/* * Copyright 2013 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SkPdfFont_DEFINED #define SkPdfFont_DEFINED #include "SkPdfHeaders_autogen.h" #include "SkPdfMapper_autogen.h" #include "SkTypeface.h" #include "SkUtils.h" #include "SkPdfGraphicsState.h" #include "SkPdfUtils.h" #include "SkTDict.h" class SkPdfType0Font; class SkPdfType1Font; class SkPdfType3Font; class SkPdfTrueTypeFont; class SkPdfMultiMasterFont; class SkPdfFont; struct SkPdfStandardFontEntry { // We don't own this pointer! const char* fName; bool fIsBold; bool fIsItalic; SkPdfStandardFontEntry() : fName(NULL), fIsBold(false), fIsItalic(false) {} SkPdfStandardFontEntry(const char* name, bool bold, bool italic) : fName(name), fIsBold(bold), fIsItalic(italic) {} }; SkTDict& getStandardFonts(); SkTypeface* SkTypefaceFromPdfStandardFont(const char* fontName, bool bold, bool italic); SkPdfFont* fontFromName(SkPdfNativeDoc* doc, SkPdfNativeObject* obj, const char* fontName); struct SkUnencodedText { void* text; int len; public: SkUnencodedText(const SkPdfString* obj) { text = (void*)obj->c_str(); len = obj->lenstr(); } }; struct SkDecodedText { uint16_t* text; int len; public: unsigned int operator[](int i) const { return text[i]; } int size() const { return len; } }; struct SkUnicodeText { uint16_t* text; int len; public: unsigned int operator[](int i) const { return text[i]; } int size() const { return len; } }; class SkPdfEncoding { public: virtual bool decodeText(const SkUnencodedText& textIn, SkDecodedText* textOut) const = 0; static SkPdfEncoding* fromName(const char* name); }; SkTDict& getStandardEncodings(); class SkPdfToUnicode { SkPdfNativeDoc* fParsed; // TODO(edisonn): hide public members public: unsigned short* fCMapEncoding; unsigned char* fCMapEncodingFlag; SkPdfToUnicode(SkPdfNativeDoc* parsed, SkPdfStream* stream); }; class SkPdfIdentityHEncoding : public SkPdfEncoding { public: virtual bool decodeText(const SkUnencodedText& textIn, SkDecodedText* textOut) const { // TODO(edisonn): SkASSERT(textIn.len % 2 == 0); or report error? uint16_t* text = (uint16_t*)textIn.text; textOut->text = new uint16_t[textIn.len / 2]; textOut->len = textIn.len / 2; for (int i = 0; i < textOut->len; i++) { textOut->text[i] = ((text[i] << 8) & 0xff00) | ((text[i] >> 8) & 0x00ff); } return true; } static SkPdfIdentityHEncoding* instance() { static SkPdfIdentityHEncoding* inst = new SkPdfIdentityHEncoding(); return inst; } }; // TODO(edisonn): using this one when no encoding is specified class SkPdfDefaultEncoding : public SkPdfEncoding { public: virtual bool decodeText(const SkUnencodedText& textIn, SkDecodedText* textOut) const { // TODO(edisonn): SkASSERT(textIn.len % 2 == 0); or report error? unsigned char* text = (unsigned char*)textIn.text; textOut->text = new uint16_t[textIn.len]; textOut->len = textIn.len; for (int i = 0; i < textOut->len; i++) { textOut->text[i] = text[i]; } return true; } static SkPdfDefaultEncoding* instance() { static SkPdfDefaultEncoding* inst = new SkPdfDefaultEncoding(); return inst; } }; class SkPdfCIDToGIDMapIdentityEncoding : public SkPdfEncoding { public: virtual bool decodeText(const SkUnencodedText& textIn, SkDecodedText* textOut) const { // TODO(edisonn): SkASSERT(textIn.len % 2 == 0); or report error? uint16_t* text = (uint16_t*)textIn.text; textOut->text = new uint16_t[textIn.len / 2]; textOut->len = textIn.len / 2; for (int i = 0; i < textOut->len; i++) { textOut->text[i] = ((text[i] << 8) & 0xff00) | ((text[i] >> 8) & 0x00ff); } return true; } static SkPdfCIDToGIDMapIdentityEncoding* instance() { static SkPdfCIDToGIDMapIdentityEncoding* inst = new SkPdfCIDToGIDMapIdentityEncoding(); return inst; } }; class SkPdfFont { public: SkPdfFont* fBaseFont; SkPdfEncoding* fEncoding; SkPdfToUnicode* fToUnicode; public: SkPdfFont() : fBaseFont(NULL), fEncoding(SkPdfDefaultEncoding::instance()), fToUnicode(NULL) {} virtual ~SkPdfFont() { // TODO(edisonn): NYI (will leak for now) } const SkPdfEncoding* encoding() const {return fEncoding;} void drawText(const SkDecodedText& text, SkPaint* paint, SkPdfContext* pdfContext, SkCanvas* canvas) { for (int i = 0 ; i < text.size(); i++) { canvas->setMatrix(pdfContext->fGraphicsState.fMatrixTm); #ifdef PDF_TRACE SkPoint point = SkPoint::Make(SkDoubleToScalar(0), SkDoubleToScalar(0)); pdfContext->fGraphicsState.fMatrixTm.mapPoints(&point, 1); printf("DrawText at (%f, %f)\n", SkScalarToDouble(point.x()), SkScalarToDouble(point.y())); #endif // PDF_TRACE #ifdef PDF_TRACE_DRAWTEXT SkPaint col; col.setColor(SK_ColorMAGENTA); SkRect rect = SkRect::MakeXYWH(SkDoubleToScalar(0.0), SkDoubleToScalar(0.0), SkDoubleToScalar(10.0), SkDoubleToScalar(10.0)); canvas->save(); canvas->setMatrix(pdfContext->fGraphicsState.fMatrixTm); canvas->drawRect(rect, col); canvas->restore(); #endif double width = drawOneChar(text[i], paint, pdfContext, canvas); pdfContext->fGraphicsState.fMatrixTm.preTranslate(SkDoubleToScalar(width), SkDoubleToScalar(0.0)); } } void ToUnicode(const SkDecodedText& textIn, SkUnicodeText* textOut) const { if (fToUnicode) { textOut->text = new uint16_t[textIn.len]; textOut->len = textIn.len; for (int i = 0; i < textIn.len; i++) { textOut->text[i] = fToUnicode->fCMapEncoding[textIn.text[i]]; } } else { textOut->text = textIn.text; textOut->len = textIn.len; } }; inline unsigned int ToUnicode(unsigned int ch) const { if (fToUnicode && fToUnicode->fCMapEncoding) { return fToUnicode->fCMapEncoding[ch]; } else { return ch; } }; static SkPdfFont* fontFromPdfDictionary(SkPdfNativeDoc* doc, SkPdfFontDictionary* dict); static SkPdfFont* Default() {return fontFromName(NULL, NULL, "TimesNewRoman");} static SkPdfType0Font* fontFromType0FontDictionary(SkPdfNativeDoc* doc, SkPdfType0FontDictionary* dict); static SkPdfType1Font* fontFromType1FontDictionary(SkPdfNativeDoc* doc, SkPdfType1FontDictionary* dict); static SkPdfType3Font* fontFromType3FontDictionary(SkPdfNativeDoc* doc, SkPdfType3FontDictionary* dict); static SkPdfTrueTypeFont* fontFromTrueTypeFontDictionary(SkPdfNativeDoc* doc, SkPdfTrueTypeFontDictionary* dict); static SkPdfMultiMasterFont* fontFromMultiMasterFontDictionary(SkPdfNativeDoc* doc, SkPdfMultiMasterFontDictionary* dict); static SkPdfFont* fontFromFontDescriptor(SkPdfNativeDoc* doc, SkPdfFontDescriptorDictionary* fd, bool loadFromName = true); public: virtual double drawOneChar(unsigned int ch, SkPaint* paint, SkPdfContext* pdfContext, SkCanvas* canvas) = 0; virtual void afterWord(SkPaint* paint, SkMatrix* matrix) = 0; private: static SkPdfFont* fontFromPdfDictionaryOnce(SkPdfNativeDoc* doc, SkPdfFontDictionary* dict); }; class SkPdfStandardFont : public SkPdfFont { SkTypeface* fTypeface; public: SkPdfStandardFont(SkTypeface* typeface) : fTypeface(typeface) {} public: virtual double drawOneChar(unsigned int ch, SkPaint* paint, SkPdfContext* pdfContext, SkCanvas* canvas) { paint->setTypeface(fTypeface); paint->setTextEncoding(SkPaint::kUTF8_TextEncoding); unsigned long ch4 = ch; char utf8[10]; int len = SkUTF8_FromUnichar(ch4, utf8); canvas->drawText(utf8, len, SkDoubleToScalar(0), SkDoubleToScalar(0), *paint); SkScalar textWidth = paint->measureText(utf8, len); return SkScalarToDouble(textWidth); } virtual void afterWord(SkPaint* paint, SkMatrix* matrix) {} }; class SkPdfType0Font : public SkPdfFont { public: SkPdfType0Font(SkPdfNativeDoc* doc, SkPdfType0FontDictionary* dict); public: virtual double drawOneChar(unsigned int ch, SkPaint* paint, SkPdfContext* pdfContext, SkCanvas* canvas) { return fBaseFont->drawOneChar(ToUnicode(ch), paint, pdfContext, canvas); } virtual void afterWord(SkPaint* paint, SkMatrix* matrix) { } }; class SkPdfType1Font : public SkPdfFont { public: SkPdfType1Font(SkPdfNativeDoc* doc, SkPdfType1FontDictionary* dict) { if (dict->has_FontDescriptor()) { fBaseFont = SkPdfFont::fontFromFontDescriptor(doc, dict->FontDescriptor(doc)); } else { fBaseFont = fontFromName(doc, dict, dict->BaseFont(doc).c_str()); } if (dict->isEncodingAName(doc)) { fEncoding = SkPdfEncoding::fromName(dict->getEncodingAsName(doc).c_str()); } else if (dict->isEncodingADictionary(doc)) { //SkPdfDictionary* dictEnc = dict->getEncodingAsDictionary(doc); } dict->FontDescriptor(doc); } public: virtual double drawOneChar(unsigned int ch, SkPaint* paint, SkPdfContext* pdfContext, SkCanvas* canvas) { return fBaseFont->drawOneChar(ToUnicode(ch), paint, pdfContext, canvas); } virtual void afterWord(SkPaint* paint, SkMatrix* matrix) { } }; class SkPdfTrueTypeFont : public SkPdfType1Font { public: SkPdfTrueTypeFont(SkPdfNativeDoc* doc, SkPdfTrueTypeFontDictionary* dict) : SkPdfType1Font(doc, dict) { } }; class SkPdfMultiMasterFont : public SkPdfType1Font { public: SkPdfMultiMasterFont(SkPdfNativeDoc* doc, SkPdfMultiMasterFontDictionary* dict) : SkPdfType1Font(doc, dict) { } }; /* class CIDToGIDMap { virtual unsigned int map(unsigned int cid) = 0; static CIDToGIDMap* fromName(const char* name); }; class CIDToGIDMap_Identity { virtual unsigned int map(unsigned int cid) { return cid; } static CIDToGIDMap_Identity* instance() { static CIDToGIDMap_Identity* inst = new CIDToGIDMap_Identity(); return inst; } }; CIDToGIDMap* CIDToGIDMap::fromName(const char* name) { // The only one supported right now is Identity if (strcmp(name, "Identity") == 0) { return CIDToGIDMap_Identity::instance(); } #ifdef PDF_TRACE // TODO(edisonn): warning/report printf("Unknown CIDToGIDMap: %s\n", name); #endif return NULL; } CIDToGIDMap* fCidToGid; */ class SkPdfType3Font : public SkPdfFont { struct Type3FontChar { SkPdfNativeObject* fObj; double fWidth; }; SkPdfDictionary* fCharProcs; SkPdfEncodingDictionary* fEncodingDict; unsigned int fFirstChar; unsigned int fLastChar; SkRect fFontBBox; SkMatrix fFonMatrix; Type3FontChar* fChars; public: SkPdfType3Font(SkPdfNativeDoc* parsed, SkPdfType3FontDictionary* dict) { fBaseFont = fontFromName(parsed, dict, dict->BaseFont(parsed).c_str()); if (dict->has_Encoding()) { if (dict->isEncodingAName(parsed)) { fEncoding = SkPdfEncoding::fromName(dict->getEncodingAsName(parsed).c_str()); } else if (dict->isEncodingAEncodingdictionary(parsed)) { // No encoding. fEncoding = SkPdfDefaultEncoding::instance(); fEncodingDict = dict->getEncodingAsEncodingdictionary(parsed); } } // null? fCharProcs = dict->CharProcs(parsed); fToUnicode = NULL; if (dict->has_ToUnicode()) { fToUnicode = new SkPdfToUnicode(parsed, dict->ToUnicode(parsed)); } fFirstChar = (unsigned int)dict->FirstChar(parsed); fLastChar = (unsigned int)dict->LastChar(parsed); fFonMatrix = dict->has_FontMatrix() ? dict->FontMatrix(parsed) : SkMatrix::I(); if (dict->has_FontBBox()) { fFontBBox = dict->FontBBox(parsed); } fChars = new Type3FontChar[fLastChar - fFirstChar + 1]; memset(fChars, 0, sizeof(fChars[0]) * (fLastChar - fFirstChar + 1)); const SkPdfArray* widths = dict->Widths(parsed); for (unsigned int i = 0 ; i < widths->size(); i++) { if ((fFirstChar + i) >= fFirstChar && (fFirstChar + i) <= fLastChar) { fChars[i].fWidth = (*widths)[i]->numberValue(); } else { // TODO(edisonn): report pdf corruption } } const SkPdfArray* diffs = fEncodingDict->Differences(parsed); unsigned int j = fFirstChar; for (unsigned int i = 0 ; i < diffs->size(); i++) { if ((*diffs)[i]->isInteger()) { j = (unsigned int)(*diffs)[i]->intValue(); } else if ((*diffs)[i]->isName()) { if (j >= fFirstChar && j <= fLastChar) { fChars[j - fFirstChar].fObj = fCharProcs->get((*diffs)[i]); } else { // TODO(edisonn): report pdf corruption } j++; } else { // TODO(edisonn): report bad pdf } } } public: virtual double drawOneChar(unsigned int ch, SkPaint* paint, SkPdfContext* pdfContext, SkCanvas* canvas) { if (ch < fFirstChar || ch > fLastChar || !fChars[ch - fFirstChar].fObj) { return fBaseFont->drawOneChar(ToUnicode(ch), paint, pdfContext, canvas); } #ifdef PDF_TRACE printf("Type 3 char to unicode: %c\n", ToUnicode(ch)); if (ToUnicode(ch) == 'A') { printf("break;\n"); } #endif // TODO(edisonn): is it better to resolve the reference at load time, or now? doType3Char(pdfContext, canvas, pdfContext->fPdfDoc->resolveReference(fChars[ch - fFirstChar].fObj), fFontBBox, fFonMatrix, pdfContext->fGraphicsState.fCurFontSize); // TODO(edisonn): verify/test translate code, not tested yet pdfContext->fGraphicsState.fMatrixTm.preTranslate(SkDoubleToScalar(pdfContext->fGraphicsState.fCurFontSize * fChars[ch - fFirstChar].fWidth), SkDoubleToScalar(0.0)); return fChars[ch - fFirstChar].fWidth; } virtual void afterWord(SkPaint* paint, SkMatrix* matrix) { } }; #endif // SkPdfFont_DEFINED