/* Copyright (C) 2001-2006 Artifex Software, Inc. 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 that license. Refer to licensing information at http://www.artifex.com/ or contact Artifex Software, Inc., 7 Mt. Lassen Drive - Suite A-134, San Rafael, CA 94903, U.S.A., +1(415)492-9861, for further information. */ /* $Id$ */ /* CIE color rendering operators */ #include "math_.h" #include "ghost.h" #include "oper.h" #include "gsstruct.h" #include "gscspace.h" #include "gscolor2.h" #include "gscrd.h" #include "gscrdp.h" #include "estack.h" #include "ialloc.h" #include "idict.h" #include "idparam.h" #include "igstate.h" #include "icie.h" #include "iparam.h" #include "ivmspace.h" #include "store.h" /* for make_null */ /* Forward references */ private int zcrd1_proc_params(const gs_memory_t *mem, os_ptr op, ref_cie_render_procs * pcprocs); private int zcrd1_params(os_ptr op, gs_cie_render * pcrd, ref_cie_render_procs * pcprocs, gs_memory_t * mem); private int cache_colorrendering1(i_ctx_t *i_ctx_p, gs_cie_render * pcrd, const ref_cie_render_procs * pcprocs, gs_ref_memory_t * imem); /* - currentcolorrendering */ private int zcurrentcolorrendering(i_ctx_t *i_ctx_p) { os_ptr op = osp; push(1); *op = istate->colorrendering.dict; return 0; } /* .buildcolorrendering1 */ private int zbuildcolorrendering1(i_ctx_t *i_ctx_p) { os_ptr op = osp; gs_memory_t *mem = gs_state_memory(igs); int code; es_ptr ep = esp; gs_cie_render *pcrd; ref_cie_render_procs procs; check_read_type(*op, t_dictionary); check_dict_read(*op); code = gs_cie_render1_build(&pcrd, mem, ".buildcolorrendering1"); if (code < 0) return code; code = zcrd1_params(op, pcrd, &procs, mem); if (code < 0 || (code = cache_colorrendering1(i_ctx_p, pcrd, &procs, (gs_ref_memory_t *) mem)) < 0 ) { rc_free_struct(pcrd, ".buildcolorrendering1"); esp = ep; return code; } /****** FIX refct ******/ /*rc_decrement(pcrd, ".buildcolorrendering1"); *//* build sets rc = 1 */ istate->colorrendering.dict = *op; make_istruct_new(op, a_readonly, pcrd); return (esp == ep ? 0 : o_push_estack); } /* .builddevicecolorrendering1 */ private int zbuilddevicecolorrendering1(i_ctx_t *i_ctx_p) { os_ptr op = osp; gs_memory_t *mem = gs_state_memory(igs); dict_param_list list; gs_cie_render *pcrd = 0; int code; check_type(*op, t_dictionary); code = dict_param_list_read(&list, op, NULL, false, iimemory); if (code < 0) return code; code = gs_cie_render1_build(&pcrd, mem, ".builddevicecolorrendering1"); if (code >= 0) { code = param_get_cie_render1(pcrd, (gs_param_list *) & list, gs_currentdevice(igs)); if (code >= 0) { /****** FIX refct ******/ /*rc_decrement(pcrd, ".builddevicecolorrendering1"); *//* build sets rc = 1 */ } } iparam_list_release(&list); if (code < 0) { rc_free_struct(pcrd, ".builddevicecolorrendering1"); return code; } istate->colorrendering.dict = *op; make_istruct_new(op, a_readonly, pcrd); return 0; } /* .setcolorrendering1 - */ private int zsetcolorrendering1(i_ctx_t *i_ctx_p) { os_ptr op = osp; es_ptr ep = esp; ref_cie_render_procs procs; int code; check_type(op[-1], t_dictionary); check_stype(*op, st_cie_render1); code = zcrd1_proc_params(imemory, op - 1, &procs); if (code < 0) return code; code = gs_setcolorrendering(igs, r_ptr(op, gs_cie_render)); if (code < 0) return code; if (gs_cie_cs_common(igs) != 0 && (code = cie_cache_joint(i_ctx_p, &procs, gs_cie_cs_common(igs), igs)) < 0 ) return code; istate->colorrendering.dict = op[-1]; istate->colorrendering.procs = procs; pop(2); return (esp == ep ? 0 : o_push_estack); } /* .setdevicecolorrendering1 - */ private int zsetdevicecolorrendering1(i_ctx_t *i_ctx_p) { os_ptr op = osp; int code; ref_cie_render_procs procs; check_type(op[-1], t_dictionary); check_stype(*op, st_cie_render1); code = gs_setcolorrendering(igs, r_ptr(op, gs_cie_render)); if (code < 0) return code; refset_null((ref *)&procs, sizeof(procs) / sizeof(ref)); if (gs_cie_cs_common(igs) != 0 && (code = cie_cache_joint(i_ctx_p, &procs, gs_cie_cs_common(igs), igs)) < 0 ) return code; istate->colorrendering.dict = op[-1]; refset_null((ref *)&istate->colorrendering.procs, sizeof(istate->colorrendering.procs) / sizeof(ref)); pop(2); return 0; } /* Get ColorRenderingType 1 procedures from the PostScript dictionary. */ private int zcrd1_proc_params(const gs_memory_t *mem, os_ptr op, ref_cie_render_procs * pcprocs) { int code; ref *pRT; code = dict_proc3_param(mem, op, "EncodeLMN", &pcprocs->EncodeLMN); if (code < 0) return code; code = dict_proc3_param(mem, op, "EncodeABC", &pcprocs->EncodeABC); if (code < 0) return code; code = dict_proc3_param(mem, op, "TransformPQR", &pcprocs->TransformPQR); if (code < 0) return code; if (code == 1) return gs_note_error(e_undefined); if (dict_find_string(op, "RenderTable", &pRT) > 0) { const ref *prte; int size; int i; check_read_type(*pRT, t_array); size = r_size(pRT); if (size < 5) return_error(e_rangecheck); prte = pRT->value.const_refs; for (i = 5; i < size; i++) check_proc_only(prte[i]); make_const_array(&pcprocs->RenderTableT, a_readonly | r_space(pRT), size - 5, prte + 5); } else make_null(&pcprocs->RenderTableT); return 0; } /* Get ColorRenderingType 1 parameters from the PostScript dictionary. */ private int zcrd1_params(os_ptr op, gs_cie_render * pcrd, ref_cie_render_procs * pcprocs, gs_memory_t * mem) { int code; int ignore; gx_color_lookup_table *const prtl = &pcrd->RenderTable.lookup; ref *pRT; if ((code = dict_int_param(op, "ColorRenderingType", 1, 1, 0, &ignore)) < 0 || (code = zcrd1_proc_params(mem, op, pcprocs)) < 0 || (code = dict_matrix3_param(mem, op, "MatrixLMN", &pcrd->MatrixLMN)) < 0 || (code = dict_range3_param(mem, op, "RangeLMN", &pcrd->RangeLMN)) < 0 || (code = dict_matrix3_param(mem, op, "MatrixABC", &pcrd->MatrixABC)) < 0 || (code = dict_range3_param(mem, op, "RangeABC", &pcrd->RangeABC)) < 0 || (code = cie_points_param(mem, op, &pcrd->points)) < 0 || (code = dict_matrix3_param(mem, op, "MatrixPQR", &pcrd->MatrixPQR)) < 0 || (code = dict_range3_param(mem,op, "RangePQR", &pcrd->RangePQR)) < 0 ) return code; if (dict_find_string(op, "RenderTable", &pRT) > 0) { const ref *prte = pRT->value.const_refs; /* Finish unpacking and checking the RenderTable parameter. */ check_type_only(prte[4], t_integer); if (!(prte[4].value.intval == 3 || prte[4].value.intval == 4)) return_error(e_rangecheck); prtl->n = 3; prtl->m = prte[4].value.intval; if (r_size(pRT) != prtl->m + 5) return_error(e_rangecheck); code = cie_table_param(pRT, prtl, mem); if (code < 0) return code; } else { prtl->table = 0; } pcrd->EncodeLMN = Encode_default; pcrd->EncodeABC = Encode_default; pcrd->TransformPQR = TransformPQR_default; pcrd->RenderTable.T = RenderTableT_default; return 0; } /* Cache the results of the color rendering procedures. */ private int cie_cache_render_finish(i_ctx_t *); private int cache_colorrendering1(i_ctx_t *i_ctx_p, gs_cie_render * pcrd, const ref_cie_render_procs * pcrprocs, gs_ref_memory_t * imem) { es_ptr ep = esp; int code = gs_cie_render_init(pcrd); /* sets Domain values */ int i; if (code < 0 || (code = cie_cache_push_finish(i_ctx_p, cie_cache_render_finish, imem, pcrd)) < 0 || (code = cie_prepare_cache3(i_ctx_p, &pcrd->DomainLMN, pcrprocs->EncodeLMN.value.const_refs, pcrd->caches.EncodeLMN.caches, pcrd, imem, "Encode.LMN")) < 0 || (code = cie_prepare_cache3(i_ctx_p, &pcrd->DomainABC, pcrprocs->EncodeABC.value.const_refs, &pcrd->caches.EncodeABC[0], pcrd, imem, "Encode.ABC")) < 0 ) { esp = ep; return code; } if (pcrd->RenderTable.lookup.table != 0) { bool is_identity = true; for (i = 0; i < pcrd->RenderTable.lookup.m; i++) if (r_size(pcrprocs->RenderTableT.value.const_refs + i) != 0) { is_identity = false; break; } pcrd->caches.RenderTableT_is_identity = is_identity; if (!is_identity) for (i = 0; i < pcrd->RenderTable.lookup.m; i++) if ((code = cie_prepare_cache(i_ctx_p, Range4_default.ranges, pcrprocs->RenderTableT.value.const_refs + i, &pcrd->caches.RenderTableT[i].floats, pcrd, imem, "RenderTable.T")) < 0 ) { esp = ep; return code; } } return o_push_estack; } /* Finish up after loading the rendering caches. */ private int cie_cache_render_finish(i_ctx_t *i_ctx_p) { os_ptr op = osp; gs_cie_render *pcrd = r_ptr(op, gs_cie_render); int code; if (pcrd->RenderTable.lookup.table != 0 && !pcrd->caches.RenderTableT_is_identity ) { /* Convert the RenderTableT cache from floats to fracs. */ int j; for (j = 0; j < pcrd->RenderTable.lookup.m; j++) gs_cie_cache_to_fracs(&pcrd->caches.RenderTableT[j].floats, &pcrd->caches.RenderTableT[j].fracs); } pcrd->status = CIE_RENDER_STATUS_SAMPLED; pcrd->EncodeLMN = EncodeLMN_from_cache; pcrd->EncodeABC = EncodeABC_from_cache; pcrd->RenderTable.T = RenderTableT_from_cache; code = gs_cie_render_complete(pcrd); if (code < 0) return code; pop(1); return 0; } /* ------ Internal procedures ------ */ /* Load the joint caches. */ private int cie_exec_tpqr(i_ctx_t *), cie_post_exec_tpqr(i_ctx_t *), cie_tpqr_finish(i_ctx_t *); int cie_cache_joint(i_ctx_t *i_ctx_p, const ref_cie_render_procs * pcrprocs, const gs_cie_common *pcie, gs_state * pgs) { const gs_cie_render *pcrd = gs_currentcolorrendering(pgs); gx_cie_joint_caches *pjc = gx_unshare_cie_caches(pgs); gs_ref_memory_t *imem = (gs_ref_memory_t *) gs_state_memory(pgs); ref pqr_procs; uint space; int code; int i; if (pcrd == 0) /* cache is not set up yet */ return 0; if (pjc == 0) /* must already be allocated */ return_error(e_VMerror); if (r_has_type(&pcrprocs->TransformPQR, t_null)) { /* * This CRD came from a driver, not from a PostScript dictionary. * Resample TransformPQR in C code. */ return gs_cie_cs_complete(pgs, true); } gs_cie_compute_points_sd(pjc, pcie, pcrd); code = ialloc_ref_array(&pqr_procs, a_readonly, 3 * (1 + 4 + 4 * 6), "cie_cache_common"); if (code < 0) return code; /* When we're done, deallocate the procs and complete the caches. */ check_estack(3); cie_cache_push_finish(i_ctx_p, cie_tpqr_finish, imem, pgs); *++esp = pqr_procs; space = r_space(&pqr_procs); for (i = 0; i < 3; i++) { ref *p = pqr_procs.value.refs + 3 + (4 + 4 * 6) * i; const float *ppt = (float *)&pjc->points_sd; int j; make_array(pqr_procs.value.refs + i, a_readonly | a_executable | space, 4, p); make_array(p, a_readonly | space, 4 * 6, p + 4); p[1] = pcrprocs->TransformPQR.value.refs[i]; make_oper(p + 2, 0, cie_exec_tpqr); make_oper(p + 3, 0, cie_post_exec_tpqr); for (j = 0, p += 4; j < 4 * 6; j++, p++, ppt++) make_real(p, *ppt); } return cie_prepare_cache3(i_ctx_p, &pcrd->RangePQR, pqr_procs.value.const_refs, pjc->TransformPQR.caches, pjc, imem, "Transform.PQR"); } /* Private operator to shuffle arguments for the TransformPQR procedure: */ /* v [ws wd bs bd] proc -> -mark- ws wd bs bd v proc + exec */ private int cie_exec_tpqr(i_ctx_t *i_ctx_p) { os_ptr op = osp; const ref *ppt = op[-1].value.const_refs; uint space = r_space(op - 1); int i; check_op(3); push(4); *op = op[-4]; /* proc */ op[-1] = op[-6]; /* v */ for (i = 0; i < 4; i++) make_const_array(op - 5 + i, a_readonly | space, 6, ppt + i * 6); make_mark(op - 6); return zexec(i_ctx_p); } /* Remove extraneous values from the stack after executing */ /* the TransformPQR procedure. -mark- ... v -> v */ private int cie_post_exec_tpqr(i_ctx_t *i_ctx_p) { os_ptr op = osp; uint count = ref_stack_counttomark(&o_stack); ref vref; if (count < 2) return_error(e_unmatchedmark); vref = *op; ref_stack_pop(&o_stack, count - 1); *osp = vref; return 0; } /* Free the procs array and complete the joint caches. */ private int cie_tpqr_finish(i_ctx_t *i_ctx_p) { os_ptr op = osp; gs_state *pgs = r_ptr(op, gs_state); gs_cie_render *pcrd = (gs_cie_render *)gs_currentcolorrendering(pgs); /* break const */ int code; ifree_ref_array(op - 1, "cie_tpqr_finish"); pcrd->TransformPQR = TransformPQR_from_cache; code = gs_cie_cs_complete(pgs, false); pop(2); return code; } /* Ws Bs Wd Bd Ps .transformPQR_scale_wb[012] Pd The default TransformPQR procedure is implemented in C, rather than PostScript, as a speed optimization. This TransformPQR implements a relative colorimetric intent by scaling the XYZ values relative to the white and black points. */ private int ztpqr_scale_wb_common(i_ctx_t *i_ctx_p, int idx) { os_ptr op = osp; double a[4], Ps; /* a[0] = ws, a[1] = bs, a[2] = wd, a[3] = bd */ double result; int code; int i; code = real_param(op, &Ps); if (code < 0) return code; for (i = 0; i < 4; i++) { ref tmp; code = array_get(imemory, op - 4 + i, idx, &tmp); if (code >= 0) code = real_param(&tmp, &a[i]); if (code < 0) return code; } if (a[0] == a[1]) return_error(e_undefinedresult); result = a[3] + (a[2] - a[3]) * (Ps - a[1]) / (a[0] - a[1]); make_real(op - 4, result); pop(4); return 0; } /* Ws Bs Wd Bd Ps .TransformPQR_scale_wb0 Pd */ private int ztpqr_scale_wb0(i_ctx_t *i_ctx_p) { return ztpqr_scale_wb_common(i_ctx_p, 3); } /* Ws Bs Wd Bd Ps .TransformPQR_scale_wb2 Pd */ private int ztpqr_scale_wb1(i_ctx_t *i_ctx_p) { return ztpqr_scale_wb_common(i_ctx_p, 4); } /* Ws Bs Wd Bd Ps .TransformPQR_scale_wb2 Pd */ private int ztpqr_scale_wb2(i_ctx_t *i_ctx_p) { return ztpqr_scale_wb_common(i_ctx_p, 5); } /* ------ Initialization procedure ------ */ const op_def zcrd_l2_op_defs[] = { op_def_begin_level2(), {"0currentcolorrendering", zcurrentcolorrendering}, {"2.setcolorrendering1", zsetcolorrendering1}, {"2.setdevicecolorrendering1", zsetdevicecolorrendering1}, {"1.buildcolorrendering1", zbuildcolorrendering1}, {"1.builddevicecolorrendering1", zbuilddevicecolorrendering1}, /* Internal "operators" */ {"1%cie_render_finish", cie_cache_render_finish}, {"3%cie_exec_tpqr", cie_exec_tpqr}, {"2%cie_post_exec_tpqr", cie_post_exec_tpqr}, {"1%cie_tpqr_finish", cie_tpqr_finish}, {"5.TransformPQR_scale_WB0", ztpqr_scale_wb0}, {"5.TransformPQR_scale_WB1", ztpqr_scale_wb1}, {"5.TransformPQR_scale_WB2", ztpqr_scale_wb2}, op_def_end(0) };