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skia2/experimental/PdfViewer/pdf_viewer_main.cpp

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/*
* 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 "picture_utils.h"
#include <iostream>
#include <cstdio>
#include <stack>
#include "podofo.h"
using namespace PoDoFo;
__SK_FORCE_IMAGE_DECODER_LINKING;
const PdfObject* resolveReferenceObject(const PdfMemDocument* pdfDoc,
const PdfObject* obj,
bool resolveOneElementArrays = false);
bool LongFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
long* data);
bool DoubleFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
double* data);
bool BoolFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
bool* data);
bool NameFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
std::string* data);
bool StringFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
std::string* data);
class SkPdfDictionary;
bool DictionaryFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfDictionary** data);
template <typename T>
bool DictionaryFromDictionary2(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
T** data);
class SkPdfObject;
bool ObjectFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfObject** data);
struct SkPdfFileSpec {};
class SkPdfArray;
struct SkPdfStream {};
struct SkPdfDate {};
struct SkPdfTree {};
struct SkPdfFunction {};
bool ArrayFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfArray* data);
bool FileSpecFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfFileSpec* data);
bool StreamFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfStream* data);
bool TreeFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfTree** data);
bool DateFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfDate* data);
bool SkRectFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkRect* data);
bool FunctionFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfFunction* data);
#include "SkPdfHeaders_autogen.h"
#include "SkPdfPodofoMapper_autogen.h"
#include "SkPdfParser.h"
bool ArrayFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfArray* data) {return false;}
bool FileSpecFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfFileSpec* data) {return false;}
bool StreamFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfStream* data) {return false;}
bool TreeFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfTree** data) {return false;}
bool DateFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfDate* data) {return false;}
bool FunctionFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfFunction* data) {return false;}
/*
* TODO(edisonn):
* - encapsulate podofo in the pdf api so the skpdf does not know anything about podofo ... in progress
* - ASAP so skp -> pdf -> png looks great
* - load gs/ especially smask and already known prop (skp)...
* - 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
* - 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
*/
//#define PDF_TRACE
//#define PDF_TRACE_DIFF_IN_PNG
//#define PDF_DEBUG_NO_CLIPING
//#define PDF_DEBUG_NO_PAGE_CLIPING
//#define PDF_DEBUG_3X
// TODO(edisonn): move in trace util.
#ifdef PDF_TRACE
static void SkTraceMatrix(const SkMatrix& matrix, const char* sz = "") {
printf("SkMatrix %s ", sz);
for (int i = 0 ; i < 9 ; i++) {
printf("%f ", SkScalarToDouble(matrix.get(i)));
}
printf("\n");
}
#else
#define SkTraceMatrix(a,b)
#endif
using namespace std;
using namespace PoDoFo;
// 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 ...
int GetColorSpaceComponents(const std::string& colorSpace) {
if (colorSpace == "DeviceCMYK") {
return 4;
} else if (colorSpace == "DeviceGray" ||
colorSpace == "CalGray" ||
colorSpace == "Indexed") {
return 1;
} else if (colorSpace == "DeviceRGB" ||
colorSpace == "CalRGB" ||
colorSpace == "Lab") {
return 3;
} else {
return 0;
}
}
const PdfObject* resolveReferenceObject(const PdfMemDocument* pdfDoc,
const PdfObject* obj,
bool resolveOneElementArrays) {
while (obj && (obj->IsReference() || (resolveOneElementArrays &&
obj->IsArray() &&
obj->GetArray().GetSize() == 1))) {
if (obj->IsReference()) {
// We need to force the non const, the only update we will do is for recurssion checks.
PdfReference& ref = (PdfReference&)obj->GetReference();
obj = pdfDoc->GetObjects().GetObject(ref);
} else {
obj = &obj->GetArray()[0];
}
}
return obj;
}
static 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;
}
// TODO(edisonn): better class design.
struct PdfColorOperator {
std::string fColorSpace; // TODO(edisonn): use SkString
SkColor fColor;
double fOpacity; // ca or CA
// TODO(edisonn): add here other color space options.
void setRGBColor(SkColor color) {
// TODO(edisonn): ASSERT DeviceRGB is the color space.
fColor = color;
}
// TODO(edisonn): double check the default values for all fields.
PdfColorOperator() : fColor(SK_ColorBLACK), fOpacity(1) {}
void applyGraphicsState(SkPaint* paint) {
paint->setColor(SkColorSetA(fColor, fOpacity * 255));
}
};
// TODO(edisonn): better class design.
struct PdfGraphicsState {
SkMatrix fMatrix;
SkMatrix fMatrixTm;
SkMatrix fMatrixTlm;
double fCurPosX;
double fCurPosY;
double fCurFontSize;
bool fTextBlock;
PdfFont* fCurFont;
SkPath fPath;
bool fPathClosed;
// Clip that is applied after the drawing is done!!!
bool fHasClipPathToApply;
SkPath fClipPath;
PdfColorOperator fStroking;
PdfColorOperator fNonStroking;
double fLineWidth;
double fTextLeading;
double fWordSpace;
double fCharSpace;
SkPdfResourceDictionary* fResources;
SkBitmap fSMask;
PdfGraphicsState() {
fCurPosX = 0.0;
fCurPosY = 0.0;
fCurFontSize = 0.0;
fTextBlock = false;
fCurFont = NULL;
fMatrix = SkMatrix::I();
fMatrixTm = SkMatrix::I();
fMatrixTlm = SkMatrix::I();
fPathClosed = true;
fLineWidth = 0;
fTextLeading = 0;
fWordSpace = 0;
fCharSpace = 0;
fHasClipPathToApply = false;
fResources = NULL;
}
void applyGraphicsState(SkPaint* paint, bool stroking) {
if (stroking) {
fStroking.applyGraphicsState(paint);
} else {
fNonStroking.applyGraphicsState(paint);
}
// TODO(edisonn): get this from pdfContext->options,
// or pdfContext->addPaintOptions(&paint);
paint->setAntiAlias(true);
// TODO(edisonn): dashing, miter, ...
paint->setStrokeWidth(SkDoubleToScalar(fLineWidth));
}
};
// TODO(edisonn): better class design.
struct PdfInlineImage {
std::map<std::string, std::string> fKeyValuePairs;
std::string fImageData;
};
// TODO(edisonn): better class design.
struct PdfContext {
std::stack<SkPdfObject*> fObjectStack;
std::stack<PdfGraphicsState> fStateStack;
PdfGraphicsState fGraphicsState;
SkPdfDoc& fPdfDoc;
SkMatrix fOriginalMatrix;
PdfInlineImage fInlineImage;
PdfContext(SkPdfDoc& doc) : fPdfDoc(doc) {}
};
// TODO(edisonn): temporary code, to report how much of the PDF we actually think we rendered.
enum PdfResult {
kOK_PdfResult,
kPartial_PdfResult,
kNYI_PdfResult,
kIgnoreError_PdfResult,
kError_PdfResult,
kUnsupported_PdfResult,
kCount_PdfResult
};
PdfContext* gPdfContext = NULL;
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;
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);
}
// TODO(edisonn): Pass PdfContext and SkCanvasd only with the define for instrumentation.
static bool readToken(SkPdfTokenizer fTokenizer, PdfToken* token) {
bool ret = fTokenizer.readToken(token);
gReadOp++;
#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 (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<SkDevice> 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()) {
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 (token->fType == kKeyword_TokenType) {
strcpy(gLastKeyword, token->fKeyword);
gLastOpKeyword = gReadOp;
} else {
strcpy(gLastKeyword, "");
}
#endif
return ret;
}
// TODO(edisonn): Document PdfTokenLooper and subclasses.
class PdfTokenLooper {
protected:
PdfTokenLooper* fParent;
SkPdfTokenizer fTokenizer;
PdfContext* fPdfContext;
SkCanvas* fCanvas;
public:
PdfTokenLooper(PdfTokenLooper* parent,
SkPdfTokenizer tokenizer,
PdfContext* pdfContext,
SkCanvas* canvas)
: fParent(parent), fTokenizer(tokenizer), fPdfContext(pdfContext), fCanvas(canvas) {}
virtual PdfResult consumeToken(PdfToken& token) = 0;
virtual void loop() = 0;
void setUp(PdfTokenLooper* parent) {
fParent = parent;
fTokenizer = parent->fTokenizer;
fPdfContext = parent->fPdfContext;
fCanvas = parent->fCanvas;
}
};
class PdfMainLooper : public PdfTokenLooper {
public:
PdfMainLooper(PdfTokenLooper* parent,
SkPdfTokenizer tokenizer,
PdfContext* pdfContext,
SkCanvas* canvas)
: PdfTokenLooper(parent, tokenizer, pdfContext, canvas) {}
virtual PdfResult consumeToken(PdfToken& token);
virtual void loop();
};
class PdfInlineImageLooper : public PdfTokenLooper {
public:
PdfInlineImageLooper()
: PdfTokenLooper(NULL, SkPdfTokenizer(), NULL, NULL) {}
virtual PdfResult consumeToken(PdfToken& token);
virtual void loop();
PdfResult done();
};
class PdfCompatibilitySectionLooper : public PdfTokenLooper {
public:
PdfCompatibilitySectionLooper()
: PdfTokenLooper(NULL, SkPdfTokenizer(), NULL, NULL) {}
virtual PdfResult consumeToken(PdfToken& token);
virtual void loop();
};
typedef PdfResult (*PdfOperatorRenderer)(PdfContext*, SkCanvas*, PdfTokenLooper**);
map<std::string, PdfOperatorRenderer> gPdfOps;
map<std::string, int> gRenderStats[kCount_PdfResult];
char* gRenderStatsNames[kCount_PdfResult] = {
"Success",
"Partially implemented",
"Not yet implemented",
"Ignore Error",
"Error",
"Unsupported/Unknown"
};
struct SkPdfStandardFont {
const char* fName;
bool fIsBold;
bool fIsItalic;
};
static map<std::string, SkPdfStandardFont>& getStandardFonts() {
static std::map<std::string, SkPdfStandardFont> gPdfStandardFonts;
// TODO (edisonn): , vs - ? what does it mean?
// TODO (edisonn): MT, PS, Oblique=italic?, ... what does it mean?
if (gPdfStandardFonts.empty()) {
gPdfStandardFonts["Arial"] = {"Arial", false, false};
gPdfStandardFonts["Arial,Bold"] = {"Arial", true, false};
gPdfStandardFonts["Arial,BoldItalic"] = {"Arial", true, true};
gPdfStandardFonts["Arial,Italic"] = {"Arial", false, true};
gPdfStandardFonts["Arial-Bold"] = {"Arial", true, false};
gPdfStandardFonts["Arial-BoldItalic"] = {"Arial", true, true};
gPdfStandardFonts["Arial-BoldItalicMT"] = {"Arial", true, true};
gPdfStandardFonts["Arial-BoldMT"] = {"Arial", true, false};
gPdfStandardFonts["Arial-Italic"] = {"Arial", false, true};
gPdfStandardFonts["Arial-ItalicMT"] = {"Arial", false, true};
gPdfStandardFonts["ArialMT"] = {"Arial", false, false};
gPdfStandardFonts["Courier"] = {"Courier New", false, false};
gPdfStandardFonts["Courier,Bold"] = {"Courier New", true, false};
gPdfStandardFonts["Courier,BoldItalic"] = {"Courier New", true, true};
gPdfStandardFonts["Courier,Italic"] = {"Courier New", false, true};
gPdfStandardFonts["Courier-Bold"] = {"Courier New", true, false};
gPdfStandardFonts["Courier-BoldOblique"] = {"Courier New", true, true};
gPdfStandardFonts["Courier-Oblique"] = {"Courier New", false, true};
gPdfStandardFonts["CourierNew"] = {"Courier New", false, false};
gPdfStandardFonts["CourierNew,Bold"] = {"Courier New", true, false};
gPdfStandardFonts["CourierNew,BoldItalic"] = {"Courier New", true, true};
gPdfStandardFonts["CourierNew,Italic"] = {"Courier New", false, true};
gPdfStandardFonts["CourierNew-Bold"] = {"Courier New", true, false};
gPdfStandardFonts["CourierNew-BoldItalic"] = {"Courier New", true, true};
gPdfStandardFonts["CourierNew-Italic"] = {"Courier New", false, true};
gPdfStandardFonts["CourierNewPS-BoldItalicMT"] = {"Courier New", true, true};
gPdfStandardFonts["CourierNewPS-BoldMT"] = {"Courier New", true, false};
gPdfStandardFonts["CourierNewPS-ItalicMT"] = {"Courier New", false, true};
gPdfStandardFonts["CourierNewPSMT"] = {"Courier New", false, false};
gPdfStandardFonts["Helvetica"] = {"Helvetica", false, false};
gPdfStandardFonts["Helvetica,Bold"] = {"Helvetica", true, false};
gPdfStandardFonts["Helvetica,BoldItalic"] = {"Helvetica", true, true};
gPdfStandardFonts["Helvetica,Italic"] = {"Helvetica", false, true};
gPdfStandardFonts["Helvetica-Bold"] = {"Helvetica", true, false};
gPdfStandardFonts["Helvetica-BoldItalic"] = {"Helvetica", true, true};
gPdfStandardFonts["Helvetica-BoldOblique"] = {"Helvetica", true, true};
gPdfStandardFonts["Helvetica-Italic"] = {"Helvetica", false, true};
gPdfStandardFonts["Helvetica-Oblique"] = {"Helvetica", false, true};
gPdfStandardFonts["Times-Bold"] = {"Times", true, false};
gPdfStandardFonts["Times-BoldItalic"] = {"Times", true, true};
gPdfStandardFonts["Times-Italic"] = {"Times", false, true};
gPdfStandardFonts["Times-Roman"] = {"Times New Roman", false, false};
gPdfStandardFonts["TimesNewRoman"] = {"Times New Roman", false, false};
gPdfStandardFonts["TimesNewRoman,Bold"] = {"Times New Roman", true, false};
gPdfStandardFonts["TimesNewRoman,BoldItalic"] = {"Times New Roman", true, true};
gPdfStandardFonts["TimesNewRoman,Italic"] = {"Times New Roman", false, true};
gPdfStandardFonts["TimesNewRoman-Bold"] = {"Times New Roman", true, false};
gPdfStandardFonts["TimesNewRoman-BoldItalic"] = {"Times New Roman", true, true};
gPdfStandardFonts["TimesNewRoman-Italic"] = {"Times New Roman", false, true};
gPdfStandardFonts["TimesNewRomanPS"] = {"Times New Roman", false, false};
gPdfStandardFonts["TimesNewRomanPS-Bold"] = {"Times New Roman", true, false};
gPdfStandardFonts["TimesNewRomanPS-BoldItalic"] = {"Times New Roman", true, true};
gPdfStandardFonts["TimesNewRomanPS-BoldItalicMT"] = {"Times New Roman", true, true};
gPdfStandardFonts["TimesNewRomanPS-BoldMT"] = {"Times New Roman", true, false};
gPdfStandardFonts["TimesNewRomanPS-Italic"] = {"Times New Roman", false, true};
gPdfStandardFonts["TimesNewRomanPS-ItalicMT"] = {"Times New Roman", false, true};
gPdfStandardFonts["TimesNewRomanPSMT"] = {"Times New Roman", false, false};
}
return gPdfStandardFonts;
}
static SkTypeface* SkTypefaceFromPdfStandardFont(const char* fontName, bool bold, bool italic) {
map<std::string, SkPdfStandardFont>& standardFontMap = getStandardFonts();
if (standardFontMap.find(fontName) != standardFontMap.end()) {
SkPdfStandardFont fontData = standardFontMap[fontName];
// TODO(edisonn): How does the bold/italic specified in standard definition combines with
// the one in /font key? use OR for now.
bold = bold || fontData.fIsBold;
italic = italic || fontData.fIsItalic;
SkTypeface* typeface = SkTypeface::CreateFromName(
fontData.fName,
SkTypeface::Style((bold ? SkTypeface::kBold : 0) |
(italic ? SkTypeface::kItalic : 0)));
if (typeface) {
typeface->ref();
}
return typeface;
}
return NULL;
}
static SkTypeface* SkTypefaceFromPdfFont(PdfFont* font) {
PdfObject* fontObject = font->GetObject();
PdfObject* pBaseFont = NULL;
// TODO(edisonn): warning, PoDoFo has a bug in PdfFont constructor, does not call InitVars()
// for now fixed locally.
pBaseFont = fontObject->GetIndirectKey( "BaseFont" );
const char* pszBaseFontName = pBaseFont->GetName().GetName().c_str();
#ifdef PDF_TRACE
std::string str;
fontObject->ToString(str);
printf("Base Font Name: %s\n", pszBaseFontName);
printf("Font Object Data: %s\n", str.c_str());
#endif
SkTypeface* typeface = SkTypefaceFromPdfStandardFont(pszBaseFontName, font->IsBold(), font->IsItalic());
if (typeface != NULL) {
return typeface;
}
char name[1000];
// HACK
strncpy(name, pszBaseFontName, 1000);
char* comma = strstr(name, ",");
char* dash = strstr(name, "-");
if (comma) *comma = '\0';
if (dash) *dash = '\0';
typeface = SkTypeface::CreateFromName(
name,
SkTypeface::Style((font->IsBold() ? SkTypeface::kBold : 0) |
(font->IsItalic() ? SkTypeface::kItalic : 0)));
if (typeface != NULL) {
#ifdef PDF_TRACE
printf("HACKED FONT found %s\n", name);
#endif
return typeface;
}
#ifdef PDF_TRACE
printf("FONT_NOT_FOUND %s\n", pszBaseFontName);
#endif
// TODO(edisonn): Report Warning, NYI
return SkTypeface::CreateFromName(
"Times New Roman",
SkTypeface::Style((font->IsBold() ? SkTypeface::kBold : 0) |
(font->IsItalic() ? SkTypeface::kItalic : 0)));
}
// TODO(edisonn): move this code in podofo, so we don't have to fix the font.
// This logic needs to be moved in PdfEncodingObjectFactory::CreateEncoding
std::map<PdfFont*, PdfCMapEncoding*> gFontsFixed;
PdfEncoding* FixPdfFont(PdfContext* pdfContext, PdfFont* fCurFont) {
// TODO(edisonn): and is Identity-H
if (gFontsFixed.find(fCurFont) == gFontsFixed.end()) {
if (fCurFont->GetObject()->IsDictionary() && fCurFont->GetObject()->GetDictionary().HasKey(PdfName("ToUnicode"))) {
PdfCMapEncoding* enc = new PdfCMapEncoding(
fCurFont->GetObject(),
(PdfObject*)resolveReferenceObject(&pdfContext->fPdfDoc.podofo(),
fCurFont->GetObject()->GetDictionary().GetKey(PdfName("ToUnicode"))),
PdfCMapEncoding::eBaseEncoding_Identity); // todo, read the base encoding
gFontsFixed[fCurFont] = enc;
return enc;
}
return NULL;
}
return gFontsFixed[fCurFont];
}
PdfResult DrawText(PdfContext* pdfContext,
PdfFont* fCurFont,
const PdfString& rString,
SkCanvas* canvas)
{
if (!fCurFont)
{
// TODO(edisonn): ignore the error, use the default font?
return kError_PdfResult;
}
const PdfEncoding* enc = FixPdfFont(pdfContext, fCurFont);
bool cMapUnicodeFont = enc != NULL;
if (!enc) enc = fCurFont->GetEncoding();
if (!enc)
{
// TODO(edisonn): Can we recover from this error?
return kError_PdfResult;
}
PdfString r2 = rString;
PdfString unicode;
if (cMapUnicodeFont) {
r2 = PdfString((pdf_utf16be*)rString.GetString(), rString.GetLength() / 2);
}
unicode = enc->ConvertToUnicode( r2, fCurFont );
#ifdef PDF_TRACE
printf("%i %i ? %c rString.len = %i\n", (int)rString.GetString()[0], (int)rString.GetString()[1], (int)rString.GetString()[1], rString.GetLength());
printf("%i %i %i %i %c unicode.len = %i\n", (int)unicode.GetString()[0], (int)unicode.GetString()[1], (int)unicode.GetString()[2], (int)unicode.GetString()[3], (int)unicode.GetString()[0], unicode.GetLength());
#endif
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->GetFontScale() != 0) {
paint.setTextScaleX(SkFloatToScalar(fCurFont->GetFontScale() / 100.0));
}
pdfContext->fGraphicsState.applyGraphicsState(&paint, false);
paint.setTypeface(SkTypefaceFromPdfFont(fCurFont));
paint.setAntiAlias(true);
// TODO(edisonn): paint.setStyle(...);
canvas->save();
SkMatrix matrix = pdfContext->fGraphicsState.fMatrixTm;
#if 0
// Reverse now the space, otherwise the text is upside down.
SkScalar z = SkIntToScalar(0);
SkScalar one = SkIntToScalar(1);
SkPoint normalSpace1[4] = {SkPoint::Make(z, z), SkPoint::Make(one, z), SkPoint::Make(one, one), SkPoint::Make(z, one)};
SkPoint mirrorSpace1[4];
pdfContext->fGraphicsState.fMatrixTm.mapPoints(mirrorSpace1, normalSpace1, 4);
SkPoint normalSpace2[4] = {SkPoint::Make(z, z), SkPoint::Make(one, z), SkPoint::Make(one, -one), SkPoint::Make(z, -one)};
SkPoint mirrorSpace2[4];
pdfContext->fGraphicsState.fMatrixTm.mapPoints(mirrorSpace2, normalSpace2, 4);
#ifdef PDF_TRACE
printf("mirror1[0], x = %f y = %f\n", SkScalarToDouble(mirrorSpace1[0].x()), SkScalarToDouble(mirrorSpace1[0].y()));
printf("mirror1[1], x = %f y = %f\n", SkScalarToDouble(mirrorSpace1[1].x()), SkScalarToDouble(mirrorSpace1[1].y()));
printf("mirror1[2], x = %f y = %f\n", SkScalarToDouble(mirrorSpace1[2].x()), SkScalarToDouble(mirrorSpace1[2].y()));
printf("mirror1[3], x = %f y = %f\n", SkScalarToDouble(mirrorSpace1[3].x()), SkScalarToDouble(mirrorSpace1[3].y()));
printf("mirror2[0], x = %f y = %f\n", SkScalarToDouble(mirrorSpace2[0].x()), SkScalarToDouble(mirrorSpace2[0].y()));
printf("mirror2[1], x = %f y = %f\n", SkScalarToDouble(mirrorSpace2[1].x()), SkScalarToDouble(mirrorSpace2[1].y()));
printf("mirror2[2], x = %f y = %f\n", SkScalarToDouble(mirrorSpace2[2].x()), SkScalarToDouble(mirrorSpace2[2].y()));
printf("mirror2[3], x = %f y = %f\n", SkScalarToDouble(mirrorSpace2[3].x()), SkScalarToDouble(mirrorSpace2[3].y()));
#endif
SkMatrix mirror;
SkASSERT(mirror.setPolyToPoly(mirrorSpace1, mirrorSpace2, 4));
// TODO(edisonn): text positioning wrong right now. Need to get matrix operations right.
matrix.preConcat(mirror);
canvas->setMatrix(matrix);
#endif
SkPoint point1;
pdfContext->fGraphicsState.fMatrixTm.mapXY(SkIntToScalar(0), SkIntToScalar(0), &point1);
SkMatrix mirror;
mirror.setTranslate(0, -point1.y());
// TODO(edisonn): fix rotated text, and skewed too
mirror.postScale(SK_Scalar1, -SK_Scalar1);
// TODO(edisonn): post rotate, skew
mirror.postTranslate(0, point1.y());
matrix.postConcat(mirror);
canvas->setMatrix(matrix);
SkTraceMatrix(matrix, "mirrored");
#ifdef PDF_TRACE
SkPoint point;
pdfContext->fGraphicsState.fMatrixTm.mapXY(SkDoubleToScalar(0), SkDoubleToScalar(0), &point);
printf("Original SkCanvas resolved coordinates, x = %f y = %f\n", SkScalarToDouble(point.x()), SkScalarToDouble(point.y()));
matrix.mapXY(SkDoubleToScalar(0), SkDoubleToScalar(0), &point);
printf("Mirored SkCanvas resolved coordinates, x = %f y = %f\n", SkScalarToDouble(point.x()), SkScalarToDouble(point.y()));
#endif
// TODO(edisonn): remove this call once we load the font properly
// The extra * will show that we got at least the text positioning right
// even if font failed to be loaded
// canvas->drawText(".", 1, SkDoubleToScalar(-5.0), SkDoubleToScalar(0.0), paint);
// TODO(edisonn): use character and word spacing .. add utility function
if (cMapUnicodeFont) {
paint.setTextEncoding(SkPaint::kUTF16_TextEncoding);
SkScalar textWidth = paint.measureText(unicode.GetString(), unicode.GetLength());
pdfContext->fGraphicsState.fMatrixTm.preTranslate(textWidth, SkDoubleToScalar(0.0));
canvas->drawText(unicode.GetString(), unicode.GetLength(), SkDoubleToScalar(0.0), SkDoubleToScalar(0.0), paint);
}
else {
paint.setTextEncoding(SkPaint::kUTF8_TextEncoding);
SkScalar textWidth = paint.measureText(unicode.GetStringUtf8().c_str(), strlen(unicode.GetStringUtf8().c_str()));
pdfContext->fGraphicsState.fMatrixTm.preTranslate(textWidth, SkDoubleToScalar(0.0));
canvas->drawText(unicode.GetStringUtf8().c_str(), strlen(unicode.GetStringUtf8().c_str()), SkDoubleToScalar(0.0), SkDoubleToScalar(0.0), paint);
}
// paint.setTextEncoding(SkPaint::kUTF8_TextEncoding);
// unsigned char ch = *(unicode.GetString() + 3);
// if ((ch & 0xC0) != 0x80 && ch < 0x80) {
// printf("x%i", ch);
// SkScalar textWidth = paint.measureText(&ch, 1);
// pdfContext->fGraphicsState.fMatrixTm.preTranslate(textWidth, SkDoubleToScalar(0.0));
// canvas->drawText(&ch, 1, SkDoubleToScalar(0.0), SkDoubleToScalar(0.0), paint);
// }
canvas->restore();
return kPartial_PdfResult;
}
// TODO(edisonn): create header files with declarations!
PdfResult PdfOp_q(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper);
PdfResult PdfOp_Q(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper);
PdfResult PdfOp_Tw(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper);
PdfResult PdfOp_Tc(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper);
// TODO(edisonn): deal with synonyms (/BPC == /BitsPerComponent), here or in GetKey?
// Always pass long form in key, and have a map of long -> short key
bool LongFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
long* data) {
const PdfObject* value = resolveReferenceObject(pdfDoc,
dict.GetKey(PdfName(key)));
if (value == NULL || !value->IsNumber()) {
return false;
}
if (data == NULL) {
return true;
}
*data = value->GetNumber();
return true;
}
bool LongFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
long* data) {
if (LongFromDictionary(pdfDoc, dict, key, data)) return true;
if (abr == NULL || *abr == '\0') return false;
return LongFromDictionary(pdfDoc, dict, abr, data);
}
bool DoubleFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
double* data) {
const PdfObject* value = resolveReferenceObject(pdfDoc,
dict.GetKey(PdfName(key)));
if (value == NULL || (!value->IsReal() && !value->IsNumber())) {
return false;
}
if (data == NULL) {
return true;
}
*data = value->GetReal();
return true;
}
bool DoubleFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
double* data) {
if (DoubleFromDictionary(pdfDoc, dict, key, data)) return true;
if (abr == NULL || *abr == '\0') return false;
return DoubleFromDictionary(pdfDoc, dict, abr, data);
}
bool BoolFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
bool* data) {
const PdfObject* value = resolveReferenceObject(pdfDoc,
dict.GetKey(PdfName(key)));
if (value == NULL || !value->IsBool()) {
return false;
}
if (data == NULL) {
return true;
}
*data = value->GetBool();
return true;
}
bool BoolFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
bool* data) {
if (BoolFromDictionary(pdfDoc, dict, key, data)) return true;
if (abr == NULL || *abr == '\0') return false;
return BoolFromDictionary(pdfDoc, dict, abr, data);
}
bool NameFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
std::string* data) {
const PdfObject* value = resolveReferenceObject(pdfDoc,
dict.GetKey(PdfName(key)),
true);
if (value == NULL || !value->IsName()) {
return false;
}
if (data == NULL) {
return true;
}
*data = value->GetName().GetName();
return true;
}
bool NameFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
std::string* data) {
if (NameFromDictionary(pdfDoc, dict, key, data)) return true;
if (abr == NULL || *abr == '\0') return false;
return NameFromDictionary(pdfDoc, dict, abr, data);
}
bool StringFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
std::string* data) {
const PdfObject* value = resolveReferenceObject(pdfDoc,
dict.GetKey(PdfName(key)),
true);
if (value == NULL || (!value->IsString() && !value->IsHexString())) {
return false;
}
if (data == NULL) {
return true;
}
*data = value->GetString().GetString();
return true;
}
bool StringFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
std::string* data) {
if (StringFromDictionary(pdfDoc, dict, key, data)) return true;
if (abr == NULL || *abr == '\0') return false;
return StringFromDictionary(pdfDoc, dict, abr, data);
}
bool DictionaryFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
SkPdfDictionary** data) {
const PdfObject* value = resolveReferenceObject(pdfDoc,
dict.GetKey(PdfName(key)),
true);
if (value == NULL || !value->IsDictionary()) {
return false;
}
if (data == NULL) {
return true;
}
return PodofoMapper::map(*pdfDoc, *value, (SkPdfObject**)data);
}
bool DictionaryFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfDictionary** data) {
if (DictionaryFromDictionary(pdfDoc, dict, key, data)) return true;
if (abr == NULL || *abr == '\0') return false;
return DictionaryFromDictionary(pdfDoc, dict, abr, data);
}
template <typename T>
bool DictionaryFromDictionary2(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
SkPdfDictionary** data) {
const PdfObject* value = resolveReferenceObject(pdfDoc,
dict.GetKey(PdfName(key)),
true);
if (value == NULL || !value->IsDictionary()) {
return false;
}
if (data == NULL) {
return true;
}
return PodofoMapper::map(*pdfDoc, *value, (T**)data);
}
template <typename T>
bool DictionaryFromDictionary2(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
T** data) {
if (DictionaryFromDictionary2<T>(pdfDoc, dict, key, data)) return true;
if (abr == NULL || *abr == '\0') return false;
return DictionaryFromDictionary2<T>(pdfDoc, dict, abr, data);
}
bool ObjectFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
SkPdfObject** data) {
const PdfObject* value = resolveReferenceObject(pdfDoc,
dict.GetKey(PdfName(key)),
true);
if (value == NULL) {
return false;
}
if (data == NULL) {
return true;
}
return PodofoMapper::map(*pdfDoc, *value, data);
}
bool ObjectFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkPdfObject** data) {
if (ObjectFromDictionary(pdfDoc, dict, key, data)) return true;
if (abr == NULL || *abr == '\0') return false;
return ObjectFromDictionary(pdfDoc, dict, abr, data);
}
// 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;
}
SkBitmap transferImageStreamToBitmap(unsigned char* uncompressedStream, pdf_long uncompressedStreamLength,
int width, int height, int bytesPerLine,
int bpc, const std::string& colorSpace,
bool transparencyMask) {
SkBitmap bitmap;
int components = GetColorSpaceComponents(colorSpace);
//#define MAX_COMPONENTS 10
int bitsPerLine = width * components * bpc;
// 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 * (height - 1 - 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 * (height - 1 - 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;
}
bool transferImageStreamToARGB(unsigned char* uncompressedStream, pdf_long uncompressedStreamLength,
int width, int bytesPerLine,
int bpc, const std::string& colorSpace,
SkColor** uncompressedStreamArgb,
pdf_long* uncompressedStreamLengthInBytesArgb) {
int components = GetColorSpaceComponents(colorSpace);
//#define MAX_COMPONENTS 10
int bitsPerLine = width * components * bpc;
// TODO(edisonn): assume start of lines are aligned at 32 bits?
int height = uncompressedStreamLength / bytesPerLine;
// minimal support for now
if ((colorSpace == "DeviceRGB" || colorSpace == "RGB") && bpc == 8) {
*uncompressedStreamLengthInBytesArgb = width * height * 4;
*uncompressedStreamArgb = (SkColor*)malloc(*uncompressedStreamLengthInBytesArgb);
for (int h = 0 ; h < height; h++) {
long i = width * (height - 1 - 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;
}
return true;
}
if ((colorSpace == "DeviceGray" || colorSpace == "Gray") && bpc == 8) {
*uncompressedStreamLengthInBytesArgb = width * height * 4;
*uncompressedStreamArgb = (SkColor*)malloc(*uncompressedStreamLengthInBytesArgb);
for (int h = 0 ; h < height; h++) {
long i = width * (height - 1 - h);
for (int w = 0 ; w < width; w++) {
(*uncompressedStreamArgb)[i] = SkColorSetRGB(uncompressedStream[w],
uncompressedStream[w],
uncompressedStream[w]);
i++;
}
uncompressedStream += bytesPerLine;
}
return true;
}
return false;
}
// 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.
SkBitmap getImageFromObject(PdfContext* pdfContext, const SkPdfImageDictionary* image, bool transparencyMask) {
if (image == NULL || !image->valid()) {
// TODO(edisonn): report warning to be used in testing.
return SkBitmap();
}
// 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()
// }
long bpc = image->BitsPerComponent();
long width = image->Width();
long height = image->Height();
std::string colorSpace = "DeviceRGB";
// TODO(edisonn): color space can be an array too!
if (image->isColorSpaceAName()) {
colorSpace = image->getColorSpaceAsName();
}
/*
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 PdfObject* obj = image->podofo();
char* uncompressedStream = NULL;
pdf_long uncompressedStreamLength = 0;
PdfResult ret = kPartial_PdfResult;
// TODO(edisonn): get rid of try/catch exceptions! We should not throw on user data!
try {
obj->GetStream()->GetFilteredCopy(&uncompressedStream, &uncompressedStreamLength);
} catch (PdfError& e) {
// TODO(edisonn): report warning to be used in testing.
return SkBitmap();
}
int bytesPerLine = uncompressedStreamLength / height;
#ifdef PDF_TRACE
if (uncompressedStreamLength % height != 0) {
printf("Warning uncompressedStreamLength % height != 0 !!!\n");
}
#endif
SkBitmap bitmap = transferImageStreamToBitmap(
(unsigned char*)uncompressedStream, uncompressedStreamLength,
width, height, bytesPerLine,
bpc, colorSpace,
transparencyMask);
free(uncompressedStream);
return bitmap;
}
SkBitmap getSmaskFromObject(PdfContext* pdfContext, const SkPdfImageDictionary* obj) {
const PdfObject* sMask = resolveReferenceObject(&pdfContext->fPdfDoc.podofo(),
obj->podofo()->GetDictionary().GetKey(PdfName("SMask")));
#ifdef PDF_TRACE
std::string str;
if (sMask) {
sMask->ToString(str);
printf("/SMask of /Subtype /Image: %s\n", str.c_str());
}
#endif
if (sMask) {
SkPdfImageDictionary skxobjmask(&pdfContext->fPdfDoc.podofo(), sMask);
return getImageFromObject(pdfContext, &skxobjmask, true);
}
// TODO(edisonn): implement GS SMask. Default to empty right now.
return pdfContext->fGraphicsState.fSMask;
}
PdfResult doXObject_Image(PdfContext* pdfContext, SkCanvas* canvas, const SkPdfImageDictionary* skpdfimage) {
if (skpdfimage == NULL || !skpdfimage->valid()) {
return kIgnoreError_PdfResult;
}
SkBitmap image = getImageFromObject(pdfContext, skpdfimage, false);
SkBitmap sMask = getSmaskFromObject(pdfContext, skpdfimage);
canvas->save();
canvas->setMatrix(pdfContext->fGraphicsState.fMatrix);
SkRect dst = SkRect::MakeXYWH(SkDoubleToScalar(0.0), SkDoubleToScalar(0.0), SkDoubleToScalar(1.0), SkDoubleToScalar(1.0));
if (sMask.empty()) {
canvas->drawBitmapRect(image, dst, NULL);
} else {
canvas->saveLayer(&dst, NULL);
canvas->drawBitmapRect(image, dst, NULL);
SkPaint xfer;
pdfContext->fGraphicsState.applyGraphicsState(&xfer, false);
xfer.setXfermodeMode(SkXfermode::kSrcOut_Mode); // SkXfermode::kSdtOut_Mode
canvas->drawBitmapRect(sMask, dst, &xfer);
canvas->restore();
}
canvas->restore();
return kPartial_PdfResult;
}
bool SkMatrixFromDictionary(PdfContext* pdfContext,
const PdfDictionary& dict,
const char* key,
SkMatrix* matrix) {
const PdfObject* value = resolveReferenceObject(&pdfContext->fPdfDoc.podofo(),
dict.GetKey(PdfName(key)));
if (value == NULL || !value->IsArray()) {
return false;
}
if (value->GetArray().GetSize() != 6) {
return false;
}
double array[6];
for (int i = 0; i < 6; i++) {
const PdfObject* elem = resolveReferenceObject(&pdfContext->fPdfDoc.podofo(), &value->GetArray()[i]);
if (elem == NULL || (!elem->IsReal() && !elem->IsNumber())) {
return false;
}
array[i] = elem->GetReal();
}
*matrix = SkMatrixFromPdfMatrix(array);
return true;
}
bool SkRectFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
SkRect* rect) {
const PdfObject* value = resolveReferenceObject(pdfDoc,
dict.GetKey(PdfName(key)));
if (value == NULL || !value->IsArray()) {
return false;
}
if (value->GetArray().GetSize() != 4) {
return false;
}
double array[4];
for (int i = 0; i < 4; i++) {
const PdfObject* elem = resolveReferenceObject(pdfDoc, &value->GetArray()[i]);
if (elem == NULL || (!elem->IsReal() && !elem->IsNumber())) {
return false;
}
array[i] = elem->GetReal();
}
*rect = SkRect::MakeLTRB(SkDoubleToScalar(array[0]),
SkDoubleToScalar(array[1]),
SkDoubleToScalar(array[2]),
SkDoubleToScalar(array[3]));
return true;
}
bool SkRectFromDictionary(const PdfMemDocument* pdfDoc,
const PdfDictionary& dict,
const char* key,
const char* abr,
SkRect* data) {
if (SkRectFromDictionary(pdfDoc, dict, key, data)) return true;
if (abr == NULL || *abr == '\0') return false;
return SkRectFromDictionary(pdfDoc, dict, abr, data);
}
SkPdfObject* get(const SkPdfObject* obj, const char* key, const char* abr = "") {
SkPdfObject* ret = NULL;
if (obj == NULL) return NULL;
const SkPdfDictionary* dict = obj->asDictionary();
if (dict == NULL) return NULL;
if (!dict->podofo()->IsDictionary()) return NULL;
ObjectFromDictionary(dict->doc(), dict->podofo()->GetDictionary(), key, abr, &ret);
return ret;
}
PdfResult doXObject_Form(PdfContext* pdfContext, SkCanvas* canvas, SkPdfType1FormDictionary* skobj) {
if (!skobj || !skobj->podofo() || !skobj->podofo()->HasStream() || skobj->podofo()->GetStream() == NULL || skobj->podofo()->GetStream()->GetLength() == 0) {
return kOK_PdfResult;
}
PdfOp_q(pdfContext, canvas, NULL);
canvas->save();
if (get(skobj, "Resources")) {
SkPdfResourceDictionary* res = NULL;
PodofoMapper::map(*get(skobj, "Resources"), &res);
if (res) {
pdfContext->fGraphicsState.fResources = res;
}
}
SkTraceMatrix(pdfContext->fGraphicsState.fMatrix, "Current matrix");
SkMatrix matrix;
if (SkMatrixFromDictionary(pdfContext, skobj->podofo()->GetDictionary(), "Matrix", &matrix)) {
pdfContext->fGraphicsState.fMatrix.preConcat(matrix);
pdfContext->fGraphicsState.fMatrixTm = pdfContext->fGraphicsState.fMatrix;
pdfContext->fGraphicsState.fMatrixTlm = pdfContext->fGraphicsState.fMatrix;
// TODO(edisonn) reset matrixTm and matricTlm also?
}
SkTraceMatrix(pdfContext->fGraphicsState.fMatrix, "Total matrix");
canvas->setMatrix(pdfContext->fGraphicsState.fMatrix);
SkRect bbox;
if (SkRectFromDictionary(&pdfContext->fPdfDoc.podofo(), skobj->podofo()->GetDictionary(), "BBox", &bbox)) {
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.
char* uncompressedStream = NULL;
pdf_long uncompressedStreamLength = 0;
PdfResult ret = kPartial_PdfResult;
// TODO(edisonn): get rid of try/catch exceptions! We should not throw on user data!
try {
skobj->podofo()->GetStream()->GetFilteredCopy(&uncompressedStream, &uncompressedStreamLength);
if (uncompressedStream != NULL && uncompressedStreamLength != 0) {
SkPdfTokenizer tokenizer = pdfContext->fPdfDoc.tokenizerOfStream(uncompressedStream, uncompressedStreamLength);
PdfMainLooper looper(NULL, tokenizer, pdfContext, canvas);
looper.loop();
}
free(uncompressedStream);
} catch (PdfError& e) {
ret = kIgnoreError_PdfResult;
}
// 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 ret;
}
PdfResult doXObject_PS(PdfContext* pdfContext, SkCanvas* canvas, const PdfObject& obj) {
return kNYI_PdfResult;
}
// TODO(edisonn): faster, have the property on the SkPdfObject itself?
std::set<const PdfObject*> gInRendering;
class CheckRecursiveRendering {
const PdfObject& fObj;
public:
CheckRecursiveRendering(const PdfObject& obj) : fObj(obj) {
gInRendering.insert(&obj);
}
~CheckRecursiveRendering() {
//SkASSERT(fObj.fInRendering);
gInRendering.erase(&fObj);
}
static bool IsInRendering(const PdfObject& obj) {
return gInRendering.find(&obj) != gInRendering.end();
}
};
PdfResult doXObject(PdfContext* pdfContext, SkCanvas* canvas, const SkPdfObject& obj) {
if (CheckRecursiveRendering::IsInRendering(*obj.podofo())) {
// Oops, corrupt PDF!
return kIgnoreError_PdfResult;
}
CheckRecursiveRendering checkRecursion(*obj.podofo());
// TODO(edisonn): check type
SkPdfXObjectDictionary* skobj = NULL;
if (!PodofoMapper::map(obj, &skobj)) return kIgnoreError_PdfResult;
if (!skobj || !skobj->valid()) return kIgnoreError_PdfResult;
PdfResult ret = kIgnoreError_PdfResult;
switch (skobj->getType())
{
case kImageDictionary_SkPdfObjectType:
ret = doXObject_Image(pdfContext, canvas, skobj->asImageDictionary());
break;
case kType1FormDictionary_SkPdfObjectType:
ret = doXObject_Form(pdfContext, canvas, skobj->asType1FormDictionary());
break;
//case kObjectDictionaryXObjectPS_SkPdfObjectType:
//return doXObject_PS(skxobj.asPS());
}
delete skobj;
return ret;
}
PdfResult PdfOp_q(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fStateStack.push(pdfContext->fGraphicsState);
canvas->save();
return kOK_PdfResult;
}
PdfResult PdfOp_Q(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fGraphicsState = pdfContext->fStateStack.top();
pdfContext->fStateStack.pop();
canvas->restore();
return kOK_PdfResult;
}
PdfResult PdfOp_cm(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
double array[6];
for (int i = 0 ; i < 6 ; i++) {
array[5 - i] = pdfContext->fObjectStack.top()->asNumber()->value();
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.fMatrix.preConcat(matrix);
#ifdef PDF_TRACE
printf("cm ");
for (int i = 0 ; i < 6 ; i++) {
printf("%f ", array[i]);
}
printf("\n");
SkTraceMatrix(pdfContext->fGraphicsState.fMatrix);
#endif
return kOK_PdfResult;
}
//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.
PdfResult PdfOp_TL(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
double ty = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
pdfContext->fGraphicsState.fTextLeading = ty;
return kOK_PdfResult;
}
PdfResult PdfOp_Td(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
double ty = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double tx = pdfContext->fObjectStack.top()->asNumber()->value(); 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_PdfResult;
}
PdfResult PdfOp_TD(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
double ty = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double tx = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
// TODO(edisonn): Create factory methods or constructors so podofo is hidden
PdfObject _ty(PdfVariant(-ty));
pdfContext->fObjectStack.push(new SkPdfNumber(&pdfContext->fPdfDoc.podofo(), &_ty));
PdfOp_TL(pdfContext, canvas, looper);
PdfObject vtx(PdfVariant(-(-tx))); // TODO(edisonn): Hmm, the compiler thinks I have here a function pointer if we use (tx), but not -(-tx)
pdfContext->fObjectStack.push(new SkPdfNumber(&pdfContext->fPdfDoc.podofo(), &vtx));
PdfObject vty(PdfVariant(-(-ty)));
pdfContext->fObjectStack.push(new SkPdfNumber(&pdfContext->fPdfDoc.podofo(), &vty));
return PdfOp_Td(pdfContext, canvas, looper);
}
PdfResult PdfOp_Tm(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
double f = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double e = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double d = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double c = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double b = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double a = pdfContext->fObjectStack.top()->asNumber()->value(); 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.fMatrix);
// TODO(edisonn): Text positioning.
pdfContext->fGraphicsState.fMatrixTm = matrix;
pdfContext->fGraphicsState.fMatrixTlm = matrix;;
return kPartial_PdfResult;
}
//— 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
PdfResult PdfOp_T_star(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
PdfObject zero(PdfVariant(0.0));
PdfObject tl(PdfVariant(-(-pdfContext->fGraphicsState.fTextLeading)));
pdfContext->fObjectStack.push(new SkPdfNumber(&pdfContext->fPdfDoc.podofo(), &zero));
pdfContext->fObjectStack.push(new SkPdfNumber(&pdfContext->fPdfDoc.podofo(), &tl));
return PdfOp_Td(pdfContext, canvas, looper);
}
PdfResult PdfOp_m(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
if (pdfContext->fGraphicsState.fPathClosed) {
pdfContext->fGraphicsState.fPath.reset();
pdfContext->fGraphicsState.fPathClosed = false;
}
pdfContext->fGraphicsState.fCurPosY = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
pdfContext->fGraphicsState.fCurPosX = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
pdfContext->fGraphicsState.fPath.moveTo(SkDoubleToScalar(pdfContext->fGraphicsState.fCurPosX),
SkDoubleToScalar(pdfContext->fGraphicsState.fCurPosY));
return kOK_PdfResult;
}
PdfResult PdfOp_l(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
if (pdfContext->fGraphicsState.fPathClosed) {
pdfContext->fGraphicsState.fPath.reset();
pdfContext->fGraphicsState.fPathClosed = false;
}
pdfContext->fGraphicsState.fCurPosY = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
pdfContext->fGraphicsState.fCurPosX = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
pdfContext->fGraphicsState.fPath.lineTo(SkDoubleToScalar(pdfContext->fGraphicsState.fCurPosX),
SkDoubleToScalar(pdfContext->fGraphicsState.fCurPosY));
return kOK_PdfResult;
}
PdfResult PdfOp_c(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
if (pdfContext->fGraphicsState.fPathClosed) {
pdfContext->fGraphicsState.fPath.reset();
pdfContext->fGraphicsState.fPathClosed = false;
}
double y3 = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double x3 = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double y2 = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double x2 = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double y1 = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double x1 = pdfContext->fObjectStack.top()->asNumber()->value(); 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_PdfResult;
}
PdfResult PdfOp_v(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
if (pdfContext->fGraphicsState.fPathClosed) {
pdfContext->fGraphicsState.fPath.reset();
pdfContext->fGraphicsState.fPathClosed = false;
}
double y3 = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double x3 = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double y2 = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double x2 = pdfContext->fObjectStack.top()->asNumber()->value(); 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_PdfResult;
}
PdfResult PdfOp_y(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
if (pdfContext->fGraphicsState.fPathClosed) {
pdfContext->fGraphicsState.fPath.reset();
pdfContext->fGraphicsState.fPathClosed = false;
}
double y3 = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double x3 = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double y2 = pdfContext->fGraphicsState.fCurPosY;
double x2 = pdfContext->fGraphicsState.fCurPosX;
double y1 = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double x1 = pdfContext->fObjectStack.top()->asNumber()->value(); 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_PdfResult;
}
PdfResult PdfOp_re(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
if (pdfContext->fGraphicsState.fPathClosed) {
pdfContext->fGraphicsState.fPath.reset();
pdfContext->fGraphicsState.fPathClosed = false;
}
double height = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double width = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double y = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double x = pdfContext->fObjectStack.top()->asNumber()->value(); 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_PdfResult;
}
PdfResult PdfOp_h(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fGraphicsState.fPath.close();
pdfContext->fGraphicsState.fPathClosed = true;
return kOK_PdfResult;
}
PdfResult PdfOp_fillAndStroke(PdfContext* pdfContext, SkCanvas* canvas, bool fill, bool stroke, bool close, bool evenOdd) {
SkPath path = pdfContext->fGraphicsState.fPath;
if (close) {
path.close();
}
canvas->setMatrix(pdfContext->fGraphicsState.fMatrix);
SkPaint paint;
SkPoint line[2];
if (fill && !stroke && path.isLine(line)) {
paint.setStyle(SkPaint::kStroke_Style);
pdfContext->fGraphicsState.applyGraphicsState(&paint, false);
paint.setStrokeWidth(SkDoubleToScalar(0));
canvas->drawPath(path, paint);
} else {
if (fill) {
paint.setStyle(SkPaint::kFill_Style);
if (evenOdd) {
path.setFillType(SkPath::kEvenOdd_FillType);
}
pdfContext->fGraphicsState.applyGraphicsState(&paint, false);
canvas->drawPath(path, paint);
}
if (stroke) {
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 kPartial_PdfResult;
}
PdfResult PdfOp_S(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_fillAndStroke(pdfContext, canvas, false, true, false, false);
}
PdfResult PdfOp_s(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_fillAndStroke(pdfContext, canvas, false, true, true, false);
}
PdfResult PdfOp_F(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_fillAndStroke(pdfContext, canvas, true, false, false, false);
}
PdfResult PdfOp_f(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_fillAndStroke(pdfContext, canvas, true, false, false, false);
}
PdfResult PdfOp_f_star(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_fillAndStroke(pdfContext, canvas, true, false, false, true);
}
PdfResult PdfOp_B(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_fillAndStroke(pdfContext, canvas, true, true, false, false);
}
PdfResult PdfOp_B_star(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_fillAndStroke(pdfContext, canvas, true, true, false, true);
}
PdfResult PdfOp_b(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_fillAndStroke(pdfContext, canvas, true, true, true, false);
}
PdfResult PdfOp_b_star(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_fillAndStroke(pdfContext, canvas, true, true, true, true);
}
PdfResult PdfOp_n(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
canvas->setMatrix(pdfContext->fGraphicsState.fMatrix);
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_PdfResult;
}
PdfResult PdfOp_BT(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fGraphicsState.fTextBlock = true;
pdfContext->fGraphicsState.fMatrixTm = pdfContext->fGraphicsState.fMatrix;
pdfContext->fGraphicsState.fMatrixTlm = pdfContext->fGraphicsState.fMatrix;
return kPartial_PdfResult;
}
PdfResult PdfOp_ET(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
if (!pdfContext->fGraphicsState.fTextBlock) {
return kIgnoreError_PdfResult;
}
// TODO(edisonn): anything else to be done once we are done with draw text? Like restore stack?
return kPartial_PdfResult;
}
//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.
PdfResult PdfOp_Tf(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fGraphicsState.fCurFontSize = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
std::string fontName = pdfContext->fObjectStack.top()->asName()->value(); pdfContext->fObjectStack.pop();
#ifdef PDF_TRACE
printf("font name: %s\n", fontName.c_str());
std::string str;
pdfContext->fGraphicsState.fResources->podofo()->ToString(str);
printf("Print Tf font Resources: %s\n", str.c_str());
#endif
// TODO(edisonn): Load font from pdfContext->fGraphicsState.fObjectWithResources ?
const PdfObject* pFont = resolveReferenceObject(&pdfContext->fPdfDoc.podofo(),
pdfContext->fGraphicsState.fResources->Font()->get(fontName.c_str()).podofo());
if( !pFont )
{
// TODO(edisonn): try to ignore the error, make sure we do not crash.
return kIgnoreError_PdfResult;
}
pdfContext->fGraphicsState.fCurFont = pdfContext->fPdfDoc.podofo().GetFont( (PdfObject*)pFont );
if( !pdfContext->fGraphicsState.fCurFont )
{
// TODO(edisonn): check ~/crasing, for one of the files PoDoFo throws exception
// when calling pFont->Reference(), with Linked list corruption.
return kIgnoreError_PdfResult;
}
return kPartial_PdfResult;
}
PdfResult PdfOp_Tj(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
if (!pdfContext->fGraphicsState.fTextBlock) {
// TODO(edisonn): try to recover and draw it any way?
return kIgnoreError_PdfResult;
}
PdfResult ret = DrawText(pdfContext,
pdfContext->fGraphicsState.fCurFont,
pdfContext->fObjectStack.top()->podofo()->GetString(),
canvas);
pdfContext->fObjectStack.pop();
return ret;
}
PdfResult PdfOp_quote(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
if (!pdfContext->fGraphicsState.fTextBlock) {
// TODO(edisonn): try to recover and draw it any way?
return kIgnoreError_PdfResult;
}
PdfOp_T_star(pdfContext, canvas, looper);
// Do not pop, and push, just transfer the param to Tj
return PdfOp_Tj(pdfContext, canvas, looper);
}
PdfResult PdfOp_doublequote(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
if (!pdfContext->fGraphicsState.fTextBlock) {
// TODO(edisonn): try to recover and draw it any way?
return kIgnoreError_PdfResult;
}
SkPdfObject* str = pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop();
SkPdfObject* ac = pdfContext->fObjectStack.top(); pdfContext->fObjectStack.pop();
SkPdfObject* 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_PdfResult;
}
PdfResult PdfOp_TJ(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
if (!pdfContext->fGraphicsState.fTextBlock) {
// TODO(edisonn): try to recover and draw it any way?
return kIgnoreError_PdfResult;
}
SkPdfArray* array = pdfContext->fObjectStack.top()->asArray();
pdfContext->fObjectStack.pop();
for( int i=0; i<static_cast<int>(array->size()); i++ )
{
if( (*array)[i].asString()) {
DrawText(pdfContext,
pdfContext->fGraphicsState.fCurFont,
(*array)[i].podofo()->GetString(),
canvas);
} else if ((*array)[i].asInteger() || (*array)[i].asNumber()) {
double dx = (*array)[i].asNumber()->value();
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_PdfResult; // TODO(edisonn): Implement fully DrawText before returing OK.
}
PdfResult PdfOp_CS_cs(PdfContext* pdfContext, SkCanvas* canvas, PdfColorOperator* colorOperator) {
colorOperator->fColorSpace = pdfContext->fObjectStack.top()->asName()->value(); pdfContext->fObjectStack.pop();
return kOK_PdfResult;
}
PdfResult PdfOp_CS(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_CS_cs(pdfContext, canvas, &pdfContext->fGraphicsState.fStroking);
}
PdfResult PdfOp_cs(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_CS_cs(pdfContext, canvas, &pdfContext->fGraphicsState.fNonStroking);
}
PdfResult PdfOp_SC_sc(PdfContext* pdfContext, SkCanvas* canvas, PdfColorOperator* colorOperator) {
double c[4];
pdf_int64 v[4];
int n = GetColorSpaceComponents(colorOperator->fColorSpace);
bool doubles = true;
if (colorOperator->fColorSpace == "Indexed") {
doubles = false;
}
#ifdef PDF_TRACE
printf("color space = %s, N = %i\n", colorOperator->fColorSpace.c_str(), n);
#endif
for (int i = n - 1; i >= 0 ; i--) {
if (doubles) {
c[i] = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
} else {
v[i] = pdfContext->fObjectStack.top()->asInteger()->value(); pdfContext->fObjectStack.pop();
}
}
// TODO(edisonn): Now, set that color. Only DeviceRGB supported.
if (colorOperator->fColorSpace == "DeviceRGB") {
colorOperator->setRGBColor(SkColorSetRGB(255*c[0], 255*c[1], 255*c[2]));
}
return kPartial_PdfResult;
}
PdfResult PdfOp_SC(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_SC_sc(pdfContext, canvas, &pdfContext->fGraphicsState.fStroking);
}
PdfResult PdfOp_sc(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_SC_sc(pdfContext, canvas, &pdfContext->fGraphicsState.fNonStroking);
}
PdfResult PdfOp_SCN_scn(PdfContext* pdfContext, SkCanvas* canvas, PdfColorOperator* colorOperator) {
PdfString name;
if (pdfContext->fObjectStack.top()->asName()) {
pdfContext->fObjectStack.pop();
}
// TODO(edisonn): SCN supports more color spaces than SCN. Read and implement spec.
PdfOp_SC_sc(pdfContext, canvas, colorOperator);
return kPartial_PdfResult;
}
PdfResult PdfOp_SCN(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_SCN_scn(pdfContext, canvas, &pdfContext->fGraphicsState.fStroking);
}
PdfResult PdfOp_scn(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_SCN_scn(pdfContext, canvas, &pdfContext->fGraphicsState.fNonStroking);
}
PdfResult PdfOp_G_g(PdfContext* pdfContext, SkCanvas* canvas, PdfColorOperator* colorOperator) {
double gray = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
PdfResult PdfOp_G(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_G_g(pdfContext, canvas, &pdfContext->fGraphicsState.fStroking);
}
PdfResult PdfOp_g(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_G_g(pdfContext, canvas, &pdfContext->fGraphicsState.fNonStroking);
}
PdfResult PdfOp_RG_rg(PdfContext* pdfContext, SkCanvas* canvas, PdfColorOperator* colorOperator) {
double b = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double g = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double r = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
colorOperator->fColorSpace = "DeviceRGB";
colorOperator->setRGBColor(SkColorSetRGB(255*r, 255*g, 255*b));
return kOK_PdfResult;
}
PdfResult PdfOp_RG(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_RG_rg(pdfContext, canvas, &pdfContext->fGraphicsState.fStroking);
}
PdfResult PdfOp_rg(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_RG_rg(pdfContext, canvas, &pdfContext->fGraphicsState.fNonStroking);
}
PdfResult PdfOp_K_k(PdfContext* pdfContext, SkCanvas* canvas, PdfColorOperator* colorOperator) {
// TODO(edisonn): spec has some rules about overprint, implement them.
double k = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double y = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double m = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
double c = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
colorOperator->fColorSpace = "DeviceCMYK";
// TODO(edisonn): Set color.
return kNYI_PdfResult;
}
PdfResult PdfOp_K(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_K_k(pdfContext, canvas, &pdfContext->fGraphicsState.fStroking);
}
PdfResult PdfOp_k(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return PdfOp_K_k(pdfContext, canvas, &pdfContext->fGraphicsState.fNonStroking);
}
PdfResult PdfOp_W(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fGraphicsState.fClipPath = pdfContext->fGraphicsState.fPath;
pdfContext->fGraphicsState.fHasClipPathToApply = true;
return kOK_PdfResult;
}
PdfResult PdfOp_W_star(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fGraphicsState.fClipPath = pdfContext->fGraphicsState.fPath;
#ifdef PDF_TRACE
if (pdfContext->fGraphicsState.fClipPath.isRect(NULL)) {
printf("CLIP IS RECT\n");
}
#endif
// TODO(edisonn): there seem to be a bug with clipPath of a rect with even odd.
pdfContext->fGraphicsState.fClipPath.setFillType(SkPath::kEvenOdd_FillType);
pdfContext->fGraphicsState.fHasClipPathToApply = true;
return kPartial_PdfResult;
}
PdfResult PdfOp_BX(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
*looper = new PdfCompatibilitySectionLooper();
return kOK_PdfResult;
}
PdfResult PdfOp_EX(PdfContext* 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_PdfResult;
}
PdfResult PdfOp_BI(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
*looper = new PdfInlineImageLooper();
return kOK_PdfResult;
}
PdfResult PdfOp_ID(PdfContext* 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_PdfResult;
}
PdfResult PdfOp_EI(PdfContext* 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_PdfResult;
}
//lineWidth w Set the line width in the graphics state (see “Line Width” on page 152).
PdfResult PdfOp_w(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
double lineWidth = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
pdfContext->fGraphicsState.fLineWidth = lineWidth;
return kOK_PdfResult;
}
//lineCap J Set the line cap style in the graphics state (see “Line Cap Style” on page 153).
PdfResult PdfOp_J(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fObjectStack.pop();
//double lineCap = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//lineJoin j Set the line join style in the graphics state (see “Line Join Style” on page 153).
PdfResult PdfOp_j(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fObjectStack.pop();
//double lineJoin = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//miterLimit M Set the miter limit in the graphics state (see “Miter Limit” on page 153).
PdfResult PdfOp_M(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fObjectStack.pop();
//double miterLimit = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//dashArray dashPhase d Set the line dash pattern in the graphics state (see “Line Dash Pattern” on
//page 155).
PdfResult PdfOp_d(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fObjectStack.pop();
pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//intent ri (PDF 1.1) Set the color rendering intent in the graphics state (see “Rendering Intents” on page 197).
PdfResult PdfOp_ri(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//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 devices default flatness tolerance.
PdfResult PdfOp_i(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//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).
PdfResult PdfOp_gs(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
std::string name = pdfContext->fObjectStack.top()->asName()->value(); pdfContext->fObjectStack.pop();
#ifdef PDF_TRACE
std::string str;
#endif
//Next, get the ExtGState Dictionary from the Resource Dictionary:
const SkPdfDictionary* extGStateDictionary = pdfContext->fGraphicsState.fResources->ExtGState();
if (extGStateDictionary == NULL) {
#ifdef PDF_TRACE
printf("ExtGState is NULL!\n");
#endif
return kIgnoreError_PdfResult;
}
SkPdfObject value = extGStateDictionary->get(name.c_str());
#ifdef PDF_TRACE
// value->ToString(str);
// printf("gs object value: %s\n", str.c_str());
#endif
SkPdfGraphicsStateDictionary* gs = NULL;
PodofoMapper::map(value, &gs);
// TODO(edisonn): now load all those properties in graphic state.
if (gs == NULL) {
return kIgnoreError_PdfResult;
}
if (gs->has_CA()) {
pdfContext->fGraphicsState.fStroking.fOpacity = gs->CA();
}
if (gs->has_ca()) {
pdfContext->fGraphicsState.fNonStroking.fOpacity = gs->ca();
}
if (gs->has_LW()) {
pdfContext->fGraphicsState.fLineWidth = gs->LW();
}
return kNYI_PdfResult;
}
//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.
PdfResult PdfOp_Tc(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
double charSpace = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
pdfContext->fGraphicsState.fCharSpace = charSpace;
return kOK_PdfResult;
}
//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.
PdfResult PdfOp_Tw(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
double wordSpace = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
pdfContext->fGraphicsState.fWordSpace = wordSpace;
return kOK_PdfResult;
}
//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).
PdfResult PdfOp_Tz(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
double scale = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//render Tr Set the text rendering mode, T
//mode, to render, which is an integer. Initial value: 0.
PdfResult PdfOp_Tr(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
double render = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//rise Ts Set the text rise, Trise, to rise, which is a number expressed in unscaled text space
//units. Initial value: 0.
PdfResult PdfOp_Ts(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
double rise = pdfContext->fObjectStack.top()->asNumber()->value(); pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//wx wy d0
PdfResult PdfOp_d0(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fObjectStack.pop();
pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//wx wy llx lly urx ury d1
PdfResult PdfOp_d1(PdfContext* 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_PdfResult;
}
//name sh
PdfResult PdfOp_sh(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//name Do
PdfResult PdfOp_Do(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
std::string name = pdfContext->fObjectStack.top()->asName()->value(); pdfContext->fObjectStack.pop();
SkPdfDictionary* xObject = pdfContext->fGraphicsState.fResources->XObject();
if (xObject == NULL) {
#ifdef PDF_TRACE
printf("XObject is NULL!\n");
#endif
return kIgnoreError_PdfResult;
}
SkPdfObject value = xObject->get(name.c_str());
#ifdef PDF_TRACE
// value->ToString(str);
// printf("Do object value: %s\n", str.c_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.
PdfResult PdfOp_MP(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//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”).
PdfResult PdfOp_DP(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fObjectStack.pop();
pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//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.
PdfResult PdfOp_BMC(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//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”).
PdfResult PdfOp_BDC(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
pdfContext->fObjectStack.pop();
pdfContext->fObjectStack.pop();
return kNYI_PdfResult;
}
//— EMC End a marked-content sequence begun by a BMC or BDC operator.
PdfResult PdfOp_EMC(PdfContext* pdfContext, SkCanvas* canvas, PdfTokenLooper** looper) {
return kNYI_PdfResult;
}
void initPdfOperatorRenderes() {
static bool gInitialized = false;
if (gInitialized) {
return;
}
gPdfOps["q"] = PdfOp_q;
gPdfOps["Q"] = PdfOp_Q;
gPdfOps["cm"] = PdfOp_cm;
gPdfOps["TD"] = PdfOp_TD;
gPdfOps["Td"] = PdfOp_Td;
gPdfOps["Tm"] = PdfOp_Tm;
gPdfOps["T*"] = PdfOp_T_star;
gPdfOps["m"] = PdfOp_m;
gPdfOps["l"] = PdfOp_l;
gPdfOps["c"] = PdfOp_c;
gPdfOps["v"] = PdfOp_v;
gPdfOps["y"] = PdfOp_y;
gPdfOps["h"] = PdfOp_h;
gPdfOps["re"] = PdfOp_re;
gPdfOps["S"] = PdfOp_S;
gPdfOps["s"] = PdfOp_s;
gPdfOps["f"] = PdfOp_f;
gPdfOps["F"] = PdfOp_F;
gPdfOps["f*"] = PdfOp_f_star;
gPdfOps["B"] = PdfOp_B;
gPdfOps["B*"] = PdfOp_B_star;
gPdfOps["b"] = PdfOp_b;
gPdfOps["b*"] = PdfOp_b_star;
gPdfOps["n"] = PdfOp_n;
gPdfOps["BT"] = PdfOp_BT;
gPdfOps["ET"] = PdfOp_ET;
gPdfOps["Tj"] = PdfOp_Tj;
gPdfOps["'"] = PdfOp_quote;
gPdfOps["\""] = PdfOp_doublequote;
gPdfOps["TJ"] = PdfOp_TJ;
gPdfOps["CS"] = PdfOp_CS;
gPdfOps["cs"] = PdfOp_cs;
gPdfOps["SC"] = PdfOp_SC;
gPdfOps["SCN"] = PdfOp_SCN;
gPdfOps["sc"] = PdfOp_sc;
gPdfOps["scn"] = PdfOp_scn;
gPdfOps["G"] = PdfOp_G;
gPdfOps["g"] = PdfOp_g;
gPdfOps["RG"] = PdfOp_RG;
gPdfOps["rg"] = PdfOp_rg;
gPdfOps["K"] = PdfOp_K;
gPdfOps["k"] = PdfOp_k;
gPdfOps["W"] = PdfOp_W;
gPdfOps["W*"] = PdfOp_W_star;
gPdfOps["BX"] = PdfOp_BX;
gPdfOps["EX"] = PdfOp_EX;
gPdfOps["BI"] = PdfOp_BI;
gPdfOps["ID"] = PdfOp_ID;
gPdfOps["EI"] = PdfOp_EI;
gPdfOps["w"] = PdfOp_w;
gPdfOps["J"] = PdfOp_J;
gPdfOps["j"] = PdfOp_j;
gPdfOps["M"] = PdfOp_M;
gPdfOps["d"] = PdfOp_d;
gPdfOps["ri"] = PdfOp_ri;
gPdfOps["i"] = PdfOp_i;
gPdfOps["gs"] = PdfOp_gs;
gPdfOps["Tc"] = PdfOp_Tc;
gPdfOps["Tw"] = PdfOp_Tw;
gPdfOps["Tz"] = PdfOp_Tz;
gPdfOps["TL"] = PdfOp_TL;
gPdfOps["Tf"] = PdfOp_Tf;
gPdfOps["Tr"] = PdfOp_Tr;
gPdfOps["Ts"] = PdfOp_Ts;
gPdfOps["d0"] = PdfOp_d0;
gPdfOps["d1"] = PdfOp_d1;
gPdfOps["sh"] = PdfOp_sh;
gPdfOps["Do"] = PdfOp_Do;
gPdfOps["MP"] = PdfOp_MP;
gPdfOps["DP"] = PdfOp_DP;
gPdfOps["BMC"] = PdfOp_BMC;
gPdfOps["BDC"] = PdfOp_BDC;
gPdfOps["EMC"] = PdfOp_EMC;
gInitialized = true;
}
void reportPdfRenderStats() {
std::map<std::string, int>::iterator iter;
for (int i = 0 ; i < kCount_PdfResult; i++) {
for (iter = gRenderStats[i].begin(); iter != gRenderStats[i].end(); ++iter) {
printf("%s: %s -> count %i\n", gRenderStatsNames[i], iter->first.c_str(), iter->second);
}
}
}
PdfResult PdfMainLooper::consumeToken(PdfToken& token) {
if (token.fType == kKeyword_TokenType)
{
// TODO(edisonn): log trace flag (verbose, error, info, warning, ...)
#ifdef PDF_TRACE
printf("KEYWORD: %s\n", token.fKeyword);
#endif
PdfOperatorRenderer pdfOperatorRenderer = gPdfOps[token.fKeyword];
if (pdfOperatorRenderer) {
// caller, main work is done by pdfOperatorRenderer(...)
PdfTokenLooper* childLooper = NULL;
gRenderStats[pdfOperatorRenderer(fPdfContext, fCanvas, &childLooper)][token.fKeyword]++;
if (childLooper) {
childLooper->setUp(this);
childLooper->loop();
delete childLooper;
}
} else {
gRenderStats[kUnsupported_PdfResult][token.fKeyword]++;
}
}
else if (token.fType == kObject_TokenType)
{
#ifdef PDF_TRACE
std::string _var;
token.fObject->podofo()->ToString(_var);
printf("var: %s\n", _var.c_str());
#endif
fPdfContext->fObjectStack.push( token.fObject );
}
else if ( token.fType == kImageData_TokenType) {
// TODO(edisonn): implement inline image.
}
else {
return kIgnoreError_PdfResult;
}
return kOK_PdfResult;
}
void PdfMainLooper::loop() {
PdfToken token;
while (readToken(fTokenizer, &token)) {
consumeToken(token);
}
}
PdfResult PdfInlineImageLooper::consumeToken(PdfToken& token) {
//pdfContext.fInlineImage.fKeyValuePairs[key] = value;
return kNYI_PdfResult;
}
void PdfInlineImageLooper::loop() {
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();
} else {
if (token.fType == kKeyword_TokenType && strcmp(token.fKeyword, "EI") == 0) {
done();
return;
}
consumeToken(token);
}
}
// TODO(edisonn): report error/warning, EOF without EI.
}
PdfResult PdfInlineImageLooper::done() {
// TODO(edisonn): long to short names
// TODO(edisonn): set properties in a map
// TODO(edisonn): extract bitmap stream, check if PoDoFo has public utilities to uncompress
// the stream.
SkBitmap bitmap;
setup_bitmap(&bitmap, 50, 50, SK_ColorRED);
// TODO(edisonn): matrix use.
// Draw dummy red square, to show the prezence of the inline image.
fCanvas->drawBitmap(bitmap,
SkDoubleToScalar(0),
SkDoubleToScalar(0),
NULL);
return kNYI_PdfResult;
}
PdfResult 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.
class SkPdfViewer : public SkRefCnt {
public:
bool load(const SkString inputFileName, SkPicture* out) {
initPdfOperatorRenderes();
try
{
std::cout << "Init: " << inputFileName.c_str() << std::endl;
SkPdfDoc doc(inputFileName.c_str());
if( !doc.pages() )
{
std::cout << "ERROR: Empty Document" << inputFileName.c_str() << std::endl;
return false;
} else {
for (int pn = 0; pn < doc.pages(); ++pn) {
SkPdfPageObjectDictionary* page = doc.page(pn);
// TODO(edisonn): implement inheritance properties as per PDF spec
//SkRect rect = page->MediaBox();
SkRect rect = doc.MediaBox(pn);
#ifdef PDF_TRACE
printf("Page Width: %f, Page Height: %f\n", SkScalarToDouble(rect.width()), SkScalarToDouble(rect.height()));
#endif
// TODO(edisonn): page->GetCropBox(), page->GetTrimBox() ... how to use?
SkBitmap bitmap;
#ifdef PDF_DEBUG_3X
setup_bitmap(&bitmap, 3 * (int)SkScalarToDouble(rect.width()), 3 * (int)SkScalarToDouble(rect.height()))
#else
setup_bitmap(&bitmap, (int)SkScalarToDouble(rect.width()), (int)SkScalarToDouble(rect.height()));
#endif
SkAutoTUnref<SkDevice> device(SkNEW_ARGS(SkDevice, (bitmap)));
SkCanvas canvas(device);
SkPdfTokenizer tokenizer = doc.tokenizerOfPage(pn);
PdfContext pdfContext(doc);
pdfContext.fOriginalMatrix = SkMatrix::I();
pdfContext.fGraphicsState.fResources = NULL;
PodofoMapper::map(*page->Resources(), &pdfContext.fGraphicsState.fResources);
gPdfContext = &pdfContext;
gDumpBitmap = &bitmap;
gDumpCanvas = &canvas;
// TODO(edisonn): get matrix stuff right.
// TODO(edisonn): add DPI/scale/zoom.
SkScalar z = SkIntToScalar(0);
SkScalar w = rect.width();
SkScalar h = rect.height();
SkPoint pdfSpace[4] = {SkPoint::Make(z, z), SkPoint::Make(w, z), SkPoint::Make(w, h), SkPoint::Make(z, h)};
// 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.fMatrix = pdfContext.fOriginalMatrix;
pdfContext.fGraphicsState.fMatrixTm = pdfContext.fGraphicsState.fMatrix;
pdfContext.fGraphicsState.fMatrixTlm = pdfContext.fGraphicsState.fMatrix;
canvas.setMatrix(pdfContext.fOriginalMatrix);
#ifndef PDF_DEBUG_NO_PAGE_CLIPING
canvas.clipRect(SkRect::MakeXYWH(z, z, w, h), SkRegion::kIntersect_Op, true);
#endif
PdfMainLooper looper(NULL, tokenizer, &pdfContext, &canvas);
looper.loop();
canvas.flush();
SkString out;
out.appendf("%s-%i.png", inputFileName.c_str(), pn);
SkImageEncoder::EncodeFile(out.c_str(), bitmap, SkImageEncoder::kPNG_Type, 100);
}
return true;
}
}
catch( PdfError & e )
{
std::cout << "ERROR: PDF can't be parsed!" << inputFileName.c_str() << std::endl;
return false;
}
return true;
}
bool write(void*) const { return false; }
};
/**
* Given list of directories and files to use as input, expects to find .pdf
* files and it will convert them to .png files writing them in the same directory
* one file for each page.
*
* Returns zero exit code if all .pdf files were converted successfully,
* otherwise returns error code 1.
*/
static const char PDF_FILE_EXTENSION[] = "pdf";
static const char PNG_FILE_EXTENSION[] = "png";
// TODO(edisonn): add ability to write to a new directory.
static void usage(const char* argv0) {
SkDebugf("PDF to PNG rendering tool\n");
SkDebugf("\n"
"Usage: \n"
" %s <input>... -w <outputDir> \n"
, argv0);
SkDebugf("\n\n");
SkDebugf(
" input: A list of directories and files to use as input. Files are\n"
" expected to have the .skp extension.\n\n");
SkDebugf(
" outputDir: directory to write the rendered pdfs.\n\n");
SkDebugf("\n");
}
/** Replaces the extension of a file.
* @param path File name whose extension will be changed.
* @param old_extension The old extension.
* @param new_extension The new extension.
* @returns false if the file did not has the expected extension.
* if false is returned, contents of path are undefined.
*/
static bool replace_filename_extension(SkString* path,
const char old_extension[],
const char new_extension[]) {
if (path->endsWith(old_extension)) {
path->remove(path->size() - strlen(old_extension),
strlen(old_extension));
if (!path->endsWith(".")) {
return false;
}
path->append(new_extension);
return true;
}
return false;
}
/** Builds the output filename. path = dir/name, and it replaces expected
* .skp extension with .pdf extention.
* @param path Output filename.
* @param name The name of the file.
* @returns false if the file did not has the expected extension.
* if false is returned, contents of path are undefined.
*/
static bool make_output_filepath(SkString* path, const SkString& dir,
const SkString& name) {
sk_tools::make_filepath(path, dir, name);
return replace_filename_extension(path,
PDF_FILE_EXTENSION,
PNG_FILE_EXTENSION);
}
/** Write the output of pdf renderer to a file.
* @param outputDir Output dir.
* @param inputFilename The skp file that was read.
* @param renderer The object responsible to write the pdf file.
*/
static bool write_output(const SkString& outputDir,
const SkString& inputFilename,
const SkPdfViewer& renderer) {
if (outputDir.isEmpty()) {
SkDynamicMemoryWStream stream;
renderer.write(&stream);
return true;
}
SkString outputPath;
if (!make_output_filepath(&outputPath, outputDir, inputFilename)) {
return false;
}
SkFILEWStream stream(outputPath.c_str());
if (!stream.isValid()) {
SkDebugf("Could not write to file %s\n", outputPath.c_str());
return false;
}
renderer.write(&stream);
return true;
}
/** Reads an skp file, renders it to pdf and writes the output to a pdf file
* @param inputPath The skp file to be read.
* @param outputDir Output dir.
* @param renderer The object responsible to render the skp object into pdf.
*/
static bool parse_pdf(const SkString& inputPath, const SkString& outputDir,
SkPdfViewer& renderer) {
SkString inputFilename;
sk_tools::get_basename(&inputFilename, inputPath);
SkFILEStream inputStream;
inputStream.setPath(inputPath.c_str());
if (!inputStream.isValid()) {
SkDebugf("Could not open file %s\n", inputPath.c_str());
return false;
}
bool success = false;
success = renderer.load(inputPath, NULL);
// success = write_output(outputDir, inputFilename, renderer);
//renderer.end();
return success;
}
/** For each file in the directory or for the file passed in input, call
* parse_pdf.
* @param input A directory or an pdf file.
* @param outputDir Output dir.
* @param renderer The object responsible to render the skp object into pdf.
*/
static int process_input(const SkString& input, const SkString& outputDir,
SkPdfViewer& renderer) {
int failures = 0;
if (sk_isdir(input.c_str())) {
SkOSFile::Iter iter(input.c_str(), PDF_FILE_EXTENSION);
SkString inputFilename;
while (iter.next(&inputFilename)) {
SkString inputPath;
sk_tools::make_filepath(&inputPath, input, inputFilename);
if (!parse_pdf(inputPath, outputDir, renderer)) {
++failures;
}
}
} else {
SkString inputPath(input);
if (!parse_pdf(inputPath, outputDir, renderer)) {
++failures;
}
}
return failures;
}
static void parse_commandline(int argc, char* const argv[],
SkTArray<SkString>* inputs,
SkString* outputDir) {
const char* argv0 = argv[0];
char* const* stop = argv + argc;
for (++argv; argv < stop; ++argv) {
if ((0 == strcmp(*argv, "-h")) || (0 == strcmp(*argv, "--help"))) {
usage(argv0);
exit(-1);
} else if (0 == strcmp(*argv, "-w")) {
++argv;
if (argv >= stop) {
SkDebugf("Missing outputDir for -w\n");
usage(argv0);
exit(-1);
}
*outputDir = SkString(*argv);
} else {
inputs->push_back(SkString(*argv));
}
}
if (inputs->count() < 1) {
usage(argv0);
exit(-1);
}
}
int tool_main(int argc, char** argv);
int tool_main(int argc, char** argv) {
SkAutoGraphics ag;
SkTArray<SkString> inputs;
SkAutoTUnref<SkPdfViewer>
renderer(SkNEW(SkPdfViewer));
SkASSERT(renderer.get());
SkString outputDir;
parse_commandline(argc, argv, &inputs, &outputDir);
int failures = 0;
for (int i = 0; i < inputs.count(); i ++) {
failures += process_input(inputs[i], outputDir, *renderer);
}
reportPdfRenderStats();
if (failures != 0) {
SkDebugf("Failed to render %i PDFs.\n", failures);
return 1;
}
return 0;
}
#if !defined SK_BUILD_FOR_IOS
int main(int argc, char * const argv[]) {
return tool_main(argc, (char**) argv);
}
#endif
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