% $Id: mp.w 597 2008-07-03 15:35:34Z 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 \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\title{Reading TEX metrics files} \pdfoutput=1 @ Introduction. @ Needed headers and macros @d qi(A) (quarterword)(A) /* to store eight bits in a quarterword */ @d null_font 0 /* the |font_number| for an empty font */ @d false 0 @d true 1 @d hlp1(A) mp->help_line[0]=A; } @d hlp2(A,B) mp->help_line[1]=A; hlp1(B) @d hlp3(A,B,C) mp->help_line[2]=A; hlp2(B,C) @d help3 { mp->help_ptr=3; hlp3 /* use this with three help lines */ @c #include "config.h" #include #include #include #include "mplib.h" #include "mpmp.h" /* internal header */ #include "mptfmin.h" /* internal header */ @h @ The |font_ps_name| for a built-in font should be what PostScript expects. A preliminary name is obtained here from the \.{TFM} name as given in the |fname| argument. This gets updated later from an external table if necessary. @(mptfmin.h@>= extern font_number mp_read_font_info (MP mp, char *fname); @ @c font_number mp_read_font_info (MP mp, char *fname) { boolean file_opened; /* has |tfm_infile| been opened? */ font_number n; /* the number to return */ halfword lf,tfm_lh,bc,ec,nw,nh,nd; /* subfile size parameters */ size_t whd_size; /* words needed for heights, widths, and depths */ int i,ii; /* |font_info| indices */ int jj; /* counts bytes to be ignored */ scaled z; /* used to compute the design size */ fraction d; /* height, width, or depth as a fraction of design size times $2^{-8}$ */ int h_and_d; /* height and depth indices being unpacked */ int tfbyte = 0; /* a byte read from the file */ n=null_font; @; @; BAD_TFM: @; DONE: if ( file_opened ) (mp->close_file)(mp,mp->tfm_infile); if ( n!=null_font ) { mp->font_ps_name[n]=mp_xstrdup(mp,fname); mp->font_name[n]=mp_xstrdup(mp,fname); } return n; } @ \MP\ doesn't bother to check the entire \.{TFM} file for errors or explain precisely what is wrong if it does find a problem. Programs called \.{TFtoPL} @.TFtoPL@> @.PLtoTF@> and \.{PLtoTF} can be used to debug \.{TFM} files. @= mp_print_err(mp,"Font "); mp_print(mp, fname); if ( file_opened ) mp_print(mp, " not usable: TFM file is bad"); else mp_print(mp, " not usable: TFM file not found"); help3("I wasn't able to read the size data for this font so this", "`infont' operation won't produce anything. If the font name", "is right, you might ask an expert to make a TFM file"); if ( file_opened ) mp->help_line[0]="is right, try asking an expert to fix the TFM file"; mp_error(mp) @ @= @; @; @; @ @ A bad \.{TFM} file can be shorter than it claims to be. The code given here might try to read past the end of the file if this happens. Changes will be needed if it causes a system error to refer to |tfm_infile^| or call |get_tfm_infile| when |eof(tfm_infile)| is true. For example, the definition @^system dependencies@> of |tfget| could be changed to ``|begin get(tfm_infile); if eof(tfm_infile) then goto bad_tfm; end|.'' @d tfget do { size_t wanted=1; unsigned char abyte=0; void *tfbyte_ptr = &abyte; (mp->read_binary_file)(mp,mp->tfm_infile, &tfbyte_ptr,&wanted); if (wanted==0) goto BAD_TFM; tfbyte = (int)abyte; } while (0) @d read_two(A) { (A)=tfbyte; if ( (A)>127 ) goto BAD_TFM; tfget; (A)=(A)*0400+tfbyte; } @d tf_ignore(A) { for (jj=(A);jj>=1;jj--) tfget; } @= tfget; read_two(lf); tfget; read_two(tfm_lh); tfget; read_two(bc); tfget; read_two(ec); if ( (bc>1+ec)||(ec>255) ) goto BAD_TFM; tfget; read_two(nw); tfget; read_two(nh); tfget; read_two(nd); whd_size=(size_t)((ec+1-bc)+nw+nh+nd); if ( lf<(int)(6+tfm_lh+whd_size) ) goto BAD_TFM; tf_ignore(10) @ Offsets are added to |char_base[n]| and |width_base[n]| so that is not necessary to apply the |so| and |qo| macros when looking up the width of a character in the string pool. In order to ensure nonnegative |char_base| values when |bc>0|, it may be necessary to reserve a few unused |font_info| elements. @= if ( mp->next_fmem<(size_t)bc) mp->next_fmem=(size_t)bc; /* ensure nonnegative |char_base| */ if (mp->last_fnum==mp->font_max) mp_reallocate_fonts(mp,(mp->font_max+(mp->font_max/4))); while (mp->next_fmem+whd_size>=mp->font_mem_size) { size_t l = mp->font_mem_size+(mp->font_mem_size/4); memory_word *font_info; font_info = mp_xmalloc (mp,(l+1),sizeof(memory_word)); memset (font_info,0,sizeof(memory_word)*(l+1)); memcpy (font_info,mp->font_info,sizeof(memory_word)*(mp->font_mem_size+1)); mp_xfree(mp->font_info); mp->font_info = font_info; mp->font_mem_size = l; } mp->last_fnum++; n=mp->last_fnum; mp->font_bc[n]=(eight_bits)bc; mp->font_ec[n]=(eight_bits)ec; mp->char_base[n]=(int)(mp->next_fmem-bc); mp->width_base[n]=(int)(mp->next_fmem+ec-bc+1); mp->height_base[n]=mp->width_base[n]+nw; mp->depth_base[n]=mp->height_base[n]+nh; mp->next_fmem=mp->next_fmem+whd_size; @ @= if ( tfm_lh<2 ) goto BAD_TFM; tf_ignore(4); tfget; read_two(z); tfget; z=z*0400+tfbyte; tfget; z=z*0400+tfbyte; /* now |z| is 16 times the design size */ mp->font_dsize[n]=mp_take_fraction(mp, z,267432584); /* times ${72\over72.27}2^{28}$ to convert from \TeX\ points */ tf_ignore(4*(tfm_lh-2)) @ @= ii=mp->width_base[n]; i=mp->char_base[n]+bc; while ( ifont_info[i].qqqq.b0=qi(tfbyte); tfget; h_and_d=tfbyte; mp->font_info[i].qqqq.b1=qi(h_and_d / 16); mp->font_info[i].qqqq.b2=qi(h_and_d % 16); tfget; tfget; i++; } while ( i<(int)mp->next_fmem ) { @; } goto DONE @ The raw dimension read into |d| should have magnitude at most $2^{24}$ when interpreted as an integer, and this includes a scale factor of $2^{20}$. Thus we can multiply it by sixteen and think of it as a |fraction| that has been divided by sixteen. This cancels the extra scale factor contained in |font_dsize[n|. @= { tfget; d=tfbyte; if ( d>=0200 ) d=d-0400; tfget; d=d*0400+tfbyte; tfget; d=d*0400+tfbyte; tfget; d=d*0400+tfbyte; mp->font_info[i].cint=mp_take_fraction(mp, d*16,mp->font_dsize[n]); i++; } @ This function does no longer use the file name parser, because |fname| is a C string already. @= file_opened=false; mp_ptr_scan_file(mp, fname); if ( strlen(mp->cur_area)==0 ) { mp_xfree(mp->cur_area); mp->cur_area=NULL; } if ( strlen(mp->cur_ext)==0 ) { mp_xfree(mp->cur_ext); mp->cur_ext=mp_xstrdup(mp,".tfm"); } mp_pack_file_name(mp, mp->cur_name,mp->cur_area,mp->cur_ext); mp->tfm_infile = (mp->open_file)(mp, mp->name_of_file, "r",mp_filetype_metrics); if ( !mp->tfm_infile ) goto BAD_TFM; file_opened=true