bgfx/examples/common/font/font_manager.cpp

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/*
* Copyright 2013 Jeremie Roy. All rights reserved.
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* License: http://www.opensource.org/licenses/BSD-2-Clause
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*/
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#include <bx/bx.h>
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#if BX_COMPILER_MSVC
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# pragma warning(push)
# pragma warning(disable: 4100) // DISABLE warning C4100: '' : unreferenced formal parameter
# pragma warning(disable: 4146) // DISABLE warning C4146: unary minus operator applied to unsigned type, result still unsigned
# pragma warning(disable: 4700) // DISABLE warning C4700: uninitialized local variable 'temp' used
# pragma warning(disable: 4701) // DISABLE warning C4701: potentially uninitialized local variable '' used
# include <freetype/freetype.h>
# pragma warning(pop)
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#else
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# include <freetype/freetype.h>
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#endif // BX_COMPILER_MSVC
#include <edtaa3/edtaa3func.h>
#include <edtaa3/edtaa3func.cpp>
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#include <wchar.h> // wcslen
#include "font_manager.h"
#include "../cube_atlas.h"
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#if BGFX_CONFIG_USE_TINYSTL
namespace tinystl
{
//struct bgfx_allocator
//{
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//static void* static_allocate(size_t _bytes);
//static void static_deallocate(void* _ptr, size_t /*_bytes*/);
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//};
} // namespace tinystl
//# define TINYSTL_ALLOCATOR tinystl::bgfx_allocator
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# include <TINYSTL/unordered_map.h>
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//# include <TINYSTL/unordered_set.h>
namespace stl = tinystl;
#else
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# include <unordered_map>
namespace std
{ namespace tr1
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{}
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}
namespace stl
{
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using namespace std;
using namespace std::tr1;
}
#endif // BGFX_CONFIG_USE_TINYSTL
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struct FTHolder
{
FT_Library library;
FT_Face face;
};
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class TrueTypeFont
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{
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public:
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TrueTypeFont();
~TrueTypeFont();
/// Initialize from an external buffer
/// @remark The ownership of the buffer is external, and you must ensure it stays valid up to this object lifetime
/// @return true if the initialization succeed
bool init(const uint8_t* _buffer, uint32_t _bufferSize, int32_t _fontIndex, uint32_t _pixelHeight);
/// return the font descriptor of the current font
FontInfo getFontInfo();
/// raster a glyph as 8bit alpha to a memory buffer
/// update the GlyphInfo according to the raster strategy
/// @ remark buffer min size: glyphInfo.m_width * glyphInfo * height * sizeof(char)
bool bakeGlyphAlpha(CodePoint_t _codePoint, GlyphInfo& _outGlyphInfo, uint8_t* _outBuffer);
/// raster a glyph as 32bit subpixel rgba to a memory buffer
/// update the GlyphInfo according to the raster strategy
/// @ remark buffer min size: glyphInfo.m_width * glyphInfo * height * sizeof(uint32_t)
bool bakeGlyphSubpixel(CodePoint_t _codePoint, GlyphInfo& _outGlyphInfo, uint8_t* _outBuffer);
/// raster a glyph as 8bit signed distance to a memory buffer
/// update the GlyphInfo according to the raster strategy
/// @ remark buffer min size: glyphInfo.m_width * glyphInfo * height * sizeof(char)
bool bakeGlyphDistance(CodePoint_t _codePoint, GlyphInfo& _outGlyphInfo, uint8_t* _outBuffer);
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private:
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FTHolder* m_font;
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};
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TrueTypeFont::TrueTypeFont() : m_font(NULL)
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{
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}
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TrueTypeFont::~TrueTypeFont()
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{
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if (m_font != NULL)
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{
FTHolder* holder = (FTHolder*) m_font;
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FT_Done_Face(holder->face);
FT_Done_FreeType(holder->library);
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delete m_font;
m_font = NULL;
}
}
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bool TrueTypeFont::init(const uint8_t* _buffer, uint32_t _bufferSize, int32_t _fontIndex, uint32_t _pixelHeight)
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{
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BX_CHECK( (_bufferSize > 256
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&& _bufferSize < 100000000), "TrueType buffer size is suspicious");
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BX_CHECK( (_pixelHeight > 4
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&& _pixelHeight < 128), "TrueType buffer size is suspicious");
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BX_CHECK(m_font == NULL, "TrueTypeFont already initialized");
FTHolder* holder = new FTHolder();
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// Initialize Freetype library
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FT_Error error = FT_Init_FreeType(&holder->library);
if (error)
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{
delete holder;
return false;
}
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error = FT_New_Memory_Face(holder->library, _buffer, _bufferSize, _fontIndex, &holder->face);
if (error == FT_Err_Unknown_File_Format)
{
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// the font file could be opened and read, but it appears
//that its font format is unsupported
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FT_Done_FreeType(holder->library);
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delete holder;
return false;
}
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else if (error)
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{
// another error code means that the font file could not
// be opened or read, or simply that it is broken...
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FT_Done_FreeType(holder->library);
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delete holder;
return false;
}
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// Select unicode charmap
error = FT_Select_Charmap(holder->face, FT_ENCODING_UNICODE);
if (error)
{
FT_Done_Face(holder->face);
FT_Done_FreeType(holder->library);
return false;
}
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//set size in pixels
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error = FT_Set_Pixel_Sizes(holder->face, 0, _pixelHeight);
if (error)
{
FT_Done_Face(holder->face);
FT_Done_FreeType(holder->library);
return false;
}
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m_font = holder;
return true;
}
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FontInfo TrueTypeFont::getFontInfo()
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{
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BX_CHECK(m_font != NULL, "TrueTypeFont not initialized");
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FTHolder* holder = (FTHolder*) m_font;
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//todo manage unscalable font
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BX_CHECK(FT_IS_SCALABLE(holder->face), "Font is unscalable");
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FT_Size_Metrics metrics = holder->face->size->metrics;
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FontInfo outFontInfo;
outFontInfo.scale = 1.0f;
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outFontInfo.ascender = metrics.ascender / 64.0f;
outFontInfo.descender = metrics.descender / 64.0f;
outFontInfo.lineGap = (metrics.height - metrics.ascender + metrics.descender) / 64.0f;
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outFontInfo.underlinePosition = FT_MulFix(holder->face->underline_position, metrics.y_scale) / 64.0f;
outFontInfo.underlineThickness = FT_MulFix(holder->face->underline_thickness, metrics.y_scale) / 64.0f;
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return outFontInfo;
}
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bool TrueTypeFont::bakeGlyphAlpha(CodePoint_t _codePoint, GlyphInfo& _glyphInfo, uint8_t* _outBuffer)
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{
BX_CHECK(m_font != NULL, "TrueTypeFont not initialized");
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FTHolder* holder = (FTHolder*) m_font;
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_glyphInfo.glyphIndex = FT_Get_Char_Index(holder->face, _codePoint);
FT_GlyphSlot slot = holder->face->glyph;
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FT_Error error = FT_Load_Glyph(holder->face, _glyphInfo.glyphIndex, FT_LOAD_DEFAULT);
if (error)
{
return false;
}
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FT_Glyph glyph;
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error = FT_Get_Glyph(slot, &glyph);
if (error)
{
return false;
}
error = FT_Glyph_To_Bitmap(&glyph, FT_RENDER_MODE_NORMAL, 0, 1);
if (error)
{
return false;
}
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FT_BitmapGlyph bitmap = (FT_BitmapGlyph)glyph;
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int32_t x = bitmap->left;
int32_t y = -bitmap->top;
int32_t w = bitmap->bitmap.width;
int32_t h = bitmap->bitmap.rows;
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_glyphInfo.offset_x = (float) x;
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_glyphInfo.offset_y = (float) y;
_glyphInfo.width = (float) w;
_glyphInfo.height = (float) h;
_glyphInfo.advance_x = (float)slot->advance.x / 64.0f;
_glyphInfo.advance_y = (float)slot->advance.y / 64.0f;
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int32_t charsize = 1;
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int32_t depth = 1;
int32_t stride = bitmap->bitmap.pitch;
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for (int32_t ii = 0; ii < h; ++ii)
{
memcpy(_outBuffer + (ii * w) * charsize * depth,
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bitmap->bitmap.buffer + (ii * stride) * charsize, w * charsize * depth);
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}
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FT_Done_Glyph(glyph);
return true;
}
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bool TrueTypeFont::bakeGlyphSubpixel(CodePoint_t _codePoint, GlyphInfo& _glyphInfo, uint8_t* _outBuffer)
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{
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BX_CHECK(m_font != NULL, "TrueTypeFont not initialized");
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FTHolder* holder = (FTHolder*) m_font;
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_glyphInfo.glyphIndex = FT_Get_Char_Index(holder->face, _codePoint);
FT_GlyphSlot slot = holder->face->glyph;
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FT_Error error = FT_Load_Glyph(holder->face, _glyphInfo.glyphIndex, FT_LOAD_DEFAULT);
if (error)
{
return false;
}
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FT_Glyph glyph;
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error = FT_Get_Glyph(slot, &glyph);
if (error)
{
return false;
}
error = FT_Glyph_To_Bitmap(&glyph, FT_RENDER_MODE_LCD, 0, 1);
if (error)
{
return false;
}
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FT_BitmapGlyph bitmap = (FT_BitmapGlyph)glyph;
int32_t x = bitmap->left;
int32_t y = -bitmap->top;
int32_t w = bitmap->bitmap.width;
int32_t h = bitmap->bitmap.rows;
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_glyphInfo.offset_x = (float) x;
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_glyphInfo.offset_y = (float) y;
_glyphInfo.width = (float) w;
_glyphInfo.height = (float) h;
_glyphInfo.advance_x = (float)slot->advance.x / 64.0f;
_glyphInfo.advance_y = (float)slot->advance.y / 64.0f;
int32_t charsize = 1;
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int32_t depth = 3;
int32_t stride = bitmap->bitmap.pitch;
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for (int32_t ii = 0; ii < h; ++ii)
{
memcpy(_outBuffer + (ii * w) * charsize * depth,
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bitmap->bitmap.buffer + (ii * stride) * charsize, w * charsize * depth);
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}
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FT_Done_Glyph(glyph);
return true;
}
//TODO optimize: remove dynamic allocation and convert double to float
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void make_distance_map(unsigned char* img, unsigned char* outImg, unsigned int width, unsigned int height)
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{
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short* xdist = (short*) malloc(width * height * sizeof(short) );
short* ydist = (short*) malloc(width * height * sizeof(short) );
double* gx = (double*) calloc(width * height, sizeof(double) );
double* gy = (double*) calloc(width * height, sizeof(double) );
double* data = (double*) calloc(width * height, sizeof(double) );
double* outside = (double*) calloc(width * height, sizeof(double) );
double* inside = (double*) calloc(width * height, sizeof(double) );
uint32_t ii;
// Convert img into double (data)
double img_min = 255, img_max = -255;
for (ii = 0; ii < width * height; ++ii)
{
double v = img[ii];
data[ii] = v;
if (v > img_max)
{
img_max = v;
}
if (v < img_min)
{
img_min = v;
}
}
// Rescale image levels between 0 and 1
for (ii = 0; ii < width * height; ++ii)
{
data[ii] = (img[ii] - img_min) / (img_max - img_min);
}
// Compute outside = edtaa3(bitmap); % Transform background (0's)
computegradient(data, width, height, gx, gy);
edtaa3(data, gx, gy, width, height, xdist, ydist, outside);
for (ii = 0; ii < width * height; ++ii)
{
if (outside[ii] < 0)
{
outside[ii] = 0.0;
}
}
// Compute inside = edtaa3(1-bitmap); % Transform foreground (1's)
memset(gx, 0, sizeof(double) * width * height);
memset(gy, 0, sizeof(double) * width * height);
for (ii = 0; ii < width * height; ++ii)
{
data[ii] = 1.0 - data[ii];
}
computegradient(data, width, height, gx, gy);
edtaa3(data, gx, gy, width, height, xdist, ydist, inside);
for (ii = 0; ii < width * height; ++ii)
{
if (inside[ii] < 0)
{
inside[ii] = 0.0;
}
}
// distmap = outside - inside; % Bipolar distance field
unsigned char* out = outImg; //(unsigned char *) malloc( width * height * sizeof(unsigned char) );
for (ii = 0; ii < width * height; ++ii)
{
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//out[i] = 127 - outside[i]*8;
//if(out[i]<0) out[i] = 0;
//out[i] += inside[i]*16;
//if(out[i]>255) out[i] = 255;
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outside[ii] -= inside[ii];
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outside[ii] = 128 + outside[ii] * 16;
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//if(outside[i] > 8) outside[i] = 8;
//if(inside[i] > 8) outside[i] = 8;
//outside[i] = 128 - inside[i]*8 + outside[i]*8;
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if (outside[ii] < 0)
{
outside[ii] = 0;
}
if (outside[ii] > 255)
{
outside[ii] = 255;
}
out[ii] = 255 - (unsigned char) outside[ii];
//out[i] = (unsigned char) outside[i];
}
free(xdist);
free(ydist);
free(gx);
free(gy);
free(data);
free(outside);
free(inside);
}
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bool TrueTypeFont::bakeGlyphDistance(CodePoint_t _codePoint, GlyphInfo& _glyphInfo, uint8_t* _outBuffer)
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{
BX_CHECK(m_font != NULL, "TrueTypeFont not initialized");
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FTHolder* holder = (FTHolder*) m_font;
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_glyphInfo.glyphIndex = FT_Get_Char_Index(holder->face, _codePoint);
FT_Int32 loadMode = FT_LOAD_DEFAULT | FT_LOAD_NO_HINTING;
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FT_Render_Mode renderMode = FT_RENDER_MODE_NORMAL;
FT_GlyphSlot slot = holder->face->glyph;
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FT_Error error = FT_Load_Glyph(holder->face, _glyphInfo.glyphIndex, loadMode);
if (error)
{
return false;
}
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FT_Glyph glyph;
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error = FT_Get_Glyph(slot, &glyph);
if (error)
{
return false;
}
error = FT_Glyph_To_Bitmap(&glyph, renderMode, 0, 1);
if (error)
{
return false;
}
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FT_BitmapGlyph bitmap = (FT_BitmapGlyph)glyph;
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int32_t x = bitmap->left;
int32_t y = -bitmap->top;
int32_t w = bitmap->bitmap.width;
int32_t h = bitmap->bitmap.rows;
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_glyphInfo.offset_x = (float) x;
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_glyphInfo.offset_y = (float) y;
_glyphInfo.width = (float) w;
_glyphInfo.height = (float) h;
_glyphInfo.advance_x = (float)slot->advance.x / 64.0f;
_glyphInfo.advance_y = (float)slot->advance.y / 64.0f;
int32_t charsize = 1;
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int32_t depth = 1;
int32_t stride = bitmap->bitmap.pitch;
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for (int32_t ii = 0; ii < h; ++ii)
{
memcpy(_outBuffer + (ii * w) * charsize * depth,
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bitmap->bitmap.buffer + (ii * stride) * charsize, w * charsize * depth);
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}
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FT_Done_Glyph(glyph);
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if (w * h > 0)
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{
uint32_t dw = 6;
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uint32_t dh = 6;
if (dw < 2)
{
dw = 2;
}
if (dh < 2)
{
dh = 2;
}
uint32_t nw = w + dw * 2;
uint32_t nh = h + dh * 2;
BX_CHECK(nw * nh < 128 * 128, "buffer overflow");
uint32_t buffSize = nw * nh * sizeof(uint8_t);
uint8_t* alphaImg = (uint8_t*) malloc(buffSize);
memset(alphaImg, 0, nw * nh * sizeof(uint8_t) );
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//copy the original buffer to the temp one
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for (uint32_t ii = dh; ii < nh - dh; ++ii)
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{
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memcpy(alphaImg + ii * nw + dw, _outBuffer + (ii - dh) * w, w);
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}
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make_distance_map(alphaImg, _outBuffer, nw, nh);
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free(alphaImg);
_glyphInfo.offset_x -= (float) dw;
_glyphInfo.offset_y -= (float) dh;
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_glyphInfo.width = (float) nw;
_glyphInfo.height = (float) nh;
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}
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return true;
}
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typedef stl::unordered_map<CodePoint_t, GlyphInfo> GlyphHash_t;
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// cache font data
struct FontManager::CachedFont
{
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CachedFont()
{
trueTypeFont = NULL; masterFontHandle.idx = -1;
}
FontInfo fontInfo;
GlyphHash_t cachedGlyphs;
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TrueTypeFont* trueTypeFont;
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// an handle to a master font in case of sub distance field font
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FontHandle masterFontHandle;
int16_t padding;
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};
const uint16_t MAX_OPENED_FILES = 64;
const uint16_t MAX_OPENED_FONT = 64;
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const uint32_t MAX_FONT_BUFFER_SIZE = 512 * 512 * 4;
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FontManager::FontManager(Atlas* _atlas)
: m_ownAtlas(false)
, m_atlas(_atlas)
, m_fontHandles(MAX_OPENED_FONT)
, m_filesHandles(MAX_OPENED_FILES)
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{
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init();
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}
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FontManager::FontManager(uint32_t _textureSideWidth)
: m_ownAtlas(true)
, m_atlas(new Atlas(_textureSideWidth) )
, m_fontHandles(MAX_OPENED_FONT)
, m_filesHandles(MAX_OPENED_FILES)
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{
init();
}
void FontManager::init()
{
m_cachedFiles = new CachedFile[MAX_OPENED_FILES];
m_cachedFonts = new CachedFont[MAX_OPENED_FONT];
m_buffer = new uint8_t[MAX_FONT_BUFFER_SIZE];
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const uint32_t W = 3;
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// Create filler rectangle
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uint8_t buffer[W * W * 4];
memset(buffer, 255, W * W * 4);
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m_blackGlyph.width = W;
m_blackGlyph.height = W;
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///make sure the black glyph doesn't bleed by using a one pixel inner outline
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m_blackGlyph.regionIndex = m_atlas->addRegion(W, W, buffer, AtlasRegion::TYPE_GRAY, 1);
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}
FontManager::~FontManager()
{
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BX_CHECK(m_fontHandles.getNumHandles() == 0, "All the fonts must be destroyed before destroying the manager");
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delete[] m_cachedFonts;
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BX_CHECK(m_filesHandles.getNumHandles() == 0, "All the font files must be destroyed before destroying the manager");
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delete[] m_cachedFiles;
delete[] m_buffer;
if (m_ownAtlas)
{
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delete m_atlas;
}
}
TrueTypeHandle FontManager::loadTrueTypeFromFile(const char* _fontPath)
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{
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FILE* pFile;
pFile = fopen(_fontPath, "rb");
if (pFile == NULL)
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{
TrueTypeHandle invalid = BGFX_INVALID_HANDLE;
return invalid;
}
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// Go to the end of the file.
if (fseek(pFile, 0L, SEEK_END) == 0)
{
// Get the size of the file.
long bufsize = ftell(pFile);
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if (bufsize == -1)
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{
fclose(pFile);
TrueTypeHandle invalid = BGFX_INVALID_HANDLE;
return invalid;
}
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uint8_t* buffer = new uint8_t[bufsize];
// Go back to the start of the file.
fseek(pFile, 0L, SEEK_SET);
// Read the entire file into memory.
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uint32_t newLen = fread( (void*)buffer, sizeof(char), bufsize, pFile);
if (newLen == 0)
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{
fclose(pFile);
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delete[] buffer;
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TrueTypeHandle invalid = BGFX_INVALID_HANDLE;
return invalid;
}
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fclose(pFile);
uint16_t id = m_filesHandles.alloc();
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BX_CHECK(id != bx::HandleAlloc::invalid, "No more room for files");
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m_cachedFiles[id].buffer = buffer;
m_cachedFiles[id].bufferSize = bufsize;
TrueTypeHandle ret = {id};
return ret;
}
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//TODO validate font
TrueTypeHandle invalid = BGFX_INVALID_HANDLE;
return invalid;
}
TrueTypeHandle FontManager::loadTrueTypeFromMemory(const uint8_t* _buffer, uint32_t _size)
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{
uint16_t id = m_filesHandles.alloc();
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BX_CHECK(id != bx::HandleAlloc::invalid, "Invalid handle used");
m_cachedFiles[id].buffer = new uint8_t[_size];
m_cachedFiles[id].bufferSize = _size;
memcpy(m_cachedFiles[id].buffer, _buffer, _size);
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//TODO validate font
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TrueTypeHandle ret = {id};
return ret;
}
void FontManager::unloadTrueType(TrueTypeHandle _handle)
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{
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BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used");
delete m_cachedFiles[_handle.idx].buffer;
m_cachedFiles[_handle.idx].bufferSize = 0;
m_cachedFiles[_handle.idx].buffer = NULL;
m_filesHandles.free(_handle.idx);
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}
FontHandle FontManager::createFontByPixelSize(TrueTypeHandle _tt_handle, uint32_t _typefaceIndex, uint32_t _pixelSize, FontType _fontType)
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{
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BX_CHECK(bgfx::invalidHandle != _tt_handle.idx, "Invalid handle used");
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TrueTypeFont* ttf = new TrueTypeFont();
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if (!ttf->init(m_cachedFiles[_tt_handle.idx].buffer, m_cachedFiles[_tt_handle.idx].bufferSize, _typefaceIndex, _pixelSize) )
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{
delete ttf;
FontHandle invalid = BGFX_INVALID_HANDLE;
return invalid;
}
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uint16_t fontIdx = m_fontHandles.alloc();
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BX_CHECK(fontIdx != bx::HandleAlloc::invalid, "Invalid handle used");
m_cachedFonts[fontIdx].trueTypeFont = ttf;
m_cachedFonts[fontIdx].fontInfo = ttf->getFontInfo();
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m_cachedFonts[fontIdx].fontInfo.fontType = _fontType;
m_cachedFonts[fontIdx].fontInfo.pixelSize = _pixelSize;
m_cachedFonts[fontIdx].cachedGlyphs.clear();
m_cachedFonts[fontIdx].masterFontHandle.idx = -1;
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FontHandle ret = {fontIdx};
return ret;
}
FontHandle FontManager::createScaledFontToPixelSize(FontHandle _baseFontHandle, uint32_t _pixelSize)
{
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BX_CHECK(bgfx::invalidHandle != _baseFontHandle.idx, "Invalid handle used");
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CachedFont& font = m_cachedFonts[_baseFontHandle.idx];
FontInfo& fontInfo = font.fontInfo;
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FontInfo newFontInfo = fontInfo;
newFontInfo.pixelSize = _pixelSize;
newFontInfo.scale = (float)_pixelSize / (float) fontInfo.pixelSize;
newFontInfo.ascender = (newFontInfo.ascender * newFontInfo.scale);
newFontInfo.descender = (newFontInfo.descender * newFontInfo.scale);
newFontInfo.lineGap = (newFontInfo.lineGap * newFontInfo.scale);
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newFontInfo.underlineThickness = (newFontInfo.underlineThickness * newFontInfo.scale);
newFontInfo.underlinePosition = (newFontInfo.underlinePosition * newFontInfo.scale);
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uint16_t fontIdx = m_fontHandles.alloc();
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BX_CHECK(fontIdx != bx::HandleAlloc::invalid, "Invalid handle used");
m_cachedFonts[fontIdx].cachedGlyphs.clear();
m_cachedFonts[fontIdx].fontInfo = newFontInfo;
m_cachedFonts[fontIdx].trueTypeFont = NULL;
m_cachedFonts[fontIdx].masterFontHandle = _baseFontHandle;
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FontHandle ret = {fontIdx};
return ret;
}
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FontHandle FontManager::loadBakedFontFromFile(const char* /*fontPath*/, const char* /*descriptorPath*/)
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{
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//assert(false); //TODO implement
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FontHandle invalid = BGFX_INVALID_HANDLE;
return invalid;
}
FontHandle FontManager::loadBakedFontFromMemory(const uint8_t* /*imageBuffer*/, uint32_t /*imageSize*/, const uint8_t* /*descriptorBuffer*/, uint32_t /*descriptorSize*/)
{
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//assert(false); //TODO implement
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FontHandle invalid = BGFX_INVALID_HANDLE;
return invalid;
}
void FontManager::destroyFont(FontHandle _handle)
{
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BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used");
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if (m_cachedFonts[_handle.idx].trueTypeFont != NULL)
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{
delete m_cachedFonts[_handle.idx].trueTypeFont;
m_cachedFonts[_handle.idx].trueTypeFont = NULL;
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}
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m_cachedFonts[_handle.idx].cachedGlyphs.clear();
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m_fontHandles.free(_handle.idx);
}
bool FontManager::preloadGlyph(FontHandle _handle, const wchar_t* _string)
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{
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BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used");
CachedFont& font = m_cachedFonts[_handle.idx];
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//if truetype present
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if (font.trueTypeFont != NULL)
{
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//parse string
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for (uint32_t ii = 0, end = wcslen(_string); ii < end; ++ii)
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{
//if glyph cached, continue
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CodePoint_t codePoint = _string[ii];
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if (!preloadGlyph(_handle, codePoint) )
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{
return false;
}
}
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return true;
}
return false;
}
bool FontManager::preloadGlyph(FontHandle _handle, CodePoint_t _codePoint)
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{
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BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used");
CachedFont& font = m_cachedFonts[_handle.idx];
FontInfo& fontInfo = font.fontInfo;
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//check if glyph not already present
GlyphHash_t::iterator iter = font.cachedGlyphs.find(_codePoint);
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if (iter != font.cachedGlyphs.end() )
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{
return true;
}
//if truetype present
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if (font.trueTypeFont != NULL)
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{
GlyphInfo glyphInfo;
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//bake glyph as bitmap to buffer
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switch (font.fontInfo.fontType)
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{
case FONT_TYPE_ALPHA:
font.trueTypeFont->bakeGlyphAlpha(_codePoint, glyphInfo, m_buffer);
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break;
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//case FONT_TYPE_LCD:
//font.m_trueTypeFont->bakeGlyphSubpixel(codePoint, glyphInfo, m_buffer);
//break;
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case FONT_TYPE_DISTANCE:
font.trueTypeFont->bakeGlyphDistance(_codePoint, glyphInfo, m_buffer);
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break;
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case FONT_TYPE_DISTANCE_SUBPIXEL:
font.trueTypeFont->bakeGlyphDistance(_codePoint, glyphInfo, m_buffer);
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break;
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default:
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BX_CHECK(false, "TextureType not supported yet");
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}
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//copy bitmap to texture
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if (!addBitmap(glyphInfo, m_buffer) )
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{
return false;
}
glyphInfo.advance_x = (glyphInfo.advance_x * fontInfo.scale);
glyphInfo.advance_y = (glyphInfo.advance_y * fontInfo.scale);
glyphInfo.offset_x = (glyphInfo.offset_x * fontInfo.scale);
glyphInfo.offset_y = (glyphInfo.offset_y * fontInfo.scale);
glyphInfo.height = (glyphInfo.height * fontInfo.scale);
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glyphInfo.width = (glyphInfo.width * fontInfo.scale);
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// store cached glyph
font.cachedGlyphs[_codePoint] = glyphInfo;
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return true;
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}
else
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{
//retrieve glyph from parent font if any
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if (font.masterFontHandle.idx != bgfx::invalidHandle)
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{
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if (preloadGlyph(font.masterFontHandle, _codePoint) )
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{
GlyphInfo glyphInfo;
getGlyphInfo(font.masterFontHandle, _codePoint, glyphInfo);
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glyphInfo.advance_x = (glyphInfo.advance_x * fontInfo.scale);
glyphInfo.advance_y = (glyphInfo.advance_y * fontInfo.scale);
glyphInfo.offset_x = (glyphInfo.offset_x * fontInfo.scale);
glyphInfo.offset_y = (glyphInfo.offset_y * fontInfo.scale);
glyphInfo.height = (glyphInfo.height * fontInfo.scale);
glyphInfo.width = (glyphInfo.width * fontInfo.scale);
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// store cached glyph
font.cachedGlyphs[_codePoint] = glyphInfo;
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return true;
}
}
}
return false;
}
const FontInfo& FontManager::getFontInfo(FontHandle _handle)
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{
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BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used");
return m_cachedFonts[_handle.idx].fontInfo;
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}
bool FontManager::getGlyphInfo(FontHandle _handle, CodePoint_t _codePoint, GlyphInfo& _outInfo)
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{
GlyphHash_t::iterator iter = m_cachedFonts[_handle.idx].cachedGlyphs.find(_codePoint);
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if (iter == m_cachedFonts[_handle.idx].cachedGlyphs.end() )
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{
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if (preloadGlyph(_handle, _codePoint) )
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{
iter = m_cachedFonts[_handle.idx].cachedGlyphs.find(_codePoint);
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}
else
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{
return false;
}
}
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_outInfo = iter->second;
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return true;
}
bool FontManager::addBitmap(GlyphInfo& _glyphInfo, const uint8_t* _data)
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{
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_glyphInfo.regionIndex = m_atlas->addRegion( (uint16_t) ceil(_glyphInfo.width), (uint16_t) ceil(_glyphInfo.height), _data, AtlasRegion::TYPE_GRAY);
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return true;
}