experimental/PdfViewer/SkPdfFont.h - fp2-dev/platform/external/chromium_org/third_party/skia - Gitiles

 #ifndef __DEFINED__SkPdfFont
 #define __DEFINED__SkPdfFont

 #include "SkPdfHeaders_autogen.h"
 #include "SkPdfMapper_autogen.h"

 #include <map>
 #include <string>

 #include "SkTypeface.h"
 #include "SkUtils.h"
 #include "SkPdfBasics.h"
 #include "SkPdfUtils.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) {}
 };

 std::map<std::string, SkPdfStandardFontEntry>& getStandardFonts();
 SkTypeface* SkTypefaceFromPdfStandardFont(const char* fontName, bool bold, bool italic);
 SkPdfFont* fontFromName(SkNativeParsedPDF* doc, SkPdfObject* obj, const char* fontName);

 struct SkUnencodedText {
     void* text;
     int len;

 public:
     SkUnencodedText(const SkPdfString* obj) {
         text = (void*)obj->c_str();
         len = obj->len();
     }
 };

 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);
 };

 std::map<std::string, SkPdfEncoding*>& getStandardEncodings();

 class SkPdfToUnicode {
     SkNativeParsedPDF* fParsed;
     // TODO(edisonn): hide public members
 public:
     unsigned short* fCMapEncoding;
     unsigned char* fCMapEncodingFlag;

     SkPdfToUnicode(SkNativeParsedPDF* 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) {}

     const SkPdfEncoding* encoding() const {return fEncoding;}

     void drawText(const SkDecodedText& text, SkPaint* paint, PdfContext* pdfContext, SkCanvas* canvas) {
         for (int i = 0 ; i < text.size(); i++) {
             double width = drawOneChar(text[i], paint, pdfContext, canvas);
             pdfContext->fGraphicsState.fMatrixTm.preTranslate(SkDoubleToScalar(width), SkDoubleToScalar(0.0));
             canvas->translate(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) {
             return fToUnicode->fCMapEncoding[ch];
         } else {
             return ch;
         }
     };

     static SkPdfFont* fontFromPdfDictionary(SkNativeParsedPDF* doc, SkPdfFontDictionary* dict);
     static SkPdfFont* Default() {return fontFromName(NULL, NULL, "TimesNewRoman");}

     static SkPdfType0Font* fontFromType0FontDictionary(SkNativeParsedPDF* doc, SkPdfType0FontDictionary* dict);
     static SkPdfType1Font* fontFromType1FontDictionary(SkNativeParsedPDF* doc, SkPdfType1FontDictionary* dict);
     static SkPdfType3Font* fontFromType3FontDictionary(SkNativeParsedPDF* doc, SkPdfType3FontDictionary* dict);
     static SkPdfTrueTypeFont* fontFromTrueTypeFontDictionary(SkNativeParsedPDF* doc, SkPdfTrueTypeFontDictionary* dict);
     static SkPdfMultiMasterFont* fontFromMultiMasterFontDictionary(SkNativeParsedPDF* doc, SkPdfMultiMasterFontDictionary* dict);

     static SkPdfFont* fontFromFontDescriptor(SkNativeParsedPDF* doc, SkPdfFontDescriptorDictionary* fd, bool loadFromName = true);

 public:
     virtual double drawOneChar(unsigned int ch, SkPaint* paint, PdfContext* pdfContext, SkCanvas* canvas) = 0;
     virtual void afterWord(SkPaint* paint, SkMatrix* matrix) = 0;

 private:
     static SkPdfFont* fontFromPdfDictionaryOnce(SkNativeParsedPDF* doc, SkPdfFontDictionary* dict);
 };

 class SkPdfStandardFont : public SkPdfFont {
     SkTypeface* fTypeface;

 public:
     SkPdfStandardFont(SkTypeface* typeface) : fTypeface(typeface) {}

 public:
     virtual double drawOneChar(unsigned int ch, SkPaint* paint, PdfContext* 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(SkNativeParsedPDF* doc, SkPdfType0FontDictionary* dict);

 public:

     virtual double drawOneChar(unsigned int ch, SkPaint* paint, PdfContext* pdfContext, SkCanvas* canvas) {
         return fBaseFont->drawOneChar(ToUnicode(ch), paint, pdfContext, canvas);
     }

     virtual void afterWord(SkPaint* paint, SkMatrix* matrix) {
     }
 };

 class SkPdfType1Font : public SkPdfFont {
 public:
     SkPdfType1Font(SkNativeParsedPDF* doc, SkPdfType1FontDictionary* dict) {
         if (dict->has_FontDescriptor()) {
             fBaseFont = SkPdfFont::fontFromFontDescriptor(doc, dict->FontDescriptor(doc));
         } else {
             fBaseFont = fontFromName(doc, dict, dict->BaseFont(doc).c_str());
         }
     }

 public:
       virtual double drawOneChar(unsigned int ch, SkPaint* paint, PdfContext* pdfContext, SkCanvas* canvas) {
           return fBaseFont->drawOneChar(ToUnicode(ch), paint, pdfContext, canvas);
       }

       virtual void afterWord(SkPaint* paint, SkMatrix* matrix) {

       }
 };

 class SkPdfTrueTypeFont : public SkPdfType1Font {
 public:
     SkPdfTrueTypeFont(SkNativeParsedPDF* doc, SkPdfTrueTypeFontDictionary* dict) : SkPdfType1Font(doc, dict) {
     }
 };

 class SkPdfMultiMasterFont : public SkPdfType1Font {
 public:
     SkPdfMultiMasterFont(SkNativeParsedPDF* 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 {
         const SkPdfObject* fObj;
         double fWidth;
     };

     SkPdfDictionary* fCharProcs;
     SkPdfEncodingDictionary* fEncodingDict;
     unsigned int fFirstChar;
     unsigned int fLastChar;

     SkRect fFontBBox;
     SkMatrix fFonMatrix;

     Type3FontChar* fChars;

 public:
     SkPdfType3Font(SkNativeParsedPDF* 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)) {
                  // technically, there is no encoding.
                  fEncoding = SkPdfCIDToGIDMapIdentityEncoding::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) {
                 printf("break; error 1\n");
             }
             fChars[i].fWidth = (*widths)[i]->numberValue();
         }

         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) {
                     printf("break; error 2\n");
                 }
                 fChars[j - fFirstChar].fObj = fCharProcs->get((*diffs)[i]->nameValue());
                 j++;
             } else {
                 // err
             }
         }
     }

 public:
     virtual double drawOneChar(unsigned int ch, SkPaint* paint, PdfContext* 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  // __DEFINED__SkPdfFont
	#ifndef __DEFINED__SkPdfFont
	#define __DEFINED__SkPdfFont

	#include "SkPdfHeaders_autogen.h"
	#include "SkPdfMapper_autogen.h"

	#include <map>
	#include <string>

	#include "SkTypeface.h"
	#include "SkUtils.h"
	#include "SkPdfBasics.h"
	#include "SkPdfUtils.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) {}
	};

	std::map<std::string, SkPdfStandardFontEntry>& getStandardFonts();
	SkTypeface* SkTypefaceFromPdfStandardFont(const char* fontName, bool bold, bool italic);
	SkPdfFont* fontFromName(SkNativeParsedPDF* doc, SkPdfObject* obj, const char* fontName);

	struct SkUnencodedText {
	void* text;
	int len;

	public:
	SkUnencodedText(const SkPdfString* obj) {
	text = (void*)obj->c_str();
	len = obj->len();
	}
	};

	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);
	};

	std::map<std::string, SkPdfEncoding*>& getStandardEncodings();

	class SkPdfToUnicode {
	SkNativeParsedPDF* fParsed;
	// TODO(edisonn): hide public members
	public:
	unsigned short* fCMapEncoding;
	unsigned char* fCMapEncodingFlag;

	SkPdfToUnicode(SkNativeParsedPDF* 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) {}

	const SkPdfEncoding* encoding() const {return fEncoding;}

	void drawText(const SkDecodedText& text, SkPaint* paint, PdfContext* pdfContext, SkCanvas* canvas) {
	for (int i = 0 ; i < text.size(); i++) {
	double width = drawOneChar(text[i], paint, pdfContext, canvas);
	pdfContext->fGraphicsState.fMatrixTm.preTranslate(SkDoubleToScalar(width), SkDoubleToScalar(0.0));
	canvas->translate(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) {
	return fToUnicode->fCMapEncoding[ch];
	} else {
	return ch;
	}
	};

	static SkPdfFont* fontFromPdfDictionary(SkNativeParsedPDF* doc, SkPdfFontDictionary* dict);
	static SkPdfFont* Default() {return fontFromName(NULL, NULL, "TimesNewRoman");}

	static SkPdfType0Font* fontFromType0FontDictionary(SkNativeParsedPDF* doc, SkPdfType0FontDictionary* dict);
	static SkPdfType1Font* fontFromType1FontDictionary(SkNativeParsedPDF* doc, SkPdfType1FontDictionary* dict);
	static SkPdfType3Font* fontFromType3FontDictionary(SkNativeParsedPDF* doc, SkPdfType3FontDictionary* dict);
	static SkPdfTrueTypeFont* fontFromTrueTypeFontDictionary(SkNativeParsedPDF* doc, SkPdfTrueTypeFontDictionary* dict);
	static SkPdfMultiMasterFont* fontFromMultiMasterFontDictionary(SkNativeParsedPDF* doc, SkPdfMultiMasterFontDictionary* dict);

	static SkPdfFont* fontFromFontDescriptor(SkNativeParsedPDF* doc, SkPdfFontDescriptorDictionary* fd, bool loadFromName = true);

	public:
	virtual double drawOneChar(unsigned int ch, SkPaint* paint, PdfContext* pdfContext, SkCanvas* canvas) = 0;
	virtual void afterWord(SkPaint* paint, SkMatrix* matrix) = 0;

	private:
	static SkPdfFont* fontFromPdfDictionaryOnce(SkNativeParsedPDF* doc, SkPdfFontDictionary* dict);
	};

	class SkPdfStandardFont : public SkPdfFont {
	SkTypeface* fTypeface;

	public:
	SkPdfStandardFont(SkTypeface* typeface) : fTypeface(typeface) {}

	public:
	virtual double drawOneChar(unsigned int ch, SkPaint* paint, PdfContext* 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(SkNativeParsedPDF* doc, SkPdfType0FontDictionary* dict);

	public:

	virtual double drawOneChar(unsigned int ch, SkPaint* paint, PdfContext* pdfContext, SkCanvas* canvas) {
	return fBaseFont->drawOneChar(ToUnicode(ch), paint, pdfContext, canvas);
	}

	virtual void afterWord(SkPaint* paint, SkMatrix* matrix) {
	}
	};

	class SkPdfType1Font : public SkPdfFont {
	public:
	SkPdfType1Font(SkNativeParsedPDF* doc, SkPdfType1FontDictionary* dict) {
	if (dict->has_FontDescriptor()) {
	fBaseFont = SkPdfFont::fontFromFontDescriptor(doc, dict->FontDescriptor(doc));
	} else {
	fBaseFont = fontFromName(doc, dict, dict->BaseFont(doc).c_str());
	}
	}

	public:
	virtual double drawOneChar(unsigned int ch, SkPaint* paint, PdfContext* pdfContext, SkCanvas* canvas) {
	return fBaseFont->drawOneChar(ToUnicode(ch), paint, pdfContext, canvas);
	}

	virtual void afterWord(SkPaint* paint, SkMatrix* matrix) {

	}
	};

	class SkPdfTrueTypeFont : public SkPdfType1Font {
	public:
	SkPdfTrueTypeFont(SkNativeParsedPDF* doc, SkPdfTrueTypeFontDictionary* dict) : SkPdfType1Font(doc, dict) {
	}
	};

	class SkPdfMultiMasterFont : public SkPdfType1Font {
	public:
	SkPdfMultiMasterFont(SkNativeParsedPDF* 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 {
	const SkPdfObject* fObj;
	double fWidth;
	};

	SkPdfDictionary* fCharProcs;
	SkPdfEncodingDictionary* fEncodingDict;
	unsigned int fFirstChar;
	unsigned int fLastChar;

	SkRect fFontBBox;
	SkMatrix fFonMatrix;

	Type3FontChar* fChars;

	public:
	SkPdfType3Font(SkNativeParsedPDF* 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)) {
	// technically, there is no encoding.
	fEncoding = SkPdfCIDToGIDMapIdentityEncoding::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) {
	printf("break; error 1\n");
	}
	fChars[i].fWidth = (*widths)[i]->numberValue();
	}

	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) {
	printf("break; error 2\n");
	}
	fChars[j - fFirstChar].fObj = fCharProcs->get((*diffs)[i]->nameValue());
	j++;
	} else {
	// err
	}
	}
	}

	public:
	virtual double drawOneChar(unsigned int ch, SkPaint* paint, PdfContext* 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 // __DEFINED__SkPdfFont