lite-xl/notes.md

3.2 KiB

stbtt_InitFont

stbtt_ScaleForMappingEmToPixels x 3
stbtt_ScaleForPixelHeight
stbtt_BakeFontBitmap
stbtt_GetFontVMetrics x 2

typedef struct {
   unsigned short x0, y0, x1, y1; // coordinates of bbox in bitmap
   float xoff, yoff, xadvance;
} stbtt_bakedchar;

struct RenImage {
  RenColor *pixels;
  int width, height;
};

typedef struct {
  RenImage *image;
  stbtt_bakedchar glyphs[256];
} GlyphSet;

struct RenFont {
  void *data;
  stbtt_fontinfo stbfont;
  GlyphSet *sets[MAX_GLYPHSET];
  float size;
  int height;
};

The function stbtt_BakeFontBitmap is used to write bitmap data into set->image->pixels (where set is a GlyphSet). Note that set->image->pixels need data in RGB format. After stbtt_BakeFontBitmap call the bitmap data are converted into RGB. With a single call many glyphs corresponding to a range of codepoints, all in a single image.

STB truetype font metrics

stbtt_ScaleForPixelHeight takes a float 'height' and returns height / (ascent - descent).

stbtt_ScaleForMappingEmToPixels take a float 'pixels' and returns pixels / unitsPerEm.

Computing RenFont

When loading a font, in renderer.c, the font->height is determined as:

int ascent, descent, linegap;
stbtt_GetFontVMetrics(&font->stbfont, &ascent, &descent, &linegap);
float scale = stbtt_ScaleForMappingEmToPixels(&font->stbfont, font->size);
font->height = (ascent - descent + linegap) * scale + 0.5;

so, mathematically

font->height = (ascent - descent + linegap) * font->size / unitsPerEm + 0.5;

TO DO: find out for what font->height is actually used.

Call to BakeFontBitmap

In the same file, renderer.c, to create the glyphset image it computes:

// Using stbtt functions
float s = ScaleForMappingEmToPixels(1) / ScaleForPixelHeight(1);

so 's' is actually equal to (ascent - descent) / unitsPerEm.

Then BakeFontBitmap is called and font->size * s is used for the pixel_height argument. So BakeFontBitmap gets

pixel_height = (ascent - descent) * font->size / unitsPerEm;

In turns BakeFontBitmap passes pixel_height to ScaleForPixelHeight() and uses the resulting 'scale' to scale the glyphs by passing it to MakeGlyphBitmap().

This is equal almost equal to font->height except the 0.5, the missing linegap calculation and the fact that this latter is an integer instead of a float.

AGG Font Engine

Calls

FT_Init_FreeType (initialize the library)

In load_font() method: FT_New_Face or FT_New_Memory_Face (use FT_Done_Face when done)

FT_Attach_File FT_Select_Charmap

In update_char_size() method: FT_Set_Char_Size or FT_Set_Pixel_Sizes

In prepare_glyph() method: FT_Get_Char_Index FT_Load_Glyph FT_Render_Glyph (if glyph_render_native_mono or native_gray8)

in add_kerning() method FT_Get_Kerning

FT_Done_FreeType (end with library)

FT_New_Face return a FT_Face (a pointer) with font face information.

AGG font engine's font size

The variable m_height is the size of the font muliplied by 64. It will be used to set font size with:

  • FT_Set_Char_Size if m_resolution is set (> 0)
  • FT_Set_Pixel_Sizes, divided by 64, if m_resolution is not set (= 0)

The method height() returns m_height / 64;