// -*- C++ -*- /* Copyright (C) 1989, 1990, 1991, 1992 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, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "driver.h" #include "stringclass.h" #include "cset.h" #include "ps.h" #include static int landscape_flag = 0; static int manual_feed_flag = 0; static int ncopies = 1; static int linewidth = -1; // Non-zero means generate PostScript code that guesses the paper // length using the imageable area. static int guess_flag = 0; // Non-zero if -b was specified on the command line. static int bflag = 0; unsigned broken_flags = 0; #define DEFAULT_LINEWIDTH 40 /* in ems/1000 */ #define MAX_LINE_LENGTH 72 #define FILL_MAX 1000 const char *const dict_name = "grops"; const char *const defs_dict_name = "DEFS"; const int DEFS_DICT_SPARE = 50; double degrees(double r) { return r*180.0/PI; } double radians(double d) { return d*PI/180.0; } inline double transform_fill(int fill) { return 1 - fill/double(FILL_MAX); } // This is used for testing whether a character should be output in the // PostScript file using \nnn, so we really want the character to be // less than 0200. inline int is_ascii(char c) { return (unsigned char)c < 0200; } ps_output::ps_output(FILE *f, int n) : fp(f), max_line_length(n), col(0), need_space(0), fixed_point(0) { } ps_output &ps_output::set_file(FILE *f) { fp = f; col = 0; return *this; } ps_output &ps_output::copy_file(FILE *infp) { int c; while ((c = getc(infp)) != EOF) putc(c, fp); return *this; } ps_output &ps_output::end_line() { if (col != 0) { putc('\n', fp); col = 0; need_space = 0; } return *this; } ps_output &ps_output::special(const char *s) { if (s == 0 || *s == '\0') return *this; if (col != 0) { putc('\n', fp); col = 0; } fputs(s, fp); if (strchr(s, '\0')[-1] != '\n') putc('\n', fp); need_space = 0; return *this; } ps_output &ps_output::simple_comment(const char *s) { if (col != 0) putc('\n', fp); putc('%', fp); putc('%', fp); fputs(s, fp); putc('\n', fp); col = 0; need_space = 0; return *this; } ps_output &ps_output::begin_comment(const char *s) { if (col != 0) putc('\n', fp); putc('%', fp); putc('%', fp); fputs(s, fp); col = 2 + strlen(s); return *this; } ps_output &ps_output::end_comment() { if (col != 0) { putc('\n', fp); col = 0; } need_space = 0; return *this; } ps_output &ps_output::comment_arg(const char *s) { int len = strlen(s); if (col + len + 1 > max_line_length) { putc('\n', fp); fputs("%%+", fp); col = 3; } putc(' ', fp); fputs(s, fp); col += len + 1; return *this; } ps_output &ps_output::set_fixed_point(int n) { assert(n >= 0 && n <= 10); fixed_point = n; return *this; } ps_output &ps_output::put_delimiter(char c) { if (col + 1 > max_line_length) { putc('\n', fp); col = 0; } putc(c, fp); col++; need_space = 0; return *this; } ps_output &ps_output::put_string(const char *s, int n) { int len = 0; int i; for (i = 0; i < n; i++) { char c = s[i]; if (is_ascii(c) && csprint(c)) { if (c == '(' || c == ')' || c == '\\') len += 2; else len += 1; } else len += 4; } if (len > n*2) { if (col + n*2 + 2 > max_line_length && n*2 + 2 <= max_line_length) { putc('\n', fp); col = 0; } if (col + 1 > max_line_length) { putc('\n', fp); col = 0; } putc('<', fp); col++; for (i = 0; i < n; i++) { if (col + 2 > max_line_length) { putc('\n', fp); col = 0; } fprintf(fp, "%02x", s[i] & 0377); col += 2; } putc('>', fp); col++; } else { if (col + len + 2 > max_line_length && len + 2 <= max_line_length) { putc('\n', fp); col = 0; } if (col + 2 > max_line_length) { putc('\n', fp); col = 0; } putc('(', fp); col++; for (i = 0; i < n; i++) { char c = s[i]; if (is_ascii(c) && csprint(c)) { if (c == '(' || c == ')' || c == '\\') len = 2; else len = 1; } else len = 4; if (col + len + 1 > max_line_length) { putc('\\', fp); putc('\n', fp); col = 0; } switch (len) { case 1: putc(c, fp); break; case 2: putc('\\', fp); putc(c, fp); break; case 4: fprintf(fp, "\\%03o", c & 0377); break; default: assert(0); } col += len; } putc(')', fp); col++; } need_space = 0; return *this; } ps_output &ps_output::put_number(int n) { char buf[1 + INT_DIGITS + 1]; sprintf(buf, "%d", n); int len = strlen(buf); if (col > 0 && col + len + need_space > max_line_length) { putc('\n', fp); col = 0; need_space = 0; } if (need_space) { putc(' ', fp); col++; } fputs(buf, fp); col += len; need_space = 1; return *this; } ps_output &ps_output::put_fix_number(int i) { const char *p = iftoa(i, fixed_point); int len = strlen(p); if (col > 0 && col + len + need_space > max_line_length) { putc('\n', fp); col = 0; need_space = 0; } if (need_space) { putc(' ', fp); col++; } fputs(p, fp); col += len; need_space = 1; return *this; } ps_output &ps_output::put_float(double d) { char buf[128]; sprintf(buf, "%.4f", d); int len = strlen(buf); if (col > 0 && col + len + need_space > max_line_length) { putc('\n', fp); col = 0; need_space = 0; } if (need_space) { putc(' ', fp); col++; } fputs(buf, fp); col += len; need_space = 1; return *this; } ps_output &ps_output::put_symbol(const char *s) { int len = strlen(s); if (col > 0 && col + len + need_space > max_line_length) { putc('\n', fp); col = 0; need_space = 0; } if (need_space) { putc(' ', fp); col++; } fputs(s, fp); col += len; need_space = 1; return *this; } ps_output &ps_output::put_literal_symbol(const char *s) { int len = strlen(s); if (col > 0 && col + len + 1 > max_line_length) { putc('\n', fp); col = 0; } putc('/', fp); fputs(s, fp); col += len + 1; need_space = 1; return *this; } class ps_font : public font { ps_font(const char *); public: int encoding_index; char *encoding; char *reencoded_name; ~ps_font(); void handle_unknown_font_command(const char *command, const char *arg, const char *filename, int lineno); static ps_font *load_ps_font(const char *); }; ps_font *ps_font::load_ps_font(const char *s) { ps_font *f = new ps_font(s); if (!f->load()) { delete f; return 0; } return f; } ps_font::ps_font(const char *nm) : font(nm), encoding(0), reencoded_name(0), encoding_index(-1) { } ps_font::~ps_font() { a_delete encoding; a_delete reencoded_name; } void ps_font::handle_unknown_font_command(const char *command, const char *arg, const char *filename, int lineno) { if (strcmp(command, "encoding") == 0) { if (arg == 0) error_with_file_and_line(filename, lineno, "`encoding' command requires an argument"); else encoding = strsave(arg); } } static void handle_unknown_desc_command(const char *command, const char *arg, const char *filename, int lineno) { if (strcmp(command, "broken") == 0) { if (arg == 0) error_with_file_and_line(filename, lineno, "`broken' command requires an argument"); else if (!bflag) broken_flags = atoi(arg); } } struct style { font *f; int point_size; int height; int slant; style(); style(font *, int, int, int); int operator==(const style &) const; int operator!=(const style &) const; }; style::style() : f(0) { } style::style(font *p, int sz, int h, int sl) : f(p), point_size(sz), height(h), slant(sl) { } int style::operator==(const style &s) const { return (f == s.f && point_size == s.point_size && height == s.height && slant == s.slant); } int style::operator!=(const style &s) const { return !(*this == s); } class ps_printer : public printer { FILE *tempfp; ps_output out; int res; int space_char_index; int pages_output; int paper_length; int equalise_spaces; enum { SBUF_SIZE = 256 }; char sbuf[SBUF_SIZE]; int sbuf_len; int sbuf_start_hpos; int sbuf_vpos; int sbuf_end_hpos; int sbuf_space_width; int sbuf_space_count; int sbuf_space_diff_count; int sbuf_space_code; int sbuf_kern; style sbuf_style; style output_style; int output_hpos; int output_vpos; int output_draw_point_size; int line_thickness; int output_line_thickness; int fill; unsigned char output_space_code; enum { MAX_DEFINED_STYLES = 50 }; style defined_styles[MAX_DEFINED_STYLES]; int ndefined_styles; int next_encoding_index; string defs; int ndefs; resource_manager rm; int invis_count; void flush_sbuf(); void set_style(const style &); void set_space_code(unsigned char c); int set_encoding_index(ps_font *); void do_exec(char *, const environment *); void do_import(char *, const environment *); void do_def(char *, const environment *); void do_mdef(char *, const environment *); void do_file(char *, const environment *); void do_invis(char *, const environment *); void do_endinvis(char *, const environment *); void set_line_thickness(const environment *); void fill_path(); void encode_fonts(); void define_encoding(const char *, int); void reencode_font(ps_font *); public: ps_printer(); ~ps_printer(); void set_char(int i, font *f, const environment *env, int w); void draw(int code, int *p, int np, const environment *env); void begin_page(int); void end_page(int); void special(char *arg, const environment *env); font *make_font(const char *); void end_of_line(); }; ps_printer::ps_printer() : pages_output(0), sbuf_len(0), output_hpos(-1), output_vpos(-1), out(0, MAX_LINE_LENGTH), ndefined_styles(0), next_encoding_index(0), line_thickness(-1), fill(FILL_MAX + 1), ndefs(0), invis_count(0) { tempfp = xtmpfile(); out.set_file(tempfp); if (linewidth < 0) linewidth = DEFAULT_LINEWIDTH; if (font::hor != 1) fatal("horizontal resolution must be 1"); if (font::vert != 1) fatal("vertical resolution must be 1"); if (font::res % (font::sizescale*72) != 0) fatal("res must be a multiple of 72*sizescale"); int r = font::res; int point = 0; while (r % 10 == 0) { r /= 10; point++; } res = r; out.set_fixed_point(point); space_char_index = font::name_to_index("space"); paper_length = font::paperlength; if (paper_length == 0) paper_length = 11*font::res; equalise_spaces = font::res >= 72000; } int ps_printer::set_encoding_index(ps_font *f) { if (f->encoding_index >= 0) return f->encoding_index; for (font_pointer_list *p = font_list; p; p = p->next) if (p->p != f) { char *encoding = ((ps_font *)p->p)->encoding; int encoding_index = ((ps_font *)p->p)->encoding_index; if (encoding != 0 && encoding_index >= 0 && strcmp(f->encoding, encoding) == 0) { return f->encoding_index = encoding_index; } } return f->encoding_index = next_encoding_index++; } void ps_printer::set_char(int i, font *f, const environment *env, int w) { if (i == space_char_index || invis_count > 0) return; unsigned char code = f->get_code(i); style sty(f, env->size, env->height, env->slant); if (sty.slant != 0) { if (sty.slant > 80 || sty.slant < -80) { error("silly slant `%1' degrees", sty.slant); sty.slant = 0; } } if (sbuf_len > 0) { if (sbuf_len < SBUF_SIZE && sty == sbuf_style && sbuf_vpos == env->vpos) { if (sbuf_end_hpos == env->hpos) { sbuf[sbuf_len++] = code; sbuf_end_hpos += w + sbuf_kern; return; } if (sbuf_len == 1 && sbuf_kern == 0) { sbuf_kern = env->hpos - sbuf_end_hpos; sbuf_end_hpos = env->hpos + sbuf_kern + w; sbuf[sbuf_len++] = code; return; } /* If sbuf_end_hpos - sbuf_kern == env->hpos, we are better off starting a new string. */ if (sbuf_len < SBUF_SIZE - 1 && env->hpos >= sbuf_end_hpos && (sbuf_kern == 0 || sbuf_end_hpos - sbuf_kern != env->hpos)) { if (sbuf_space_code < 0) { if (f->contains(space_char_index)) { sbuf_space_code = f->get_code(space_char_index); sbuf_space_width = env->hpos - sbuf_end_hpos; sbuf_end_hpos = env->hpos + w + sbuf_kern; sbuf[sbuf_len++] = sbuf_space_code; sbuf[sbuf_len++] = code; sbuf_space_count++; return; } } else { int diff = env->hpos - sbuf_end_hpos - sbuf_space_width; if (diff == 0 || (equalise_spaces && (diff == 1 || diff == -1))) { sbuf_end_hpos = env->hpos + w + sbuf_kern; sbuf[sbuf_len++] = sbuf_space_code; sbuf[sbuf_len++] = code; sbuf_space_count++; if (diff == 1) sbuf_space_diff_count++; else if (diff == -1) sbuf_space_diff_count--; return; } } } } flush_sbuf(); } sbuf_len = 1; sbuf[0] = code; sbuf_end_hpos = env->hpos + w; sbuf_start_hpos = env->hpos; sbuf_vpos = env->vpos; sbuf_style = sty; sbuf_space_code = -1; sbuf_space_width = 0; sbuf_space_count = sbuf_space_diff_count = 0; sbuf_kern = 0; } static char *make_encoding_name(int encoding_index) { static char buf[3 + INT_DIGITS + 1]; sprintf(buf, "ENC%d", encoding_index); return buf; } const char *const WS = " \t\n\r"; void ps_printer::define_encoding(const char *encoding, int encoding_index) { char *vec[256]; int i; for (i = 0; i < 256; i++) vec[i] = 0; char *path; FILE *fp = font::open_file(encoding, &path); if (fp == 0) fatal("can't open encoding file `%1'", encoding); int lineno = 1; char buf[256]; while (fgets(buf, 512, fp) != 0) { char *p = buf; while (csspace(*p)) p++; if (*p != '#' && *p != '\0' && (p = strtok(buf, WS)) != 0) { char *q = strtok(0, WS); int n; if (q == 0 || sscanf(q, "%d", &n) != 1 || n < 0 || n >= 256) fatal_with_file_and_line(path, lineno, "bad second field"); vec[n] = new char[strlen(p) + 1]; strcpy(vec[n], p); } lineno++; } a_delete path; out.put_literal_symbol(make_encoding_name(encoding_index)); out.put_delimiter('['); for (i = 0; i < 256; i++) { if (vec[i] == 0) out.put_literal_symbol(".notdef"); else { out.put_literal_symbol(vec[i]); a_delete vec[i]; } } out.put_delimiter(']').put_symbol("def"); } void ps_printer::reencode_font(ps_font *f) { out.put_literal_symbol(f->reencoded_name) .put_symbol(make_encoding_name(f->encoding_index)) .put_literal_symbol(f->get_internal_name()) .put_symbol("RE"); } void ps_printer::encode_fonts() { if (next_encoding_index == 0) return; char *done_encoding = new char[next_encoding_index]; for (int i = 0; i < next_encoding_index; i++) done_encoding[i] = 0; for (font_pointer_list *f = font_list; f; f = f->next) { int encoding_index = ((ps_font *)f->p)->encoding_index; if (encoding_index >= 0) { assert(encoding_index < next_encoding_index); if (!done_encoding[encoding_index]) { done_encoding[encoding_index] = 1; define_encoding(((ps_font *)f->p)->encoding, encoding_index); } reencode_font((ps_font *)f->p); } } a_delete done_encoding; } void ps_printer::set_style(const style &sty) { char buf[1 + INT_DIGITS + 1]; for (int i = 0; i < ndefined_styles; i++) if (sty == defined_styles[i]) { sprintf(buf, "F%d", i); out.put_symbol(buf); return; } if (ndefined_styles >= MAX_DEFINED_STYLES) ndefined_styles = 0; sprintf(buf, "F%d", ndefined_styles); out.put_literal_symbol(buf); const char *psname = sty.f->get_internal_name(); if (psname == 0) fatal("no internalname specified for font `%1'", sty.f->get_name()); char *encoding = ((ps_font *)sty.f)->encoding; if (encoding != 0) { char *s = ((ps_font *)sty.f)->reencoded_name; if (s == 0) { int ei = set_encoding_index((ps_font *)sty.f); char *tem = new char[strlen(psname) + 1 + INT_DIGITS + 1]; sprintf(tem, "%s@%d", psname, ei); psname = tem; ((ps_font *)sty.f)->reencoded_name = tem; } else psname = s; } out.put_fix_number((font::res/(72*font::sizescale))*sty.point_size); if (sty.height != 0 || sty.slant != 0) { int h = sty.height == 0 ? sty.point_size : sty.height; h *= font::res/(72*font::sizescale); int c = int(h*tan(radians(sty.slant)) + .5); out.put_fix_number(c).put_fix_number(h).put_literal_symbol(psname) .put_symbol("MF"); } else { out.put_literal_symbol(psname).put_symbol("SF"); } defined_styles[ndefined_styles++] = sty; } void ps_printer::set_space_code(unsigned char c) { out.put_literal_symbol("SC").put_number(c).put_symbol("def"); } void ps_printer::end_of_line() { flush_sbuf(); // this ensures that we do an absolute motion to the beginning of a line output_vpos = output_hpos = -1; } void ps_printer::flush_sbuf() { enum { NONE, RELATIVE_H, RELATIVE_V, RELATIVE_HV, ABSOLUTE } motion = NONE; int space_flag = 0; if (sbuf_len == 0) return; if (output_style != sbuf_style) { set_style(sbuf_style); output_style = sbuf_style; } int extra_space = 0; if (output_hpos < 0 || output_vpos < 0) motion = ABSOLUTE; else { if (output_hpos != sbuf_start_hpos) motion = RELATIVE_H; if (output_vpos != sbuf_vpos) { if (motion != NONE) motion = RELATIVE_HV; else motion = RELATIVE_V; } } if (sbuf_space_code >= 0) { int w = sbuf_style.f->get_width(space_char_index, sbuf_style.point_size); if (w + sbuf_kern != sbuf_space_width) { if (sbuf_space_code != output_space_code) { set_space_code(sbuf_space_code); output_space_code = sbuf_space_code; } space_flag = 1; extra_space = sbuf_space_width - w - sbuf_kern; if (sbuf_space_diff_count > sbuf_space_count/2) extra_space++; else if (sbuf_space_diff_count < -(sbuf_space_count/2)) extra_space--; } } if (space_flag) out.put_fix_number(extra_space); if (sbuf_kern != 0) out.put_fix_number(sbuf_kern); out.put_string(sbuf, sbuf_len); char sym[2]; sym[0] = 'A' + motion*4 + space_flag + 2*(sbuf_kern != 0); sym[1] = '\0'; switch (motion) { case NONE: break; case ABSOLUTE: out.put_fix_number(sbuf_start_hpos) .put_fix_number(sbuf_vpos); break; case RELATIVE_H: out.put_fix_number(sbuf_start_hpos - output_hpos); break; case RELATIVE_V: out.put_fix_number(sbuf_vpos - output_vpos); break; case RELATIVE_HV: out.put_fix_number(sbuf_start_hpos - output_hpos) .put_fix_number(sbuf_vpos - output_vpos); break; default: assert(0); } out.put_symbol(sym); output_hpos = sbuf_end_hpos; output_vpos = sbuf_vpos; sbuf_len = 0; } void ps_printer::set_line_thickness(const environment *env) { if (line_thickness < 0) { if (output_draw_point_size != env->size) { // we ought to check for overflow here int lw = ((font::res/(72*font::sizescale))*linewidth*env->size)/1000; out.put_fix_number(lw).put_symbol("LW"); output_draw_point_size = env->size; output_line_thickness = -1; } } else { if (output_line_thickness != line_thickness) { out.put_fix_number(line_thickness).put_symbol("LW"); output_line_thickness = line_thickness; output_draw_point_size = -1; } } } void ps_printer::fill_path() { if (fill > FILL_MAX) out.put_symbol("BL"); else out.put_float(transform_fill(fill)).put_symbol("FL"); } void ps_printer::draw(int code, int *p, int np, const environment *env) { if (invis_count > 0) return; int fill_flag = 0; switch (code) { case 'C': fill_flag = 1; // fall through case 'c': // troff adds an extra argument to C if (np != 1 && !(code == 'C' && np == 2)) { error("1 argument required for circle"); break; } out.put_fix_number(env->hpos + p[0]/2) .put_fix_number(env->vpos) .put_fix_number(p[0]/2) .put_symbol("DC"); if (fill_flag) { fill_path(); } else { set_line_thickness(env); out.put_symbol("ST"); } break; case 'l': if (np != 2) { error("2 arguments required for line"); break; } set_line_thickness(env); out.put_fix_number(p[0] + env->hpos) .put_fix_number(p[1] + env->vpos) .put_fix_number(env->hpos) .put_fix_number(env->vpos) .put_symbol("DL"); break; case 'E': fill_flag = 1; // fall through case 'e': if (np != 2) { error("2 arguments required for ellipse"); break; } out.put_fix_number(p[0]) .put_fix_number(p[1]) .put_fix_number(env->hpos + p[0]/2) .put_fix_number(env->vpos) .put_symbol("DE"); if (fill_flag) { fill_path(); } else { set_line_thickness(env); out.put_symbol("ST"); } break; case 'P': fill_flag = 1; // fall through case 'p': { if (np & 1) { error("even number of arguments required for polygon"); break; } if (np == 0) { error("no arguments for polygon"); break; } out.put_fix_number(env->hpos) .put_fix_number(env->vpos) .put_symbol("MT"); for (int i = 0; i < np; i += 2) out.put_fix_number(p[i]) .put_fix_number(p[i+1]) .put_symbol("RL"); out.put_symbol("CL"); if (fill_flag) { fill_path(); } else { set_line_thickness(env); out.put_symbol("ST"); } break; } case '~': { if (np & 1) { error("even number of arguments required for spline"); break; } if (np == 0) { error("no arguments for spline"); break; } out.put_fix_number(env->hpos) .put_fix_number(env->vpos) .put_symbol("MT"); out.put_fix_number(p[0]/2) .put_fix_number(p[1]/2) .put_symbol("RL"); /* tnum/tden should be between 0 and 1; the closer it is to 1 the tighter the curve will be to the guiding lines; 2/3 is the standard value */ const int tnum = 2; const int tden = 3; for (int i = 0; i < np - 2; i += 2) { out.put_fix_number((p[i]*tnum)/(2*tden)) .put_fix_number((p[i + 1]*tnum)/(2*tden)) .put_fix_number(p[i]/2 + (p[i + 2]*(tden - tnum))/(2*tden)) .put_fix_number(p[i + 1]/2 + (p[i + 3]*(tden - tnum))/(2*tden)) .put_fix_number((p[i] - p[i]/2) + p[i + 2]/2) .put_fix_number((p[i + 1] - p[i + 1]/2) + p[i + 3]/2) .put_symbol("RC"); } out.put_fix_number(p[np - 2] - p[np - 2]/2) .put_fix_number(p[np - 1] - p[np - 1]/2) .put_symbol("RL"); set_line_thickness(env); out.put_symbol("ST"); } break; case 'a': { if (np != 4) { error("4 arguments required for arc"); break; } set_line_thickness(env); double c[2]; if (adjust_arc_center(p, c)) out.put_fix_number(env->hpos + int(c[0])) .put_fix_number(env->vpos + int(c[1])) .put_fix_number(int(sqrt(c[0]*c[0] + c[1]*c[1]))) .put_float(degrees(atan2(-c[1], -c[0]))) .put_float(degrees(atan2(p[1] + p[3] - c[1], p[0] + p[2] - c[0]))) .put_symbol("DA"); else out.put_fix_number(p[0] + p[2] + env->hpos) .put_fix_number(p[1] + p[3] + env->vpos) .put_fix_number(env->hpos) .put_fix_number(env->vpos) .put_symbol("DL"); } break; case 't': { if (np == 0) { line_thickness = -1; } else { // troff gratuitously adds an extra 0 if (np != 1 && np != 2) { error("0 or 1 argument required for thickness"); break; } line_thickness = p[0]; } break; } case 'f': { if (np != 1 && np != 2) { error("1 argument required for fill"); break; } fill = p[0]; if (fill < 0 || fill > FILL_MAX) { // This means fill with the current color. fill = FILL_MAX + 1; } break; } default: error("unrecognised drawing command `%1'", char(code)); break; } output_hpos = output_vpos = -1; } void ps_printer::begin_page(int n) { out.begin_comment("Page:").comment_arg(itoa(n)); out.comment_arg(itoa(++pages_output)).end_comment(); output_style.f = 0; output_space_code = 32; output_draw_point_size = -1; output_line_thickness = -1; output_hpos = output_vpos = -1; ndefined_styles = 0; out.simple_comment("BeginPageSetup"); out.put_symbol("BP"); out.simple_comment("EndPageSetup"); } void ps_printer::end_page(int) { flush_sbuf(); out.put_symbol("EP"); if (invis_count != 0) { error("missing `endinvis' command"); invis_count = 0; } } font *ps_printer::make_font(const char *nm) { return ps_font::load_ps_font(nm); } ps_printer::~ps_printer() { out.simple_comment("Trailer"); out.put_symbol("end"); out.simple_comment("EOF"); if (fseek(tempfp, 0L, 0) < 0) fatal("fseek on temporary file failed"); fputs("%!PS-Adobe-", stdout); fputs((broken_flags & USE_PS_ADOBE_2_0) ? "2.0" : "3.0", stdout); putchar('\n'); out.set_file(stdout); { extern const char *version_string; out.begin_comment("Creator:") .comment_arg("groff") .comment_arg("version") .comment_arg(version_string) .end_comment(); } { fputs("%%CreationDate: ", out.get_file()); #ifdef LONG_FOR_TIME_T long #else time_t #endif t = time(0); fputs(ctime(&t), out.get_file()); } for (font_pointer_list *f = font_list; f; f = f->next) { ps_font *psf = (ps_font *)(f->p); rm.need_font(psf->get_internal_name()); } rm.print_header_comments(out); out.begin_comment("Pages:").comment_arg(itoa(pages_output)).end_comment(); out.begin_comment("PageOrder:").comment_arg("Ascend").end_comment(); #if 0 fprintf(out.get_file(), "%%%%DocumentMedia: () %g %g 0 () ()\n", font::paperwidth*72.0/font::res, paper_length*72.0/font::res); #endif out.begin_comment("Orientation:") .comment_arg(landscape_flag ? "Landscape" : "Portrait") .end_comment(); if (ncopies != 1) { out.end_line(); fprintf(out.get_file(), "%%%%Requirements: numcopies(%d)\n", ncopies); } out.simple_comment("EndComments"); out.simple_comment("BeginProlog"); rm.output_prolog(out); if (!(broken_flags & NO_SETUP_SECTION)) { out.simple_comment("EndProlog"); out.simple_comment("BeginSetup"); } rm.document_setup(out); out.put_symbol(dict_name).put_symbol("begin"); if (ndefs > 0) ndefs += DEFS_DICT_SPARE; out.put_literal_symbol(defs_dict_name) .put_number(ndefs + 1) .put_symbol("dict") .put_symbol("def"); out.put_symbol(defs_dict_name) .put_symbol("begin"); out.put_literal_symbol("u") .put_delimiter('{') .put_fix_number(1) .put_symbol("mul") .put_delimiter('}') .put_symbol("bind") .put_symbol("def"); defs += '\0'; out.special(defs.contents()); out.put_symbol("end"); if (ncopies != 1) out.put_literal_symbol("#copies").put_number(ncopies).put_symbol("def"); out.put_literal_symbol("RES").put_number(res).put_symbol("def"); out.put_literal_symbol("PL"); if (guess_flag) out.put_symbol("PLG"); else out.put_fix_number(paper_length); out.put_symbol("def"); out.put_literal_symbol("LS") .put_symbol(landscape_flag ? "true" : "false") .put_symbol("def"); if (manual_feed_flag) { out.begin_comment("BeginFeature:") .comment_arg("*ManualFeed") .comment_arg("True") .end_comment() .put_symbol("MANUAL") .simple_comment("EndFeature"); } encode_fonts(); out.simple_comment((broken_flags & NO_SETUP_SECTION) ? "EndProlog" : "EndSetup"); out.end_line(); out.copy_file(tempfp); fclose(tempfp); } void ps_printer::special(char *arg, const environment *env) { typedef void (ps_printer::*SPECIAL_PROCP)(char *, const environment *); static struct { const char *name; SPECIAL_PROCP proc; } proc_table[] = { { "exec", &ps_printer::do_exec }, { "def", &ps_printer::do_def }, { "mdef", &ps_printer::do_mdef }, { "import", &ps_printer::do_import }, { "file", &ps_printer::do_file }, { "invis", &ps_printer::do_invis }, { "endinvis", &ps_printer::do_endinvis }, }; char *p; for (p = arg; *p == ' ' || *p == '\n'; p++) ; char *tag = p; for (; *p != '\0' && *p != ':' && *p != ' ' && *p != '\n'; p++) ; if (*p == '\0' || strncmp(tag, "ps", p - tag) != 0) { error("X command without `ps:' tag ignored"); return; } p++; for (; *p == ' ' || *p == '\n'; p++) ; char *command = p; for (; *p != '\0' && *p != ' ' && *p != '\n'; p++) ; if (*command == '\0') { error("X command without `ps:' tag ignored"); return; } for (int i = 0; i < sizeof(proc_table)/sizeof(proc_table[0]); i++) if (strncmp(command, proc_table[i].name, p - command) == 0) { (this->*(proc_table[i].proc))(p, env); return; } error("X command `%1' not recognised", command); } // A conforming PostScript document must not have lines longer // than 255 characters (excluding line termination characters). static int check_line_lengths(const char *p) { for (;;) { const char *end = strchr(p, '\n'); if (end == 0) end = strchr(p, '\0'); if (end - p > 255) return 0; if (*end == '\0') break; p = end + 1; } return 1; } void ps_printer::do_exec(char *arg, const environment *env) { flush_sbuf(); while (csspace(*arg)) arg++; if (*arg == '\0') { error("missing argument to X exec command"); return; } if (!check_line_lengths(arg)) { error("lines in X exec command must not be more than 255 characters long"); return; } out.put_fix_number(env->hpos) .put_fix_number(env->vpos) .put_symbol("EBEGIN") .special(arg) .put_symbol("EEND"); output_hpos = output_vpos = -1; output_style.f = 0; output_draw_point_size = -1; output_line_thickness = -1; ndefined_styles = 0; if (!ndefs) ndefs = 1; } void ps_printer::do_file(char *arg, const environment *env) { flush_sbuf(); while (csspace(*arg)) arg++; if (*arg == '\0') { error("missing argument to X file command"); return; } const char *filename = arg; do { ++arg; } while (*arg != '\0' && *arg != ' ' && *arg != '\n'); out.put_fix_number(env->hpos) .put_fix_number(env->vpos) .put_symbol("EBEGIN"); rm.import_file(filename, out); out.put_symbol("EEND"); output_hpos = output_vpos = -1; output_style.f = 0; output_draw_point_size = -1; output_line_thickness = -1; ndefined_styles = 0; if (!ndefs) ndefs = 1; } void ps_printer::do_def(char *arg, const environment *) { flush_sbuf(); while (csspace(*arg)) arg++; if (!check_line_lengths(arg)) { error("lines in X def command must not be more than 255 characters long"); return; } defs += arg; if (*arg != '\0' && strchr(arg, '\0')[-1] != '\n') defs += '\n'; ndefs++; } // Like def, but the first argument says how many definitions it contains. void ps_printer::do_mdef(char *arg, const environment *) { flush_sbuf(); char *p; int n = (int)strtol(arg, &p, 10); if (n == 0 && p == arg) { error("first argument to X mdef must be an integer"); return; } if (n < 0) { error("out of range argument `%1' to X mdef command", int(n)); return; } arg = p; while (csspace(*arg)) arg++; if (!check_line_lengths(arg)) { error("lines in X mdef command must not be more than 255 characters long"); return; } defs += arg; if (*arg != '\0' && strchr(arg, '\0')[-1] != '\n') defs += '\n'; ndefs += n; } void ps_printer::do_import(char *arg, const environment *env) { flush_sbuf(); while (*arg == ' ' || *arg == '\n') arg++; char *p; for (p = arg; *p != '\0' && *p != ' ' && *p != '\n'; p++) ; if (*p != '\0') *p++ = '\0'; int parms[6]; int nparms = 0; while (nparms < 6) { char *end; long n = strtol(p, &end, 10); if (n == 0 && end == p) break; parms[nparms++] = int(n); p = end; } if (csalpha(*p) && (p[1] == '\0' || p[1] == ' ' || p[1] == '\n')) { error("scaling indicators not allowed in arguments for X import command"); return; } while (*p == ' ' || *p == '\n') p++; if (nparms < 5) { if (*p == '\0') error("too few arguments for X import command"); else error("invalid argument `%1' for X import command", p); return; } if (*p != '\0') { error("superflous argument `%1' for X import command", p); return; } int llx = parms[0]; int lly = parms[1]; int urx = parms[2]; int ury = parms[3]; int desired_width = parms[4]; int desired_height = parms[5]; if (desired_width <= 0) { error("bad width argument `%1' for X import command: must be > 0", desired_width); return; } if (nparms == 6 && desired_height <= 0) { error("bad height argument `%1' for X import command: must be > 0", desired_height); return; } if (llx == urx) { error("llx and urx arguments for X import command must not be equal"); return; } if (lly == ury) { error("lly and ury arguments for X import command must not be equal"); return; } if (nparms == 5) { int old_wid = urx - llx; int old_ht = ury - lly; if (old_wid < 0) old_wid = -old_wid; if (old_ht < 0) old_ht = -old_ht; desired_height = int(desired_width*(double(old_ht)/double(old_wid)) + .5); } if (env->vpos - desired_height < 0) warning("top of imported graphic is above the top of the page"); out.put_number(llx) .put_number(lly) .put_fix_number(desired_width) .put_number(urx - llx) .put_fix_number(-desired_height) .put_number(ury - lly) .put_fix_number(env->hpos) .put_fix_number(env->vpos) .put_symbol("PBEGIN"); rm.import_file(arg, out); // do this here just in case application defines PEND out.put_symbol("end"); out.put_symbol("PEND"); } void ps_printer::do_invis(char *, const environment *) { invis_count++; } void ps_printer::do_endinvis(char *, const environment *) { if (invis_count == 0) error("unbalanced `endinvis' command"); else --invis_count; } printer *make_printer() { return new ps_printer; } static void usage(); int main(int argc, char **argv) { program_name = argv[0]; static char stderr_buf[BUFSIZ]; setbuf(stderr, stderr_buf); int c; while ((c = getopt(argc, argv, "F:glmc:w:vb:")) != EOF) switch(c) { case 'v': { extern const char *version_string; fprintf(stderr, "grops version %s\n", version_string); fflush(stderr); break; } case 'c': if (sscanf(optarg, "%d", &ncopies) != 1 || ncopies <= 0) { error("bad number of copies `%s'", optarg); ncopies = 1; } break; case 'g': guess_flag = 1; break; case 'l': landscape_flag = 1; break; case 'm': manual_feed_flag = 1; break; case 'F': font::command_line_font_dir(optarg); break; case 'w': if (sscanf(optarg, "%d", &linewidth) != 1 || linewidth < 0) { error("bad linewidth `%1'", optarg); linewidth = -1; } break; case 'b': // XXX check this broken_flags = atoi(optarg); bflag = 1; break; case '?': usage(); break; default: assert(0); } font::set_unknown_desc_command_handler(handle_unknown_desc_command); if (optind >= argc) do_file("-"); else { for (int i = optind; i < argc; i++) do_file(argv[i]); } delete pr; return 0; } static void usage() { fprintf(stderr, "usage: %s [-glmv] [-b n] [-c n] [-w n] [-F dir] [files ...]\n", program_name); exit(1); }