#include #include #include #include #include #include #include "platform/CCFileUtils.h" #include "platform/CCPlatformMacros.h" #define __CC_PLATFORM_IMAGE_CPP__ #include "platform/CCImageCommon_cpp.h" #include "platform/CCImage.h" #include "platform/tizen/CCApplication.h" #include "ft2build.h" #include "CCStdC.h" #include FT_FREETYPE_H using namespace std; // as FcFontMatch is quite an expensive call, cache the results of getFontFile static std::map fontCache; struct LineBreakGlyph { FT_UInt glyphIndex; int paintPosition; int glyphWidth; int bearingX; int kerning; int horizAdvance; }; struct LineBreakLine { LineBreakLine() : lineWidth(0) {} std::vector glyphs; int lineWidth; void reset() { glyphs.clear(); lineWidth = 0; } void calculateWidth() { lineWidth = 0; if ( glyphs.empty() == false ) { lineWidth = glyphs.at(glyphs.size() - 1).paintPosition + glyphs.at(glyphs.size() - 1).glyphWidth; } } }; NS_CC_BEGIN class BitmapDC { public: BitmapDC() { libError = FT_Init_FreeType( &library ); FcInit(); _data = NULL; reset(); } ~BitmapDC() { FT_Done_FreeType(library); FcFini(); //data will be deleted by Image // if (_data) { // delete _data; // } reset(); } void reset() { iMaxLineWidth = 0; iMaxLineHeight = 0; textLines.clear(); } int utf8(char **p) { if ((**p & 0x80) == 0x00) { int a = *((*p)++); return a; } if ((**p & 0xE0) == 0xC0) { int a = *((*p)++) & 0x1F; int b = *((*p)++) & 0x3F; return (a << 6) | b; } if ((**p & 0xF0) == 0xE0) { int a = *((*p)++) & 0x0F; int b = *((*p)++) & 0x3F; int c = *((*p)++) & 0x3F; return (a << 12) | (b << 6) | c; } if ((**p & 0xF8) == 0xF0) { int a = *((*p)++) & 0x07; int b = *((*p)++) & 0x3F; int c = *((*p)++) & 0x3F; int d = *((*p)++) & 0x3F; return (a << 18) | (b << 12) | (c << 8) | d; } return 0; } bool isBreakPoint(FT_UInt currentCharacter, FT_UInt previousCharacter) { if ( previousCharacter == '-' || previousCharacter == '/' || previousCharacter == '\\' ) { // we can insert a line break after one of these characters return true; } return false; } bool divideString(FT_Face face, const char* sText, int iMaxWidth, int iMaxHeight) { const char* pText = sText; textLines.clear(); iMaxLineWidth = 0; FT_UInt unicode; FT_UInt prevCharacter = 0; FT_UInt glyphIndex = 0; FT_UInt prevGlyphIndex = 0; FT_Vector delta; LineBreakLine currentLine; int currentPaintPosition = 0; int lastBreakIndex = -1; bool hasKerning = FT_HAS_KERNING( face ); while ((unicode=utf8((char**)&pText))) { if (unicode == '\n') { currentLine.calculateWidth(); iMaxLineWidth = max(iMaxLineWidth, currentLine.lineWidth); textLines.push_back(currentLine); currentLine.reset(); prevGlyphIndex = 0; prevCharacter = 0; lastBreakIndex = -1; currentPaintPosition = 0; continue; } if ( isBreakPoint(unicode, prevCharacter) ) { lastBreakIndex = currentLine.glyphs.size() - 1; } glyphIndex = FT_Get_Char_Index(face, unicode); if (FT_Load_Glyph(face, glyphIndex, FT_LOAD_DEFAULT)) { return false; } if (unicode == ' ') { currentPaintPosition += face->glyph->metrics.horiAdvance >> 6; prevGlyphIndex = glyphIndex; prevCharacter = unicode; lastBreakIndex = currentLine.glyphs.size(); continue; } LineBreakGlyph glyph; glyph.glyphIndex = glyphIndex; glyph.glyphWidth = face->glyph->metrics.width >> 6; glyph.bearingX = face->glyph->metrics.horiBearingX >> 6; glyph.horizAdvance = face->glyph->metrics.horiAdvance >> 6; glyph.kerning = 0; if (prevGlyphIndex != 0 && hasKerning) { FT_Get_Kerning(face, prevGlyphIndex, glyphIndex, FT_KERNING_DEFAULT, &delta); glyph.kerning = delta.x >> 6; } if (iMaxWidth > 0 && currentPaintPosition + glyph.bearingX + glyph.kerning + glyph.glyphWidth > iMaxWidth) { int glyphCount = currentLine.glyphs.size(); if ( lastBreakIndex >= 0 && lastBreakIndex < glyphCount && currentPaintPosition + glyph.bearingX + glyph.kerning + glyph.glyphWidth - currentLine.glyphs.at(lastBreakIndex).paintPosition < iMaxWidth ) { // we insert a line break at our last break opportunity std::vector tempGlyphs; std::vector::iterator it = currentLine.glyphs.begin(); std::advance(it, lastBreakIndex); tempGlyphs.insert(tempGlyphs.begin(), it, currentLine.glyphs.end()); currentLine.glyphs.erase(it, currentLine.glyphs.end()); currentLine.calculateWidth(); iMaxLineWidth = max(iMaxLineWidth, currentLine.lineWidth); textLines.push_back(currentLine); currentLine.reset(); currentPaintPosition = 0; for ( it = tempGlyphs.begin(); it != tempGlyphs.end(); it++ ) { if ( currentLine.glyphs.empty() ) { currentPaintPosition = -(*it).bearingX; (*it).kerning = 0; } (*it).paintPosition = currentPaintPosition + (*it).bearingX + (*it).kerning; currentLine.glyphs.push_back((*it)); currentPaintPosition += (*it).kerning + (*it).horizAdvance; } } else { // the current word is too big to fit into one line, insert line break right here currentPaintPosition = 0; glyph.kerning = 0; currentLine.calculateWidth(); iMaxLineWidth = max(iMaxLineWidth, currentLine.lineWidth); textLines.push_back(currentLine); currentLine.reset(); } prevGlyphIndex = 0; prevCharacter = 0; lastBreakIndex = -1; } else { prevGlyphIndex = glyphIndex; prevCharacter = unicode; } if ( currentLine.glyphs.empty() ) { currentPaintPosition = -glyph.bearingX; } glyph.paintPosition = currentPaintPosition + glyph.bearingX + glyph.kerning; currentLine.glyphs.push_back(glyph); currentPaintPosition += glyph.kerning + glyph.horizAdvance; } if ( currentLine.glyphs.empty() == false ) { currentLine.calculateWidth(); iMaxLineWidth = max(iMaxLineWidth, currentLine.lineWidth); textLines.push_back(currentLine); } return true; } /** * compute the start pos of every line */ int computeLineStart(FT_Face face, Image::TextAlign eAlignMask, int line) { int lineWidth = textLines.at(line).lineWidth; if (eAlignMask == Image::TextAlign::CENTER || eAlignMask == Image::TextAlign::TOP || eAlignMask == Image::TextAlign::BOTTOM) { return (iMaxLineWidth - lineWidth) / 2; } else if (eAlignMask == Image::TextAlign::RIGHT || eAlignMask == Image::TextAlign::TOP_RIGHT || eAlignMask == Image::TextAlign::BOTTOM_RIGHT) { return (iMaxLineWidth - lineWidth); } // left or other situation return 0; } int computeLineStartY( FT_Face face, Image::TextAlign eAlignMask, int txtHeight, int borderHeight ){ int baseLinePos = ceilf(FT_MulFix( face->bbox.yMax, face->size->metrics.y_scale )/64.0f); if (eAlignMask == Image::TextAlign::CENTER || eAlignMask == Image::TextAlign::LEFT || eAlignMask == Image::TextAlign::RIGHT) { //vertical center return (borderHeight - txtHeight) / 2 + baseLinePos; } else if (eAlignMask == Image::TextAlign::BOTTOM_RIGHT || eAlignMask == Image::TextAlign::BOTTOM || eAlignMask == Image::TextAlign::BOTTOM_LEFT) { //vertical bottom return borderHeight - txtHeight + baseLinePos; } // top alignment return baseLinePos; } std::string getFontFile(const char* family_name) { std::string fontPath = family_name; std::map::iterator it = fontCache.find(family_name); if ( it != fontCache.end() ) { return it->second; } // check if the parameter is a font file shipped with the application std::string lowerCasePath = fontPath; std::transform(lowerCasePath.begin(), lowerCasePath.end(), lowerCasePath.begin(), ::tolower); if ( lowerCasePath.find(".ttf") != std::string::npos ) { fontPath = cocos2d::FileUtils::getInstance()->fullPathForFilename(fontPath.c_str()); FILE *f = fopen(fontPath.c_str(), "r"); if ( f ) { fclose(f); fontCache.insert(std::pair(family_name, fontPath)); return fontPath; } } // use fontconfig to match the parameter against the fonts installed on the system FcPattern *pattern = FcPatternBuild (0, FC_FAMILY, FcTypeString, family_name, (char *) 0); FcConfigSubstitute(0, pattern, FcMatchPattern); FcDefaultSubstitute(pattern); FcResult result; FcPattern *font = FcFontMatch(0, pattern, &result); if ( font ) { FcChar8 *s = NULL; if ( FcPatternGetString(font, FC_FILE, 0, &s) == FcResultMatch ) { fontPath = (const char*)s; FcPatternDestroy(font); FcPatternDestroy(pattern); fontCache.insert(std::pair(family_name, fontPath)); return fontPath; } FcPatternDestroy(font); } FcPatternDestroy(pattern); return family_name; } bool getBitmap(const char *text, int nWidth, int nHeight, Image::TextAlign eAlignMask, const char * pFontName, float fontSize) { if (libError) { return false; } FT_Face face; std::string fontfile = getFontFile(pFontName); if ( FT_New_Face(library, fontfile.c_str(), 0, &face) ) { //no valid font found use default if ( FT_New_Face(library, "/usr/share/fonts/TizenSansRegular.ttf", 0, &face) ) { return false; } } //select utf8 charmap if ( FT_Select_Charmap(face, FT_ENCODING_UNICODE) ) { FT_Done_Face(face); return false; } if ( FT_Set_Pixel_Sizes(face, fontSize, fontSize) ) { FT_Done_Face(face); return false; } if ( divideString(face, text, nWidth, nHeight) == false ) { FT_Done_Face(face); return false; } //compute the final line width iMaxLineWidth = MAX(iMaxLineWidth, nWidth); //compute the final line height iMaxLineHeight = ceilf(FT_MulFix( face->bbox.yMax - face->bbox.yMin, face->size->metrics.y_scale )/64.0f); int lineHeight = face->size->metrics.height>>6; if ( textLines.size() > 0 ) { iMaxLineHeight += (lineHeight * (textLines.size() -1)); } int txtHeight = iMaxLineHeight; iMaxLineHeight = MAX(iMaxLineHeight, nHeight); _data = new unsigned char[iMaxLineWidth * iMaxLineHeight * 4]; memset(_data,0, iMaxLineWidth * iMaxLineHeight*4); int iCurYCursor = computeLineStartY(face, eAlignMask, txtHeight, iMaxLineHeight); int lineCount = textLines.size(); for (int line = 0; line < lineCount; line++) { int iCurXCursor = computeLineStart(face, eAlignMask, line); int glyphCount = textLines.at(line).glyphs.size(); for (int i = 0; i < glyphCount; i++) { LineBreakGlyph glyph = textLines.at(line).glyphs.at(i); if (FT_Load_Glyph(face, glyph.glyphIndex, FT_LOAD_RENDER)) { continue; } FT_Bitmap& bitmap = face->glyph->bitmap; int yoffset = iCurYCursor - (face->glyph->metrics.horiBearingY >> 6); int xoffset = iCurXCursor + glyph.paintPosition; for (int y = 0; y < bitmap.rows; ++y) { int iY = yoffset + y; if (iY>=iMaxLineHeight) { //exceed the height truncate break; } iY *= iMaxLineWidth; int bitmap_y = y * bitmap.width; for (int x = 0; x < bitmap.width; ++x) { unsigned char cTemp = bitmap.buffer[bitmap_y + x]; if (cTemp == 0) { continue; } int iX = xoffset + x; int iTemp = cTemp << 24 | cTemp << 16 | cTemp << 8 | cTemp; *(int*) &_data[(iY + iX) * 4 + 0] = iTemp; } } } // step to next line iCurYCursor += lineHeight; } // free face FT_Done_Face(face); return true; } public: FT_Library library; unsigned char *_data; int libError; std::vector textLines; int iMaxLineWidth; int iMaxLineHeight; }; static BitmapDC& sharedBitmapDC() { static BitmapDC s_BmpDC; return s_BmpDC; } bool Image::initWithString( const char * pText, int nWidth/* = 0*/, int nHeight/* = 0*/, TextAlign eAlignMask/* = kAlignCenter*/, const char * pFontName/* = nil*/, int nSize/* = 0*/) { bool bRet = false; do { CC_BREAK_IF(! pText); BitmapDC &dc = sharedBitmapDC(); //const char* pFullFontName = FileUtils::getInstance()->fullPathFromRelativePath(pFontName); CC_BREAK_IF(! dc.getBitmap(pText, nWidth, nHeight, eAlignMask, pFontName, nSize)); // assign the dc._data to _data in order to save time _data = dc._data; CC_BREAK_IF(! _data); _width = (short)dc.iMaxLineWidth; _height = (short)dc.iMaxLineHeight; _preMulti = true; _renderFormat = Texture2D::PixelFormat::RGBA8888; _dataLen = _width * _height * 4; bRet = true; dc.reset(); }while (0); //do nothing return bRet; } NS_CC_END