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|
/**
* @file llfontfreetype.cpp
* @brief Freetype font library wrapper
*
* $LicenseInfo:firstyear=2002&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "llfontfreetype.h"
#include "llfontgl.h"
// Freetype stuff
#include <ft2build.h>
#ifdef LL_WINDOWS
#include <freetype2\freetype\ftsystem.h>
#endif
#include "llfontfreetypesvg.h"
// 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 "lldir.h"
#include "llerror.h"
#include "llimage.h"
#include "llimagepng.h"
//#include "llimagej2c.h"
#include "llmath.h" // Linden math
#include "llstring.h"
//#include "imdebug.h"
#include "llfontbitmapcache.h"
#include "llgl.h"
#define ENABLE_OT_SVG_SUPPORT
FT_Render_Mode gFontRenderMode = FT_RENDER_MODE_NORMAL;
LLFontManager *gFontManagerp = NULL;
FT_Library gFTLibrary = NULL;
//static
void LLFontManager::initClass()
{
if (!gFontManagerp)
{
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.
LL_ERRS() << "Freetype initialization failure!" << LL_ENDL;
FT_Done_FreeType(gFTLibrary);
}
#ifdef ENABLE_OT_SVG_SUPPORT
SVG_RendererHooks hooks = {
LLFontFreeTypeSvgRenderer::OnInit,
LLFontFreeTypeSvgRenderer::OnFree,
LLFontFreeTypeSvgRenderer::OnRender,
LLFontFreeTypeSvgRenderer::OnPresetGlypthSlot,
};
FT_Property_Set(gFTLibrary, "ot-svg", "svg-hooks", &hooks);
#endif
}
LLFontManager::~LLFontManager()
{
FT_Done_FreeType(gFTLibrary);
}
LLFontGlyphInfo::LLFontGlyphInfo(U32 index, EFontGlyphType glyph_type)
: mGlyphIndex(index),
mGlyphType(glyph_type),
mWidth(0), // In pixels
mHeight(0), // In pixels
mXAdvance(0.f), // In pixels
mYAdvance(0.f), // In pixels
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
mBitmapEntry(std::make_pair(EFontGlyphType::Unspecified, -1)) // Which bitmap in the bitmap cache contains this glyph
{
}
LLFontGlyphInfo::LLFontGlyphInfo(const LLFontGlyphInfo& fgi)
: mGlyphIndex(fgi.mGlyphIndex)
, mGlyphType(fgi.mGlyphType)
, mWidth(fgi.mWidth)
, mHeight(fgi.mHeight)
, mXAdvance(fgi.mXAdvance)
, mYAdvance(fgi.mYAdvance)
, mXBitmapOffset(fgi.mXBitmapOffset)
, mYBitmapOffset(fgi.mYBitmapOffset)
, mXBearing(fgi.mXBearing)
, mYBearing(fgi.mYBearing)
{
mBitmapEntry = fgi.mBitmapEntry;
}
LLFontFreetype::LLFontFreetype()
: mFontBitmapCachep(new LLFontBitmapCache),
mAscender(0.f),
mDescender(0.f),
mLineHeight(0.f),
#ifdef LL_WINDOWS
pFileStream(NULL),
pFtStream(NULL),
#endif
mIsFallback(false),
mFTFace(NULL),
mRenderGlyphCount(0),
mAddGlyphCount(0),
mStyle(0),
mPointSize(0)
{
}
LLFontFreetype::~LLFontFreetype()
{
// Clean up freetype libs.
if (mFTFace)
FT_Done_Face(mFTFace);
mFTFace = NULL;
// Delete glyph info
std::for_each(mCharGlyphInfoMap.begin(), mCharGlyphInfoMap.end(), DeletePairedPointer());
mCharGlyphInfoMap.clear();
#ifdef LL_WINDOWS
delete pFileStream; // closed by FT_Done_Face
delete pFtStream;
#endif
delete mFontBitmapCachep;
// mFallbackFonts cleaned up by LLPointer destructor
}
#ifdef LL_WINDOWS
unsigned long ft_read_cb(FT_Stream stream, unsigned long offset, unsigned char *buffer, unsigned long count) {
if (count <= 0) return count;
llifstream *file_stream = static_cast<llifstream *>(stream->descriptor.pointer);
file_stream->seekg(offset, std::ios::beg);
file_stream->read((char*)buffer, count);
return file_stream->gcount();
}
void ft_close_cb(FT_Stream stream) {
llifstream *file_stream = static_cast<llifstream *>(stream->descriptor.pointer);
file_stream->close();
}
#endif
bool LLFontFreetype::loadFace(const std::string& filename, F32 point_size, F32 vert_dpi, F32 horz_dpi, bool is_fallback, S32 face_n)
{
// 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;
#ifdef LL_WINDOWS
error = ftOpenFace(filename, face_n);
#else
error = FT_New_Face( gFTLibrary,
filename.c_str(),
0,
&mFTFace);
#endif
if (error)
{
#ifdef LL_WINDOWS
clearFontStreams();
#endif
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);
#ifdef LL_WINDOWS
clearFontStreams();
#endif
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 = ll_round(0.5f + (x_max - x_min));
S32 max_char_height = ll_round(0.5f + (y_max - y_min));
mFontBitmapCachep->init(max_char_width, max_char_height);
if (!mFTFace->charmap)
{
//LL_INFOS() << " no unicode encoding, set whatever encoding there is..." << LL_ENDL;
FT_Set_Charmap(mFTFace, mFTFace->charmaps[0]);
}
if (!mIsFallback)
{
// Add the default glyph
addGlyphFromFont(this, 0, 0, EFontGlyphType::Grayscale);
}
mName = filename;
mPointSize = point_size;
mStyle = LLFontGL::NORMAL;
if(mFTFace->style_flags & FT_STYLE_FLAG_BOLD)
{
mStyle |= LLFontGL::BOLD;
}
if(mFTFace->style_flags & FT_STYLE_FLAG_ITALIC)
{
mStyle |= LLFontGL::ITALIC;
}
return true;
}
S32 LLFontFreetype::getNumFaces(const std::string& filename)
{
if (mFTFace)
{
FT_Done_Face(mFTFace);
mFTFace = NULL;
}
S32 num_faces = 1;
#ifdef LL_WINDOWS
int error = ftOpenFace(filename, 0);
if (error)
{
return 0;
}
else
{
num_faces = mFTFace->num_faces;
}
FT_Done_Face(mFTFace);
clearFontStreams();
mFTFace = NULL;
#endif
return num_faces;
}
#ifdef LL_WINDOWS
S32 LLFontFreetype::ftOpenFace(const std::string& filename, S32 face_n)
{
S32 error = -1;
pFileStream = new llifstream(filename, std::ios::binary);
if (pFileStream->is_open())
{
std::streampos beg = pFileStream->tellg();
pFileStream->seekg(0, std::ios::end);
std::streampos end = pFileStream->tellg();
std::size_t file_size = end - beg;
pFileStream->seekg(0, std::ios::beg);
pFtStream = new LLFT_Stream();
pFtStream->base = 0;
pFtStream->pos = 0;
pFtStream->size = file_size;
pFtStream->descriptor.pointer = pFileStream;
pFtStream->read = ft_read_cb;
pFtStream->close = ft_close_cb;
FT_Open_Args args;
args.flags = FT_OPEN_STREAM;
args.stream = (FT_StreamRec*)pFtStream;
error = FT_Open_Face(gFTLibrary, &args, face_n, &mFTFace);
}
return error;
}
void LLFontFreetype::clearFontStreams()
{
if (pFileStream)
{
pFileStream->close();
}
delete pFileStream;
delete pFtStream;
pFileStream = NULL;
pFtStream = NULL;
}
#endif
void LLFontFreetype::addFallbackFont(const LLPointer<LLFontFreetype>& fallback_font,
const char_functor_t& functor)
{
mFallbackFonts.emplace_back(fallback_font, functor);
}
F32 LLFontFreetype::getLineHeight() const
{
return mLineHeight;
}
F32 LLFontFreetype::getAscenderHeight() const
{
return mAscender;
}
F32 LLFontFreetype::getDescenderHeight() const
{
return mDescender;
}
F32 LLFontFreetype::getXAdvance(llwchar wch) const
{
if (mFTFace == NULL)
return 0.0;
// Return existing info only if it is current
LLFontGlyphInfo* gi = getGlyphInfo(wch, EFontGlyphType::Unspecified);
if (gi)
{
return gi->mXAdvance;
}
else
{
char_glyph_info_map_t::iterator found_it = mCharGlyphInfoMap.find((llwchar)0);
if (found_it != mCharGlyphInfoMap.end())
{
return found_it->second->mXAdvance;
}
}
// Last ditch fallback - no glyphs defined at all.
return (F32)mFontBitmapCachep->getMaxCharWidth();
}
F32 LLFontFreetype::getXAdvance(const LLFontGlyphInfo* glyph) const
{
if (mFTFace == NULL)
return 0.0;
return glyph->mXAdvance;
}
F32 LLFontFreetype::getXKerning(llwchar char_left, llwchar char_right) const
{
if (mFTFace == NULL)
return 0.0;
//llassert(!mIsFallback);
LLFontGlyphInfo* left_glyph_info = getGlyphInfo(char_left, EFontGlyphType::Unspecified);;
U32 left_glyph = left_glyph_info ? left_glyph_info->mGlyphIndex : 0;
// Kern this puppy.
LLFontGlyphInfo* right_glyph_info = getGlyphInfo(char_right, EFontGlyphType::Unspecified);
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);
}
F32 LLFontFreetype::getXKerning(const LLFontGlyphInfo* left_glyph_info, const LLFontGlyphInfo* right_glyph_info) const
{
if (mFTFace == NULL)
return 0.0;
U32 left_glyph = left_glyph_info ? left_glyph_info->mGlyphIndex : 0;
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);
}
bool LLFontFreetype::hasGlyph(llwchar wch) const
{
llassert(!mIsFallback);
return(mCharGlyphInfoMap.find(wch) != mCharGlyphInfoMap.end());
}
LLFontGlyphInfo* LLFontFreetype::addGlyph(llwchar wch, EFontGlyphType glyph_type) const
{
if (!mFTFace)
{
return NULL;
}
llassert(!mIsFallback);
llassert(glyph_type < EFontGlyphType::Count);
//LL_DEBUGS() << "Adding new glyph for " << wch << " to font" << LL_ENDL;
// Initialize char to glyph map
FT_UInt glyph_index = FT_Get_Char_Index(mFTFace, wch);
if (glyph_index == 0)
{
// No corresponding glyph in this font: look for a glyph in fallback
// fonts.
size_t count = mFallbackFonts.size();
if (LLStringOps::isEmoji(wch))
{
// This is a "genuine" emoji (in the range 0x1f000-0x20000): print
// it using the emoji font(s) if possible. HB
for (size_t i = 0; i < count; ++i)
{
const fallback_font_t& pair = mFallbackFonts[i];
if (!pair.second || !pair.second(wch))
{
// If this font does not have a functor, or the character
// does not pass the functor, reject it. Note: we keep the
// functor test (despite the fact we already tested for
// LLStringOps::isEmoji(wch) above), in case we would use
// different, more restrictive or partionned functors in
// the future with several different emoji fonts. HB
continue;
}
glyph_index = FT_Get_Char_Index(pair.first->mFTFace, wch);
if (glyph_index)
{
return addGlyphFromFont(pair.first, wch, glyph_index,
glyph_type);
}
}
}
// Then try and find a monochrome fallback font that could print this
// glyph: such fonts do *not* have a functor. We give priority to
// monochrome fonts for non-genuine emojis so that UI elements which
// used to render with them before the emojis font introduction (e.g.
// check marks in menus, or LSL dialogs text and buttons) do render the
// same way as they always did. HB
std::vector<size_t> emoji_fonts_idx;
for (size_t i = 0; i < count; ++i)
{
const fallback_font_t& pair = mFallbackFonts[i];
if (pair.second)
{
// If this font got a functor, remember the index for later and
// try the next fallback font. HB
emoji_fonts_idx.push_back(i);
continue;
}
glyph_index = FT_Get_Char_Index(pair.first->mFTFace, wch);
if (glyph_index)
{
return addGlyphFromFont(pair.first, wch, glyph_index,
glyph_type);
}
}
// Everything failed so far: this character is not a genuine emoji,
// neither a special character known from our monochrome fallback
// fonts: make a last try, using the emoji font(s), but ignoring the
// functor to render using whatever (colorful) glyph that might be
// available in such fonts for this character. HB
for (size_t j = 0, count2 = emoji_fonts_idx.size(); j < count2; ++j)
{
const fallback_font_t& pair = mFallbackFonts[emoji_fonts_idx[j]];
glyph_index = FT_Get_Char_Index(pair.first->mFTFace, wch);
if (glyph_index)
{
return addGlyphFromFont(pair.first, wch, glyph_index,
glyph_type);
}
}
}
auto range_it = mCharGlyphInfoMap.equal_range(wch);
char_glyph_info_map_t::iterator iter =
std::find_if(range_it.first, range_it.second,
[&glyph_type](const char_glyph_info_map_t::value_type& entry)
{
return entry.second->mGlyphType == glyph_type;
});
if (iter == range_it.second)
{
return addGlyphFromFont(this, wch, glyph_index, glyph_type);
}
return NULL;
}
LLFontGlyphInfo* LLFontFreetype::addGlyphFromFont(const LLFontFreetype *fontp, llwchar wch, U32 glyph_index, EFontGlyphType requested_glyph_type) const
{
LL_PROFILE_ZONE_SCOPED;
if (mFTFace == NULL)
return NULL;
llassert(!mIsFallback);
fontp->renderGlyph(requested_glyph_type, glyph_index);
EFontGlyphType bitmap_glyph_type = EFontGlyphType::Unspecified;
switch (fontp->mFTFace->glyph->bitmap.pixel_mode)
{
case FT_PIXEL_MODE_MONO:
case FT_PIXEL_MODE_GRAY:
bitmap_glyph_type = EFontGlyphType::Grayscale;
break;
case FT_PIXEL_MODE_BGRA:
bitmap_glyph_type = EFontGlyphType::Color;
break;
default:
llassert_always(true);
break;
}
S32 width = fontp->mFTFace->glyph->bitmap.width;
S32 height = fontp->mFTFace->glyph->bitmap.rows;
S32 pos_x, pos_y;
U32 bitmap_num;
mFontBitmapCachep->nextOpenPos(width, pos_x, pos_y, bitmap_glyph_type, bitmap_num);
mAddGlyphCount++;
LLFontGlyphInfo* gi = new LLFontGlyphInfo(glyph_index, requested_glyph_type);
gi->mXBitmapOffset = pos_x;
gi->mYBitmapOffset = pos_y;
gi->mBitmapEntry = std::make_pair(bitmap_glyph_type, 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;
insertGlyphInfo(wch, gi);
if (requested_glyph_type != bitmap_glyph_type)
{
LLFontGlyphInfo* gi_temp = new LLFontGlyphInfo(*gi);
gi_temp->mGlyphType = bitmap_glyph_type;
insertGlyphInfo(wch, gi_temp);
}
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;
}
setSubImageLuminanceAlpha(pos_x,
pos_y,
bitmap_num,
width,
height,
buffer_data,
buffer_row_stride);
if (tmp_graydata)
delete[] tmp_graydata;
}
else if (fontp->mFTFace->glyph->bitmap.pixel_mode == FT_PIXEL_MODE_BGRA)
{
setSubImageBGRA(pos_x,
pos_y,
bitmap_num,
fontp->mFTFace->glyph->bitmap.width,
fontp->mFTFace->glyph->bitmap.rows,
fontp->mFTFace->glyph->bitmap.buffer,
llabs(fontp->mFTFace->glyph->bitmap.pitch));
} else {
llassert(false);
}
LLImageGL *image_gl = mFontBitmapCachep->getImageGL(bitmap_glyph_type, bitmap_num);
LLImageRaw *image_raw = mFontBitmapCachep->getImageRaw(bitmap_glyph_type, bitmap_num);
image_gl->setSubImage(image_raw, 0, 0, image_gl->getWidth(), image_gl->getHeight());
return gi;
}
LLFontGlyphInfo* LLFontFreetype::getGlyphInfo(llwchar wch, EFontGlyphType glyph_type) const
{
std::pair<char_glyph_info_map_t::iterator, char_glyph_info_map_t::iterator> range_it = mCharGlyphInfoMap.equal_range(wch);
char_glyph_info_map_t::iterator iter = (EFontGlyphType::Unspecified != glyph_type)
? std::find_if(range_it.first, range_it.second, [&glyph_type](const char_glyph_info_map_t::value_type& entry) { return entry.second->mGlyphType == glyph_type; })
: range_it.first;
if (iter != range_it.second)
{
return iter->second;
}
else
{
// this glyph doesn't yet exist, so render it and return the result
return addGlyph(wch, (EFontGlyphType::Unspecified != glyph_type) ? glyph_type : EFontGlyphType::Grayscale);
}
}
void LLFontFreetype::insertGlyphInfo(llwchar wch, LLFontGlyphInfo* gi) const
{
llassert(gi->mGlyphType < EFontGlyphType::Count);
std::pair<char_glyph_info_map_t::iterator, char_glyph_info_map_t::iterator> range_it = mCharGlyphInfoMap.equal_range(wch);
char_glyph_info_map_t::iterator iter =
std::find_if(range_it.first, range_it.second, [&gi](const char_glyph_info_map_t::value_type& entry) { return entry.second->mGlyphType == gi->mGlyphType; });
if (iter != range_it.second)
{
delete iter->second;
iter->second = gi;
}
else
{
mCharGlyphInfoMap.insert(std::make_pair(wch, gi));
}
}
void LLFontFreetype::renderGlyph(EFontGlyphType bitmap_type, U32 glyph_index) const
{
if (mFTFace == NULL)
return;
FT_Int32 load_flags = FT_LOAD_FORCE_AUTOHINT;
if (EFontGlyphType::Color == bitmap_type)
{
// We may not actually get a color render so our caller should always examine mFTFace->glyph->bitmap.pixel_mode
load_flags |= FT_LOAD_COLOR;
}
FT_Error error = FT_Load_Glyph(mFTFace, glyph_index, load_flags);
if (FT_Err_Ok != error)
{
std::string message = llformat(
"Error %d (%s) loading glyph %u: bitmap_type=%u, load_flags=%d",
error, FT_Error_String(error), glyph_index, bitmap_type, load_flags);
LL_WARNS_ONCE() << message << LL_ENDL;
error = FT_Load_Glyph(mFTFace, glyph_index, load_flags ^ FT_LOAD_COLOR);
llassert_always_msg(FT_Err_Ok == error, message.c_str());
}
llassert_always(! FT_Render_Glyph(mFTFace->glyph, gFontRenderMode) );
mRenderGlyphCount++;
}
void LLFontFreetype::reset(F32 vert_dpi, F32 horz_dpi)
{
resetBitmapCache();
loadFace(mName, mPointSize, vert_dpi ,horz_dpi, mIsFallback, 0);
if (!mIsFallback)
{
// This is the head of the list - need to rebuild ourself and all fallbacks.
if (mFallbackFonts.empty())
{
LL_WARNS() << "LLFontGL::reset(), no fallback fonts present" << LL_ENDL;
}
else
{
for (fallback_font_vector_t::iterator it = mFallbackFonts.begin(); it != mFallbackFonts.end(); ++it)
{
it->first->reset(vert_dpi, horz_dpi);
}
}
}
}
void LLFontFreetype::resetBitmapCache()
{
for (char_glyph_info_map_t::iterator it = mCharGlyphInfoMap.begin(), end_it = mCharGlyphInfoMap.end();
it != end_it;
++it)
{
delete it->second;
}
mCharGlyphInfoMap.clear();
mFontBitmapCachep->reset();
// Adding default glyph is skipped for fallback fonts here as well as in loadFace().
// This if was added as fix for EXT-4971.
if(!mIsFallback)
{
// Add the empty glyph
addGlyphFromFont(this, 0, 0, EFontGlyphType::Grayscale);
}
}
void LLFontFreetype::destroyGL()
{
mFontBitmapCachep->destroyGL();
}
const std::string &LLFontFreetype::getName() const
{
return mName;
}
static void dumpFontBitmap(const LLImageRaw* image_raw, const std::string& file_name)
{
LLPointer<LLImagePNG> tmpImage = new LLImagePNG();
if ( (tmpImage->encode(image_raw, 0.0f)) && (tmpImage->save(gDirUtilp->getExpandedFilename(LL_PATH_LOGS, file_name))) )
{
LL_INFOS("Font") << "Successfully saved " << file_name << LL_ENDL;
}
else
{
LL_WARNS("Font") << "Failed to save " << file_name << LL_ENDL;
}
}
void LLFontFreetype::dumpFontBitmaps() const
{
// Dump all the regular bitmaps (if any)
for (int idx = 0, cnt = mFontBitmapCachep->getNumBitmaps(EFontGlyphType::Grayscale); idx < cnt; idx++)
{
dumpFontBitmap(mFontBitmapCachep->getImageRaw(EFontGlyphType::Grayscale, idx), llformat("%s_%d_%d_%d.png", mFTFace->family_name, (int)(mPointSize * 10), mStyle, idx));
}
// Dump all the color bitmaps (if any)
for (int idx = 0, cnt = mFontBitmapCachep->getNumBitmaps(EFontGlyphType::Color); idx < cnt; idx++)
{
dumpFontBitmap(mFontBitmapCachep->getImageRaw(EFontGlyphType::Color, idx), llformat("%s_%d_%d_%d_clr.png", mFTFace->family_name, (int)(mPointSize * 10), mStyle, idx));
}
}
const LLFontBitmapCache* LLFontFreetype::getFontBitmapCache() const
{
return mFontBitmapCachep;
}
void LLFontFreetype::setStyle(U8 style)
{
mStyle = style;
}
U8 LLFontFreetype::getStyle() const
{
return mStyle;
}
bool LLFontFreetype::setSubImageBGRA(U32 x, U32 y, U32 bitmap_num, U16 width, U16 height, const U8* data, U32 stride) const
{
LLImageRaw* image_raw = mFontBitmapCachep->getImageRaw(EFontGlyphType::Color, bitmap_num);
llassert(!mIsFallback);
llassert(image_raw && (image_raw->getComponents() == 4));
// NOTE: inspired by LLImageRaw::setSubImage()
U32* image_data = (U32*)image_raw->getData();
if (!image_data)
{
return false;
}
for (U32 idxRow = 0; idxRow < height; idxRow++)
{
const U32 nSrcRow = height - 1 - idxRow;
const U32 nSrcOffset = nSrcRow * width * image_raw->getComponents();
const U32 nDstOffset = (y + idxRow) * image_raw->getWidth() + x;
for (U32 idxCol = 0; idxCol < width; idxCol++)
{
U32 nTemp = nSrcOffset + idxCol * 4;
image_data[nDstOffset + idxCol] = data[nTemp + 3] << 24 | data[nTemp] << 16 | data[nTemp + 1] << 8 | data[nTemp + 2];
}
}
return true;
}
void LLFontFreetype::setSubImageLuminanceAlpha(U32 x, U32 y, U32 bitmap_num, U32 width, U32 height, U8 *data, S32 stride) const
{
LLImageRaw *image_raw = mFontBitmapCachep->getImageRaw(EFontGlyphType::Grayscale, bitmap_num);
LLImageDataLock lock(image_raw);
llassert(!mIsFallback);
llassert(image_raw && (image_raw->getComponents() == 2));
U8 *target = image_raw->getData();
llassert(target);
if (!data || !target)
{
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++;
}
}
}
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