/* Copyright (C) 1989, 1992, 1993, 1994, 1996, 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: gscolor1.c,v 1.11 2004/08/04 19:36:12 stefan Exp $ */ /* Level 1 extended color operators for Ghostscript library */ #include "gx.h" #include "gserrors.h" #include "gsstruct.h" #include "gsutil.h" /* for gs_next_ids */ #include "gsccolor.h" #include "gxcspace.h" #include "gxdcconv.h" #include "gxdevice.h" /* for gx_color_index */ #include "gxcmap.h" #include "gzstate.h" #include "gscolor1.h" #include "gscolor2.h" #include "gxhttype.h" #include "gzht.h" /* Imports from gscolor.c */ void load_transfer_map(gs_state *, gx_transfer_map *, floatp); /* Imported from gsht.c */ void gx_set_effective_transfer(gs_state *); /* Force a parameter into the range [0.0..1.0]. */ #define FORCE_UNIT(p) (p < 0.0 ? 0.0 : p > 1.0 ? 1.0 : p) /* setcmykcolor */ int gs_setcmykcolor(gs_state * pgs, floatp c, floatp m, floatp y, floatp k) { gs_color_space cs; int code; gs_cspace_init_DeviceCMYK(pgs->memory, &cs); if ((code = gs_setcolorspace(pgs, &cs)) >= 0) { gs_client_color * pcc = pgs->ccolor; cs_adjust_color_count(pgs, -1); /* not strictly necessary */ pcc->paint.values[0] = FORCE_UNIT(c); pcc->paint.values[1] = FORCE_UNIT(m); pcc->paint.values[2] = FORCE_UNIT(y); pcc->paint.values[3] = FORCE_UNIT(k); pcc->pattern = 0; /* for GC */ gx_unset_dev_color(pgs); } return code; } /* setblackgeneration */ /* Remap=0 is used by the interpreter. */ int gs_setblackgeneration(gs_state * pgs, gs_mapping_proc proc) { return gs_setblackgeneration_remap(pgs, proc, true); } int gs_setblackgeneration_remap(gs_state * pgs, gs_mapping_proc proc, bool remap) { rc_unshare_struct(pgs->black_generation, gx_transfer_map, &st_transfer_map, pgs->memory, return_error(gs_error_VMerror), "gs_setblackgeneration"); pgs->black_generation->proc = proc; pgs->black_generation->id = gs_next_ids(pgs->memory, 1); if (remap) { load_transfer_map(pgs, pgs->black_generation, 0.0); gx_unset_dev_color(pgs); } return 0; } /* currentblackgeneration */ gs_mapping_proc gs_currentblackgeneration(const gs_state * pgs) { return pgs->black_generation->proc; } /* setundercolorremoval */ /* Remap=0 is used by the interpreter. */ int gs_setundercolorremoval(gs_state * pgs, gs_mapping_proc proc) { return gs_setundercolorremoval_remap(pgs, proc, true); } int gs_setundercolorremoval_remap(gs_state * pgs, gs_mapping_proc proc, bool remap) { rc_unshare_struct(pgs->undercolor_removal, gx_transfer_map, &st_transfer_map, pgs->memory, return_error(gs_error_VMerror), "gs_setundercolorremoval"); pgs->undercolor_removal->proc = proc; pgs->undercolor_removal->id = gs_next_ids(pgs->memory, 1); if (remap) { load_transfer_map(pgs, pgs->undercolor_removal, -1.0); gx_unset_dev_color(pgs); } return 0; } /* currentundercolorremoval */ gs_mapping_proc gs_currentundercolorremoval(const gs_state * pgs) { return pgs->undercolor_removal->proc; } /* setcolortransfer */ /* Remap=0 is used by the interpreter. */ int gs_setcolortransfer_remap(gs_state * pgs, gs_mapping_proc red_proc, gs_mapping_proc green_proc, gs_mapping_proc blue_proc, gs_mapping_proc gray_proc, bool remap) { gx_transfer *ptran = &pgs->set_transfer; gx_transfer old; gs_id new_ids = gs_next_ids(pgs->memory, 4); gx_device * dev = pgs->device; old = *ptran; rc_unshare_struct(ptran->gray, gx_transfer_map, &st_transfer_map, pgs->memory, goto fgray, "gs_setcolortransfer"); rc_unshare_struct(ptran->red, gx_transfer_map, &st_transfer_map, pgs->memory, goto fred, "gs_setcolortransfer"); rc_unshare_struct(ptran->green, gx_transfer_map, &st_transfer_map, pgs->memory, goto fgreen, "gs_setcolortransfer"); rc_unshare_struct(ptran->blue, gx_transfer_map, &st_transfer_map, pgs->memory, goto fblue, "gs_setcolortransfer"); ptran->gray->proc = gray_proc; ptran->gray->id = new_ids; ptran->red->proc = red_proc; ptran->red->id = new_ids + 1; ptran->green->proc = green_proc; ptran->green->id = new_ids + 2; ptran->blue->proc = blue_proc; ptran->blue->id = new_ids + 3; ptran->red_component_num = gs_color_name_component_number(dev, "Red", 3, ht_type_colorscreen); ptran->green_component_num = gs_color_name_component_number(dev, "Green", 5, ht_type_colorscreen); ptran->blue_component_num = gs_color_name_component_number(dev, "Blue", 4, ht_type_colorscreen); ptran->gray_component_num = gs_color_name_component_number(dev, "Gray", 4, ht_type_colorscreen); if (remap) { load_transfer_map(pgs, ptran->red, 0.0); load_transfer_map(pgs, ptran->green, 0.0); load_transfer_map(pgs, ptran->blue, 0.0); load_transfer_map(pgs, ptran->gray, 0.0); gx_set_effective_transfer(pgs); gx_unset_dev_color(pgs); } else gx_set_effective_transfer(pgs); return 0; fblue: rc_assign(ptran->green, old.green, "setcolortransfer"); fgreen: rc_assign(ptran->red, old.red, "setcolortransfer"); fred: rc_assign(ptran->gray, old.gray, "setcolortransfer"); fgray: return_error(gs_error_VMerror); } int gs_setcolortransfer(gs_state * pgs, gs_mapping_proc red_proc, gs_mapping_proc green_proc, gs_mapping_proc blue_proc, gs_mapping_proc gray_proc) { return gs_setcolortransfer_remap(pgs, red_proc, green_proc, blue_proc, gray_proc, true); } /* currentcolortransfer */ void gs_currentcolortransfer(const gs_state * pgs, gs_mapping_proc procs[4]) { const gx_transfer *ptran = &pgs->set_transfer; procs[0] = ptran->red->proc; procs[1] = ptran->green->proc; procs[2] = ptran->blue->proc; procs[3] = ptran->gray->proc; }