Current Path : /usr/src/contrib/groff/src/roff/troff/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/contrib/groff/src/roff/troff/node.cpp |
// -*- C++ -*- /* Copyright (C) 1989, 1990, 1991, 1992, 2000, 2001, 2002, 2003, 2004, 2005 Free Software Foundation, Inc. Written by James Clark (jjc@jclark.com) This file is part of groff. groff is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. groff 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 General Public License for more details. You should have received a copy of the GNU General Public License along with groff; see the file COPYING. If not, write to the Free Software Foundation, 51 Franklin St - Fifth Floor, Boston, MA 02110-1301, USA. */ extern int debug_state; #include "troff.h" #ifdef HAVE_UNISTD_H #include <unistd.h> #endif #include "dictionary.h" #include "hvunits.h" #include "stringclass.h" #include "mtsm.h" #include "env.h" #include "request.h" #include "node.h" #include "token.h" #include "div.h" #include "reg.h" #include "charinfo.h" #include "font.h" #include "input.h" #include "geometry.h" #include "nonposix.h" #ifdef _POSIX_VERSION #include <sys/wait.h> #else /* not _POSIX_VERSION */ /* traditional Unix */ #define WIFEXITED(s) (((s) & 0377) == 0) #define WEXITSTATUS(s) (((s) >> 8) & 0377) #define WTERMSIG(s) ((s) & 0177) #define WIFSTOPPED(s) (((s) & 0377) == 0177) #define WSTOPSIG(s) (((s) >> 8) & 0377) #define WIFSIGNALED(s) (((s) & 0377) != 0 && (((s) & 0377) != 0177)) #endif /* not _POSIX_VERSION */ // declarations to avoid friend name injections class tfont; class tfont_spec; tfont *make_tfont(tfont_spec &); /* * how many boundaries of images have been written? Useful for * debugging grohtml */ int image_no = 0; static int suppress_start_page = 0; #define STORE_WIDTH 1 symbol HYPHEN_SYMBOL("hy"); // Character used when a hyphen is inserted at a line break. static charinfo *soft_hyphen_char; enum constant_space_type { CONSTANT_SPACE_NONE, CONSTANT_SPACE_RELATIVE, CONSTANT_SPACE_ABSOLUTE }; struct special_font_list { int n; special_font_list *next; }; special_font_list *global_special_fonts; static int global_ligature_mode = 1; static int global_kern_mode = 1; class track_kerning_function { int non_zero; units min_size; hunits min_amount; units max_size; hunits max_amount; public: track_kerning_function(); track_kerning_function(units, hunits, units, hunits); int operator==(const track_kerning_function &); int operator!=(const track_kerning_function &); hunits compute(int point_size); }; // embolden fontno when this is the current font struct conditional_bold { conditional_bold *next; int fontno; hunits offset; conditional_bold(int, hunits, conditional_bold * = 0); }; class font_info { tfont *last_tfont; int number; font_size last_size; int last_height; int last_slant; symbol internal_name; symbol external_name; font *fm; char is_bold; hunits bold_offset; track_kerning_function track_kern; constant_space_type is_constant_spaced; units constant_space; int last_ligature_mode; int last_kern_mode; conditional_bold *cond_bold_list; void flush(); public: special_font_list *sf; font_info(symbol, int, symbol, font *); int contains(charinfo *); void set_bold(hunits); void unbold(); void set_conditional_bold(int, hunits); void conditional_unbold(int); void set_track_kern(track_kerning_function &); void set_constant_space(constant_space_type, units = 0); int is_named(symbol); symbol get_name(); tfont *get_tfont(font_size, int, int, int); hunits get_space_width(font_size, int); hunits get_narrow_space_width(font_size); hunits get_half_narrow_space_width(font_size); int get_bold(hunits *); int is_special(); int is_style(); friend symbol get_font_name(int, environment *); friend symbol get_style_name(int); }; class tfont_spec { protected: symbol name; int input_position; font *fm; font_size size; char is_bold; char is_constant_spaced; int ligature_mode; int kern_mode; hunits bold_offset; hunits track_kern; // add this to the width hunits constant_space_width; int height; int slant; public: tfont_spec(symbol, int, font *, font_size, int, int); tfont_spec(const tfont_spec &spec) { *this = spec; } tfont_spec plain(); int operator==(const tfont_spec &); friend tfont *font_info::get_tfont(font_size fs, int, int, int); }; class tfont : public tfont_spec { static tfont *tfont_list; tfont *next; tfont *plain_version; public: tfont(tfont_spec &); int contains(charinfo *); hunits get_width(charinfo *c); int get_bold(hunits *); int get_constant_space(hunits *); hunits get_track_kern(); tfont *get_plain(); font_size get_size(); symbol get_name(); charinfo *get_lig(charinfo *c1, charinfo *c2); int get_kern(charinfo *c1, charinfo *c2, hunits *res); int get_input_position(); int get_character_type(charinfo *); int get_height(); int get_slant(); vunits get_char_height(charinfo *); vunits get_char_depth(charinfo *); hunits get_char_skew(charinfo *); hunits get_italic_correction(charinfo *); hunits get_left_italic_correction(charinfo *); hunits get_subscript_correction(charinfo *); friend tfont *make_tfont(tfont_spec &); }; inline int env_definite_font(environment *env) { return env->get_family()->make_definite(env->get_font()); } /* font_info functions */ static font_info **font_table = 0; static int font_table_size = 0; font_info::font_info(symbol nm, int n, symbol enm, font *f) : last_tfont(0), number(n), last_size(0), internal_name(nm), external_name(enm), fm(f), is_bold(0), is_constant_spaced(CONSTANT_SPACE_NONE), last_ligature_mode(1), last_kern_mode(1), cond_bold_list(0), sf(0) { } inline int font_info::contains(charinfo *ci) { return fm != 0 && fm->contains(ci->get_index()); } inline int font_info::is_special() { return fm != 0 && fm->is_special(); } inline int font_info::is_style() { return fm == 0; } tfont *make_tfont(tfont_spec &spec) { for (tfont *p = tfont::tfont_list; p; p = p->next) if (*p == spec) return p; return new tfont(spec); } // this is the current_font, fontno is where we found the character, // presumably a special font tfont *font_info::get_tfont(font_size fs, int height, int slant, int fontno) { if (last_tfont == 0 || fs != last_size || height != last_height || slant != last_slant || global_ligature_mode != last_ligature_mode || global_kern_mode != last_kern_mode || fontno != number) { font_info *f = font_table[fontno]; tfont_spec spec(f->external_name, f->number, f->fm, fs, height, slant); for (conditional_bold *p = cond_bold_list; p; p = p->next) if (p->fontno == fontno) { spec.is_bold = 1; spec.bold_offset = p->offset; break; } if (!spec.is_bold && is_bold) { spec.is_bold = 1; spec.bold_offset = bold_offset; } spec.track_kern = track_kern.compute(fs.to_scaled_points()); spec.ligature_mode = global_ligature_mode; spec.kern_mode = global_kern_mode; switch (is_constant_spaced) { case CONSTANT_SPACE_NONE: break; case CONSTANT_SPACE_ABSOLUTE: spec.is_constant_spaced = 1; spec.constant_space_width = constant_space; break; case CONSTANT_SPACE_RELATIVE: spec.is_constant_spaced = 1; spec.constant_space_width = scale(constant_space*fs.to_scaled_points(), units_per_inch, 36*72*sizescale); break; default: assert(0); } if (fontno != number) return make_tfont(spec); last_tfont = make_tfont(spec); last_size = fs; last_height = height; last_slant = slant; last_ligature_mode = global_ligature_mode; last_kern_mode = global_kern_mode; } return last_tfont; } int font_info::get_bold(hunits *res) { if (is_bold) { *res = bold_offset; return 1; } else return 0; } void font_info::unbold() { if (is_bold) { is_bold = 0; flush(); } } void font_info::set_bold(hunits offset) { if (!is_bold || offset != bold_offset) { is_bold = 1; bold_offset = offset; flush(); } } void font_info::set_conditional_bold(int fontno, hunits offset) { for (conditional_bold *p = cond_bold_list; p; p = p->next) if (p->fontno == fontno) { if (offset != p->offset) { p->offset = offset; flush(); } return; } cond_bold_list = new conditional_bold(fontno, offset, cond_bold_list); } conditional_bold::conditional_bold(int f, hunits h, conditional_bold *x) : next(x), fontno(f), offset(h) { } void font_info::conditional_unbold(int fontno) { for (conditional_bold **p = &cond_bold_list; *p; p = &(*p)->next) if ((*p)->fontno == fontno) { conditional_bold *tem = *p; *p = (*p)->next; delete tem; flush(); return; } } void font_info::set_constant_space(constant_space_type type, units x) { if (type != is_constant_spaced || (type != CONSTANT_SPACE_NONE && x != constant_space)) { flush(); is_constant_spaced = type; constant_space = x; } } void font_info::set_track_kern(track_kerning_function &tk) { if (track_kern != tk) { track_kern = tk; flush(); } } void font_info::flush() { last_tfont = 0; } int font_info::is_named(symbol s) { return internal_name == s; } symbol font_info::get_name() { return internal_name; } symbol get_font_name(int fontno, environment *env) { symbol f = font_table[fontno]->get_name(); if (font_table[fontno]->is_style()) { return concat(env->get_family()->nm, f); } return f; } symbol get_style_name(int fontno) { if (font_table[fontno]->is_style()) return font_table[fontno]->get_name(); else return EMPTY_SYMBOL; } hunits font_info::get_space_width(font_size fs, int space_sz) { if (is_constant_spaced == CONSTANT_SPACE_NONE) return scale(hunits(fm->get_space_width(fs.to_scaled_points())), space_sz, 12); else if (is_constant_spaced == CONSTANT_SPACE_ABSOLUTE) return constant_space; else return scale(constant_space*fs.to_scaled_points(), units_per_inch, 36*72*sizescale); } hunits font_info::get_narrow_space_width(font_size fs) { charinfo *ci = get_charinfo(symbol("|")); if (fm->contains(ci->get_index())) return hunits(fm->get_width(ci->get_index(), fs.to_scaled_points())); else return hunits(fs.to_units()/6); } hunits font_info::get_half_narrow_space_width(font_size fs) { charinfo *ci = get_charinfo(symbol("^")); if (fm->contains(ci->get_index())) return hunits(fm->get_width(ci->get_index(), fs.to_scaled_points())); else return hunits(fs.to_units()/12); } /* tfont */ tfont_spec::tfont_spec(symbol nm, int n, font *f, font_size s, int h, int sl) : name(nm), input_position(n), fm(f), size(s), is_bold(0), is_constant_spaced(0), ligature_mode(1), kern_mode(1), height(h), slant(sl) { if (height == size.to_scaled_points()) height = 0; } int tfont_spec::operator==(const tfont_spec &spec) { if (fm == spec.fm && size == spec.size && input_position == spec.input_position && name == spec.name && height == spec.height && slant == spec.slant && (is_bold ? (spec.is_bold && bold_offset == spec.bold_offset) : !spec.is_bold) && track_kern == spec.track_kern && (is_constant_spaced ? (spec.is_constant_spaced && constant_space_width == spec.constant_space_width) : !spec.is_constant_spaced) && ligature_mode == spec.ligature_mode && kern_mode == spec.kern_mode) return 1; else return 0; } tfont_spec tfont_spec::plain() { return tfont_spec(name, input_position, fm, size, height, slant); } hunits tfont::get_width(charinfo *c) { if (is_constant_spaced) return constant_space_width; else if (is_bold) return (hunits(fm->get_width(c->get_index(), size.to_scaled_points())) + track_kern + bold_offset); else return (hunits(fm->get_width(c->get_index(), size.to_scaled_points())) + track_kern); } vunits tfont::get_char_height(charinfo *c) { vunits v = fm->get_height(c->get_index(), size.to_scaled_points()); if (height != 0 && height != size.to_scaled_points()) return scale(v, height, size.to_scaled_points()); else return v; } vunits tfont::get_char_depth(charinfo *c) { vunits v = fm->get_depth(c->get_index(), size.to_scaled_points()); if (height != 0 && height != size.to_scaled_points()) return scale(v, height, size.to_scaled_points()); else return v; } hunits tfont::get_char_skew(charinfo *c) { return hunits(fm->get_skew(c->get_index(), size.to_scaled_points(), slant)); } hunits tfont::get_italic_correction(charinfo *c) { return hunits(fm->get_italic_correction(c->get_index(), size.to_scaled_points())); } hunits tfont::get_left_italic_correction(charinfo *c) { return hunits(fm->get_left_italic_correction(c->get_index(), size.to_scaled_points())); } hunits tfont::get_subscript_correction(charinfo *c) { return hunits(fm->get_subscript_correction(c->get_index(), size.to_scaled_points())); } inline int tfont::get_input_position() { return input_position; } inline int tfont::contains(charinfo *ci) { return fm->contains(ci->get_index()); } inline int tfont::get_character_type(charinfo *ci) { return fm->get_character_type(ci->get_index()); } inline int tfont::get_bold(hunits *res) { if (is_bold) { *res = bold_offset; return 1; } else return 0; } inline int tfont::get_constant_space(hunits *res) { if (is_constant_spaced) { *res = constant_space_width; return 1; } else return 0; } inline hunits tfont::get_track_kern() { return track_kern; } inline tfont *tfont::get_plain() { return plain_version; } inline font_size tfont::get_size() { return size; } inline symbol tfont::get_name() { return name; } inline int tfont::get_height() { return height; } inline int tfont::get_slant() { return slant; } symbol SYMBOL_ff("ff"); symbol SYMBOL_fi("fi"); symbol SYMBOL_fl("fl"); symbol SYMBOL_Fi("Fi"); symbol SYMBOL_Fl("Fl"); charinfo *tfont::get_lig(charinfo *c1, charinfo *c2) { if (ligature_mode == 0) return 0; charinfo *ci = 0; if (c1->get_ascii_code() == 'f') { switch (c2->get_ascii_code()) { case 'f': if (fm->has_ligature(font::LIG_ff)) ci = get_charinfo(SYMBOL_ff); break; case 'i': if (fm->has_ligature(font::LIG_fi)) ci = get_charinfo(SYMBOL_fi); break; case 'l': if (fm->has_ligature(font::LIG_fl)) ci = get_charinfo(SYMBOL_fl); break; } } else if (ligature_mode != 2 && c1->nm == SYMBOL_ff) { switch (c2->get_ascii_code()) { case 'i': if (fm->has_ligature(font::LIG_ffi)) ci = get_charinfo(SYMBOL_Fi); break; case 'l': if (fm->has_ligature(font::LIG_ffl)) ci = get_charinfo(SYMBOL_Fl); break; } } if (ci != 0 && fm->contains(ci->get_index())) return ci; return 0; } inline int tfont::get_kern(charinfo *c1, charinfo *c2, hunits *res) { if (kern_mode == 0) return 0; else { int n = fm->get_kern(c1->get_index(), c2->get_index(), size.to_scaled_points()); if (n) { *res = hunits(n); return 1; } else return 0; } } tfont *tfont::tfont_list = 0; tfont::tfont(tfont_spec &spec) : tfont_spec(spec) { next = tfont_list; tfont_list = this; tfont_spec plain_spec = plain(); tfont *p; for (p = tfont_list; p; p = p->next) if (*p == plain_spec) { plain_version = p; break; } if (!p) plain_version = new tfont(plain_spec); } /* output_file */ class real_output_file : public output_file { #ifndef POPEN_MISSING int piped; #endif int printing; // decision via optional page list int output_on; // \O[0] or \O[1] escape calls virtual void really_transparent_char(unsigned char) = 0; virtual void really_print_line(hunits x, vunits y, node *n, vunits before, vunits after, hunits width) = 0; virtual void really_begin_page(int pageno, vunits page_length) = 0; virtual void really_copy_file(hunits x, vunits y, const char *filename); virtual void really_put_filename(const char *filename); virtual void really_on(); virtual void really_off(); public: FILE *fp; real_output_file(); ~real_output_file(); void flush(); void transparent_char(unsigned char); void print_line(hunits x, vunits y, node *n, vunits before, vunits after, hunits width); void begin_page(int pageno, vunits page_length); void put_filename(const char *filename); void on(); void off(); int is_on(); int is_printing(); void copy_file(hunits x, vunits y, const char *filename); }; class suppress_output_file : public real_output_file { public: suppress_output_file(); void really_transparent_char(unsigned char); void really_print_line(hunits x, vunits y, node *n, vunits, vunits, hunits width); void really_begin_page(int pageno, vunits page_length); }; class ascii_output_file : public real_output_file { public: ascii_output_file(); void really_transparent_char(unsigned char); void really_print_line(hunits x, vunits y, node *n, vunits, vunits, hunits width); void really_begin_page(int pageno, vunits page_length); void outc(unsigned char c); void outs(const char *s); }; void ascii_output_file::outc(unsigned char c) { fputc(c, fp); } void ascii_output_file::outs(const char *s) { fputc('<', fp); if (s) fputs(s, fp); fputc('>', fp); } struct hvpair; class troff_output_file : public real_output_file { units hpos; units vpos; units output_vpos; units output_hpos; int force_motion; int current_size; int current_slant; int current_height; tfont *current_tfont; color *current_fill_color; color *current_glyph_color; int current_font_number; symbol *font_position; int nfont_positions; enum { TBUF_SIZE = 256 }; char tbuf[TBUF_SIZE]; int tbuf_len; int tbuf_kern; int begun_page; int cur_div_level; string tag_list; void do_motion(); void put(char c); void put(unsigned char c); void put(int i); void put(unsigned int i); void put(const char *s); void set_font(tfont *tf); void flush_tbuf(); public: troff_output_file(); ~troff_output_file(); void trailer(vunits page_length); void put_char(charinfo *, tfont *, color *, color *); void put_char_width(charinfo *, tfont *, color *, color *, hunits, hunits); void right(hunits); void down(vunits); void moveto(hunits, vunits); void start_special(tfont *, color *, color *, int = 0); void start_special(); void special_char(unsigned char c); void end_special(); void word_marker(); void really_transparent_char(unsigned char c); void really_print_line(hunits x, vunits y, node *n, vunits before, vunits after, hunits width); void really_begin_page(int pageno, vunits page_length); void really_copy_file(hunits x, vunits y, const char *filename); void really_put_filename(const char *filename); void really_on(); void really_off(); void draw(char, hvpair *, int, font_size, color *, color *); void determine_line_limits (char code, hvpair *point, int npoints); void check_charinfo(tfont *tf, charinfo *ci); void glyph_color(color *c); void fill_color(color *c); int get_hpos() { return hpos; } int get_vpos() { return vpos; } void add_to_tag_list(string s); friend void space_char_hmotion_node::tprint(troff_output_file *); friend void unbreakable_space_node::tprint(troff_output_file *); }; static void put_string(const char *s, FILE *fp) { for (; *s != '\0'; ++s) putc(*s, fp); } inline void troff_output_file::put(char c) { putc(c, fp); } inline void troff_output_file::put(unsigned char c) { putc(c, fp); } inline void troff_output_file::put(const char *s) { put_string(s, fp); } inline void troff_output_file::put(int i) { put_string(i_to_a(i), fp); } inline void troff_output_file::put(unsigned int i) { put_string(ui_to_a(i), fp); } void troff_output_file::start_special(tfont *tf, color *gcol, color *fcol, int no_init_string) { set_font(tf); glyph_color(gcol); fill_color(fcol); flush_tbuf(); do_motion(); if (!no_init_string) put("x X "); } void troff_output_file::start_special() { flush_tbuf(); do_motion(); put("x X "); } void troff_output_file::special_char(unsigned char c) { put(c); if (c == '\n') put('+'); } void troff_output_file::end_special() { put('\n'); } inline void troff_output_file::moveto(hunits h, vunits v) { hpos = h.to_units(); vpos = v.to_units(); } void troff_output_file::really_print_line(hunits x, vunits y, node *n, vunits before, vunits after, hunits) { moveto(x, y); while (n != 0) { // Check whether we should push the current troff state and use // the state at the start of the invocation of this diversion. if (n->div_nest_level > cur_div_level && n->push_state) { state.push_state(n->push_state); cur_div_level = n->div_nest_level; } // Has the current diversion level decreased? Then we must pop the // troff state. while (n->div_nest_level < cur_div_level) { state.pop_state(); cur_div_level = n->div_nest_level; } // Now check whether the state has changed. if ((is_on() || n->force_tprint()) && (state.changed(n->state) || n->is_tag() || n->is_special)) { flush_tbuf(); do_motion(); force_motion = 1; flush(); state.flush(fp, n->state, tag_list); tag_list = string(""); flush(); } n->tprint(this); n = n->next; } flush_tbuf(); // This ensures that transparent throughput will have a more predictable // position. do_motion(); force_motion = 1; hpos = 0; put('n'); put(before.to_units()); put(' '); put(after.to_units()); put('\n'); } inline void troff_output_file::word_marker() { flush_tbuf(); if (is_on()) put('w'); } inline void troff_output_file::right(hunits n) { hpos += n.to_units(); } inline void troff_output_file::down(vunits n) { vpos += n.to_units(); } void troff_output_file::do_motion() { if (force_motion) { put('V'); put(vpos); put('\n'); put('H'); put(hpos); put('\n'); } else { if (hpos != output_hpos) { units n = hpos - output_hpos; if (n > 0 && n < hpos) { put('h'); put(n); } else { put('H'); put(hpos); } put('\n'); } if (vpos != output_vpos) { units n = vpos - output_vpos; if (n > 0 && n < vpos) { put('v'); put(n); } else { put('V'); put(vpos); } put('\n'); } } output_vpos = vpos; output_hpos = hpos; force_motion = 0; } void troff_output_file::flush_tbuf() { if (!is_on()) { tbuf_len = 0; return; } if (tbuf_len == 0) return; if (tbuf_kern == 0) put('t'); else { put('u'); put(tbuf_kern); put(' '); } check_output_limits(hpos, vpos); check_output_limits(hpos, vpos - current_size); for (int i = 0; i < tbuf_len; i++) put(tbuf[i]); put('\n'); tbuf_len = 0; } void troff_output_file::check_charinfo(tfont *tf, charinfo *ci) { if (!is_on()) return; int height = tf->get_char_height(ci).to_units(); int width = tf->get_width(ci).to_units() + tf->get_italic_correction(ci).to_units(); int depth = tf->get_char_depth(ci).to_units(); check_output_limits(output_hpos, output_vpos - height); check_output_limits(output_hpos + width, output_vpos + depth); } void troff_output_file::put_char_width(charinfo *ci, tfont *tf, color *gcol, color *fcol, hunits w, hunits k) { int kk = k.to_units(); if (!is_on()) { flush_tbuf(); hpos += w.to_units() + kk; return; } set_font(tf); unsigned char c = ci->get_ascii_code(); if (c == '\0') { glyph_color(gcol); fill_color(fcol); flush_tbuf(); do_motion(); check_charinfo(tf, ci); if (ci->numbered()) { put('N'); put(ci->get_number()); } else { put('C'); const char *s = ci->nm.contents(); if (s[1] == 0) { put('\\'); put(s[0]); } else put(s); } put('\n'); hpos += w.to_units() + kk; } else if (tcommand_flag) { if (tbuf_len > 0 && hpos == output_hpos && vpos == output_vpos && (!gcol || gcol == current_glyph_color) && (!fcol || fcol == current_fill_color) && kk == tbuf_kern && tbuf_len < TBUF_SIZE) { check_charinfo(tf, ci); tbuf[tbuf_len++] = c; output_hpos += w.to_units() + kk; hpos = output_hpos; return; } glyph_color(gcol); fill_color(fcol); flush_tbuf(); do_motion(); check_charinfo(tf, ci); tbuf[tbuf_len++] = c; output_hpos += w.to_units() + kk; tbuf_kern = kk; hpos = output_hpos; } else { // flush_tbuf(); int n = hpos - output_hpos; check_charinfo(tf, ci); // check_output_limits(output_hpos, output_vpos); if (vpos == output_vpos && (!gcol || gcol == current_glyph_color) && (!fcol || fcol == current_fill_color) && n > 0 && n < 100 && !force_motion) { put(char(n/10 + '0')); put(char(n%10 + '0')); put(c); output_hpos = hpos; } else { glyph_color(gcol); fill_color(fcol); do_motion(); put('c'); put(c); } hpos += w.to_units() + kk; } } void troff_output_file::put_char(charinfo *ci, tfont *tf, color *gcol, color *fcol) { flush_tbuf(); if (!is_on()) return; set_font(tf); unsigned char c = ci->get_ascii_code(); if (c == '\0') { glyph_color(gcol); fill_color(fcol); flush_tbuf(); do_motion(); if (ci->numbered()) { put('N'); put(ci->get_number()); } else { put('C'); const char *s = ci->nm.contents(); if (s[1] == 0) { put('\\'); put(s[0]); } else put(s); } put('\n'); } else { int n = hpos - output_hpos; if (vpos == output_vpos && (!gcol || gcol == current_glyph_color) && (!fcol || fcol == current_fill_color) && n > 0 && n < 100) { put(char(n/10 + '0')); put(char(n%10 + '0')); put(c); output_hpos = hpos; } else { glyph_color(gcol); fill_color(fcol); flush_tbuf(); do_motion(); put('c'); put(c); } } } // set_font calls `flush_tbuf' if necessary. void troff_output_file::set_font(tfont *tf) { if (current_tfont == tf) return; flush_tbuf(); int n = tf->get_input_position(); symbol nm = tf->get_name(); if (n >= nfont_positions || font_position[n] != nm) { put("x font "); put(n); put(' '); put(nm.contents()); put('\n'); if (n >= nfont_positions) { int old_nfont_positions = nfont_positions; symbol *old_font_position = font_position; nfont_positions *= 3; nfont_positions /= 2; if (nfont_positions <= n) nfont_positions = n + 10; font_position = new symbol[nfont_positions]; memcpy(font_position, old_font_position, old_nfont_positions*sizeof(symbol)); a_delete old_font_position; } font_position[n] = nm; } if (current_font_number != n) { put('f'); put(n); put('\n'); current_font_number = n; } int size = tf->get_size().to_scaled_points(); if (current_size != size) { put('s'); put(size); put('\n'); current_size = size; } int slant = tf->get_slant(); if (current_slant != slant) { put("x Slant "); put(slant); put('\n'); current_slant = slant; } int height = tf->get_height(); if (current_height != height) { put("x Height "); put(height == 0 ? current_size : height); put('\n'); current_height = height; } current_tfont = tf; } // fill_color calls `flush_tbuf' and `do_motion' if necessary. void troff_output_file::fill_color(color *col) { if (!col || current_fill_color == col) return; current_fill_color = col; if (!color_flag) return; flush_tbuf(); do_motion(); put("DF"); unsigned int components[4]; color_scheme cs; cs = col->get_components(components); switch (cs) { case DEFAULT: put('d'); break; case RGB: put("r "); put(Red); put(' '); put(Green); put(' '); put(Blue); break; case CMY: put("c "); put(Cyan); put(' '); put(Magenta); put(' '); put(Yellow); break; case CMYK: put("k "); put(Cyan); put(' '); put(Magenta); put(' '); put(Yellow); put(' '); put(Black); break; case GRAY: put("g "); put(Gray); break; } put('\n'); } // glyph_color calls `flush_tbuf' and `do_motion' if necessary. void troff_output_file::glyph_color(color *col) { if (!col || current_glyph_color == col) return; current_glyph_color = col; if (!color_flag) return; flush_tbuf(); // grotty doesn't like a color command if the vertical position is zero. do_motion(); put("m"); unsigned int components[4]; color_scheme cs; cs = col->get_components(components); switch (cs) { case DEFAULT: put('d'); break; case RGB: put("r "); put(Red); put(' '); put(Green); put(' '); put(Blue); break; case CMY: put("c "); put(Cyan); put(' '); put(Magenta); put(' '); put(Yellow); break; case CMYK: put("k "); put(Cyan); put(' '); put(Magenta); put(' '); put(Yellow); put(' '); put(Black); break; case GRAY: put("g "); put(Gray); break; } put('\n'); } void troff_output_file::add_to_tag_list(string s) { if (tag_list == string("")) tag_list = s; else { tag_list += string("\n"); tag_list += s; } } // determine_line_limits - works out the smallest box which will contain // the entity, code, built from the point array. void troff_output_file::determine_line_limits(char code, hvpair *point, int npoints) { int i, x, y; if (!is_on()) return; switch (code) { case 'c': case 'C': // only the h field is used when defining a circle check_output_limits(output_hpos, output_vpos - point[0].h.to_units()/2); check_output_limits(output_hpos + point[0].h.to_units(), output_vpos + point[0].h.to_units()/2); break; case 'E': case 'e': check_output_limits(output_hpos, output_vpos - point[0].v.to_units()/2); check_output_limits(output_hpos + point[0].h.to_units(), output_vpos + point[0].v.to_units()/2); break; case 'P': case 'p': x = output_hpos; y = output_vpos; check_output_limits(x, y); for (i = 0; i < npoints; i++) { x += point[i].h.to_units(); y += point[i].v.to_units(); check_output_limits(x, y); } break; case 't': x = output_hpos; y = output_vpos; for (i = 0; i < npoints; i++) { x += point[i].h.to_units(); y += point[i].v.to_units(); check_output_limits(x, y); } break; case 'a': double c[2]; int p[4]; int minx, miny, maxx, maxy; x = output_hpos; y = output_vpos; p[0] = point[0].h.to_units(); p[1] = point[0].v.to_units(); p[2] = point[1].h.to_units(); p[3] = point[1].v.to_units(); if (adjust_arc_center(p, c)) { check_output_arc_limits(x, y, p[0], p[1], p[2], p[3], c[0], c[1], &minx, &maxx, &miny, &maxy); check_output_limits(minx, miny); check_output_limits(maxx, maxy); break; } // fall through case 'l': x = output_hpos; y = output_vpos; check_output_limits(x, y); for (i = 0; i < npoints; i++) { x += point[i].h.to_units(); y += point[i].v.to_units(); check_output_limits(x, y); } break; default: x = output_hpos; y = output_vpos; for (i = 0; i < npoints; i++) { x += point[i].h.to_units(); y += point[i].v.to_units(); check_output_limits(x, y); } } } void troff_output_file::draw(char code, hvpair *point, int npoints, font_size fsize, color *gcol, color *fcol) { int i; glyph_color(gcol); fill_color(fcol); flush_tbuf(); do_motion(); if (is_on()) { int size = fsize.to_scaled_points(); if (current_size != size) { put('s'); put(size); put('\n'); current_size = size; current_tfont = 0; } put('D'); put(code); if (code == 'c') { put(' '); put(point[0].h.to_units()); } else for (i = 0; i < npoints; i++) { put(' '); put(point[i].h.to_units()); put(' '); put(point[i].v.to_units()); } determine_line_limits(code, point, npoints); } for (i = 0; i < npoints; i++) output_hpos += point[i].h.to_units(); hpos = output_hpos; if (code != 'e') { for (i = 0; i < npoints; i++) output_vpos += point[i].v.to_units(); vpos = output_vpos; } if (is_on()) put('\n'); } void troff_output_file::really_on() { flush_tbuf(); force_motion = 1; do_motion(); } void troff_output_file::really_off() { flush_tbuf(); } void troff_output_file::really_put_filename(const char *filename) { flush_tbuf(); put("F "); put(filename); put('\n'); } void troff_output_file::really_begin_page(int pageno, vunits page_length) { flush_tbuf(); if (begun_page) { if (page_length > V0) { put('V'); put(page_length.to_units()); put('\n'); } } else begun_page = 1; current_tfont = 0; current_font_number = -1; current_size = 0; // current_height = 0; // current_slant = 0; hpos = 0; vpos = 0; output_hpos = 0; output_vpos = 0; force_motion = 1; for (int i = 0; i < nfont_positions; i++) font_position[i] = NULL_SYMBOL; put('p'); put(pageno); put('\n'); } void troff_output_file::really_copy_file(hunits x, vunits y, const char *filename) { moveto(x, y); flush_tbuf(); do_motion(); errno = 0; FILE *ifp = include_search_path.open_file_cautious(filename); if (ifp == 0) error("can't open `%1': %2", filename, strerror(errno)); else { int c; while ((c = getc(ifp)) != EOF) put(char(c)); fclose(ifp); } force_motion = 1; current_size = 0; current_tfont = 0; current_font_number = -1; for (int i = 0; i < nfont_positions; i++) font_position[i] = NULL_SYMBOL; } void troff_output_file::really_transparent_char(unsigned char c) { put(c); } troff_output_file::~troff_output_file() { a_delete font_position; } void troff_output_file::trailer(vunits page_length) { flush_tbuf(); if (page_length > V0) { put("x trailer\n"); put('V'); put(page_length.to_units()); put('\n'); } put("x stop\n"); } troff_output_file::troff_output_file() : current_slant(0), current_height(0), current_fill_color(0), current_glyph_color(0), nfont_positions(10), tbuf_len(0), begun_page(0), cur_div_level(0) { font_position = new symbol[nfont_positions]; put("x T "); put(device); put('\n'); put("x res "); put(units_per_inch); put(' '); put(hresolution); put(' '); put(vresolution); put('\n'); put("x init\n"); } /* output_file */ output_file *the_output = 0; output_file::output_file() { } output_file::~output_file() { } void output_file::trailer(vunits) { } void output_file::put_filename(const char *) { } void output_file::on() { } void output_file::off() { } real_output_file::real_output_file() : printing(0), output_on(1) { #ifndef POPEN_MISSING if (pipe_command) { if ((fp = popen(pipe_command, POPEN_WT)) != 0) { piped = 1; return; } error("pipe open failed: %1", strerror(errno)); } piped = 0; #endif /* not POPEN_MISSING */ fp = stdout; } real_output_file::~real_output_file() { if (!fp) return; // To avoid looping, set fp to 0 before calling fatal(). if (ferror(fp) || fflush(fp) < 0) { fp = 0; fatal("error writing output file"); } #ifndef POPEN_MISSING if (piped) { int result = pclose(fp); fp = 0; if (result < 0) fatal("pclose failed"); if (!WIFEXITED(result)) error("output process `%1' got fatal signal %2", pipe_command, WIFSIGNALED(result) ? WTERMSIG(result) : WSTOPSIG(result)); else { int exit_status = WEXITSTATUS(result); if (exit_status != 0) error("output process `%1' exited with status %2", pipe_command, exit_status); } } else #endif /* not POPEN MISSING */ if (fclose(fp) < 0) { fp = 0; fatal("error closing output file"); } } void real_output_file::flush() { if (fflush(fp) < 0) fatal("error writing output file"); } int real_output_file::is_printing() { return printing; } void real_output_file::begin_page(int pageno, vunits page_length) { printing = in_output_page_list(pageno); if (printing) really_begin_page(pageno, page_length); } void real_output_file::copy_file(hunits x, vunits y, const char *filename) { if (printing && output_on) really_copy_file(x, y, filename); check_output_limits(x.to_units(), y.to_units()); } void real_output_file::transparent_char(unsigned char c) { if (printing && output_on) really_transparent_char(c); } void real_output_file::print_line(hunits x, vunits y, node *n, vunits before, vunits after, hunits width) { if (printing) really_print_line(x, y, n, before, after, width); delete_node_list(n); } void real_output_file::really_copy_file(hunits, vunits, const char *) { // do nothing } void real_output_file::put_filename(const char *filename) { really_put_filename(filename); } void real_output_file::really_put_filename(const char *) { } void real_output_file::on() { really_on(); if (output_on == 0) output_on = 1; } void real_output_file::off() { really_off(); output_on = 0; } int real_output_file::is_on() { return output_on; } void real_output_file::really_on() { } void real_output_file::really_off() { } /* ascii_output_file */ void ascii_output_file::really_transparent_char(unsigned char c) { putc(c, fp); } void ascii_output_file::really_print_line(hunits, vunits, node *n, vunits, vunits, hunits) { while (n != 0) { n->ascii_print(this); n = n->next; } fputc('\n', fp); } void ascii_output_file::really_begin_page(int /*pageno*/, vunits /*page_length*/) { fputs("<beginning of page>\n", fp); } ascii_output_file::ascii_output_file() { } /* suppress_output_file */ suppress_output_file::suppress_output_file() { } void suppress_output_file::really_print_line(hunits, vunits, node *, vunits, vunits, hunits) { } void suppress_output_file::really_begin_page(int, vunits) { } void suppress_output_file::really_transparent_char(unsigned char) { } /* glyphs, ligatures, kerns, discretionary breaks */ class charinfo_node : public node { protected: charinfo *ci; public: charinfo_node(charinfo *, statem *, int, node * = 0); int ends_sentence(); int overlaps_vertically(); int overlaps_horizontally(); }; charinfo_node::charinfo_node(charinfo *c, statem *s, int pop, node *x) : node(x, s, pop), ci(c) { } int charinfo_node::ends_sentence() { if (ci->ends_sentence()) return 1; else if (ci->transparent()) return 2; else return 0; } int charinfo_node::overlaps_horizontally() { return ci->overlaps_horizontally(); } int charinfo_node::overlaps_vertically() { return ci->overlaps_vertically(); } class glyph_node : public charinfo_node { static glyph_node *free_list; protected: tfont *tf; color *gcol; color *fcol; /* this is needed for grotty */ #ifdef STORE_WIDTH hunits wid; glyph_node(charinfo *, tfont *, color *, color *, hunits, statem *, int, node * = 0); #endif public: void *operator new(size_t); void operator delete(void *); glyph_node(charinfo *, tfont *, color *, color *, statem *, int, node * = 0); ~glyph_node() {} node *copy(); node *merge_glyph_node(glyph_node *); node *merge_self(node *); hunits width(); node *last_char_node(); units size(); void vertical_extent(vunits *, vunits *); hunits subscript_correction(); hunits italic_correction(); hunits left_italic_correction(); hunits skew(); hyphenation_type get_hyphenation_type(); tfont *get_tfont(); color *get_glyph_color(); color *get_fill_color(); void tprint(troff_output_file *); void zero_width_tprint(troff_output_file *); hyphen_list *get_hyphen_list(hyphen_list *, int *); node *add_self(node *, hyphen_list **); void ascii_print(ascii_output_file *); void asciify(macro *); int character_type(); int same(node *); const char *type(); int force_tprint(); int is_tag(); void debug_node(); }; glyph_node *glyph_node::free_list = 0; class ligature_node : public glyph_node { node *n1; node *n2; #ifdef STORE_WIDTH ligature_node(charinfo *, tfont *, color *, color *, hunits, node *, node *, statem *, int, node * = 0); #endif public: void *operator new(size_t); void operator delete(void *); ligature_node(charinfo *, tfont *, color *, color *, node *, node *, statem *, int, node * = 0); ~ligature_node(); node *copy(); node *add_self(node *, hyphen_list **); hyphen_list *get_hyphen_list(hyphen_list *, int *); void ascii_print(ascii_output_file *); void asciify(macro *); int same(node *); const char *type(); int force_tprint(); int is_tag(); }; class kern_pair_node : public node { hunits amount; node *n1; node *n2; public: kern_pair_node(hunits, node *, node *, statem *, int, node * = 0); ~kern_pair_node(); node *copy(); node *merge_glyph_node(glyph_node *); node *add_self(node *, hyphen_list **); hyphen_list *get_hyphen_list(hyphen_list *, int *); node *add_discretionary_hyphen(); hunits width(); node *last_char_node(); hunits italic_correction(); hunits subscript_correction(); void tprint(troff_output_file *); hyphenation_type get_hyphenation_type(); int ends_sentence(); void ascii_print(ascii_output_file *); void asciify(macro *); int same(node *); const char *type(); int force_tprint(); int is_tag(); void vertical_extent(vunits *, vunits *); }; class dbreak_node : public node { node *none; node *pre; node *post; public: dbreak_node(node *, node *, statem *, int, node * = 0); ~dbreak_node(); node *copy(); node *merge_glyph_node(glyph_node *); node *add_discretionary_hyphen(); hunits width(); node *last_char_node(); hunits italic_correction(); hunits subscript_correction(); void tprint(troff_output_file *); breakpoint *get_breakpoints(hunits width, int ns, breakpoint *rest = 0, int is_inner = 0); int nbreaks(); int ends_sentence(); void split(int, node **, node **); hyphenation_type get_hyphenation_type(); void ascii_print(ascii_output_file *); void asciify(macro *); int same(node *); const char *type(); int force_tprint(); int is_tag(); }; void *glyph_node::operator new(size_t n) { assert(n == sizeof(glyph_node)); if (!free_list) { const int BLOCK = 1024; free_list = (glyph_node *)new char[sizeof(glyph_node)*BLOCK]; for (int i = 0; i < BLOCK - 1; i++) free_list[i].next = free_list + i + 1; free_list[BLOCK-1].next = 0; } glyph_node *p = free_list; free_list = (glyph_node *)(free_list->next); p->next = 0; return p; } void *ligature_node::operator new(size_t n) { return new char[n]; } void glyph_node::operator delete(void *p) { if (p) { ((glyph_node *)p)->next = free_list; free_list = (glyph_node *)p; } } void ligature_node::operator delete(void *p) { delete[] (char *)p; } glyph_node::glyph_node(charinfo *c, tfont *t, color *gc, color *fc, statem *s, int pop, node *x) : charinfo_node(c, s, pop, x), tf(t), gcol(gc), fcol(fc) { #ifdef STORE_WIDTH wid = tf->get_width(ci); #endif } #ifdef STORE_WIDTH glyph_node::glyph_node(charinfo *c, tfont *t, color *gc, color *fc, hunits w, statem *s, int pop, node *x) : charinfo_node(c, s, pop, x), tf(t), gcol(gc), fcol(fc), wid(w) { } #endif node *glyph_node::copy() { #ifdef STORE_WIDTH return new glyph_node(ci, tf, gcol, fcol, wid, state, div_nest_level); #else return new glyph_node(ci, tf, gcol, fcol, state, div_nest_level); #endif } node *glyph_node::merge_self(node *nd) { return nd->merge_glyph_node(this); } int glyph_node::character_type() { return tf->get_character_type(ci); } node *glyph_node::add_self(node *n, hyphen_list **p) { assert(ci->get_hyphenation_code() == (*p)->hyphenation_code); next = 0; node *nn; if (n == 0 || (nn = n->merge_glyph_node(this)) == 0) { next = n; nn = this; } if ((*p)->hyphen) nn = nn->add_discretionary_hyphen(); hyphen_list *pp = *p; *p = (*p)->next; delete pp; return nn; } units glyph_node::size() { return tf->get_size().to_units(); } hyphen_list *glyph_node::get_hyphen_list(hyphen_list *tail, int *count) { (*count)++; return new hyphen_list(ci->get_hyphenation_code(), tail); } tfont *node::get_tfont() { return 0; } tfont *glyph_node::get_tfont() { return tf; } color *node::get_glyph_color() { return 0; } color *glyph_node::get_glyph_color() { return gcol; } color *node::get_fill_color() { return 0; } color *glyph_node::get_fill_color() { return fcol; } node *node::merge_glyph_node(glyph_node *) { return 0; } node *glyph_node::merge_glyph_node(glyph_node *gn) { if (tf == gn->tf && gcol == gn->gcol && fcol == gn->fcol) { charinfo *lig; if ((lig = tf->get_lig(ci, gn->ci)) != 0) { node *next1 = next; next = 0; return new ligature_node(lig, tf, gcol, fcol, this, gn, state, gn->div_nest_level, next1); } hunits kern; if (tf->get_kern(ci, gn->ci, &kern)) { node *next1 = next; next = 0; return new kern_pair_node(kern, this, gn, state, gn->div_nest_level, next1); } } return 0; } #ifdef STORE_WIDTH inline #endif hunits glyph_node::width() { #ifdef STORE_WIDTH return wid; #else return tf->get_width(ci); #endif } node *glyph_node::last_char_node() { return this; } void glyph_node::vertical_extent(vunits *min, vunits *max) { *min = -tf->get_char_height(ci); *max = tf->get_char_depth(ci); } hunits glyph_node::skew() { return tf->get_char_skew(ci); } hunits glyph_node::subscript_correction() { return tf->get_subscript_correction(ci); } hunits glyph_node::italic_correction() { return tf->get_italic_correction(ci); } hunits glyph_node::left_italic_correction() { return tf->get_left_italic_correction(ci); } hyphenation_type glyph_node::get_hyphenation_type() { return HYPHEN_MIDDLE; } void glyph_node::ascii_print(ascii_output_file *ascii) { unsigned char c = ci->get_ascii_code(); if (c != 0) ascii->outc(c); else ascii->outs(ci->nm.contents()); } void glyph_node::debug_node() { unsigned char c = ci->get_ascii_code(); fprintf(stderr, "{ %s [", type()); if (c) fprintf(stderr, "%c", c); else fputs(ci->nm.contents(), stderr); if (push_state) fprintf(stderr, " <push_state>"); if (state) state->display_state(); fprintf(stderr, " nest level %d", div_nest_level); fprintf(stderr, "]}\n"); fflush(stderr); } ligature_node::ligature_node(charinfo *c, tfont *t, color *gc, color *fc, node *gn1, node *gn2, statem *s, int pop, node *x) : glyph_node(c, t, gc, fc, s, pop, x), n1(gn1), n2(gn2) { } #ifdef STORE_WIDTH ligature_node::ligature_node(charinfo *c, tfont *t, color *gc, color *fc, hunits w, node *gn1, node *gn2, statem *s, int pop, node *x) : glyph_node(c, t, gc, fc, w, s, pop, x), n1(gn1), n2(gn2) { } #endif ligature_node::~ligature_node() { delete n1; delete n2; } node *ligature_node::copy() { #ifdef STORE_WIDTH return new ligature_node(ci, tf, gcol, fcol, wid, n1->copy(), n2->copy(), state, div_nest_level); #else return new ligature_node(ci, tf, gcol, fcol, n1->copy(), n2->copy(), state, div_nest_level); #endif } void ligature_node::ascii_print(ascii_output_file *ascii) { n1->ascii_print(ascii); n2->ascii_print(ascii); } hyphen_list *ligature_node::get_hyphen_list(hyphen_list *tail, int *count) { hyphen_list *hl = n2->get_hyphen_list(tail, count); return n1->get_hyphen_list(hl, count); } node *ligature_node::add_self(node *n, hyphen_list **p) { n = n1->add_self(n, p); n = n2->add_self(n, p); n1 = n2 = 0; delete this; return n; } kern_pair_node::kern_pair_node(hunits n, node *first, node *second, statem* s, int pop, node *x) : node(x, s, pop), amount(n), n1(first), n2(second) { } dbreak_node::dbreak_node(node *n, node *p, statem *s, int pop, node *x) : node(x, s, pop), none(n), pre(p), post(0) { } node *dbreak_node::merge_glyph_node(glyph_node *gn) { glyph_node *gn2 = (glyph_node *)gn->copy(); node *new_none = none ? none->merge_glyph_node(gn) : 0; node *new_post = post ? post->merge_glyph_node(gn2) : 0; if (new_none == 0 && new_post == 0) { delete gn2; return 0; } if (new_none != 0) none = new_none; else { gn->next = none; none = gn; } if (new_post != 0) post = new_post; else { gn2->next = post; post = gn2; } return this; } node *kern_pair_node::merge_glyph_node(glyph_node *gn) { node *nd = n2->merge_glyph_node(gn); if (nd == 0) return 0; n2 = nd; nd = n2->merge_self(n1); if (nd) { nd->next = next; n1 = 0; n2 = 0; delete this; return nd; } return this; } hunits kern_pair_node::italic_correction() { return n2->italic_correction(); } hunits kern_pair_node::subscript_correction() { return n2->subscript_correction(); } void kern_pair_node::vertical_extent(vunits *min, vunits *max) { n1->vertical_extent(min, max); vunits min2, max2; n2->vertical_extent(&min2, &max2); if (min2 < *min) *min = min2; if (max2 > *max) *max = max2; } node *kern_pair_node::add_discretionary_hyphen() { tfont *tf = n2->get_tfont(); if (tf) { if (tf->contains(soft_hyphen_char)) { color *gcol = n2->get_glyph_color(); color *fcol = n2->get_fill_color(); node *next1 = next; next = 0; node *n = copy(); glyph_node *gn = new glyph_node(soft_hyphen_char, tf, gcol, fcol, state, div_nest_level); node *nn = n->merge_glyph_node(gn); if (nn == 0) { gn->next = n; nn = gn; } return new dbreak_node(this, nn, state, div_nest_level, next1); } } return this; } kern_pair_node::~kern_pair_node() { if (n1 != 0) delete n1; if (n2 != 0) delete n2; } dbreak_node::~dbreak_node() { delete_node_list(pre); delete_node_list(post); delete_node_list(none); } node *kern_pair_node::copy() { return new kern_pair_node(amount, n1->copy(), n2->copy(), state, div_nest_level); } node *copy_node_list(node *n) { node *p = 0; while (n != 0) { node *nn = n->copy(); nn->next = p; p = nn; n = n->next; } while (p != 0) { node *pp = p->next; p->next = n; n = p; p = pp; } return n; } void delete_node_list(node *n) { while (n != 0) { node *tem = n; n = n->next; delete tem; } } node *dbreak_node::copy() { dbreak_node *p = new dbreak_node(copy_node_list(none), copy_node_list(pre), state, div_nest_level); p->post = copy_node_list(post); return p; } hyphen_list *node::get_hyphen_list(hyphen_list *tail, int *) { return tail; } hyphen_list *kern_pair_node::get_hyphen_list(hyphen_list *tail, int *count) { hyphen_list *hl = n2->get_hyphen_list(tail, count); return n1->get_hyphen_list(hl, count); } class hyphen_inhibitor_node : public node { public: hyphen_inhibitor_node(node * = 0); node *copy(); int same(node *); const char *type(); int force_tprint(); int is_tag(); hyphenation_type get_hyphenation_type(); }; hyphen_inhibitor_node::hyphen_inhibitor_node(node *nd) : node(nd) { } node *hyphen_inhibitor_node::copy() { return new hyphen_inhibitor_node; } int hyphen_inhibitor_node::same(node *) { return 1; } const char *hyphen_inhibitor_node::type() { return "hyphen_inhibitor_node"; } int hyphen_inhibitor_node::force_tprint() { return 0; } int hyphen_inhibitor_node::is_tag() { return 0; } hyphenation_type hyphen_inhibitor_node::get_hyphenation_type() { return HYPHEN_INHIBIT; } /* add_discretionary_hyphen methods */ node *dbreak_node::add_discretionary_hyphen() { if (post) post = post->add_discretionary_hyphen(); if (none) none = none->add_discretionary_hyphen(); return this; } node *node::add_discretionary_hyphen() { tfont *tf = get_tfont(); if (!tf) return new hyphen_inhibitor_node(this); if (tf->contains(soft_hyphen_char)) { color *gcol = get_glyph_color(); color *fcol = get_fill_color(); node *next1 = next; next = 0; node *n = copy(); glyph_node *gn = new glyph_node(soft_hyphen_char, tf, gcol, fcol, state, div_nest_level); node *n1 = n->merge_glyph_node(gn); if (n1 == 0) { gn->next = n; n1 = gn; } return new dbreak_node(this, n1, state, div_nest_level, next1); } return this; } node *node::merge_self(node *) { return 0; } node *node::add_self(node *n, hyphen_list ** /*p*/) { next = n; return this; } node *kern_pair_node::add_self(node *n, hyphen_list **p) { n = n1->add_self(n, p); n = n2->add_self(n, p); n1 = n2 = 0; delete this; return n; } hunits node::width() { return H0; } node *node::last_char_node() { return 0; } int node::force_tprint() { return 0; } int node::is_tag() { return 0; } hunits hmotion_node::width() { return n; } units node::size() { return points_to_units(10); } void node::debug_node() { fprintf(stderr, "{ %s ", type()); if (push_state) fprintf(stderr, " <push_state>"); if (state) fprintf(stderr, " <state>"); fprintf(stderr, " nest level %d", div_nest_level); fprintf(stderr, " }\n"); fflush(stderr); } void node::debug_node_list() { node *n = next; debug_node(); while (n != 0) { n->debug_node(); n = n->next; } } hunits kern_pair_node::width() { return n1->width() + n2->width() + amount; } node *kern_pair_node::last_char_node() { node *nd = n2->last_char_node(); if (nd) return nd; return n1->last_char_node(); } hunits dbreak_node::width() { hunits x = H0; for (node *n = none; n != 0; n = n->next) x += n->width(); return x; } node *dbreak_node::last_char_node() { for (node *n = none; n; n = n->next) { node *last_node = n->last_char_node(); if (last_node) return last_node; } return 0; } hunits dbreak_node::italic_correction() { return none ? none->italic_correction() : H0; } hunits dbreak_node::subscript_correction() { return none ? none->subscript_correction() : H0; } class italic_corrected_node : public node { node *n; hunits x; public: italic_corrected_node(node *, hunits, statem *, int, node * = 0); ~italic_corrected_node(); node *copy(); void ascii_print(ascii_output_file *); void asciify(macro *); hunits width(); node *last_char_node(); void vertical_extent(vunits *, vunits *); int ends_sentence(); int overlaps_horizontally(); int overlaps_vertically(); int same(node *); hyphenation_type get_hyphenation_type(); tfont *get_tfont(); hyphen_list *get_hyphen_list(hyphen_list *, int *); int character_type(); void tprint(troff_output_file *); hunits subscript_correction(); hunits skew(); node *add_self(node *, hyphen_list **); const char *type(); int force_tprint(); int is_tag(); }; node *node::add_italic_correction(hunits *wd) { hunits ic = italic_correction(); if (ic.is_zero()) return this; else { node *next1 = next; next = 0; *wd += ic; return new italic_corrected_node(this, ic, state, div_nest_level, next1); } } italic_corrected_node::italic_corrected_node(node *nn, hunits xx, statem *s, int pop, node *p) : node(p, s, pop), n(nn), x(xx) { assert(n != 0); } italic_corrected_node::~italic_corrected_node() { delete n; } node *italic_corrected_node::copy() { return new italic_corrected_node(n->copy(), x, state, div_nest_level); } hunits italic_corrected_node::width() { return n->width() + x; } void italic_corrected_node::vertical_extent(vunits *min, vunits *max) { n->vertical_extent(min, max); } void italic_corrected_node::tprint(troff_output_file *out) { n->tprint(out); out->right(x); } hunits italic_corrected_node::skew() { return n->skew() - x/2; } hunits italic_corrected_node::subscript_correction() { return n->subscript_correction() - x; } void italic_corrected_node::ascii_print(ascii_output_file *out) { n->ascii_print(out); } int italic_corrected_node::ends_sentence() { return n->ends_sentence(); } int italic_corrected_node::overlaps_horizontally() { return n->overlaps_horizontally(); } int italic_corrected_node::overlaps_vertically() { return n->overlaps_vertically(); } node *italic_corrected_node::last_char_node() { return n->last_char_node(); } tfont *italic_corrected_node::get_tfont() { return n->get_tfont(); } hyphenation_type italic_corrected_node::get_hyphenation_type() { return n->get_hyphenation_type(); } node *italic_corrected_node::add_self(node *nd, hyphen_list **p) { nd = n->add_self(nd, p); hunits not_interested; nd = nd->add_italic_correction(¬_interested); n = 0; delete this; return nd; } hyphen_list *italic_corrected_node::get_hyphen_list(hyphen_list *tail, int *count) { return n->get_hyphen_list(tail, count); } int italic_corrected_node::character_type() { return n->character_type(); } class break_char_node : public node { node *ch; char break_code; color *col; public: break_char_node(node *, int, color *, node * = 0); break_char_node(node *, int, color *, statem *, int, node * = 0); ~break_char_node(); node *copy(); hunits width(); vunits vertical_width(); node *last_char_node(); int character_type(); int ends_sentence(); node *add_self(node *, hyphen_list **); hyphen_list *get_hyphen_list(hyphen_list *, int *); void tprint(troff_output_file *); void zero_width_tprint(troff_output_file *); void ascii_print(ascii_output_file *); void asciify(macro *); hyphenation_type get_hyphenation_type(); int overlaps_vertically(); int overlaps_horizontally(); units size(); tfont *get_tfont(); int same(node *); const char *type(); int force_tprint(); int is_tag(); }; break_char_node::break_char_node(node *n, int bc, color *c, node *x) : node(x), ch(n), break_code(bc), col(c) { } break_char_node::break_char_node(node *n, int bc, color *c, statem *s, int pop, node *x) : node(x, s, pop), ch(n), break_code(bc), col(c) { } break_char_node::~break_char_node() { delete ch; } node *break_char_node::copy() { return new break_char_node(ch->copy(), break_code, col, state, div_nest_level); } hunits break_char_node::width() { return ch->width(); } vunits break_char_node::vertical_width() { return ch->vertical_width(); } node *break_char_node::last_char_node() { return ch->last_char_node(); } int break_char_node::character_type() { return ch->character_type(); } int break_char_node::ends_sentence() { return ch->ends_sentence(); } node *break_char_node::add_self(node *n, hyphen_list **p) { assert((*p)->hyphenation_code == 0); if ((*p)->breakable && (break_code & 1)) { n = new space_node(H0, col, n); n->freeze_space(); } next = n; n = this; if ((*p)->breakable && (break_code & 2)) { n = new space_node(H0, col, n); n->freeze_space(); } hyphen_list *pp = *p; *p = (*p)->next; delete pp; return n; } hyphen_list *break_char_node::get_hyphen_list(hyphen_list *tail, int *) { return new hyphen_list(0, tail); } hyphenation_type break_char_node::get_hyphenation_type() { return HYPHEN_MIDDLE; } void break_char_node::ascii_print(ascii_output_file *ascii) { ch->ascii_print(ascii); } int break_char_node::overlaps_vertically() { return ch->overlaps_vertically(); } int break_char_node::overlaps_horizontally() { return ch->overlaps_horizontally(); } units break_char_node::size() { return ch->size(); } tfont *break_char_node::get_tfont() { return ch->get_tfont(); } node *extra_size_node::copy() { return new extra_size_node(n, state, div_nest_level); } extra_size_node::extra_size_node(vunits i, statem *s, int pop) : node(0, s, pop), n(i) { } extra_size_node::extra_size_node(vunits i) : n(i) { } node *vertical_size_node::copy() { return new vertical_size_node(n, state, div_nest_level); } vertical_size_node::vertical_size_node(vunits i, statem *s, int pop) : node(0, s, pop), n(i) { } vertical_size_node::vertical_size_node(vunits i) : n(i) { } node *hmotion_node::copy() { return new hmotion_node(n, was_tab, unformat, col, state, div_nest_level); } node *space_char_hmotion_node::copy() { return new space_char_hmotion_node(n, col, state, div_nest_level); } vmotion_node::vmotion_node(vunits i, color *c) : n(i), col(c) { } vmotion_node::vmotion_node(vunits i, color *c, statem *s, int pop) : node(0, s, pop), n(i), col(c) { } node *vmotion_node::copy() { return new vmotion_node(n, col, state, div_nest_level); } node *dummy_node::copy() { return new dummy_node; } node *transparent_dummy_node::copy() { return new transparent_dummy_node; } hline_node::~hline_node() { if (n) delete n; } hline_node::hline_node(hunits i, node *c, node *nxt) : node(nxt), x(i), n(c) { } hline_node::hline_node(hunits i, node *c, statem *s, int pop, node *nxt) : node(nxt, s, pop), x(i), n(c) { } node *hline_node::copy() { return new hline_node(x, n ? n->copy() : 0, state, div_nest_level); } hunits hline_node::width() { return x < H0 ? H0 : x; } vline_node::vline_node(vunits i, node *c, node *nxt) : node(nxt), x(i), n(c) { } vline_node::vline_node(vunits i, node *c, statem *s, int pop, node *nxt) : node(nxt, s, pop), x(i), n(c) { } vline_node::~vline_node() { if (n) delete n; } node *vline_node::copy() { return new vline_node(x, n ? n->copy() : 0, state, div_nest_level); } hunits vline_node::width() { return n == 0 ? H0 : n->width(); } zero_width_node::zero_width_node(node *nd, statem *s, int pop) : node(0, s, pop), n(nd) { } zero_width_node::zero_width_node(node *nd) : n(nd) { } zero_width_node::~zero_width_node() { delete_node_list(n); } node *zero_width_node::copy() { return new zero_width_node(copy_node_list(n), state, div_nest_level); } int node_list_character_type(node *p) { int t = 0; for (; p; p = p->next) t |= p->character_type(); return t; } int zero_width_node::character_type() { return node_list_character_type(n); } void node_list_vertical_extent(node *p, vunits *min, vunits *max) { *min = V0; *max = V0; vunits cur_vpos = V0; vunits v1, v2; for (; p; p = p->next) { p->vertical_extent(&v1, &v2); v1 += cur_vpos; if (v1 < *min) *min = v1; v2 += cur_vpos; if (v2 > *max) *max = v2; cur_vpos += p->vertical_width(); } } void zero_width_node::vertical_extent(vunits *min, vunits *max) { node_list_vertical_extent(n, min, max); } overstrike_node::overstrike_node() : list(0), max_width(H0) { } overstrike_node::overstrike_node(statem *s, int pop) : node(0, s, pop), list(0), max_width(H0) { } overstrike_node::~overstrike_node() { delete_node_list(list); } node *overstrike_node::copy() { overstrike_node *on = new overstrike_node(state, div_nest_level); for (node *tem = list; tem; tem = tem->next) on->overstrike(tem->copy()); return on; } void overstrike_node::overstrike(node *n) { if (n == 0) return; hunits w = n->width(); if (w > max_width) max_width = w; node **p; for (p = &list; *p; p = &(*p)->next) ; n->next = 0; *p = n; } hunits overstrike_node::width() { return max_width; } bracket_node::bracket_node() : list(0), max_width(H0) { } bracket_node::bracket_node(statem *s, int pop) : node(0, s, pop), list(0), max_width(H0) { } bracket_node::~bracket_node() { delete_node_list(list); } node *bracket_node::copy() { bracket_node *on = new bracket_node(state, div_nest_level); node *last_node = 0; node *tem; if (list) list->last = 0; for (tem = list; tem; tem = tem->next) { if (tem->next) tem->next->last = tem; last_node = tem; } for (tem = last_node; tem; tem = tem->last) on->bracket(tem->copy()); return on; } void bracket_node::bracket(node *n) { if (n == 0) return; hunits w = n->width(); if (w > max_width) max_width = w; n->next = list; list = n; } hunits bracket_node::width() { return max_width; } int node::nspaces() { return 0; } int node::merge_space(hunits, hunits, hunits) { return 0; } #if 0 space_node *space_node::free_list = 0; void *space_node::operator new(size_t n) { assert(n == sizeof(space_node)); if (!free_list) { free_list = (space_node *)new char[sizeof(space_node)*BLOCK]; for (int i = 0; i < BLOCK - 1; i++) free_list[i].next = free_list + i + 1; free_list[BLOCK-1].next = 0; } space_node *p = free_list; free_list = (space_node *)(free_list->next); p->next = 0; return p; } inline void space_node::operator delete(void *p) { if (p) { ((space_node *)p)->next = free_list; free_list = (space_node *)p; } } #endif space_node::space_node(hunits nn, color *c, node *p) : node(p, 0, 0), n(nn), set(0), was_escape_colon(0), col(c) { } space_node::space_node(hunits nn, color *c, statem *s, int pop, node *p) : node(p, s, pop), n(nn), set(0), was_escape_colon(0), col(c) { } space_node::space_node(hunits nn, int s, int flag, color *c, statem *st, int pop, node *p) : node(p, st, pop), n(nn), set(s), was_escape_colon(flag), col(c) { } #if 0 space_node::~space_node() { } #endif node *space_node::copy() { return new space_node(n, set, was_escape_colon, col, state, div_nest_level); } int space_node::force_tprint() { return 0; } int space_node::is_tag() { return 0; } int space_node::nspaces() { return set ? 0 : 1; } int space_node::merge_space(hunits h, hunits, hunits) { n += h; return 1; } hunits space_node::width() { return n; } void node::spread_space(int*, hunits*) { } void space_node::spread_space(int *n_spaces, hunits *desired_space) { if (!set) { assert(*n_spaces > 0); if (*n_spaces == 1) { n += *desired_space; *desired_space = H0; } else { hunits extra = *desired_space / *n_spaces; *desired_space -= extra; n += extra; } *n_spaces -= 1; set = 1; } } void node::freeze_space() { } void space_node::freeze_space() { set = 1; } void node::is_escape_colon() { } void space_node::is_escape_colon() { was_escape_colon = 1; } diverted_space_node::diverted_space_node(vunits d, statem *s, int pop, node *p) : node(p, s, pop), n(d) { } diverted_space_node::diverted_space_node(vunits d, node *p) : node(p), n(d) { } node *diverted_space_node::copy() { return new diverted_space_node(n, state, div_nest_level); } diverted_copy_file_node::diverted_copy_file_node(symbol s, statem *st, int pop, node *p) : node(p, st, pop), filename(s) { } diverted_copy_file_node::diverted_copy_file_node(symbol s, node *p) : node(p), filename(s) { } node *diverted_copy_file_node::copy() { return new diverted_copy_file_node(filename, state, div_nest_level); } int node::ends_sentence() { return 0; } int kern_pair_node::ends_sentence() { switch (n2->ends_sentence()) { case 0: return 0; case 1: return 1; case 2: break; default: assert(0); } return n1->ends_sentence(); } int node_list_ends_sentence(node *n) { for (; n != 0; n = n->next) switch (n->ends_sentence()) { case 0: return 0; case 1: return 1; case 2: break; default: assert(0); } return 2; } int dbreak_node::ends_sentence() { return node_list_ends_sentence(none); } int node::overlaps_horizontally() { return 0; } int node::overlaps_vertically() { return 0; } int node::discardable() { return 0; } int space_node::discardable() { return set ? 0 : 1; } vunits node::vertical_width() { return V0; } vunits vline_node::vertical_width() { return x; } vunits vmotion_node::vertical_width() { return n; } int node::set_unformat_flag() { return 1; } int node::character_type() { return 0; } hunits node::subscript_correction() { return H0; } hunits node::italic_correction() { return H0; } hunits node::left_italic_correction() { return H0; } hunits node::skew() { return H0; } /* vertical_extent methods */ void node::vertical_extent(vunits *min, vunits *max) { vunits v = vertical_width(); if (v < V0) { *min = v; *max = V0; } else { *max = v; *min = V0; } } void vline_node::vertical_extent(vunits *min, vunits *max) { if (n == 0) node::vertical_extent(min, max); else { vunits cmin, cmax; n->vertical_extent(&cmin, &cmax); vunits h = n->size(); if (x < V0) { if (-x < h) { *min = x; *max = V0; } else { // we print the first character and then move up, so *max = cmax; // we print the last character and then move up h *min = cmin + h; if (*min > V0) *min = V0; *min += x; } } else { if (x < h) { *max = x; *min = V0; } else { // we move down by h and then print the first character, so *min = cmin + h; if (*min > V0) *min = V0; *max = x + cmax; } } } } /* ascii_print methods */ static void ascii_print_reverse_node_list(ascii_output_file *ascii, node *n) { if (n == 0) return; ascii_print_reverse_node_list(ascii, n->next); n->ascii_print(ascii); } void dbreak_node::ascii_print(ascii_output_file *ascii) { ascii_print_reverse_node_list(ascii, none); } void kern_pair_node::ascii_print(ascii_output_file *ascii) { n1->ascii_print(ascii); n2->ascii_print(ascii); } void node::ascii_print(ascii_output_file *) { } void space_node::ascii_print(ascii_output_file *ascii) { if (!n.is_zero()) ascii->outc(' '); } void hmotion_node::ascii_print(ascii_output_file *ascii) { // this is pretty arbitrary if (n >= points_to_units(2)) ascii->outc(' '); } void space_char_hmotion_node::ascii_print(ascii_output_file *ascii) { ascii->outc(' '); } /* asciify methods */ void node::asciify(macro *m) { m->append(this); } void glyph_node::asciify(macro *m) { unsigned char c = ci->get_asciify_code(); if (c == 0) c = ci->get_ascii_code(); if (c != 0) { m->append(c); delete this; } else m->append(this); } void kern_pair_node::asciify(macro *m) { n1->asciify(m); n2->asciify(m); n1 = n2 = 0; delete this; } static void asciify_reverse_node_list(macro *m, node *n) { if (n == 0) return; asciify_reverse_node_list(m, n->next); n->asciify(m); } void dbreak_node::asciify(macro *m) { asciify_reverse_node_list(m, none); none = 0; delete this; } void ligature_node::asciify(macro *m) { n1->asciify(m); n2->asciify(m); n1 = n2 = 0; delete this; } void break_char_node::asciify(macro *m) { ch->asciify(m); ch = 0; delete this; } void italic_corrected_node::asciify(macro *m) { n->asciify(m); n = 0; delete this; } void left_italic_corrected_node::asciify(macro *m) { if (n) { n->asciify(m); n = 0; } delete this; } void hmotion_node::asciify(macro *m) { if (was_tab) { m->append('\t'); delete this; } else m->append(this); } space_char_hmotion_node::space_char_hmotion_node(hunits i, color *c, statem *s, int pop, node *nxt) : hmotion_node(i, c, s, pop, nxt) { } space_char_hmotion_node::space_char_hmotion_node(hunits i, color *c, node *nxt) : hmotion_node(i, c, 0, 0, nxt) { } void space_char_hmotion_node::asciify(macro *m) { m->append(ESCAPE_SPACE); delete this; } void space_node::asciify(macro *m) { if (was_escape_colon) { m->append(ESCAPE_COLON); delete this; } else m->append(this); } void word_space_node::asciify(macro *m) { for (width_list *w = orig_width; w; w = w->next) m->append(' '); delete this; } void unbreakable_space_node::asciify(macro *m) { m->append(ESCAPE_TILDE); delete this; } void line_start_node::asciify(macro *) { delete this; } void vertical_size_node::asciify(macro *) { delete this; } breakpoint *node::get_breakpoints(hunits /*width*/, int /*nspaces*/, breakpoint *rest, int /*is_inner*/) { return rest; } int node::nbreaks() { return 0; } breakpoint *space_node::get_breakpoints(hunits wd, int ns, breakpoint *rest, int is_inner) { if (next && next->discardable()) return rest; breakpoint *bp = new breakpoint; bp->next = rest; bp->width = wd; bp->nspaces = ns; bp->hyphenated = 0; if (is_inner) { assert(rest != 0); bp->index = rest->index + 1; bp->nd = rest->nd; } else { bp->nd = this; bp->index = 0; } return bp; } int space_node::nbreaks() { if (next && next->discardable()) return 0; else return 1; } static breakpoint *node_list_get_breakpoints(node *p, hunits *widthp, int ns, breakpoint *rest) { if (p != 0) { rest = p->get_breakpoints(*widthp, ns, node_list_get_breakpoints(p->next, widthp, ns, rest), 1); *widthp += p->width(); } return rest; } breakpoint *dbreak_node::get_breakpoints(hunits wd, int ns, breakpoint *rest, int is_inner) { breakpoint *bp = new breakpoint; bp->next = rest; bp->width = wd; for (node *tem = pre; tem != 0; tem = tem->next) bp->width += tem->width(); bp->nspaces = ns; bp->hyphenated = 1; if (is_inner) { assert(rest != 0); bp->index = rest->index + 1; bp->nd = rest->nd; } else { bp->nd = this; bp->index = 0; } return node_list_get_breakpoints(none, &wd, ns, bp); } int dbreak_node::nbreaks() { int i = 1; for (node *tem = none; tem != 0; tem = tem->next) i += tem->nbreaks(); return i; } void node::split(int /*where*/, node ** /*prep*/, node ** /*postp*/) { assert(0); } void space_node::split(int where, node **pre, node **post) { assert(where == 0); *pre = next; *post = 0; delete this; } static void node_list_split(node *p, int *wherep, node **prep, node **postp) { if (p == 0) return; int nb = p->nbreaks(); node_list_split(p->next, wherep, prep, postp); if (*wherep < 0) { p->next = *postp; *postp = p; } else if (*wherep < nb) { p->next = *prep; p->split(*wherep, prep, postp); } else { p->next = *prep; *prep = p; } *wherep -= nb; } void dbreak_node::split(int where, node **prep, node **postp) { assert(where >= 0); if (where == 0) { *postp = post; post = 0; if (pre == 0) *prep = next; else { node *tem; for (tem = pre; tem->next != 0; tem = tem->next) ; tem->next = next; *prep = pre; } pre = 0; delete this; } else { *prep = next; where -= 1; node_list_split(none, &where, prep, postp); none = 0; delete this; } } hyphenation_type node::get_hyphenation_type() { return HYPHEN_BOUNDARY; } hyphenation_type dbreak_node::get_hyphenation_type() { return HYPHEN_INHIBIT; } hyphenation_type kern_pair_node::get_hyphenation_type() { return HYPHEN_MIDDLE; } hyphenation_type dummy_node::get_hyphenation_type() { return HYPHEN_MIDDLE; } hyphenation_type transparent_dummy_node::get_hyphenation_type() { return HYPHEN_MIDDLE; } hyphenation_type hmotion_node::get_hyphenation_type() { return HYPHEN_MIDDLE; } hyphenation_type space_char_hmotion_node::get_hyphenation_type() { return HYPHEN_MIDDLE; } hyphenation_type overstrike_node::get_hyphenation_type() { return HYPHEN_MIDDLE; } hyphenation_type space_node::get_hyphenation_type() { if (was_escape_colon) return HYPHEN_MIDDLE; return HYPHEN_BOUNDARY; } hyphenation_type unbreakable_space_node::get_hyphenation_type() { return HYPHEN_MIDDLE; } int node::interpret(macro *) { return 0; } special_node::special_node(const macro &m, int n) : mac(m), no_init_string(n) { font_size fs = curenv->get_font_size(); int char_height = curenv->get_char_height(); int char_slant = curenv->get_char_slant(); int fontno = env_definite_font(curenv); tf = font_table[fontno]->get_tfont(fs, char_height, char_slant, fontno); if (curenv->is_composite()) tf = tf->get_plain(); gcol = curenv->get_glyph_color(); fcol = curenv->get_fill_color(); is_special = 1; } special_node::special_node(const macro &m, tfont *t, color *gc, color *fc, statem *s, int pop, int n) : node(0, s, pop), mac(m), tf(t), gcol(gc), fcol(fc), no_init_string(n) { is_special = 1; } int special_node::same(node *n) { return mac == ((special_node *)n)->mac && tf == ((special_node *)n)->tf && gcol == ((special_node *)n)->gcol && fcol == ((special_node *)n)->fcol && no_init_string == ((special_node *)n)->no_init_string; } const char *special_node::type() { return "special_node"; } int special_node::ends_sentence() { return 2; } int special_node::force_tprint() { return 0; } int special_node::is_tag() { return 0; } node *special_node::copy() { return new special_node(mac, tf, gcol, fcol, state, div_nest_level, no_init_string); } void special_node::tprint_start(troff_output_file *out) { out->start_special(tf, gcol, fcol, no_init_string); } void special_node::tprint_char(troff_output_file *out, unsigned char c) { out->special_char(c); } void special_node::tprint_end(troff_output_file *out) { out->end_special(); } tfont *special_node::get_tfont() { return tf; } /* suppress_node */ suppress_node::suppress_node(int on_or_off, int issue_limits) : is_on(on_or_off), emit_limits(issue_limits), filename(0), position(0), image_id(0) { } suppress_node::suppress_node(symbol f, char p, int id) : is_on(2), emit_limits(0), filename(f), position(p), image_id(id) { is_special = 1; } suppress_node::suppress_node(int issue_limits, int on_or_off, symbol f, char p, int id, statem *s, int pop) : node(0, s, pop), is_on(on_or_off), emit_limits(issue_limits), filename(f), position(p), image_id(id) { } int suppress_node::same(node *n) { return ((is_on == ((suppress_node *)n)->is_on) && (emit_limits == ((suppress_node *)n)->emit_limits) && (filename == ((suppress_node *)n)->filename) && (position == ((suppress_node *)n)->position) && (image_id == ((suppress_node *)n)->image_id)); } const char *suppress_node::type() { return "suppress_node"; } node *suppress_node::copy() { return new suppress_node(emit_limits, is_on, filename, position, image_id, state, div_nest_level); } /* tag_node */ tag_node::tag_node() : delayed(0) { is_special = 1; } tag_node::tag_node(string s, int delay) : tag_string(s), delayed(delay) { is_special = !delay; } tag_node::tag_node(string s, statem *st, int pop, int delay) : node(0, st, pop), tag_string(s), delayed(delay) { is_special = !delay; } node *tag_node::copy() { return new tag_node(tag_string, state, div_nest_level, delayed); } void tag_node::tprint(troff_output_file *out) { if (delayed) out->add_to_tag_list(tag_string); else out->state.add_tag(out->fp, tag_string); } int tag_node::same(node *nd) { return tag_string == ((tag_node *)nd)->tag_string && delayed == ((tag_node *)nd)->delayed; } const char *tag_node::type() { return "tag_node"; } int tag_node::force_tprint() { return !delayed; } int tag_node::is_tag() { return !delayed; } int tag_node::ends_sentence() { return 2; } int get_reg_int(const char *p) { reg *r = (reg *)number_reg_dictionary.lookup(p); units prev_value; if (r && (r->get_value(&prev_value))) return (int)prev_value; else warning(WARN_REG, "number register `%1' not defined", p); return 0; } const char *get_reg_str(const char *p) { reg *r = (reg *)number_reg_dictionary.lookup(p); if (r) return r->get_string(); else warning(WARN_REG, "register `%1' not defined", p); return 0; } void suppress_node::put(troff_output_file *out, const char *s) { int i = 0; while (s[i] != (char)0) { out->special_char(s[i]); i++; } } /* * We need to remember the start of the image and its name. */ static char last_position = 0; static const char *last_image_filename = 0; static int last_image_id = 0; inline int min(int a, int b) { return a < b ? a : b; } /* * tprint - if (is_on == 2) * remember current position (l, r, c, i) and filename * else * if (emit_limits) * if (html) * emit image tag * else * emit postscript bounds for image * else * if (suppress boolean differs from current state) * alter state * reset registers * record current page * set low water mark. */ void suppress_node::tprint(troff_output_file *out) { int current_page = topdiv->get_page_number(); // firstly check to see whether this suppress node contains // an image filename & position. if (is_on == 2) { // remember position and filename last_position = position; char *tem = (char *)last_image_filename; last_image_filename = strsave(filename.contents()); if (tem) a_delete tem; last_image_id = image_id; // printf("start of image and page = %d\n", current_page); } else { // now check whether the suppress node requires us to issue limits. if (emit_limits) { char name[8192]; // remember that the filename will contain a %d in which the // last_image_id is placed if (last_image_filename == (char *) 0) *name = '\0'; else sprintf(name, last_image_filename, last_image_id); if (is_html) { switch (last_position) { case 'c': out->start_special(); put(out, "devtag:.centered-image"); break; case 'r': out->start_special(); put(out, "devtag:.right-image"); break; case 'l': out->start_special(); put(out, "devtag:.left-image"); break; case 'i': ; default: ; } out->end_special(); out->start_special(); put(out, "devtag:.auto-image "); put(out, name); out->end_special(); } else { // postscript (or other device) if (suppress_start_page > 0 && current_page != suppress_start_page) error("suppression limit registers span more than one page;\n" "image description %1 will be wrong", image_no); // if (topdiv->get_page_number() != suppress_start_page) // fprintf(stderr, "end of image and topdiv page = %d and suppress_start_page = %d\n", // topdiv->get_page_number(), suppress_start_page); // remember that the filename will contain a %d in which the // image_no is placed fprintf(stderr, "grohtml-info:page %d %d %d %d %d %d %s %d %d %s\n", topdiv->get_page_number(), get_reg_int("opminx"), get_reg_int("opminy"), get_reg_int("opmaxx"), get_reg_int("opmaxy"), // page offset + line length get_reg_int(".o") + get_reg_int(".l"), name, hresolution, vresolution, get_reg_str(".F")); fflush(stderr); } } else { if (is_on) { out->on(); // lastly we reset the output registers reset_output_registers(); } else out->off(); suppress_start_page = current_page; } } } int suppress_node::force_tprint() { return is_on; } int suppress_node::is_tag() { return is_on; } hunits suppress_node::width() { return H0; } /* composite_node */ class composite_node : public charinfo_node { node *n; tfont *tf; public: composite_node(node *, charinfo *, tfont *, statem *, int, node * = 0); ~composite_node(); node *copy(); hunits width(); node *last_char_node(); units size(); void tprint(troff_output_file *); hyphenation_type get_hyphenation_type(); void ascii_print(ascii_output_file *); void asciify(macro *); hyphen_list *get_hyphen_list(hyphen_list *, int *); node *add_self(node *, hyphen_list **); tfont *get_tfont(); int same(node *); const char *type(); int force_tprint(); int is_tag(); void vertical_extent(vunits *, vunits *); vunits vertical_width(); }; composite_node::composite_node(node *p, charinfo *c, tfont *t, statem *s, int pop, node *x) : charinfo_node(c, s, pop, x), n(p), tf(t) { } composite_node::~composite_node() { delete_node_list(n); } node *composite_node::copy() { return new composite_node(copy_node_list(n), ci, tf, state, div_nest_level); } hunits composite_node::width() { hunits x; if (tf->get_constant_space(&x)) return x; x = H0; for (node *tem = n; tem; tem = tem->next) x += tem->width(); hunits offset; if (tf->get_bold(&offset)) x += offset; x += tf->get_track_kern(); return x; } node *composite_node::last_char_node() { return this; } vunits composite_node::vertical_width() { vunits v = V0; for (node *tem = n; tem; tem = tem->next) v += tem->vertical_width(); return v; } units composite_node::size() { return tf->get_size().to_units(); } hyphenation_type composite_node::get_hyphenation_type() { return HYPHEN_MIDDLE; } void composite_node::asciify(macro *m) { unsigned char c = ci->get_asciify_code(); if (c == 0) c = ci->get_ascii_code(); if (c != 0) { m->append(c); delete this; } else m->append(this); } void composite_node::ascii_print(ascii_output_file *ascii) { unsigned char c = ci->get_ascii_code(); if (c != 0) ascii->outc(c); else ascii->outs(ci->nm.contents()); } hyphen_list *composite_node::get_hyphen_list(hyphen_list *tail, int *count) { (*count)++; return new hyphen_list(ci->get_hyphenation_code(), tail); } node *composite_node::add_self(node *nn, hyphen_list **p) { assert(ci->get_hyphenation_code() == (*p)->hyphenation_code); next = nn; nn = this; if ((*p)->hyphen) nn = nn->add_discretionary_hyphen(); hyphen_list *pp = *p; *p = (*p)->next; delete pp; return nn; } tfont *composite_node::get_tfont() { return tf; } node *reverse_node_list(node *n) { node *r = 0; while (n) { node *tem = n; n = n->next; tem->next = r; r = tem; } return r; } void composite_node::vertical_extent(vunits *minimum, vunits *maximum) { n = reverse_node_list(n); node_list_vertical_extent(n, minimum, maximum); n = reverse_node_list(n); } width_list::width_list(hunits w, hunits s) : width(w), sentence_width(s), next(0) { } width_list::width_list(width_list *w) : width(w->width), sentence_width(w->sentence_width), next(0) { } word_space_node::word_space_node(hunits d, color *c, width_list *w, node *x) : space_node(d, c, x), orig_width(w), unformat(0) { } word_space_node::word_space_node(hunits d, int s, color *c, width_list *w, int flag, statem *st, int pop, node *x) : space_node(d, s, 0, c, st, pop, x), orig_width(w), unformat(flag) { } word_space_node::~word_space_node() { width_list *w = orig_width; while (w != 0) { width_list *tmp = w; w = w->next; delete tmp; } } node *word_space_node::copy() { assert(orig_width != 0); width_list *w_old_curr = orig_width; width_list *w_new_curr = new width_list(w_old_curr); width_list *w_new = w_new_curr; w_old_curr = w_old_curr->next; while (w_old_curr != 0) { w_new_curr->next = new width_list(w_old_curr); w_new_curr = w_new_curr->next; w_old_curr = w_old_curr->next; } return new word_space_node(n, set, col, w_new, unformat, state, div_nest_level); } int word_space_node::set_unformat_flag() { unformat = 1; return 1; } void word_space_node::tprint(troff_output_file *out) { out->fill_color(col); out->word_marker(); out->right(n); } int word_space_node::merge_space(hunits h, hunits sw, hunits ssw) { n += h; assert(orig_width != 0); width_list *w = orig_width; for (; w->next; w = w->next) ; w->next = new width_list(sw, ssw); return 1; } unbreakable_space_node::unbreakable_space_node(hunits d, color *c, node *x) : word_space_node(d, c, 0, x) { } unbreakable_space_node::unbreakable_space_node(hunits d, int s, color *c, statem *st, int pop, node *x) : word_space_node(d, s, c, 0, 0, st, pop, x) { } node *unbreakable_space_node::copy() { return new unbreakable_space_node(n, set, col, state, div_nest_level); } int unbreakable_space_node::force_tprint() { return 0; } int unbreakable_space_node::is_tag() { return 0; } breakpoint *unbreakable_space_node::get_breakpoints(hunits, int, breakpoint *rest, int) { return rest; } int unbreakable_space_node::nbreaks() { return 0; } void unbreakable_space_node::split(int, node **, node **) { assert(0); } int unbreakable_space_node::merge_space(hunits, hunits, hunits) { return 0; } hvpair::hvpair() { } draw_node::draw_node(char c, hvpair *p, int np, font_size s, color *gc, color *fc) : npoints(np), sz(s), gcol(gc), fcol(fc), code(c) { point = new hvpair[npoints]; for (int i = 0; i < npoints; i++) point[i] = p[i]; } draw_node::draw_node(char c, hvpair *p, int np, font_size s, color *gc, color *fc, statem *st, int pop) : node(0, st, pop), npoints(np), sz(s), gcol(gc), fcol(fc), code(c) { point = new hvpair[npoints]; for (int i = 0; i < npoints; i++) point[i] = p[i]; } int draw_node::same(node *n) { draw_node *nd = (draw_node *)n; if (code != nd->code || npoints != nd->npoints || sz != nd->sz || gcol != nd->gcol || fcol != nd->fcol) return 0; for (int i = 0; i < npoints; i++) if (point[i].h != nd->point[i].h || point[i].v != nd->point[i].v) return 0; return 1; } const char *draw_node::type() { return "draw_node"; } int draw_node::force_tprint() { return 0; } int draw_node::is_tag() { return 0; } draw_node::~draw_node() { if (point) a_delete point; } hunits draw_node::width() { hunits x = H0; for (int i = 0; i < npoints; i++) x += point[i].h; return x; } vunits draw_node::vertical_width() { if (code == 'e') return V0; vunits x = V0; for (int i = 0; i < npoints; i++) x += point[i].v; return x; } node *draw_node::copy() { return new draw_node(code, point, npoints, sz, gcol, fcol, state, div_nest_level); } void draw_node::tprint(troff_output_file *out) { out->draw(code, point, npoints, sz, gcol, fcol); } /* tprint methods */ void glyph_node::tprint(troff_output_file *out) { tfont *ptf = tf->get_plain(); if (ptf == tf) out->put_char_width(ci, ptf, gcol, fcol, width(), H0); else { hunits offset; int bold = tf->get_bold(&offset); hunits w = ptf->get_width(ci); hunits k = H0; hunits x; int cs = tf->get_constant_space(&x); if (cs) { x -= w; if (bold) x -= offset; hunits x2 = x/2; out->right(x2); k = x - x2; } else k = tf->get_track_kern(); if (bold) { out->put_char(ci, ptf, gcol, fcol); out->right(offset); } out->put_char_width(ci, ptf, gcol, fcol, w, k); } } void glyph_node::zero_width_tprint(troff_output_file *out) { tfont *ptf = tf->get_plain(); hunits offset; int bold = tf->get_bold(&offset); hunits x; int cs = tf->get_constant_space(&x); if (cs) { x -= ptf->get_width(ci); if (bold) x -= offset; x = x/2; out->right(x); } out->put_char(ci, ptf, gcol, fcol); if (bold) { out->right(offset); out->put_char(ci, ptf, gcol, fcol); out->right(-offset); } if (cs) out->right(-x); } void break_char_node::tprint(troff_output_file *t) { ch->tprint(t); } void break_char_node::zero_width_tprint(troff_output_file *t) { ch->zero_width_tprint(t); } void hline_node::tprint(troff_output_file *out) { if (x < H0) { out->right(x); x = -x; } if (n == 0) { out->right(x); return; } hunits w = n->width(); if (w <= H0) { error("horizontal line drawing character must have positive width"); out->right(x); return; } int i = int(x/w); if (i == 0) { hunits xx = x - w; hunits xx2 = xx/2; out->right(xx2); if (out->is_on()) n->tprint(out); out->right(xx - xx2); } else { hunits rem = x - w*i; if (rem > H0) if (n->overlaps_horizontally()) { if (out->is_on()) n->tprint(out); out->right(rem - w); } else out->right(rem); while (--i >= 0) if (out->is_on()) n->tprint(out); } } void vline_node::tprint(troff_output_file *out) { if (n == 0) { out->down(x); return; } vunits h = n->size(); int overlaps = n->overlaps_vertically(); vunits y = x; if (y < V0) { y = -y; int i = y / h; vunits rem = y - i*h; if (i == 0) { out->right(n->width()); out->down(-rem); } else { while (--i > 0) { n->zero_width_tprint(out); out->down(-h); } if (overlaps) { n->zero_width_tprint(out); out->down(-rem); if (out->is_on()) n->tprint(out); out->down(-h); } else { if (out->is_on()) n->tprint(out); out->down(-h - rem); } } } else { int i = y / h; vunits rem = y - i*h; if (i == 0) { out->down(rem); out->right(n->width()); } else { out->down(h); if (overlaps) n->zero_width_tprint(out); out->down(rem); while (--i > 0) { n->zero_width_tprint(out); out->down(h); } if (out->is_on()) n->tprint(out); } } } void zero_width_node::tprint(troff_output_file *out) { if (!n) return; if (!n->next) { n->zero_width_tprint(out); return; } int hpos = out->get_hpos(); int vpos = out->get_vpos(); node *tem = n; while (tem) { tem->tprint(out); tem = tem->next; } out->moveto(hpos, vpos); } void overstrike_node::tprint(troff_output_file *out) { hunits pos = H0; for (node *tem = list; tem; tem = tem->next) { hunits x = (max_width - tem->width())/2; out->right(x - pos); pos = x; tem->zero_width_tprint(out); } out->right(max_width - pos); } void bracket_node::tprint(troff_output_file *out) { if (list == 0) return; int npieces = 0; node *tem; for (tem = list; tem; tem = tem->next) ++npieces; vunits h = list->size(); vunits totalh = h*npieces; vunits y = (totalh - h)/2; out->down(y); for (tem = list; tem; tem = tem->next) { tem->zero_width_tprint(out); out->down(-h); } out->right(max_width); out->down(totalh - y); } void node::tprint(troff_output_file *) { } void node::zero_width_tprint(troff_output_file *out) { int hpos = out->get_hpos(); int vpos = out->get_vpos(); tprint(out); out->moveto(hpos, vpos); } void space_node::tprint(troff_output_file *out) { out->fill_color(col); out->right(n); } void hmotion_node::tprint(troff_output_file *out) { out->fill_color(col); out->right(n); } void space_char_hmotion_node::tprint(troff_output_file *out) { out->fill_color(col); if (is_html) { // we emit the space width as a negative glyph index out->flush_tbuf(); out->do_motion(); out->put('N'); out->put(-n.to_units()); out->put('\n'); } out->right(n); } void vmotion_node::tprint(troff_output_file *out) { out->fill_color(col); out->down(n); } void kern_pair_node::tprint(troff_output_file *out) { n1->tprint(out); out->right(amount); n2->tprint(out); } static void tprint_reverse_node_list(troff_output_file *out, node *n) { if (n == 0) return; tprint_reverse_node_list(out, n->next); n->tprint(out); } void dbreak_node::tprint(troff_output_file *out) { tprint_reverse_node_list(out, none); } void composite_node::tprint(troff_output_file *out) { hunits bold_offset; int is_bold = tf->get_bold(&bold_offset); hunits track_kern = tf->get_track_kern(); hunits constant_space; int is_constant_spaced = tf->get_constant_space(&constant_space); hunits x = H0; if (is_constant_spaced) { x = constant_space; for (node *tem = n; tem; tem = tem->next) x -= tem->width(); if (is_bold) x -= bold_offset; hunits x2 = x/2; out->right(x2); x -= x2; } if (is_bold) { int hpos = out->get_hpos(); int vpos = out->get_vpos(); tprint_reverse_node_list(out, n); out->moveto(hpos, vpos); out->right(bold_offset); } tprint_reverse_node_list(out, n); if (is_constant_spaced) out->right(x); else out->right(track_kern); } node *make_composite_node(charinfo *s, environment *env) { int fontno = env_definite_font(env); if (fontno < 0) { error("no current font"); return 0; } assert(fontno < font_table_size && font_table[fontno] != 0); node *n = charinfo_to_node_list(s, env); font_size fs = env->get_font_size(); int char_height = env->get_char_height(); int char_slant = env->get_char_slant(); tfont *tf = font_table[fontno]->get_tfont(fs, char_height, char_slant, fontno); if (env->is_composite()) tf = tf->get_plain(); return new composite_node(n, s, tf, 0, 0, 0); } node *make_glyph_node(charinfo *s, environment *env, int no_error_message = 0) { int fontno = env_definite_font(env); if (fontno < 0) { error("no current font"); return 0; } assert(fontno < font_table_size && font_table[fontno] != 0); int fn = fontno; int found = font_table[fontno]->contains(s); if (!found) { macro *mac = s->get_macro(); if (mac && s->is_fallback()) return make_composite_node(s, env); if (s->numbered()) { if (!no_error_message) warning(WARN_CHAR, "can't find numbered character %1", s->get_number()); return 0; } special_font_list *sf = font_table[fontno]->sf; while (sf != 0 && !found) { fn = sf->n; if (font_table[fn]) found = font_table[fn]->contains(s); sf = sf->next; } if (!found) { symbol f = font_table[fontno]->get_name(); string gl(f.contents()); gl += ' '; gl += s->nm.contents(); gl += '\0'; charinfo *ci = get_charinfo(symbol(gl.contents())); if (ci && ci->get_macro()) return make_composite_node(ci, env); } if (!found) { sf = global_special_fonts; while (sf != 0 && !found) { fn = sf->n; if (font_table[fn]) found = font_table[fn]->contains(s); sf = sf->next; } } if (!found) if (mac && s->is_special()) return make_composite_node(s, env); if (!found) { for (fn = 0; fn < font_table_size; fn++) if (font_table[fn] && font_table[fn]->is_special() && font_table[fn]->contains(s)) { found = 1; break; } } if (!found) { if (!no_error_message && s->first_time_not_found()) { unsigned char input_code = s->get_ascii_code(); if (input_code != 0) { if (csgraph(input_code)) warning(WARN_CHAR, "can't find character `%1'", input_code); else warning(WARN_CHAR, "can't find character with input code %1", int(input_code)); } else if (s->nm.contents()) warning(WARN_CHAR, "can't find special character `%1'", s->nm.contents()); } return 0; } } font_size fs = env->get_font_size(); int char_height = env->get_char_height(); int char_slant = env->get_char_slant(); tfont *tf = font_table[fontno]->get_tfont(fs, char_height, char_slant, fn); if (env->is_composite()) tf = tf->get_plain(); color *gcol = env->get_glyph_color(); color *fcol = env->get_fill_color(); return new glyph_node(s, tf, gcol, fcol, 0, 0); } node *make_node(charinfo *ci, environment *env) { switch (ci->get_special_translation()) { case charinfo::TRANSLATE_SPACE: return new space_char_hmotion_node(env->get_space_width(), env->get_fill_color()); case charinfo::TRANSLATE_STRETCHABLE_SPACE: return new unbreakable_space_node(env->get_space_width(), env->get_fill_color()); case charinfo::TRANSLATE_DUMMY: return new dummy_node; case charinfo::TRANSLATE_HYPHEN_INDICATOR: error("translation to \\% ignored in this context"); break; } charinfo *tem = ci->get_translation(); if (tem) ci = tem; macro *mac = ci->get_macro(); if (mac && ci->is_normal()) return make_composite_node(ci, env); else return make_glyph_node(ci, env); } int character_exists(charinfo *ci, environment *env) { if (ci->get_special_translation() != charinfo::TRANSLATE_NONE) return 1; charinfo *tem = ci->get_translation(); if (tem) ci = tem; if (ci->get_macro()) return 1; node *nd = make_glyph_node(ci, env, 1); if (nd) { delete nd; return 1; } return 0; } node *node::add_char(charinfo *ci, environment *env, hunits *widthp, int *spacep, node **glyph_comp_np) { node *res; switch (ci->get_special_translation()) { case charinfo::TRANSLATE_SPACE: res = new space_char_hmotion_node(env->get_space_width(), env->get_fill_color(), this); *widthp += res->width(); return res; case charinfo::TRANSLATE_STRETCHABLE_SPACE: res = new unbreakable_space_node(env->get_space_width(), env->get_fill_color(), this); res->freeze_space(); *widthp += res->width(); *spacep += res->nspaces(); return res; case charinfo::TRANSLATE_DUMMY: return new dummy_node(this); case charinfo::TRANSLATE_HYPHEN_INDICATOR: return add_discretionary_hyphen(); } charinfo *tem = ci->get_translation(); if (tem) ci = tem; macro *mac = ci->get_macro(); if (mac && ci->is_normal()) { res = make_composite_node(ci, env); if (res) { res->next = this; *widthp += res->width(); if (glyph_comp_np) *glyph_comp_np = res; } else { if (glyph_comp_np) *glyph_comp_np = res; return this; } } else { node *gn = make_glyph_node(ci, env); if (gn == 0) return this; else { hunits old_width = width(); node *p = gn->merge_self(this); if (p == 0) { *widthp += gn->width(); gn->next = this; res = gn; } else { *widthp += p->width() - old_width; res = p; } if (glyph_comp_np) *glyph_comp_np = res; } } int break_code = 0; if (ci->can_break_before()) break_code = 1; if (ci->can_break_after()) break_code |= 2; if (break_code) { node *next1 = res->next; res->next = 0; res = new break_char_node(res, break_code, env->get_fill_color(), next1); } return res; } #ifdef __GNUG__ inline #endif int same_node(node *n1, node *n2) { if (n1 != 0) { if (n2 != 0) return n1->type() == n2->type() && n1->same(n2); else return 0; } else return n2 == 0; } int same_node_list(node *n1, node *n2) { while (n1 && n2) { if (n1->type() != n2->type() || !n1->same(n2)) return 0; n1 = n1->next; n2 = n2->next; } return !n1 && !n2; } int extra_size_node::same(node *nd) { return n == ((extra_size_node *)nd)->n; } const char *extra_size_node::type() { return "extra_size_node"; } int extra_size_node::force_tprint() { return 0; } int extra_size_node::is_tag() { return 0; } int vertical_size_node::same(node *nd) { return n == ((vertical_size_node *)nd)->n; } const char *vertical_size_node::type() { return "vertical_size_node"; } int vertical_size_node::set_unformat_flag() { return 0; } int vertical_size_node::force_tprint() { return 0; } int vertical_size_node::is_tag() { return 0; } int hmotion_node::same(node *nd) { return n == ((hmotion_node *)nd)->n && col == ((hmotion_node *)nd)->col; } const char *hmotion_node::type() { return "hmotion_node"; } int hmotion_node::set_unformat_flag() { unformat = 1; return 1; } int hmotion_node::force_tprint() { return 0; } int hmotion_node::is_tag() { return 0; } node *hmotion_node::add_self(node *nd, hyphen_list **p) { next = nd; hyphen_list *pp = *p; *p = (*p)->next; delete pp; return this; } hyphen_list *hmotion_node::get_hyphen_list(hyphen_list *tail, int *) { return new hyphen_list(0, tail); } int space_char_hmotion_node::same(node *nd) { return n == ((space_char_hmotion_node *)nd)->n && col == ((space_char_hmotion_node *)nd)->col; } const char *space_char_hmotion_node::type() { return "space_char_hmotion_node"; } int space_char_hmotion_node::force_tprint() { return 0; } int space_char_hmotion_node::is_tag() { return 0; } node *space_char_hmotion_node::add_self(node *nd, hyphen_list **p) { next = nd; hyphen_list *pp = *p; *p = (*p)->next; delete pp; return this; } hyphen_list *space_char_hmotion_node::get_hyphen_list(hyphen_list *tail, int *) { return new hyphen_list(0, tail); } int vmotion_node::same(node *nd) { return n == ((vmotion_node *)nd)->n && col == ((vmotion_node *)nd)->col; } const char *vmotion_node::type() { return "vmotion_node"; } int vmotion_node::force_tprint() { return 0; } int vmotion_node::is_tag() { return 0; } int hline_node::same(node *nd) { return x == ((hline_node *)nd)->x && same_node(n, ((hline_node *)nd)->n); } const char *hline_node::type() { return "hline_node"; } int hline_node::force_tprint() { return 0; } int hline_node::is_tag() { return 0; } int vline_node::same(node *nd) { return x == ((vline_node *)nd)->x && same_node(n, ((vline_node *)nd)->n); } const char *vline_node::type() { return "vline_node"; } int vline_node::force_tprint() { return 0; } int vline_node::is_tag() { return 0; } int dummy_node::same(node * /*nd*/) { return 1; } const char *dummy_node::type() { return "dummy_node"; } int dummy_node::force_tprint() { return 0; } int dummy_node::is_tag() { return 0; } int transparent_dummy_node::same(node * /*nd*/) { return 1; } const char *transparent_dummy_node::type() { return "transparent_dummy_node"; } int transparent_dummy_node::force_tprint() { return 0; } int transparent_dummy_node::is_tag() { return 0; } int transparent_dummy_node::ends_sentence() { return 2; } int zero_width_node::same(node *nd) { return same_node_list(n, ((zero_width_node *)nd)->n); } const char *zero_width_node::type() { return "zero_width_node"; } int zero_width_node::force_tprint() { return 0; } int zero_width_node::is_tag() { return 0; } int italic_corrected_node::same(node *nd) { return (x == ((italic_corrected_node *)nd)->x && same_node(n, ((italic_corrected_node *)nd)->n)); } const char *italic_corrected_node::type() { return "italic_corrected_node"; } int italic_corrected_node::force_tprint() { return 0; } int italic_corrected_node::is_tag() { return 0; } left_italic_corrected_node::left_italic_corrected_node(node *xx) : node(xx), n(0) { } left_italic_corrected_node::left_italic_corrected_node(statem *s, int pop, node *xx) : node(xx, s, pop), n(0) { } left_italic_corrected_node::~left_italic_corrected_node() { delete n; } node *left_italic_corrected_node::merge_glyph_node(glyph_node *gn) { if (n == 0) { hunits lic = gn->left_italic_correction(); if (!lic.is_zero()) { x = lic; n = gn; return this; } } else { node *nd = n->merge_glyph_node(gn); if (nd) { n = nd; x = n->left_italic_correction(); return this; } } return 0; } node *left_italic_corrected_node::copy() { left_italic_corrected_node *nd = new left_italic_corrected_node(state, div_nest_level); if (n) { nd->n = n->copy(); nd->x = x; } return nd; } void left_italic_corrected_node::tprint(troff_output_file *out) { if (n) { out->right(x); n->tprint(out); } } const char *left_italic_corrected_node::type() { return "left_italic_corrected_node"; } int left_italic_corrected_node::force_tprint() { return 0; } int left_italic_corrected_node::is_tag() { return 0; } int left_italic_corrected_node::same(node *nd) { return (x == ((left_italic_corrected_node *)nd)->x && same_node(n, ((left_italic_corrected_node *)nd)->n)); } void left_italic_corrected_node::ascii_print(ascii_output_file *out) { if (n) n->ascii_print(out); } hunits left_italic_corrected_node::width() { return n ? n->width() + x : H0; } void left_italic_corrected_node::vertical_extent(vunits *minimum, vunits *maximum) { if (n) n->vertical_extent(minimum, maximum); else node::vertical_extent(minimum, maximum); } hunits left_italic_corrected_node::skew() { return n ? n->skew() + x/2 : H0; } hunits left_italic_corrected_node::subscript_correction() { return n ? n->subscript_correction() : H0; } hunits left_italic_corrected_node::italic_correction() { return n ? n->italic_correction() : H0; } int left_italic_corrected_node::ends_sentence() { return n ? n->ends_sentence() : 0; } int left_italic_corrected_node::overlaps_horizontally() { return n ? n->overlaps_horizontally() : 0; } int left_italic_corrected_node::overlaps_vertically() { return n ? n->overlaps_vertically() : 0; } node *left_italic_corrected_node::last_char_node() { return n ? n->last_char_node() : 0; } tfont *left_italic_corrected_node::get_tfont() { return n ? n->get_tfont() : 0; } hyphenation_type left_italic_corrected_node::get_hyphenation_type() { if (n) return n->get_hyphenation_type(); else return HYPHEN_MIDDLE; } hyphen_list *left_italic_corrected_node::get_hyphen_list(hyphen_list *tail, int *count) { return n ? n->get_hyphen_list(tail, count) : tail; } node *left_italic_corrected_node::add_self(node *nd, hyphen_list **p) { if (n) { nd = new left_italic_corrected_node(state, div_nest_level, nd); nd = n->add_self(nd, p); n = 0; delete this; } return nd; } int left_italic_corrected_node::character_type() { return n ? n->character_type() : 0; } int overstrike_node::same(node *nd) { return same_node_list(list, ((overstrike_node *)nd)->list); } const char *overstrike_node::type() { return "overstrike_node"; } int overstrike_node::force_tprint() { return 0; } int overstrike_node::is_tag() { return 0; } node *overstrike_node::add_self(node *n, hyphen_list **p) { next = n; hyphen_list *pp = *p; *p = (*p)->next; delete pp; return this; } hyphen_list *overstrike_node::get_hyphen_list(hyphen_list *tail, int *) { return new hyphen_list(0, tail); } int bracket_node::same(node *nd) { return same_node_list(list, ((bracket_node *)nd)->list); } const char *bracket_node::type() { return "bracket_node"; } int bracket_node::force_tprint() { return 0; } int bracket_node::is_tag() { return 0; } int composite_node::same(node *nd) { return ci == ((composite_node *)nd)->ci && same_node_list(n, ((composite_node *)nd)->n); } const char *composite_node::type() { return "composite_node"; } int composite_node::force_tprint() { return 0; } int composite_node::is_tag() { return 0; } int glyph_node::same(node *nd) { return ci == ((glyph_node *)nd)->ci && tf == ((glyph_node *)nd)->tf && gcol == ((glyph_node *)nd)->gcol && fcol == ((glyph_node *)nd)->fcol; } const char *glyph_node::type() { return "glyph_node"; } int glyph_node::force_tprint() { return 0; } int glyph_node::is_tag() { return 0; } int ligature_node::same(node *nd) { return (same_node(n1, ((ligature_node *)nd)->n1) && same_node(n2, ((ligature_node *)nd)->n2) && glyph_node::same(nd)); } const char *ligature_node::type() { return "ligature_node"; } int ligature_node::force_tprint() { return 0; } int ligature_node::is_tag() { return 0; } int kern_pair_node::same(node *nd) { return (amount == ((kern_pair_node *)nd)->amount && same_node(n1, ((kern_pair_node *)nd)->n1) && same_node(n2, ((kern_pair_node *)nd)->n2)); } const char *kern_pair_node::type() { return "kern_pair_node"; } int kern_pair_node::force_tprint() { return 0; } int kern_pair_node::is_tag() { return 0; } int dbreak_node::same(node *nd) { return (same_node_list(none, ((dbreak_node *)nd)->none) && same_node_list(pre, ((dbreak_node *)nd)->pre) && same_node_list(post, ((dbreak_node *)nd)->post)); } const char *dbreak_node::type() { return "dbreak_node"; } int dbreak_node::force_tprint() { return 0; } int dbreak_node::is_tag() { return 0; } int break_char_node::same(node *nd) { return break_code == ((break_char_node *)nd)->break_code && col == ((break_char_node *)nd)->col && same_node(ch, ((break_char_node *)nd)->ch); } const char *break_char_node::type() { return "break_char_node"; } int break_char_node::force_tprint() { return 0; } int break_char_node::is_tag() { return 0; } int line_start_node::same(node * /*nd*/) { return 1; } const char *line_start_node::type() { return "line_start_node"; } int line_start_node::force_tprint() { return 0; } int line_start_node::is_tag() { return 0; } int space_node::same(node *nd) { return n == ((space_node *)nd)->n && set == ((space_node *)nd)->set && col == ((space_node *)nd)->col; } const char *space_node::type() { return "space_node"; } int word_space_node::same(node *nd) { return n == ((word_space_node *)nd)->n && set == ((word_space_node *)nd)->set && col == ((word_space_node *)nd)->col; } const char *word_space_node::type() { return "word_space_node"; } int word_space_node::force_tprint() { return 0; } int word_space_node::is_tag() { return 0; } void unbreakable_space_node::tprint(troff_output_file *out) { out->fill_color(col); if (is_html) { // we emit the space width as a negative glyph index out->flush_tbuf(); out->do_motion(); out->put('N'); out->put(-n.to_units()); out->put('\n'); } out->right(n); } int unbreakable_space_node::same(node *nd) { return n == ((unbreakable_space_node *)nd)->n && set == ((unbreakable_space_node *)nd)->set && col == ((unbreakable_space_node *)nd)->col; } const char *unbreakable_space_node::type() { return "unbreakable_space_node"; } node *unbreakable_space_node::add_self(node *nd, hyphen_list **p) { next = nd; hyphen_list *pp = *p; *p = (*p)->next; delete pp; return this; } hyphen_list *unbreakable_space_node::get_hyphen_list(hyphen_list *tail, int *) { return new hyphen_list(0, tail); } int diverted_space_node::same(node *nd) { return n == ((diverted_space_node *)nd)->n; } const char *diverted_space_node::type() { return "diverted_space_node"; } int diverted_space_node::force_tprint() { return 0; } int diverted_space_node::is_tag() { return 0; } int diverted_copy_file_node::same(node *nd) { return filename == ((diverted_copy_file_node *)nd)->filename; } const char *diverted_copy_file_node::type() { return "diverted_copy_file_node"; } int diverted_copy_file_node::force_tprint() { return 0; } int diverted_copy_file_node::is_tag() { return 0; } // Grow the font_table so that its size is > n. static void grow_font_table(int n) { assert(n >= font_table_size); font_info **old_font_table = font_table; int old_font_table_size = font_table_size; font_table_size = font_table_size ? (font_table_size*3)/2 : 10; if (font_table_size <= n) font_table_size = n + 10; font_table = new font_info *[font_table_size]; if (old_font_table_size) memcpy(font_table, old_font_table, old_font_table_size*sizeof(font_info *)); a_delete old_font_table; for (int i = old_font_table_size; i < font_table_size; i++) font_table[i] = 0; } dictionary font_translation_dictionary(17); static symbol get_font_translation(symbol nm) { void *p = font_translation_dictionary.lookup(nm); return p ? symbol((char *)p) : nm; } dictionary font_dictionary(50); static int mount_font_no_translate(int n, symbol name, symbol external_name, int check_only = 0) { assert(n >= 0); // We store the address of this char in font_dictionary to indicate // that we've previously tried to mount the font and failed. static char a_char; font *fm = 0; void *p = font_dictionary.lookup(external_name); if (p == 0) { int not_found; fm = font::load_font(external_name.contents(), ¬_found, check_only); if (check_only) return fm != 0; if (!fm) { if (not_found) warning(WARN_FONT, "can't find font `%1'", external_name.contents()); (void)font_dictionary.lookup(external_name, &a_char); return 0; } (void)font_dictionary.lookup(name, fm); } else if (p == &a_char) { #if 0 error("invalid font `%1'", external_name.contents()); #endif return 0; } else fm = (font*)p; if (check_only) return 1; if (n >= font_table_size) { if (n - font_table_size > 1000) { error("font position too much larger than first unused position"); return 0; } grow_font_table(n); } else if (font_table[n] != 0) delete font_table[n]; font_table[n] = new font_info(name, n, external_name, fm); font_family::invalidate_fontno(n); return 1; } int mount_font(int n, symbol name, symbol external_name) { assert(n >= 0); name = get_font_translation(name); if (external_name.is_null()) external_name = name; else external_name = get_font_translation(external_name); return mount_font_no_translate(n, name, external_name); } int check_font(symbol fam, symbol name) { if (check_style(name)) name = concat(fam, name); return mount_font_no_translate(0, name, name, 1); } int check_style(symbol s) { int i = symbol_fontno(s); return i < 0 ? 0 : font_table[i]->is_style(); } void mount_style(int n, symbol name) { assert(n >= 0); if (n >= font_table_size) { if (n - font_table_size > 1000) { error("font position too much larger than first unused position"); return; } grow_font_table(n); } else if (font_table[n] != 0) delete font_table[n]; font_table[n] = new font_info(get_font_translation(name), n, NULL_SYMBOL, 0); font_family::invalidate_fontno(n); } /* global functions */ void font_translate() { symbol from = get_name(1); if (!from.is_null()) { symbol to = get_name(); if (to.is_null() || from == to) font_translation_dictionary.remove(from); else (void)font_translation_dictionary.lookup(from, (void *)to.contents()); } skip_line(); } void font_position() { int n; if (get_integer(&n)) { if (n < 0) error("negative font position"); else { symbol internal_name = get_name(1); if (!internal_name.is_null()) { symbol external_name = get_long_name(); mount_font(n, internal_name, external_name); // ignore error } } } skip_line(); } font_family::font_family(symbol s) : map_size(10), nm(s) { map = new int[map_size]; for (int i = 0; i < map_size; i++) map[i] = -1; } font_family::~font_family() { a_delete map; } int font_family::make_definite(int i) { if (i >= 0) { if (i < map_size && map[i] >= 0) return map[i]; else { if (i < font_table_size && font_table[i] != 0) { if (i >= map_size) { int old_map_size = map_size; int *old_map = map; map_size *= 3; map_size /= 2; if (i >= map_size) map_size = i + 10; map = new int[map_size]; memcpy(map, old_map, old_map_size*sizeof(int)); a_delete old_map; for (int j = old_map_size; j < map_size; j++) map[j] = -1; } if (font_table[i]->is_style()) { symbol sty = font_table[i]->get_name(); symbol f = concat(nm, sty); int n; // don't use symbol_fontno, because that might return a style // and because we don't want to translate the name for (n = 0; n < font_table_size; n++) if (font_table[n] != 0 && font_table[n]->is_named(f) && !font_table[n]->is_style()) break; if (n >= font_table_size) { n = next_available_font_position(); if (!mount_font_no_translate(n, f, f)) return -1; } return map[i] = n; } else return map[i] = i; } else return -1; } } else return -1; } dictionary family_dictionary(5); font_family *lookup_family(symbol nm) { font_family *f = (font_family *)family_dictionary.lookup(nm); if (!f) { f = new font_family(nm); (void)family_dictionary.lookup(nm, f); } return f; } void font_family::invalidate_fontno(int n) { assert(n >= 0 && n < font_table_size); dictionary_iterator iter(family_dictionary); symbol nam; font_family *fam; while (iter.get(&nam, (void **)&fam)) { int mapsize = fam->map_size; if (n < mapsize) fam->map[n] = -1; for (int i = 0; i < mapsize; i++) if (fam->map[i] == n) fam->map[i] = -1; } } void style() { int n; if (get_integer(&n)) { if (n < 0) error("negative font position"); else { symbol internal_name = get_name(1); if (!internal_name.is_null()) mount_style(n, internal_name); } } skip_line(); } static int get_fontno() { int n; tok.skip(); if (tok.delimiter()) { symbol s = get_name(1); if (!s.is_null()) { n = symbol_fontno(s); if (n < 0) { n = next_available_font_position(); if (!mount_font(n, s)) return -1; } return curenv->get_family()->make_definite(n); } } else if (get_integer(&n)) { if (n < 0 || n >= font_table_size || font_table[n] == 0) error("bad font number"); else return curenv->get_family()->make_definite(n); } return -1; } static int underline_fontno = 2; void underline_font() { int n = get_fontno(); if (n >= 0) underline_fontno = n; skip_line(); } int get_underline_fontno() { return underline_fontno; } void define_font_special_character() { int n = get_fontno(); if (n < 0) { skip_line(); return; } symbol f = font_table[n]->get_name(); do_define_character(CHAR_FONT_SPECIAL, f.contents()); } void remove_font_special_character() { int n = get_fontno(); if (n < 0) { skip_line(); return; } symbol f = font_table[n]->get_name(); while (!tok.newline() && !tok.eof()) { if (!tok.space() && !tok.tab()) { charinfo *s = tok.get_char(1); string gl(f.contents()); gl += ' '; gl += s->nm.contents(); gl += '\0'; charinfo *ci = get_charinfo(symbol(gl.contents())); if (!ci) break; macro *m = ci->set_macro(0); if (m) delete m; } tok.next(); } skip_line(); } static void read_special_fonts(special_font_list **sp) { special_font_list *s = *sp; *sp = 0; while (s != 0) { special_font_list *tem = s; s = s->next; delete tem; } special_font_list **p = sp; while (has_arg()) { int i = get_fontno(); if (i >= 0) { special_font_list *tem = new special_font_list; tem->n = i; tem->next = 0; *p = tem; p = &(tem->next); } } } void font_special_request() { int n = get_fontno(); if (n >= 0) read_special_fonts(&font_table[n]->sf); skip_line(); } void special_request() { read_special_fonts(&global_special_fonts); skip_line(); } int next_available_font_position() { int i; for (i = 1; i < font_table_size && font_table[i] != 0; i++) ; return i; } int symbol_fontno(symbol s) { s = get_font_translation(s); for (int i = 0; i < font_table_size; i++) if (font_table[i] != 0 && font_table[i]->is_named(s)) return i; return -1; } int is_good_fontno(int n) { return n >= 0 && n < font_table_size && font_table[n] != 0; } int get_bold_fontno(int n) { if (n >= 0 && n < font_table_size && font_table[n] != 0) { hunits offset; if (font_table[n]->get_bold(&offset)) return offset.to_units() + 1; else return 0; } else return 0; } hunits env_digit_width(environment *env) { node *n = make_glyph_node(charset_table['0'], env); if (n) { hunits x = n->width(); delete n; return x; } else return H0; } hunits env_space_width(environment *env) { int fn = env_definite_font(env); font_size fs = env->get_font_size(); if (fn < 0 || fn >= font_table_size || font_table[fn] == 0) return scale(fs.to_units()/3, env->get_space_size(), 12); else return font_table[fn]->get_space_width(fs, env->get_space_size()); } hunits env_sentence_space_width(environment *env) { int fn = env_definite_font(env); font_size fs = env->get_font_size(); if (fn < 0 || fn >= font_table_size || font_table[fn] == 0) return scale(fs.to_units()/3, env->get_sentence_space_size(), 12); else return font_table[fn]->get_space_width(fs, env->get_sentence_space_size()); } hunits env_half_narrow_space_width(environment *env) { int fn = env_definite_font(env); font_size fs = env->get_font_size(); if (fn < 0 || fn >= font_table_size || font_table[fn] == 0) return 0; else return font_table[fn]->get_half_narrow_space_width(fs); } hunits env_narrow_space_width(environment *env) { int fn = env_definite_font(env); font_size fs = env->get_font_size(); if (fn < 0 || fn >= font_table_size || font_table[fn] == 0) return 0; else return font_table[fn]->get_narrow_space_width(fs); } void bold_font() { int n = get_fontno(); if (n >= 0) { if (has_arg()) { if (tok.delimiter()) { int f = get_fontno(); if (f >= 0) { units offset; if (has_arg() && get_number(&offset, 'u') && offset >= 1) font_table[f]->set_conditional_bold(n, hunits(offset - 1)); else font_table[f]->conditional_unbold(n); } } else { units offset; if (get_number(&offset, 'u') && offset >= 1) font_table[n]->set_bold(hunits(offset - 1)); else font_table[n]->unbold(); } } else font_table[n]->unbold(); } skip_line(); } track_kerning_function::track_kerning_function() : non_zero(0) { } track_kerning_function::track_kerning_function(int min_s, hunits min_a, int max_s, hunits max_a) : non_zero(1), min_size(min_s), min_amount(min_a), max_size(max_s), max_amount(max_a) { } int track_kerning_function::operator==(const track_kerning_function &tk) { if (non_zero) return (tk.non_zero && min_size == tk.min_size && min_amount == tk.min_amount && max_size == tk.max_size && max_amount == tk.max_amount); else return !tk.non_zero; } int track_kerning_function::operator!=(const track_kerning_function &tk) { if (non_zero) return (!tk.non_zero || min_size != tk.min_size || min_amount != tk.min_amount || max_size != tk.max_size || max_amount != tk.max_amount); else return tk.non_zero; } hunits track_kerning_function::compute(int size) { if (non_zero) { if (max_size <= min_size) return min_amount; else if (size <= min_size) return min_amount; else if (size >= max_size) return max_amount; else return (scale(max_amount, size - min_size, max_size - min_size) + scale(min_amount, max_size - size, max_size - min_size)); } else return H0; } void track_kern() { int n = get_fontno(); if (n >= 0) { int min_s, max_s; hunits min_a, max_a; if (has_arg() && get_number(&min_s, 'z') && get_hunits(&min_a, 'p') && get_number(&max_s, 'z') && get_hunits(&max_a, 'p')) { track_kerning_function tk(min_s, min_a, max_s, max_a); font_table[n]->set_track_kern(tk); } else { track_kerning_function tk; font_table[n]->set_track_kern(tk); } } skip_line(); } void constant_space() { int n = get_fontno(); if (n >= 0) { int x, y; if (!has_arg() || !get_integer(&x)) font_table[n]->set_constant_space(CONSTANT_SPACE_NONE); else { if (!has_arg() || !get_number(&y, 'z')) font_table[n]->set_constant_space(CONSTANT_SPACE_RELATIVE, x); else font_table[n]->set_constant_space(CONSTANT_SPACE_ABSOLUTE, scale(y*x, units_per_inch, 36*72*sizescale)); } } skip_line(); } void ligature() { int lig; if (has_arg() && get_integer(&lig) && lig >= 0 && lig <= 2) global_ligature_mode = lig; else global_ligature_mode = 1; skip_line(); } void kern_request() { int k; if (has_arg() && get_integer(&k)) global_kern_mode = k != 0; else global_kern_mode = 1; skip_line(); } void set_soft_hyphen_char() { soft_hyphen_char = get_optional_char(); if (!soft_hyphen_char) soft_hyphen_char = get_charinfo(HYPHEN_SYMBOL); skip_line(); } void init_output() { if (suppress_output_flag) the_output = new suppress_output_file; else if (ascii_output_flag) the_output = new ascii_output_file; else the_output = new troff_output_file; } class next_available_font_position_reg : public reg { public: const char *get_string(); }; const char *next_available_font_position_reg::get_string() { return i_to_a(next_available_font_position()); } class printing_reg : public reg { public: const char *get_string(); }; const char *printing_reg::get_string() { if (the_output) return the_output->is_printing() ? "1" : "0"; else return "0"; } void init_node_requests() { init_request("bd", bold_font); init_request("cs", constant_space); init_request("fp", font_position); init_request("fschar", define_font_special_character); init_request("fspecial", font_special_request); init_request("ftr", font_translate); init_request("kern", kern_request); init_request("lg", ligature); init_request("rfschar", remove_font_special_character); init_request("shc", set_soft_hyphen_char); init_request("special", special_request); init_request("sty", style); init_request("tkf", track_kern); init_request("uf", underline_font); number_reg_dictionary.define(".fp", new next_available_font_position_reg); number_reg_dictionary.define(".kern", new constant_int_reg(&global_kern_mode)); number_reg_dictionary.define(".lg", new constant_int_reg(&global_ligature_mode)); number_reg_dictionary.define(".P", new printing_reg); soft_hyphen_char = get_charinfo(HYPHEN_SYMBOL); }