/* * Copyright 2013 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkCanvas.h" #include "SkDevice.h" #include "SkForceLinking.h" #include "SkGraphics.h" #include "SkImageDecoder.h" #include "SkImageEncoder.h" #include "SkOSFile.h" #include "SkPicture.h" #include "SkStream.h" #include "SkTypeface.h" #include "SkTArray.h" #include "SkTDict.h" #include "SkPdfGraphicsState.h" #include "SkPdfNativeTokenizer.h" #include #include #include extern "C" SkPdfContext* gPdfContext; extern "C" SkBitmap* gDumpBitmap; extern "C" SkCanvas* gDumpCanvas; __SK_FORCE_IMAGE_DECODER_LINKING; // TODO(edisonn): tool, show what objects were read at least, show the ones not even read // keep for each object pos in file // plug in for VS? syntax coloring, show selected object ... from the text, or from rendered x,y // TODO(edisonn): security - validate all the user input, all pdf! // TODO(edisonn): put drawtext in #ifdefs, so comparations will ignore minor changes in text positioning and font // this way, we look more at other features and layout in diffs // TODO(edisonn): move trace dump in the get functions, and mapper ones too so it ghappens automatically /* #ifdef PDF_TRACE std::string str; pdfContext->fGraphicsState.fResources->native()->ToString(str); printf("Print Tf Resources: %s\n", str.c_str()); #endif */ #include "SkPdfHeaders_autogen.h" #include "SkPdfMapper_autogen.h" #include "SkPdfRenderer.h" #include "SkPdfUtils.h" #include "SkPdfFont.h" /* * TODO(edisonn): * - all font types and all ppdf font features * - word spacing * - load font for baidu.pdf * - load font for youtube.pdf * - parser for pdf from the definition already available in pdfspec_autogen.py * - all docs from ~/work * - encapsulate native in the pdf api so the skpdf does not know anything about native ... in progress * - load gs/ especially smask and already known prop (skp) ... in progress * - wrapper on classes for customizations? e.g. * SkPdfPageObjectVanila - has only the basic loaders/getters * SkPdfPageObject : public SkPdfPageObjectVanila, extends, and I can add customizations here * need to find a nice object model for all this with constructors and factories * - deal with inheritable automatically ? * - deal with specific type in spec directly, add all dictionary types to known types */ using namespace std; NotOwnedString strings_DeviceRGB; NotOwnedString strings_DeviceCMYK; class StringsInit { public: StringsInit() { NotOwnedString::init(&strings_DeviceRGB, "DeviceRGB"); NotOwnedString::init(&strings_DeviceCMYK, "DeviceCMYK"); } }; StringsInit gStringsInit; // TODO(edisonn): Document PdfTokenLooper and subclasses. class PdfTokenLooper { protected: PdfTokenLooper* fParent; SkPdfNativeTokenizer* fTokenizer; SkPdfContext* fPdfContext; SkCanvas* fCanvas; public: PdfTokenLooper(PdfTokenLooper* parent, SkPdfNativeTokenizer* tokenizer, SkPdfContext* pdfContext, SkCanvas* canvas) : fParent(parent), fTokenizer(tokenizer), fPdfContext(pdfContext), fCanvas(canvas) {} virtual ~PdfTokenLooper() {} virtual SkPdfResult consumeToken(PdfToken& token) = 0; virtual void loop() = 0; void setUp(PdfTokenLooper* parent) { fParent = parent; fTokenizer = parent->fTokenizer; fPdfContext = parent->fPdfContext; fCanvas = parent->fCanvas; } SkPdfNativeTokenizer* tokenizer() { return fTokenizer; } }; class PdfMainLooper : public PdfTokenLooper { public: PdfMainLooper(PdfTokenLooper* parent, SkPdfNativeTokenizer* tokenizer, SkPdfContext* pdfContext, SkCanvas* canvas) : PdfTokenLooper(parent, tokenizer, pdfContext, canvas) {} virtual SkPdfResult consumeToken(PdfToken& token); virtual void loop(); }; class PdfInlineImageLooper : public PdfTokenLooper { public: PdfInlineImageLooper() : PdfTokenLooper(NULL, NULL, NULL, NULL) {} virtual SkPdfResult consumeToken(PdfToken& token); virtual void loop(); SkPdfResult done(); }; class PdfCompatibilitySectionLooper : public PdfTokenLooper { public: PdfCompatibilitySectionLooper() : PdfTokenLooper(NULL, NULL, NULL, NULL) {} virtual SkPdfResult consumeToken(PdfToken& token); virtual void loop(); }; // Utilities static void setup_bitmap(SkBitmap* bitmap, int width, int height, SkColor color = SK_ColorWHITE) { bitmap->setConfig(SkBitmap::kARGB_8888_Config, width, height); bitmap->allocPixels(); bitmap->eraseColor(color); } // TODO(edisonn): synonyms? DeviceRGB and RGB ... static int GetColorSpaceComponents(NotOwnedString& colorSpace) { if (colorSpace.equals("DeviceCMYK")) { return 4; } else if (colorSpace.equals("DeviceGray") || colorSpace.equals("CalGray") || colorSpace.equals("Indexed")) { return 1; } else if (colorSpace.equals("DeviceRGB") || colorSpace.equals("CalRGB") || colorSpace.equals("Lab")) { return 3; } else { return 0; } } SkMatrix SkMatrixFromPdfMatrix(double array[6]) { SkMatrix matrix; matrix.setAll(SkDoubleToScalar(array[0]), SkDoubleToScalar(array[2]), SkDoubleToScalar(array[4]), SkDoubleToScalar(array[1]), SkDoubleToScalar(array[3]), SkDoubleToScalar(array[5]), SkDoubleToScalar(0), SkDoubleToScalar(0), SkDoubleToScalar(1)); return matrix; } SkMatrix SkMatrixFromPdfArray(SkPdfArray* pdfArray) { double array[6]; // TODO(edisonn): security issue, ret if size() != 6 for (int i = 0; i < 6; i++) { const SkPdfNativeObject* elem = pdfArray->operator [](i); if (elem == NULL || !elem->isNumber()) { return SkMatrix::I(); // TODO(edisonn): report issue } array[i] = elem->numberValue(); } return SkMatrixFromPdfMatrix(array); } extern "C" SkPdfNativeDoc* gDoc; SkBitmap* gDumpBitmap = NULL; SkCanvas* gDumpCanvas = NULL; char gLastKeyword[100] = ""; int gLastOpKeyword = -1; char allOpWithVisualEffects[100] = ",S,s,f,F,f*,B,B*,b,b*,n,Tj,TJ,\',\",d0,d1,sh,EI,Do,EX,"; int gReadOp = 0; #ifdef PDF_TRACE_DIFF_IN_PNG static bool hasVisualEffect(const char* pdfOp) { return true; if (*pdfOp == '\0') return false; char markedPdfOp[100] = ","; strcat(markedPdfOp, pdfOp); strcat(markedPdfOp, ","); return (strstr(allOpWithVisualEffects, markedPdfOp) != NULL); } #endif // PDF_TRACE_DIFF_IN_PNG // TODO(edisonn): Pass SkPdfContext and SkCanvasd only with the define for instrumentation. static bool readToken(SkPdfNativeTokenizer* fTokenizer, PdfToken* token) { bool ret = fTokenizer->readToken(token); gReadOp++; gLastOpKeyword++; #ifdef PDF_TRACE_DIFF_IN_PNG // TODO(edisonn): compare with old bitmap, and save only new bits are available, and save // the numbar and name of last operation, so the file name will reflect op that changed. if (gLastKeyword[0] && hasVisualEffect(gLastKeyword)) { // TODO(edisonn): and has dirty bits. gDumpCanvas->flush(); SkBitmap bitmap; setup_bitmap(&bitmap, gDumpBitmap->width(), gDumpBitmap->height()); memcpy(bitmap.getPixels(), gDumpBitmap->getPixels(), gDumpBitmap->getSize()); SkAutoTUnref device(SkNEW_ARGS(SkDevice, (bitmap))); SkCanvas canvas(device); // draw context stuff here SkPaint blueBorder; blueBorder.setColor(SK_ColorBLUE); blueBorder.setStyle(SkPaint::kStroke_Style); blueBorder.setTextSize(SkDoubleToScalar(20)); SkString str; const SkClipStack* clipStack = gDumpCanvas->getClipStack(); if (clipStack) { SkClipStack::Iter iter(*clipStack, SkClipStack::Iter::kBottom_IterStart); const SkClipStack::Element* elem; double y = 0; int total = 0; while ((elem = iter.next()) != NULL) { total++; y += 30; switch (elem->getType()) { case SkClipStack::Element::kRect_Type: canvas.drawRect(elem->getRect(), blueBorder); canvas.drawText("Rect Clip", strlen("Rect Clip"), SkDoubleToScalar(10), SkDoubleToScalar(y), blueBorder); break; case SkClipStack::Element::kPath_Type: canvas.drawPath(elem->getPath(), blueBorder); canvas.drawText("Path Clip", strlen("Path Clip"), SkDoubleToScalar(10), SkDoubleToScalar(y), blueBorder); break; case SkClipStack::Element::kEmpty_Type: canvas.drawText("Empty Clip!!!", strlen("Empty Clip!!!"), SkDoubleToScalar(10), SkDoubleToScalar(y), blueBorder); break; default: canvas.drawText("Unkown Clip!!!", strlen("Unkown Clip!!!"), SkDoubleToScalar(10), SkDoubleToScalar(y), blueBorder); break; } } y += 30; str.printf("Number of clips in stack: %i", total); canvas.drawText(str.c_str(), str.size(), SkDoubleToScalar(10), SkDoubleToScalar(y), blueBorder); } const SkRegion& clipRegion = gDumpCanvas->getTotalClip(); SkPath clipPath; if (clipRegion.getBoundaryPath(&clipPath)) { SkPaint redBorder; redBorder.setColor(SK_ColorRED); redBorder.setStyle(SkPaint::kStroke_Style); canvas.drawPath(clipPath, redBorder); } canvas.flush(); SkString out; // TODO(edisonn): get the image, and overlay on top of it, the clip , grafic state, teh stack, // ... and other properties, to be able to debug th code easily out.appendf("/usr/local/google/home/edisonn/log_view2/step-%i-%s.png", gLastOpKeyword, gLastKeyword); SkImageEncoder::EncodeFile(out.c_str(), bitmap, SkImageEncoder::kPNG_Type, 100); } if (ret && token->fType == kKeyword_TokenType && token->fKeyword && token->fKeywordLength > 0 && token->fKeywordLength < 100) { strncpy(gLastKeyword, token->fKeyword, token->fKeywordLength); gLastKeyword[token->fKeywordLength] = '\0'; } else { gLastKeyword[0] = '\0'; } #endif return ret; } typedef SkPdfResult (*PdfOperatorRenderer)(SkPdfContext*, SkCanvas*, PdfTokenLooper**); SkTDict gPdfOps(100); template class SkTDictWithDefaultConstructor : public SkTDict { public: SkTDictWithDefaultConstructor() : SkTDict(10) {} }; SkTDictWithDefaultConstructor gRenderStats[kCount_SkPdfResult]; const char* gRenderStatsNames[kCount_SkPdfResult] = { "Success", "Partially implemented", "Not yet implemented", "Ignore Error", "Error", "Unsupported/Unknown" }; static SkPdfResult DrawText(SkPdfContext* pdfContext, const SkPdfNativeObject* _str, SkCanvas* canvas) { SkPdfFont* skfont = pdfContext->fGraphicsState.fSkFont; if (skfont == NULL) { skfont = SkPdfFont::Default(); } if (_str == NULL || !_str->isAnyString()) { // TODO(edisonn): report warning return kIgnoreError_SkPdfResult; } const SkPdfString* str = (const SkPdfString*)_str; SkUnencodedText binary(str); SkDecodedText decoded; if (skfont->encoding() == NULL) { // TODO(edisonn): report warning return kNYI_SkPdfResult; } skfont->encoding()->decodeText(binary, &decoded); SkPaint paint; // TODO(edisonn): when should fCurFont->GetFontSize() used? When cur is fCurFontSize == 0? // Or maybe just not call setTextSize at all? if (pdfContext->fGraphicsState.fCurFontSize != 0) { paint.setTextSize(SkDoubleToScalar(pdfContext->fGraphicsState.fCurFontSize)); } // if (fCurFont && fCurFont->GetFontScale() != 0) { // paint.setTextScaleX(SkFloatToScalar(fCurFont->GetFontScale() / 100.0)); // } pdfContext->fGraphicsState.applyGraphicsState(&paint, false); skfont->drawText(decoded, &paint, pdfContext, canvas); return kOK_SkPdfResult; } // TODO(edisonn): create header files with declarations! SkPdfResult PdfOp_q(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper); SkPdfResult PdfOp_Q(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper); SkPdfResult PdfOp_Tw(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper); SkPdfResult PdfOp_Tc(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper); // TODO(edisonn): perf!!! static SkColorTable* getGrayColortable() { static SkColorTable* grayColortable = NULL; if (grayColortable == NULL) { SkPMColor* colors = new SkPMColor[256]; for (int i = 0 ; i < 256; i++) { colors[i] = SkPreMultiplyARGB(255, i, i, i); } grayColortable = new SkColorTable(colors, 256); } return grayColortable; } static SkBitmap* transferImageStreamToBitmap(const unsigned char* uncompressedStream, size_t uncompressedStreamLength, int width, int height, int bytesPerLine, int bpc, const std::string& colorSpace, bool transparencyMask) { SkBitmap* bitmap = new SkBitmap(); //int components = GetColorSpaceComponents(colorSpace); //#define MAX_COMPONENTS 10 // TODO(edisonn): assume start of lines are aligned at 32 bits? // Is there a faster way to load the uncompressed stream into a bitmap? // minimal support for now if ((colorSpace == "DeviceRGB" || colorSpace == "RGB") && bpc == 8) { SkColor* uncompressedStreamArgb = (SkColor*)malloc(width * height * sizeof(SkColor)); for (int h = 0 ; h < height; h++) { long i = width * (h); for (int w = 0 ; w < width; w++) { uncompressedStreamArgb[i] = SkColorSetRGB(uncompressedStream[3 * w], uncompressedStream[3 * w + 1], uncompressedStream[3 * w + 2]); i++; } uncompressedStream += bytesPerLine; } bitmap->setConfig(SkBitmap::kARGB_8888_Config, width, height); bitmap->setPixels(uncompressedStreamArgb); } else if ((colorSpace == "DeviceGray" || colorSpace == "Gray") && bpc == 8) { unsigned char* uncompressedStreamA8 = (unsigned char*)malloc(width * height); for (int h = 0 ; h < height; h++) { long i = width * (h); for (int w = 0 ; w < width; w++) { uncompressedStreamA8[i] = transparencyMask ? 255 - uncompressedStream[w] : uncompressedStream[w]; i++; } uncompressedStream += bytesPerLine; } bitmap->setConfig(transparencyMask ? SkBitmap::kA8_Config : SkBitmap::kIndex8_Config, width, height); bitmap->setPixels(uncompressedStreamA8, transparencyMask ? NULL : getGrayColortable()); } // TODO(edisonn): Report Warning, NYI, or error return bitmap; } // utils // TODO(edisonn): add cache, or put the bitmap property directly on the PdfObject // TODO(edisonn): deal with colorSpaces, we could add them to SkBitmap::Config // TODO(edisonn): preserve A1 format that skia knows, + fast convert from 111, 222, 444 to closest // skia format, through a table // this functions returns the image, it does not look at the smask. static SkBitmap* getImageFromObjectCore(SkPdfContext* pdfContext, SkPdfImageDictionary* image, bool transparencyMask) { if (image == NULL || !image->hasStream()) { // TODO(edisonn): report warning to be used in testing. return NULL; } int bpc = (int)image->BitsPerComponent(pdfContext->fPdfDoc); int width = (int)image->Width(pdfContext->fPdfDoc); int height = (int)image->Height(pdfContext->fPdfDoc); std::string colorSpace = "DeviceRGB"; bool indexed = false; SkPMColor colors[256]; int cnt = 0; // TODO(edisonn): color space can be an array too! if (image->isColorSpaceAName(pdfContext->fPdfDoc)) { colorSpace = image->getColorSpaceAsName(pdfContext->fPdfDoc); } else if (image->isColorSpaceAArray(pdfContext->fPdfDoc)) { SkPdfArray* array = image->getColorSpaceAsArray(pdfContext->fPdfDoc); if (array && array->size() == 4 && array->objAtAIndex(0)->isName("Indexed") && (array->objAtAIndex(1)->isName("DeviceRGB") || array->objAtAIndex(1)->isName("RGB")) && array->objAtAIndex(2)->isInteger() && array->objAtAIndex(3)->isHexString() ) { // TODO(edisonn): suport only DeviceRGB for now. indexed = true; cnt = (int)array->objAtAIndex(2)->intValue() + 1; if (cnt > 256) { // TODO(edionn): report NYIs return NULL; } SkColorTable colorTable(cnt); NotOwnedString data = array->objAtAIndex(3)->strRef(); if (data.fBytes != (unsigned int)cnt * 3) { // TODO(edionn): report error/warning return NULL; } for (int i = 0 ; i < cnt; i++) { colors[i] = SkPreMultiplyARGB(0xff, data.fBuffer[3 * i], data.fBuffer[3 * i + 1], data.fBuffer[3 * i + 2]); } } } /* bool imageMask = image->imageMask(); if (imageMask) { if (bpc != 0 && bpc != 1) { // TODO(edisonn): report warning to be used in testing. return SkBitmap(); } bpc = 1; } */ const unsigned char* uncompressedStream = NULL; size_t uncompressedStreamLength = 0; SkPdfStream* stream = (SkPdfStream*)image; if (!stream || !stream->GetFilteredStreamRef(&uncompressedStream, &uncompressedStreamLength) || uncompressedStream == NULL || uncompressedStreamLength == 0) { // TODO(edisonn): report warning to be used in testing. return NULL; } SkPdfStreamCommonDictionary* streamDict = (SkPdfStreamCommonDictionary*)stream; if (streamDict->has_Filter() && ((streamDict->isFilterAName(NULL) && streamDict->getFilterAsName(NULL) == "DCTDecode") || (streamDict->isFilterAArray(NULL) && streamDict->getFilterAsArray(NULL)->size() > 0 && streamDict->getFilterAsArray(NULL)->objAtAIndex(0)->isName() && streamDict->getFilterAsArray(NULL)->objAtAIndex(0)->nameValue2() == "DCTDecode"))) { SkBitmap* bitmap = new SkBitmap(); SkImageDecoder::DecodeMemory(uncompressedStream, uncompressedStreamLength, bitmap); return bitmap; } // TODO (edisonn): Fast Jpeg(DCTDecode) draw, or fast PNG(FlateDecode) draw ... // PdfObject* value = resolveReferenceObject(pdfContext->fPdfDoc, // obj.GetDictionary().GetKey(PdfName("Filter"))); // if (value && value->IsArray() && value->GetArray().GetSize() == 1) { // value = resolveReferenceObject(pdfContext->fPdfDoc, // &value->GetArray()[0]); // } // if (value && value->IsName() && value->GetName().GetName() == "DCTDecode") { // SkStream stream = SkStream:: // SkImageDecoder::Factory() // } // TODO(edisonn): assumes RGB for now, since it is the only onwe implemented if (indexed) { SkBitmap* bitmap = new SkBitmap(); bitmap->setConfig(SkBitmap::kIndex8_Config, width, height); SkColorTable* colorTable = new SkColorTable(colors, cnt); bitmap->setPixels((void*)uncompressedStream, colorTable); return bitmap; } int bytesPerLine = (int)(uncompressedStreamLength / height); #ifdef PDF_TRACE if (uncompressedStreamLength % height != 0) { printf("Warning uncompressedStreamLength modulo height != 0 !!!\n"); } #endif SkBitmap* bitmap = transferImageStreamToBitmap( (unsigned char*)uncompressedStream, uncompressedStreamLength, (int)width, (int)height, bytesPerLine, (int)bpc, colorSpace, transparencyMask); return bitmap; } static SkBitmap* getImageFromObject(SkPdfContext* pdfContext, SkPdfImageDictionary* image, bool transparencyMask) { if (!transparencyMask) { if (!image->hasData(SkPdfNativeObject::kBitmap_Data)) { SkBitmap* bitmap = getImageFromObjectCore(pdfContext, image, transparencyMask); image->setData(bitmap, SkPdfNativeObject::kBitmap_Data); } return (SkBitmap*) image->data(SkPdfNativeObject::kBitmap_Data); } else { return getImageFromObjectCore(pdfContext, image, transparencyMask); } } static SkBitmap* getSmaskFromObject(SkPdfContext* pdfContext, SkPdfImageDictionary* obj) { SkPdfImageDictionary* sMask = obj->SMask(pdfContext->fPdfDoc); if (sMask) { return getImageFromObject(pdfContext, sMask, true); } // TODO(edisonn): implement GS SMask. Default to empty right now. return pdfContext->fGraphicsState.fSMask; } static SkPdfResult doXObject_Image(SkPdfContext* pdfContext, SkCanvas* canvas, SkPdfImageDictionary* skpdfimage) { if (skpdfimage == NULL) { return kIgnoreError_SkPdfResult; } SkBitmap* image = getImageFromObject(pdfContext, skpdfimage, false); SkBitmap* sMask = getSmaskFromObject(pdfContext, skpdfimage); canvas->save(); canvas->setMatrix(pdfContext->fGraphicsState.fCTM); SkScalar z = SkIntToScalar(0); SkScalar one = SkIntToScalar(1); SkPoint from[4] = {SkPoint::Make(z, z), SkPoint::Make(one, z), SkPoint::Make(one, one), SkPoint::Make(z, one)}; SkPoint to[4] = {SkPoint::Make(z, one), SkPoint::Make(one, one), SkPoint::Make(one, z), SkPoint::Make(z, z)}; SkMatrix flip; SkAssertResult(flip.setPolyToPoly(from, to, 4)); SkMatrix solveImageFlip = pdfContext->fGraphicsState.fCTM; solveImageFlip.preConcat(flip); canvas->setMatrix(solveImageFlip); #ifdef PDF_TRACE SkPoint final[4] = {SkPoint::Make(z, z), SkPoint::Make(one, z), SkPoint::Make(one, one), SkPoint::Make(z, one)}; solveImageFlip.mapPoints(final, 4); printf("IMAGE rect = "); for (int i = 0; i < 4; i++) { printf("(%f %f) ", SkScalarToDouble(final[i].x()), SkScalarToDouble(final[i].y())); } printf("\n"); #endif // PDF_TRACE SkRect dst = SkRect::MakeXYWH(SkDoubleToScalar(0.0), SkDoubleToScalar(0.0), SkDoubleToScalar(1.0), SkDoubleToScalar(1.0)); // TODO(edisonn): soft mask type? alpha/luminosity. SkPaint paint; pdfContext->fGraphicsState.applyGraphicsState(&paint, false); if (!sMask || sMask->empty()) { canvas->drawBitmapRect(*image, dst, &paint); } else { canvas->saveLayer(&dst, &paint); canvas->drawBitmapRect(*image, dst, NULL); SkPaint xfer; // TODO(edisonn): is the blend mode specified already implicitly/explicitly in pdf? xfer.setXfermodeMode(SkXfermode::kSrcOut_Mode); // SkXfermode::kSdtOut_Mode canvas->drawBitmapRect(*sMask, dst, &xfer); canvas->restore(); } canvas->restore(); return kPartial_SkPdfResult; } //TODO(edisonn): options for implementing isolation and knockout // 1) emulate them (current solution) // PRO: simple // CON: will need to use readPixels, which means serious perf issues // 2) Compile a plan for an array of matrixes, compose the result at the end // PRO: might be faster then 1, no need to readPixels // CON: multiple drawings (but on smaller areas), pay a price at loading pdf to compute a pdf draw plan // on average, a load with empty draw is 100ms on all the skps we have, for complete sites // 3) support them natively in SkCanvas // PRO: simple // CON: we would still need to use a form of readPixels anyway, so perf might be the same as 1) // 4) compile a plan using pathops, and render once without any fancy rules with backdrop // PRO: simple, fast // CON: pathops must be bug free first + time to compute new paths // pay a price at loading pdf to compute a pdf draw plan // on average, a load with empty draw is 100ms on all the skps we have, for complete sites // 5) for knockout, render the objects in reverse order, and add every object to the clip, and any new draw will be cliped // TODO(edisonn): draw plan from point! - list of draw ops of a point, like a tree! // TODO(edisonn): Minimal PDF to draw some points - remove everything that it is not needed, save pdf uncompressed static void doGroup_before(SkPdfContext* pdfContext, SkCanvas* canvas, SkRect bbox, SkPdfTransparencyGroupDictionary* tgroup, bool page) { SkRect bboxOrig = bbox; SkBitmap backdrop; bool isolatedGroup = tgroup->I(pdfContext->fPdfDoc); // bool knockoutGroup = tgroup->K(pdfContext->fPdfDoc); SkPaint paint; pdfContext->fGraphicsState.applyGraphicsState(&paint, false); canvas->saveLayer(&bboxOrig, isolatedGroup ? &paint : NULL); } // TODO(edisonn): non isolation implemented in skia //static void doGroup_after(SkPdfContext* pdfContext, SkCanvas* canvas, SkRect bbox, SkPdfTransparencyGroupDictionary* tgroup) { // if not isolated // canvas->drawBitmapRect(backdrop, bboxOrig, NULL); //} static SkPdfResult doXObject_Form(SkPdfContext* pdfContext, SkCanvas* canvas, SkPdfType1FormDictionary* skobj) { if (!skobj || !skobj->hasStream()) { return kIgnoreError_SkPdfResult; } if (!skobj->has_BBox()) { return kIgnoreError_SkPdfResult; } PdfOp_q(pdfContext, canvas, NULL); if (skobj->Resources(pdfContext->fPdfDoc)) { pdfContext->fGraphicsState.fResources = skobj->Resources(pdfContext->fPdfDoc); } SkTraceMatrix(pdfContext->fGraphicsState.fCTM, "Current matrix"); if (skobj->has_Matrix()) { pdfContext->fGraphicsState.fCTM.preConcat(skobj->Matrix(pdfContext->fPdfDoc)); SkMatrix matrix = pdfContext->fGraphicsState.fCTM; matrix.preScale(SkDoubleToScalar(1), SkDoubleToScalar(-1)); pdfContext->fGraphicsState.fMatrixTm = matrix; pdfContext->fGraphicsState.fMatrixTlm = matrix; // TODO(edisonn) reset matrixTm and matricTlm also? } SkTraceMatrix(pdfContext->fGraphicsState.fCTM, "Total matrix"); pdfContext->fGraphicsState.fContentStreamMatrix = pdfContext->fGraphicsState.fCTM; canvas->setMatrix(pdfContext->fGraphicsState.fCTM); SkRect bbox = skobj->BBox(pdfContext->fPdfDoc); canvas->clipRect(bbox, SkRegion::kIntersect_Op, true); // TODO(edisonn): AA from settings. // TODO(edisonn): iterate smart on the stream even if it is compressed, tokenize it as we go. // For this PdfContentsTokenizer needs to be extended. // This is a group? if (skobj->has_Group()) { SkPdfTransparencyGroupDictionary* tgroup = skobj->Group(pdfContext->fPdfDoc); doGroup_before(pdfContext, canvas, bbox, tgroup, false); } SkPdfStream* stream = (SkPdfStream*)skobj; SkPdfNativeTokenizer* tokenizer = pdfContext->fPdfDoc->tokenizerOfStream(stream, pdfContext->fTmpPageAllocator); if (tokenizer != NULL) { PdfMainLooper looper(NULL, tokenizer, pdfContext, canvas); looper.loop(); delete tokenizer; } // TODO(edisonn): should we restore the variable stack at the same state? // There could be operands left, that could be consumed by a parent tokenizer when we pop. if (skobj->has_Group()) { canvas->restore(); } PdfOp_Q(pdfContext, canvas, NULL); return kPartial_SkPdfResult; } // TODO(edisonn): Extract a class like ObjWithStream static SkPdfResult doXObject_Pattern(SkPdfContext* pdfContext, SkCanvas* canvas, SkPdfType1PatternDictionary* skobj) { if (!skobj || !skobj->hasStream()) { return kIgnoreError_SkPdfResult; } if (!skobj->has_BBox()) { return kIgnoreError_SkPdfResult; } PdfOp_q(pdfContext, canvas, NULL); if (skobj->Resources(pdfContext->fPdfDoc)) { pdfContext->fGraphicsState.fResources = skobj->Resources(pdfContext->fPdfDoc); } SkTraceMatrix(pdfContext->fGraphicsState.fContentStreamMatrix, "Current Content stream matrix"); if (skobj->has_Matrix()) { pdfContext->fGraphicsState.fContentStreamMatrix.preConcat(skobj->Matrix(pdfContext->fPdfDoc)); } SkTraceMatrix(pdfContext->fGraphicsState.fContentStreamMatrix, "Total Content stream matrix"); canvas->setMatrix(pdfContext->fGraphicsState.fContentStreamMatrix); pdfContext->fGraphicsState.fCTM = pdfContext->fGraphicsState.fContentStreamMatrix; SkRect bbox = skobj->BBox(pdfContext->fPdfDoc); canvas->clipRect(bbox, SkRegion::kIntersect_Op, true); // TODO(edisonn): AA from settings. // TODO(edisonn): iterate smart on the stream even if it is compressed, tokenize it as we go. // For this PdfContentsTokenizer needs to be extended. SkPdfStream* stream = (SkPdfStream*)skobj; SkPdfNativeTokenizer* tokenizer = pdfContext->fPdfDoc->tokenizerOfStream(stream, pdfContext->fTmpPageAllocator); if (tokenizer != NULL) { PdfMainLooper looper(NULL, tokenizer, pdfContext, canvas); looper.loop(); delete tokenizer; } // TODO(edisonn): should we restore the variable stack at the same state? // There could be operands left, that could be consumed by a parent tokenizer when we pop. PdfOp_Q(pdfContext, canvas, NULL); return kPartial_SkPdfResult; } //static SkPdfResult doXObject_PS(SkPdfContext* pdfContext, SkCanvas* canvas, const SkPdfNativeObject* obj) { // return kNYI_SkPdfResult; //} SkPdfResult doType3Char(SkPdfContext* pdfContext, SkCanvas* canvas, const SkPdfNativeObject* skobj, SkRect bBox, SkMatrix matrix, double textSize) { if (!skobj || !skobj->hasStream()) { return kIgnoreError_SkPdfResult; } PdfOp_q(pdfContext, canvas, NULL); pdfContext->fGraphicsState.fMatrixTm.preConcat(matrix); pdfContext->fGraphicsState.fMatrixTm.preScale(SkDoubleToScalar(textSize), SkDoubleToScalar(textSize)); pdfContext->fGraphicsState.fMatrixTlm = pdfContext->fGraphicsState.fMatrixTm; pdfContext->fGraphicsState.fCTM = pdfContext->fGraphicsState.fMatrixTm; pdfContext->fGraphicsState.fCTM.preScale(SkDoubleToScalar(1), SkDoubleToScalar(-1)); SkTraceMatrix(pdfContext->fGraphicsState.fCTM, "Total matrix"); canvas->setMatrix(pdfContext->fGraphicsState.fCTM); SkRect rm = bBox; pdfContext->fGraphicsState.fCTM.mapRect(&rm); SkTraceRect(rm, "bbox mapped"); canvas->clipRect(bBox, SkRegion::kIntersect_Op, true); // TODO(edisonn): AA from settings. // TODO(edisonn): iterate smart on the stream even if it is compressed, tokenize it as we go. // For this PdfContentsTokenizer needs to be extended. SkPdfStream* stream = (SkPdfStream*)skobj; SkPdfNativeTokenizer* tokenizer = pdfContext->fPdfDoc->tokenizerOfStream(stream, pdfContext->fTmpPageAllocator); if (tokenizer != NULL) { PdfMainLooper looper(NULL, tokenizer, pdfContext, canvas); looper.loop(); delete tokenizer; } // TODO(edisonn): should we restore the variable stack at the same state? // There could be operands left, that could be consumed by a parent tokenizer when we pop. PdfOp_Q(pdfContext, canvas, NULL); return kPartial_SkPdfResult; } // TODO(edisonn): make sure the pointer is unique std::set gInRendering; class CheckRecursiveRendering { const SkPdfNativeObject* fUniqueData; public: CheckRecursiveRendering(const SkPdfNativeObject* obj) : fUniqueData(obj) { gInRendering.insert(obj); } ~CheckRecursiveRendering() { //SkASSERT(fObj.fInRendering); gInRendering.erase(fUniqueData); } static bool IsInRendering(const SkPdfNativeObject* obj) { return gInRendering.find(obj) != gInRendering.end(); } }; static SkPdfResult doXObject(SkPdfContext* pdfContext, SkCanvas* canvas, const SkPdfNativeObject* obj) { if (CheckRecursiveRendering::IsInRendering(obj)) { // Oops, corrupt PDF! return kIgnoreError_SkPdfResult; } CheckRecursiveRendering checkRecursion(obj); switch (pdfContext->fPdfDoc->mapper()->mapXObjectDictionary(obj)) { case kImageDictionary_SkPdfNativeObjectType: return doXObject_Image(pdfContext, canvas, (SkPdfImageDictionary*)obj); case kType1FormDictionary_SkPdfNativeObjectType: return doXObject_Form(pdfContext, canvas, (SkPdfType1FormDictionary*)obj); //case kObjectDictionaryXObjectPS_SkPdfNativeObjectType: //return doXObject_PS(skxobj.asPS()); default: { if (pdfContext->fPdfDoc->mapper()->mapType1PatternDictionary(obj) != kNone_SkPdfNativeObjectType) { SkPdfType1PatternDictionary* pattern = (SkPdfType1PatternDictionary*)obj; return doXObject_Pattern(pdfContext, canvas, pattern); } } } return kIgnoreError_SkPdfResult; } static SkPdfResult doPage(SkPdfContext* pdfContext, SkCanvas* canvas, SkPdfPageObjectDictionary* skobj) { if (!skobj) { return kIgnoreError_SkPdfResult; } if (!skobj->isContentsAStream(pdfContext->fPdfDoc)) { return kNYI_SkPdfResult; } SkPdfStream* stream = skobj->getContentsAsStream(pdfContext->fPdfDoc); if (!stream) { return kIgnoreError_SkPdfResult; } if (CheckRecursiveRendering::IsInRendering(skobj)) { // Oops, corrupt PDF! return kIgnoreError_SkPdfResult; } CheckRecursiveRendering checkRecursion(skobj); PdfOp_q(pdfContext, canvas, NULL); if (skobj->Resources(pdfContext->fPdfDoc)) { pdfContext->fGraphicsState.fResources = skobj->Resources(pdfContext->fPdfDoc); } // TODO(edisonn): MediaBox can be inherited!!!! SkRect bbox = skobj->MediaBox(pdfContext->fPdfDoc); if (skobj->has_Group()) { SkPdfTransparencyGroupDictionary* tgroup = skobj->Group(pdfContext->fPdfDoc); doGroup_before(pdfContext, canvas, bbox, tgroup, true); } else { canvas->save(); } SkPdfNativeTokenizer* tokenizer = pdfContext->fPdfDoc->tokenizerOfStream(stream, pdfContext->fTmpPageAllocator); if (tokenizer != NULL) { PdfMainLooper looper(NULL, tokenizer, pdfContext, canvas); looper.loop(); delete tokenizer; } // TODO(edisonn): should we restore the variable stack at the same state? // There could be operands left, that could be consumed by a parent tokenizer when we pop. canvas->restore(); PdfOp_Q(pdfContext, canvas, NULL); return kPartial_SkPdfResult; } SkPdfResult PdfOp_q(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fStateStack.push(pdfContext->fGraphicsState); canvas->save(); return kOK_SkPdfResult; } SkPdfResult PdfOp_Q(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fGraphicsState = pdfContext->fStateStack.top(); pdfContext->fStateStack.pop(); canvas->restore(); return kOK_SkPdfResult; } static SkPdfResult PdfOp_cm(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { double array[6]; for (int i = 0 ; i < 6 ; i++) { array[5 - i] = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); } // a b // c d // e f // 0 1 // 2 3 // 4 5 // sx ky // kx sy // tx ty SkMatrix matrix = SkMatrixFromPdfMatrix(array); pdfContext->fGraphicsState.fCTM.preConcat(matrix); #ifdef PDF_TRACE printf("cm "); for (int i = 0 ; i < 6 ; i++) { printf("%f ", array[i]); } printf("\n"); SkTraceMatrix(pdfContext->fGraphicsState.fCTM, "cm"); #endif return kOK_SkPdfResult; } //leading TL Set the text leading, Tl //, to leading, which is a number expressed in unscaled text //space units. Text leading is used only by the T*, ', and " operators. Initial value: 0. static SkPdfResult PdfOp_TL(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { double ty = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); pdfContext->fGraphicsState.fTextLeading = ty; return kOK_SkPdfResult; } static SkPdfResult PdfOp_Td(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { #ifdef PDF_TRACE printf("stack size = %i\n", (int)pdfContext->fObjectStack.size()); #endif double ty = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double tx = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double array[6] = {1, 0, 0, 1, tx, -ty}; SkMatrix matrix = SkMatrixFromPdfMatrix(array); pdfContext->fGraphicsState.fMatrixTm.preConcat(matrix); pdfContext->fGraphicsState.fMatrixTlm.preConcat(matrix); return kPartial_SkPdfResult; } static SkPdfResult PdfOp_TD(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { double ty = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double tx = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); // TODO(edisonn): Create factory methods or constructors so native is hidden SkPdfReal* _ty = pdfContext->fPdfDoc->createReal(-ty); pdfContext->fObjectStack.push(_ty); PdfOp_TL(pdfContext, canvas, looper); SkPdfReal* vtx = pdfContext->fPdfDoc->createReal(tx); pdfContext->fObjectStack.push(vtx); SkPdfReal* vty = pdfContext->fPdfDoc->createReal(ty); pdfContext->fObjectStack.push(vty); SkPdfResult ret = PdfOp_Td(pdfContext, canvas, looper); // TODO(edisonn): delete all the objects after rendering was complete, in this way pdf is rendered faster // and the cleanup can happen while the user looks at the image return ret; } static SkPdfResult PdfOp_Tm(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { double f = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double e = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double d = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double c = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double b = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double a = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double array[6]; array[0] = a; array[1] = b; array[2] = c; array[3] = d; array[4] = e; array[5] = f; SkMatrix matrix = SkMatrixFromPdfMatrix(array); matrix.postConcat(pdfContext->fGraphicsState.fCTM); matrix.preScale(SkDoubleToScalar(1), SkDoubleToScalar(-1)); // TODO(edisonn): Text positioning. pdfContext->fGraphicsState.fMatrixTm = matrix; pdfContext->fGraphicsState.fMatrixTlm = matrix;; return kPartial_SkPdfResult; } //— T* Move to the start of the next line. This operator has the same effect as the code //0 Tl Td //where Tl is the current leading parameter in the text state static SkPdfResult PdfOp_T_star(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { SkPdfReal* zero = pdfContext->fPdfDoc->createReal(0.0); SkPdfReal* tl = pdfContext->fPdfDoc->createReal(pdfContext->fGraphicsState.fTextLeading); pdfContext->fObjectStack.push(zero); pdfContext->fObjectStack.push(tl); SkPdfResult ret = PdfOp_Td(pdfContext, canvas, looper); return ret; } static SkPdfResult PdfOp_m(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { if (pdfContext->fGraphicsState.fPathClosed) { pdfContext->fGraphicsState.fPath.reset(); pdfContext->fGraphicsState.fPathClosed = false; } pdfContext->fGraphicsState.fCurPosY = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); pdfContext->fGraphicsState.fCurPosX = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); pdfContext->fGraphicsState.fPath.moveTo(SkDoubleToScalar(pdfContext->fGraphicsState.fCurPosX), SkDoubleToScalar(pdfContext->fGraphicsState.fCurPosY)); return kOK_SkPdfResult; } static SkPdfResult PdfOp_l(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { if (pdfContext->fGraphicsState.fPathClosed) { pdfContext->fGraphicsState.fPath.reset(); pdfContext->fGraphicsState.fPathClosed = false; } pdfContext->fGraphicsState.fCurPosY = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); pdfContext->fGraphicsState.fCurPosX = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); pdfContext->fGraphicsState.fPath.lineTo(SkDoubleToScalar(pdfContext->fGraphicsState.fCurPosX), SkDoubleToScalar(pdfContext->fGraphicsState.fCurPosY)); return kOK_SkPdfResult; } static SkPdfResult PdfOp_c(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { if (pdfContext->fGraphicsState.fPathClosed) { pdfContext->fGraphicsState.fPath.reset(); pdfContext->fGraphicsState.fPathClosed = false; } double y3 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double x3 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double y2 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double x2 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double y1 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double x1 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); pdfContext->fGraphicsState.fPath.cubicTo(SkDoubleToScalar(x1), SkDoubleToScalar(y1), SkDoubleToScalar(x2), SkDoubleToScalar(y2), SkDoubleToScalar(x3), SkDoubleToScalar(y3)); pdfContext->fGraphicsState.fCurPosX = x3; pdfContext->fGraphicsState.fCurPosY = y3; return kOK_SkPdfResult; } static SkPdfResult PdfOp_v(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { if (pdfContext->fGraphicsState.fPathClosed) { pdfContext->fGraphicsState.fPath.reset(); pdfContext->fGraphicsState.fPathClosed = false; } double y3 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double x3 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double y2 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double x2 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double y1 = pdfContext->fGraphicsState.fCurPosY; double x1 = pdfContext->fGraphicsState.fCurPosX; pdfContext->fGraphicsState.fPath.cubicTo(SkDoubleToScalar(x1), SkDoubleToScalar(y1), SkDoubleToScalar(x2), SkDoubleToScalar(y2), SkDoubleToScalar(x3), SkDoubleToScalar(y3)); pdfContext->fGraphicsState.fCurPosX = x3; pdfContext->fGraphicsState.fCurPosY = y3; return kOK_SkPdfResult; } static SkPdfResult PdfOp_y(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { if (pdfContext->fGraphicsState.fPathClosed) { pdfContext->fGraphicsState.fPath.reset(); pdfContext->fGraphicsState.fPathClosed = false; } double y3 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double x3 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double y2 = pdfContext->fGraphicsState.fCurPosY; double x2 = pdfContext->fGraphicsState.fCurPosX; double y1 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double x1 = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); pdfContext->fGraphicsState.fPath.cubicTo(SkDoubleToScalar(x1), SkDoubleToScalar(y1), SkDoubleToScalar(x2), SkDoubleToScalar(y2), SkDoubleToScalar(x3), SkDoubleToScalar(y3)); pdfContext->fGraphicsState.fCurPosX = x3; pdfContext->fGraphicsState.fCurPosY = y3; return kOK_SkPdfResult; } static SkPdfResult PdfOp_re(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { if (pdfContext->fGraphicsState.fPathClosed) { pdfContext->fGraphicsState.fPath.reset(); pdfContext->fGraphicsState.fPathClosed = false; } double height = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double width = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double y = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double x = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); pdfContext->fGraphicsState.fPath.addRect(SkDoubleToScalar(x), SkDoubleToScalar(y), SkDoubleToScalar(x + width), SkDoubleToScalar(y + height)); pdfContext->fGraphicsState.fCurPosX = x; pdfContext->fGraphicsState.fCurPosY = y + height; return kOK_SkPdfResult; } static SkPdfResult PdfOp_h(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fGraphicsState.fPath.close(); return kOK_SkPdfResult; } static SkPdfResult PdfOp_fillAndStroke(SkPdfContext* pdfContext, SkCanvas* canvas, bool fill, bool stroke, bool close, bool evenOdd) { SkPath path = pdfContext->fGraphicsState.fPath; if (close) { path.close(); } canvas->setMatrix(pdfContext->fGraphicsState.fCTM); SkPaint paint; SkPoint line[2]; if (fill && !stroke && path.isLine(line)) { paint.setStyle(SkPaint::kStroke_Style); // TODO(edisonn): implement this with patterns pdfContext->fGraphicsState.applyGraphicsState(&paint, false); paint.setStrokeWidth(SkDoubleToScalar(0)); canvas->drawPath(path, paint); } else { if (fill) { if (strncmp((char*)pdfContext->fGraphicsState.fNonStroking.fColorSpace.fBuffer, "Pattern", strlen("Pattern")) == 0 && pdfContext->fGraphicsState.fNonStroking.fPattern != NULL) { // TODO(edisonn): we can use a shader here, like imageshader to draw fast. ultimately, // if this is not possible, and we are in rasper mode, and the cells don't intersect, we could even have multiple cpus. PdfOp_q(pdfContext, canvas, NULL); if (evenOdd) { path.setFillType(SkPath::kEvenOdd_FillType); } canvas->clipPath(path); if (pdfContext->fPdfDoc->mapper()->mapType1PatternDictionary(pdfContext->fGraphicsState.fNonStroking.fPattern) != kNone_SkPdfNativeObjectType) { SkPdfType1PatternDictionary* pattern = (SkPdfType1PatternDictionary*)pdfContext->fGraphicsState.fNonStroking.fPattern; // TODO(edisonn): constants // TODO(edisonn): colored if (pattern->PaintType(pdfContext->fPdfDoc) == 1) { // TODO(edisonn): don't use abs, iterate as asked, if the cells intersect // it will change the result iterating in reverse int xStep = abs((int)pattern->XStep(pdfContext->fPdfDoc)); int yStep = abs((int)pattern->YStep(pdfContext->fPdfDoc)); SkRect bounds = path.getBounds(); // TODO(edisonn): xstep and ystep can be negative, and we need to iterate in reverse // TODO(edisonn): don't do that! bounds.sort(); SkScalar x; SkScalar y; y = bounds.top(); int totalx = 0; int totaly = 0; while (y < bounds.bottom()) { x = bounds.left(); totalx = 0; while (x < bounds.right()) { doXObject(pdfContext, canvas, pattern); pdfContext->fGraphicsState.fContentStreamMatrix.preTranslate(SkIntToScalar(xStep), SkIntToScalar(0)); totalx += xStep; x += SkIntToScalar(xStep); } pdfContext->fGraphicsState.fContentStreamMatrix.preTranslate(SkIntToScalar(-totalx), SkIntToScalar(0)); pdfContext->fGraphicsState.fContentStreamMatrix.preTranslate(SkIntToScalar(0), SkIntToScalar(-yStep)); totaly += yStep; y += SkIntToScalar(yStep); } pdfContext->fGraphicsState.fContentStreamMatrix.preTranslate(SkIntToScalar(0), SkIntToScalar(totaly)); } } // apply matrix // get xstep, y step, bbox ... for cliping, and bos of the path PdfOp_Q(pdfContext, canvas, NULL); } else { paint.setStyle(SkPaint::kFill_Style); if (evenOdd) { path.setFillType(SkPath::kEvenOdd_FillType); } pdfContext->fGraphicsState.applyGraphicsState(&paint, false); canvas->drawPath(path, paint); } } if (stroke) { if (false && strncmp((char*)pdfContext->fGraphicsState.fNonStroking.fColorSpace.fBuffer, "Pattern", strlen("Pattern")) == 0) { // TODO(edisonn): implement Pattern for strokes paint.setStyle(SkPaint::kStroke_Style); paint.setColor(SK_ColorGREEN); path.setFillType(SkPath::kWinding_FillType); // reset it, just in case it messes up the stroke canvas->drawPath(path, paint); } else { paint.setStyle(SkPaint::kStroke_Style); pdfContext->fGraphicsState.applyGraphicsState(&paint, true); path.setFillType(SkPath::kWinding_FillType); // reset it, just in case it messes up the stroke canvas->drawPath(path, paint); } } } pdfContext->fGraphicsState.fPath.reset(); // todo zoom ... other stuff ? if (pdfContext->fGraphicsState.fHasClipPathToApply) { #ifndef PDF_DEBUG_NO_CLIPING canvas->clipPath(pdfContext->fGraphicsState.fClipPath, SkRegion::kIntersect_Op, true); #endif } //pdfContext->fGraphicsState.fClipPath.reset(); pdfContext->fGraphicsState.fHasClipPathToApply = false; return kOK_SkPdfResult; } static SkPdfResult PdfOp_S(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_fillAndStroke(pdfContext, canvas, false, true, false, false); } static SkPdfResult PdfOp_s(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_fillAndStroke(pdfContext, canvas, false, true, true, false); } static SkPdfResult PdfOp_F(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_fillAndStroke(pdfContext, canvas, true, false, false, false); } static SkPdfResult PdfOp_f(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_fillAndStroke(pdfContext, canvas, true, false, false, false); } static SkPdfResult PdfOp_f_star(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_fillAndStroke(pdfContext, canvas, true, false, false, true); } static SkPdfResult PdfOp_B(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_fillAndStroke(pdfContext, canvas, true, true, false, false); } static SkPdfResult PdfOp_B_star(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_fillAndStroke(pdfContext, canvas, true, true, false, true); } static SkPdfResult PdfOp_b(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_fillAndStroke(pdfContext, canvas, true, true, true, false); } static SkPdfResult PdfOp_b_star(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_fillAndStroke(pdfContext, canvas, true, true, true, true); } static SkPdfResult PdfOp_n(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { canvas->setMatrix(pdfContext->fGraphicsState.fCTM); if (pdfContext->fGraphicsState.fHasClipPathToApply) { #ifndef PDF_DEBUG_NO_CLIPING canvas->clipPath(pdfContext->fGraphicsState.fClipPath, SkRegion::kIntersect_Op, true); #endif } //pdfContext->fGraphicsState.fClipPath.reset(); pdfContext->fGraphicsState.fHasClipPathToApply = false; pdfContext->fGraphicsState.fPathClosed = true; return kOK_SkPdfResult; } static SkPdfResult PdfOp_BT(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fGraphicsState.fTextBlock = true; SkMatrix matrix = pdfContext->fGraphicsState.fCTM; matrix.preScale(SkDoubleToScalar(1), SkDoubleToScalar(-1)); pdfContext->fGraphicsState.fMatrixTm = matrix; pdfContext->fGraphicsState.fMatrixTlm = matrix; return kPartial_SkPdfResult; } static SkPdfResult PdfOp_ET(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { if (!pdfContext->fGraphicsState.fTextBlock) { return kIgnoreError_SkPdfResult; } // TODO(edisonn): anything else to be done once we are done with draw text? Like restore stack? return kOK_SkPdfResult; } static SkPdfResult skpdfGraphicsStateApplyFontCore(SkPdfContext* pdfContext, const SkPdfNativeObject* fontName, double fontSize) { #ifdef PDF_TRACE printf("font name: %s\n", fontName->nameValue2().c_str()); #endif if (!pdfContext->fGraphicsState.fResources->Font(pdfContext->fPdfDoc)) { // TODO(edisonn): try to recover and draw it any way? return kIgnoreError_SkPdfResult; } SkPdfNativeObject* objFont = pdfContext->fGraphicsState.fResources->Font(pdfContext->fPdfDoc)->get(fontName); objFont = pdfContext->fPdfDoc->resolveReference(objFont); if (kNone_SkPdfNativeObjectType == pdfContext->fPdfDoc->mapper()->mapFontDictionary(objFont)) { // TODO(edisonn): try to recover and draw it any way? return kIgnoreError_SkPdfResult; } SkPdfFontDictionary* fd = (SkPdfFontDictionary*)objFont; SkPdfFont* skfont = SkPdfFont::fontFromPdfDictionary(pdfContext->fPdfDoc, fd); if (skfont) { pdfContext->fGraphicsState.fSkFont = skfont; } pdfContext->fGraphicsState.fCurFontSize = fontSize; return kOK_SkPdfResult; } //font size Tf Set the text font, Tf //, to font and the text font size, Tfs, to size. font is the name of a //font resource in the Fontsubdictionary of the current resource dictionary; size is //a number representing a scale factor. There is no initial value for either font or //size; they must be specified explicitly using Tf before any text is shown. static SkPdfResult PdfOp_Tf(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { double fontSize = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); SkPdfNativeObject* fontName = pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop(); return skpdfGraphicsStateApplyFontCore(pdfContext, fontName, fontSize); } static SkPdfResult PdfOp_Tj(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { if (!pdfContext->fGraphicsState.fTextBlock) { // TODO(edisonn): try to recover and draw it any way? return kIgnoreError_SkPdfResult; } SkPdfResult ret = DrawText(pdfContext, pdfContext->fObjectStack.top(), canvas); pdfContext->fObjectStack.pop(); return ret; } static SkPdfResult PdfOp_quote(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { if (!pdfContext->fGraphicsState.fTextBlock) { // TODO(edisonn): try to recover and draw it any way? return kIgnoreError_SkPdfResult; } PdfOp_T_star(pdfContext, canvas, looper); // Do not pop, and push, just transfer the param to Tj return PdfOp_Tj(pdfContext, canvas, looper); } static SkPdfResult PdfOp_doublequote(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { if (!pdfContext->fGraphicsState.fTextBlock) { // TODO(edisonn): try to recover and draw it any way? return kIgnoreError_SkPdfResult; } SkPdfNativeObject* str = pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop(); SkPdfNativeObject* ac = pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop(); SkPdfNativeObject* aw = pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop(); pdfContext->fObjectStack.push(aw); PdfOp_Tw(pdfContext, canvas, looper); pdfContext->fObjectStack.push(ac); PdfOp_Tc(pdfContext, canvas, looper); pdfContext->fObjectStack.push(str); PdfOp_quote(pdfContext, canvas, looper); return kPartial_SkPdfResult; } static SkPdfResult PdfOp_TJ(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { if (!pdfContext->fGraphicsState.fTextBlock) { // TODO(edisonn): try to recover and draw it any way? return kIgnoreError_SkPdfResult; } SkPdfArray* array = (SkPdfArray*)pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop(); if (!array->isArray()) { return kIgnoreError_SkPdfResult; } for( int i=0; i(array->size()); i++ ) { if( (*array)[i]->isAnyString()) { SkPdfNativeObject* obj = (*array)[i]; DrawText(pdfContext, obj, canvas); } else if ((*array)[i]->isNumber()) { double dx = (*array)[i]->numberValue(); SkMatrix matrix; matrix.setAll(SkDoubleToScalar(1), SkDoubleToScalar(0), // TODO(edisonn): use writing mode, vertical/horizontal. SkDoubleToScalar(-dx), // amount is substracted!!! SkDoubleToScalar(0), SkDoubleToScalar(1), SkDoubleToScalar(0), SkDoubleToScalar(0), SkDoubleToScalar(0), SkDoubleToScalar(1)); pdfContext->fGraphicsState.fMatrixTm.preConcat(matrix); } } return kPartial_SkPdfResult; // TODO(edisonn): Implement fully DrawText before returing OK. } static SkPdfResult PdfOp_CS_cs(SkPdfContext* pdfContext, SkCanvas* canvas, SkPdfColorOperator* colorOperator) { SkPdfNativeObject* name = pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop(); //Next, get the ColorSpace Dictionary from the Resource Dictionary: SkPdfDictionary* colorSpaceResource = pdfContext->fGraphicsState.fResources->ColorSpace(pdfContext->fPdfDoc); SkPdfNativeObject* colorSpace = colorSpaceResource ? pdfContext->fPdfDoc->resolveReference(colorSpaceResource->get(name)) : name; if (colorSpace == NULL) { colorOperator->fColorSpace = name->strRef(); } else { #ifdef PDF_TRACE printf("CS = %s\n", colorSpace->toString(0, 0).c_str()); #endif // PDF_TRACE if (colorSpace->isName()) { colorOperator->fColorSpace = colorSpace->strRef(); } else if (colorSpace->isArray()) { int cnt = colorSpace->size(); if (cnt == 0) { return kIgnoreError_SkPdfResult; } SkPdfNativeObject* type = colorSpace->objAtAIndex(0); type = pdfContext->fPdfDoc->resolveReference(type); if (type->isName("ICCBased")) { if (cnt != 2) { return kIgnoreError_SkPdfResult; } SkPdfNativeObject* prop = colorSpace->objAtAIndex(1); prop = pdfContext->fPdfDoc->resolveReference(prop); #ifdef PDF_TRACE printf("ICCBased prop = %s\n", prop->toString(0, 0).c_str()); #endif // PDF_TRACE // TODO(edisonn): hack if (prop && prop->isDictionary() && prop->get("N") && prop->get("N")->isInteger() && prop->get("N")->intValue() == 3) { colorOperator->setColorSpace(&strings_DeviceRGB); return kPartial_SkPdfResult; } return kNYI_SkPdfResult; } } } return kPartial_SkPdfResult; } static SkPdfResult PdfOp_CS(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_CS_cs(pdfContext, canvas, &pdfContext->fGraphicsState.fStroking); } static SkPdfResult PdfOp_cs(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_CS_cs(pdfContext, canvas, &pdfContext->fGraphicsState.fNonStroking); } static SkPdfResult PdfOp_SC_sc(SkPdfContext* pdfContext, SkCanvas* canvas, SkPdfColorOperator* colorOperator) { double c[4]; // int64_t v[4]; int n = GetColorSpaceComponents(colorOperator->fColorSpace); bool doubles = true; if (colorOperator->fColorSpace.equals("Indexed")) { doubles = false; } #ifdef PDF_TRACE printf("color space = %s, N = %i\n", colorOperator->fColorSpace.fBuffer, n); #endif for (int i = n - 1; i >= 0 ; i--) { if (doubles) { c[i] = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); // } else { // v[i] = pdfContext->fObjectStack.top()->intValue(); pdfContext->fObjectStack.pop(); } } // TODO(edisonn): Now, set that color. Only DeviceRGB supported. // TODO(edisonn): do possible field values to enum at parsing time! // TODO(edisonn): support also abreviations /DeviceRGB == /RGB if (colorOperator->fColorSpace.equals("DeviceRGB") || colorOperator->fColorSpace.equals("RGB")) { colorOperator->setRGBColor(SkColorSetRGB((U8CPU)(255*c[0]), (U8CPU)(255*c[1]), (U8CPU)(255*c[2]))); } return kPartial_SkPdfResult; } static SkPdfResult PdfOp_SC(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_SC_sc(pdfContext, canvas, &pdfContext->fGraphicsState.fStroking); } static SkPdfResult PdfOp_sc(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_SC_sc(pdfContext, canvas, &pdfContext->fGraphicsState.fNonStroking); } static SkPdfResult PdfOp_SCN_scn(SkPdfContext* pdfContext, SkCanvas* canvas, SkPdfColorOperator* colorOperator) { if (pdfContext->fObjectStack.top()->isName()) { SkPdfNativeObject* name = pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop(); //Next, get the ExtGState Dictionary from the Resource Dictionary: SkPdfDictionary* patternResources = pdfContext->fGraphicsState.fResources->Pattern(pdfContext->fPdfDoc); if (patternResources == NULL) { #ifdef PDF_TRACE printf("ExtGState is NULL!\n"); #endif return kIgnoreError_SkPdfResult; } colorOperator->setPatternColorSpace(pdfContext->fPdfDoc->resolveReference(patternResources->get(name))); } // TODO(edisonn): SCN supports more color spaces than SCN. Read and implement spec. PdfOp_SC_sc(pdfContext, canvas, colorOperator); return kPartial_SkPdfResult; } static SkPdfResult PdfOp_SCN(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_SCN_scn(pdfContext, canvas, &pdfContext->fGraphicsState.fStroking); } static SkPdfResult PdfOp_scn(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_SCN_scn(pdfContext, canvas, &pdfContext->fGraphicsState.fNonStroking); } static SkPdfResult PdfOp_G_g(SkPdfContext* pdfContext, SkCanvas* canvas, SkPdfColorOperator* colorOperator) { /*double gray = */pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } static SkPdfResult PdfOp_G(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_G_g(pdfContext, canvas, &pdfContext->fGraphicsState.fStroking); } static SkPdfResult PdfOp_g(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_G_g(pdfContext, canvas, &pdfContext->fGraphicsState.fNonStroking); } static SkPdfResult PdfOp_RG_rg(SkPdfContext* pdfContext, SkCanvas* canvas, SkPdfColorOperator* colorOperator) { double b = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double g = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); double r = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); colorOperator->fColorSpace = strings_DeviceRGB; colorOperator->setRGBColor(SkColorSetRGB((U8CPU)(255*r), (U8CPU)(255*g), (U8CPU)(255*b))); return kOK_SkPdfResult; } static SkPdfResult PdfOp_RG(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_RG_rg(pdfContext, canvas, &pdfContext->fGraphicsState.fStroking); } static SkPdfResult PdfOp_rg(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_RG_rg(pdfContext, canvas, &pdfContext->fGraphicsState.fNonStroking); } static SkPdfResult PdfOp_K_k(SkPdfContext* pdfContext, SkCanvas* canvas, SkPdfColorOperator* colorOperator) { // TODO(edisonn): spec has some rules about overprint, implement them. /*double k = */pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); /*double y = */pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); /*double m = */pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); /*double c = */pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); colorOperator->fColorSpace = strings_DeviceCMYK; // TODO(edisonn): Set color. return kNYI_SkPdfResult; } static SkPdfResult PdfOp_K(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_K_k(pdfContext, canvas, &pdfContext->fGraphicsState.fStroking); } static SkPdfResult PdfOp_k(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return PdfOp_K_k(pdfContext, canvas, &pdfContext->fGraphicsState.fNonStroking); } static SkPdfResult PdfOp_W(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fGraphicsState.fClipPath = pdfContext->fGraphicsState.fPath; pdfContext->fGraphicsState.fHasClipPathToApply = true; return kOK_SkPdfResult; } static SkPdfResult PdfOp_W_star(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fGraphicsState.fClipPath = pdfContext->fGraphicsState.fPath; pdfContext->fGraphicsState.fClipPath.setFillType(SkPath::kEvenOdd_FillType); pdfContext->fGraphicsState.fHasClipPathToApply = true; return kOK_SkPdfResult; } static SkPdfResult PdfOp_BX(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { *looper = new PdfCompatibilitySectionLooper(); return kOK_SkPdfResult; } static SkPdfResult PdfOp_EX(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { #ifdef ASSERT_BAD_PDF_OPS SkASSERT(false); // EX must be consumed by PdfCompatibilitySectionLooper, but let's // have the assert when testing good pdfs. #endif return kIgnoreError_SkPdfResult; } static SkPdfResult PdfOp_BI(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { *looper = new PdfInlineImageLooper(); return kOK_SkPdfResult; } static SkPdfResult PdfOp_ID(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { #ifdef ASSERT_BAD_PDF_OPS SkASSERT(false); // must be processed in inline image looper, but let's // have the assert when testing good pdfs. #endif return kIgnoreError_SkPdfResult; } static SkPdfResult PdfOp_EI(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { #ifdef ASSERT_BAD_PDF_OPS SkASSERT(false); // must be processed in inline image looper, but let's // have the assert when testing good pdfs. #endif return kIgnoreError_SkPdfResult; } // TODO(edisonn): security review here, make sure all parameters are valid, and safe. static SkPdfResult skpdfGraphicsStateApply_ca(SkPdfContext* pdfContext, double ca) { pdfContext->fGraphicsState.fNonStroking.fOpacity = ca; return kOK_SkPdfResult; } static SkPdfResult skpdfGraphicsStateApply_CA(SkPdfContext* pdfContext, double CA) { pdfContext->fGraphicsState.fStroking.fOpacity = CA; return kOK_SkPdfResult; } static SkPdfResult skpdfGraphicsStateApplyLW(SkPdfContext* pdfContext, double lineWidth) { pdfContext->fGraphicsState.fLineWidth = lineWidth; return kOK_SkPdfResult; } static SkPdfResult skpdfGraphicsStateApplyLC(SkPdfContext* pdfContext, int64_t lineCap) { pdfContext->fGraphicsState.fLineCap = (int)lineCap; return kOK_SkPdfResult; } static SkPdfResult skpdfGraphicsStateApplyLJ(SkPdfContext* pdfContext, int64_t lineJoin) { pdfContext->fGraphicsState.fLineJoin = (int)lineJoin; return kOK_SkPdfResult; } static SkPdfResult skpdfGraphicsStateApplyML(SkPdfContext* pdfContext, double miterLimit) { pdfContext->fGraphicsState.fMiterLimit = miterLimit; return kOK_SkPdfResult; } // TODO(edisonn): implement all rules, as of now 3) and 5) and 6) do not seem suported by skia, but I am not sure /* 1) [ ] 0 No dash; solid, unbroken lines 2) [3] 0 3 units on, 3 units off, … 3) [2] 1 1 on, 2 off, 2 on, 2 off, … 4) [2 1] 0 2 on, 1 off, 2 on, 1 off, … 5) [3 5] 6 2 off, 3 on, 5 off, 3 on, 5 off, … 6) [2 3] 11 1 on, 3 off, 2 on, 3 off, 2 on, … */ static SkPdfResult skpdfGraphicsStateApplyD(SkPdfContext* pdfContext, SkPdfArray* intervals, SkPdfNativeObject* phase) { int cnt = intervals->size(); if (cnt >= 256) { // TODO(edisonn): report error/warning, unsuported; // TODO(edisonn): alloc memory return kIgnoreError_SkPdfResult; } for (int i = 0; i < cnt; i++) { if (!intervals->objAtAIndex(i)->isNumber()) { // TODO(edisonn): report error/warning return kIgnoreError_SkPdfResult; } } double total = 0; for (int i = 0 ; i < cnt; i++) { pdfContext->fGraphicsState.fDashArray[i] = intervals->objAtAIndex(i)->scalarValue(); total += pdfContext->fGraphicsState.fDashArray[i]; } if (cnt & 1) { if (cnt == 1) { pdfContext->fGraphicsState.fDashArray[1] = pdfContext->fGraphicsState.fDashArray[0]; cnt++; } else { // TODO(edisonn): report error/warning return kNYI_SkPdfResult; } } pdfContext->fGraphicsState.fDashArrayLength = cnt; pdfContext->fGraphicsState.fDashPhase = phase->scalarValue(); if (pdfContext->fGraphicsState.fDashPhase == 0) { // other rules, changes? pdfContext->fGraphicsState.fDashPhase = total; } return kOK_SkPdfResult; } static SkPdfResult skpdfGraphicsStateApplyD(SkPdfContext* pdfContext, SkPdfArray* dash) { // TODO(edisonn): verify input if (!dash || dash->isArray() || dash->size() != 2 || !dash->objAtAIndex(0)->isArray() || !dash->objAtAIndex(1)->isNumber()) { // TODO(edisonn): report error/warning return kIgnoreError_SkPdfResult; } return skpdfGraphicsStateApplyD(pdfContext, (SkPdfArray*)dash->objAtAIndex(0), dash->objAtAIndex(1)); } static void skpdfGraphicsStateApplyFont(SkPdfContext* pdfContext, SkPdfArray* fontAndSize) { if (!fontAndSize || fontAndSize->isArray() || fontAndSize->size() != 2 || !fontAndSize->objAtAIndex(0)->isName() || !fontAndSize->objAtAIndex(1)->isNumber()) { // TODO(edisonn): report error/warning return; } skpdfGraphicsStateApplyFontCore(pdfContext, fontAndSize->objAtAIndex(0), fontAndSize->objAtAIndex(1)->numberValue()); } //lineWidth w Set the line width in the graphics state (see “Line Width” on page 152). static SkPdfResult PdfOp_w(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { double lw = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); return skpdfGraphicsStateApplyLW(pdfContext, lw); } //lineCap J Set the line cap style in the graphics state (see “Line Cap Style” on page 153). static SkPdfResult PdfOp_J(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { int64_t lc = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); return skpdfGraphicsStateApplyLC(pdfContext, lc); } //lineJoin j Set the line join style in the graphics state (see “Line Join Style” on page 153). static SkPdfResult PdfOp_j(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { double lj = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); return skpdfGraphicsStateApplyLJ(pdfContext, lj); } //miterLimit M Set the miter limit in the graphics state (see “Miter Limit” on page 153). static SkPdfResult PdfOp_M(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { double ml = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); return skpdfGraphicsStateApplyML(pdfContext, ml); } //dashArray dashPhase d Set the line dash pattern in the graphics state (see “Line Dash Pattern” on //page 155). static SkPdfResult PdfOp_d(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { SkPdfNativeObject* phase = pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop(); SkPdfNativeObject* array = pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop(); if (!array->isArray()) { return kIgnoreError_SkPdfResult; } return skpdfGraphicsStateApplyD(pdfContext, (SkPdfArray*)array, phase); } //intent ri (PDF 1.1) Set the color rendering intent in the graphics state (see “Rendering Intents” on page 197). static SkPdfResult PdfOp_ri(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } //flatness i Set the flatness tolerance in the graphics state (see Section 6.5.1, “Flatness //Tolerance”). flatness is a number in the range 0 to 100; a value of 0 speci- //fies the output device’s default flatness tolerance. static SkPdfResult PdfOp_i(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } SkTDict gPdfBlendModes(20); class InitBlendModes { public: InitBlendModes() { // TODO(edisonn): use the python code generator? // TABLE 7.2 Standard separable blend modes gPdfBlendModes.set("Normal", SkXfermode::kSrc_Mode); gPdfBlendModes.set("Multiply", SkXfermode::kMultiply_Mode); gPdfBlendModes.set("Screen", SkXfermode::kScreen_Mode); gPdfBlendModes.set("Overlay", SkXfermode::kOverlay_Mode); gPdfBlendModes.set("Darken", SkXfermode::kDarken_Mode); gPdfBlendModes.set("Lighten", SkXfermode::kLighten_Mode); gPdfBlendModes.set("ColorDodge", SkXfermode::kColorDodge_Mode); gPdfBlendModes.set("ColorBurn", SkXfermode::kColorBurn_Mode); gPdfBlendModes.set("HardLight", SkXfermode::kHardLight_Mode); gPdfBlendModes.set("SoftLight", SkXfermode::kSoftLight_Mode); gPdfBlendModes.set("Difference", SkXfermode::kDifference_Mode); gPdfBlendModes.set("Exclusion", SkXfermode::kExclusion_Mode); // TABLE 7.3 Standard nonseparable blend modes gPdfBlendModes.set("Hue", SkXfermode::kHue_Mode); gPdfBlendModes.set("Saturation", SkXfermode::kSaturation_Mode); gPdfBlendModes.set("Color", SkXfermode::kColor_Mode); gPdfBlendModes.set("Luminosity", SkXfermode::kLuminosity_Mode); } }; InitBlendModes _gDummyInniter; static SkXfermode::Mode xferModeFromBlendMode(const char* blendMode, size_t len) { SkXfermode::Mode mode = (SkXfermode::Mode)(SkXfermode::kLastMode + 1); if (gPdfBlendModes.find(blendMode, len, &mode)) { return mode; } return (SkXfermode::Mode)(SkXfermode::kLastMode + 1); } static void skpdfGraphicsStateApplyBM_name(SkPdfContext* pdfContext, const std::string& blendMode) { SkXfermode::Mode mode = xferModeFromBlendMode(blendMode.c_str(), blendMode.length()); if (mode <= SkXfermode::kLastMode) { pdfContext->fGraphicsState.fBlendModesLength = 1; pdfContext->fGraphicsState.fBlendModes[0] = mode; } else { // TODO(edisonn): report unknown blend mode } } static void skpdfGraphicsStateApplyBM_array(SkPdfContext* pdfContext, SkPdfArray* blendModes) { if (!blendModes || blendModes->isArray() || blendModes->size() == 0 || blendModes->size() > 256) { // TODO(edisonn): report error/warning return; } SkXfermode::Mode modes[256]; int cnt = blendModes->size(); for (int i = 0; i < cnt; i++) { SkPdfNativeObject* name = blendModes->objAtAIndex(i); if (!name->isName()) { // TODO(edisonn): report error/warning return; } SkXfermode::Mode mode = xferModeFromBlendMode(name->c_str(), name->lenstr()); if (mode > SkXfermode::kLastMode) { // TODO(edisonn): report error/warning return; } } pdfContext->fGraphicsState.fBlendModesLength = cnt; for (int i = 0; i < cnt; i++) { pdfContext->fGraphicsState.fBlendModes[i] = modes[i]; } } static void skpdfGraphicsStateApplySMask_dict(SkPdfContext* pdfContext, SkPdfDictionary* sMask) { // TODO(edisonn): verify input if (pdfContext->fPdfDoc->mapper()->mapSoftMaskDictionary(sMask)) { pdfContext->fGraphicsState.fSoftMaskDictionary = (SkPdfSoftMaskDictionary*)sMask; } else if (pdfContext->fPdfDoc->mapper()->mapSoftMaskImageDictionary(sMask)) { SkPdfSoftMaskImageDictionary* smid = (SkPdfSoftMaskImageDictionary*)sMask; pdfContext->fGraphicsState.fSMask = getImageFromObject(pdfContext, smid, true); } else { // TODO (edisonn): report error/warning } } static void skpdfGraphicsStateApplySMask_name(SkPdfContext* pdfContext, const std::string& sMask) { if (sMask == "None") { pdfContext->fGraphicsState.fSoftMaskDictionary = NULL; pdfContext->fGraphicsState.fSMask = NULL; return; } //Next, get the ExtGState Dictionary from the Resource Dictionary: SkPdfDictionary* extGStateDictionary = pdfContext->fGraphicsState.fResources->ExtGState(pdfContext->fPdfDoc); if (extGStateDictionary == NULL) { #ifdef PDF_TRACE printf("ExtGState is NULL!\n"); #endif // TODO (edisonn): report error/warning return; } SkPdfNativeObject* obj = pdfContext->fPdfDoc->resolveReference(extGStateDictionary->get(sMask.c_str())); if (!obj || !obj->isDictionary()) { // TODO (edisonn): report error/warning return; } pdfContext->fGraphicsState.fSoftMaskDictionary = NULL; pdfContext->fGraphicsState.fSMask = NULL; skpdfGraphicsStateApplySMask_dict(pdfContext, obj->asDictionary()); } static void skpdfGraphicsStateApplyAIS(SkPdfContext* pdfContext, bool alphaSource) { pdfContext->fGraphicsState.fAlphaSource = alphaSource; } //dictName gs (PDF 1.2) Set the specified parameters in the graphics state. dictName is //the name of a graphics state parameter dictionary in the ExtGState subdictionary of the current resource dictionary (see the next section). static SkPdfResult PdfOp_gs(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { SkPdfNativeObject* name = pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop(); #ifdef PDF_TRACE std::string str; #endif //Next, get the ExtGState Dictionary from the Resource Dictionary: SkPdfDictionary* extGStateDictionary = pdfContext->fGraphicsState.fResources->ExtGState(pdfContext->fPdfDoc); if (extGStateDictionary == NULL) { #ifdef PDF_TRACE printf("ExtGState is NULL!\n"); #endif return kIgnoreError_SkPdfResult; } SkPdfNativeObject* value = pdfContext->fPdfDoc->resolveReference(extGStateDictionary->get(name)); if (kNone_SkPdfNativeObjectType == pdfContext->fPdfDoc->mapper()->mapGraphicsStateDictionary(value)) { return kIgnoreError_SkPdfResult; } SkPdfGraphicsStateDictionary* gs = (SkPdfGraphicsStateDictionary*)value; // TODO(edisonn): now load all those properties in graphic state. if (gs == NULL) { return kIgnoreError_SkPdfResult; } if (gs->has_LW()) { skpdfGraphicsStateApplyLW(pdfContext, gs->LW(pdfContext->fPdfDoc)); } if (gs->has_LC()) { skpdfGraphicsStateApplyLC(pdfContext, gs->LC(pdfContext->fPdfDoc)); } if (gs->has_LJ()) { skpdfGraphicsStateApplyLJ(pdfContext, gs->LJ(pdfContext->fPdfDoc)); } if (gs->has_ML()) { skpdfGraphicsStateApplyML(pdfContext, gs->ML(pdfContext->fPdfDoc)); } if (gs->has_D()) { skpdfGraphicsStateApplyD(pdfContext, gs->D(pdfContext->fPdfDoc)); } if (gs->has_Font()) { skpdfGraphicsStateApplyFont(pdfContext, gs->Font(pdfContext->fPdfDoc)); } if (gs->has_BM()) { if (gs->isBMAName(pdfContext->fPdfDoc)) { skpdfGraphicsStateApplyBM_name(pdfContext, gs->getBMAsName(pdfContext->fPdfDoc)); } else if (gs->isBMAArray(pdfContext->fPdfDoc)) { skpdfGraphicsStateApplyBM_array(pdfContext, gs->getBMAsArray(pdfContext->fPdfDoc)); } else { // TODO(edisonn): report/warn } } if (gs->has_SMask()) { if (gs->isSMaskAName(pdfContext->fPdfDoc)) { skpdfGraphicsStateApplySMask_name(pdfContext, gs->getSMaskAsName(pdfContext->fPdfDoc)); } else if (gs->isSMaskADictionary(pdfContext->fPdfDoc)) { skpdfGraphicsStateApplySMask_dict(pdfContext, gs->getSMaskAsDictionary(pdfContext->fPdfDoc)); } else { // TODO(edisonn): report/warn } } if (gs->has_ca()) { skpdfGraphicsStateApply_ca(pdfContext, gs->ca(pdfContext->fPdfDoc)); } if (gs->has_CA()) { skpdfGraphicsStateApply_CA(pdfContext, gs->CA(pdfContext->fPdfDoc)); } if (gs->has_AIS()) { skpdfGraphicsStateApplyAIS(pdfContext, gs->AIS(pdfContext->fPdfDoc)); } return kOK_SkPdfResult; } //charSpace Tc Set the character spacing, Tc //, to charSpace, which is a number expressed in unscaled text space units. Character spacing is used by the Tj, TJ, and ' operators. //Initial value: 0. SkPdfResult PdfOp_Tc(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { double charSpace = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); pdfContext->fGraphicsState.fCharSpace = charSpace; return kOK_SkPdfResult; } //wordSpace Tw Set the word spacing, T //w //, to wordSpace, which is a number expressed in unscaled //text space units. Word spacing is used by the Tj, TJ, and ' operators. Initial //value: 0. SkPdfResult PdfOp_Tw(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { double wordSpace = pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); pdfContext->fGraphicsState.fWordSpace = wordSpace; return kOK_SkPdfResult; } //scale Tz Set the horizontal scaling, Th //, to (scale ˜ 100). scale is a number specifying the //percentage of the normal width. Initial value: 100 (normal width). static SkPdfResult PdfOp_Tz(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { /*double scale = */pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } //render Tr Set the text rendering mode, T //mode, to render, which is an integer. Initial value: 0. static SkPdfResult PdfOp_Tr(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { /*double render = */pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } //rise Ts Set the text rise, Trise, to rise, which is a number expressed in unscaled text space //units. Initial value: 0. static SkPdfResult PdfOp_Ts(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { /*double rise = */pdfContext->fObjectStack.top()->numberValue(); pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } //wx wy d0 static SkPdfResult PdfOp_d0(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fObjectStack.pop(); pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } //wx wy llx lly urx ury d1 static SkPdfResult PdfOp_d1(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fObjectStack.pop(); pdfContext->fObjectStack.pop(); pdfContext->fObjectStack.pop(); pdfContext->fObjectStack.pop(); pdfContext->fObjectStack.pop(); pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } //name sh static SkPdfResult PdfOp_sh(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } //name Do static SkPdfResult PdfOp_Do(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { SkPdfNativeObject* name = pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop(); SkPdfDictionary* xObject = pdfContext->fGraphicsState.fResources->XObject(pdfContext->fPdfDoc); if (xObject == NULL) { #ifdef PDF_TRACE printf("XObject is NULL!\n"); #endif return kIgnoreError_SkPdfResult; } SkPdfNativeObject* value = xObject->get(name); value = pdfContext->fPdfDoc->resolveReference(value); #ifdef PDF_TRACE // value->ToString(str); // printf("Do object value: %s\n", str); #endif return doXObject(pdfContext, canvas, value); } //tag MP Designate a marked-content point. tag is a name object indicating the role or //significance of the point. static SkPdfResult PdfOp_MP(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } //tag properties DP Designate a marked-content point with an associated property list. tag is a //name object indicating the role or significance of the point; properties is //either an inline dictionary containing the property list or a name object //associated with it in the Properties subdictionary of the current resource //dictionary (see Section 9.5.1, “Property Lists”). static SkPdfResult PdfOp_DP(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fObjectStack.pop(); pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } //tag BMC Begin a marked-content sequence terminated by a balancing EMC operator. //tag is a name object indicating the role or significance of the sequence. static SkPdfResult PdfOp_BMC(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } //tag properties BDC Begin a marked-content sequence with an associated property list, terminated //by a balancing EMCoperator. tag is a name object indicating the role or significance of the sequence; propertiesis either an inline dictionary containing the //property list or a name object associated with it in the Properties subdictionary of the current resource dictionary (see Section 9.5.1, “Property Lists”). static SkPdfResult PdfOp_BDC(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { pdfContext->fObjectStack.pop(); pdfContext->fObjectStack.pop(); return kNYI_SkPdfResult; } //— EMC End a marked-content sequence begun by a BMC or BDC operator. static SkPdfResult PdfOp_EMC(SkPdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) { return kNYI_SkPdfResult; } static void initPdfOperatorRenderes() { static bool gInitialized = false; if (gInitialized) { return; } gPdfOps.set("q", PdfOp_q); gPdfOps.set("Q", PdfOp_Q); gPdfOps.set("cm", PdfOp_cm); gPdfOps.set("TD", PdfOp_TD); gPdfOps.set("Td", PdfOp_Td); gPdfOps.set("Tm", PdfOp_Tm); gPdfOps.set("T*", PdfOp_T_star); gPdfOps.set("m", PdfOp_m); gPdfOps.set("l", PdfOp_l); gPdfOps.set("c", PdfOp_c); gPdfOps.set("v", PdfOp_v); gPdfOps.set("y", PdfOp_y); gPdfOps.set("h", PdfOp_h); gPdfOps.set("re", PdfOp_re); gPdfOps.set("S", PdfOp_S); gPdfOps.set("s", PdfOp_s); gPdfOps.set("f", PdfOp_f); gPdfOps.set("F", PdfOp_F); gPdfOps.set("f*", PdfOp_f_star); gPdfOps.set("B", PdfOp_B); gPdfOps.set("B*", PdfOp_B_star); gPdfOps.set("b", PdfOp_b); gPdfOps.set("b*", PdfOp_b_star); gPdfOps.set("n", PdfOp_n); gPdfOps.set("BT", PdfOp_BT); gPdfOps.set("ET", PdfOp_ET); gPdfOps.set("Tj", PdfOp_Tj); gPdfOps.set("'", PdfOp_quote); gPdfOps.set("\"", PdfOp_doublequote); gPdfOps.set("TJ", PdfOp_TJ); gPdfOps.set("CS", PdfOp_CS); gPdfOps.set("cs", PdfOp_cs); gPdfOps.set("SC", PdfOp_SC); gPdfOps.set("SCN", PdfOp_SCN); gPdfOps.set("sc", PdfOp_sc); gPdfOps.set("scn", PdfOp_scn); gPdfOps.set("G", PdfOp_G); gPdfOps.set("g", PdfOp_g); gPdfOps.set("RG", PdfOp_RG); gPdfOps.set("rg", PdfOp_rg); gPdfOps.set("K", PdfOp_K); gPdfOps.set("k", PdfOp_k); gPdfOps.set("W", PdfOp_W); gPdfOps.set("W*", PdfOp_W_star); gPdfOps.set("BX", PdfOp_BX); gPdfOps.set("EX", PdfOp_EX); gPdfOps.set("BI", PdfOp_BI); gPdfOps.set("ID", PdfOp_ID); gPdfOps.set("EI", PdfOp_EI); gPdfOps.set("w", PdfOp_w); gPdfOps.set("J", PdfOp_J); gPdfOps.set("j", PdfOp_j); gPdfOps.set("M", PdfOp_M); gPdfOps.set("d", PdfOp_d); gPdfOps.set("ri", PdfOp_ri); gPdfOps.set("i", PdfOp_i); gPdfOps.set("gs", PdfOp_gs); gPdfOps.set("Tc", PdfOp_Tc); gPdfOps.set("Tw", PdfOp_Tw); gPdfOps.set("Tz", PdfOp_Tz); gPdfOps.set("TL", PdfOp_TL); gPdfOps.set("Tf", PdfOp_Tf); gPdfOps.set("Tr", PdfOp_Tr); gPdfOps.set("Ts", PdfOp_Ts); gPdfOps.set("d0", PdfOp_d0); gPdfOps.set("d1", PdfOp_d1); gPdfOps.set("sh", PdfOp_sh); gPdfOps.set("Do", PdfOp_Do); gPdfOps.set("MP", PdfOp_MP); gPdfOps.set("DP", PdfOp_DP); gPdfOps.set("BMC", PdfOp_BMC); gPdfOps.set("BDC", PdfOp_BDC); gPdfOps.set("EMC", PdfOp_EMC); gInitialized = true; } class InitPdfOps { public: InitPdfOps() { initPdfOperatorRenderes(); } }; InitPdfOps gInitPdfOps; void reportPdfRenderStats() { std::map::iterator iter; for (int i = 0 ; i < kCount_SkPdfResult; i++) { SkTDict::Iter iter(gRenderStats[i]); const char* key; int value = 0; while ((key = iter.next(&value)) != NULL) { printf("%s: %s -> count %i\n", gRenderStatsNames[i], key, value); } } } SkPdfResult PdfMainLooper::consumeToken(PdfToken& token) { if (token.fType == kKeyword_TokenType && token.fKeywordLength < 256) { // TODO(edisonn): log trace flag (verbose, error, info, warning, ...) PdfOperatorRenderer pdfOperatorRenderer = NULL; if (gPdfOps.find(token.fKeyword, token.fKeywordLength, &pdfOperatorRenderer) && pdfOperatorRenderer) { // caller, main work is done by pdfOperatorRenderer(...) PdfTokenLooper* childLooper = NULL; SkPdfResult result = pdfOperatorRenderer(fPdfContext, fCanvas, &childLooper); int cnt = 0; gRenderStats[result].find(token.fKeyword, token.fKeywordLength, &cnt); gRenderStats[result].set(token.fKeyword, token.fKeywordLength, cnt + 1); if (childLooper) { childLooper->setUp(this); childLooper->loop(); delete childLooper; } } else { int cnt = 0; gRenderStats[kUnsupported_SkPdfResult].find(token.fKeyword, token.fKeywordLength, &cnt); gRenderStats[kUnsupported_SkPdfResult].set(token.fKeyword, token.fKeywordLength, cnt + 1); } } else if (token.fType == kObject_TokenType) { fPdfContext->fObjectStack.push( token.fObject ); } else { // TODO(edisonn): deine or use assert not reached return kIgnoreError_SkPdfResult; } return kOK_SkPdfResult; } void PdfMainLooper::loop() { PdfToken token; while (readToken(fTokenizer, &token)) { consumeToken(token); } } SkPdfResult PdfInlineImageLooper::consumeToken(PdfToken& token) { SkASSERT(false); return kIgnoreError_SkPdfResult; } void PdfInlineImageLooper::loop() { doXObject_Image(fPdfContext, fCanvas, fTokenizer->readInlineImage()); } SkPdfResult PdfInlineImageLooper::done() { return kNYI_SkPdfResult; } SkPdfResult PdfCompatibilitySectionLooper::consumeToken(PdfToken& token) { return fParent->consumeToken(token); } void PdfCompatibilitySectionLooper::loop() { // TODO(edisonn): save stacks position, or create a new stack? // TODO(edisonn): what happens if we pop out more variables then when we started? // restore them? fail? We could create a new operands stack for every new BX/EX section, // pop-ing too much will not affect outside the section. PdfToken token; while (readToken(fTokenizer, &token)) { if (token.fType == kKeyword_TokenType && strcmp(token.fKeyword, "BX") == 0) { PdfTokenLooper* looper = new PdfCompatibilitySectionLooper(); looper->setUp(this); looper->loop(); delete looper; } else { if (token.fType == kKeyword_TokenType && strcmp(token.fKeyword, "EX") == 0) break; fParent->consumeToken(token); } } // TODO(edisonn): restore stack. } // TODO(edisonn): fix PoDoFo load ~/crashing/Shading.pdf // TODO(edisonn): Add API for Forms viewing and editing // e.g. SkBitmap getPage(int page); // int formsCount(); // SkForm getForm(int formID); // SkForm(SkRect, .. other data) // TODO (edisonn): Add intend when loading pdf, for example: for viewing, parsing all content, ... // if we load the first page, and we zoom to fit to screen horizontally, then load only those // resources needed, so the preview is fast. // TODO (edisonn): hide parser/tokenizer behind and interface and a query language, and resolve // references automatically. SkPdfContext* gPdfContext = NULL; bool SkPdfRenderer::renderPage(int page, SkCanvas* canvas, const SkRect& dst) const { if (!fPdfDoc) { return false; } if (page < 0 || page >= pages()) { return false; } SkPdfContext pdfContext(fPdfDoc); pdfContext.fOriginalMatrix = SkMatrix::I(); pdfContext.fGraphicsState.fResources = fPdfDoc->pageResources(page); gPdfContext = &pdfContext; // TODO(edisonn): get matrix stuff right. SkScalar z = SkIntToScalar(0); SkScalar w = dst.width(); SkScalar h = dst.height(); SkScalar wp = fPdfDoc->MediaBox(page).width(); SkScalar hp = fPdfDoc->MediaBox(page).height(); SkPoint pdfSpace[4] = {SkPoint::Make(z, z), SkPoint::Make(wp, z), SkPoint::Make(wp, hp), SkPoint::Make(z, hp)}; // SkPoint skiaSpace[4] = {SkPoint::Make(z, h), SkPoint::Make(w, h), SkPoint::Make(w, z), SkPoint::Make(z, z)}; // TODO(edisonn): add flag for this app to create sourunding buffer zone // TODO(edisonn): add flagg for no clipping. // Use larger image to make sure we do not draw anything outside of page // could be used in tests. #ifdef PDF_DEBUG_3X SkPoint skiaSpace[4] = {SkPoint::Make(w+z, h+h), SkPoint::Make(w+w, h+h), SkPoint::Make(w+w, h+z), SkPoint::Make(w+z, h+z)}; #else SkPoint skiaSpace[4] = {SkPoint::Make(z, h), SkPoint::Make(w, h), SkPoint::Make(w, z), SkPoint::Make(z, z)}; #endif //SkPoint pdfSpace[2] = {SkPoint::Make(z, z), SkPoint::Make(w, h)}; //SkPoint skiaSpace[2] = {SkPoint::Make(w, z), SkPoint::Make(z, h)}; //SkPoint pdfSpace[2] = {SkPoint::Make(z, z), SkPoint::Make(z, h)}; //SkPoint skiaSpace[2] = {SkPoint::Make(z, h), SkPoint::Make(z, z)}; //SkPoint pdfSpace[3] = {SkPoint::Make(z, z), SkPoint::Make(z, h), SkPoint::Make(w, h)}; //SkPoint skiaSpace[3] = {SkPoint::Make(z, h), SkPoint::Make(z, z), SkPoint::Make(w, 0)}; SkAssertResult(pdfContext.fOriginalMatrix.setPolyToPoly(pdfSpace, skiaSpace, 4)); SkTraceMatrix(pdfContext.fOriginalMatrix, "Original matrix"); pdfContext.fGraphicsState.fCTM = pdfContext.fOriginalMatrix; pdfContext.fGraphicsState.fContentStreamMatrix = pdfContext.fOriginalMatrix; pdfContext.fGraphicsState.fMatrixTm = pdfContext.fGraphicsState.fCTM; pdfContext.fGraphicsState.fMatrixTlm = pdfContext.fGraphicsState.fCTM; #ifndef PDF_DEBUG_NO_PAGE_CLIPING canvas->clipRect(dst, SkRegion::kIntersect_Op, true); #endif canvas->setMatrix(pdfContext.fOriginalMatrix); doPage(&pdfContext, canvas, fPdfDoc->page(page)); // TODO(edisonn:) erase with white before draw? // SkPaint paint; // paint.setColor(SK_ColorWHITE); // canvas->drawRect(rect, paint); canvas->flush(); return true; } bool SkPdfRenderer::load(const SkString inputFileName) { unload(); // TODO(edisonn): create static function that could return NULL if there are errors fPdfDoc = new SkPdfNativeDoc(inputFileName.c_str()); if (fPdfDoc->pages() == 0) { delete fPdfDoc; fPdfDoc = NULL; } return fPdfDoc != NULL; } bool SkPdfRenderer::load(SkStream* stream) { unload(); // TODO(edisonn): create static function that could return NULL if there are errors fPdfDoc = new SkPdfNativeDoc(stream); if (fPdfDoc->pages() == 0) { delete fPdfDoc; fPdfDoc = NULL; } return fPdfDoc != NULL; } int SkPdfRenderer::pages() const { return fPdfDoc != NULL ? fPdfDoc->pages() : 0; } void SkPdfRenderer::unload() { delete fPdfDoc; fPdfDoc = NULL; } SkRect SkPdfRenderer::MediaBox(int page) const { SkASSERT(fPdfDoc); return fPdfDoc->MediaBox(page); } size_t SkPdfRenderer::bytesUsed() const { return fPdfDoc ? fPdfDoc->bytesUsed() : 0; } bool SkPDFNativeRenderToBitmap(SkStream* stream, SkBitmap* output, int page, SkPdfContent content, double dpi) { SkASSERT(page >= 0); SkPdfRenderer renderer; renderer.load(stream); if (!renderer.loaded() || page >= renderer.pages() || page < 0) { return false; } SkRect rect = renderer.MediaBox(page < 0 ? 0 :page); SkScalar width = SkScalarMul(rect.width(), SkDoubleToScalar(sqrt(dpi / 72.0))); SkScalar height = SkScalarMul(rect.height(), SkDoubleToScalar(sqrt(dpi / 72.0))); rect = SkRect::MakeWH(width, height); setup_bitmap(output, (int)SkScalarToDouble(width), (int)SkScalarToDouble(height)); SkAutoTUnref device(SkNEW_ARGS(SkDevice, (*output))); SkCanvas canvas(device); return renderer.renderPage(page, &canvas, rect); }