/* Copyright (C) 2019-2023 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 the license contained in the file LICENSE in this distribution. Refer to licensing information at http://www.artifex.com or contact Artifex Software, Inc., 39 Mesa Street, Suite 108A, San Francisco, CA 94129, USA, for further information. */ /* Pattern operations for the PDF interpreter */ #include "pdf_int.h" #include "pdf_doc.h" #include "pdf_colour.h" #include "pdf_pattern.h" #include "pdf_stack.h" #include "pdf_array.h" #include "pdf_font_types.h" #include "pdf_gstate.h" #include "pdf_file.h" #include "pdf_dict.h" #include "pdf_loop_detect.h" #include "pdf_func.h" #include "pdf_shading.h" #include "pdf_check.h" #include "gsicc_manage.h" #include "gsicc_profilecache.h" #include "gsicc_create.h" #include "gsptype2.h" #include "gxdevsop.h" /* For special ops : pattern_accum_param_s */ #include "gscsepr.h" #include "stream.h" #include "strmio.h" #include "gscdevn.h" #include "gscoord.h" /* For gs_setmatrix() */ typedef struct { pdf_context *ctx; pdf_dict *page_dict; pdf_obj *pat_obj; gs_shading_t *shading; } pdf_pattern_context_t; /* See pdf_draw.ps, FixPatternBox * A BBox where width or height (or both) is 0 should still paint one pixel * See the ISO 32000-2:2017 spec, section 8.7.4.3, p228 'BBox' and 8.7.3.1 */ static void pdfi_pattern_fix_bbox(pdf_context *ctx, gs_rect *rect) { if (rect->p.x - rect->q.x == 0) rect->q.x += .00000001; if (rect->p.y - rect->q.y == 0) rect->q.y += .00000001; } /* Get rect from array, normalize and adjust it */ static int pdfi_pattern_get_rect(pdf_context *ctx, pdf_array *array, gs_rect *rect) { int code; code = pdfi_array_to_gs_rect(ctx, array, rect); if (code != 0) return code; pdfi_normalize_rect(ctx, rect); pdfi_pattern_fix_bbox(ctx, rect); return code; } #if 0 /* Not currently using, not sure if needed (and it didn't work anyway) */ /* NULL Pattern */ static int pdfi_setpattern_null(pdf_context *ctx, gs_client_color *cc) { int code = 0; gs_client_pattern templat; gs_matrix mat; gs_rect rect; gs_pattern1_init(&templat); /* Init identity matrix */ pdfi_array_to_gs_matrix(ctx, NULL, &mat); pdfi_pattern_get_rect(ctx, NULL, &rect); templat.BBox = rect; templat.PaintProc = NULL; templat.PaintType = 1; templat.TilingType = 3; templat.XStep = 1; templat.YStep = 1; code = gs_makepattern(cc, &templat, &mat, ctx->pgs, ctx->memory); return code; } #endif static void pdfi_free_pattern_context(pdf_pattern_context_t *context) { pdfi_countdown(context->page_dict); pdfi_countdown(context->pat_obj); if (context->shading) pdfi_shading_free(context->ctx, context->shading); gs_free_object(context->ctx->memory, context, "Free pattern context"); } void pdfi_pattern_cleanup(gs_memory_t * mem, void *p) { gs_pattern1_instance_t *pinst = (gs_pattern1_instance_t *)p; if (pinst->client_data != NULL) { pdfi_free_pattern_context((pdf_pattern_context_t *)pinst->client_data); pinst->client_data = NULL; pinst->notify_free = NULL; } } /* See px_paint_pattern() */ static int pdfi_pattern_paint_stream(pdf_context *ctx, const gs_client_color *pcc) { gs_pattern1_instance_t *pinst = (gs_pattern1_instance_t *)pcc->pattern; pdf_pattern_context_t *context = (pdf_pattern_context_t *)pinst->client_data; pdf_dict *page_dict = context->page_dict; pdf_stream *pat_stream = (pdf_stream *)context->pat_obj; int code = 0; int SavedBlockDepth = 0; /* In case we are setting up a pattern for filling or stroking text, we need * to reset the BlockDepth so that we don't detect the Pattern content as being * 'inside' a text block, where some operations (eg path contstruction) are * not permitted. */ SavedBlockDepth = ctx->text.BlockDepth; ctx->text.BlockDepth = 0; /* Interpret inner stream */ code = pdfi_run_context(ctx, pat_stream, page_dict, true, "PATTERN"); ctx->text.BlockDepth = SavedBlockDepth; return code; } /* See px_paint_pattern() */ static int pdfi_pattern_paint(const gs_client_color *pcc, gs_gstate *pgs) { gs_pattern1_instance_t *pinst = (gs_pattern1_instance_t *)pcc->pattern; pdf_pattern_context_t *context = (pdf_pattern_context_t *)pinst->client_data; pdf_context *ctx = context->ctx; int code = 0; #if DEBUG_PATTERN dbgmprintf(ctx->memory, "BEGIN PATTERN PaintProc\n"); #endif code = pdfi_gsave(ctx); /* TODO: This might be redundant? */ if (code < 0) return code; code = pdfi_gs_setgstate(ctx->pgs, pgs); if (code < 0) goto exit; /* TODO: This hack here is to emulate some stuff that happens in the PS code. * Basically gx_pattern_load() gets called twice in PS code path, which causes this * flag to end up being set, which changes some transparency stuff that might matter, to happen. * By forcing this flag here, it makes the trace more closely follow what the PS code * does. It could turn out to be a meaningless side-effect, or it might be important. * (sometime in the future, try taking this out and see what happens :) */ if (pinst->templat.uses_transparency) { dbgmprintf(ctx->memory, "pdfi_pattern_paint forcing trans_flags.xtate_change = TRUE\n"); ctx->pgs->trans_flags.xstate_change = true; } code = pdfi_op_q(ctx); if (code < 0) goto exit; code = pdfi_pattern_paint_stream(ctx, pcc); pdfi_op_Q(ctx); if (code < 0) { dbgmprintf1(ctx->memory, "ERROR: pdfi_pattern_paint: code %d when rendering pattern\n", code); goto exit; } exit: pdfi_grestore(ctx); #if DEBUG_PATTERN dbgmprintf(ctx->memory, "END PATTERN PaintProc\n"); #endif return code; } /* See px_high_level_pattern(), pattern_paint_prepare() */ static int pdfi_pattern_paint_high_level(const gs_client_color *pcc, gs_gstate *pgs_ignore) { gs_pattern1_instance_t *pinst = (gs_pattern1_instance_t *)pcc->pattern; const gs_pattern1_template_t *templat = &pinst->templat; pdf_pattern_context_t *context = (pdf_pattern_context_t *)pinst->client_data; pdf_context *ctx = context->ctx; gs_gstate *pgs = ctx->pgs; gs_matrix m; gs_rect bbox; gs_fixed_rect clip_box; int code; gx_device_color *pdc = gs_currentdevicecolor_inline(pgs); pattern_accum_param_s param; code = pdfi_gsave(ctx); if (code < 0) return code; code = pdfi_gs_setgstate(ctx->pgs, pinst->saved); if (code < 0) goto errorExit; dev_proc(pgs->device, get_initial_matrix)(pgs->device, &m); gs_setmatrix(pgs, &m); code = gs_bbox_transform(&templat->BBox, &ctm_only(pgs), &bbox); if (code < 0) goto errorExit; clip_box.p.x = float2fixed(bbox.p.x); clip_box.p.y = float2fixed(bbox.p.y); clip_box.q.x = float2fixed(bbox.q.x); clip_box.q.y = float2fixed(bbox.q.y); code = gx_clip_to_rectangle(pgs, &clip_box); if (code < 0) goto errorExit; param.pinst = (void *)pinst; param.interpreter_memory = ctx->memory; param.graphics_state = (void *)pgs; param.pinst_id = pinst->id; code = (*dev_proc(pgs->device, dev_spec_op)) ((gx_device *)pgs->device, gxdso_pattern_start_accum, ¶m, sizeof(pattern_accum_param_s)); if (code < 0) goto errorExit; #if DEBUG_PATTERN dbgmprintf(ctx->memory, "PATTERN: BEGIN high level pattern stream\n"); #endif code = pdfi_pattern_paint_stream(ctx, &pdc->ccolor); #if DEBUG_PATTERN dbgmprintf(ctx->memory, "PATTERN: END high level pattern stream\n"); #endif if (code < 0) goto errorExit; code = dev_proc(pgs->device, dev_spec_op) (pgs->device, gxdso_pattern_finish_accum, ¶m, sizeof(pattern_accum_param_s)); if (code < 0) goto errorExit; code = pdfi_grestore(ctx); if (code < 0) return code; /* We create the dummy cache entry last, after we've executed the Pattern PaintProc. This is because * if we ran another Pattern during the PaintProc, and that pattern has an id which happens to * collide with the id of this pattern, it would overwrite the entry in the pattern cache. * Deferring the entry in the cache until we are complete prevents this happening. * For an example see Bug693422.pdf. */ code = gx_pattern_cache_add_dummy_entry(pgs, pinst, pgs->device->color_info.depth); if (code < 0) return code; return gs_error_handled; errorExit: pdfi_grestore(ctx); return code; } /* Called from gx_pattern_load(), see px_remap_pattern() */ static int pdfi_pattern_paintproc(const gs_client_color *pcc, gs_gstate *pgs) { const gs_client_pattern *pinst = gs_getpattern(pcc); int code = 0; /* pgs->device is the newly created pattern accumulator, but we want to test the device * that is 'behind' that, the actual output device, so we use the one from * the saved graphics state. */ if (pgs->have_pattern_streams) { code = dev_proc(pcc->pattern->saved->device, dev_spec_op)(pcc->pattern->saved->device, gxdso_pattern_can_accum, (void *)pinst, pinst->uid.id); } if (code == 1) { return pdfi_pattern_paint_high_level(pcc, pgs); } else { return pdfi_pattern_paint(pcc, pgs); } } /* Setup the correct gstate for a pattern */ static int pdfi_pattern_gset(pdf_context *ctx, pdf_dict *page_dict, pdf_dict *ExtGState) { int code; float strokealpha, fillalpha; strokealpha = gs_getstrokeconstantalpha(ctx->pgs); fillalpha = gs_getfillconstantalpha(ctx->pgs); /* This will preserve the ->level and a couple other things */ #if DEBUG_PATTERN dbgmprintf2(ctx->memory, "PATTERN: setting DefaultQState, old device=%s, new device=%s\n", ctx->pgs->device->dname, ctx->DefaultQState->device->dname); #endif code = pdfi_gs_setgstate(ctx->pgs, pdfi_get_DefaultQState(ctx)); if (code < 0) goto exit; code = gs_setstrokeconstantalpha(ctx->pgs, strokealpha); if (code < 0) goto exit; code = gs_setfillconstantalpha(ctx->pgs, fillalpha); if (code < 0) goto exit; /* Set ExtGState if one is provided */ if (ExtGState) code = pdfi_set_ExtGState(ctx, NULL, page_dict, ExtGState); exit: return code; } /* Setup the pattern gstate and other context */ static int pdfi_pattern_setup(pdf_context *ctx, pdf_pattern_context_t **ppcontext, pdf_dict *page_dict, pdf_obj *pat_obj, pdf_dict *ExtGState) { int code = 0; pdf_pattern_context_t *context = NULL; code = pdfi_pattern_gset(ctx, page_dict, ExtGState); if (code < 0) goto errorExit; context = (pdf_pattern_context_t *) gs_alloc_bytes(ctx->memory, sizeof(*context), "pdfi_pattern_setup(context)"); if (!context) { code = gs_note_error(gs_error_VMerror); goto errorExit; } context->ctx = ctx; context->page_dict = page_dict; context->pat_obj = pat_obj; context->shading = NULL; pdfi_countup(page_dict); pdfi_countup(pat_obj); *ppcontext = context; return 0; errorExit: gs_free_object(ctx->memory, context, "pdfi_pattern_setup(context)"); return code; } /* Type 1 (tiled) Pattern */ static int pdfi_setpattern_type1(pdf_context *ctx, pdf_dict *stream_dict, pdf_dict *page_dict, pdf_obj *stream, gs_client_color *cc) { int code = 0; gs_client_pattern templat; gs_matrix mat; gs_rect rect; int64_t PaintType, TilingType; pdf_array *BBox = NULL; double XStep, YStep; pdf_dict *Resources = NULL, *pdict = NULL; pdf_array *Matrix = NULL; bool transparency = false; pdf_pattern_context_t *context = NULL; #if DEBUG_PATTERN dbgmprintf(ctx->memory, "PATTERN: Type 1 pattern\n"); #endif gs_pattern1_init(&templat); /* Must be a stream */ if (pdfi_type_of(stream) != PDF_STREAM) { code = gs_note_error(gs_error_typecheck); goto exit; } code = pdfi_dict_from_obj(ctx, stream, &pdict); if (code < 0) return code; /* Required */ code = pdfi_dict_get_int(ctx, pdict, "PaintType", &PaintType); if (code < 0) goto exit; code = pdfi_dict_get_int(ctx, pdict, "TilingType", &TilingType); if (code < 0) goto exit; code = pdfi_dict_get_type(ctx, pdict, "BBox", PDF_ARRAY, (pdf_obj **)&BBox); if (code < 0) goto exit; code = pdfi_pattern_get_rect(ctx, BBox, &rect); if (code < 0) goto exit; code = pdfi_dict_get_number(ctx, pdict, "XStep", &XStep); if (code < 0) goto exit; code = pdfi_dict_get_number(ctx, pdict, "YStep", &YStep); if (code < 0) goto exit; /* XStep and YStep must be non-zero; table 425; page 293 of the 1.7 Reference */ if (XStep == 0.0 || YStep == 0.0) { code = gs_note_error(gs_error_rangecheck); goto exit; } /* The pattern instance holds the pattern step as floats, make sure they * will fit. */ if (XStep < -MAX_FLOAT || XStep > MAX_FLOAT || YStep < -MAX_FLOAT || YStep > MAX_FLOAT) { code = gs_note_error(gs_error_rangecheck); goto exit; } /* The spec says Resources are required, but in fact this doesn't seem to be true. * (tests_private/pdf/sumatra/infinite_pattern_recursion.pdf) */ code = pdfi_dict_get_type(ctx, pdict, "Resources", PDF_DICT, (pdf_obj **)&Resources); if (code < 0) { if (code == gs_error_undefined && !ctx->args.pdfstoponwarning) { #if DEBUG_PATTERN dbgmprintf(ctx->memory, "PATTERN: Missing Resources in Pattern dict\n"); #endif pdfi_set_warning(ctx, code, NULL, W_PDF_BADPATTERN, "pdfi_setpattern_type1", "Pattern has no Resources dictionary"); code = 0; } else goto exit; } /* (optional Matrix) */ code = pdfi_dict_knownget_type(ctx, pdict, "Matrix", PDF_ARRAY, (pdf_obj **)&Matrix); if (code < 0) goto exit; code = pdfi_array_to_gs_matrix(ctx, Matrix, &mat); if (code < 0) goto exit; if (PaintType != 1 && PaintType != 2) { code = gs_note_error(gs_error_rangecheck); goto exit; } if (TilingType != 1 && TilingType != 2 && TilingType != 3) { code = gs_note_error(gs_error_rangecheck); goto exit; } /* See if pattern uses transparency, or if we are in an overprint simulation situation */ if (ctx->page.simulate_op) transparency = true; else if (ctx->page.has_transparency) { code = pdfi_check_Pattern_transparency(ctx, pdict, page_dict, &transparency); if (code < 0) goto exit; } /* TODO: Resources? Maybe I should check that they are all valid before proceeding, or something? */ templat.BBox = rect; /* (see zPaintProc or px_remap_pattern) */ templat.PaintProc = pdfi_pattern_paintproc; templat.PaintType = PaintType; templat.TilingType = TilingType; templat.XStep = XStep; templat.YStep = YStep; templat.uses_transparency = transparency; //templat.uses_transparency = false; /* disable */ code = pdfi_gsave(ctx); if (code < 0) goto exit; code = pdfi_pattern_setup(ctx, &context, page_dict, stream, NULL); if (code < 0) { (void) pdfi_grestore(ctx); goto exit; } /* We need to use the graphics state memory, in case we are running under Ghostscript. */ code = gs_make_pattern(cc, (const gs_pattern_template_t *)&templat, &mat, ctx->pgs, ctx->pgs->memory); if (code < 0) { (void) pdfi_grestore(ctx); goto exit; } cc->pattern->client_data = context; cc->pattern->notify_free = pdfi_pattern_cleanup; { unsigned long hash = 5381; unsigned int i; const char *str = (const char *)&ctx->pgs->ctm; gs_pattern1_instance_t *pinst = (gs_pattern1_instance_t *)cc->pattern; for (i = 0; i < 4 * sizeof(float); i++) hash = ((hash << 5) + hash) + str[i]; /* hash * 33 + c */ str = (const char *)&pdict->object_num; for (i = 0; i < sizeof(uint32_t); i++) hash = ((hash << 5) + hash) + str[i]; /* hash * 33 + c */ hash = ((hash << 5) + hash) + ctx->pgs->device->color_info.num_components; /* hash * 33 + c */ /* Include num_components for case where we have softmask and non-softmask fills with the same tile. We may need two tiles for this if there is a change in color space for the transparency group. */ pinst->id = hash; } context = NULL; code = pdfi_grestore(ctx); if (code < 0) goto exit; exit: gs_free_object(ctx->memory, context, "pdfi_setpattern_type1(context)"); pdfi_countdown(Resources); pdfi_countdown(Matrix); pdfi_countdown(BBox); return code; } /* Type 2 (shading) Pattern */ static int pdfi_setpattern_type2(pdf_context *ctx, pdf_dict *stream_dict, pdf_dict *page_dict, pdf_obj *pattern_obj, gs_client_color *cc) { int code = 0; pdf_obj *Shading = NULL; pdf_dict *ExtGState = NULL, *pattern_dict = NULL; pdf_array *Matrix = NULL; gs_matrix mat; gs_shading_t *shading; gs_pattern2_template_t templat; pdf_pattern_context_t *context = NULL; /* See zbuildshadingpattern() */ code = pdfi_dict_from_obj(ctx, pattern_obj, &pattern_dict); if (code < 0) return code; #if DEBUG_PATTERN dbgmprintf(ctx->memory, "PATTERN: Type 2 pattern\n"); #endif /* (optional Matrix) */ code = pdfi_dict_knownget_type(ctx, pattern_dict, "Matrix", PDF_ARRAY, (pdf_obj **)&Matrix); if (code < 0) goto exit; code = pdfi_array_to_gs_matrix(ctx, Matrix, &mat); if (code < 0) goto exit; /* Required Shading, can be stream or dict (but a stream is also a dict..) */ code = pdfi_dict_knownget(ctx, pattern_dict, "Shading", &Shading); if (code < 0) goto exit; if (code == 0) { dbgmprintf(ctx->memory, "ERROR: Shading not found in Pattern Type 2\n"); code = gs_note_error(gs_error_syntaxerror); goto exit; } /* Optional ExtGState */ code = pdfi_dict_knownget_type(ctx, pattern_dict, "ExtGState", PDF_DICT, (pdf_obj **)&ExtGState); if (code < 0) goto exit; code = pdfi_gsave(ctx); if (code < 0) goto exit; gs_pattern2_init(&templat); code = pdfi_pattern_setup(ctx, &context, NULL, NULL, ExtGState); if (code < 0) { (void) pdfi_grestore(ctx); goto exit; } code = pdfi_shading_build(ctx, stream_dict, page_dict, Shading, &shading); if (code != 0) { (void) pdfi_grestore(ctx); dbgmprintf(ctx->memory, "ERROR: can't build shading structure\n"); goto exit; } context->shading = shading; templat.Shading = shading; code = gs_make_pattern(cc, (const gs_pattern_template_t *)&templat, &mat, ctx->pgs, ctx->memory); if (code < 0) { (void) pdfi_grestore(ctx); goto exit; } cc->pattern->client_data = context; cc->pattern->notify_free = pdfi_pattern_cleanup; context = NULL; code = pdfi_grestore(ctx); if (code < 0) goto exit; exit: if (context != NULL) pdfi_free_pattern_context(context); pdfi_countdown(Shading); pdfi_countdown(Matrix); pdfi_countdown(ExtGState); return code; } int pdfi_pattern_set(pdf_context *ctx, pdf_dict *stream_dict, pdf_dict *page_dict, pdf_name *pname, gs_client_color *cc) { pdf_dict *pattern_dict = NULL; pdf_obj *pattern_obj = NULL; int code; int64_t patternType; code = pdfi_loop_detector_mark(ctx); if (code < 0) return code; memset(cc, 0, sizeof(*cc)); code = pdfi_find_resource(ctx, (unsigned char *)"Pattern", pname, (pdf_dict *)stream_dict, page_dict, (pdf_obj **)&pattern_obj); if (code < 0) { dbgmprintf(ctx->memory, "WARNING: Pattern object not found in resources\n"); goto exit; } code = pdfi_dict_from_obj(ctx, pattern_obj, &pattern_dict); if (code < 0) { /* NOTE: Bug696410.pdf gets a bogus pattern while trying to process pattern. * Seems like a corrupted file, but this prevents crash */ dbgmprintf(ctx->memory, "ERROR: Pattern found in resources is neither a stream or dict\n"); goto exit; } #if DEBUG_PATTERN dbgmprintf1(ctx->memory, "PATTERN: pdfi_setpattern: found pattern object %d\n", pdict->object_num); #endif code = pdfi_dict_get_int(ctx, pattern_dict, "PatternType", &patternType); if (code < 0) goto exit; if (patternType == 1) { code = pdfi_setpattern_type1(ctx, stream_dict, page_dict, (pdf_obj *)pattern_obj, cc); if (code < 0) goto exit; } else if (patternType == 2) { code = pdfi_setpattern_type2(ctx, stream_dict, page_dict, pattern_obj, cc); if (code < 0) goto exit; } else { code = gs_note_error(gs_error_syntaxerror); goto exit; } exit: pdfi_countdown(pattern_obj); if (code < 0) (void)pdfi_loop_detector_cleartomark(ctx); else code = pdfi_loop_detector_cleartomark(ctx); return code; } /* Create a Pattern colorspace. * If ppcs is NULL, then we will set the colorspace * If ppcs not NULL, point the new colorspace to it * * If color_array is NULL, then this is a simple "Pattern" colorspace, e.g. "/Pattern cs". * If it is an array, then first element is "Pattern" and second element should be the base colorspace. * e.g. "/CS1 cs" where /CS1 is a ColorSpace Resource containing "[/Pattern /DeviceRGB]" * */ int pdfi_pattern_create(pdf_context *ctx, pdf_array *color_array, pdf_dict *stream_dict, pdf_dict *page_dict, gs_color_space **ppcs) { gs_color_space *pcs = NULL; gs_color_space *base_space; pdf_obj *base_obj = NULL; int code = 0; /* TODO: should set to "the initial color is a pattern object that causes nothing to be painted." * (see page 288 of PDF 1.7) * Need to make a "nullpattern" (see pdf_ops.c, /nullpattern) */ /* NOTE: See zcolor.c/setpatternspace */ #if DEBUG_PATTERN dbgmprintf(ctx->memory, "PATTERN: pdfi_create_Pattern\n"); #endif // return 0; pcs = gs_cspace_alloc(ctx->memory, &gs_color_space_type_Pattern); if (pcs == NULL) { return_error(gs_error_VMerror); } if (color_array == NULL || pdfi_array_size(color_array) == 1) { pcs->base_space = NULL; pcs->params.pattern.has_base_space = false; } else { #if DEBUG_PATTERN dbgmprintf(ctx->memory, "PATTERN: with base space! pdfi_create_Pattern\n"); #endif code = pdfi_array_get(ctx, color_array, 1, &base_obj); if (code < 0) goto exit; code = pdfi_create_colorspace(ctx, base_obj, stream_dict, page_dict, &base_space, false); if (code < 0) goto exit; pcs->base_space = base_space; pcs->params.pattern.has_base_space = true; } if (ppcs != NULL) { *ppcs = pcs; rc_increment_cs(pcs); } else { code = pdfi_gs_setcolorspace(ctx, pcs); #if 0 /* An attempt to init a "Null" pattern, causes crashes on cluster */ { gs_client_color cc; memset(&cc, 0, sizeof(cc)); code = pdfi_setpattern_null(ctx, &cc); code = gs_setcolor(ctx->pgs, &cc); } #endif } exit: /* release reference from construction */ rc_decrement_only_cs(pcs, "create_Pattern"); pdfi_countdown(base_obj); return code; }