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%
% This file is part of the Omega project, which
% is based in the web2c distribution of TeX.
%
% Copyright (c) 1994--1998 John Plaice and Yannis Haralambous
% applies only to the changes to the original vptovf.ch.
%
% vptovf.ch for C compilation with web2c.
@x [0] WEAVE: print changes only.
\pageno=\contentspagenumber \advance\pageno by 1
@y
\pageno=\contentspagenumber \advance\pageno by 1
%\let\maybe=\iffalse
%\def\title{OVP2OVF changes for C}
@z
@x [2] Print the banner later.
procedure initialize; {this procedure gets things started properly}
var @<Local variables for initialization@>@/
begin print_ln(banner);@/
@y
@<Define |parse_arguments|@>
procedure initialize; {this procedure gets things started properly}
var @<Local variables for initialization@>@/
begin
kpse_set_program_name (argv[0], nil);
parse_arguments;
@z
@x [3] Increase constants.
@!buf_size=60; {length of lines displayed in error messages}
@y
@!buf_size=3000; {max input line length, output error line length}
@z
@x [6] Open VPL file.
reset(vpl_file);
@y
reset (vpl_file, vpl_name);
if verbose then begin
print (banner);
print_ln (version_string);
end;
@z
@x [22] Open output files.
@ On some systems you may have to do something special to write a
packed file of bytes. For example, the following code didn't work
when it was first tried at Stanford, because packed files have to be
opened with a special switch setting on the \PASCAL\ that was used.
@^system dependencies@>
@<Set init...@>=
rewrite(vf_file); rewrite(tfm_file);
@y
@ On some systems you may have to do something special to write a
packed file of bytes.
@^system dependencies@>
@<Set init...@>=
rewritebin (vf_file, vf_name);
rewritebin (tfm_file, tfm_name);
@z
@x [23] Avoid name conflict; MinGW defines `byte' in <rpcndr.h>.
correspond to one-character constants like \.{"A"} in \.{WEB} language.
@y
correspond to one-character constants like \.{"A"} in \.{WEB} language.
@d byte == byte_type
@z
@x [24] Pascal Web's char
@d first_ord=0 {ordinal number of the smallest element of |char|}
@y
@d char == 0..255
@d first_ord=0 {ordinal number of the smallest element of |char|}
@z
@x [34] (fill_buffer) end-of-line counts as a delimiter. Possibly a bug.
while (limit<buf_size-1)and(not eoln(vpl_file)) do begin
incr(limit); read(vpl_file,buffer[limit]);
end;
buffer[limit+1]:=' '; right_ln:=eoln(vpl_file);
@y
while (limit<buf_size-1)and(not eoln(vpl_file)) do begin
incr(limit); read(vpl_file,buffer[limit]);
end;
buffer[limit+1]:=' '; right_ln:=eoln(vpl_file);
if right_ln then begin incr(limit); buffer[limit+1]:=' ';
end;
@z
@x [37] (get_keyword_char) Unnecessary due to previous change.
begin while (loc=limit)and(not right_ln) do fill_buffer;
if loc=limit then cur_char:=" " {end-of-line counts as a delimiter}
else begin
@y
begin while loc=limit do fill_buffer;
begin
@z
% [89] `index' is not a good choice for an identifier on Unix systems.
% Neither is `class', on AIX.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@x
|k|th element of its list.
@y
|k|th element of its list.
@d index == index_var
@d class == class_var
@z
@x [130] No output (except errors) unless verbose.
@<Print |c| in hex notation@>;
@y
if verbose then @<Print |c| in hex notation@>;
@z
@x [133] No output (except errors) unless verbose.
@<Print |c| in hex notation@>;
@y
if verbose then @<Print |c| in hex notation@>;
@z
@x
print('-'); print_hex(c+crange);
@y
if verbose then begin
print('-'); print_hex(c+crange);
end;
@z
@x
@!HEX: packed array [1..32] of char;
@y
@!HEX: const_c_string;
@z
@x
HEX:='0123456789ABCDEF';@/
@y
HEX:=' 0123456789ABCDEF';@/
@z
@x [144] Output of real numbers.
@ @d round_message(#)==if delta>0 then print_ln('I had to round some ',
@.I had to round...@>
#,'s by ',(((delta+1) div 2)/@'4000000):1:7,' units.')
@y
@ @d round_message(#)==if delta>0 then begin print('I had to round some ',
@.I had to round...@>
#,'s by '); print_real((((delta+1) div 2)/@'4000000),1,7);
print_ln(' units.'); end
@z
@x [152] Fix up the mutually recursive procedures a la pltotf.
@p function f(@!h,@!x,@!y:indx):indx; forward;@t\2@>
{compute $f$ for arguments known to be in |hash[h]|}
@y
@p
ifdef('notdef')
function f(@!h,@!x,@!y:indx):indx; begin end;@t\2@>
{compute $f$ for arguments known to be in |hash[h]|}
endif('notdef')
@z
@x [153] Finish fixing up f.
@p function f;
@y
@p function f(@!h,@!x,@!y:indx):indx;
@z
@x [156] Change TFM-byte output to fix ranges.
@d out(#)==write(tfm_file,#)
@y
@d out(#)==putbyte(#,tfm_file)
@z
@x [165] Fix output of reals.
@p procedure out_scaled(x:fix_word); {outputs a scaled |fix_word|}
var @!n:byte; {the first byte after the sign}
@!m:0..65535; {the two least significant bytes}
begin if abs(x/design_units)>=16.0 then begin
print_ln('The relative dimension ',x/@'4000000:1:3,
' is too large.');
@.The relative dimension...@>
print(' (Must be less than 16*designsize');
if design_units<>unity then print(' =',design_units/@'200000:1:3,
' designunits');
@y
@p procedure out_scaled(x:fix_word); {outputs a scaled |fix_word|}
var @!n:byte; {the first byte after the sign}
@!m:0..65535; {the two least significant bytes}
begin if fabs(x/design_units)>=16.0 then begin
print('The relative dimension ');
print_real(x/@'4000000,1,3);
print_ln(' is too large.');
@.The relative dimension...@>
print(' (Must be less than 16*designsize');
if design_units<>unity then begin print(' =');
print_real(design_units/@'200000,1,3);
print(' designunits');
end;
@z
% [141] char_remainder[c] is unsigned, and label_table[sort_ptr].rr
% might be -1, and if -1 is coerced to being unsigned, it will be bigger
% than anything else.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
@x
while label_table[sort_ptr].rr>char_remainder[c] do begin
@y
while label_table[sort_ptr].rr>intcast(char_remainder[c]) do begin
@z
@x [175] Change VF-byte output to fix ranges.
@d vout(#)==write(vf_file,#)
@y
@d vout(#)==putbyte(#,vf_file)
@z
@x [204] Eliminate unused variables.
var @!krn_ptr:0..max_kerns; {an index into |kern|}
@!c:byte; {runs through all character codes}
@y
@z
@x [181?] Be quiet unless verbose.
read_input; print_ln('.');@/
@y
read_input;
if verbose then print_ln('.');
@z
@x [182] System-dependent changes.
This section should be replaced, if necessary, by changes to the program
that are necessary to make \.{VPtoVF} work at a particular installation.
It is usually best to design your change file so that all changes to
previous sections preserve the section numbering; then everybody's version
will be consistent with the printed program. More extensive changes,
which introduce new sections, can be inserted here; then only the index
itself will get a new section number.
@^system dependencies@>
@y
Parse a Unix-style command line.
@d argument_is (#) == (strcmp (long_options[option_index].name, #) = 0)
@<Define |parse_arguments|@> =
procedure parse_arguments;
const n_options = 3; {Pascal won't count array lengths for us.}
var @!long_options: array[0..n_options] of getopt_struct;
@!getopt_return_val: integer;
@!option_index: c_int_type;
@!current_option: 0..n_options;
begin
@<Initialize the option variables@>;
@<Define the option table@>;
repeat
getopt_return_val := getopt_long_only (argc, argv, '', long_options,
address_of (option_index));
if getopt_return_val = -1 then begin
{End of arguments; we exit the loop below.} ;
end else if getopt_return_val = "?" then begin
usage ('ovp2ovf'); {|getopt| has already given an error message.}
end else if argument_is ('help') then begin
usage_help (OVP2OVF_HELP, nil);
end else if argument_is ('version') then begin
print_version_and_exit
(banner, nil, 'J. Plaice, Y. Haralambous, D.E. Knuth', nil);
end; {Else it was a flag; |getopt| has already done the assignment.}
until getopt_return_val = -1;
{Now |optind| is the index of first non-option on the command line.
We must have one to three remaining arguments.}
if (optind + 1 <> argc) and (optind + 2 <> argc)
and (optind + 3 <> argc) then begin
write_ln (stderr, 'ovp2ovf: Need one to three file arguments.');
usage ('ovp2ovf');
end;
vpl_name := extend_filename (cmdline (optind), 'ovp');
if optind + 2 <= argc then begin
{Specified one or both of the output files.}
vf_name := extend_filename (cmdline (optind + 1), 'ovf');
if optind + 3 <= argc then begin {Both.}
tfm_name := extend_filename (cmdline (optind + 2), 'ofm');
end else begin {Just one.}
tfm_name := extend_filename (cmdline (optind + 1), 'ofm');
end;
end else begin {Neither.}
vf_name := basename_change_suffix (vpl_name, '.ovp', '.ovf');
tfm_name := basename_change_suffix (vpl_name, '.ovp', '.ofm');
end;
end;
@ Here are the options we allow. The first is one of the standard GNU options.
@.-help@>
@<Define the option...@> =
current_option := 0;
long_options[current_option].name := 'help';
long_options[current_option].has_arg := 0;
long_options[current_option].flag := 0;
long_options[current_option].val := 0;
incr (current_option);
@ Another of the standard options.
@.-version@>
@<Define the option...@> =
long_options[current_option].name := 'version';
long_options[current_option].has_arg := 0;
long_options[current_option].flag := 0;
long_options[current_option].val := 0;
incr (current_option);
@ Print progress information?
@.-verbose@>
@<Define the option...@> =
long_options[current_option].name := 'verbose';
long_options[current_option].has_arg := 0;
long_options[current_option].flag := address_of (verbose);
long_options[current_option].val := 1;
incr (current_option);
@ The global variable |verbose| determines whether or not we print
progress information.
@<Glob...@> =
@!verbose: c_int_type;
@ It starts off |false|.
@<Initialize the option...@> =
verbose := false;
@ An element with all zeros always ends the list.
@<Define the option...@> =
long_options[current_option].name := 0;
long_options[current_option].has_arg := 0;
long_options[current_option].flag := 0;
long_options[current_option].val := 0;
@ Global filenames.
@<Global...@> =
@!vpl_name, @!tfm_name, @!vf_name:const_c_string;
@z
|