/* $Header: /home/cvsroot/dvipdfmx/src/spc_dvips.c,v 1.11 2008/05/29 13:43:51 chofchof Exp $ This is dvipdfmx, an eXtended version of dvipdfm by Mark A. Wicks. Copyright (C) 2002 by Jin-Hwan Cho and Shunsaku Hirata, the dvipdfmx project team Copyright (C) 1998, 1999 by Mark A. Wicks This program 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 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "system.h" #include "mem.h" #include "error.h" #include "dpxfile.h" #include "dvi.h" #include "dvicodes.h" #include "pdfparse.h" #include "pdfdoc.h" #include "mpost.h" #include "pdfximage.h" #include "pdfdraw.h" #include "pdfcolor.h" #include "pdfdev.h" #include "specials.h" #include "spc_util.h" #include "mfileio.h" #include "spc_dvips.h" #include "spc_xtx.h" #include "epdf.h" static int block_pending = 0; static double pending_x = 0.0; static double pending_y = 0.0; static int position_set = 0; static char** ps_headers = 0; static int num_ps_headers = 0; static int spc_handler_ps_header (struct spc_env *spe, struct spc_arg *args) { char *ps_header, *pro; skip_white(&args->curptr, args->endptr); if (args->curptr + 1 >= args->endptr || args->curptr[0] != '=') { spc_warn(spe, "No filename specified for PSfile special."); return -1; } args->curptr++; pro = malloc(args->endptr - args->curptr + 1); strncpy(pro, args->curptr, args->endptr - args->curptr); pro[args->endptr - args->curptr] = 0; ps_header = kpse_find_file(pro, kpse_tex_ps_header_format, 0); if (!ps_header) { spc_warn(spe, "PS header %s not found.", pro); return -1; } free(pro); if (!(num_ps_headers & 0x0f)) ps_headers = realloc(ps_headers, sizeof(char*) * (num_ps_headers + 16)); ps_headers[num_ps_headers++] = ps_header; args->curptr = args->endptr; return 0; } static char * parse_filename (const char **pp, const char *endptr) { char *r; const char *q = NULL, *p = *pp; char qchar; int n; if (!p || p >= endptr) return NULL; else if (*p == '\"' || *p == '\'') qchar = *p++; else { qchar = ' '; } for (n = 0, q = p; p < endptr && *p != qchar; n++, p++); if (qchar != ' ') { if (*p != qchar) return NULL; p++; } if (!q || n == 0) return NULL; #if 0 { int i; for (i = 0; i < n && isprint(q[i]); i++); if (i != n) { WARN("Non printable char in filename string..."); } } #endif r = NEW(n + 1, char); memcpy(r, q, n); r[n] = '\0'; *pp = p; return r; } /* =filename ... */ static int spc_handler_ps_file (struct spc_env *spe, struct spc_arg *args) { int form_id; char *filename; transform_info ti; ASSERT(spe && args); skip_white(&args->curptr, args->endptr); if (args->curptr + 1 >= args->endptr || args->curptr[0] != '=') { spc_warn(spe, "No filename specified for PSfile special."); return -1; } args->curptr++; filename = parse_filename(&args->curptr, args->endptr); if (!filename) { spc_warn(spe, "No filename specified for PSfile special."); return -1; } transform_info_clear(&ti); if (spc_util_read_dimtrns(spe, &ti, args, NULL, 1) < 0) { RELEASE(filename); return -1; } form_id = pdf_ximage_findresource(filename, 1, NULL); if (form_id < 0) { spc_warn(spe, "Failed to read image file: %s", filename); RELEASE(filename); return -1; } RELEASE(filename); pdf_dev_put_image(form_id, &ti, spe->x_user, spe->y_user); return 0; } /* This isn't correct implementation but dvipdfm supports... */ static int spc_handler_ps_plotfile (struct spc_env *spe, struct spc_arg *args) { int error = 0; int form_id; char *filename; transform_info p; ASSERT(spe && args); spc_warn(spe, "ps:plotfile found (not properly implemented)"); skip_white(&args->curptr, args->endptr); filename = parse_filename(&args->curptr, args->endptr); if (!filename) { spc_warn(spe, "Expecting filename but not found..."); return -1; } form_id = pdf_ximage_findresource(filename, 1, NULL); if (form_id < 0) { spc_warn(spe, "Could not open PS file: %s", filename); error = -1; } else { transform_info_clear(&p); p.matrix.d = -1.0; /* xscale = 1.0, yscale = -1.0 */ #if 0 /* I don't know how to treat this... */ pdf_dev_put_image(form_id, &p, block_pending ? pending_x : spe->x_user, block_pending ? pending_y : spe->y_user); #endif pdf_dev_put_image(form_id, &p, 0, 0); } RELEASE(filename); return error; } static int spc_handler_ps_literal (struct spc_env *spe, struct spc_arg *args) { int error = 0; int st_depth, gs_depth; double x_user, y_user; ASSERT(spe && args); if (args->curptr >= args->endptr) return -1; if (args->curptr + strlen(":[begin]") <= args->endptr && !strncmp(args->curptr, ":[begin]", strlen(":[begin]"))) { block_pending++; position_set = 1; x_user = pending_x = spe->x_user; y_user = pending_y = spe->y_user; args->curptr += strlen(":[begin]"); } else if (args->curptr + strlen(":[end]") <= args->endptr && !strncmp(args->curptr, ":[end]", strlen(":[end]"))) { if (block_pending <= 0) { spc_warn(spe, "No corresponding ::[begin] found."); return -1; } block_pending--; position_set = 0; x_user = pending_x; y_user = pending_y; args->curptr += strlen(":[end]"); } else if (args->curptr < args->endptr && args->curptr[0] == ':') { x_user = position_set ? pending_x : spe->x_user; y_user = position_set ? pending_y : spe->y_user; args->curptr++; } else { position_set = 1; x_user = pending_x = spe->x_user; y_user = pending_y = spe->y_user; } skip_white(&args->curptr, args->endptr); if (args->curptr < args->endptr) { st_depth = mps_stack_depth(); gs_depth = pdf_dev_current_depth(); error = mps_exec_inline(&args->curptr, args->endptr, x_user, y_user); if (error) { spc_warn(spe, "Interpreting PS code failed!!! Output might be broken!!!"); pdf_dev_grestore_to(gs_depth); } else if (st_depth != mps_stack_depth()) { spc_warn(spe, "Stack not empty after execution of inline PostScript code."); spc_warn(spe, ">> Your macro package makes some assumption on internal behaviour of DVI drivers."); spc_warn(spe, ">> It may not compatible with dvipdfmx."); } } return error; } static char *global_defs = 0; static char *page_defs = 0; static char *temporary_defs = 0; static char *distiller_template = 0; static pdf_coord *put_stack; static int put_stack_depth = -1; static char *gs_in = 0; #if 0 /* Not used */ static int spc_handler_ps_tricks_gdef (struct spc_env *spe, struct spc_arg *args) { FILE* fp; fp = fopen(global_defs, "a"); fwrite(args->curptr, 1, args->endptr - args->curptr, fp); fprintf(fp, "\n"); fclose(fp); return 0; } #endif static int spc_handler_ps_tricks_pdef (struct spc_env *spe, struct spc_arg *args) { FILE* fp; pdf_tmatrix M, T = { 1, 0, 0, 1, 0, 0 }; pdf_coord pt; pdf_dev_currentmatrix(&M); pdf_dev_get_fixed_point(&pt); T.e = pt.x; T.f = pt.y; pdf_concatmatrix(&M, &T); if (page_defs == 0) page_defs = dpx_create_temp_file(); fp = fopen(page_defs, "a"); fprintf(fp, "gsave initmatrix [%f %f %f %f %f %f] concat %f %f moveto\n", M.a, M.b, M.c, M.d, M.e, M.f, spe->x_user - pt.x, spe->y_user - pt.y); fwrite(args->curptr, 1, args->endptr - args->curptr, fp); fprintf(fp, "\ngrestore\n"); fclose(fp); return 0; } static int spc_handler_ps_tricks_tdef (struct spc_env *spe, struct spc_arg *args) { FILE* fp; if (!temporary_defs) temporary_defs = dpx_create_temp_file(); fp = fopen(temporary_defs, "w"); fwrite(args->curptr, 1, args->endptr - args->curptr, fp); fprintf(fp, "\n"); fclose(fp); return 0; } static int calculate_PS (char *string, int length, double *res1, double *res2, double *res3, double *res4, double *res5, double *res6); static int spc_handler_ps_tricks_bput (struct spc_env *spe, struct spc_arg *args, int must_def, int pre_def) { char *PutBegin, *formula, *ncLabel; int label = 0; pdf_coord tr; pdf_tmatrix M, T = { 1, 0, 0, 1, 0, 0 }; if (must_def != 0) { ncLabel = strstr(args->curptr, "LPut"); if (ncLabel != 0 && ncLabel < args->endptr - 3) label = 1; ncLabel = strstr(args->curptr, "HPutPos"); if (ncLabel != 0 && ncLabel < args->endptr - 6) label = 1; } if (pre_def == 0) { dpx_delete_temp_file(temporary_defs); temporary_defs = 0; } pdf_dev_currentmatrix(&M); formula = malloc(args->endptr - args->curptr + 120); if (label != 0) { sprintf(formula, "[%f %f %f %f %f %f] concat %f %f moveto\n", M.a, M.b, M.c, M.d, M.e, M.f, spe->x_user + get_origin(1), spe->y_user + get_origin(0)); } else sprintf(formula, "[%f %f %f %f %f %f] concat %f %f moveto\n", M.a, M.b, M.c, M.d, M.e, M.f, spe->x_user, spe->y_user); strncat(formula, args->curptr, args->endptr - args->curptr); PutBegin = strstr(formula, "PutBegin"); strcpy(PutBegin, "exch = ="); *(PutBegin + 8) = 0; if (calculate_PS(formula, strlen(formula), &tr.x, &tr.y, 0, 0, 0, 0) == 0) { if (!(++put_stack_depth & 0x0f)) put_stack = realloc(put_stack, (put_stack_depth + 16) * sizeof(pdf_coord)); put_stack[put_stack_depth] = tr; } T.e = tr.x; T.f = tr.y; pdf_dev_concat(&T); if (must_def != 0) { FILE* fp; if (!temporary_defs) temporary_defs = dpx_create_temp_file(); fp = fopen(temporary_defs, "a"); fprintf(fp, "gsave\n"); if (label == 0) fprintf(fp, "[%f %f %f %f %f %f] concat %f %f moveto\n", M.a, M.b, M.c, M.d, M.e, M.f, spe->x_user, spe->y_user); fwrite(args->curptr, 1, args->endptr - args->curptr, fp); fprintf(fp, "\ngrestore\n"); fclose(fp); } free(formula); return 0; } static int spc_handler_ps_tricks_eput (struct spc_env *spe, struct spc_arg *args) { pdf_coord tr = put_stack[put_stack_depth--]; pdf_tmatrix M = { 1, 0, 0, 1, -tr.x, -tr.y }; pdf_dev_concat(&M); return 0; } /* Rotation without gsave/grestore. */ static double* RAngles = 0; static int RAngleCount = -1; static int spc_handler_ps_tricks_brotate (struct spc_env *spe, struct spc_arg *args) { double value, RAngle = 0; char *cmd, *RotBegin; int i, l = args->endptr - args->curptr; static const char *pre = "tx@Dict begin /RAngle { %f } def\n"; static const char *post = "= end"; if (!(++RAngleCount & 0x0f)) RAngles = realloc(RAngles, (RAngleCount + 16) * sizeof(double)); for (i = 0; i < RAngleCount; i++) RAngle += RAngles[i]; cmd = calloc(l + strlen(pre) + strlen(post) + 12, 1); sprintf(cmd, pre, RAngle); strncat(cmd, args->curptr, l); RotBegin = strstr(cmd, "RotBegin"); strcpy(RotBegin, post); if (calculate_PS(cmd, strlen(cmd), &value, 0, 0, 0, 0, 0) != 0) return -1; RAngles[RAngleCount] = value; return spc_handler_xtx_do_transform (spe->x_user, spe->y_user, cos(value * M_PI / 180), sin(value * M_PI / 180), -sin(value * M_PI / 180), cos(value * M_PI / 180), 0, 0); } static int spc_handler_ps_tricks_erotate (struct spc_env *spe, struct spc_arg *args) { double value = RAngles[RAngleCount--]; return spc_handler_xtx_do_transform (spe->x_user, spe->y_user, cos(value * M_PI / 180), -sin(value * M_PI / 180), sin(value * M_PI / 180), cos(value * M_PI / 180), 0, 0); } static int spc_handler_ps_tricks_transform (struct spc_env *spe, struct spc_arg *args) { double d1, d2, d3, d4, d5, d6; char *cmd, *concat; int l = args->endptr - args->curptr; static const char *post = "concat matrix currentmatrix =="; cmd = calloc(l + 41, 1); strncpy(cmd, "matrix setmatrix ", 17); strncpy(cmd + 17, args->curptr, l); concat = strstr(cmd, "concat"); if (concat != 0) { strcpy(concat, post); concat[strlen(post)] = 0; concat = strstr(cmd, "{"); *concat = ' '; if (calculate_PS(cmd, strlen(cmd), &d1, &d2, &d3, &d4, &d5, &d6) != 0) return -1; if (spc_handler_xtx_gsave (0, 0) != 0) return -1; return spc_handler_xtx_do_transform (spe->x_user, spe->y_user, d1, d2, d3, d4, d5, d6); } return spc_handler_xtx_grestore (0, 0); } static int check_next_obj(const unsigned char * buffer) { switch (buffer[0]) { case XXX1: if (buffer[1] < 5) return 0; buffer += 2; break; case XXX2: buffer += 3; break; case XXX3: buffer += 4; break; case XXX4: buffer += 5; break; default: return 0; } if (strncmp((const char*)buffer, "pst:", 4)) return 0; return 1; } static int spc_handler_ps_tricks_parse_path (struct spc_env *spe, struct spc_arg *args, int flag) { FILE* fp; int k; pdf_tmatrix M; char *distiller_template = get_distiller_template(); char *gs_out; const char *clip; int error; if (!distiller_template) distiller_template = get_distiller_template(); pdf_dev_currentmatrix(&M); if (!gs_in) { gs_in = dpx_create_temp_file(); if (!gs_in) { WARN("Failed to create temporary input file for PSTricks image conversion."); return -1; } fp = fopen(gs_in, "w"); for (k = 0; k < num_ps_headers; k++) fprintf(fp, "(%s) run\n", ps_headers[k]); fprintf(fp, "[%f %f %f %f %f %f] concat %f %f translate 0 0 moveto\n", M.a, M.b, M.c, M.d, M.e, M.f, spe->x_user, spe->y_user); fprintf(fp, "(%s) run\n", global_defs); if (page_defs != 0) fprintf(fp, "(%s) run\n", page_defs); #if 0 fprintf(fp, "/clip {stroke} def\n"); fwrite(args->curptr, 1, args->endptr - args->curptr, fp); #else clip = strstr(args->curptr, " clip"); if (clip == 0 || clip > args->endptr - 5) { fprintf(fp, "tx@TextPathDict begin /stroke {} def\n"); fwrite(args->curptr, 1, args->endptr - args->curptr, fp); fprintf(fp, "\nend\n"); fclose(fp); return 0; } else { fwrite(args->curptr, 1, clip - args->curptr, fp); fprintf(fp, " stroke "); skip_white(&clip, args->endptr); parse_ident(&clip, args->endptr); fwrite(clip, 1, args->endptr - clip, fp); } #endif } else { fp = fopen(gs_in, "a"); fprintf(fp, "flattenpath stroke\n"); } fclose(fp); gs_out = dpx_create_temp_file(); if (!gs_out) { WARN("Failed to create temporary output file for PSTricks image conversion."); RELEASE(gs_in); gs_in = 0; return -1; } #ifdef MIKTEX { char *p; for (p = (char *)gs_in; *p; p++) { if (*p == '\\') *p = '/'; } for (p = (char *)gs_out; *p; p++) { if (*p == '\\') *p = '/'; } } #endif error = dpx_file_apply_filter(distiller_template, gs_in, gs_out, (unsigned char) pdf_get_version()); if (error) { WARN("Image format conversion for PSTricks failed."); RELEASE(gs_in); gs_in = 0; return error; } fp = fopen(gs_out, "r"); if (pdf_copy_clip(fp, 1, 0, 0) != 0) { spc_warn(spe, "Failed to parse the clipping path."); RELEASE(gs_in); gs_in = 0; RELEASE(gs_out); return -1; } fclose(fp); dpx_delete_temp_file(gs_out); dpx_delete_temp_file(gs_in); gs_in = 0; return 0; } static int spc_handler_ps_tricks_render (struct spc_env *spe, struct spc_arg *args) { FILE* fp; int k; pdf_tmatrix M; if (!distiller_template) distiller_template = get_distiller_template(); pdf_dev_currentmatrix(&M); if (!gs_in) { gs_in = dpx_create_temp_file(); if (!gs_in) { WARN("Failed to create temporary input file for PSTricks image conversion."); return -1; } fp = fopen(gs_in, "w"); for (k = 0; k < num_ps_headers; k++) fprintf(fp, "(%s) run\n", ps_headers[k]); fprintf(fp, "[%f %f %f %f %f %f] concat %f %f translate 0 0 moveto\n", M.a, M.b, M.c, M.d, M.e, M.f, spe->x_user, spe->y_user); fprintf(fp, "(%s) run\n", global_defs); if (page_defs != 0) fprintf(fp, "(%s) run\n", page_defs); } else fp = fopen(gs_in, "a"); fprintf(fp, "\nsave\n"); fwrite(args->curptr, 1, args->endptr - args->curptr, fp); fprintf(fp, "\ncount 1 sub {pop} repeat restore\n"); if (check_next_obj((const unsigned char*)args->endptr)) { fclose(fp); } else { char *distiller_template = get_distiller_template(); char *gs_out; int error, form_id; transform_info p; transform_info_clear(&p); pdf_invertmatrix(&M); p.matrix = M; fclose(fp); gs_out = dpx_create_temp_file(); if (!gs_out) { WARN("Failed to create temporary output file for PSTricks image conversion."); RELEASE(gs_in); gs_in = 0; return -1; } #ifdef MIKTEX { char *p; for (p = (char *)gs_in; *p; p++) { if (*p == '\\') *p = '/'; } for (p = (char *)gs_out; *p; p++) { if (*p == '\\') *p = '/'; } } #endif error = dpx_file_apply_filter(distiller_template, gs_in, gs_out, (unsigned char) pdf_get_version()); if (error) { WARN("Image format conversion for PSTricks failed."); RELEASE(gs_in); gs_in = 0; return error; } form_id = pdf_ximage_findresource(gs_out, 1, NULL); if (form_id < 0) { spc_warn(spe, "Failed to read converted PSTricks image file."); RELEASE(gs_in); gs_in = 0; RELEASE(gs_out); return -1; } pdf_dev_put_image(form_id, &p, 0, 0); dpx_delete_temp_file(gs_out); dpx_delete_temp_file(gs_in); gs_in = 0; } return 0; } typedef enum { render = 1 << 0, global_def = 1 << 1, page_def = 1 << 2, new_temp = 1 << 3, add_temp = 1 << 4, begin_put = 1 << 5, end_put = 1 << 6, begin_rotate = 1 << 7, end_rotate = 1 << 8, parse = 1 << 9, req_ref = 1 << 10, transform = 1 << 11 } Operation; /* ToDo: all the substring search must be centralized so that * * keys can be read from external configuration. */ struct pstricks_key_ { const char * key; Operation exec; } pstricks_key[] = { /* The first 5 are hard-coded here. */ {"LPut", add_temp | req_ref}, {"HPutPos", add_temp | req_ref}, {"PutBegin", begin_put}, {"RotBegin", begin_rotate}, {"clip", parse}, /* The rest can be read from an external source. */ {"NewNode", page_def | req_ref}, {"InitNC", render | new_temp}, {"/Glbx", add_temp}, {"NewtonSolving", add_temp}, {"tx@LightThreeDDict", page_def}, {"PutEnd", end_put}, {"RotEnd", end_rotate}, {"mtrxc", parse}, {"stroke", render}, {"fill", render}, {"Fill", render}, {" Glbx", req_ref}, {"TextPathShow", parse}, {"/rotAngle", page_def}, {"NAngle", req_ref}, {"TMatrix", transform} }; static int spc_handler_ps_trickscmd (struct spc_env *spe, struct spc_arg *args) { char *test_string; int k, error = 0, f_exec = 0; /* Hack time! */ /* The problem is that while any macros in pstricks.tex * can be overridden by the codes in pstricks.con, you cannot * modify the pst@Verb specials generated by other PSTricks * packages. So pstricks generate specials won't signal what * to expect for you. */ test_string = malloc(args->endptr - args->curptr + 1); strncpy(test_string, args->curptr, args->endptr - args->curptr); test_string[args->endptr - args->curptr] = 0; for (k = 0; k < sizeof(pstricks_key) / sizeof(pstricks_key[0]); k++) { if (strstr(test_string, pstricks_key[k].key) != 0) f_exec |= pstricks_key[k].exec; } free(test_string); if (f_exec & new_temp) error |= spc_handler_ps_tricks_tdef(spe, args); if (f_exec & render) error |= spc_handler_ps_tricks_render(spe, args); if (f_exec & parse) error |= spc_handler_ps_tricks_parse_path(spe, args, f_exec); if (f_exec & begin_put) error |= spc_handler_ps_tricks_bput(spe, args, (f_exec & add_temp), (f_exec & req_ref)); if (f_exec & end_put) error |= spc_handler_ps_tricks_eput(spe, args); if (f_exec & begin_rotate) error |= spc_handler_ps_tricks_brotate(spe, args); if (f_exec & end_rotate) error |= spc_handler_ps_tricks_erotate(spe, args); if (f_exec & transform) error |= spc_handler_ps_tricks_transform(spe, args); if (f_exec & page_def) error |= spc_handler_ps_tricks_pdef (spe, args); if (f_exec == 0) error |= spc_handler_ps_tricks_pdef (spe, args); args->curptr = args->endptr; return error; } static int spc_handler_ps_tricksobj (struct spc_env *spe, struct spc_arg *args) { int error = spc_handler_ps_tricks_render(spe, args); args->curptr = args->endptr; return error; } static int spc_handler_ps_default (struct spc_env *spe, struct spc_arg *args) { int error; int st_depth, gs_depth; ASSERT(spe && args); pdf_dev_gsave(); st_depth = mps_stack_depth(); gs_depth = pdf_dev_current_depth(); { pdf_tmatrix M; M.a = M.d = 1.0; M.b = M.c = 0.0; M.e = spe->x_user; M.f = spe->y_user; pdf_dev_concat(&M); error = mps_exec_inline(&args->curptr, args->endptr, spe->x_user, spe->y_user); M.e = -spe->x_user; M.f = -spe->y_user; pdf_dev_concat(&M); } if (error) spc_warn(spe, "Interpreting PS code failed!!! Output might be broken!!!"); else { if (st_depth != mps_stack_depth()) { spc_warn(spe, "Stack not empty after execution of inline PostScript code."); spc_warn(spe, ">> Your macro package makes some assumption on internal behaviour of DVI drivers."); spc_warn(spe, ">> It may not compatible with dvipdfmx."); } } pdf_dev_grestore_to(gs_depth); pdf_dev_grestore(); return error; } static struct spc_handler dvips_handlers[] = { {"header", spc_handler_ps_header}, {"PSfile", spc_handler_ps_file}, {"psfile", spc_handler_ps_file}, {"ps: plotfile", spc_handler_ps_plotfile}, /* FIXME */ {"PS: plotfile", spc_handler_ps_plotfile}, /* FIXME */ {"PS:", spc_handler_ps_literal}, {"ps:", spc_handler_ps_literal}, {"PST:", spc_handler_ps_trickscmd}, {"pst:", spc_handler_ps_tricksobj}, {"\" ", spc_handler_ps_default} }; int spc_dvips_at_begin_page (void) { if (page_defs) { dpx_delete_temp_file(page_defs); page_defs = 0; } put_stack_depth = -1; return 0; } int spc_dvips_at_end_page (void) { mps_eop_cleanup(); if (!temporary_defs) { dpx_delete_temp_file(temporary_defs); temporary_defs = 0; } return 0; } int spc_dvips_at_begin_document (void) { FILE* fp; /* This, together with \pscharpath support code, must be moved to xtex.pro header. */ global_defs = dpx_create_temp_file(); fp = fopen(global_defs, "w"); fprintf(fp, "tx@Dict begin /STV {} def end\n"); fclose(fp); return 0; } int spc_dvips_at_end_document (void) { dpx_delete_temp_file(global_defs); dpx_delete_temp_file(page_defs); return 0; } int spc_dvips_check_special (const char *buf, long len) { const char *p, *endptr; int i; p = buf; endptr = p + len; skip_white(&p, endptr); if (p >= endptr) return 0; len = (long) (endptr - p); for (i = 0; i < sizeof(dvips_handlers)/sizeof(struct spc_handler); i++) { if (len >= strlen(dvips_handlers[i].key) && !memcmp(p, dvips_handlers[i].key, strlen(dvips_handlers[i].key))) { return 1; } } return 0; } int spc_dvips_setup_handler (struct spc_handler *handle, struct spc_env *spe, struct spc_arg *args) { const char *key; int i, keylen; ASSERT(handle && spe && args); skip_white(&args->curptr, args->endptr); key = args->curptr; while (args->curptr < args->endptr && isalpha(args->curptr[0])) { args->curptr++; } /* ps:: --> : */ if (args->curptr < args->endptr && args->curptr[0] == ':') { args->curptr++; } else if (args->curptr+1 < args->endptr && args->curptr[0] == '"' && args->curptr[1] == ' ') { args->curptr += 2; } keylen = (int) (args->curptr - key); if (keylen < 1) { spc_warn(spe, "Not ps: special???"); return -1; } for (i = 0; i < sizeof(dvips_handlers) / sizeof(struct spc_handler); i++) { if (keylen <= strlen(dvips_handlers[i].key) && !strncmp(key, dvips_handlers[i].key, strlen(dvips_handlers[i].key))) { skip_white(&args->curptr, args->endptr); args->command = dvips_handlers[i].key; handle->key = "ps:"; handle->exec = dvips_handlers[i].exec; return 0; } } return -1; } #ifdef __EMX__ #define GS_CALCULATOR "gsos2 -q -dNOPAUSE -dBATCH -sDEVICE=nullpage -f " #else #define GS_CALCULATOR "gs -q -dNOPAUSE -dBATCH -sDEVICE=nullpage -f " #endif static int calculate_PS (char *string, int length, double *res1, double *res2, double *res3, double *res4, double *res5, double *res6) { char *formula, *cmd; FILE *fp, *coord; int k; if (res1 == 0 && res2 == 0) return -1; formula = dpx_create_temp_file(); fp = fopen(formula, "w"); for (k = 0; k < num_ps_headers; k++) fprintf(fp, "(%s) run\n", ps_headers[k]); fprintf(fp, "0 0 moveto\n"); fprintf(fp, "(%s) run\n", global_defs); if (page_defs != 0) fprintf(fp, "(%s) run\n", page_defs); if (temporary_defs) fprintf(fp, "(%s) run\n", temporary_defs); fwrite(string, 1, length, fp); fclose(fp); #ifdef MIKTEX { char *p; for (p = formula; *p; p++) if (*p == '\\') *p = '/'; } #endif k = strlen(GS_CALCULATOR) + strlen(formula) + 2; cmd = malloc(k); strcpy(cmd, GS_CALCULATOR); strcat(cmd, " "); strcat(cmd, formula); coord = popen(cmd, "r"); if (coord) { if (res1 == 0) fscanf(coord, " %lf ", res2); else if (res2 == 0) fscanf(coord, " %lf ", res1); else if (res3 == 0) fscanf(coord, " %lf %lf ", res1, res2); else fscanf(coord, " [%lf %lf %lf %lf %lf %lf] ", res1, res2, res3, res4, res5, res6); } else return -1; pclose(coord); dpx_delete_temp_file(formula); return 0; }