% $Id: psout.w 1219 2010-04-01 09:05:51Z taco $
%
% Copyright 2008-2009 Taco Hoekwater.
%
% This program is free software: you can redistribute it and/or modify
% it under the terms of the GNU Lesser General Public License as published by
% the Free Software Foundation, either version 3 of the License, or
% (at your option) any later version.
%
% This program is distributed in the hope that it will be useful,
% but WITHOUT ANY WARRANTY; without even the implied warranty of
% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
% GNU Lesser General Public License for more details.
%
% You should have received a copy of the GNU Lesser General Public License
% along with this program. If not, see .
%
% TeX is a trademark of the American Mathematical Society.
% METAFONT is a trademark of Addison-Wesley Publishing Company.
% PostScript is a trademark of Adobe Systems Incorporated.
% Here is TeX material that gets inserted after \input webmac
\def\hang{\hangindent 3em\noindent\ignorespaces}
\def\textindent#1{\hangindent2.5em\noindent\hbox to2.5em{\hss#1 }\ignorespaces}
\def\PASCAL{Pascal}
\def\ps{PostScript}
\def\ph{\hbox{Pascal-H}}
\def\psqrt#1{\sqrt{\mathstrut#1}}
\def\k{_{k+1}}
\def\pct!{{\char`\%}} % percent sign in ordinary text
\font\tenlogo=logo10 % font used for the METAFONT logo
\font\logos=logosl10
\def\MF{{\tenlogo META}\-{\tenlogo FONT}}
\def\MP{{\tenlogo META}\-{\tenlogo POST}}
\def\<#1>{$\langle#1\rangle$}
\def\section{\mathhexbox278}
\let\swap=\leftrightarrow
\def\round{\mathop{\rm round}\nolimits}
\mathchardef\vbv="026A % synonym for `\|'
\def\vb{\relax\ifmmode\vbv\else$\vbv$\fi}
\def\[#1]{} % from pascal web
\def\(#1){} % this is used to make section names sort themselves better
\def\9#1{} % this is used for sort keys in the index via @@:sort key}{entry@@>
\let\?=\relax % we want to be able to \write a \?
\def\title{MetaPost \ps\ output}
\def\topofcontents{\hsize 5.5in
\vglue -30pt plus 1fil minus 1.5in
\def\?##1]{\hbox to 1in{\hfil##1.\ }}
}
\def\botofcontents{\vskip 0pt plus 1fil minus 1.5in}
\pdfoutput=1
\pageno=3
@
@d true 1
@d false 0
@d null_font 0
@d null 0
@d unity 0200000 /* $2^{16}$, represents 1.00000 */
@d el_gordo 017777777777 /* $2^{31}-1$, the largest value that \MP\ likes */
@d incr(A) (A)=(A)+1 /* increase a variable by unity */
@d decr(A) (A)=(A)-1 /* decrease a variable by unity */
@d negate(A) (A)=-(A) /* change the sign of a variable */
@d odd(A) ((A)%2==1)
@d half(A) ((A)/2)
@d print_err(A) mp_print_err(mp,(A))
@d max_quarterword 0x3FFF /* largest allowable value in a |quarterword| */
@c
#include "config.h"
#include
#include
#include
#include
#include
#include "avl.h"
#include "mplib.h"
#include "mplibps.h" /* external header */
#include "mpmp.h" /* internal header */
#include "mppsout.h" /* internal header */
@h
@
@
@ There is a small bit of code from the backend that bleads through
to the frontend because I do not know how to set up the includes
properly. That is the |typedef struct psout_data_struct * psout_data|.
@ @(mppsout.h@>=
#include "avl.h"
@
typedef struct psout_data_struct {
@
} psout_data_struct ;
@
@ @c
static boolean mp_isdigit (int a) {
return (a>='0'&&a<='9');
}
static int mp_tolower (int a) {
if (a>='A' && a <='Z')
return a - 'A' + 'a';
return a;
}
static int mp_strcasecmp (const char *s1, const char *s2) {
int r;
char *ss1, *ss2, *c;
ss1 = mp_strdup(s1);
c = ss1;
while (*c != '\0') {
*c = (char)mp_tolower(*c); c++;
}
ss2 = mp_strdup(s2);
c = ss2;
while (*c != '\0') {
*c = (char)mp_tolower(*c); c++;
}
r = strcmp(ss1,ss2);
free (ss1); free(ss2);
return r;
}
@ @=
void mp_ps_backend_initialize (MP mp) ;
void mp_ps_backend_free (MP mp) ;
@
@c void mp_ps_backend_initialize (MP mp) {
mp->ps = mp_xmalloc(mp,1,sizeof(psout_data_struct));
memset(mp->ps,0,sizeof(psout_data_struct));
@;
}
void mp_ps_backend_free (MP mp) {
@;
enc_free(mp);
t1_free(mp);
fm_free(mp);
mp_xfree(mp->ps);
mp->ps = NULL;
}
@ Writing to ps files
@=
integer ps_offset;
/* the number of characters on the current \ps\ file line */
@ @=
mp->ps->ps_offset = 0;
@
@d wps(A) (mp->write_ascii_file)(mp,mp->output_file,(A))
@d wps_chr(A) do {
char ss[2];
ss[0]=(char)(A); ss[1]=0;
(mp->write_ascii_file)(mp,mp->output_file,(char *)ss);
} while (0)
@d wps_cr (mp->write_ascii_file)(mp,mp->output_file,"\n")
@d wps_ln(A) { wterm_cr; (mp->write_ascii_file)(mp,mp->output_file,(A)); }
@c
static void mp_ps_print_ln (MP mp) { /* prints an end-of-line */
wps_cr;
mp->ps->ps_offset=0;
}
@ @c
static void mp_ps_print_char (MP mp, int s) { /* prints a single character */
if ( s==13 ) {
wps_cr; mp->ps->ps_offset=0;
} else {
wps_chr(s); incr(mp->ps->ps_offset);
}
}
@ @c
static void mp_ps_do_print (MP mp, const char *ss, size_t len) { /* prints string |s| */
size_t j = 0;
while ( jps->ps_offset>0 && (mp->ps->ps_offset+(int)(A))>mp->max_print_line ) {
mp_ps_print_ln(mp); /* optional line break */
}
@c
static void mp_ps_print (MP mp, const char *ss) {
ps_room(strlen(ss));
mp_ps_do_print(mp, ss, strlen(ss));
}
static void mp_ps_dsc_print (MP mp, const char *dsc, const char *ss) {
ps_room(strlen(ss));
if (mp->ps->ps_offset==0) {
mp_ps_do_print(mp, "%%+ ", 4);
mp_ps_do_print(mp, dsc, strlen(dsc));
mp_ps_print_char(mp, ' ');
}
mp_ps_do_print(mp, ss, strlen(ss));
}
@ The procedure |print_nl| is like |print|, but it makes sure that the
string appears at the beginning of a new line.
@c
static void mp_ps_print_nl (MP mp, const char *s) { /* prints string |s| at beginning of line */
if ( mp->ps->ps_offset>0 ) mp_ps_print_ln(mp);
mp_ps_print(mp, s);
}
@ An array of digits in the range |0..9| is printed by |print_the_digs|.
@c
static void mp_ps_print_the_digs (MP mp, int k) {
/* prints |dig[k-1]|$\,\ldots\,$|dig[0]| */
while ( k-->0 ){
mp_ps_print_char(mp, '0'+mp->dig[k]);
}
}
@ The following procedure, which prints out the decimal representation of a
given integer |n|, has been written carefully so that it works properly
if |n=0| or if |(-n)| would cause overflow. It does not apply |mod| or |div|
to negative arguments, since such operations are not implemented consistently
by all \PASCAL\ compilers.
@c
static void mp_ps_print_int (MP mp,integer n) { /* prints an integer in decimal form */
integer m; /* used to negate |n| in possibly dangerous cases */
int k = 0; /* index to current digit; we assume that $|n|<10^{23}$ */
if ( n<0 ) {
mp_ps_print_char(mp, '-');
if ( n>-100000000 ) {
negate(n);
} else {
m=-1-n; n=m / 10; m=(m % 10)+1; k=1;
if ( m<10 ) {
mp->dig[0]=(unsigned char)m;
} else {
mp->dig[0]=0; incr(n);
}
}
}
do {
mp->dig[k]=(unsigned char)(n % 10); n=n / 10; incr(k);
} while (n!=0);
mp_ps_print_the_digs(mp, k);
}
@ \MP\ also makes use of a trivial procedure to print two digits. The
following subroutine is usually called with a parameter in the range |0<=n<=99|.
@c
static void mp_ps_print_dd (MP mp,integer n) { /* prints two least significant digits */
n=abs(n) % 100;
mp_ps_print_char(mp, '0'+(n / 10));
mp_ps_print_char(mp, '0'+(n % 10));
}
@ Conversely, here is a procedure analogous to |print_int|. If the output
of this procedure is subsequently read by \MP\ and converted by the
|round_decimals| routine above, it turns out that the original value will
be reproduced exactly. A decimal point is printed only if the value is
not an integer. If there is more than one way to print the result with
the optimum number of digits following the decimal point, the closest
possible value is given.
The invariant relation in the \&{repeat} loop is that a sequence of
decimal digits yet to be printed will yield the original number if and only if
they form a fraction~$f$ in the range $s-\delta\L10\cdot2^{16}funity )
s=s+0100000-(delta / 2); /* round the final digit */
mp_ps_print_char(mp, '0'+(s / unity));
s=10*(s % unity);
delta=delta*10;
} while (s>delta);
}
}
@* \[44a] Dealing with font encodings.
First, here are a few helpers for parsing files
@d check_buf(size, buf_size)
if ((unsigned)(size) > (unsigned)(buf_size)) {
char S[128];
mp_snprintf(S,128,"buffer overflow: (%u,%u) at file %s, line %d",
(unsigned)(size),(unsigned)(buf_size), __FILE__, __LINE__ );
mp_fatal_error(mp,S);
}
@d append_char_to_buf(c, p, buf, buf_size) do {
if (c == 9)
c = 32;
if (c == 13 || c == EOF)
c = 10;
if (c != ' ' || (p > buf && p[-1] != 32)) {
check_buf(p - buf + 1, (buf_size));
*p++ = (char)c;
}
} while (0)
@d append_eol(p, buf, buf_size) do {
check_buf(p - buf + 2, (buf_size));
if (p - buf > 1 && p[-1] != 10)
*p++ = 10;
if (p - buf > 2 && p[-2] == 32) {
p[-2] = 10;
p--;
}
*p = 0;
} while (0)
@d remove_eol(p, buf) do {
p = strend(buf) - 1;
if (*p == 10)
*p = 0;
} while (0)
@d skip(p, c) if (*p == c) p++
@d strend(s) strchr(s, 0)
@d str_prefix(s1, s2) (strncmp((s1), (s2), strlen(s2)) == 0)
@ @=
typedef struct {
boolean loaded; /* the encoding has been loaded? */
char *file_name; /* encoding file name */
char *enc_name; /* encoding true name */
integer objnum; /* object number */
char **glyph_names;
integer tounicode; /* object number of associated ToUnicode entry */
} enc_entry;
@
@d ENC_STANDARD 0
@d ENC_BUILTIN 1
@=
#define ENC_BUF_SIZE 0x1000
char enc_line[ENC_BUF_SIZE];
void * enc_file;
@
@d enc_eof() (mp->eof_file)(mp,mp->ps->enc_file)
@d enc_close() (mp->close_file)(mp,mp->ps->enc_file)
@c
static int enc_getchar(MP mp) {
size_t len = 1;
unsigned char abyte=0;
void *byte_ptr = &abyte;
(mp->read_binary_file)(mp,mp->ps->enc_file,&byte_ptr,&len);
return abyte;
}
@ @c
static boolean mp_enc_open (MP mp, char *n) {
mp->ps->enc_file=(mp->open_file)(mp,n, "r", mp_filetype_encoding);
if (mp->ps->enc_file!=NULL)
return true;
else
return false;
}
static void mp_enc_getline (MP mp) {
char *p;
int c;
RESTART:
if (enc_eof ()) {
print_err("unexpected end of file");
mp_error(mp);
}
p = mp->ps->enc_line;
do {
c = enc_getchar (mp);
append_char_to_buf (c, p, mp->ps->enc_line, ENC_BUF_SIZE);
} while (c != 10);
append_eol (p, mp->ps->enc_line, ENC_BUF_SIZE);
if (p - mp->ps->enc_line < 2 || *mp->ps->enc_line == '%')
goto RESTART;
}
static void mp_load_enc (MP mp, char *enc_name,
char **enc_encname, char **glyph_names){
char buf[ENC_BUF_SIZE], *p, *r;
int names_count;
char *myname;
unsigned save_selector = mp->selector;
if (!mp_enc_open (mp,enc_name)) {
char err [256];
mp_snprintf(err,255, "cannot open encoding file %s for reading", enc_name);
mp_print (mp,err);
return;
}
mp_normalize_selector(mp);
mp_print (mp,"{");
mp_print (mp, enc_name);
mp_enc_getline (mp);
if (*mp->ps->enc_line != '/' || (r = strchr (mp->ps->enc_line, '[')) == NULL) {
remove_eol (r, mp->ps->enc_line);
print_err ("invalid encoding vector (a name or `[' missing): `");
mp_print(mp,mp->ps->enc_line);
mp_print(mp,"'");
mp_error(mp);
}
while (*(r-1)==' ') r--; /* strip trailing spaces from encoding name */
myname = mp_xmalloc(mp,(size_t)(r-mp->ps->enc_line),1);
memcpy(myname,(mp->ps->enc_line+1),(size_t)((r-mp->ps->enc_line)-1));
*(myname+(r-mp->ps->enc_line-1))=0;
*enc_encname = myname;
while (*r!='[') r++;
r++; /* skip '[' */
names_count = 0;
skip (r, ' ');
for (;;) {
while (*r == '/') {
for (p = buf, r++;
*r != ' ' && *r != 10 && *r != ']' && *r != '/'; *p++ = *r++);
*p = 0;
skip (r, ' ');
if (names_count > 256) {
print_err ("encoding vector contains more than 256 names");
mp_error(mp);
}
if (mp_xstrcmp (buf, notdef) != 0)
glyph_names[names_count] = mp_xstrdup (mp,buf);
names_count++;
}
if (*r != 10 && *r != '%') {
if (str_prefix (r, "] def"))
goto DONE;
else {
remove_eol (r, mp->ps->enc_line);
print_err
("invalid encoding vector: a name or `] def' expected: `");
mp_print(mp,mp->ps->enc_line);
mp_print(mp,"'");
mp_error(mp);
}
}
mp_enc_getline (mp);
r = mp->ps->enc_line;
}
DONE:
enc_close ();
mp_print (mp,"}");
mp->selector = save_selector;
}
static void mp_read_enc (MP mp, enc_entry * e) {
if (e->loaded)
return;
mp_xfree(e->enc_name);
e->enc_name = NULL;
mp_load_enc (mp,e->file_name, &e->enc_name, e->glyph_names);
e->loaded = true;
}
@ |write_enc| is used to write either external encoding (given in map file) or
internal encoding (read from the font file);
the 2nd argument is a pointer to the encoding entry;
@c
static void mp_write_enc (MP mp, enc_entry * e) {
int i;
size_t s, foffset;
char **g;
if (e->objnum != 0) /* the encoding has been written already */
return;
e->objnum = 1;
g = e->glyph_names;
mp_ps_print(mp,"\n%%%%BeginResource: encoding ");
mp_ps_print(mp, e->enc_name);
mp_ps_print_nl(mp, "/");
mp_ps_print(mp, e->enc_name);
mp_ps_print(mp, " [ ");
mp_ps_print_ln (mp);
foffset = strlen(e->file_name)+3;
for (i = 0; i < 256; i++) {
s = strlen(g[i]);
if (s+1+foffset>=80) {
mp_ps_print_ln (mp);
foffset = 0;
}
foffset += s+2;
mp_ps_print_char(mp,'/');
mp_ps_print(mp, g[i]);
mp_ps_print_char(mp,' ');
}
if (foffset>75)
mp_ps_print_ln (mp);
mp_ps_print_nl (mp,"] def\n");
mp_ps_print(mp,"%%%%EndResource");
}
@ All encoding entries go into AVL tree for fast search by name.
@=
avl_tree enc_tree;
@
@=
static const char notdef[] = ".notdef";
@ @=
mp->ps->enc_tree = NULL;
@ @c
static int comp_enc_entry (void *p, const void *pa, const void *pb) {
(void)p;
return strcmp (((const enc_entry *) pa)->file_name,
((const enc_entry *) pb)->file_name);
}
static void *destroy_enc_entry (void *pa) {
enc_entry *p;
int i;
p = (enc_entry *) pa;
mp_xfree (p->file_name);
if (p->glyph_names != NULL)
for (i = 0; i < 256; i++)
if (p->glyph_names[i] != notdef)
mp_xfree (p->glyph_names[i]);
mp_xfree (p->enc_name);
mp_xfree (p->glyph_names);
mp_xfree (p);
return NULL;
}
@ Not having an |mp| instance here means that lots of |malloc| and
|strdup| checks are needed. Spotted by Peter Breitenlohner.
@c
static void *copy_enc_entry (const void *pa) {
const enc_entry *p;
enc_entry *q;
int i;
p = (const enc_entry *) pa;
q = malloc (sizeof (enc_entry));
if (q!=NULL) {
memset(q,0,sizeof(enc_entry));
if (p->enc_name!=NULL) {
q->enc_name = strdup (p->enc_name);
if (q->enc_name == NULL)
return NULL;
}
q->loaded = p->loaded;
if (p->file_name != NULL) {
q->file_name = strdup (p->file_name);
if (q->file_name == NULL)
return NULL;
}
q->objnum = p->objnum;
q->tounicode = p->tounicode;
q->glyph_names = malloc (256 * sizeof (char *));
if (p->glyph_names == NULL)
return NULL;
for (i = 0; i < 256; i++) {
if (p->glyph_names[i] != NULL) {
q->glyph_names[i] = strdup(p->glyph_names[i]);
if (q->glyph_names[i] == NULL)
return NULL;
}
}
}
return (void *)q;
}
static enc_entry * mp_add_enc (MP mp, char *s) {
int i;
enc_entry tmp, *p;
if (mp->ps->enc_tree == NULL) {
mp->ps->enc_tree = avl_create (comp_enc_entry,
copy_enc_entry,
destroy_enc_entry,
malloc, free, NULL);
}
tmp.file_name = s;
p = (enc_entry *) avl_find (&tmp, mp->ps->enc_tree);
if (p != NULL) /* encoding already registered */
return p;
p = mp_xmalloc (mp,1,sizeof (enc_entry));
memset(p,0,sizeof(enc_entry));
p->loaded = false;
p->file_name = mp_xstrdup (mp,s);
p->objnum = 0;
p->tounicode = 0;
p->glyph_names = mp_xmalloc (mp,256,sizeof (char *));
for (i = 0; i < 256; i++) {
p->glyph_names[i] = mp_xstrdup(mp, notdef);
}
assert (avl_ins (p, mp->ps->enc_tree, avl_false)>0);
destroy_enc_entry(p);
return avl_find (&tmp, mp->ps->enc_tree);
}
@ cleaning up...
@ @=
static void enc_free (MP mp);
@ @c static void enc_free (MP mp) {
if (mp->ps->enc_tree != NULL)
avl_destroy (mp->ps->enc_tree);
}
@ @=
static void mp_reload_encodings (MP mp) ;
static void mp_font_encodings (MP mp, font_number lastfnum, boolean encodings_only) ;
@ @c void mp_reload_encodings (MP mp) {
font_number f;
enc_entry *e;
fm_entry *fm_cur;
font_number lastfnum = mp->last_fnum;
for (f=null_font+1;f<=lastfnum;f++) {
if (mp->font_enc_name[f]!=NULL ) {
mp_xfree(mp->font_enc_name[f]);
mp->font_enc_name[f]=NULL;
}
if (mp_has_fm_entry (mp,f,&fm_cur)) {
if (fm_cur != NULL && fm_cur->ps_name != NULL &&is_reencoded (fm_cur)) {
e = fm_cur->encoding;
mp_read_enc (mp,e);
}
}
}
}
static void mp_font_encodings (MP mp, font_number lastfnum, boolean encodings_only) {
font_number f;
enc_entry *e;
fm_entry *fm;
for (f=null_font+1;f<=lastfnum;f++) {
if (mp_has_font_size(mp,f) && mp_has_fm_entry (mp,f, &fm)) {
if (fm != NULL && (fm->ps_name != NULL)) {
if (is_reencoded (fm)) {
if (encodings_only || (!is_subsetted (fm))) {
e = fm->encoding;
mp_write_enc (mp, e);
/* clear for next run */
e->objnum = 0;
}
}
}
}
}
}
@* \[44b] Parsing font map files.
@d FM_BUF_SIZE 1024
@=
void * fm_file;
@
@d fm_close() (mp->close_file)(mp,mp->ps->fm_file)
@d fm_eof() (mp->eof_file)(mp,mp->ps->fm_file)
@c
static int fm_getchar(MP mp) {
size_t len = 1;
unsigned char abyte=0;
void *byte_ptr = &abyte;
(mp->read_binary_file)(mp,mp->ps->fm_file,&byte_ptr,&len);
if (len==0)
return EOF;
return abyte;
}
@ @=
enum _mode { FM_DUPIGNORE, FM_REPLACE, FM_DELETE };
enum _ltype { MAPFILE, MAPLINE };
enum _tfmavail { TFM_UNCHECKED, TFM_FOUND, TFM_NOTFOUND };
typedef struct mitem {
int mode; /* |FM_DUPIGNORE| or |FM_REPLACE| or |FM_DELETE| */
int type; /* map file or map line */
char *map_line; /* pointer to map file name or map line */
int lineno; /* line number in map file */
} mapitem;
@ @=
mapitem *mitem;
fm_entry *fm_cur;
fm_entry *loaded_tfm_found;
fm_entry *avail_tfm_found;
fm_entry *non_tfm_found;
fm_entry *not_avail_tfm_found;
@ @=
mp->ps->mitem = NULL;
@ @=
static const char nontfm[] = "";
@
@d read_field(r, q, buf) do {
q = buf;
while (*r != ' ' && *r != '\0')
*q++ = *r++;
*q = '\0';
skip (r, ' ');
} while (0)
@d set_field(F) do {
if (q > buf)
fm->F = mp_xstrdup(mp,buf);
if (*r == '\0')
goto DONE;
} while (0)
@d cmp_return(a, b)
if (a > b)
return 1;
if (a < b)
return -1
@d do_strdup(a) (a==NULL ? NULL : strdup(a))
@c
static fm_entry *new_fm_entry (MP mp) {
fm_entry *fm;
fm = mp_xmalloc (mp,1,sizeof(fm_entry));
fm->tfm_name = NULL;
fm->ps_name = NULL;
fm->flags = 4;
fm->ff_name = NULL;
fm->subset_tag = NULL;
fm->encoding = NULL;
fm->tfm_num = null_font;
fm->tfm_avail = TFM_UNCHECKED;
fm->type = 0;
fm->slant = 0;
fm->extend = 0;
fm->ff_objnum = 0;
fm->fn_objnum = 0;
fm->fd_objnum = 0;
fm->charset = NULL;
fm->all_glyphs = false;
fm->links = 0;
fm->pid = -1;
fm->eid = -1;
return fm;
}
static void *copy_fm_entry (const void *p) {
fm_entry *fm;
const fm_entry *fp;
fp = (const fm_entry *)p;
fm = malloc (sizeof(fm_entry));
if (fm==NULL)
return NULL;
memcpy(fm, fp, sizeof(fm_entry));
fm->tfm_name = do_strdup(fp->tfm_name);
fm->ps_name = do_strdup(fp->ps_name);
fm->ff_name = do_strdup(fp->ff_name);
fm->subset_tag = do_strdup(fp->subset_tag);
fm->charset = do_strdup(fp->charset);
return (void *)fm;
}
static void * delete_fm_entry (void *p) {
fm_entry *fm = (fm_entry *)p;
mp_xfree (fm->tfm_name);
mp_xfree (fm->ps_name);
mp_xfree (fm->ff_name);
mp_xfree (fm->subset_tag);
mp_xfree (fm->charset);
mp_xfree (fm);
return NULL;
}
static ff_entry *new_ff_entry (MP mp) {
ff_entry *ff;
ff = mp_xmalloc (mp,1,sizeof(ff_entry));
ff->ff_name = NULL;
ff->ff_path = NULL;
return ff;
}
static void *copy_ff_entry (const void *p) {
ff_entry *ff;
const ff_entry *fp;
fp = (const ff_entry *)p;
ff = (ff_entry *)malloc (sizeof(ff_entry));
if (ff == NULL)
return NULL;
ff->ff_name = do_strdup(fp->ff_name);
ff->ff_path = do_strdup(fp->ff_path);
return ff;
}
static void * delete_ff_entry (void *p) {
ff_entry *ff = (ff_entry *)p;
mp_xfree (ff->ff_name);
mp_xfree (ff->ff_path);
mp_xfree (ff);
return NULL;
}
static char *mk_base_tfm (MP mp, char *tfmname, int *i) {
static char buf[SMALL_BUF_SIZE];
char *p = tfmname, *r = strend (p) - 1, *q = r;
while (q > p && mp_isdigit (*q))
--q;
if (!(q > p) || q == r || (*q != '+' && *q != '-'))
return NULL;
check_buf (q - p + 1, SMALL_BUF_SIZE);
strncpy (buf, p, (size_t) (q - p));
buf[q - p] = '\0';
*i = atoi (q);
return buf;
}
@ @=
static boolean mp_has_fm_entry (MP mp,font_number f, fm_entry **fm);
@ @c
boolean mp_has_fm_entry (MP mp,font_number f, fm_entry **fm) {
fm_entry *res = NULL;
res = mp_fm_lookup (mp, f);
if (fm != NULL) {
*fm =res;
}
return (res != NULL);
}
@ @=
avl_tree tfm_tree;
avl_tree ps_tree;
avl_tree ff_tree;
@ @=
mp->ps->tfm_tree = NULL;
mp->ps->ps_tree = NULL;
mp->ps->ff_tree = NULL;
@ AVL sort |fm_entry| into |tfm_tree| by |tfm_name |
@c
static int comp_fm_entry_tfm (void *p, const void *pa, const void *pb) {
(void)p;
return strcmp (((const fm_entry *) pa)->tfm_name,
((const fm_entry *) pb)->tfm_name);
}
@ AVL sort |fm_entry| into |ps_tree| by |ps_name|, |slant|, and |extend|
@c static int comp_fm_entry_ps (void *p, const void *pa, const void *pb) {
int i;
const fm_entry *p1 = (const fm_entry *) pa;
const fm_entry *p2 = (const fm_entry *) pb;
(void)p;
assert (p1->ps_name != NULL && p2->ps_name != NULL);
if ((i = strcmp (p1->ps_name, p2->ps_name)))
return i;
cmp_return (p1->slant, p2->slant);
cmp_return (p1->extend, p2->extend);
if (p1->tfm_name != NULL && p2->tfm_name != NULL &&
(i = strcmp (p1->tfm_name, p2->tfm_name)))
return i;
return 0;
}
@ AVL sort |ff_entry| into |ff_tree| by |ff_name|
@c static int comp_ff_entry (void *p, const void *pa, const void *pb) {
(void)p;
return strcmp (((const ff_entry *) pa)->ff_name,
((const ff_entry *) pb)->ff_name);
}
@ @c static void create_avl_trees (MP mp) {
if (mp->ps->tfm_tree == NULL) {
mp->ps->tfm_tree = avl_create (comp_fm_entry_tfm,
copy_fm_entry,
delete_fm_entry,
malloc, free, NULL);
assert (mp->ps->tfm_tree != NULL);
}
if (mp->ps->ps_tree == NULL) {
mp->ps->ps_tree = avl_create (comp_fm_entry_ps,
copy_fm_entry,
delete_fm_entry,
malloc, free, NULL);
assert (mp->ps->ps_tree != NULL);
}
if (mp->ps->ff_tree == NULL) {
mp->ps->ff_tree = avl_create (comp_ff_entry,
copy_ff_entry,
delete_ff_entry,
malloc, free, NULL);
assert (mp->ps->ff_tree != NULL);
}
}
@ The function |avl_do_entry| is not completely symmetrical with regards
to |tfm_name| and |ps_name handling|, e. g. a duplicate |tfm_name| gives a
|goto exit|, and no |ps_name| link is tried. This is to keep it compatible
with the original version.
@d LINK_TFM 0x01
@d LINK_PS 0x02
@d set_tfmlink(fm) ((fm)->links |= LINK_TFM)
@d set_pslink(fm) ((fm)->links |= LINK_PS)
@d has_tfmlink(fm) ((fm)->links & LINK_TFM)
@d has_pslink(fm) ((fm)->links & LINK_PS)
@c
static int avl_do_entry (MP mp, fm_entry * fp, int mode) {
fm_entry *p;
char s[128];
/* handle |tfm_name| link */
if (strcmp (fp->tfm_name, nontfm)) {
p = (fm_entry *) avl_find (fp, mp->ps->tfm_tree);
if (p != NULL) {
if (mode == FM_DUPIGNORE) {
mp_snprintf(s,128,"fontmap entry for `%s' already exists, duplicates ignored",
fp->tfm_name);
mp_warn(mp,s);
goto exit;
} else { /* mode == |FM_REPLACE| / |FM_DELETE| */
if (mp_has_font_size(mp,p->tfm_num)) {
mp_snprintf(s,128,
"fontmap entry for `%s' has been used, replace/delete not allowed",
fp->tfm_name);
mp_warn(mp,s);
goto exit;
}
(void) avl_del (p,mp->ps->tfm_tree,NULL);
p = NULL;
}
}
if (mode != FM_DELETE) {
if (p==NULL) {
assert (avl_ins(fp, mp->ps->tfm_tree, avl_false)>0);
}
set_tfmlink (fp);
}
}
/* handle |ps_name| link */
if (fp->ps_name != NULL) {
assert (fp->tfm_name != NULL);
p = (fm_entry *) avl_find (fp, mp->ps->ps_tree);
if (p != NULL) {
if (mode == FM_DUPIGNORE) {
mp_snprintf(s,128,
"ps_name entry for `%s' already exists, duplicates ignored",
fp->ps_name);
mp_warn(mp,s);
goto exit;
} else { /* mode == |FM_REPLACE| / |FM_DELETE| */
if (mp_has_font_size(mp,p->tfm_num)) {
/* REPLACE/DELETE not allowed */
mp_snprintf(s,128,
"fontmap entry for `%s' has been used, replace/delete not allowed",
p->tfm_name);
mp_warn(mp,s);
goto exit;
}
(void)avl_del (p,mp->ps->ps_tree,NULL);
p= NULL;
}
}
if (mode != FM_DELETE) {
if (p==NULL) {
assert (avl_ins(fp, mp->ps->ps_tree, avl_false)>0);
}
set_pslink (fp);
}
}
exit:
if (!has_tfmlink (fp) && !has_pslink (fp)) /* e. g. after |FM_DELETE| */
return 1; /* deallocation of |fm_entry| structure required */
else
return 0;
}
@ consistency check for map entry, with warn flag
@c
static int check_fm_entry (MP mp, fm_entry * fm, boolean warn) {
int a = 0;
char s[128];
assert (fm != NULL);
if (fm->ps_name != NULL) {
if (is_basefont (fm)) {
if (is_fontfile (fm) && !is_included (fm)) {
if (warn) {
mp_snprintf(s,128, "invalid entry for `%s': "
"font file must be included or omitted for base fonts",
fm->tfm_name);
mp_warn(mp,s);
}
a += 1;
}
} else { /* not a base font */
/* if no font file given, drop this entry */
/* |if (!is_fontfile (fm)) {
if (warn) {
mp_snprintf(s,128,
"invalid entry for `%s': font file missing",
fm->tfm_name);
mp_warn(mp,s);
}
a += 2;
}|
*/
}
}
if (is_truetype (fm) && is_reencoded (fm) && !is_subsetted (fm)) {
if (warn) {
mp_snprintf(s,128,
"invalid entry for `%s': only subsetted TrueType font can be reencoded",
fm->tfm_name);
mp_warn(mp,s);
}
a += 4;
}
if ((fm->slant != 0 || fm->extend != 0) &&
(is_truetype (fm))) {
if (warn) {
mp_snprintf(s,128,
"invalid entry for `%s': "
"SlantFont/ExtendFont can be used only with embedded T1 fonts",
fm->tfm_name);
mp_warn(mp,s);
}
a += 8;
}
if (abs (fm->slant) > 1000) {
if (warn) {
mp_snprintf(s,128,
"invalid entry for `%s': too big value of SlantFont (%d/1000.0)",
fm->tfm_name, (int)fm->slant);
mp_warn(mp,s);
}
a += 16;
}
if (abs (fm->extend) > 2000) {
if (warn) {
mp_snprintf(s,128,
"invalid entry for `%s': too big value of ExtendFont (%d/1000.0)",
fm->tfm_name, (int)fm->extend);
mp_warn(mp,s);
}
a += 32;
}
if (fm->pid != -1 &&
!(is_truetype (fm) && is_included (fm) &&
is_subsetted (fm) && !is_reencoded (fm))) {
if (warn) {
mp_snprintf(s,128,
"invalid entry for `%s': "
"PidEid can be used only with subsetted non-reencoded TrueType fonts",
fm->tfm_name);
mp_warn(mp,s);
}
a += 64;
}
return a;
}
@ returns true if s is one of the 14 std. font names; speed-trimmed.
@c static boolean check_basefont (char *s) {
static const char *basefont_names[] = {
"Courier", /* 0:7 */
"Courier-Bold", /* 1:12 */
"Courier-Oblique", /* 2:15 */
"Courier-BoldOblique", /* 3:19 */
"Helvetica", /* 4:9 */
"Helvetica-Bold", /* 5:14 */
"Helvetica-Oblique", /* 6:17 */
"Helvetica-BoldOblique", /* 7:21 */
"Symbol", /* 8:6 */
"Times-Roman", /* 9:11 */
"Times-Bold", /* 10:10 */
"Times-Italic", /* 11:12 */
"Times-BoldItalic", /* 12:16 */
"ZapfDingbats" /* 13:12 */
};
static const int Index[] =
{ -1, -1, -1, -1, -1, -1, 8, 0, -1, 4, 10, 9, -1, -1, 5, 2, 12, 6,
-1, 3, -1, 7
};
const size_t n = strlen (s);
int k = -1;
if (n > 21)
return false;
if (n == 12) { /* three names have length 12 */
switch (*s) {
case 'C':
k = 1; /* Courier-Bold */
break;
case 'T':
k = 11; /* Times-Italic */
break;
case 'Z':
k = 13; /* ZapfDingbats */
break;
default:
return false;
}
} else
k = Index[n];
if (k > -1 && !strcmp (basefont_names[k], s))
return true;
return false;
}
@
@d is_cfg_comment(c) (c == 10 || c == '*' || c == '#' || c == ';' || c == '%')
@c static void fm_scan_line (MP mp) {
int a, b, c, j, u = 0, v = 0;
float d;
fm_entry *fm;
char fm_line[FM_BUF_SIZE], buf[FM_BUF_SIZE];
char *p, *q, *r, *s;
char warn_s[128];
switch (mp->ps->mitem->type) {
case MAPFILE:
p = fm_line;
do {
c = fm_getchar (mp);
append_char_to_buf (c, p, fm_line, FM_BUF_SIZE);
} while (c != 10);
*(--p) = '\0';
r = fm_line;
break;
case MAPLINE:
r = mp->ps->mitem->map_line;
break;
default:
assert (0);
}
if (*r == '\0' || is_cfg_comment (*r))
return;
fm = new_fm_entry (mp);
read_field (r, q, buf);
set_field (tfm_name);
p = r;
read_field (r, q, buf);
if (*buf != '<' && *buf != '"')
set_field (ps_name);
else
r = p; /* unget the field */
if (mp_isdigit (*r)) { /* font flags given */
fm->flags = atoi (r);
while (mp_isdigit (*r))
r++;
}
while (1) { /* loop through "specials", encoding, font file */
skip (r, ' ');
switch (*r) {
case '\0':
goto DONE;
case '"': /* opening quote */
r++;
u = v = 0;
do {
skip (r, ' ');
if (sscanf (r, "%f %n", &d, &j) > 0) {
s = r + j; /* jump behind number, eat also blanks, if any */
if (*(s - 1) == 'E' || *(s - 1) == 'e')
s--; /* e. g. 0.5ExtendFont: \%f = 0.5E */
if (str_prefix (s, "SlantFont")) {
d *= (float)1000.0; /* correct rounding also for neg. numbers */
fm->slant = (short int) (d > 0 ? d + 0.5 : d - 0.5);
r = s + strlen ("SlantFont");
} else if (str_prefix (s, "ExtendFont")) {
d *= (float)1000.0;
fm->extend = (short int) (d > 0 ? d + 0.5 : d - 0.5);
if (fm->extend == 1000)
fm->extend = 0;
r = s + strlen ("ExtendFont");
} else { /* unknown name */
for (r = s;
*r != ' ' && *r != '"' && *r != '\0';
r++); /* jump over name */
c = *r; /* remember char for temporary end of string */
*r = '\0';
mp_snprintf(warn_s,128,
"invalid entry for `%s': unknown name `%s' ignored",
fm->tfm_name, s);
mp_warn(mp,warn_s);
*r = (char)c;
}
} else
for (; *r != ' ' && *r != '"' && *r != '\0'; r++);
}
while (*r == ' ');
if (*r == '"') /* closing quote */
r++;
else {
mp_snprintf(warn_s,128,
"invalid entry for `%s': closing quote missing",
fm->tfm_name);
mp_warn(mp,warn_s);
goto bad_line;
}
break;
case 'P': /* handle cases for subfonts like 'PidEid=3,1' */
if (sscanf (r, "PidEid=%i, %i %n", &a, &b, &c) >= 2) {
fm->pid = (short int)a;
fm->eid = (short int)b;
r += c;
break;
} /* fallthrough */
default: /* encoding or font file specification */
a = b = 0;
if (*r == '<') {
a = *r++;
if (*r == '<' || *r == '[')
b = *r++;
}
read_field (r, q, buf);
/* encoding, formats: '8r.enc' or '<8r.enc' or '<[8r.enc' */
if (strlen (buf) > 4 && mp_strcasecmp (strend (buf) - 4, ".enc") == 0) {
fm->encoding = mp_add_enc (mp, buf);
u = v = 0; /* u, v used if intervening blank: "<< foo" */
} else if (strlen (buf) > 0) { /* file name given */
/* font file, formats:
* subsetting: ' no subsetting */
}
set_field (ff_name);
u = v = 0;
} else {
u = a;
v = b;
}
}
}
DONE:
if (fm->ps_name != NULL && check_basefont (fm->ps_name))
set_basefont (fm);
if (is_fontfile (fm)
&& mp_strcasecmp (strend (fm_fontfile (fm)) - 4, ".ttf") == 0)
set_truetype (fm);
if (check_fm_entry (mp,fm, true) != 0)
goto bad_line;
/*
Until here the map line has been completely scanned without errors;
fm points to a valid, freshly filled-out |fm_entry| structure.
Now follows the actual work of registering/deleting.
*/
if (avl_do_entry (mp, fm, mp->ps->mitem->mode) == 0) { /* if success */
delete_fm_entry (fm);
return;
}
bad_line:
delete_fm_entry (fm);
}
@
@c static void fm_read_info (MP mp) {
char *n;
char s[256];
if (mp->ps->tfm_tree == NULL)
create_avl_trees (mp);
if (mp->ps->mitem->map_line == NULL) /* nothing to do */
return;
mp->ps->mitem->lineno = 1;
switch (mp->ps->mitem->type) {
case MAPFILE:
n = mp->ps->mitem->map_line;
mp->ps->fm_file = (mp->open_file)(mp, n, "r", mp_filetype_fontmap);
if (!mp->ps->fm_file) {
mp_snprintf(s,256,"cannot open font map file %s",n);
mp_warn(mp,s);
} else {
unsigned save_selector = mp->selector;
mp_normalize_selector(mp);
mp_print (mp, "{");
mp_print (mp, n);
while (!fm_eof ()) {
fm_scan_line (mp);
mp->ps->mitem->lineno++;
}
fm_close ();
mp_print (mp,"}");
mp->selector = save_selector;
mp->ps->fm_file = NULL;
}
/* mp_xfree(n); */
break;
case MAPLINE:
fm_scan_line (mp);
break;
default:
assert (0);
}
mp->ps->mitem->map_line = NULL; /* done with this line */
return;
}
@ @c static void init_fm (fm_entry * fm, font_number f) {
if (fm->tfm_num == null_font ) {
fm->tfm_num = f;
fm->tfm_avail = TFM_FOUND;
}
}
@ @=
fm_entry * mp_fm_lookup (MP mp, font_number f);
@ @c
fm_entry * mp_fm_lookup (MP mp, font_number f) {
char *tfm;
fm_entry *fm;
fm_entry tmp;
int e;
if (mp->ps->tfm_tree == NULL)
fm_read_info (mp); /* only to read default map file */
tfm = mp->font_name[f];
assert (strcmp (tfm, nontfm));
/* Look up for full [+-] */
tmp.tfm_name = tfm;
fm = (fm_entry *) avl_find (&tmp, mp->ps->tfm_tree);
if (fm != NULL) {
init_fm (fm, f);
return (fm_entry *) fm;
}
tfm = mk_base_tfm (mp, mp->font_name[f], &e);
if (tfm == NULL) /* not an expanded font, nothing to do */
return NULL;
tmp.tfm_name = tfm;
fm = (fm_entry *) avl_find (&tmp, mp->ps->tfm_tree);
if (fm != NULL) { /* found an entry with the base tfm name, e.g. cmr10 */
return (fm_entry *) fm; /* font expansion uses the base font */
}
return NULL;
}
@ Early check whether a font file exists. Used e. g. for replacing fonts
of embedded PDF files: Without font file, the font within the embedded
PDF-file is used. Search tree |ff_tree| is used in 1st instance, as it
may be faster than the |kpse_find_file()|, and |kpse_find_file()| is called
only once per font file name + expansion parameter. This might help
keeping speed, if many PDF pages with same fonts are to be embedded.
The |ff_tree| contains only font files, which are actually needed,
so this tree typically is much smaller than the |tfm_tree| or |ps_tree|.
@c
static ff_entry *check_ff_exist (MP mp, fm_entry * fm) {
ff_entry *ff;
ff_entry tmp;
assert (fm->ff_name != NULL);
tmp.ff_name = fm->ff_name;
ff = (ff_entry *) avl_find (&tmp, mp->ps->ff_tree);
if (ff == NULL) { /* not yet in database */
ff = new_ff_entry (mp);
ff->ff_name = mp_xstrdup (mp,fm->ff_name);
ff->ff_path = mp_xstrdup (mp,fm->ff_name);
assert(avl_ins (ff, mp->ps->ff_tree, avl_false)>0);
delete_ff_entry(ff);
ff = (ff_entry *) avl_find (&tmp, mp->ps->ff_tree);
}
return ff;
}
@ Process map file given by its name or map line contents. Items not
beginning with [+-=] flush default map file, if it has not yet been
read. Leading blanks and blanks immediately following [+-=] are ignored.
@c static void mp_process_map_item (MP mp, char *s, int type) {
char *p;
int mode;
if (*s == ' ')
s++; /* ignore leading blank */
switch (*s) {
case '+': /* +mapfile.map, +mapline */
mode = FM_DUPIGNORE; /* insert entry, if it is not duplicate */
s++;
break;
case '=': /* =mapfile.map, =mapline */
mode = FM_REPLACE; /* try to replace earlier entry */
s++;
break;
case '-': /* -mapfile.map, -mapline */
mode = FM_DELETE; /* try to delete entry */
s++;
break;
default:
mode = FM_DUPIGNORE; /* like +, but also: */
mp_xfree(mp->ps->mitem->map_line);
mp->ps->mitem->map_line = NULL; /* flush default map file name */
}
if (*s == ' ')
s++; /* ignore blank after [+-=] */
p = s; /* map item starts here */
switch (type) {
case MAPFILE: /* remove blank at end */
while (*p != '\0' && *p != ' ')
p++;
*p = '\0';
break;
case MAPLINE: /* blank at end allowed */
break;
default:
assert (0);
}
if (mp->ps->mitem->map_line != NULL) /* read default map file first */
fm_read_info (mp);
if (*s != '\0') { /* only if real item to process */
mp->ps->mitem->mode = mode;
mp->ps->mitem->type = type;
mp->ps->mitem->map_line = s;
fm_read_info (mp);
}
}
@ @=
void mp_map_file (MP mp, str_number t);
void mp_map_line (MP mp, str_number t);
void mp_init_map_file (MP mp, int is_troff);
@ @c
void mp_map_file (MP mp, str_number t) {
char *ss = mp_str (mp,t);
char *s = mp_xstrdup(mp, ss);
mp_process_map_item (mp, s, MAPFILE);
mp_xfree(ss);
}
void mp_map_line (MP mp, str_number t) {
char *ss = mp_str (mp,t);
char *s = mp_xstrdup(mp,ss);
mp_process_map_item (mp, s, MAPLINE);
mp_xfree(ss);
mp_xfree(s);
}
@
@c void mp_init_map_file (MP mp, int is_troff) {
char *r;
mp->ps->mitem = mp_xmalloc (mp,1,sizeof(mapitem));
mp->ps->mitem->mode = FM_DUPIGNORE;
mp->ps->mitem->type = MAPFILE;
mp->ps->mitem->map_line = NULL;
r = (mp->find_file)(mp,"mpost.map", "r", mp_filetype_fontmap);
if (r != NULL) {
mp_xfree(r);
mp->ps->mitem->map_line = mp_xstrdup (mp,"mpost.map");
} else {
if (is_troff) {
mp->ps->mitem->map_line = mp_xstrdup (mp,"troff.map");
} else {
mp->ps->mitem->map_line = mp_xstrdup (mp,"pdftex.map");
}
}
}
@ @=
if (mp->ps->mitem!=NULL) {
mp_xfree(mp->ps->mitem->map_line);
mp_xfree(mp->ps->mitem);
}
@ @=
static void fm_free (MP mp);
@ @c
static void fm_free (MP mp) {
if (mp->ps->tfm_tree != NULL)
avl_destroy (mp->ps->tfm_tree);
if (mp->ps->ps_tree != NULL)
avl_destroy (mp->ps->ps_tree);
if (mp->ps->ff_tree != NULL)
avl_destroy (mp->ps->ff_tree);
}
@ The file |ps_tab_file| gives a table of \TeX\ font names and corresponding
PostScript names for fonts that do not have to be downloaded, i.e., fonts that
can be used when |internal[prologues]>0|. Each line consists of a \TeX\ name,
one or more spaces, a PostScript name, and possibly a space and some other junk.
This routine reads the table, updates |font_ps_name| entries starting after
|last_ps_fnum|, and sets |last_ps_fnum:=last_fnum|.
@d ps_tab_name "psfonts.map" /* locates font name translation table */
@=
void mp_read_psname_table (MP mp) ;
@ @c
void mp_read_psname_table (MP mp) {
font_number k;
char *s;
if (mp->ps->mitem == NULL) {
mp->ps->mitem = mp_xmalloc (mp,1,sizeof(mapitem));
mp->ps->mitem->mode = FM_DUPIGNORE;
mp->ps->mitem->type = MAPFILE;
mp->ps->mitem->map_line = NULL;
}
s = mp_xstrdup (mp,ps_tab_name);
mp->ps->mitem->map_line = s;
fm_read_info (mp);
for (k=mp->last_ps_fnum+1;k<=mp->last_fnum;k++) {
if (mp_has_fm_entry(mp, k, NULL)) {
mp_xfree(mp->font_ps_name[k]);
mp->font_ps_name[k] = mp_fm_font_name(mp,k);
}
}
mp->last_ps_fnum=mp->last_fnum;
}
@ The traditional function is a lot shorter now.
@* \[44c] Helper functions for Type1 fonts.
@=
typedef char char_entry;
typedef unsigned char Byte;
typedef Byte Bytef;
@ @=
char_entry *char_ptr, *char_array;
size_t char_limit;
char *job_id_string;
@ @=
mp->ps->char_array = NULL;
mp->ps->job_id_string = NULL;
@
@d SMALL_ARRAY_SIZE 256
@d Z_NULL 0
@c
void mp_set_job_id (MP mp) {
char *name_string, *format_string, *s;
size_t slen;
if (mp->ps->job_id_string != NULL)
return;
if ( mp->job_name==NULL )
mp->job_name = mp_xstrdup(mp,"mpout");
name_string = mp_xstrdup (mp,mp->job_name);
format_string = mp_xstrdup (mp,mp->mem_ident);
slen = SMALL_BUF_SIZE +
strlen (name_string) +
strlen (format_string);
s = mp_xmalloc (mp,slen, sizeof (char));
@= /*@@-bufferoverflowhigh@@*/ @>
sprintf (s,"%.4u/%.2u/%.2u %.2u:%.2u %s %s",
((unsigned)mp->internal[mp_year]>>16),
((unsigned)mp->internal[mp_month]>>16),
((unsigned)mp->internal[mp_day]>>16),
((unsigned)mp->internal[mp_time]>>16) / 60,
((unsigned)mp->internal[mp_time]>>16) % 60,
name_string, format_string);
@= /*@@=bufferoverflowhigh@@*/ @>
mp->ps->job_id_string = mp_xstrdup (mp,s);
mp_xfree (s);
mp_xfree (name_string);
mp_xfree (format_string);
}
static void fnstr_append (MP mp, const char *ss) {
size_t n = strlen (ss) + 1;
alloc_array (char, n, SMALL_ARRAY_SIZE);
strcat (mp->ps->char_ptr, ss);
mp->ps->char_ptr = strend (mp->ps->char_ptr);
}
@ @=
void mp_set_job_id (MP mp) ;
@ @=
mp_xfree(mp->ps->job_id_string);
@ this is not really a true crc32, but it should be just enough to keep
subsets prefixes somewhat disjunct
@c
static unsigned long crc32 (unsigned long oldcrc, const Byte *buf, size_t len) {
unsigned long ret = 0;
size_t i;
if (oldcrc==0)
ret = (unsigned long)((23<<24)+(45<<16)+(67<<8)+89);
else
for (i=0;ichar_base[f];
if ( (c>=mp->font_bc[f])&&(c<=mp->font_ec[f])&&(mp->font_info[b+c].qqqq.b3!=0) )
return true;
else
return false;
}
static void make_subset_tag (MP mp, fm_entry * fm_cur, char **glyph_names, font_number tex_font)
{
char tag[7];
unsigned long crc;
int i;
size_t l ;
if (mp->ps->job_id_string ==NULL)
mp_fatal_error(mp, "no job id!");
l = strlen (mp->ps->job_id_string) + 1;
alloc_array (char, l, SMALL_ARRAY_SIZE);
strcpy (mp->ps->char_array, mp->ps->job_id_string);
mp->ps->char_ptr = strend (mp->ps->char_array);
if (fm_cur->tfm_name != NULL) {
fnstr_append (mp," TFM name: ");
fnstr_append (mp,fm_cur->tfm_name);
}
fnstr_append (mp," PS name: ");
if (fm_cur->ps_name != NULL)
fnstr_append (mp,fm_cur->ps_name);
fnstr_append (mp," Encoding: ");
if (fm_cur->encoding != NULL && (fm_cur->encoding)->file_name != NULL)
fnstr_append (mp,(fm_cur->encoding)->file_name);
else
fnstr_append (mp,"built-in");
fnstr_append (mp," CharSet: ");
for (i = 0; i < 256; i++)
if (mp_char_marked (mp,tex_font, (eight_bits)i) &&
glyph_names[i] != notdef &&
strcmp(glyph_names[i],notdef) != 0) {
if (glyph_names[i]!=NULL) {
fnstr_append (mp,"/");
fnstr_append (mp,glyph_names[i]);
}
}
if (fm_cur->charset != NULL) {
fnstr_append (mp," Extra CharSet: ");
fnstr_append (mp, fm_cur->charset);
}
crc = crc32 (0L, Z_NULL, 0);
crc = crc32 (crc, (Bytef *) mp->ps->char_array, strlen (mp->ps->char_array));
/* we need to fit a 32-bit number into a string of 6 uppercase chars long;
* there are 26 uppercase chars ==> each char represents a number in range
* |0..25|. The maximal number that can be represented by the tag is
* $26^6 - 1$, which is a number between $2^28$ and $2^29$. Thus the bits |29..31|
* of the CRC must be dropped out.
*/
for (i = 0; i < 6; i++) {
tag[i] = (char)('A' + crc % 26);
crc /= 26;
}
tag[6] = 0;
mp_xfree(fm_cur->subset_tag);
fm_cur->subset_tag = mp_xstrdup (mp,tag);
}
@
@d external_enc() (fm_cur->encoding)->glyph_names
@d is_used_char(c) mp_char_marked (mp, tex_font, (eight_bits)c)
@d end_last_eexec_line()
mp->ps->hexline_length = HEXLINE_WIDTH;
end_hexline(mp);
mp->ps->t1_eexec_encrypt = false
@d t1_log(s) mp_print(mp,(const char *)s)
@d t1_putchar(c) wps_chr(c)
@d embed_all_glyphs(tex_font) false
@d t1_char(c) c
@d extra_charset() mp->ps->dvips_extra_charset
@d update_subset_tag()
@d fixedcontent true
@=
#define PRINTF_BUF_SIZE 1024
char *dvips_extra_charset;
char *cur_enc_name;
unsigned char *grid;
char *ext_glyph_names[256];
char print_buf[PRINTF_BUF_SIZE];
int t1_byte_waiting;
@ @=
mp->ps->dvips_extra_charset=NULL;
mp->ps->t1_byte_waiting=0;
@
@d t1_ungetchar(A) mp->ps->t1_byte_waiting=(int)(A)
@d t1_eof() (mp->eof_file)(mp,mp->ps->t1_file)
@d t1_close() (mp->close_file)(mp,mp->ps->t1_file)
@d valid_code(c) (c >= 0 && c < 256)
@c
static int t1_getchar (MP mp) {
size_t len = 1;
unsigned char abyte=0;
void *byte_ptr = &abyte;
if (mp->ps->t1_byte_waiting) {
abyte = (unsigned char)mp->ps->t1_byte_waiting;
mp->ps->t1_byte_waiting = 0;
} else {
(mp->read_binary_file)(mp,mp->ps->t1_file,&byte_ptr,&len);
}
return (int)abyte;
}
@ @=
static const char *standard_glyph_names[256] =
{ notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef,
notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef,
notdef, notdef, notdef, notdef, notdef, notdef,
notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef,
"space", "exclam", "quotedbl", "numbersign",
"dollar", "percent", "ampersand", "quoteright", "parenleft",
"parenright", "asterisk", "plus", "comma", "hyphen", "period",
"slash", "zero", "one", "two", "three", "four", "five", "six", "seven",
"eight", "nine", "colon", "semicolon", "less",
"equal", "greater", "question", "at", "A", "B", "C", "D", "E", "F",
"G", "H", "I", "J", "K", "L", "M", "N", "O", "P", "Q",
"R", "S", "T", "U", "V", "W", "X", "Y", "Z", "bracketleft",
"backslash", "bracketright", "asciicircum", "underscore",
"quoteleft", "a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k",
"l", "m", "n", "o", "p", "q", "r", "s", "t", "u", "v",
"w", "x", "y", "z", "braceleft", "bar", "braceright", "asciitilde",
notdef, notdef, notdef, notdef, notdef, notdef, notdef,
notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef,
notdef, notdef, notdef, notdef, notdef, notdef,
notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef,
notdef, notdef, notdef, "exclamdown", "cent",
"sterling", "fraction", "yen", "florin", "section", "currency",
"quotesingle", "quotedblleft", "guillemotleft",
"guilsinglleft", "guilsinglright", "fi", "fl", notdef, "endash",
"dagger", "daggerdbl", "periodcentered", notdef,
"paragraph", "bullet", "quotesinglbase", "quotedblbase",
"quotedblright", "guillemotright", "ellipsis", "perthousand",
notdef, "questiondown", notdef, "grave", "acute", "circumflex",
"tilde", "macron", "breve", "dotaccent", "dieresis", notdef,
"ring", "cedilla", notdef, "hungarumlaut", "ogonek", "caron", "emdash",
notdef, notdef, notdef, notdef, notdef, notdef,
notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef, notdef,
notdef, "AE", notdef, "ordfeminine", notdef, notdef,
notdef, notdef, "Lslash", "Oslash", "OE", "ordmasculine", notdef,
notdef, notdef, notdef, notdef, "ae", notdef, notdef,
notdef, "dotlessi", notdef, notdef, "lslash", "oslash", "oe",
"germandbls", notdef, notdef, notdef, notdef };
static const char charstringname[] = "/CharStrings";
@ @=
char **t1_glyph_names;
char *t1_builtin_glyph_names[256];
boolean read_encoding_only;
int t1_encoding;
@ @c
#define T1_BUF_SIZE 0x10
#define CS_HSTEM 1
#define CS_VSTEM 3
#define CS_VMOVETO 4
#define CS_RLINETO 5
#define CS_HLINETO 6
#define CS_VLINETO 7
#define CS_RRCURVETO 8
#define CS_CLOSEPATH 9
#define CS_CALLSUBR 10
#define CS_RETURN 11
#define CS_ESCAPE 12
#define CS_HSBW 13
#define CS_ENDCHAR 14
#define CS_RMOVETO 21
#define CS_HMOVETO 22
#define CS_VHCURVETO 30
#define CS_HVCURVETO 31
#define CS_1BYTE_MAX (CS_HVCURVETO + 1)
#define CS_DOTSECTION CS_1BYTE_MAX + 0
#define CS_VSTEM3 CS_1BYTE_MAX + 1
#define CS_HSTEM3 CS_1BYTE_MAX + 2
#define CS_SEAC CS_1BYTE_MAX + 6
#define CS_SBW CS_1BYTE_MAX + 7
#define CS_DIV CS_1BYTE_MAX + 12
#define CS_CALLOTHERSUBR CS_1BYTE_MAX + 16
#define CS_POP CS_1BYTE_MAX + 17
#define CS_SETCURRENTPOINT CS_1BYTE_MAX + 33
#define CS_2BYTE_MAX (CS_SETCURRENTPOINT + 1)
#define CS_MAX CS_2BYTE_MAX
@ @=
typedef unsigned char byte;
typedef struct {
byte nargs; /* number of arguments */
boolean bottom; /* take arguments from bottom of stack? */
boolean clear; /* clear stack? */
boolean valid;
} cc_entry; /* CharString Command */
typedef struct {
char *glyph_name; /* glyph name (or notdef for Subrs entry) */
byte *data;
unsigned short len; /* length of the whole string */
unsigned short cslen; /* length of the encoded part of the string */
boolean is_used;
boolean valid;
} cs_entry;
@
@d t1_c1 52845
@d t1_c2 22719
@=
unsigned short t1_dr, t1_er;
unsigned short t1_cslen;
short t1_lenIV;
@ @=
typedef char t1_line_entry;
typedef char t1_buf_entry;
@ @=
t1_line_entry *t1_line_ptr, *t1_line_array;
size_t t1_line_limit;
t1_buf_entry *t1_buf_ptr, *t1_buf_array;
size_t t1_buf_limit;
int cs_start;
cs_entry *cs_tab, *cs_ptr, *cs_notdef;
char *cs_dict_start, *cs_dict_end;
int cs_count, cs_size, cs_size_pos;
cs_entry *subr_tab;
char *subr_array_start, *subr_array_end;
int subr_max, subr_size, subr_size_pos;
@ @=
mp->ps->t1_line_array = NULL;
mp->ps->t1_buf_array = NULL;
@
This list contains the begin/end tokens commonly used in the
/Subrs array of a Type 1 font.
@=
static const char *cs_token_pairs_list[][2] = {
{" RD", "NP"},
{" -|", "|"},
{" RD", "noaccess put"},
{" -|", "noaccess put"},
{NULL, NULL}
};
@ @=
const char **cs_token_pair;
boolean t1_pfa, t1_cs, t1_scan, t1_eexec_encrypt, t1_synthetic;
int t1_in_eexec; /* 0 before eexec-encrypted, 1 during, 2 after */
int t1_block_length;
int last_hexbyte;
void *t1_file;
int hexline_length;
@
@d HEXLINE_WIDTH 64
@=
mp->ps->hexline_length = 0;
@
@d t1_prefix(s) str_prefix(mp->ps->t1_line_array, s)
@d t1_buf_prefix(s) str_prefix(mp->ps->t1_buf_array, s)
@d t1_suffix(s) str_suffix(mp->ps->t1_line_array, mp->ps->t1_line_ptr, s)
@d t1_buf_suffix(s) str_suffix(mp->ps->t1_buf_array, mp->ps->t1_buf_ptr, s)
@d t1_charstrings() strstr(mp->ps->t1_line_array, charstringname)
@d t1_subrs() t1_prefix("/Subrs")
@d t1_end_eexec() t1_suffix("mark currentfile closefile")
@d t1_cleartomark() t1_prefix("cleartomark")
@c
static void end_hexline (MP mp) {
if (mp->ps->hexline_length >= HEXLINE_WIDTH) {
wps_cr;
mp->ps->hexline_length = 0;
}
}
static void t1_check_pfa (MP mp) {
const int c = t1_getchar (mp);
mp->ps->t1_pfa = (c != 128) ? true : false;
t1_ungetchar (c);
}
static int t1_getbyte (MP mp)
{
int c = t1_getchar (mp);
if (mp->ps->t1_pfa)
return c;
if (mp->ps->t1_block_length == 0) {
if (c != 128)
mp_fatal_error (mp, "invalid marker");
c = t1_getchar (mp);
if (c == 3) {
while (!t1_eof ())
(void)t1_getchar (mp);
return EOF;
}
mp->ps->t1_block_length = t1_getchar (mp) & 0xff;
mp->ps->t1_block_length |= (int)(((unsigned)t1_getchar (mp) & 0xff) << 8);
mp->ps->t1_block_length |= (int)(((unsigned)t1_getchar (mp) & 0xff) << 16);
mp->ps->t1_block_length |= (int)(((unsigned)t1_getchar (mp) & 0xff) << 24);
c = t1_getchar (mp);
}
mp->ps->t1_block_length--;
return c;
}
static int hexval (int c) {
if (c >= 'A' && c <= 'F')
return c - 'A' + 10;
else if (c >= 'a' && c <= 'f')
return c - 'a' + 10;
else if (c >= '0' && c <= '9')
return c - '0';
else
return -1;
}
static byte edecrypt (MP mp, byte cipher) {
byte plain;
if (mp->ps->t1_pfa) {
while (cipher == 10 || cipher == 13)
cipher = (byte)t1_getbyte (mp);
mp->ps->last_hexbyte = cipher = (byte)(((byte)hexval (cipher) << 4) +
hexval (t1_getbyte (mp)));
}
plain = (byte)(cipher ^ (mp->ps->t1_dr >> 8));
mp->ps->t1_dr = (unsigned short)((cipher + mp->ps->t1_dr) * t1_c1 + t1_c2);
return plain;
}
static byte cdecrypt (byte cipher, unsigned short *cr)
{
const byte plain = (byte)(cipher ^ (*cr >> 8));
*cr = (unsigned short)((cipher + *cr) * t1_c1 + t1_c2);
return plain;
}
static byte eencrypt (MP mp, byte plain)
{
const byte cipher = (byte)(plain ^ (mp->ps->t1_er >> 8));
mp->ps->t1_er = (unsigned short)((cipher + mp->ps->t1_er) * t1_c1 + t1_c2);
return cipher;
}
static byte cencrypt (byte plain, unsigned short *cr)
{
const byte cipher = (byte)(plain ^ (*cr >> 8));
*cr = (unsigned short)((cipher + *cr) * t1_c1 + t1_c2);
return cipher;
}
static char *eol (char *s) {
char *p = strend (s);
if (p!=NULL && p - s > 1 && p[-1] != 10) {
*p++ = 10;
*p = 0;
}
return p;
}
static float t1_scan_num (MP mp, char *p, char **r)
{
float f;
char s[128];
skip (p, ' ');
if (sscanf (p, "%g", &f) != 1) {
remove_eol (p, mp->ps->t1_line_array);
mp_snprintf(s,128, "a number expected: `%s'", mp->ps->t1_line_array);
mp_fatal_error(mp,s);
}
if (r != NULL) {
for (; mp_isdigit (*p) || *p == '.' ||
*p == 'e' || *p == 'E' || *p == '+' || *p == '-'; p++);
*r = p;
}
return f;
}
static boolean str_suffix (const char *begin_buf, const char *end_buf,
const char *s)
{
const char *s1 = end_buf - 1, *s2 = strend (s) - 1;
if (*s1 == 10)
s1--;
while (s1 >= begin_buf && s2 >= s) {
if (*s1-- != *s2--)
return false;
}
return s2 < s;
}
@
@d alloc_array(T, n, s) do {
size_t nn = (size_t)n;
if (mp->ps->T##_array == NULL) {
mp->ps->T##_limit = s;
if (nn > mp->ps->T##_limit)
mp->ps->T##_limit = nn;
mp->ps->T##_array = mp_xmalloc (mp,mp->ps->T##_limit,sizeof(T##_entry));
mp->ps->T##_ptr = mp->ps->T##_array;
}
else if ((size_t)(mp->ps->T##_ptr - mp->ps->T##_array) + nn > mp->ps->T##_limit) {
size_t last_ptr_index;
last_ptr_index = (size_t)(mp->ps->T##_ptr - mp->ps->T##_array);
mp->ps->T##_limit *= 2;
mp->ps->T##_limit += s;
if ((size_t)(mp->ps->T##_ptr - mp->ps->T##_array) + nn > mp->ps->T##_limit)
mp->ps->T##_limit = (size_t)(mp->ps->T##_ptr - mp->ps->T##_array) + nn;
mp->ps->T##_array = mp_xrealloc(mp,mp->ps->T##_array,mp->ps->T##_limit, sizeof(T##_entry));
mp->ps->T##_ptr = mp->ps->T##_array + last_ptr_index;
}
} while (0)
@d out_eexec_char(A) t1_outhex(mp,(A))
@c
static void t1_outhex (MP mp, byte b)
{
static const char *hexdigits = "0123456789ABCDEF";
t1_putchar (hexdigits[b / 16]);
t1_putchar (hexdigits[b % 16]);
mp->ps->hexline_length += 2;
end_hexline (mp);
}
static void t1_getline (MP mp) {
int c, l, eexec_scan;
char *p;
static const char eexec_str[] = "currentfile eexec";
static int eexec_len = 17; /* |strlen(eexec_str)| */
RESTART:
if (t1_eof ())
mp_fatal_error (mp,"unexpected end of file");
mp->ps->t1_line_ptr = mp->ps->t1_line_array;
alloc_array (t1_line, 1, T1_BUF_SIZE);
mp->ps->t1_cslen = 0;
eexec_scan = 0;
c = t1_getbyte (mp);
if (c == EOF)
goto EXIT;
while (!t1_eof ()) {
if (mp->ps->t1_in_eexec == 1)
c = edecrypt (mp,(byte)c);
alloc_array (t1_line, 1, T1_BUF_SIZE);
append_char_to_buf (c, mp->ps->t1_line_ptr, mp->ps->t1_line_array, mp->ps->t1_line_limit);
if (mp->ps->t1_in_eexec == 0 && eexec_scan >= 0 && eexec_scan < eexec_len) {
if (mp->ps->t1_line_array[eexec_scan] == eexec_str[eexec_scan])
eexec_scan++;
else
eexec_scan = -1;
}
if (c == 10 || (mp->ps->t1_pfa && eexec_scan == eexec_len && c == 32))
break;
if (mp->ps->t1_cs && mp->ps->t1_cslen == 0 &&
(mp->ps->t1_line_ptr - mp->ps->t1_line_array > 4) &&
(t1_suffix (" RD ") || t1_suffix (" -| "))) {
p = mp->ps->t1_line_ptr - 5;
while (*p != ' ')
p--;
l = (int)t1_scan_num (mp, p + 1, 0);
mp->ps->t1_cslen = (unsigned short)l;
mp->ps->cs_start = (int)(mp->ps->t1_line_ptr - mp->ps->t1_line_array);
/* |mp->ps->cs_start| is an index now */
alloc_array (t1_line, l, T1_BUF_SIZE);
while (l-- > 0) {
*mp->ps->t1_line_ptr = (t1_line_entry)edecrypt (mp,(byte)t1_getbyte (mp));
mp->ps->t1_line_ptr++;
}
}
c = t1_getbyte (mp);
}
alloc_array (t1_line, 2, T1_BUF_SIZE); /* |append_eol| can append 2 chars */
append_eol (mp->ps->t1_line_ptr, mp->ps->t1_line_array, mp->ps->t1_line_limit);
if (mp->ps->t1_line_ptr - mp->ps->t1_line_array < 2)
goto RESTART;
if (eexec_scan == eexec_len)
mp->ps->t1_in_eexec = 1;
EXIT:
/* ensure that |mp->ps->t1_buf_array| has as much room as |t1_line_array| */
mp->ps->t1_buf_ptr = mp->ps->t1_buf_array;
alloc_array (t1_buf, mp->ps->t1_line_limit, mp->ps->t1_line_limit);
}
static void t1_putline (MP mp)
{
char *p = mp->ps->t1_line_array;
if (mp->ps->t1_line_ptr - mp->ps->t1_line_array <= 1)
return;
if (mp->ps->t1_eexec_encrypt) {
while (p < mp->ps->t1_line_ptr)
out_eexec_char (eencrypt (mp,(byte)*p++));
} else {
while (p < mp->ps->t1_line_ptr)
t1_putchar (*p++);
}
}
static void t1_puts (MP mp, const char *s)
{
if (s != mp->ps->t1_line_array)
strcpy (mp->ps->t1_line_array, s);
mp->ps->t1_line_ptr = strend (mp->ps->t1_line_array);
t1_putline (mp);
}
static void t1_init_params (MP mp, const char *open_name_prefix,
char *cur_file_name) {
if ((open_name_prefix != NULL) && strlen(open_name_prefix)) {
t1_log (open_name_prefix);
t1_log (cur_file_name);
}
mp->ps->t1_lenIV = 4;
mp->ps->t1_dr = 55665;
mp->ps->t1_er = 55665;
mp->ps->t1_in_eexec = 0;
mp->ps->t1_cs = false;
mp->ps->t1_scan = true;
mp->ps->t1_synthetic = false;
mp->ps->t1_eexec_encrypt = false;
mp->ps->t1_block_length = 0;
t1_check_pfa (mp);
}
static void t1_close_font_file (MP mp, const char *close_name_suffix) {
if ((close_name_suffix != NULL) && strlen(close_name_suffix)) {
t1_log (close_name_suffix);
}
t1_close ();
}
static void t1_check_block_len (MP mp, boolean decrypt) {
int l, c;
char s[128];
if (mp->ps->t1_block_length == 0)
return;
c = t1_getbyte (mp);
if (decrypt)
c = edecrypt (mp,(byte)c);
l = mp->ps->t1_block_length;
if (!(l == 0 && (c == 10 || c == 13))) {
mp_snprintf(s,128,"%i bytes more than expected were ignored", l+ 1);
mp_warn(mp,s);
while (l-- > 0)
(void)t1_getbyte (mp);
}
}
static void t1_start_eexec (MP mp, fm_entry *fm_cur) {
int i;
if (!mp->ps->t1_pfa)
t1_check_block_len (mp, false);
for (mp->ps->t1_line_ptr = mp->ps->t1_line_array, i = 0; i < 4; i++) {
(void)edecrypt (mp, (byte)t1_getbyte (mp));
*mp->ps->t1_line_ptr++ = 0;
}
mp->ps->t1_eexec_encrypt = true;
if (!mp->ps->read_encoding_only)
if (is_included (fm_cur))
t1_putline (mp); /* to put the first four bytes */
}
static void t1_stop_eexec (MP mp) {
int c;
end_last_eexec_line ();
if (!mp->ps->t1_pfa)
t1_check_block_len (mp,true);
else {
c = edecrypt (mp, (byte)t1_getbyte (mp));
if (!(c == 10 || c == 13)) {
if (mp->ps->last_hexbyte == 0)
t1_puts (mp,"00");
else
mp_warn (mp,"unexpected data after eexec");
}
}
mp->ps->t1_cs = false;
mp->ps->t1_in_eexec = 2;
}
static void t1_modify_fm (MP mp) {
mp->ps->t1_line_ptr = eol (mp->ps->t1_line_array);
}
static void t1_modify_italic (MP mp) {
mp->ps->t1_line_ptr = eol (mp->ps->t1_line_array);
}
@ @=
typedef struct {
const char *pdfname;
const char *t1name;
float value;
boolean valid;
} key_entry;
@
@d FONT_KEYS_NUM 11
@=
static key_entry font_keys[FONT_KEYS_NUM] = {
{"Ascent", "Ascender", 0, false},
{"CapHeight", "CapHeight", 0, false},
{"Descent", "Descender", 0, false},
{"FontName", "FontName", 0, false},
{"ItalicAngle", "ItalicAngle", 0, false},
{"StemV", "StdVW", 0, false},
{"XHeight", "XHeight", 0, false},
{"FontBBox", "FontBBox", 0, false},
{"", "", 0, false},
{"", "", 0, false},
{"", "", 0, false}
};
@
@d ASCENT_CODE 0
@d CAPHEIGHT_CODE 1
@d DESCENT_CODE 2
@d FONTNAME_CODE 3
@d ITALIC_ANGLE_CODE 4
@d STEMV_CODE 5
@d XHEIGHT_CODE 6
@d FONTBBOX1_CODE 7
@d FONTBBOX2_CODE 8
@d FONTBBOX3_CODE 9
@d FONTBBOX4_CODE 10
@d MAX_KEY_CODE (FONTBBOX1_CODE + 1)
@c
static void t1_scan_keys (MP mp, font_number tex_font,fm_entry *fm_cur) {
int i, k;
char *p, *r;
key_entry *key;
if (fm_extend (fm_cur) != 0 || fm_slant (fm_cur) != 0) {
if (t1_prefix ("/FontMatrix")) {
t1_modify_fm (mp);
return;
}
if (t1_prefix ("/ItalicAngle")) {
t1_modify_italic (mp);
return;
}
}
if (t1_prefix ("/FontType")) {
p = mp->ps->t1_line_array + strlen ("FontType") + 1;
if ((i = (int)t1_scan_num (mp,p, 0)) != 1) {
char s[128];
mp_snprintf(s,125,"Type%d fonts unsupported by metapost", i);
mp_fatal_error(mp,s);
}
return;
}
for (key = font_keys; key - font_keys < MAX_KEY_CODE; key++)
if (str_prefix (mp->ps->t1_line_array + 1, key->t1name))
break;
if (key - font_keys == MAX_KEY_CODE)
return;
key->valid = true;
p = mp->ps->t1_line_array + strlen (key->t1name) + 1;
skip (p, ' ');
if ((k = (int)(key - font_keys)) == FONTNAME_CODE) {
if (*p != '/') {
char s[128];
remove_eol (p, mp->ps->t1_line_array);
mp_snprintf(s,128,"a name expected: `%s'", mp->ps->t1_line_array);
mp_fatal_error(mp,s);
}
r = ++p; /* skip the slash */
if (is_included (fm_cur)) {
/* save the fontname */
strncpy (mp->ps->fontname_buf, p, FONTNAME_BUF_SIZE);
for (i=0; mp->ps->fontname_buf[i] != 10; i++);
mp->ps->fontname_buf[i]=0;
if(is_subsetted (fm_cur)) {
if (fm_cur->encoding!=NULL && fm_cur->encoding->glyph_names!=NULL)
make_subset_tag (mp,fm_cur, fm_cur->encoding->glyph_names, tex_font);
else
make_subset_tag (mp,fm_cur, mp->ps->t1_builtin_glyph_names, tex_font);
alloc_array (t1_line, (size_t)(r-mp->ps->t1_line_array)+6+1+strlen(mp->ps->fontname_buf)+1,
T1_BUF_SIZE);
strncpy (r, fm_cur->subset_tag , 6);
*(r+6) = '-';
strncpy (r+7, mp->ps->fontname_buf, strlen(mp->ps->fontname_buf)+1);
mp->ps->t1_line_ptr = eol (r);
} else {
/* |for (q = p; *q != ' ' && *q != 10; *q++);|*/
/*|*q = 0;|*/
mp->ps->t1_line_ptr = eol (r);
}
}
return;
}
if ((k == STEMV_CODE || k == FONTBBOX1_CODE)
&& (*p == '[' || *p == '{'))
p++;
if (k == FONTBBOX1_CODE) {
for (i = 0; i < 4; i++) {
key[i].value = t1_scan_num (mp, p, &r);
p = r;
}
return;
}
key->value = t1_scan_num (mp, p, 0);
}
static void t1_scan_param (MP mp, font_number tex_font,fm_entry *fm_cur)
{
static const char *lenIV = "/lenIV";
if (!mp->ps->t1_scan || *mp->ps->t1_line_array != '/')
return;
if (t1_prefix (lenIV)) {
mp->ps->t1_lenIV = (short int)t1_scan_num (mp,mp->ps->t1_line_array + strlen (lenIV), 0);
return;
}
t1_scan_keys (mp, tex_font,fm_cur);
}
static void copy_glyph_names (MP mp, char **glyph_names, int a, int b) {
if (glyph_names[b] != notdef)
mp_xfree (glyph_names[b]);
glyph_names[b] = mp_xstrdup (mp,glyph_names[a]);
}
static void t1_builtin_enc (MP mp) {
int i, a, b, c, counter = 0;
char *r, *p;
/*
* At this moment "/Encoding" is the prefix of |mp->ps->t1_line_array|
*/
if (t1_suffix ("def")) { /* predefined encoding */
(void)sscanf (mp->ps->t1_line_array + strlen ("/Encoding"), "%256s", mp->ps->t1_buf_array);
if (strcmp (mp->ps->t1_buf_array, "StandardEncoding") == 0) {
for (i = 0; i < 256; i++) {
if (mp->ps->t1_builtin_glyph_names[i] != notdef)
mp_xfree(mp->ps->t1_builtin_glyph_names[i]);
mp->ps->t1_builtin_glyph_names[i] =
mp_xstrdup (mp,standard_glyph_names[i]);
}
mp->ps->t1_encoding = ENC_STANDARD;
} else {
char s[128];
mp_snprintf(s,128, "cannot subset font (unknown predefined encoding `%s')",
mp->ps->t1_buf_array);
mp_fatal_error(mp,s);
}
return;
} else
mp->ps->t1_encoding = ENC_BUILTIN;
/*
* At this moment "/Encoding" is the prefix of |mp->ps->t1_line_array|, and the encoding is
* not a predefined encoding
*
* We have two possible forms of Encoding vector. The first case is
*
* /Encoding [/a /b /c...] readonly def
*
* and the second case can look like
*
* /Encoding 256 array 0 1 255 {1 index exch /.notdef put} for
* dup 0 /x put
* dup 1 /y put
* ...
* readonly def
*/
for (i = 0; i < 256; i++) {
if (mp->ps->t1_builtin_glyph_names[i] != notdef) {
mp_xfree(mp->ps->t1_builtin_glyph_names[i]);
mp->ps->t1_builtin_glyph_names[i] = mp_xstrdup(mp, notdef);
}
}
if (t1_prefix ("/Encoding [") || t1_prefix ("/Encoding[")) { /* the first case */
r = strchr (mp->ps->t1_line_array, '[') + 1;
skip (r, ' ');
for (;;) {
while (*r == '/') {
for (p = mp->ps->t1_buf_array, r++;
*r != 32 && *r != 10 && *r != ']' && *r != '/';
*p++ = *r++);
*p = 0;
skip (r, ' ');
if (counter > 255) {
mp_fatal_error
(mp, "encoding vector contains more than 256 names");
}
if (strcmp (mp->ps->t1_buf_array, notdef) != 0) {
if (mp->ps->t1_builtin_glyph_names[counter] != notdef)
mp_xfree(mp->ps->t1_builtin_glyph_names[counter]);
mp->ps->t1_builtin_glyph_names[counter] = mp_xstrdup (mp,mp->ps->t1_buf_array);
}
counter++;
}
if (*r != 10 && *r != '%') {
if (str_prefix (r, "] def")
|| str_prefix (r, "] readonly def"))
break;
else {
char s[128];
remove_eol (r, mp->ps->t1_line_array);
mp_snprintf(s,128,"a name or `] def' or `] readonly def' expected: `%s'",
mp->ps->t1_line_array);
mp_fatal_error(mp,s);
}
}
t1_getline (mp);
r = mp->ps->t1_line_array;
}
} else { /* the second case */
p = strchr (mp->ps->t1_line_array, 10);
for (;p!=NULL;) {
if (*p == 10) {
t1_getline (mp);
p = mp->ps->t1_line_array;
}
/*
check for `dup put'
*/
if (sscanf (p, "dup %i%256s put", &i, mp->ps->t1_buf_array) == 2 &&
*mp->ps->t1_buf_array == '/' && valid_code (i)) {
if (strcmp (mp->ps->t1_buf_array + 1, notdef) != 0) {
if (mp->ps->t1_builtin_glyph_names[i] != notdef)
mp_xfree(mp->ps->t1_builtin_glyph_names[i]);
mp->ps->t1_builtin_glyph_names[i] =
mp_xstrdup (mp,mp->ps->t1_buf_array + 1);
}
p = strstr (p, " put") + strlen (" put");
skip (p, ' ');
}
/*
check for `dup dup exch get put'
*/
else if (sscanf (p, "dup dup %i exch %i get put", &b, &a) == 2
&& valid_code (a) && valid_code (b)) {
copy_glyph_names (mp,mp->ps->t1_builtin_glyph_names, a, b);
p = strstr (p, " get put") + strlen (" get put");
skip (p, ' ');
}
/*
check for `dup dup getinterval exch putinterval'
*/
else if (sscanf
(p, "dup dup %i %i getinterval %i exch putinterval",
&a, &c, &b) == 3 && valid_code (a) && valid_code (b)
&& valid_code (c)) {
for (i = 0; i < c; i++)
copy_glyph_names (mp,mp->ps->t1_builtin_glyph_names, a + i, b + i);
p = strstr (p, " putinterval") + strlen (" putinterval");
skip (p, ' ');
}
/*
check for `def' or `readonly def'
*/
else if ((p == mp->ps->t1_line_array || (p > mp->ps->t1_line_array && p[-1] == ' '))
&& strcmp (p, "def\n") == 0)
return;
/*
skip an unrecognizable word
*/
else {
while (*p != ' ' && *p != 10)
p++;
skip (p, ' ');
}
}
}
}
static void t1_check_end (MP mp) {
if (t1_eof ())
return;
t1_getline (mp);
if (t1_prefix ("{restore}"))
t1_putline (mp);
}
@ @=
{
int i;
for (i = 0; i < 256; i++) {
mp->ps->t1_builtin_glyph_names[i] = strdup(notdef);
assert(mp->ps->t1_builtin_glyph_names[i]);
}
}
@ @=
typedef struct {
char *ff_name; /* base name of font file */
char *ff_path; /* full path to font file */
} ff_entry;
@ @c
static boolean t1_open_fontfile (MP mp, fm_entry *fm_cur,const char *open_name_prefix) {
ff_entry *ff;
ff = check_ff_exist (mp, fm_cur);
mp->ps->t1_file = NULL;
if (ff->ff_path != NULL) {
mp->ps->t1_file = (mp->open_file)(mp,ff->ff_path, "r", mp_filetype_font);
}
if (mp->ps->t1_file == NULL) {
char err [256];
mp_snprintf(err, 255, "cannot open Type 1 font file %s for reading", ff->ff_path);
mp_warn (mp,err);
return false;
}
t1_init_params (mp,open_name_prefix,fm_cur->ff_name);
mp->ps->fontfile_found = true;
return true;
}
static void t1_scan_only (MP mp, font_number tex_font, fm_entry *fm_cur) {
do {
t1_getline (mp);
t1_scan_param (mp,tex_font, fm_cur);
}
while (mp->ps->t1_in_eexec == 0);
t1_start_eexec (mp,fm_cur);
do {
t1_getline (mp);
t1_scan_param (mp,tex_font, fm_cur);
}
while (!(t1_charstrings () || t1_subrs ()));
}
static void t1_include (MP mp, font_number tex_font, fm_entry *fm_cur) {
do {
t1_getline (mp);
t1_scan_param (mp,tex_font, fm_cur);
t1_putline (mp);
}
while (mp->ps->t1_in_eexec == 0);
t1_start_eexec (mp,fm_cur);
do {
t1_getline (mp);
t1_scan_param (mp,tex_font, fm_cur);
t1_putline (mp);
}
while (!(t1_charstrings () || t1_subrs ()));
mp->ps->t1_cs = true;
do {
t1_getline (mp);
t1_putline (mp);
}
while (!t1_end_eexec ());
t1_stop_eexec (mp);
if (fixedcontent) { /* copy 512 zeros (not needed for PDF) */
do {
t1_getline (mp);
t1_putline (mp);
}
while (!t1_cleartomark ());
t1_check_end (mp); /* write "{restore}if" if found */
}
}
@
@d check_subr(SUBR) if (SUBR >= mp->ps->subr_size || SUBR < 0) {
char s[128];
mp_snprintf(s,128,"Subrs array: entry index out of range (%i)",SUBR);
mp_fatal_error(mp,s);
}
@c
static const char **check_cs_token_pair (MP mp) {
const char **p = (const char **) cs_token_pairs_list;
for (; p[0] != NULL; ++p)
if (t1_buf_prefix (p[0]) && t1_buf_suffix (p[1]))
return p;
return NULL;
}
static void cs_store (MP mp, boolean is_subr) {
char *p;
cs_entry *ptr;
int subr;
for (p = mp->ps->t1_line_array, mp->ps->t1_buf_ptr = mp->ps->t1_buf_array; *p != ' ';
*mp->ps->t1_buf_ptr++ = *p++);
*mp->ps->t1_buf_ptr = 0;
if (is_subr) {
subr = (int)t1_scan_num (mp, p + 1, 0);
check_subr (subr);
ptr = mp->ps->subr_tab + subr;
} else {
ptr = mp->ps->cs_ptr++;
if (mp->ps->cs_ptr - mp->ps->cs_tab > mp->ps->cs_size) {
char s[128];
mp_snprintf(s,128,"CharStrings dict: more entries than dict size (%i)",mp->ps->cs_size);
mp_fatal_error(mp,s);
}
ptr->glyph_name = mp_xstrdup (mp,mp->ps->t1_buf_array + 1);
}
/* copy " RD " + cs data to |mp->ps->t1_buf_array| */
memcpy (mp->ps->t1_buf_array, mp->ps->t1_line_array + mp->ps->cs_start - 4,
(size_t) (mp->ps->t1_cslen + 4));
/* copy the end of cs data to |mp->ps->t1_buf_array| */
for (p = mp->ps->t1_line_array + mp->ps->cs_start + mp->ps->t1_cslen, mp->ps->t1_buf_ptr =
mp->ps->t1_buf_array + mp->ps->t1_cslen + 4; *p != 10; *mp->ps->t1_buf_ptr++ = *p++);
*mp->ps->t1_buf_ptr++ = 10;
if (is_subr && mp->ps->cs_token_pair == NULL)
mp->ps->cs_token_pair = check_cs_token_pair (mp);
ptr->len = (unsigned short)(mp->ps->t1_buf_ptr - mp->ps->t1_buf_array);
ptr->cslen = mp->ps->t1_cslen;
ptr->data = mp_xmalloc (mp, (size_t)ptr->len , sizeof (byte));
memcpy (ptr->data, mp->ps->t1_buf_array, (size_t)ptr->len);
ptr->valid = true;
}
#define store_subr(mp) cs_store(mp,true)
#define store_cs(mp) cs_store(mp,false)
#define CC_STACK_SIZE 24
static double cc_stack[CC_STACK_SIZE], *stack_ptr = cc_stack;
static cc_entry cc_tab[CS_MAX];
static boolean is_cc_init = false;
#define cc_pop(N) \
if (stack_ptr - cc_stack < (N)) \
stack_error(N); \
stack_ptr -= N
#define stack_error(N) { \
char s[256]; \
mp_snprintf(s,255,"CharString: invalid access (%i) to stack (%i entries)", \
(int) N, (int)(stack_ptr - cc_stack)); \
mp_warn(mp,s); \
goto cs_error; \
}
#define cc_get(N) ((N) < 0 ? *(stack_ptr + (N)) : *(cc_stack + (N)))
#define cc_push(V) *stack_ptr++ = (double)(V)
#define cc_clear() stack_ptr = cc_stack
#define set_cc(N, B, A, C) \
cc_tab[N].nargs = A; \
cc_tab[N].bottom = B; \
cc_tab[N].clear = C; \
cc_tab[N].valid = true
static void cc_init (void) {
int i;
if (is_cc_init)
return;
for (i = 0; i < CS_MAX; i++)
cc_tab[i].valid = false;
set_cc (CS_HSTEM, true, 2, true);
set_cc (CS_VSTEM, true, 2, true);
set_cc (CS_VMOVETO, true, 1, true);
set_cc (CS_RLINETO, true, 2, true);
set_cc (CS_HLINETO, true, 1, true);
set_cc (CS_VLINETO, true, 1, true);
set_cc (CS_RRCURVETO, true, 6, true);
set_cc (CS_CLOSEPATH, false, 0, true);
set_cc (CS_CALLSUBR, false, 1, false);
set_cc (CS_RETURN, false, 0, false);
/*
|set_cc(CS_ESCAPE, false, 0, false);|
*/
set_cc (CS_HSBW, true, 2, true);
set_cc (CS_ENDCHAR, false, 0, true);
set_cc (CS_RMOVETO, true, 2, true);
set_cc (CS_HMOVETO, true, 1, true);
set_cc (CS_VHCURVETO, true, 4, true);
set_cc (CS_HVCURVETO, true, 4, true);
set_cc (CS_DOTSECTION, false, 0, true);
set_cc (CS_VSTEM3, true, 6, true);
set_cc (CS_HSTEM3, true, 6, true);
set_cc (CS_SEAC, true, 5, true);
set_cc (CS_SBW, true, 4, true);
set_cc (CS_DIV, false, 2, false);
set_cc (CS_CALLOTHERSUBR, false, 0, false);
set_cc (CS_POP, false, 0, false);
set_cc (CS_SETCURRENTPOINT, true, 2, true);
is_cc_init = true;
}
@
@d cs_getchar(mp) cdecrypt(*data++, &cr)
@d mark_subr(mp,n) cs_mark(mp,0, n)
@d mark_cs(mp,s) cs_mark(mp,s, 0)
@d SMALL_BUF_SIZE 256
@c
static void cs_warn (MP mp, const char *cs_name, int subr, const char *fmt, ...) {
char buf[SMALL_BUF_SIZE];
char s[300];
va_list args;
va_start (args, fmt);
@= /*@@-bufferoverflowhigh@@*/ @>
(void)vsprintf (buf, fmt, args);
@= /*@@=bufferoverflowhigh@@*/ @>
va_end (args);
if (cs_name == NULL) {
mp_snprintf(s,299,"Subr (%i): %s", (int) subr, buf);
} else {
mp_snprintf(s,299,"CharString (/%s): %s", cs_name, buf);
}
mp_warn(mp,s);
}
static void cs_mark (MP mp, const char *cs_name, int subr)
{
byte *data;
int i, b, cs_len;
integer a, a1, a2;
unsigned short cr;
static integer lastargOtherSubr3 = 3; /* the argument of last call to
OtherSubrs[3] */
cs_entry *ptr;
cc_entry *cc;
if (cs_name == NULL) {
check_subr (subr);
ptr = mp->ps->subr_tab + subr;
if (!ptr->valid)
return;
} else {
if (mp->ps->cs_notdef != NULL &&
(cs_name == notdef || strcmp (cs_name, notdef) == 0))
ptr = mp->ps->cs_notdef;
else {
for (ptr = mp->ps->cs_tab; ptr < mp->ps->cs_ptr; ptr++)
if (strcmp (ptr->glyph_name, cs_name) == 0)
break;
if (ptr == mp->ps->cs_ptr) {
char s[128];
mp_snprintf (s,128,"glyph `%s' undefined", cs_name);
mp_warn(mp,s);
return;
}
if (ptr->glyph_name == notdef)
mp->ps->cs_notdef = ptr;
}
}
/* only marked CharString entries and invalid entries can be skipped;
valid marked subrs must be parsed to keep the stack in sync */
if (!ptr->valid || (ptr->is_used && cs_name != NULL))
return;
ptr->is_used = true;
cr = 4330;
cs_len = (int)ptr->cslen;
data = ptr->data + 4;
for (i = 0; i < mp->ps->t1_lenIV; i++, cs_len--)
(void)cs_getchar (mp);
while (cs_len > 0) {
--cs_len;
b = cs_getchar (mp);
if (b >= 32) {
if (b <= 246)
a = b - 139;
else if (b <= 250) {
--cs_len;
a = (int)((unsigned)(b - 247) << 8) + 108 + cs_getchar (mp);
} else if (b <= 254) {
--cs_len;
a = -(int)((unsigned)(b - 251) << 8) - 108 - cs_getchar (mp);
} else {
cs_len -= 4;
a = (cs_getchar (mp) & 0xff) << 24;
a |= (cs_getchar (mp) & 0xff) << 16;
a |= (cs_getchar (mp) & 0xff) << 8;
a |= (cs_getchar (mp) & 0xff) << 0;
if (sizeof (integer) > 4 && (a & 0x80000000))
a |= ~0x7FFFFFFF;
}
cc_push (a);
} else {
if (b == CS_ESCAPE) {
b = cs_getchar (mp) + CS_1BYTE_MAX;
cs_len--;
}
if (b >= CS_MAX) {
cs_warn (mp,cs_name, subr, "command value out of range: %i",
(int) b);
goto cs_error;
}
cc = cc_tab + b;
if (!cc->valid) {
cs_warn (mp,cs_name, subr, "command not valid: %i", (int) b);
goto cs_error;
}
if (cc->bottom) {
if (stack_ptr - cc_stack < cc->nargs)
cs_warn (mp,cs_name, subr,
"less arguments on stack (%i) than required (%i)",
(int) (stack_ptr - cc_stack), (int) cc->nargs);
else if (stack_ptr - cc_stack > cc->nargs)
cs_warn (mp,cs_name, subr,
"more arguments on stack (%i) than required (%i)",
(int) (stack_ptr - cc_stack), (int) cc->nargs);
}
switch (cc - cc_tab) {
case CS_CALLSUBR:
a1 = (integer)cc_get (-1);
cc_pop (1);
mark_subr (mp,a1);
if (!mp->ps->subr_tab[a1].valid) {
cs_warn (mp,cs_name, subr, "cannot call subr (%i)", (int) a1);
goto cs_error;
}
break;
case CS_DIV:
cc_pop (2);
cc_push (0);
break;
case CS_CALLOTHERSUBR:
a1 = (integer)cc_get (-1);
if (a1 == 3)
lastargOtherSubr3 = (integer)cc_get (-3);
a1 = (integer)cc_get (-2) + 2;
cc_pop (a1);
break;
case CS_POP:
cc_push (lastargOtherSubr3);
/* the only case when we care about the value being pushed onto
stack is when POP follows CALLOTHERSUBR (changing hints by
OtherSubrs[3])
*/
break;
case CS_SEAC:
a1 = (integer)cc_get (3);
a2 = (integer)cc_get (4);
cc_clear ();
mark_cs (mp,standard_glyph_names[a1]);
mark_cs (mp,standard_glyph_names[a2]);
break;
default:
if (cc->clear)
cc_clear ();
}
}
}
return;
cs_error: /* an error occured during parsing */
cc_clear ();
ptr->valid = false;
ptr->is_used = false;
}
static void t1_subset_ascii_part (MP mp, font_number tex_font, fm_entry *fm_cur)
{
int i, j;
t1_getline (mp);
while (!t1_prefix ("/Encoding")) {
t1_scan_param (mp,tex_font, fm_cur);
t1_putline (mp);
t1_getline (mp);
}
t1_builtin_enc (mp);
if (is_reencoded (fm_cur))
mp->ps->t1_glyph_names = external_enc ();
else
mp->ps->t1_glyph_names = mp->ps->t1_builtin_glyph_names;
/*
|if (is_included (fm_cur) && is_subsetted (fm_cur)) {
make_subset_tag (fm_cur, t1_glyph_names, tex_font);
update_subset_tag ();
}|
*/
if ((!is_subsetted (fm_cur)) && mp->ps->t1_encoding == ENC_STANDARD)
t1_puts (mp,"/Encoding StandardEncoding def\n");
else {
t1_puts
(mp,"/Encoding 256 array\n0 1 255 {1 index exch /.notdef put} for\n");
for (i = 0, j = 0; i < 256; i++) {
if (is_used_char (i) && mp->ps->t1_glyph_names[i] != notdef &&
strcmp(mp->ps->t1_glyph_names[i],notdef) != 0) {
j++;
mp_snprintf (mp->ps->t1_line_array, mp->ps->t1_line_limit,
"dup %i /%s put\n", (int) t1_char (i),
mp->ps->t1_glyph_names[i]);
t1_puts(mp,mp->ps->t1_line_array);
}
}
/* We didn't mark anything for the Encoding array. */
/* We add "dup 0 /.notdef put" for compatibility */
/* with Acrobat 5.0. */
if (j == 0)
t1_puts (mp,"dup 0 /.notdef put\n");
t1_puts (mp,"readonly def\n");
}
do {
t1_getline (mp);
t1_scan_param (mp,tex_font, fm_cur);
if (!t1_prefix ("/UniqueID")) /* ignore UniqueID for subsetted fonts */
t1_putline (mp);
}
while (mp->ps->t1_in_eexec == 0);
}
#define t1_subr_flush(mp) t1_flush_cs(mp,true)
#define t1_cs_flush(mp) t1_flush_cs(mp,false)
static void cs_init (MP mp) {
mp->ps->cs_ptr = mp->ps->cs_tab = NULL;
mp->ps->cs_dict_start = mp->ps->cs_dict_end = NULL;
mp->ps->cs_count = mp->ps->cs_size = mp->ps->cs_size_pos = 0;
mp->ps->cs_token_pair = NULL;
mp->ps->subr_tab = NULL;
mp->ps->subr_array_start = mp->ps->subr_array_end = NULL;
mp->ps->subr_max = mp->ps->subr_size = mp->ps->subr_size_pos = 0;
}
static void init_cs_entry ( cs_entry * cs) {
cs->data = NULL;
cs->glyph_name = NULL;
cs->len = 0;
cs->cslen = 0;
cs->is_used = false;
cs->valid = false;
}
static void t1_mark_glyphs (MP mp, font_number tex_font);
static void t1_read_subrs (MP mp, font_number tex_font, fm_entry *fm_cur, int read_only)
{
int i, s;
cs_entry *ptr;
t1_getline (mp);
while (!(t1_charstrings () || t1_subrs ())) {
t1_scan_param (mp,tex_font, fm_cur);
if (!read_only)
t1_putline (mp);
t1_getline (mp);
}
FOUND:
mp->ps->t1_cs = true;
mp->ps->t1_scan = false;
if (!t1_subrs ())
return;
mp->ps->subr_size_pos = (int)(strlen ("/Subrs") + 1);
/* |subr_size_pos| points to the number indicating dict size after "/Subrs" */
mp->ps->subr_size = (int)t1_scan_num (mp,mp->ps->t1_line_array + mp->ps->subr_size_pos, 0);
if (mp->ps->subr_size == 0) {
while (!t1_charstrings ())
t1_getline (mp);
return;
}
/* |subr_tab = xtalloc (subr_size, cs_entry);| */
mp->ps->subr_tab = (cs_entry *)mp_xmalloc (mp,(size_t)mp->ps->subr_size, sizeof (cs_entry));
for (ptr = mp->ps->subr_tab; ptr - mp->ps->subr_tab < mp->ps->subr_size; ptr++)
init_cs_entry (ptr);
mp->ps->subr_array_start = mp_xstrdup (mp,mp->ps->t1_line_array);
t1_getline (mp);
while (mp->ps->t1_cslen) {
store_subr (mp);
t1_getline (mp);
}
/* mark the first four entries without parsing */
for (i = 0; i < mp->ps->subr_size && i < 4; i++)
mp->ps->subr_tab[i].is_used = true;
/* the end of the Subrs array might have more than one line so we need to
concatnate them to |subr_array_end|. Unfortunately some fonts don't have
the Subrs array followed by the CharStrings dict immediately (synthetic
fonts). If we cannot find CharStrings in next |POST_SUBRS_SCAN| lines then
we will treat the font as synthetic and ignore everything until next
Subrs is found
*/
#define POST_SUBRS_SCAN 5
s = 0;
*mp->ps->t1_buf_array = 0;
for (i = 0; i < POST_SUBRS_SCAN; i++) {
if (t1_charstrings ())
break;
s += (int)(mp->ps->t1_line_ptr - mp->ps->t1_line_array);
alloc_array (t1_buf, s, T1_BUF_SIZE);
strcat (mp->ps->t1_buf_array, mp->ps->t1_line_array);
t1_getline (mp);
}
mp->ps->subr_array_end = mp_xstrdup (mp,mp->ps->t1_buf_array);
if (i == POST_SUBRS_SCAN) { /* CharStrings not found;
suppose synthetic font */
for (ptr = mp->ps->subr_tab; ptr - mp->ps->subr_tab < mp->ps->subr_size; ptr++)
if (ptr->valid)
mp_xfree (ptr->data);
mp_xfree (mp->ps->subr_tab);
mp_xfree (mp->ps->subr_array_start);
mp_xfree (mp->ps->subr_array_end);
cs_init (mp);
mp->ps->t1_cs = false;
mp->ps->t1_synthetic = true;
while (!(t1_charstrings () || t1_subrs ()))
t1_getline (mp);
goto FOUND;
}
}
@ @c
static void t1_flush_cs (MP mp, boolean is_subr)
{
char *p;
byte *r, *return_cs = NULL;
cs_entry *tab, *end_tab, *ptr;
char *start_line, *line_end;
int count, size_pos;
unsigned short cr, cs_len = 0; /* to avoid warning about uninitialized use of |cs_len| */
if (is_subr) {
start_line = mp->ps->subr_array_start;
line_end = mp->ps->subr_array_end;
size_pos = mp->ps->subr_size_pos;
tab = mp->ps->subr_tab;
count = mp->ps->subr_max + 1;
end_tab = mp->ps->subr_tab + count;
} else {
start_line = mp->ps->cs_dict_start;
line_end = mp->ps->cs_dict_end;
size_pos = mp->ps->cs_size_pos;
tab = mp->ps->cs_tab;
end_tab = mp->ps->cs_ptr;
count = mp->ps->cs_count;
}
mp->ps->t1_line_ptr = mp->ps->t1_line_array;
for (p = start_line; p - start_line < size_pos;)
*mp->ps->t1_line_ptr++ = *p++;
while (mp_isdigit (*p))
p++;
mp_snprintf (mp->ps->t1_line_ptr, mp->ps->t1_line_limit, "%u", (unsigned)count);
strcat (mp->ps->t1_line_ptr, p);
mp->ps->t1_line_ptr = eol (mp->ps->t1_line_array);
t1_putline (mp);
/* create |return_cs| to replace unsused subr's */
if (is_subr) {
cr = 4330;
cs_len = 0;
return_cs = mp_xmalloc (mp, (size_t)(mp->ps->t1_lenIV + 1) , sizeof(byte));
if ( mp->ps->t1_lenIV >= 0) {
for (cs_len = 0, r = return_cs;
cs_len<(unsigned short)mp->ps->t1_lenIV; cs_len++, r++)
*r = cencrypt (0x00, &cr);
*r = cencrypt (CS_RETURN, &cr);
} else {
*return_cs = CS_RETURN;
}
cs_len++;
}
for (ptr = tab; ptr < end_tab; ptr++) {
if (ptr->is_used) {
if (is_subr)
mp_snprintf (mp->ps->t1_line_array, mp->ps->t1_line_limit,
"dup %i %u", (int) (ptr - tab), ptr->cslen);
else
mp_snprintf (mp->ps->t1_line_array, mp->ps->t1_line_limit,
"/%s %u", ptr->glyph_name, ptr->cslen);
p = strend (mp->ps->t1_line_array);
memcpy (p, ptr->data, (size_t)ptr->len);
mp->ps->t1_line_ptr = p + ptr->len;
t1_putline (mp);
} else {
/* replace unsused subr's by |return_cs| */
if (is_subr) {
mp_snprintf (mp->ps->t1_line_array, mp->ps->t1_line_limit,
"dup %i %u%s ", (int) (ptr - tab),
cs_len, mp->ps->cs_token_pair[0]);
p = strend (mp->ps->t1_line_array);
memcpy (p, return_cs, (size_t)cs_len);
mp->ps->t1_line_ptr = p + cs_len;
t1_putline (mp);
mp_snprintf (mp->ps->t1_line_array, mp->ps->t1_line_limit,
" %s", mp->ps->cs_token_pair[1]);
mp->ps->t1_line_ptr = eol (mp->ps->t1_line_array);
t1_putline (mp);
}
}
mp_xfree (ptr->data);
if (ptr->glyph_name != notdef)
mp_xfree (ptr->glyph_name);
}
mp_snprintf (mp->ps->t1_line_array, mp->ps->t1_line_limit, "%s", line_end);
mp->ps->t1_line_ptr = eol (mp->ps->t1_line_array);
t1_putline (mp);
if (is_subr)
mp_xfree (return_cs);
mp_xfree (tab);
mp_xfree (start_line);
mp_xfree (line_end);
if (is_subr) {
mp->ps->subr_array_start = NULL;
mp->ps->subr_array_end = NULL;
mp->ps->subr_tab = NULL;
} else {
mp->ps->cs_dict_start = NULL;
mp->ps->cs_dict_end = NULL;
mp->ps->cs_tab = NULL;
}
}
static void t1_mark_glyphs (MP mp, font_number tex_font)
{
int i;
char *charset = extra_charset ();
char *g, *s, *r;
cs_entry *ptr;
if (mp->ps->t1_synthetic || embed_all_glyphs (tex_font)) { /* mark everything */
if (mp->ps->cs_tab != NULL)
for (ptr = mp->ps->cs_tab; ptr < mp->ps->cs_ptr; ptr++)
if (ptr->valid)
ptr->is_used = true;
if (mp->ps->subr_tab != NULL) {
for (ptr = mp->ps->subr_tab; ptr - mp->ps->subr_tab < mp->ps->subr_size; ptr++)
if (ptr->valid)
ptr->is_used = true;
mp->ps->subr_max = mp->ps->subr_size - 1;
}
return;
}
mark_cs (mp,notdef);
for (i = 0; i < 256; i++)
if (is_used_char (i)) {
if (mp->ps->t1_glyph_names[i] == notdef ||
strcmp(mp->ps->t1_glyph_names[i],notdef)==0) {
char S[128];
mp_snprintf(S,128, "character %i is mapped to %s", i, notdef);
mp_warn(mp,S);
} else
mark_cs (mp,mp->ps->t1_glyph_names[i]);
}
if (charset == NULL)
goto SET_SUBR_MAX;
g = s = charset + 1; /* skip the first '/' */
r = strend (g);
while (g < r) {
while (*s != '/' && s < r)
s++;
*s = 0; /* terminate g by rewriting '/' to 0 */
mark_cs (mp,g);
g = s + 1;
}
SET_SUBR_MAX:
if (mp->ps->subr_tab != NULL)
for (mp->ps->subr_max = -1, ptr = mp->ps->subr_tab;
ptr - mp->ps->subr_tab < mp->ps->subr_size;
ptr++)
if (ptr->is_used && ptr - mp->ps->subr_tab > mp->ps->subr_max)
mp->ps->subr_max = (int)(ptr - mp->ps->subr_tab);
}
static void t1_do_subset_charstrings (MP mp, font_number tex_font)
{
cs_entry *ptr;
mp->ps->cs_size_pos = (int)(
strstr (mp->ps->t1_line_array, charstringname) + strlen (charstringname)
- mp->ps->t1_line_array + 1);
/* |cs_size_pos| points to the number indicating
dict size after "/CharStrings" */
mp->ps->cs_size = (int)t1_scan_num (mp,mp->ps->t1_line_array + mp->ps->cs_size_pos, 0);
mp->ps->cs_ptr = mp->ps->cs_tab = mp_xmalloc (mp,(size_t)mp->ps->cs_size, sizeof(cs_entry));
for (ptr = mp->ps->cs_tab; ptr - mp->ps->cs_tab < mp->ps->cs_size; ptr++)
init_cs_entry (ptr);
mp->ps->cs_notdef = NULL;
mp->ps->cs_dict_start = mp_xstrdup (mp,mp->ps->t1_line_array);
t1_getline (mp);
while (mp->ps->t1_cslen) {
store_cs (mp);
t1_getline (mp);
}
mp->ps->cs_dict_end = mp_xstrdup (mp,mp->ps->t1_line_array);
t1_mark_glyphs (mp,tex_font);
}
static void t1_subset_charstrings (MP mp, font_number tex_font)
{
cs_entry *ptr;
t1_do_subset_charstrings (mp, tex_font);
if (mp->ps->subr_tab != NULL) {
if (mp->ps->cs_token_pair == NULL)
mp_fatal_error
(mp, "This Type 1 font uses mismatched subroutine begin/end token pairs.");
t1_subr_flush (mp);
}
for (mp->ps->cs_count = 0, ptr = mp->ps->cs_tab; ptr < mp->ps->cs_ptr; ptr++)
if (ptr->is_used)
mp->ps->cs_count++;
t1_cs_flush (mp);
}
static void t1_subset_end (MP mp)
{
if (mp->ps->t1_synthetic) { /* copy to "dup /FontName get exch definefont pop" */
while (!strstr (mp->ps->t1_line_array, "definefont")) {
t1_getline (mp);
t1_putline (mp);
}
while (!t1_end_eexec ())
t1_getline (mp); /* ignore the rest */
t1_putline (mp); /* write "mark currentfile closefile" */
} else
while (!t1_end_eexec ()) { /* copy to "mark currentfile closefile" */
t1_getline (mp);
t1_putline (mp);
}
t1_stop_eexec (mp);
if (fixedcontent) { /* copy 512 zeros (not needed for PDF) */
while (!t1_cleartomark ()) {
t1_getline (mp);
t1_putline (mp);
}
if (!mp->ps->t1_synthetic) /* don't check "{restore}if" for synthetic fonts */
t1_check_end (mp); /* write "{restore}if" if found */
}
}
static int t1_updatefm (MP mp, font_number f, fm_entry *fm)
{
char *s, *p;
mp->ps->read_encoding_only = true;
if (!t1_open_fontfile (mp,fm,NULL)) {
return 0;
}
t1_scan_only (mp,f, fm);
s = mp_xstrdup(mp,mp->ps->fontname_buf);
p = s;
while (*p != ' ' && *p != 0)
p++;
*p=0;
mp_xfree(fm->ps_name);
fm->ps_name = s;
t1_close_font_file (mp,"");
return 1;
}
static void writet1 (MP mp, font_number tex_font, fm_entry *fm_cur) {
unsigned save_selector = mp->selector;
mp_normalize_selector(mp);
mp->ps->read_encoding_only = false;
if (!is_included (fm_cur)) { /* scan parameters from font file */
if (!t1_open_fontfile (mp,fm_cur,"{"))
return;
t1_scan_only (mp,tex_font, fm_cur);
t1_close_font_file (mp,"}");
return;
}
if (!is_subsetted (fm_cur)) { /* include entire font */
if (!t1_open_fontfile (mp,fm_cur,"<<"))
return;
t1_include (mp,tex_font,fm_cur);
t1_close_font_file (mp,">>");
return;
}
/* partial downloading */
if (!t1_open_fontfile (mp,fm_cur,"<"))
return;
t1_subset_ascii_part (mp,tex_font,fm_cur);
t1_start_eexec (mp,fm_cur);
cc_init ();
cs_init (mp);
t1_read_subrs (mp,tex_font, fm_cur, false);
t1_subset_charstrings (mp,tex_font);
t1_subset_end (mp);
t1_close_font_file (mp,">");
mp->selector = save_selector;
}
@ @=
static void t1_free (MP mp);
@ @c
static void t1_free (MP mp) {
int k;
mp_xfree (mp->ps->subr_array_start);
mp_xfree (mp->ps->subr_array_end);
mp_xfree (mp->ps->cs_dict_start);
mp_xfree (mp->ps->cs_dict_end);
cs_init(mp);
mp_xfree (mp->ps->t1_line_array);
mp_xfree (mp->ps->char_array);
mp->ps->char_array=NULL;
mp->ps->t1_line_array = mp->ps->t1_line_ptr = NULL;
mp->ps->t1_line_limit = 0;
mp_xfree (mp->ps->t1_buf_array);
mp->ps->t1_buf_array = mp->ps->t1_buf_ptr = NULL;
mp->ps->t1_buf_limit = 0;
for (k=0;k<=255;k++) {
if (mp->ps->t1_builtin_glyph_names[k] != notdef)
mp_xfree(mp->ps->t1_builtin_glyph_names[k]);
mp->ps->t1_builtin_glyph_names[k] = mp_xstrdup(mp, notdef);
}
}
@* Embedding Charstrings.
The SVG backend uses some routines that use an ascii representation of
a type1 font. First, here is the type associated with it:
@=
typedef struct mp_ps_font {
int font_num; /* just to put something in */
char **t1_glyph_names;
cs_entry *cs_tab;
cs_entry *cs_ptr;
cs_entry *subr_tab;
int subr_size;
int t1_lenIV;
int slant;
int extend;
@
} mp_ps_font;
@ The parser creates a structure and fills it.
@c
mp_ps_font *mp_ps_font_parse (MP mp, int tex_font) {
mp_ps_font *f;
fm_entry *fm_cur;
char msg[128];
(void)mp_has_fm_entry (mp, (font_number)tex_font, &fm_cur);
if (fm_cur == NULL) {
mp_snprintf(msg,128,"fontmap entry for `%s' not found", mp->font_name[tex_font]);
mp_warn(mp,msg);
return NULL;
}
if (is_truetype(fm_cur) ||
(fm_cur->ps_name == NULL && fm_cur->ff_name == NULL) ||
(!is_included(fm_cur))) {
mp_snprintf(msg,128,"font `%s' cannot be embedded", mp->font_name[tex_font]);
mp_warn(mp,msg);
return NULL;
}
if (!t1_open_fontfile (mp,fm_cur,"<")) { /* message handled there */
return NULL;
}
f = mp_xmalloc(mp, 1, sizeof(struct mp_ps_font));
f->font_num = tex_font;
f->t1_glyph_names = NULL;
f->cs_tab = NULL;
f->cs_ptr = NULL;
f->subr_tab = NULL;
f->orig_x = f->orig_y = 0.0;
f->slant = (int)fm_cur->slant;
f->extend = (int)fm_cur->extend;
t1_getline (mp);
while (!t1_prefix ("/Encoding")) {
t1_scan_param (mp, (font_number)tex_font, fm_cur);
t1_getline (mp);
}
t1_builtin_enc (mp);
if (is_reencoded (fm_cur)) {
mp_read_enc (mp, fm_cur->encoding);;
f->t1_glyph_names = external_enc ();
} else {
f->t1_glyph_names = mp->ps->t1_builtin_glyph_names;
}
do {
t1_getline (mp);
t1_scan_param (mp, (font_number)tex_font, fm_cur);
} while (mp->ps->t1_in_eexec == 0);
/* t1_start_eexec (mp,fm_cur); */
cc_init ();
cs_init (mp);
/* the boolean is needed to make sure that |t1_read_subrs|
doesn't output stuff */
t1_read_subrs (mp, (font_number)tex_font, fm_cur, true);
mp->ps->t1_synthetic = true ;
t1_do_subset_charstrings (mp, (font_number)tex_font);
f->cs_tab = mp->ps->cs_tab;
mp->ps->cs_tab = NULL;
f->cs_ptr = mp->ps->cs_ptr;
mp->ps->cs_ptr = NULL;
f->subr_tab = mp->ps->subr_tab;
mp->ps->subr_tab = NULL;
f->subr_size = mp->ps->subr_size;
mp->ps->subr_size = mp->ps->subr_size_pos = 0;
f->t1_lenIV = mp->ps->t1_lenIV;
t1_close_font_file (mp,">");
return f;
}
@ @=
mp_ps_font *mp_ps_font_parse (MP mp, int tex_font);
@ Freeing the structure
@c
void mp_ps_font_free (MP mp, mp_ps_font *f) {
cs_entry *ptr;
for (ptr = f->cs_tab; ptr < f->cs_ptr; ptr++) {
if (ptr->glyph_name != notdef)
mp_xfree (ptr->glyph_name);
mp_xfree(ptr->data);
}
mp_xfree(f->cs_tab);
f->cs_tab = NULL;
for (ptr = f->subr_tab; ptr - f->subr_tab < f->subr_size; ptr++) {
if (ptr->glyph_name != notdef)
mp_xfree (ptr->glyph_name);
mp_xfree(ptr->data);
}
mp_xfree(f->subr_tab);
f->subr_tab = NULL;
t1_free(mp);
mp_xfree(f);
}
@ @=
void mp_ps_font_free (MP mp, mp_ps_font *f);
@ Parsing Charstrings.
@=
double cur_x, cur_y; /* current point */
double orig_x, orig_y; /* origin (for seac) */
mp_edge_object *h; /* the whole picture */
mp_graphic_object *p; /* the current subpath in the picture */
mp_knot *pp; /* the last known knot in the subpath */
@ @c
mp_edge_object *mp_ps_do_font_charstring (MP mp, mp_ps_font *f, char *nam) {
mp_edge_object *h = NULL;
f->h = NULL; f->p = NULL; f->pp = NULL; /* just in case */
f->cur_x = f->cur_y = 0.0;
f->orig_x = f->orig_y = 0.0;
if (nam==NULL) {
mp_warn(mp,"nonexistant glyph requested");
return h;
}
if (cs_parse(mp,f,nam, 0)) {
h = f->h;
} else {
char err[256];
mp_snprintf(err,255,"Glyph interpreter failed (missing glyph '%s'?)", nam);
mp_warn(mp,err);
if (f->h != NULL) {
finish_subpath();
mp_gr_toss_objects(f->h);
}
}
f->h = NULL; f->p = NULL; f->pp = NULL;
return h;
}
mp_edge_object *mp_ps_font_charstring (MP mp, mp_ps_font *f, int c) {
char *s = NULL;
if (f != NULL && f->t1_glyph_names != NULL && c>=0 && c<256)
s = f->t1_glyph_names[c];
return mp_ps_do_font_charstring(mp,f,s);
}
@ @=
mp_edge_object *mp_ps_font_charstring (MP mp, mp_ps_font *f, int c);
mp_edge_object *mp_ps_do_font_charstring (MP mp, mp_ps_font *f, char *n);
@
@=
boolean cs_parse (MP mp, mp_ps_font *f, const char *cs_name, int subr);
@
@d scaled_from_double(a) (scaled)((a)*65536.0)
@d double_from_scaled(a) (double)((a)/65536.0)
@d start_subpath(f,dx,dy) do {
assert(f->pp == NULL);
assert(f->p == NULL);
f->pp = mp_xmalloc(mp, 1, sizeof (mp_knot));
f->pp->left_type = mp_explicit;
f->pp->right_type = mp_explicit;
f->pp->x_coord = scaled_from_double(f->cur_x + dx);
f->pp->y_coord = scaled_from_double(f->cur_y + dy);
f->pp->left_x = f->pp->right_x = f->pp->x_coord;
f->pp->left_y = f->pp->right_y = f->pp->y_coord;
f->pp->next = NULL;
f->cur_x += dx;
f->cur_y += dy;
f->p = mp_new_graphic_object(mp,mp_fill_code);
gr_path_p((mp_fill_object *)f->p) = f->pp;
} while (0)
@d finish_subpath() do {
if (f->p != NULL) {
if (f->h->body == NULL) {
f->h->body = f->p;
} else {
mp_graphic_object *q = f->h->body;
while (gr_link(q) != NULL)
q = gr_link(q);
q->next = f->p;
}
}
if (f->p!=NULL) {
mp_knot *r, *rr;
r = gr_path_p((mp_fill_object *)f->p);
rr = r;
if (r && r->x_coord == f->pp->x_coord && r->y_coord == f->pp->y_coord ) {
while ( rr->next != f->pp)
rr = rr->next;
rr->next = r;
r->left_x = f->pp->left_x;
r->left_y = f->pp->left_y;
mp_xfree(f->pp);
}
}
f->p = NULL;
f->pp = NULL;
} while (0)
@d add_line_segment(f,dx,dy) do {
assert(f->pp != NULL);
n = mp_xmalloc(mp,1, sizeof (mp_knot));
n->left_type = mp_explicit;
n->right_type = mp_explicit;
n->next = gr_path_p((mp_fill_object *)f->p); /* loop */
n->x_coord = scaled_from_double(f->cur_x + dx);
n->y_coord = scaled_from_double(f->cur_y + dy);
n->right_x = n->x_coord;
n->right_y = n->y_coord;
n->left_x = n->x_coord;
n->left_y = n->y_coord;
f->pp->next = n;
f->pp = n;
f->cur_x += dx;
f->cur_y += dy;
} while (0)
@d add_curve_segment(f,dx1,dy1,dx2,dy2,dx3,dy3) do {
n = mp_xmalloc(mp, 1, sizeof (mp_knot));
n->left_type = mp_explicit;
n->right_type = mp_explicit;
n->next = gr_path_p((mp_fill_object *)f->p); /* loop */
n->x_coord = scaled_from_double(f->cur_x + dx1 + dx2 + dx3);
n->y_coord = scaled_from_double(f->cur_y + dy1 + dy2 + dy3);
n->right_x = n->x_coord;
n->right_y = n->y_coord;
n->left_x = scaled_from_double(f->cur_x + dx1 + dx2);
n->left_y = scaled_from_double(f->cur_y + dy1 + dy2);
f->pp->right_x = scaled_from_double(f->cur_x + dx1);
f->pp->right_y = scaled_from_double(f->cur_y + dy1);
f->pp->next = n;
f->pp = n;
f->cur_x += dx1 + dx2 + dx3;
f->cur_y += dy1 + dy2 + dy3;
} while (0)
@d cs_no_debug(A) cs_do_debug(mp,f,A,#A)
@d cs_debug(A)
@c
#if 0
void cs_do_debug (MP mp, mp_ps_font *f, int i, char *s) {
int n = cc_tab[i].nargs;
(void)mp; /* for -Wall */
(void)f; /* for -Wall */
while (n>0) {
fprintf (stdout,"%d ", (int)cc_get((-n)));
n--;
}
fprintf (stdout,"%s\n", s);
}
#endif
boolean cs_parse (MP mp, mp_ps_font *f, const char *cs_name, int subr)
{
byte *data;
int i, b, cs_len;
integer a, a1, a2;
unsigned short cr;
static integer lastargOtherSubr3 = 3;
cs_entry *ptr;
cc_entry *cc;
mp_knot *n;
if (cs_name == NULL) {
ptr = f->subr_tab + subr;
} else {
i = 0;
for (ptr = f->cs_tab; ptr < f->cs_ptr; ptr++, i++) {
if (strcmp (ptr->glyph_name, cs_name) == 0)
break;
}
ptr = f->cs_tab+i; /* this is the right charstring */
}
if (ptr==f->cs_ptr)
return false;
data = ptr->data + 4;
cr = 4330;
cs_len = (int)ptr->cslen;
for (i = 0; i < f->t1_lenIV; i++, cs_len--)
(void)cs_getchar (mp);
while (cs_len > 0) {
--cs_len;
b = cs_getchar(mp);
if (b >= 32) {
if (b <= 246)
a = b - 139;
else if (b <= 250) {
--cs_len;
a = (int)((unsigned)(b - 247) << 8) + 108 + cs_getchar (mp);
} else if (b <= 254) {
--cs_len;
a = -(int)((unsigned)(b - 251) << 8) - 108 - cs_getchar (mp);
} else {
cs_len -= 4;
a = (cs_getchar (mp) & 0xff) << 24;
a |= (cs_getchar (mp) & 0xff) << 16;
a |= (cs_getchar (mp) & 0xff) << 8;
a |= (cs_getchar (mp) & 0xff) << 0;
if (sizeof (integer) > 4 && (a & 0x80000000))
a |= ~0x7FFFFFFF;
}
cc_push (a);
} else {
if (b == CS_ESCAPE) {
b = cs_getchar (mp) + CS_1BYTE_MAX;
cs_len--;
}
if (b >= CS_MAX) {
cs_warn (mp,cs_name, subr, "command value out of range: %i",
(int) b);
goto cs_error;
}
cc = cc_tab + b;
if (!cc->valid) {
cs_warn (mp,cs_name, subr, "command not valid: %i", (int) b);
goto cs_error;
}
if (cc->bottom) {
if (stack_ptr - cc_stack < cc->nargs)
cs_warn (mp,cs_name, subr,
"less arguments on stack (%i) than required (%i)",
(int) (stack_ptr - cc_stack), (int) cc->nargs);
else if (stack_ptr - cc_stack > cc->nargs)
cs_warn (mp,cs_name, subr,
"more arguments on stack (%i) than required (%i)",
(int) (stack_ptr - cc_stack), (int) cc->nargs);
}
switch (cc - cc_tab) {
case CS_CLOSEPATH: /* - CLOSEPATH |- */
cs_debug(CS_CLOSEPATH);
finish_subpath();
cc_clear ();
break;
case CS_HLINETO: /* |- dx HLINETO |- */
cs_debug(CS_HLINETO);
add_line_segment(f,cc_get(-1),0);
cc_clear ();
break;
case CS_HVCURVETO: /* |- dx1 dx2 dy2 dy3 HVCURVETO |- */
cs_debug(CS_HVCURVETO);
add_curve_segment(f,cc_get(-4),0,cc_get(-3),cc_get(-2),0,cc_get(-1));
cc_clear ();
break;
case CS_RLINETO: /* |- dx dy RLINETO |- */
cs_debug(CS_RLINETO);
add_line_segment(f,cc_get(-2),cc_get(-1));
cc_clear ();
break;
case CS_RRCURVETO: /* |- dx1 dy1 dx2 dy2 dx3 dy3 RRCURVETO |- */
cs_debug(CS_RRCURVETO);
add_curve_segment(f,cc_get(-6),cc_get(-5),cc_get(-4),cc_get(-3),cc_get(-2),cc_get(-1));
cc_clear ();
break;
case CS_VHCURVETO: /* |- dy1 dx2 dy2 dx3 VHCURVETO |- */
cs_debug(CS_VHCURVETO);
add_curve_segment(f,0, cc_get(-4),cc_get(-3),cc_get(-2),cc_get(-1),0);
cc_clear ();
break;
case CS_VLINETO: /* |- dy VLINETO |- */
cs_debug(CS_VLINETO);
add_line_segment(f,0,cc_get(-1));
cc_clear ();
break;
case CS_HMOVETO: /* |- dx HMOVETO |- */
cs_debug(CS_HMOVETO);
/* treating in-line moves as 'line segments' work better than attempting
to split the path up in two separate sections, at least for now. */
if (f->pp == NULL) { /* this is the first */
start_subpath(f,cc_get(-1),0);
} else {
add_line_segment(f,cc_get(-1),0);
}
cc_clear ();
break;
case CS_RMOVETO: /* |- dx dy RMOVETO |- */
cs_debug(CS_RMOVETO);
if (f->pp == NULL) { /* this is the first */
start_subpath(f,cc_get(-2),cc_get(-1));
} else {
add_line_segment(f,cc_get(-2),cc_get(-1));
}
cc_clear ();
break;
case CS_VMOVETO: /* |- dy VMOVETO |- */
cs_debug(CS_VMOVETO);
if (f->pp == NULL) { /* this is the first */
start_subpath(f,0,cc_get(-1));
} else {
add_line_segment(f,0,cc_get(-1));
}
cc_clear ();
break;
/* hinting commands */
case CS_DOTSECTION: /* - DOTSECTION |- */
cs_debug(CS_DOTSECTION);
cc_clear ();
break;
case CS_HSTEM: /* |- y dy HSTEM |- */
cs_debug(CS_HSTEM);
cc_clear ();
break;
case CS_HSTEM3: /* |- y0 dy0 y1 dy1 y2 dy2 HSTEM3 |- */
cs_debug(CS_HSTEM3);
cc_clear ();
break;
case CS_VSTEM: /* |- x dx VSTEM |- */
cs_debug(CS_VSTEM);
cc_clear ();
break;
case CS_VSTEM3: /* |- x0 dx0 x1 dx1 x2 dx2 VSTEM3 |- */
cs_debug(CS_VSTEM3);
cc_clear ();
break;
/* start and close commands */
case CS_SEAC: /* |- asb adx ady bchar achar SEAC |- */
cs_debug(CS_SEAC);
{ double adx, ady, asb;
asb = cc_get (0);
adx = cc_get (1);
ady = cc_get (2);
a1 = (integer)cc_get (3);
a2 = (integer)cc_get (4);
cc_clear ();
(void)cs_parse(mp,f,standard_glyph_names[a1],0); /* base */
f->orig_x += (adx - asb);
f->orig_y += ady;
(void)cs_parse(mp,f,standard_glyph_names[a2],0);
}
break;
case CS_ENDCHAR: /* - ENDCHAR |- */
cs_debug(CS_ENDCHAR);
cc_clear ();
return true;
break;
case CS_HSBW: /* |- sbx wx HSBW |- */
cs_debug(CS_HSBW);
if (!f->h) {
f->h = mp_xmalloc(mp, 1,sizeof(mp_edge_object));
f->h->body = NULL; f->h->next = NULL;
f->h->parent = mp;
f->h->filename = NULL;
f->h->minx = f->h->miny = f->h->maxx = f->h->maxy = 0;
}
f->cur_x = cc_get(-2) + f->orig_x;
f->cur_y = 0.0 + f->orig_y;
f->orig_x = f->cur_x;
f->orig_y = f->cur_y;
cc_clear ();
break;
case CS_SBW: /* |- sbx sby wx wy SBW |- */
cs_debug(CS_SBW);
if (!f->h) {
f->h = mp_xmalloc(mp, 1,sizeof(mp_edge_object));
f->h->body = NULL; f->h->next = NULL;
f->h->parent = mp;
f->h->filename = NULL;
f->h->minx = f->h->miny = f->h->maxx = f->h->maxy = 0;
}
f->cur_x = cc_get(-4) + f->orig_x;
f->cur_y = cc_get(-3) + f->orig_y;
f->orig_x = f->cur_x;
f->orig_y = f->cur_y;
cc_clear ();
break;
/* arithmetic */
case CS_DIV: /* num1 num2 DIV quotient */
cs_debug(CS_DIV);
{ double num,den,res;
num = cc_get (-2);
den = cc_get (-1);
res = num/den;
cc_pop (2);
cc_push (res);
break;
}
/* subrs */
case CS_CALLSUBR: /* subr CALLSUBR - */
cs_debug(CS_CALLSUBR);
a1 = (integer)cc_get (-1);
cc_pop (1);
(void)cs_parse(mp,f,NULL,a1);
break;
case CS_RETURN: /* - RETURN - */
cs_debug(CS_RETURN);
return true;
break;
case CS_CALLOTHERSUBR: /* arg1 ... argn n othersubr CALLOTHERSUBR - */
a1 = (integer)cc_get (-1);
if (a1 == 3)
lastargOtherSubr3 = (integer)cc_get (-3);
a1 = (integer)cc_get(-2) + 2;
cc_pop (a1);
break;
case CS_POP: /* - POP number */
cc_push (lastargOtherSubr3);
break;
case CS_SETCURRENTPOINT: /* |- x y SETCURRENTPOINT |- */
cs_debug(CS_SETCURRENTPOINT);
/* totally ignoring setcurrentpoint actually works better for most fonts ? */
cc_clear ();
break;
default:
if (cc->clear)
cc_clear ();
}
}
}
return true;
cs_error: /* an error occured during parsing */
cc_clear ();
ptr->valid = false;
ptr->is_used = false;
return false;
}
@* \[44d] Embedding fonts.
@ The |tfm_num| is officially of type |font_number|, but that
type does not exist yet at this point in the output order.
@=
typedef struct {
char *tfm_name; /* TFM file name */
char *ps_name; /* PostScript name */
integer flags; /* font flags */
char *ff_name; /* font file name */
char *subset_tag; /* pseudoUniqueTag for subsetted font */
enc_entry *encoding; /* pointer to corresponding encoding */
unsigned int tfm_num; /* number of the TFM refering this entry */
unsigned short type; /* font type (T1/TTF/...) */
short slant; /* SlantFont */
short extend; /* ExtendFont */
integer ff_objnum; /* FontFile object number */
integer fn_objnum; /* FontName/BaseName object number */
integer fd_objnum; /* FontDescriptor object number */
char *charset; /* string containing used glyphs */
boolean all_glyphs; /* embed all glyphs? */
unsigned short links; /* link flags from |tfm_tree| and |ps_tree| */
short tfm_avail; /* flags whether a tfm is available */
short pid; /* Pid for truetype fonts */
short eid; /* Eid for truetype fonts */
} fm_entry;
@
@=
#define FONTNAME_BUF_SIZE 128
boolean fontfile_found;
boolean is_otf_font;
char fontname_buf[FONTNAME_BUF_SIZE];
@
@d F_INCLUDED 0x01
@d F_SUBSETTED 0x02
@d F_TRUETYPE 0x04
@d F_BASEFONT 0x08
@d set_included(fm) ((fm)->type |= F_INCLUDED)
@d set_subsetted(fm) ((fm)->type |= F_SUBSETTED)
@d set_truetype(fm) ((fm)->type |= F_TRUETYPE)
@d set_basefont(fm) ((fm)->type |= F_BASEFONT)
@d is_included(fm) ((fm)->type & F_INCLUDED)
@d is_subsetted(fm) ((fm)->type & F_SUBSETTED)
@d is_truetype(fm) ((fm)->type & F_TRUETYPE)
@d is_basefont(fm) ((fm)->type & F_BASEFONT)
@d is_reencoded(fm) ((fm)->encoding != NULL)
@d is_fontfile(fm) (fm_fontfile(fm) != NULL)
@d is_t1fontfile(fm) (is_fontfile(fm) && !is_truetype(fm))
@d fm_slant(fm) (fm)->slant
@d fm_extend(fm) (fm)->extend
@d fm_fontfile(fm) (fm)->ff_name
@=
static boolean mp_font_is_reencoded (MP mp, font_number f);
static boolean mp_font_is_included (MP mp, font_number f);
static boolean mp_font_is_subsetted (MP mp, font_number f);
@ @c
boolean mp_font_is_reencoded (MP mp, font_number f) {
fm_entry *fm;
if (mp_has_font_size(mp,f) && mp_has_fm_entry (mp, f, &fm)) {
if (fm != NULL
&& (fm->ps_name != NULL)
&& is_reencoded (fm))
return true;
}
return false;
}
boolean mp_font_is_included (MP mp, font_number f) {
fm_entry *fm;
if (mp_has_font_size(mp,f) && mp_has_fm_entry (mp, f, &fm)) {
if (fm != NULL
&& (fm->ps_name != NULL && fm->ff_name != NULL)
&& is_included (fm))
return true;
}
return false;
}
boolean mp_font_is_subsetted (MP mp, font_number f) {
fm_entry *fm;
if (mp_has_font_size(mp,f) && mp_has_fm_entry (mp, f,&fm)) {
if (fm != NULL
&& (fm->ps_name != NULL && fm->ff_name != NULL)
&& is_included (fm) && is_subsetted (fm))
return true;
}
return false;
}
@ @=
static char * mp_fm_encoding_name (MP mp, font_number f);
static char * mp_fm_font_name (MP mp, font_number f);
static char * mp_fm_font_subset_name (MP mp, font_number f);
@
@c char * mp_fm_encoding_name (MP mp, font_number f) {
enc_entry *e;
fm_entry *fm;
if (mp_has_fm_entry (mp, f, &fm)) {
if (fm != NULL && (fm->ps_name != NULL)) {
if (is_reencoded (fm)) {
e = fm->encoding;
if (e->enc_name!=NULL)
return mp_xstrdup(mp,e->enc_name);
} else {
return NULL;
}
}
}
print_err ("fontmap encoding problems for font ");
mp_print(mp,mp->font_name[f]);
mp_error(mp);
return NULL;
}
char * mp_fm_font_name (MP mp, font_number f) {
fm_entry *fm;
if (mp_has_fm_entry (mp, f,&fm)) {
if (fm != NULL && (fm->ps_name != NULL)) {
if (mp_font_is_included(mp, f) && !mp->font_ps_name_fixed[f]) {
/* find the real fontname, and update |ps_name| and |subset_tag| if needed */
if (t1_updatefm(mp,f,fm)) {
mp->font_ps_name_fixed[f] = true;
} else {
print_err ("font loading problems for font ");
mp_print(mp,mp->font_name[f]);
mp_error(mp);
}
}
return mp_xstrdup(mp,fm->ps_name);
}
}
print_err ("fontmap name problems for font ");
mp_print(mp,mp->font_name[f]);
mp_error(mp);
return NULL;
}
static char * mp_fm_font_subset_name (MP mp, font_number f) {
fm_entry *fm;
if (mp_has_fm_entry (mp, f, &fm)) {
if (fm != NULL && (fm->ps_name != NULL)) {
if (is_subsetted(fm)) {
char *s = mp_xmalloc(mp,strlen(fm->ps_name)+8,1);
mp_snprintf(s, strlen(fm->ps_name)+8,"%s-%s",fm->subset_tag,fm->ps_name);
return s;
} else {
return mp_xstrdup(mp,fm->ps_name);
}
}
}
print_err ("fontmap name problems for font ");
mp_print(mp,mp->font_name[f]);
mp_error(mp);
return NULL;
}
@ @=
static integer mp_fm_font_slant (MP mp, font_number f);
static integer mp_fm_font_extend (MP mp, font_number f);
@
@c static integer mp_fm_font_slant (MP mp, font_number f) {
fm_entry *fm;
if (mp_has_fm_entry (mp, f, &fm)) {
if (fm != NULL && (fm->ps_name != NULL)) {
return fm->slant;
}
}
return 0;
}
static integer mp_fm_font_extend (MP mp, font_number f) {
fm_entry *fm;
if (mp_has_fm_entry (mp, f, &fm)) {
if (fm != NULL && (fm->ps_name != NULL)) {
return fm->extend;
}
}
return 0;
}
@ @=
static boolean mp_do_ps_font (MP mp, font_number f);
@ @c static boolean mp_do_ps_font (MP mp, font_number f) {
fm_entry *fm_cur;
(void)mp_has_fm_entry (mp, f, &fm_cur); /* for side effects */
if (fm_cur == NULL)
return true;
if (is_truetype(fm_cur) ||
(fm_cur->ps_name == NULL && fm_cur->ff_name == NULL)) {
return false;
}
if (is_included(fm_cur)) {
mp_ps_print_nl(mp,"%%BeginResource: font ");
if (is_subsetted(fm_cur)) {
mp_ps_print(mp, fm_cur->subset_tag);
mp_ps_print_char(mp,'-');
}
mp_ps_print(mp, fm_cur->ps_name);
mp_ps_print_ln(mp);
writet1 (mp,f,fm_cur);
mp_ps_print_nl(mp,"%%EndResource");
mp_ps_print_ln(mp);
}
return true;
}
@ Included subset fonts do not need and encoding vector, make
sure we skip that case.
@=
static void mp_list_used_resources (MP mp, int prologues, int procset);
@ @c static void mp_list_used_resources (MP mp, int prologues, int procset) {
font_number f; /* fonts used in a text node or as loop counters */
int ff; /* a loop counter */
int ldf; /* the last \.{DocumentFont} listed (otherwise |null_font|) */
boolean firstitem;
if ( procset>0 )
mp_ps_print_nl(mp, "%%DocumentResources: procset mpost");
else
mp_ps_print_nl(mp, "%%DocumentResources: procset mpost-minimal");
ldf=null_font;
firstitem=true;
for (f=null_font+1;f<=mp->last_fnum;f++) {
if ( (mp_has_font_size(mp,f))&&(mp_font_is_reencoded(mp,f)) ) {
for (ff=ldf;ff>=null_font;ff--) {
if ( mp_has_font_size(mp,(font_number)ff) )
if ( mp_xstrcmp(mp->font_enc_name[f],mp->font_enc_name[ff])==0 )
goto FOUND;
}
if ( mp_font_is_subsetted(mp,f) )
goto FOUND;
if ( (size_t)mp->ps->ps_offset+1+strlen(mp->font_enc_name[f])>
(size_t)mp->max_print_line )
mp_ps_print_nl(mp, "%%+ encoding");
if ( firstitem ) {
firstitem=false;
mp_ps_print_nl(mp, "%%+ encoding");
}
mp_ps_print_char(mp, ' ');
mp_ps_dsc_print(mp, "encoding", mp->font_enc_name[f]);
ldf=(int)f;
}
FOUND:
;
}
ldf=null_font;
firstitem=true;
for (f=null_font+1;f<=mp->last_fnum;f++) {
if ( mp_has_font_size(mp,f) ) {
for (ff=ldf;ff>=null_font;ff--) {
if ( mp_has_font_size(mp,(font_number)ff) )
if ( mp_xstrcmp(mp->font_name[f],mp->font_name[ff])==0 )
goto FOUND2;
}
if ( (size_t)mp->ps->ps_offset+1+strlen(mp->font_ps_name[f])>
(size_t)mp->max_print_line )
mp_ps_print_nl(mp, "%%+ font");
if ( firstitem ) {
firstitem=false;
mp_ps_print_nl(mp, "%%+ font");
}
mp_ps_print_char(mp, ' ');
if ( (prologues==3)&& (mp_font_is_subsetted(mp,f)) ) {
char *s = mp_fm_font_subset_name(mp,f);
mp_ps_dsc_print(mp, "font", s);
mp_xfree(s);
} else {
mp_ps_dsc_print(mp, "font", mp->font_ps_name[f]);
}
ldf=(int)f;
}
FOUND2:
;
}
mp_ps_print_ln(mp);
}
@ @=
static void mp_list_supplied_resources (MP mp, int prologues, int procset);
@ @c static void mp_list_supplied_resources (MP mp, int prologues, int procset) {
font_number f; /* fonts used in a text node or as loop counters */
int ff; /* a loop counter */
int ldf; /* the last \.{DocumentFont} listed (otherwise |null_font|) */
boolean firstitem;
if ( procset>0 )
mp_ps_print_nl(mp, "%%DocumentSuppliedResources: procset mpost");
else
mp_ps_print_nl(mp, "%%DocumentSuppliedResources: procset mpost-minimal");
ldf=null_font;
firstitem=true;
for (f=null_font+1;f<=mp->last_fnum;f++) {
if ( (mp_has_font_size(mp,f))&&(mp_font_is_reencoded(mp,f)) ) {
for (ff=ldf;ff>= null_font;ff++) {
if ( mp_has_font_size(mp,(font_number)ff) )
if ( mp_xstrcmp(mp->font_enc_name[f],mp->font_enc_name[ff])==0 )
goto FOUND;
}
if ( (prologues==3)&&(mp_font_is_subsetted(mp,f)))
goto FOUND;
if ( (size_t)mp->ps->ps_offset+1+strlen(mp->font_enc_name[f])>(size_t)mp->max_print_line )
mp_ps_print_nl(mp, "%%+ encoding");
if ( firstitem ) {
firstitem=false;
mp_ps_print_nl(mp, "%%+ encoding");
}
mp_ps_print_char(mp, ' ');
mp_ps_dsc_print(mp, "encoding", mp->font_enc_name[f]);
ldf=(int)f;
}
FOUND:
;
}
ldf=null_font;
firstitem=true;
if (prologues==3) {
for (f=null_font+1;f<=mp->last_fnum;f++) {
if ( mp_has_font_size(mp,f) ) {
for (ff=ldf;ff>= null_font;ff--) {
if ( mp_has_font_size(mp,(font_number)ff) )
if ( mp_xstrcmp(mp->font_name[f],mp->font_name[ff])==0 )
goto FOUND2;
}
if ( ! mp_font_is_included(mp,f) )
goto FOUND2;
if ( (size_t)mp->ps->ps_offset+1+strlen(mp->font_ps_name[f])>(size_t)mp->max_print_line )
mp_ps_print_nl(mp, "%%+ font");
if ( firstitem ) {
firstitem=false;
mp_ps_print_nl(mp, "%%+ font");
}
mp_ps_print_char(mp, ' ');
if ( mp_font_is_subsetted(mp,f) ) {
char *s = mp_fm_font_subset_name(mp,f);
mp_ps_dsc_print(mp, "font", s);
mp_xfree(s);
} else {
mp_ps_dsc_print(mp, "font", mp->font_ps_name[f]);
}
ldf=(int)f;
}
FOUND2:
;
}
mp_ps_print_ln(mp);
}
}
@ @=
static void mp_list_needed_resources (MP mp, int prologues);
@ @c static void mp_list_needed_resources (MP mp, int prologues) {
font_number f; /* fonts used in a text node or as loop counters */
int ff; /* a loop counter */
int ldf; /* the last \.{DocumentFont} listed (otherwise |null_font|) */
boolean firstitem;
ldf=null_font;
firstitem=true;
for (f=null_font+1;f<=mp->last_fnum;f++ ) {
if ( mp_has_font_size(mp,f)) {
for (ff=ldf;ff>=null_font;ff--) {
if ( mp_has_font_size(mp,(font_number)ff) )
if ( mp_xstrcmp(mp->font_name[f],mp->font_name[ff])==0 )
goto FOUND;
};
if ((prologues==3)&&(mp_font_is_included(mp,f)) )
goto FOUND;
if ( (size_t)mp->ps->ps_offset+1+strlen(mp->font_ps_name[f])>(size_t)mp->max_print_line )
mp_ps_print_nl(mp, "%%+ font");
if ( firstitem ) {
firstitem=false;
mp_ps_print_nl(mp, "%%DocumentNeededResources: font");
}
mp_ps_print_char(mp, ' ');
mp_ps_dsc_print(mp, "font", mp->font_ps_name[f]);
ldf=(int)f;
}
FOUND:
;
}
if ( ! firstitem ) {
mp_ps_print_ln(mp);
ldf=null_font;
firstitem=true;
for (f=null_font+1;f<= mp->last_fnum;f++) {
if ( mp_has_font_size(mp,f) ) {
for (ff=ldf;ff>=null_font;ff-- ) {
if ( mp_has_font_size(mp,(font_number)ff) )
if ( mp_xstrcmp(mp->font_name[f],mp->font_name[ff])==0 )
goto FOUND2;
}
if ((prologues==3)&&(mp_font_is_included(mp,f)) )
goto FOUND2;
mp_ps_print(mp, "%%IncludeResource: font ");
mp_ps_print(mp, mp->font_ps_name[f]);
mp_ps_print_ln(mp);
ldf=(int)f;
}
FOUND2:
;
}
}
}
@ @=
static void mp_write_font_definition (MP mp, font_number f, int prologues);
@
@d applied_reencoding(A) ((mp_font_is_reencoded(mp,(A)))&&
((! mp_font_is_subsetted(mp,(A)))||(prologues==2)))
@c static void mp_write_font_definition(MP mp, font_number f, int prologues) {
if ( (applied_reencoding(f))||(mp_fm_font_slant(mp,f)!=0)||
(mp_fm_font_extend(mp,f)!=0)||
(mp_xstrcmp(mp->font_name[f],"psyrgo")==0)||
(mp_xstrcmp(mp->font_name[f],"zpzdr-reversed")==0) ) {
if ( (mp_font_is_subsetted(mp,f))&&
(mp_font_is_included(mp,f))&&(prologues==3)) {
char *s = mp_fm_font_subset_name(mp,f);
mp_ps_name_out(mp, s,true);
mp_xfree(s);
} else {
mp_ps_name_out(mp, mp->font_ps_name[f],true);
}
mp_ps_print(mp, " fcp");
mp_ps_print_ln(mp);
if ( applied_reencoding(f) ) {
mp_ps_print(mp, "/Encoding ");
mp_ps_print(mp, mp->font_enc_name[f]);
mp_ps_print(mp, " def ");
};
if ( mp_fm_font_slant(mp,f)!=0 ) {
mp_ps_print_int(mp, mp_fm_font_slant(mp,f));
mp_ps_print(mp, " SlantFont ");
};
if ( mp_fm_font_extend(mp,f)!=0 ) {
mp_ps_print_int(mp, mp_fm_font_extend(mp,f));
mp_ps_print(mp, " ExtendFont ");
};
if ( mp_xstrcmp(mp->font_name[f],"psyrgo")==0 ) {
mp_ps_print(mp, " 890 ScaleFont ");
mp_ps_print(mp, " 277 SlantFont ");
};
if ( mp_xstrcmp(mp->font_name[f],"zpzdr-reversed")==0 ) {
mp_ps_print(mp, " FontMatrix [-1 0 0 1 0 0] matrix concatmatrix /FontMatrix exch def ");
mp_ps_print(mp, "/Metrics 2 dict dup begin ");
mp_ps_print(mp, "/space[0 -278]def ");
mp_ps_print(mp, "/a12[-904 -939]def ");
mp_ps_print(mp, "end def ");
};
mp_ps_print(mp, "currentdict end");
mp_ps_print_ln(mp);
mp_ps_print_defined_name(mp,f,prologues);
mp_ps_print(mp, " exch definefont pop");
mp_ps_print_ln(mp);
}
}
@ @=
static void mp_ps_print_defined_name (MP mp, font_number f, int prologues);
@
@c static void mp_ps_print_defined_name(MP mp, font_number f, int prologues) {
mp_ps_print(mp, " /");
if ((mp_font_is_subsetted(mp,f))&&
(mp_font_is_included(mp,f))&&(prologues==3)) {
char *s = mp_fm_font_subset_name(mp,f);
mp_ps_print(mp, s);
mp_xfree(s);
} else {
mp_ps_print(mp, mp->font_ps_name[f]);
}
if ( mp_xstrcmp(mp->font_name[f],"psyrgo")==0 )
mp_ps_print(mp, "-Slanted");
if ( mp_xstrcmp(mp->font_name[f],"zpzdr-reversed")==0 )
mp_ps_print(mp, "-Reverse");
if ( applied_reencoding(f) ) {
mp_ps_print(mp, "-");
mp_ps_print(mp, mp->font_enc_name[f]);
}
if ( mp_fm_font_slant(mp,f)!=0 ) {
mp_ps_print(mp, "-Slant_"); mp_ps_print_int(mp, mp_fm_font_slant(mp,f)) ;
}
if ( mp_fm_font_extend(mp,f)!=0 ) {
mp_ps_print(mp, "-Extend_"); mp_ps_print_int(mp, mp_fm_font_extend(mp,f));
}
}
@ @=
mp_font_encodings(mp,mp->last_fnum,(prologues==2));
@