/* Copyright (C) 1996, 1997 Aladdin Enterprises. All rights reserved. This file is part of Aladdin Ghostscript. Aladdin Ghostscript is distributed with NO WARRANTY OF ANY KIND. No author or distributor accepts any responsibility for the consequences of using it, or for whether it serves any particular purpose or works at all, unless he or she says so in writing. Refer to the Aladdin Ghostscript Free Public License (the "License") for full details. Every copy of Aladdin Ghostscript must include a copy of the License, normally in a plain ASCII text file named PUBLIC. The License grants you the right to copy, modify and redistribute Aladdin Ghostscript, but only under certain conditions described in the License. Among other things, the License requires that the copyright notice and this notice be preserved on all copies. */ /* Common code for outline (Type 1 / 4 / 42) fonts */ #include "ghost.h" #include "oper.h" #include "gschar.h" #include "gxdevice.h" /* for gxfont.h */ #include "gxfont.h" #include "dstack.h" /* only for systemdict */ #include "estack.h" #include "ichar.h" #include "icharout.h" #include "idict.h" #include "ifont.h" #include "igstate.h" #include "store.h" /* Imported operators */ int zsetcachedevice(P1(os_ptr)); /* zchar.c */ int zsetcachedevice2(P1(os_ptr)); /* zchar.c */ /* * Execute an outline defined by a PostScript procedure. * The top elements of the stack are: * */ int zchar_exec_char_proc(os_ptr op) { /* * The definition is a PostScript procedure. Execute * proc * within a systemdict begin/end and a font begin/end. */ es_ptr ep; check_estack(5); ep = esp += 5; make_op_estack(ep - 4, zend); make_op_estack(ep - 3, zend); ref_assign(ep - 2, op); make_op_estack(ep - 1, zbegin); make_op_estack(ep, zbegin); ref_assign(op - 1, systemdict); { ref rfont; ref_assign(&rfont, op - 3); ref_assign(op - 3, op - 2); ref_assign(op - 2, &rfont); } pop(1); return o_push_estack; } /* * Get the metrics for a character from the Metrics dictionary of a base * font. If present, store the l.s.b. in psbw[0,1] and the width in * psbw[2,3]. */ int /*metrics_present*/ zchar_get_metrics(const gs_font_base * pbfont, const ref * pcnref, double psbw[4]) { const ref *pfdict = &pfont_data(pbfont)->dict; ref *pmdict; if (dict_find_string(pfdict, "Metrics", &pmdict) > 0) { ref *pmvalue; check_type_only(*pmdict, t_dictionary); check_dict_read(*pmdict); if (dict_find(pmdict, pcnref, &pmvalue) > 0) { if (num_params(pmvalue, 1, psbw + 2) >= 0) { /* only */ psbw[3] = 0; return metricsWidthOnly; } else { int code; check_read_type_only(*pmvalue, t_array); switch (r_size(pmvalue)) { case 2: /* [ ] */ code = num_params(pmvalue->value.refs + 1, 2, psbw); psbw[2] = psbw[1]; psbw[1] = psbw[3] = 0; break; case 4: /* [ ] */ code = num_params(pmvalue->value.refs + 3, 4, psbw); break; default: return_error(e_rangecheck); } if (code < 0) return code; return metricsSideBearingAndWidth; } } } return metricsNone; } /* * Consult Metrics2 and CDevProc, and call setcachedevice[2]. Return * o_push_estack if we had to call a CDevProc, or if we are skipping the * rendering process (only getting the metrics). */ int zchar_set_cache(os_ptr op, const gs_font_base * pbfont, const ref * pcnref, const double psb[2], const double pwidth[2], const gs_rect * pbbox, int (*cont_fill)(P1(os_ptr)), int (*cont_stroke)(P1(os_ptr))) { const ref *pfdict = &pfont_data(pbfont)->dict; ref *pmdict; ref *pcdevproc; int have_cdevproc; ref rpop; bool metrics2 = false; int (*cont) (P1(os_ptr)); double w2[10]; gs_show_enum *penum = op_show_find(); w2[0] = pwidth[0], w2[1] = pwidth[1]; /* Adjust the bounding box for stroking if needed. */ w2[2] = pbbox->p.x, w2[3] = pbbox->p.y; w2[4] = pbbox->q.x, w2[5] = pbbox->q.y; if (pbfont->PaintType == 0) cont = cont_fill; else { double expand = max(1.415, gs_currentmiterlimit(igs)) * gs_currentlinewidth(igs) / 2; w2[2] -= expand, w2[3] -= expand; w2[4] += expand, w2[5] += expand; cont = cont_stroke; } /* Check for Metrics2. */ if (dict_find_string(pfdict, "Metrics2", &pmdict) > 0) { ref *pmvalue; check_type_only(*pmdict, t_dictionary); check_dict_read(*pmdict); if (dict_find(pmdict, pcnref, &pmvalue) > 0) { check_read_type_only(*pmvalue, t_array); if (r_size(pmvalue) == 4) { int code = num_params(pmvalue->value.refs + 3, 4, w2 + 6); if (code < 0) return code; metrics2 = true; } } } /* Check for CDevProc or "short-circuiting". */ have_cdevproc = dict_find_string(pfdict, "CDevProc", &pcdevproc) > 0; if (have_cdevproc || gs_show_width_only(penum)) { int i; int (*zsetc) (P1(os_ptr)); int nparams; if (have_cdevproc) { check_proc_only(*pcdevproc); zsetc = zsetcachedevice2; if (!metrics2) { w2[6] = w2[0], w2[7] = w2[1]; w2[8] = w2[9] = 0; } nparams = 10; } else { make_oper(&rpop, 0, zpop); pcdevproc = &rpop; if (metrics2) zsetc = zsetcachedevice2, nparams = 10; else zsetc = zsetcachedevice, nparams = 6; } check_estack(3); /* Push the l.s.b. for .type1addpath if necessary. */ if (psb != 0) { push(nparams + 3); make_real(op - (nparams + 2), psb[0]); make_real(op - (nparams + 1), psb[1]); } else { push(nparams + 1); } for (i = 0; i < nparams; ++i) make_real(op - nparams + i, w2[i]); ref_assign(op, pcnref); push_op_estack(cont); push_op_estack(zsetc); ++esp; ref_assign(esp, pcdevproc); return o_push_estack; } { int code = (metrics2 ? gs_setcachedevice2_double(penum, igs, w2) : gs_setcachedevice_double(penum, igs, w2)); if (code < 0) return code; } /* No metrics modification, do the stroke or fill now. */ /* Push the l.s.b. for .type1addpath if necessary. */ if (psb != 0) { push(2); make_real(op - 1, psb[0]); make_real(op, psb[1]); } return cont(op); }