_arrays then
+ flush_error('This FONTPENALTY table index is too big for my present size')
+else if p_array<0 then
+ flush_error('This FONTPENALTY index is negative')
+else begin
+ if p_array>nkp then nkp:=p_array;
+ while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a penalty@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read a penalty@>=
+begin
+get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if cur_code<>penalty_code then
+ flush_error('This property name doesn''t belong in a PENALTY list')
+else begin
+ p_number:=get_integer;
+ if p_number>penalty_entries then
+ flush_error('This PENALTY index is too big for my present table size')
+ else if p_number<0 then
+ flush_error('This PENALTY index is negative')
+ else begin
+ while npp[p_array]<p_number do begin
+ incr(npp[p_array]); @<Null out the penalty@>;
+ end;
+ @<Read all of a penalty's values@>;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Null out the penalty@>=
+begin
+penalties[p_array,npp[p_array]].pn_val:=0;
+end
+
+@ @<Read all of a penalty's values@>=
+begin
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a single penalty value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a single penalty value@>=
+begin
+get_name;
+case cur_code of
+ penalty_val_code:
+ penalties[p_array,p_number].pn_val:=get_integer;
+ end;
+finish_the_property;
+end
+
+@ @<Header information for penalties@>=
+begin
+nwp:=0;
+for p_array := 0 to nkp do begin
+ incr(npp[p_array]);
+ nwp := nwp + npp[p_array];
+ end;
+incr(nkp);
+end
+
+@ @<Output the penalties@>=
+begin
+for p_array:= 0 to nkp-1 do
+ for p_number:=0 to npp[p_array]-1 do begin
+ out_integer(penalties[p_array,p_number].pn_val);
+ end;
+end
+
+@ @<Output the penalty headers@>=
+begin
+for p_array:= 0 to nkp-1 do begin
+ out_integer(npp[p_array]);
+ end;
+end
+
+@ @<Constants...@>=
+@!mvalue_arrays=arrays_per_kind;
+@!mvalue_entries=entries_per_array;
+
+@ @<Types...@>=
+mvalue_array_type=0..mvalue_arrays;
+mvalue_entry_type=0..mvalue_entries;
+mvalue_node=
+record
+ fn_val: fix_word;
+end;
+
+@ @<Global...@>=
+@!mvalues:array[mvalue_array_type,mvalue_entry_type] of mvalue_node;
+@!npm:array[mvalue_array_type] of integer;
+@!nkm:integer;
+@!nkcm:integer;
+@!nwm:integer;
+@!m_array:integer;
+@!m_number:integer;
+
+@ @<Set init...@>=
+for m_array := 0 to mvalue_arrays do begin
+ npm[m_array]:=0;
+ @<Null out the mvalue@>;
+ end;
+nkm:=-1;
+nkcm:=-1;
+
+@ @<Read font mvalue list@>=
+begin
+if tables_read then
+ flush_error('All parameter tables must appear before character info');
+m_array:=get_integer;
+if m_array>mvalue_arrays then
+ flush_error('This FONTMVALUE table index is too big for my present size')
+else if m_array<0 then
+ flush_error('This FONTMVALUE index is negative')
+else begin
+ if m_array>nkm then nkm:=m_array;
+ while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read an mvalue@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read an mvalue@>=
+begin
+get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if cur_code<>mvalue_code then
+ flush_error('This property name doesn''t belong in an MVALUE list')
+else begin
+ m_number:=get_integer;
+ if m_number>mvalue_entries then
+ flush_error('This MVALUE index is too big for my present table size')
+ else if m_number<0 then
+ flush_error('This MVALUE index is negative')
+ else begin
+ while npm[m_array]<m_number do begin
+ incr(npm[m_array]); @<Null out the mvalue@>;
+ end;
+ @<Read all of an mvalue's values@>;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Null out the mvalue@>=
+begin
+mvalues[m_array,npm[m_array]].fn_val:=0;
+end
+
+@ @<Read all of an mvalue's values@>=
+begin
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a single mvalue value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a single mvalue value@>=
+begin
+get_name;
+case cur_code of
+ mvalue_val_code:
+ mvalues[m_array,m_number].fn_val:=get_fix;
+ end;
+finish_the_property;
+end
+
+@ @<Header information for mvalues@>=
+begin
+nwm:=0;
+for m_array := 0 to nkm do begin
+ incr(npm[m_array]);
+ nwm := nwm + npm[m_array];
+ end;
+incr(nkm);
+end
+
+@ @<Output the mvalues@>=
+begin
+for m_array:= 0 to nkm-1 do
+ for m_number:=0 to npm[m_array]-1 do begin
+ out_scaled(mvalues[m_array,m_number].fn_val);
+ end;
+end
+
+@ @<Output the mvalue headers@>=
+begin
+for m_array:= 0 to nkm-1 do begin
+ out_integer(npm[m_array]);
+ end;
+end
+
+@ @<Constants...@>=
+@!fvalue_arrays=arrays_per_kind;
+@!fvalue_entries=entries_per_array;
+
+@ @<Types...@>=
+fvalue_array_type=0..fvalue_arrays;
+fvalue_entry_type=0..fvalue_entries;
+fvalue_node=
+record
+ fn_val: fix_word;
+end;
+
+@ @<Global...@>=
+@!fvalues:array[fvalue_array_type,fvalue_entry_type] of fvalue_node;
+@!npf:array[fvalue_array_type] of integer;
+@!nkf:integer;
+@!nkcf:integer;
+@!nwf:integer;
+@!f_array:integer;
+@!f_number:integer;
+
+@ @<Set init...@>=
+for f_array := 0 to fvalue_arrays do begin
+ npf[f_array]:=0;
+ @<Null out the fvalue@>;
+ end;
+nkf:=-1;
+nkcf:=-1;
+
+@ @<Read font fvalue list@>=
+begin
+if tables_read then
+ flush_error('All parameter tables must appear before character info');
+f_array:=get_integer;
+if f_array>fvalue_arrays then
+ flush_error('This FONTFVALUE table index is too big for my present size')
+else if f_array<0 then
+ flush_error('This FONTFVALUE index is negative')
+else begin
+ if f_array>nkf then nkf:=f_array;
+ while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read an fvalue@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read an fvalue@>=
+begin
+get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if cur_code<>fvalue_code then
+ flush_error('This property name doesn''t belong in an FVALUE list')
+else begin
+ f_number:=get_integer;
+ if f_number>fvalue_entries then
+ flush_error('This FVALUE index is too big for my present table size')
+ else if f_number<0 then
+ flush_error('This FVALUE index is negative')
+ else begin
+ while npf[f_array]<f_number do begin
+ incr(npf[f_array]); @<Null out the fvalue@>;
+ end;
+ @<Read all of an fvalue's values@>;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Null out the fvalue@>=
+begin
+fvalues[f_array,npf[f_array]].fn_val:=0;
+end
+
+@ @<Read all of an fvalue's values@>=
+begin
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a single fvalue value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a single fvalue value@>=
+begin
+get_name;
+case cur_code of
+ fvalue_val_code:
+ fvalues[f_array,f_number].fn_val:=get_fix;
+ end;
+finish_the_property;
+end
+
+@ @<Header information for fvalues@>=
+begin
+nwf:=0;
+for f_array := 0 to nkf do begin
+ incr(npf[f_array]);
+ nwf := nwf + npf[f_array];
+ end;
+incr(nkf);
+end
+
+@ @<Output the fvalues@>=
+begin
+for f_array:= 0 to nkf-1 do
+ for f_number:=0 to npf[f_array]-1 do begin
+ out_scaled(fvalues[f_array,f_number].fn_val);
+ end;
+end
+
+@ @<Output the fvalue headers@>=
+begin
+for f_array:= 0 to nkf-1 do begin
+ out_integer(npf[f_array]);
+ end;
+end
+
+@ @<Constants...@>=
+@!ivalue_arrays=arrays_per_kind;
+@!ivalue_entries=entries_per_array;
+
+@ @<Types...@>=
+ivalue_array_type=0..ivalue_arrays;
+ivalue_entry_type=0..ivalue_entries;
+ivalue_node=
+record
+ in_val: integer;
+end;
+
+@ @<Global...@>=
+@!ivalues:array[ivalue_array_type,ivalue_entry_type] of ivalue_node;
+@!npi:array[ivalue_array_type] of integer;
+@!font_i_array:boolean;
+@!nki:integer;
+@!nkci:integer;
+@!nwi:integer;
+@!i_array:integer;
+@!i_number:integer;
+
+@ @<Set init...@>=
+for i_array := 0 to ivalue_arrays do begin
+ npi[i_array]:=0;
+ @<Null out the ivalue@>;
+ end;
+nki:=-1;
+nkci:=-1;
+
+@ @<Read font ivalue list@>=
+begin
+if tables_read then
+ flush_error('All parameter tables must appear before character info');
+i_array:=get_integer;
+if i_array>ivalue_arrays then
+ flush_error('This FONTIVALUE table index is too big for my present size')
+else if i_array<0 then
+ flush_error('This FONTIVALUE index is negative')
+else begin
+ if i_array>nki then nki:=i_array;
+ while level=1 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read an ivalue@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+ finish_inner_property_list;
+ end;
+end
+
+@ @<Read an ivalue@>=
+begin
+get_name;
+if cur_code=comment_code then skip_to_end_of_item
+else if cur_code<>ivalue_code then
+ flush_error('This property name doesn''t belong in an IVALUE list')
+else begin
+ i_number:=get_integer;
+ if i_number>ivalue_entries then
+ flush_error('This IVALUE index is too big for my present table size')
+ else if i_number<0 then
+ flush_error('This IVALUE index is negative')
+ else begin
+ while npi[i_array]<i_number do begin
+ incr(npi[i_array]); @<Null out the ivalue@>;
+ end;
+ @<Read all of an ivalue's values@>;
+ finish_the_property;
+ end;
+ end;
+end
+
+@ @<Null out the ivalue@>=
+begin
+ivalues[i_array,npi[i_array]].in_val:=0;
+end
+
+@ @<Read all of an ivalue's values@>=
+begin
+while level=2 do begin
+ while cur_char=" " do get_next;
+ if cur_char="(" then @<Read a single ivalue value@>
+ else if cur_char=")" then skip_to_end_of_item
+ else junk_error;
+ end;
+finish_inner_property_list;
+end
+
+@ @<Read a single ivalue value@>=
+begin
+get_name;
+case cur_code of
+ ivalue_val_code:
+ ivalues[i_array,i_number].in_val:=get_integer;
+ end;
+finish_the_property;
+end
+
+@ @<Header information for ivalues@>=
+begin
+nwi:=0;
+for i_array := 0 to nki do begin
+ incr(npi[i_array]);
+ nwi := nwi + npi[i_array];
+ end;
+incr(nki);
+end
+
+@ @<Output the ivalues@>=
+begin
+for i_array:= 0 to nki-1 do
+ for i_number:=0 to npi[i_array]-1 do begin
+ out_integer(ivalues[i_array,i_number].in_val);
+ end;
+end
+
+@ @<Output the ivalue headers@>=
+begin
+for i_array:= 0 to nki-1 do begin
+ out_integer(npi[i_array]);
+ end;
+end
+
+@ @<Compute the new header information for OFM files@>=
+begin
+@<Header information for ivalues@>;
+@<Header information for fvalues@>;
+@<Header information for mvalues@>;
+@<Header information for rules@>;
+@<Header information for glues@>;
+@<Header information for penalties@>;
+end
+
+@ @<Output the new information for OFM files@>=
+begin
+@<Output the ivalue headers@>;
+@<Output the fvalue headers@>;
+@<Output the mvalue headers@>;
+@<Output the rule headers@>;
+@<Output the glue headers@>;
+@<Output the penalty headers@>;
+@<Output the ivalues@>;
+@<Output the fvalues@>;
+@<Output the rules@>;
+@<Output the glues@>;
+@<Output the penalties@>;
+end
+
+@* System-dependent changes.
+This section should be replaced, if necessary, by changes to the program
+that are necessary to make \.{VPtoVF} work at a particular installation.
+It is usually best to design your change file so that all changes to
+previous sections preserve the section numbering; then everybody's version
+will be consistent with the printed program. More extensive changes,
+which introduce new sections, can be inserted here; then only the index
+itself will get a new section number.
+@^system dependencies@>
+
+@* Index.
+Pointers to error messages appear here together with the section numbers
+where each ident\-i\-fier is used.
diff --git a/Build/source/texk/web2c/otps/Makefile.am b/Build/source/texk/web2c/otps/Makefile.am
index 31ff842c178..5ecf9e13710 100644
--- a/Build/source/texk/web2c/otps/Makefile.am
+++ b/Build/source/texk/web2c/otps/Makefile.am
@@ -19,11 +19,18 @@ $(proglib): $(KPATHSEA_DEPEND) ${top_srcdir}/lib/*.c
## Rebuild libkpathsea
@KPATHSEA_RULE@
-bin_PROGRAMS = otp2ocp outocp
+otps_programs = otp2ocp outocp
+otps_scripts = mkocp mkofm
noinst_HEADERS = otp.h routines.h yystype.h
-dist_bin_SCRIPTS = mkocp mkofm
+if OTANGLE
+bin_PROGRAMS = $(otps_programs)
+bin_SCRIPTS = $(otps_scripts)
+endif OTANGLE
+EXTRA_PROGRAMS = $(otps_programs)
+
+EXTRA_DIST = $(otps_scripts)
otp2ocp_SOURCES = \
otp-parser.y \
@@ -42,9 +49,5 @@ outocp_LDADD = $(proglib) $(KPATHSEA_LIBS)
## Not used
##
-EXTRA_DIST = bugs.txt
+EXTRA_DIST += bugs.txt
-## Eventually delete these files
-##
-EXTRA_DIST += \
- Makefile.in.orig
diff --git a/Build/source/texk/web2c/otps/Makefile.in b/Build/source/texk/web2c/otps/Makefile.in
index e092afb31f7..a5e2fbe03b2 100644
--- a/Build/source/texk/web2c/otps/Makefile.in
+++ b/Build/source/texk/web2c/otps/Makefile.in
@@ -36,11 +36,12 @@ PRE_UNINSTALL = :
POST_UNINSTALL = :
build_triplet = @build@
host_triplet = @host@
-bin_PROGRAMS = otp2ocp$(EXEEXT) outocp$(EXEEXT)
+@OTANGLE_TRUE@bin_PROGRAMS = $(am__EXEEXT_1)
+EXTRA_PROGRAMS = $(am__EXEEXT_1)
subdir = otps
-DIST_COMMON = $(dist_bin_SCRIPTS) $(noinst_HEADERS) \
- $(srcdir)/Makefile.am $(srcdir)/Makefile.in ChangeLog \
- otp-lexer.c otp-parser.c otp-parser.h
+DIST_COMMON = $(noinst_HEADERS) $(srcdir)/Makefile.am \
+ $(srcdir)/Makefile.in ChangeLog otp-lexer.c otp-parser.c \
+ otp-parser.h
ACLOCAL_M4 = $(top_srcdir)/aclocal.m4
am__aclocal_m4_deps = $(top_srcdir)/../../m4/kpse-asm.m4 \
$(top_srcdir)/../../m4/kpse-common.m4 \
@@ -73,6 +74,7 @@ mkinstalldirs = $(SHELL) $(top_srcdir)/../../build-aux/mkinstalldirs
CONFIG_HEADER = $(top_builddir)/c-auto.h $(top_builddir)/ff-config.h
CONFIG_CLEAN_FILES =
CONFIG_CLEAN_VPATH_FILES =
+am__EXEEXT_1 = otp2ocp$(EXEEXT) outocp$(EXEEXT)
am__installdirs = "$(DESTDIR)$(bindir)" "$(DESTDIR)$(bindir)"
PROGRAMS = $(bin_PROGRAMS)
am_otp2ocp_OBJECTS = otp-parser.$(OBJEXT) otp-lexer.$(OBJEXT) \
@@ -105,7 +107,7 @@ am__nobase_list = $(am__nobase_strip_setup); \
am__base_list = \
sed '$$!N;$$!N;$$!N;$$!N;$$!N;$$!N;$$!N;s/\n/ /g' | \
sed '$$!N;$$!N;$$!N;$$!N;s/\n/ /g'
-SCRIPTS = $(dist_bin_SCRIPTS)
+SCRIPTS = $(bin_SCRIPTS)
DEFAULT_INCLUDES = -I.@am__isrc@ -I$(top_builddir)
depcomp = $(SHELL) $(top_srcdir)/../../build-aux/depcomp
am__depfiles_maybe = depfiles
@@ -313,8 +315,11 @@ x_tool_libs = @x_tool_libs@
INCLUDES = -I$(top_builddir)/.. -I$(top_srcdir) $(KPATHSEA_INCLUDES)
AM_YFLAGS = -d -v
proglib = ../lib/lib.a
+otps_programs = otp2ocp outocp
+otps_scripts = mkocp mkofm
noinst_HEADERS = otp.h routines.h yystype.h
-dist_bin_SCRIPTS = mkocp mkofm
+@OTANGLE_TRUE@bin_SCRIPTS = $(otps_scripts)
+EXTRA_DIST = $(otps_scripts) bugs.txt
otp2ocp_SOURCES = \
otp-parser.y \
otp-lexer.l \
@@ -327,7 +332,6 @@ outocp_SOURCES = \
outocp.c
outocp_LDADD = $(proglib) $(KPATHSEA_LIBS)
-EXTRA_DIST = bugs.txt Makefile.in.orig
all: all-am
.SUFFIXES:
@@ -416,10 +420,10 @@ otp2ocp$(EXEEXT): $(otp2ocp_OBJECTS) $(otp2ocp_DEPENDENCIES)
outocp$(EXEEXT): $(outocp_OBJECTS) $(outocp_DEPENDENCIES)
@rm -f outocp$(EXEEXT)
$(LINK) $(outocp_OBJECTS) $(outocp_LDADD) $(LIBS)
-install-dist_binSCRIPTS: $(dist_bin_SCRIPTS)
+install-binSCRIPTS: $(bin_SCRIPTS)
@$(NORMAL_INSTALL)
test -z "$(bindir)" || $(MKDIR_P) "$(DESTDIR)$(bindir)"
- @list='$(dist_bin_SCRIPTS)'; test -n "$(bindir)" || list=; \
+ @list='$(bin_SCRIPTS)'; test -n "$(bindir)" || list=; \
for p in $$list; do \
if test -f "$$p"; then d=; else d="$(srcdir)/"; fi; \
if test -f "$$d$$p"; then echo "$$d$$p"; echo "$$p"; else :; fi; \
@@ -442,9 +446,9 @@ install-dist_binSCRIPTS: $(dist_bin_SCRIPTS)
} \
; done
-uninstall-dist_binSCRIPTS:
+uninstall-binSCRIPTS:
@$(NORMAL_UNINSTALL)
- @list='$(dist_bin_SCRIPTS)'; test -n "$(bindir)" || exit 0; \
+ @list='$(bin_SCRIPTS)'; test -n "$(bindir)" || exit 0; \
files=`for p in $$list; do echo "$$p"; done | \
sed -e 's,.*/,,;$(transform)'`; \
test -n "$$list" || exit 0; \
@@ -642,7 +646,7 @@ install-dvi: install-dvi-am
install-dvi-am:
-install-exec-am: install-binPROGRAMS install-dist_binSCRIPTS
+install-exec-am: install-binPROGRAMS install-binSCRIPTS
install-html: install-html-am
@@ -682,7 +686,7 @@ ps: ps-am
ps-am:
-uninstall-am: uninstall-binPROGRAMS uninstall-dist_binSCRIPTS
+uninstall-am: uninstall-binPROGRAMS uninstall-binSCRIPTS
.MAKE: install-am install-strip
@@ -690,16 +694,16 @@ uninstall-am: uninstall-binPROGRAMS uninstall-dist_binSCRIPTS
clean-generic clean-libtool ctags distclean distclean-compile \
distclean-generic distclean-libtool distclean-tags distdir dvi \
dvi-am html html-am info info-am install install-am \
- install-binPROGRAMS install-data install-data-am \
- install-dist_binSCRIPTS install-dvi install-dvi-am \
- install-exec install-exec-am install-html install-html-am \
- install-info install-info-am install-man install-pdf \
- install-pdf-am install-ps install-ps-am install-strip \
- installcheck installcheck-am installdirs maintainer-clean \
+ install-binPROGRAMS install-binSCRIPTS install-data \
+ install-data-am install-dvi install-dvi-am install-exec \
+ install-exec-am install-html install-html-am install-info \
+ install-info-am install-man install-pdf install-pdf-am \
+ install-ps install-ps-am install-strip installcheck \
+ installcheck-am installdirs maintainer-clean \
maintainer-clean-generic mostlyclean mostlyclean-compile \
mostlyclean-generic mostlyclean-libtool pdf pdf-am ps ps-am \
tags uninstall uninstall-am uninstall-binPROGRAMS \
- uninstall-dist_binSCRIPTS
+ uninstall-binSCRIPTS
$(proglib): $(KPATHSEA_DEPEND) ${top_srcdir}/lib/*.c
diff --git a/Build/source/texk/web2c/otps/Makefile.in.orig b/Build/source/texk/web2c/otps/Makefile.in.orig
deleted file mode 100644
index ee81a2d2a9c..00000000000
--- a/Build/source/texk/web2c/otps/Makefile.in.orig
+++ /dev/null
@@ -1,53 +0,0 @@
-# @configure_input@
-# Makefile for otps.
-
-# These get expanded from the parent directory, not this one.
-kpse_include ../make/common.mk
-kpse_include ../make/programs.mk
-kpse_include ../make/paths.mk
-kpse_include kpathsea.mk
-
-LEX = @LEX@
-LEXLIB = @LEXLIB@
-LEX_OUTPUT_ROOT = @LEX_OUTPUT_ROOT@
-YACC = @YACC@
-
-proglib = ../lib/lib.a
-programs = otp2ocp outocp
-scripts = mkocp mkofm
-
-otp2ocp_objects = otp2ocp.o routines.o y_tab.o $(LEX_OUTPUT_ROOT).o
-all: $(programs)
-otp2ocp: $(otp2ocp_objects)
- $(kpathsea_link) $(otp2ocp_objects) $(LEXLIB) $(LOADLIBES)
-
-otp2ocp.o: otp2ocp.c y_tab.h
-y_tab.c y_tab.h: otp.y
- $(YACC) -d -v $(srcdir)/otp.y
- -test -f y.tab.c && mv -f y.tab.c y_tab.c
- -test -f y.tab.h && mv -f y.tab.h y_tab.h
-$(LEX_OUTPUT_ROOT).o: otp.h
-$(LEX_OUTPUT_ROOT).c: otp.l
- $(LEX) $(srcdir)/otp.l
-
-outocp: outocp.o
- $(kpathsea_link) outocp.o $(LOADLIBES)
-
-$(programs): $(proglib) $(kpathsea)
-
-install-programs: $(programs)
- $(SHELL) $(top_srcdir)/../mkinstalldirs $(bindir)
- for p in $(programs); do $(INSTALL_LIBTOOL_PROG) $$p $(bindir); done
- for p in $(scripts); do $(INSTALL_SCRIPT) $(srcdir)/$$p $(scriptdir); done
-
-Makefile: Makefile.in ../config.status
- cd .. && $(SHELL) config.status
-
-kpse_include ../make/tkpathsea.mk
-kpse_include ../make/clean.mk
-
-clean::
- rm -f y_tab.c y_tab.h y.out* yacc.* $(LEX_OUTPUT_ROOT).c
-
-kpse_include ../make/rdepend.mk
-kpse_include otps/depend.mk
diff --git a/Build/source/texk/web2c/window/Makefile.am b/Build/source/texk/web2c/window/Makefile.am
index 05aefbdd788..fe8f7cf4c1c 100644
--- a/Build/source/texk/web2c/window/Makefile.am
+++ b/Build/source/texk/web2c/window/Makefile.am
@@ -1,4 +1,4 @@
-## Makefile.am for the TeX Live subdirectory texk/web2c/doc/
+## Makefile.am for the TeX Live subdirectory texk/web2c/window/
##
## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
## You may freely use, modify and/or distribute this file.
diff --git a/Build/source/texk/xdv2pdf/Makefile.am b/Build/source/texk/xdv2pdf/Makefile.am
index 0866637d675..08913f129a4 100644
--- a/Build/source/texk/xdv2pdf/Makefile.am
+++ b/Build/source/texk/xdv2pdf/Makefile.am
@@ -1,4 +1,4 @@
-## Makefile.am for the TeX Live subdirectory texk/dtl/
+## Makefile.am for the TeX Live subdirectory texk/xdv2pdf/
##
## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
## You may freely use, modify and/or distribute this file.
diff --git a/Build/source/texk/xdvipdfmx/Makefile.am b/Build/source/texk/xdvipdfmx/Makefile.am
index df1f61b4b1e..f004a99bf6a 100644
--- a/Build/source/texk/xdvipdfmx/Makefile.am
+++ b/Build/source/texk/xdvipdfmx/Makefile.am
@@ -1,4 +1,4 @@
-## Makefile.am for the TeX Live subdirectory texk/dtl/
+## Makefile.am for the TeX Live subdirectory texk/xdvipdfmx/
##
## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
## You may freely use, modify and/or distribute this file.
diff --git a/Build/source/texk/xdvipdfmx/data/Makefile.am b/Build/source/texk/xdvipdfmx/data/Makefile.am
index b210bfeee1b..2d2d8b8d6f2 100644
--- a/Build/source/texk/xdvipdfmx/data/Makefile.am
+++ b/Build/source/texk/xdvipdfmx/data/Makefile.am
@@ -1,4 +1,9 @@
-pkgdatadir = $(datadir)/texmf/dvipdfm
+## Makefile.am for the TeX Live subdirectory texk/xdvipdfmx/data/
+##
+## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
+## You may freely use, modify and/or distribute this file.
+##
+pkgdatadir = ${prefix}/texmf/dvipdfm
dist_pkgdata_DATA = \
$(srcdir)/CMap/EUC-UCS2 \
$(srcdir)/CMap/UniKSCms-UCS2-H \
diff --git a/Build/source/texk/xdvipdfmx/src/Makefile.am b/Build/source/texk/xdvipdfmx/src/Makefile.am
index e022614adb0..f91f40e3bf0 100644
--- a/Build/source/texk/xdvipdfmx/src/Makefile.am
+++ b/Build/source/texk/xdvipdfmx/src/Makefile.am
@@ -1,3 +1,7 @@
+## Makefile.am for the TeX Live subdirectory texk/xdvipdfmx/src/
+##
+## Copyright (C) 2009 Peter Breitenlohner <tex-live@tug.org>
+## You may freely use, modify and/or distribute this file.
##
INCLUDES = $(KPATHSEA_INCLUDES) $(FREETYPE2_INCLUDES) $(LIBPNG_INCLUDES) $(ZLIB_INCLUDES)
AM_CPPFLAGS =
diff --git a/Build/source/utils/configure b/Build/source/utils/configure
index d6877341834..5aed784beec 100755
--- a/Build/source/utils/configure
+++ b/Build/source/utils/configure
@@ -701,6 +701,7 @@ with_editor
enable_auto_core
enable_dump_share
enable_ipc
+enable_omfonts
enable_tex
enable_etex
enable_aleph
@@ -1463,6 +1464,8 @@ Optional Features:
--disable-dump-share make fmt/base/mem files architecture-dependent
--disable-ipc disable TeX's --ipc option, i.e., pipe to a
program
+ --disable-omfonts do not compile and install omfonts (use Web2C
+ versions)
--disable-tex do not compile and install TeX
--enable-etex compile and install e-TeX
--disable-aleph do not compile and install Aleph
@@ -2411,6 +2414,10 @@ fi
if test "${enable_ipc+set}" = set; then
enableval=$enable_ipc;
fi
+# Check whether --enable-omfonts was given.
+if test "${enable_omfonts+set}" = set; then
+ enableval=$enable_omfonts;
+fi
# Check whether --enable-tex was given.
if test "${enable_tex+set}" = set; then
enableval=$enable_tex;