/* Copyright (C) 1989, 1995, 1997, 1998, 1999 Aladdin Enterprises. All rights reserved. This software is provided AS-IS with no warranty, either express or implied. This software is distributed under license and may not be copied, modified or distributed except as expressly authorized under the terms of the license contained in the file LICENSE in this distribution. For more information about licensing, please refer to http://www.ghostscript.com/licensing/. For information on commercial licensing, go to http://www.artifex.com/licensing/ or contact Artifex Software, Inc., 101 Lucas Valley Road #110, San Rafael, CA 94903, U.S.A., +1(415)492-9861. */ /* $Id: zpath1.c,v 1.5 2002/06/16 03:43:51 lpd Exp $ */ /* PostScript Level 1 additional path operators */ #include "memory_.h" #include "ghost.h" #include "oper.h" #include "oparc.h" /* for prototypes */ #include "estack.h" /* for pathforall */ #include "ialloc.h" #include "igstate.h" #include "gsstruct.h" #include "gspath.h" #include "store.h" /* Forward references */ private int common_arc(i_ctx_t *, int (*)(gs_state *, floatp, floatp, floatp, floatp, floatp)); private int common_arct(i_ctx_t *, float *); /* arc - */ int zarc(i_ctx_t *i_ctx_p) { return common_arc(i_ctx_p, gs_arc); } /* arcn - */ int zarcn(i_ctx_t *i_ctx_p) { return common_arc(i_ctx_p, gs_arcn); } /* Common code for arc[n] */ private int common_arc(i_ctx_t *i_ctx_p, int (*aproc)(gs_state *, floatp, floatp, floatp, floatp, floatp)) { os_ptr op = osp; double xyra[5]; /* x, y, r, ang1, ang2 */ int code = num_params(op, 5, xyra); if (code < 0) return code; code = (*aproc)(igs, xyra[0], xyra[1], xyra[2], xyra[3], xyra[4]); if (code >= 0) pop(5); return code; } /* arct - */ int zarct(i_ctx_t *i_ctx_p) { int code = common_arct(i_ctx_p, (float *)0); if (code < 0) return code; pop(5); return 0; } /* arcto */ private int zarcto(i_ctx_t *i_ctx_p) { os_ptr op = osp; float tanxy[4]; /* xt1, yt1, xt2, yt2 */ int code = common_arct(i_ctx_p, tanxy); if (code < 0) return code; make_real(op - 4, tanxy[0]); make_real(op - 3, tanxy[1]); make_real(op - 2, tanxy[2]); make_real(op - 1, tanxy[3]); pop(1); return 0; } /* Common code for arct[o] */ private int common_arct(i_ctx_t *i_ctx_p, float *tanxy) { os_ptr op = osp; double args[5]; /* x1, y1, x2, y2, r */ int code = num_params(op, 5, args); if (code < 0) return code; return gs_arcto(igs, args[0], args[1], args[2], args[3], args[4], tanxy); } /* - .dashpath - */ private int zdashpath(i_ctx_t *i_ctx_p) { return gs_dashpath(igs); } /* - flattenpath - */ private int zflattenpath(i_ctx_t *i_ctx_p) { return gs_flattenpath(igs); } /* - reversepath - */ private int zreversepath(i_ctx_t *i_ctx_p) { return gs_reversepath(igs); } /* - strokepath - */ private int zstrokepath(i_ctx_t *i_ctx_p) { return gs_strokepath(igs); } /* - clippath - */ private int zclippath(i_ctx_t *i_ctx_p) { return gs_clippath(igs); } /* .pathbbox */ private int zpathbbox(i_ctx_t *i_ctx_p) { os_ptr op = osp; gs_rect box; int code; check_type(*op, t_boolean); code = gs_upathbbox(igs, &box, op->value.boolval); if (code < 0) return code; push(3); make_real(op - 3, box.p.x); make_real(op - 2, box.p.y); make_real(op - 1, box.q.x); make_real(op, box.q.y); return 0; } /* pathforall - */ private int path_continue(i_ctx_t *); private int path_cleanup(i_ctx_t *); private int zpathforall(i_ctx_t *i_ctx_p) { os_ptr op = osp; gs_path_enum *penum; int code; check_proc(op[-3]); check_proc(op[-2]); check_proc(op[-1]); check_proc(*op); check_estack(8); if ((penum = gs_path_enum_alloc(imemory, "pathforall")) == 0) return_error(e_VMerror); code = gs_path_enum_init(penum, igs); if (code < 0) { ifree_object(penum, "path_cleanup"); return code; } /* Push a mark, the four procedures, and the path enumerator. */ push_mark_estack(es_for, path_cleanup); /* iterator */ memcpy(esp + 1, op - 3, 4 * sizeof(ref)); /* 4 procs */ esp += 5; make_istruct(esp, 0, penum); push_op_estack(path_continue); pop(4); op -= 4; return o_push_estack; } /* Continuation procedure for pathforall */ private void pf_push(i_ctx_t *, gs_point *, int); private int path_continue(i_ctx_t *i_ctx_p) { gs_path_enum *penum = r_ptr(esp, gs_path_enum); gs_point ppts[3]; int code; /* Make sure we have room on the o-stack for the worst case */ /* before we enumerate the next path element. */ check_ostack(6); /* 3 points for curveto */ code = gs_path_enum_next(penum, ppts); switch (code) { case 0: /* all done */ esp -= 6; path_cleanup(i_ctx_p); return o_pop_estack; default: /* error */ return code; case gs_pe_moveto: esp[2] = esp[-4]; /* moveto proc */ pf_push(i_ctx_p, ppts, 1); break; case gs_pe_lineto: esp[2] = esp[-3]; /* lineto proc */ pf_push(i_ctx_p, ppts, 1); break; case gs_pe_curveto: esp[2] = esp[-2]; /* curveto proc */ pf_push(i_ctx_p, ppts, 3); break; case gs_pe_closepath: esp[2] = esp[-1]; /* closepath proc */ break; } push_op_estack(path_continue); ++esp; /* include pushed procedure */ return o_push_estack; } /* Internal procedure to push one or more points */ private void pf_push(i_ctx_t *i_ctx_p, gs_point * ppts, int n) { os_ptr op = osp; while (n--) { op += 2; make_real(op - 1, ppts->x); make_real(op, ppts->y); ppts++; } osp = op; } /* Clean up after a pathforall */ private int path_cleanup(i_ctx_t *i_ctx_p) { gs_path_enum *penum = r_ptr(esp + 6, gs_path_enum); gs_path_enum_cleanup(penum); ifree_object(penum, "path_cleanup"); return 0; } /* ------ Initialization procedure ------ */ const op_def zpath1_op_defs[] = { {"5arc", zarc}, {"5arcn", zarcn}, {"5arct", zarct}, {"5arcto", zarcto}, {"0clippath", zclippath}, {"0.dashpath", zdashpath}, {"0flattenpath", zflattenpath}, {"4pathforall", zpathforall}, {"0reversepath", zreversepath}, {"0strokepath", zstrokepath}, {"1.pathbbox", zpathbbox}, /* Internal operators */ {"0%path_continue", path_continue}, op_def_end(0) };