/** * @file llfont.cpp * @brief Font library wrapper * * $LicenseInfo:firstyear=2002&license=viewergpl$ * * Copyright (c) 2002-2009, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at * http://secondlifegrid.net/programs/open_source/licensing/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #include "linden_common.h" #include "llfont.h" // Freetype stuff #if !defined(LL_LINUX) || defined(LL_STANDALONE) # include #else # include "ft2build.h" #endif // For some reason, this won't work if it's not wrapped in the ifdef #ifdef FT_FREETYPE_H #include FT_FREETYPE_H #endif #include "llerror.h" #include "llimage.h" //#include "llimagej2c.h" #include "llmath.h" // Linden math #include "llstring.h" //#include "imdebug.h" #include "llfontbitmapcache.h" #include "llgl.h" FT_Render_Mode gFontRenderMode = FT_RENDER_MODE_NORMAL; LLFontManager *gFontManagerp = NULL; FT_Library gFTLibrary = NULL; //static void LLFontManager::initClass() { gFontManagerp = new LLFontManager; } //static void LLFontManager::cleanupClass() { delete gFontManagerp; gFontManagerp = NULL; } LLFontManager::LLFontManager() { int error; error = FT_Init_FreeType(&gFTLibrary); if (error) { // Clean up freetype libs. llerrs << "Freetype initialization failure!" << llendl; FT_Done_FreeType(gFTLibrary); } } LLFontManager::~LLFontManager() { FT_Done_FreeType(gFTLibrary); } LLFontGlyphInfo::LLFontGlyphInfo(U32 index) : mGlyphIndex(index), mXBitmapOffset(0), // Offset to the origin in the bitmap mYBitmapOffset(0), // Offset to the origin in the bitmap mXBearing(0), // Distance from baseline to left in pixels mYBearing(0), // Distance from baseline to top in pixels mWidth(0), // In pixels mHeight(0), // In pixels mXAdvance(0.f), // In pixels mYAdvance(0.f), // In pixels mIsRendered(FALSE), mMetricsValid(FALSE) {} LLFontList::LLFontList() { } LLFontList::~LLFontList() { LLFontList::iterator iter; for(iter = this->begin(); iter != this->end(); iter++) { delete *iter; // The (now dangling) pointers in the vector will be cleaned up when the vector is deleted by the superclass destructor. } } void LLFontList::addAtEnd(LLFont *font) { // Purely a convenience function this->push_back(font); } LLFont::LLFont() { mFontBitmapCachep = new LLFontBitmapCache; mValid = FALSE; mAscender = 0.f; mDescender = 0.f; mLineHeight = 0.f; mFallbackFontp = NULL; mIsFallback = FALSE; mFTFace = NULL; mRenderGlyphCount = 0; mAddGlyphCount = 0; mPointSize = 0; } LLFont::~LLFont() { // Clean up freetype libs. if (mFTFace) FT_Done_Face(mFTFace); mFTFace = NULL; // Delete glyph info std::for_each(mCharGlyphInfoMap.begin(), mCharGlyphInfoMap.end(), DeletePairedPointer()); // mFontBitmapCachep will be cleaned up by LLPointer destructor. } // virtual F32 LLFont::getLineHeight() const { return mLineHeight; } // virtual F32 LLFont::getAscenderHeight() const { return mAscender; } // virtual F32 LLFont::getDescenderHeight() const { return mDescender; } BOOL LLFont::loadFace(const std::string& filename, const F32 point_size, const F32 vert_dpi, const F32 horz_dpi, const S32 components, BOOL is_fallback) { // Don't leak face objects. This is also needed to deal with // changed font file names. if (mFTFace) { FT_Done_Face(mFTFace); mFTFace = NULL; } int error; error = FT_New_Face( gFTLibrary, filename.c_str(), 0, &mFTFace ); if (error) { return FALSE; } mIsFallback = is_fallback; F32 pixels_per_em = (point_size / 72.f)*vert_dpi; // Size in inches * dpi error = FT_Set_Char_Size(mFTFace, /* handle to face object */ 0, /* char_width in 1/64th of points */ (S32)(point_size*64), /* char_height in 1/64th of points */ (U32)horz_dpi, /* horizontal device resolution */ (U32)vert_dpi); /* vertical device resolution */ if (error) { // Clean up freetype libs. FT_Done_Face(mFTFace); mFTFace = NULL; return FALSE; } F32 y_max, y_min, x_max, x_min; F32 ems_per_unit = 1.f/ mFTFace->units_per_EM; F32 pixels_per_unit = pixels_per_em * ems_per_unit; // Get size of bbox in pixels y_max = mFTFace->bbox.yMax * pixels_per_unit; y_min = mFTFace->bbox.yMin * pixels_per_unit; x_max = mFTFace->bbox.xMax * pixels_per_unit; x_min = mFTFace->bbox.xMin * pixels_per_unit; mAscender = mFTFace->ascender * pixels_per_unit; mDescender = -mFTFace->descender * pixels_per_unit; mLineHeight = mFTFace->height * pixels_per_unit; S32 max_char_width = llround(0.5f + (x_max - x_min)); S32 max_char_height = llround(0.5f + (y_max - y_min)); mFontBitmapCachep->init(components, max_char_width, max_char_height); if (!mFTFace->charmap) { //llinfos << " no unicode encoding, set whatever encoding there is..." << llendl; FT_Set_Charmap(mFTFace, mFTFace->charmaps[0]); } if (!mIsFallback) { // Add the default glyph addGlyph(0, 0); } mName = filename; mPointSize = point_size; return TRUE; } void LLFont::resetBitmapCache() { // Iterate through glyphs and clear the mIsRendered flag for (char_glyph_info_map_t::iterator iter = mCharGlyphInfoMap.begin(); iter != mCharGlyphInfoMap.end(); ++iter) { iter->second->mIsRendered = FALSE; //FIXME: this is only strictly necessary when resetting the entire font, //not just flushing the bitmap iter->second->mMetricsValid = FALSE; } mFontBitmapCachep->reset(); // Add the empty glyph`5 addGlyph(0, 0); } LLFontGlyphInfo* LLFont::getGlyphInfo(const llwchar wch) const { char_glyph_info_map_t::iterator iter = mCharGlyphInfoMap.find(wch); if (iter != mCharGlyphInfoMap.end()) { return iter->second; } return NULL; } BOOL LLFont::hasGlyph(const llwchar wch) const { llassert(!mIsFallback); const LLFontGlyphInfo* gi = getGlyphInfo(wch); if (gi && gi->mIsRendered) { return TRUE; } else { return FALSE; } } BOOL LLFont::addChar(const llwchar wch) const { if (mFTFace == NULL) return FALSE; llassert(!mIsFallback); //lldebugs << "Adding new glyph for " << wch << " to font" << llendl; FT_UInt glyph_index; // Initialize char to glyph map glyph_index = FT_Get_Char_Index(mFTFace, wch); if (glyph_index == 0) { // Try looking it up in the backup Unicode font if (mFallbackFontp) { //llinfos << "Trying to add glyph from fallback font!" << llendl LLFontList::iterator iter; for(iter = mFallbackFontp->begin(); iter != mFallbackFontp->end(); iter++) { glyph_index = FT_Get_Char_Index((*iter)->mFTFace, wch); if (glyph_index) { addGlyphFromFont(*iter, wch, glyph_index); return TRUE; } } } } char_glyph_info_map_t::iterator iter = mCharGlyphInfoMap.find(wch); if (iter == mCharGlyphInfoMap.end() || !(iter->second->mIsRendered)) { BOOL result = addGlyph(wch, glyph_index); return result; } return FALSE; } void LLFont::insertGlyphInfo(llwchar wch, LLFontGlyphInfo* gi) const { char_glyph_info_map_t::iterator iter = mCharGlyphInfoMap.find(wch); if (iter != mCharGlyphInfoMap.end()) { delete iter->second; iter->second = gi; } else { mCharGlyphInfoMap[wch] = gi; } } BOOL LLFont::addGlyphFromFont(const LLFont *fontp, const llwchar wch, const U32 glyph_index) const { if (mFTFace == NULL) return FALSE; llassert(!mIsFallback); fontp->renderGlyph(glyph_index); S32 width = fontp->mFTFace->glyph->bitmap.width; S32 height = fontp->mFTFace->glyph->bitmap.rows; S32 pos_x, pos_y; S32 bitmap_num; mFontBitmapCachep->nextOpenPos(width, pos_x, pos_y, bitmap_num); mAddGlyphCount++; LLFontGlyphInfo* gi = new LLFontGlyphInfo(glyph_index); gi->mXBitmapOffset = pos_x; gi->mYBitmapOffset = pos_y; gi->mBitmapNum = bitmap_num; gi->mWidth = width; gi->mHeight = height; gi->mXBearing = fontp->mFTFace->glyph->bitmap_left; gi->mYBearing = fontp->mFTFace->glyph->bitmap_top; // Convert these from 26.6 units to float pixels. gi->mXAdvance = fontp->mFTFace->glyph->advance.x / 64.f; gi->mYAdvance = fontp->mFTFace->glyph->advance.y / 64.f; gi->mIsRendered = TRUE; gi->mMetricsValid = TRUE; insertGlyphInfo(wch, gi); llassert(fontp->mFTFace->glyph->bitmap.pixel_mode == FT_PIXEL_MODE_MONO || fontp->mFTFace->glyph->bitmap.pixel_mode == FT_PIXEL_MODE_GRAY); if (fontp->mFTFace->glyph->bitmap.pixel_mode == FT_PIXEL_MODE_MONO || fontp->mFTFace->glyph->bitmap.pixel_mode == FT_PIXEL_MODE_GRAY) { U8 *buffer_data = fontp->mFTFace->glyph->bitmap.buffer; S32 buffer_row_stride = fontp->mFTFace->glyph->bitmap.pitch; U8 *tmp_graydata = NULL; if (fontp->mFTFace->glyph->bitmap.pixel_mode == FT_PIXEL_MODE_MONO) { // need to expand 1-bit bitmap to 8-bit graymap. tmp_graydata = new U8[width * height]; S32 xpos, ypos; for (ypos = 0; ypos < height; ++ypos) { S32 bm_row_offset = buffer_row_stride * ypos; for (xpos = 0; xpos < width; ++xpos) { U32 bm_col_offsetbyte = xpos / 8; U32 bm_col_offsetbit = 7 - (xpos % 8); U32 bit = !!(buffer_data[bm_row_offset + bm_col_offsetbyte ] & (1 << bm_col_offsetbit) ); tmp_graydata[width*ypos + xpos] = 255 * bit; } } // use newly-built graymap. buffer_data = tmp_graydata; buffer_row_stride = width; } switch (mFontBitmapCachep->getNumComponents()) { case 1: mFontBitmapCachep->getImageRaw(bitmap_num)->setSubImage(pos_x, pos_y, width, height, buffer_data, buffer_row_stride, TRUE); break; case 2: setSubImageLuminanceAlpha(pos_x, pos_y, bitmap_num, width, height, buffer_data, buffer_row_stride); break; default: break; } if (tmp_graydata) delete[] tmp_graydata; } else { // we don't know how to handle this pixel format from FreeType; // omit it from the font-image. } return TRUE; } BOOL LLFont::addGlyph(const llwchar wch, const U32 glyph_index) const { return addGlyphFromFont(this, wch, glyph_index); } F32 LLFont::getXAdvance(const llwchar wch) const { if (mFTFace == NULL) return 0.0; llassert(!mIsFallback); U32 glyph_index; // Return existing info only if it is current LLFontGlyphInfo* gi = getGlyphInfo(wch); if (gi && gi->mMetricsValid) { return gi->mXAdvance; } const LLFont* fontp = this; // Initialize char to glyph map glyph_index = FT_Get_Char_Index(mFTFace, wch); if (glyph_index == 0 && mFallbackFontp) { LLFontList::iterator iter; for(iter = mFallbackFontp->begin(); (iter != mFallbackFontp->end()) && (glyph_index == 0); iter++) { glyph_index = FT_Get_Char_Index((*iter)->mFTFace, wch); if(glyph_index) { fontp = *iter; } } } if (glyph_index) { // This font has this glyph fontp->renderGlyph(glyph_index); // Create the entry if it's not there char_glyph_info_map_t::iterator iter2 = mCharGlyphInfoMap.find(wch); if (iter2 == mCharGlyphInfoMap.end()) { gi = new LLFontGlyphInfo(glyph_index); insertGlyphInfo(wch, gi); } else { gi = iter2->second; } gi->mWidth = fontp->mFTFace->glyph->bitmap.width; gi->mHeight = fontp->mFTFace->glyph->bitmap.rows; // Convert these from 26.6 units to float pixels. gi->mXAdvance = fontp->mFTFace->glyph->advance.x / 64.f; gi->mYAdvance = fontp->mFTFace->glyph->advance.y / 64.f; gi->mMetricsValid = TRUE; return gi->mXAdvance; } else { gi = get_if_there(mCharGlyphInfoMap, (llwchar)0, (LLFontGlyphInfo*)NULL); if (gi) { return gi->mXAdvance; } } // Last ditch fallback - no glyphs defined at all. return (F32)mFontBitmapCachep->getMaxCharWidth(); } void LLFont::renderGlyph(const U32 glyph_index) const { if (mFTFace == NULL) return; int error = FT_Load_Glyph(mFTFace, glyph_index, FT_LOAD_DEFAULT ); llassert(!error); error = FT_Render_Glyph(mFTFace->glyph, gFontRenderMode); mRenderGlyphCount++; llassert(!error); } F32 LLFont::getXKerning(const llwchar char_left, const llwchar char_right) const { if (mFTFace == NULL) return 0.0; llassert(!mIsFallback); LLFontGlyphInfo* left_glyph_info = get_if_there(mCharGlyphInfoMap, char_left, (LLFontGlyphInfo*)NULL); U32 left_glyph = left_glyph_info ? left_glyph_info->mGlyphIndex : 0; // Kern this puppy. LLFontGlyphInfo* right_glyph_info = get_if_there(mCharGlyphInfoMap, char_right, (LLFontGlyphInfo*)NULL); U32 right_glyph = right_glyph_info ? right_glyph_info->mGlyphIndex : 0; FT_Vector delta; llverify(!FT_Get_Kerning(mFTFace, left_glyph, right_glyph, ft_kerning_unfitted, &delta)); return delta.x*(1.f/64.f); } void LLFont::setSubImageLuminanceAlpha(const U32 x, const U32 y, const U32 bitmap_num, const U32 width, const U32 height, const U8 *data, S32 stride) const { LLImageRaw *image_raw = mFontBitmapCachep->getImageRaw(bitmap_num); llassert(!mIsFallback); llassert(image_raw && (image_raw->getComponents() == 2)); U8 *target = image_raw->getData(); if (!data) { return; } if (0 == stride) stride = width; U32 i, j; U32 to_offset; U32 from_offset; U32 target_width = image_raw->getWidth(); for (i = 0; i < height; i++) { to_offset = (y + i)*target_width + x; from_offset = (height - 1 - i)*stride; for (j = 0; j < width; j++) { *(target + to_offset*2 + 1) = *(data + from_offset); to_offset++; from_offset++; } } }