metaforce/specter/lib/FontCache.cpp

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#ifndef NOMINMAX
#define NOMINMAX 1
#endif
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#include "specter/FontCache.hpp"
#include <cstddef>
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#include <cstdint>
#include <memory>
#include <vector>
#include <athena/FileReader.hpp>
#include <athena/FileWriter.hpp>
#include <athena/MemoryReader.hpp>
#include <boo/System.hpp>
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#include FT_GZIP_H
#include FT_SYSTEM_H
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#include FT_OUTLINE_H
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#include <freetype/internal/internal.h>
#include <freetype/internal/ftstream.h>
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#include <freetype/internal/tttypes.h>
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#include <hecl/hecl.hpp>
#include <hecl/Runtime.hpp>
#include <logvisor/logvisor.hpp>
#include <xxhash/xxhash.h>
#include <zlib.h>
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extern "C" const uint8_t DROIDSANS_PERMISSIVE[];
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extern "C" size_t DROIDSANS_PERMISSIVE_SZ;
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extern "C" const uint8_t BMONOFONT[];
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extern "C" size_t BMONOFONT_SZ;
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extern "C" const uint8_t SPECTERCURVES[];
extern "C" size_t SPECTERCURVES_SZ;
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extern "C" const FT_Driver_ClassRec tt_driver_class;
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namespace specter {
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static logvisor::Module Log("specter::FontCache");
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const FCharFilter AllCharFilter{"all-glyphs", [](uint32_t) { return true; }};
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const FCharFilter LatinCharFilter{"latin-glyphs",
[](uint32_t c) { return c <= 0xff || (c - 0x2200) <= (0x23FF - 0x2200); }};
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const FCharFilter LatinAndJapaneseCharFilter{"latin-and-jp-glyphs", [](uint32_t c) {
return LatinCharFilter.second(c) || (c - 0x2E00) <= (0x30FF - 0x2E00) ||
(c - 0x4E00) <= (0x9FFF - 0x4E00) ||
(c - 0xFF00) <= (0xFFEF - 0xFF00);
}};
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FontTag::FontTag(std::string_view name, bool subpixel, float points, uint32_t dpi) {
XXH64_state_t st;
XXH64_reset(&st, 0);
XXH64_update(&st, name.data(), name.size());
XXH64_update(&st, &subpixel, 1);
XXH64_update(&st, &points, 4);
XXH64_update(&st, &dpi, 4);
m_hash = XXH64_digest(&st);
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}
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FreeTypeGZipMemFace::FreeTypeGZipMemFace(FT_Library lib, const uint8_t* data, size_t sz) : m_lib(lib) {
m_comp.base = (unsigned char*)data;
m_comp.size = sz;
m_comp.memory = lib->memory;
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}
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void FreeTypeGZipMemFace::open() {
if (m_face)
return;
if (FT_Stream_OpenGzip(&m_decomp, &m_comp))
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Log.report(logvisor::Fatal, FMT_STRING("unable to open FreeType gzip stream"));
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FT_Open_Args args = {FT_OPEN_STREAM, nullptr, 0, nullptr, &m_decomp};
if (FT_Open_Face(m_lib, &args, 0, &m_face))
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Log.report(logvisor::Fatal, FMT_STRING("unable to open FreeType gzip face"));
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}
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void FreeTypeGZipMemFace::close() {
if (!m_face)
return;
FT_Done_Face(m_face);
m_face = nullptr;
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}
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#define TEXMAP_DIM 1024
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static unsigned RoundUpPow2(unsigned v) {
v--;
v |= v >> 1;
v |= v >> 2;
v |= v >> 4;
v |= v >> 8;
v |= v >> 16;
v++;
return v;
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}
using GreyPixel = uint8_t;
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static void MemcpyRect(GreyPixel* img, const FT_Bitmap* bmp, unsigned slice, unsigned x, unsigned y) {
unsigned sy = TEXMAP_DIM * slice + y;
for (unsigned i = 0; i < bmp->rows; ++i) {
const unsigned char* s = &bmp->buffer[bmp->pitch * i];
GreyPixel* t = &img[TEXMAP_DIM * (sy + i) + x];
memcpy(t, s, bmp->width);
}
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}
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union RgbaPixel {
uint8_t rgba[4];
uint32_t pixel;
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};
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static void MemcpyRect(RgbaPixel* img, const FT_Bitmap* bmp, unsigned slice, unsigned x, unsigned y) {
unsigned sy = TEXMAP_DIM * slice + y;
for (unsigned i = 0; i < bmp->rows; ++i) {
const unsigned char* s = &bmp->buffer[bmp->pitch * i];
RgbaPixel* t = &img[TEXMAP_DIM * (sy + i) + x];
for (unsigned j = 0; j < bmp->width / 3; ++j) {
t[j].rgba[0] = s[j * 3];
t[j].rgba[1] = s[j * 3 + 1];
t[j].rgba[2] = s[j * 3 + 2];
t[j].rgba[3] = 0xff;
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}
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}
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}
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static void GridFitGlyph(FT_GlyphSlot slot, FT_UInt& width, FT_UInt& height) {
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width = slot->metrics.width >> 6;
height = slot->metrics.height >> 6;
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}
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void FontAtlas::buildKernTable(FT_Face face) {
if (face->driver->clazz == &tt_driver_class) {
TT_Face ttface = reinterpret_cast<TT_Face>(face);
if (!ttface->kern_table)
return;
athena::io::MemoryReader r(ttface->kern_table, ttface->kern_table_size);
auto it = m_kernAdjs.end();
atUint32 nSubs = r.readUint32Big();
for (atUint32 i = 0; i < nSubs; ++i) {
TT_KernHead kernHead;
kernHead.read(r);
if (kernHead.coverage >> 8 != 0) {
r.seek(kernHead.length - 6, athena::SeekOrigin::Current);
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continue;
}
TT_KernSubHead subHead;
subHead.read(r);
for (atUint16 p = 0; p < subHead.nPairs; ++p) {
TT_KernPair pair;
pair.read(r);
if (it == m_kernAdjs.end() || it->first != pair.left)
if ((it = m_kernAdjs.find(pair.left)) == m_kernAdjs.end())
it = m_kernAdjs.insert(std::make_pair(pair.left, std::vector<std::pair<atUint16, atInt16>>())).first;
it->second.emplace_back(pair.right, pair.value);
}
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}
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}
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}
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#define NO_ZLIB 0
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#define ZLIB_BUF_SZ 32768
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static void WriteCompressed(athena::io::FileWriter& writer, const atUint8* data, size_t sz) {
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#if NO_ZLIB
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writer.writeUBytes(data, sz);
return;
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#endif
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atUint8 compBuf[ZLIB_BUF_SZ];
z_stream z = {};
deflateInit(&z, Z_DEFAULT_COMPRESSION);
z.next_in = (Bytef*)data;
z.avail_in = sz;
writer.writeUint32Big(sz);
atUint64 adlerPos = writer.position();
writer.writeUint32Big(0); /* Space for adler32 */
while (z.avail_in) {
z.next_out = compBuf;
z.avail_out = ZLIB_BUF_SZ;
deflate(&z, Z_NO_FLUSH);
writer.writeUBytes(compBuf, ZLIB_BUF_SZ - z.avail_out);
}
int finishCycle = Z_OK;
while (finishCycle != Z_STREAM_END) {
z.next_out = compBuf;
z.avail_out = ZLIB_BUF_SZ;
finishCycle = deflate(&z, Z_FINISH);
writer.writeUBytes(compBuf, ZLIB_BUF_SZ - z.avail_out);
}
writer.seek(adlerPos, athena::SeekOrigin::Begin);
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writer.writeUint32Big(z.adler);
deflateEnd(&z);
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}
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static bool ReadDecompressed(athena::io::FileReader& reader, atUint8* data, size_t sz) {
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#if NO_ZLIB
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reader.readUBytesToBuf(data, sz);
return true;
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#endif
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atUint8 compBuf[ZLIB_BUF_SZ];
z_stream z = {};
inflateInit(&z);
z.next_out = data;
atUint32 targetSz = reader.readUint32Big();
atUint32 adler32 = reader.readUint32Big();
z.avail_out = std::min(sz, size_t(targetSz));
size_t readSz;
while ((readSz = reader.readUBytesToBuf(compBuf, ZLIB_BUF_SZ))) {
z.next_in = compBuf;
z.avail_in = readSz;
if (inflate(&z, Z_NO_FLUSH) == Z_STREAM_END)
break;
}
inflateEnd(&z);
return adler32 == z.adler;
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}
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FontAtlas::FontAtlas(FT_Face face, uint32_t dpi, bool subpixel, FCharFilter& filter, athena::io::FileWriter& writer)
: m_dpi(dpi)
, m_ftXscale(face->size->metrics.x_scale)
, m_ftXPpem(face->size->metrics.x_ppem)
, m_lineHeight(face->size->metrics.height)
, m_subpixel(subpixel) {
FT_Int32 baseFlags = FT_LOAD_NO_BITMAP;
if (subpixel)
baseFlags |= FT_LOAD_TARGET_LCD;
else
baseFlags |= FT_LOAD_TARGET_NORMAL;
/* First count glyphs exposed by unicode charmap and tally required area */
size_t glyphCount = 0;
FT_UInt gindex;
FT_ULong charcode = FT_Get_First_Char(face, &gindex);
unsigned curLineWidth = 1;
unsigned curLineHeight = 0;
unsigned totalHeight = 1;
m_fullTexmapLayers = 0;
while (gindex != 0) {
if (!filter.second(charcode)) {
charcode = FT_Get_Next_Char(face, charcode, &gindex);
continue;
}
++glyphCount;
FT_Load_Glyph(face, gindex, baseFlags);
FT_UInt width, height;
GridFitGlyph(face->glyph, width, height);
if (curLineWidth + width + 1 > TEXMAP_DIM) {
totalHeight += curLineHeight + 1;
curLineHeight = 0;
curLineWidth = 1;
}
curLineHeight = std::max(curLineHeight, height);
if (totalHeight + curLineHeight + 1 > TEXMAP_DIM) {
totalHeight = 1;
++m_fullTexmapLayers;
// printf("StagedB: %u\n", gindex);
curLineHeight = 0;
curLineWidth = 1;
}
curLineWidth += width + 1;
charcode = FT_Get_Next_Char(face, charcode, &gindex);
}
if (curLineHeight)
totalHeight += curLineHeight + 1;
m_glyphs.reserve(glyphCount);
m_glyphLookup.reserve(glyphCount);
totalHeight = RoundUpPow2(totalHeight);
m_finalHeight = m_fullTexmapLayers ? TEXMAP_DIM : totalHeight;
writer.writeUint32Big(m_fullTexmapLayers + 1);
writer.writeUint32Big(TEXMAP_DIM);
writer.writeUint32Big(m_finalHeight);
if (subpixel) {
/* Allocate texmap */
if (m_fullTexmapLayers) {
// printf("ALLOC: %u\n", fullTexmapLayers + 1);
size_t count = TEXMAP_DIM * TEXMAP_DIM * (m_fullTexmapLayers + 1);
m_texmap.resize(count * sizeof(RgbaPixel));
} else {
size_t count = TEXMAP_DIM * totalHeight;
m_texmap.resize(count * sizeof(RgbaPixel));
}
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/* Assemble glyph texmaps and internal data structures */
charcode = FT_Get_First_Char(face, &gindex);
curLineWidth = 1;
curLineHeight = 0;
totalHeight = 1;
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m_fullTexmapLayers = 0;
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while (gindex != 0) {
if (!filter.second(charcode)) {
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charcode = FT_Get_Next_Char(face, charcode, &gindex);
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continue;
}
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FT_Load_Glyph(face, gindex, FT_LOAD_RENDER | baseFlags);
FT_UInt width, height;
GridFitGlyph(face->glyph, width, height);
if (curLineWidth + width + 1 > TEXMAP_DIM) {
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totalHeight += curLineHeight + 1;
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curLineHeight = 0;
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curLineWidth = 1;
}
curLineHeight = std::max(curLineHeight, height);
if (totalHeight + curLineHeight + 1 > TEXMAP_DIM) {
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totalHeight = 1;
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++m_fullTexmapLayers;
// printf("RealB: %u\n", gindex);
curLineHeight = 0;
curLineWidth = 1;
}
m_glyphLookup.insert_or_assign(charcode, m_glyphs.size());
Glyph& g = m_glyphs.emplace_back();
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g.m_unicodePoint = charcode;
g.m_glyphIdx = gindex;
g.m_layerIdx = m_fullTexmapLayers;
g.m_layerFloat = float(g.m_layerIdx);
g.m_width = face->glyph->bitmap.width / 3;
g.m_height = face->glyph->bitmap.rows;
g.m_uv[0] = curLineWidth / float(TEXMAP_DIM);
g.m_uv[1] = totalHeight / float(m_finalHeight);
g.m_uv[2] = g.m_uv[0] + g.m_width / float(TEXMAP_DIM);
g.m_uv[3] = g.m_uv[1] + g.m_height / float(m_finalHeight);
g.m_leftPadding = face->glyph->metrics.horiBearingX >> 6;
g.m_advance = face->glyph->advance.x >> 6;
g.m_verticalOffset = (face->glyph->metrics.horiBearingY - face->glyph->metrics.height) >> 6;
MemcpyRect((RgbaPixel*)m_texmap.data(), &face->glyph->bitmap, m_fullTexmapLayers, curLineWidth, totalHeight);
curLineWidth += width + 1;
charcode = FT_Get_Next_Char(face, charcode, &gindex);
}
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WriteCompressed(writer, m_texmap.data(), m_texmap.size());
} else {
/* Allocate texmap */
if (m_fullTexmapLayers) {
// printf("ALLOC: %u\n", fullTexmapLayers + 1);
size_t count = TEXMAP_DIM * TEXMAP_DIM * (m_fullTexmapLayers + 1);
m_texmap.resize(count * sizeof(GreyPixel));
} else {
size_t count = TEXMAP_DIM * totalHeight;
m_texmap.resize(count * sizeof(GreyPixel));
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}
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/* Assemble glyph texmaps and internal data structures */
charcode = FT_Get_First_Char(face, &gindex);
curLineWidth = 1;
curLineHeight = 0;
totalHeight = 1;
m_fullTexmapLayers = 0;
while (gindex != 0) {
if (!filter.second(charcode)) {
charcode = FT_Get_Next_Char(face, charcode, &gindex);
continue;
}
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FT_Load_Glyph(face, gindex, FT_LOAD_RENDER | baseFlags);
FT_UInt width, height;
GridFitGlyph(face->glyph, width, height);
if (curLineWidth + width + 1 > TEXMAP_DIM) {
totalHeight += curLineHeight + 1;
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curLineHeight = 0;
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curLineWidth = 1;
}
curLineHeight = std::max(curLineHeight, height);
if (totalHeight + curLineHeight + 1 > TEXMAP_DIM) {
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totalHeight = 1;
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++m_fullTexmapLayers;
// printf("RealB: %u\n", gindex);
curLineHeight = 0;
curLineWidth = 1;
}
m_glyphLookup.insert_or_assign(charcode, m_glyphs.size());
Glyph& g = m_glyphs.emplace_back();
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g.m_unicodePoint = charcode;
g.m_glyphIdx = gindex;
g.m_layerIdx = m_fullTexmapLayers;
g.m_layerFloat = float(g.m_layerIdx);
g.m_width = face->glyph->bitmap.width;
g.m_height = face->glyph->bitmap.rows;
g.m_uv[0] = curLineWidth / float(TEXMAP_DIM);
g.m_uv[1] = totalHeight / float(m_finalHeight);
g.m_uv[2] = g.m_uv[0] + g.m_width / float(TEXMAP_DIM);
g.m_uv[3] = g.m_uv[1] + g.m_height / float(m_finalHeight);
g.m_leftPadding = face->glyph->metrics.horiBearingX >> 6;
g.m_advance = face->glyph->advance.x >> 6;
g.m_verticalOffset = (face->glyph->metrics.horiBearingY - face->glyph->metrics.height) >> 6;
MemcpyRect(m_texmap.data(), &face->glyph->bitmap, m_fullTexmapLayers, curLineWidth, totalHeight);
curLineWidth += width + 1;
charcode = FT_Get_Next_Char(face, charcode, &gindex);
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}
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WriteCompressed(writer, m_texmap.data(), m_texmap.size());
}
buildKernTable(face);
m_ready = true;
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}
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FontAtlas::FontAtlas(FT_Face face, uint32_t dpi, bool subpixel, FCharFilter& filter, athena::io::FileReader& reader)
: m_dpi(dpi)
, m_ftXscale(face->size->metrics.x_scale)
, m_ftXPpem(face->size->metrics.x_ppem)
, m_lineHeight(face->size->metrics.height)
, m_subpixel(subpixel) {
FT_Int32 baseFlags = FT_LOAD_NO_BITMAP;
if (subpixel)
baseFlags |= FT_LOAD_TARGET_LCD;
else
baseFlags |= FT_LOAD_TARGET_NORMAL;
/* First count glyphs exposed by unicode charmap */
size_t glyphCount = 0;
FT_UInt gindex;
FT_ULong charcode = FT_Get_First_Char(face, &gindex);
while (gindex != 0) {
if (!filter.second(charcode)) {
charcode = FT_Get_Next_Char(face, charcode, &gindex);
continue;
}
++glyphCount;
charcode = FT_Get_Next_Char(face, charcode, &gindex);
}
m_glyphs.reserve(glyphCount);
m_glyphLookup.reserve(glyphCount);
m_fullTexmapLayers = reader.readUint32Big() - 1;
reader.readUint32Big();
m_finalHeight = reader.readUint32Big();
if (subpixel) {
/* Allocate texmap */
if (m_fullTexmapLayers) {
// printf("ALLOC: %u\n", fullTexmapLayers + 1);
size_t count = TEXMAP_DIM * TEXMAP_DIM * (m_fullTexmapLayers + 1);
m_texmap.resize(count * sizeof(RgbaPixel));
} else {
size_t count = TEXMAP_DIM * m_finalHeight;
m_texmap.resize(count * sizeof(RgbaPixel));
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}
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/* Assemble glyph texmaps and internal data structures */
charcode = FT_Get_First_Char(face, &gindex);
unsigned curLineWidth = 1;
unsigned curLineHeight = 0;
unsigned totalHeight = 1;
m_fullTexmapLayers = 0;
while (gindex != 0) {
if (!filter.second(charcode)) {
charcode = FT_Get_Next_Char(face, charcode, &gindex);
continue;
}
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FT_Load_Glyph(face, gindex, baseFlags);
FT_UInt width, height;
GridFitGlyph(face->glyph, width, height);
if (curLineWidth + width + 1 > TEXMAP_DIM) {
totalHeight += curLineHeight + 1;
curLineHeight = 0;
curLineWidth = 1;
}
curLineHeight = std::max(curLineHeight, height);
if (totalHeight + curLineHeight + 1 > TEXMAP_DIM) {
totalHeight = 1;
++m_fullTexmapLayers;
// printf("RealB: %u\n", gindex);
curLineHeight = 0;
curLineWidth = 1;
}
m_glyphLookup.insert_or_assign(charcode, m_glyphs.size());
Glyph& g = m_glyphs.emplace_back();
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g.m_unicodePoint = charcode;
g.m_glyphIdx = gindex;
g.m_layerIdx = m_fullTexmapLayers;
g.m_layerFloat = float(g.m_layerIdx);
g.m_width = width;
g.m_height = height;
g.m_uv[0] = curLineWidth / float(TEXMAP_DIM);
g.m_uv[1] = totalHeight / float(m_finalHeight);
g.m_uv[2] = g.m_uv[0] + g.m_width / float(TEXMAP_DIM);
g.m_uv[3] = g.m_uv[1] + g.m_height / float(m_finalHeight);
g.m_leftPadding = face->glyph->metrics.horiBearingX >> 6;
g.m_advance = face->glyph->advance.x >> 6;
g.m_verticalOffset = (face->glyph->metrics.horiBearingY - face->glyph->metrics.height) >> 6;
curLineWidth += width + 1;
charcode = FT_Get_Next_Char(face, charcode, &gindex);
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}
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if (!ReadDecompressed(reader, m_texmap.data(), m_texmap.size()))
return;
} else {
/* Allocate texmap */
if (m_fullTexmapLayers) {
// printf("ALLOC: %u\n", fullTexmapLayers + 1);
size_t count = TEXMAP_DIM * TEXMAP_DIM * (m_fullTexmapLayers + 1);
m_texmap.resize(count * sizeof(GreyPixel));
} else {
size_t count = TEXMAP_DIM * m_finalHeight;
m_texmap.resize(count * sizeof(GreyPixel));
}
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/* Assemble glyph texmaps and internal data structures */
charcode = FT_Get_First_Char(face, &gindex);
unsigned curLineWidth = 1;
unsigned curLineHeight = 0;
unsigned totalHeight = 1;
m_fullTexmapLayers = 0;
while (gindex != 0) {
if (!filter.second(charcode)) {
charcode = FT_Get_Next_Char(face, charcode, &gindex);
continue;
}
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FT_Load_Glyph(face, gindex, baseFlags);
FT_UInt width, height;
GridFitGlyph(face->glyph, width, height);
if (curLineWidth + width + 1 > TEXMAP_DIM) {
totalHeight += curLineHeight + 1;
curLineHeight = 0;
curLineWidth = 1;
}
curLineHeight = std::max(curLineHeight, height);
if (totalHeight + curLineHeight + 1 > TEXMAP_DIM) {
totalHeight = 1;
++m_fullTexmapLayers;
// printf("RealB: %u\n", gindex);
curLineHeight = 0;
curLineWidth = 1;
}
m_glyphLookup.insert_or_assign(charcode, m_glyphs.size());
Glyph& g = m_glyphs.emplace_back();
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g.m_unicodePoint = charcode;
g.m_glyphIdx = gindex;
g.m_layerIdx = m_fullTexmapLayers;
g.m_layerFloat = float(g.m_layerIdx);
g.m_width = width;
g.m_height = height;
g.m_uv[0] = curLineWidth / float(TEXMAP_DIM);
g.m_uv[1] = totalHeight / float(m_finalHeight);
g.m_uv[2] = g.m_uv[0] + g.m_width / float(TEXMAP_DIM);
g.m_uv[3] = g.m_uv[1] + g.m_height / float(m_finalHeight);
g.m_leftPadding = face->glyph->metrics.horiBearingX >> 6;
g.m_advance = face->glyph->advance.x >> 6;
g.m_verticalOffset = (face->glyph->metrics.horiBearingY - face->glyph->metrics.height) >> 6;
curLineWidth += width + 1;
charcode = FT_Get_Next_Char(face, charcode, &gindex);
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}
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if (!ReadDecompressed(reader, m_texmap.data(), m_texmap.size()))
return;
}
buildKernTable(face);
m_ready = true;
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}
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boo::ObjToken<boo::ITextureSA> FontAtlas::texture(boo::IGraphicsDataFactory* gf) const {
if (!m_ready)
return {};
if (m_tex)
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return m_tex;
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gf->commitTransaction([&](boo::IGraphicsDataFactory::Context& ctx) {
if (m_subpixel)
const_cast<boo::ObjToken<boo::ITextureSA>&>(m_tex) =
ctx.newStaticArrayTexture(TEXMAP_DIM, m_finalHeight, m_fullTexmapLayers + 1, 1, boo::TextureFormat::RGBA8,
boo::TextureClampMode::Repeat, m_texmap.data(), m_texmap.size());
else
const_cast<boo::ObjToken<boo::ITextureSA>&>(m_tex) =
ctx.newStaticArrayTexture(TEXMAP_DIM, m_finalHeight, m_fullTexmapLayers + 1, 1, boo::TextureFormat::I8,
boo::TextureClampMode::Repeat, m_texmap.data(), m_texmap.size());
const_cast<std::vector<uint8_t>&>(m_texmap) = std::vector<uint8_t>();
return true;
} BooTrace);
return m_tex;
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}
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FontCache::Library::Library() {
FT_Error err = FT_Init_FreeType(&m_lib);
if (err)
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Log.report(logvisor::Fatal, FMT_STRING("unable to FT_Init_FreeType"));
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}
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FontCache::Library::~Library() { FT_Done_FreeType(m_lib); }
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FontCache::FontCache(const hecl::Runtime::FileStoreManager& fileMgr)
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: m_fileMgr(fileMgr)
, m_cacheRoot(hecl::SystemString(m_fileMgr.getStoreRoot()) + _SYS_STR("/fontcache"))
, m_regFace(m_fontLib, DROIDSANS_PERMISSIVE, DROIDSANS_PERMISSIVE_SZ)
, m_monoFace(m_fontLib, BMONOFONT, BMONOFONT_SZ)
, m_curvesFace(m_fontLib, SPECTERCURVES, SPECTERCURVES_SZ) {
hecl::MakeDir(m_cacheRoot.c_str());
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}
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FontCache::~FontCache() = default;
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FontTag FontCache::prepCustomFont(std::string_view name, FT_Face face, FCharFilter filter, bool subpixel, float points,
uint32_t dpi) {
/* Quick validation */
if (!face)
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Log.report(logvisor::Fatal, FMT_STRING("invalid freetype face"));
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if (!face->charmap || face->charmap->encoding != FT_ENCODING_UNICODE)
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Log.report(logvisor::Fatal, FMT_STRING("font does not contain a unicode char map"));
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/* Set size with FreeType */
FT_Set_Char_Size(face, 0, points * 64.0, 0, dpi);
/* Make tag and search for cached version */
const FontTag tag(std::string(name).append(1, '_').append(filter.first), subpixel, points, dpi);
const auto search = m_cachedAtlases.find(tag);
if (search != m_cachedAtlases.end()) {
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return tag;
}
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/* Now check filesystem cache */
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hecl::SystemString cachePath = m_cacheRoot + _SYS_STR('/') + fmt::format(FMT_STRING(_SYS_STR("{:x}")), tag.hash());
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hecl::Sstat st;
if (!hecl::Stat(cachePath.c_str(), &st) && S_ISREG(st.st_mode)) {
athena::io::FileReader r(cachePath);
if (!r.hasError()) {
atUint32 magic = r.readUint32Big();
if (r.position() == 4 && magic == 'FONT') {
std::unique_ptr<FontAtlas> fa = std::make_unique<FontAtlas>(face, dpi, subpixel, filter, r);
if (fa->isReady()) {
m_cachedAtlases.emplace(tag, std::move(fa));
return tag;
}
}
}
}
/* Nada, build and cache now */
athena::io::FileWriter w(cachePath);
if (w.hasError())
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Log.report(logvisor::Fatal, FMT_STRING(_SYS_STR("unable to open '{}' for writing")), cachePath);
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w.writeUint32Big('FONT');
m_cachedAtlases.emplace(tag, std::make_unique<FontAtlas>(face, dpi, subpixel, filter, w));
return tag;
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}
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const FontAtlas& FontCache::lookupAtlas(FontTag tag) const {
auto search = m_cachedAtlases.find(tag);
if (search == m_cachedAtlases.cend())
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Log.report(logvisor::Fatal, FMT_STRING("invalid font"));
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return *search->second.get();
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}
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} // namespace specter