/* * Copyright 2014 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ // Running create_test_font generates ./tools/fonts/test_font_index.inc // and ./tools/fonts/test_font_.inc which are read by // ./tools/fonts/SkTestFontMgr.cpp #include "SkFont.h" #include "SkFontMetrics.h" #include "SkFontStyle.h" #include "SkOSFile.h" #include "SkOSPath.h" #include "SkPath.h" #include "SkSpan.h" #include "SkStream.h" #include "SkTArray.h" #include "SkTSort.h" #include "SkTypeface.h" #include "SkUTF.h" #include namespace { struct NamedFontStyle { char const * const fName; char const * const fIdentifierName; SkFontStyle const fStyle; }; struct FontDesc { NamedFontStyle const fNamedStyle; char const * const fFile; }; struct FontFamilyDesc { char const * const fGenericName; char const * const fFamilyName; char const * const fIdentifierName; SkSpan const fFonts; }; } // namespace static FILE* font_header(const char* family) { SkString outPath(SkOSPath::Join(".", "tools")); outPath = SkOSPath::Join(outPath.c_str(), "fonts"); outPath = SkOSPath::Join(outPath.c_str(), "test_font_"); SkString fam(family); do { int dashIndex = fam.find("-"); if (dashIndex < 0) { break; } fam.writable_str()[dashIndex] = '_'; } while (true); outPath.append(fam); outPath.append(".inc"); FILE* out = fopen(outPath.c_str(), "w"); static const char kHeader[] = "/*\n" " * Copyright 2015 Google Inc.\n" " *\n" " * Use of this source code is governed by a BSD-style license that can be\n" " * found in the LICENSE file.\n" " */\n" "\n" "// Auto-generated by "; fprintf(out, "%s%s\n\n", kHeader, SkOSPath::Basename(__FILE__).c_str()); return out; } enum { kMaxLineLength = 80, }; static ptrdiff_t last_line_length(const SkString& str) { const char* first = str.c_str(); const char* last = first + str.size(); const char* ptr = last; while (ptr > first && *--ptr != '\n') ; return last - ptr - 1; } static void output_fixed(SkScalar num, int emSize, SkString* out) { int hex = (int) (num * 65536 / emSize); out->appendf("0x%08x,", hex); *out += (int) last_line_length(*out) >= kMaxLineLength ? '\n' : ' '; } static void output_scalar(SkScalar num, int emSize, SkString* out) { num /= emSize; if (num == (int) num) { out->appendS32((int) num); } else { SkString str; str.printf("%1.6g", num); int width = (int) str.size(); const char* cStr = str.c_str(); while (cStr[width - 1] == '0') { --width; } str.remove(width, str.size() - width); out->appendf("%sf", str.c_str()); } *out += ','; *out += (int) last_line_length(*out) >= kMaxLineLength ? '\n' : ' '; } static int output_points(const SkPoint* pts, int emSize, int count, SkString* ptsOut) { for (int index = 0; index < count; ++index) { output_scalar(pts[index].fX, emSize, ptsOut); output_scalar(pts[index].fY, emSize, ptsOut); } return count; } static void output_path_data(const SkFont& font, int emSize, SkString* ptsOut, SkTDArray* verbs, SkTDArray* charCodes, SkTDArray* widths) { for (SkUnichar index = 0x00; index < 0x7f; ++index) { uint16_t glyphID = font.unicharToGlyph(index); SkPath path; font.getPath(glyphID, &path); SkPath::RawIter iter(path); SkPath::Verb verb; SkPoint pts[4]; while ((verb = iter.next(pts)) != SkPath::kDone_Verb) { *verbs->append() = verb; switch (verb) { case SkPath::kMove_Verb: output_points(&pts[0], emSize, 1, ptsOut); break; case SkPath::kLine_Verb: output_points(&pts[1], emSize, 1, ptsOut); break; case SkPath::kQuad_Verb: output_points(&pts[1], emSize, 2, ptsOut); break; case SkPath::kCubic_Verb: output_points(&pts[1], emSize, 3, ptsOut); break; case SkPath::kClose_Verb: break; default: SkDEBUGFAIL("bad verb"); SkASSERT(0); } } *verbs->append() = SkPath::kDone_Verb; *charCodes->append() = index; SkScalar width; font.getWidths(&glyphID, 1, &width); // SkASSERT(floor(width) == width); // not true for Hiragino Maru Gothic Pro *widths->append() = width; if (0 == index) { index = 0x1f; // skip the rest of the control codes } } } static int offset_str_len(unsigned num) { if (num == (unsigned) -1) { return 10; } unsigned result = 1; unsigned ref = 10; while (ref <= num) { ++result; ref *= 10; } return result; } static SkString strip_final(const SkString& str) { SkString result(str); if (result.endsWith("\n")) { result.remove(result.size() - 1, 1); } if (result.endsWith(" ")) { result.remove(result.size() - 1, 1); } if (result.endsWith(",")) { result.remove(result.size() - 1, 1); } return result; } static void output_font(sk_sp face, const char* identifier, FILE* out) { const int emSize = face->getUnitsPerEm() * 2; SkFont font; font.setEdging(SkFont::Edging::kAntiAlias); font.setSize(emSize); font.setTypeface(std::move(face)); SkTDArray verbs; SkTDArray charCodes; SkTDArray widths; SkString ptsOut; output_path_data(font, emSize, &ptsOut, &verbs, &charCodes, &widths); fprintf(out, "const SkScalar %sPoints[] = {\n", identifier); ptsOut = strip_final(ptsOut); fprintf(out, "%s", ptsOut.c_str()); fprintf(out, "\n};\n\n"); fprintf(out, "const unsigned char %sVerbs[] = {\n", identifier); int verbCount = verbs.count(); int outChCount = 0; for (int index = 0; index < verbCount;) { SkPath::Verb verb = verbs[index]; SkASSERT(verb >= SkPath::kMove_Verb && verb <= SkPath::kDone_Verb); SkASSERT(SkTFitsIn(verb)); fprintf(out, "%u", verb); if (++index < verbCount) { outChCount += 3; fprintf(out, "%c", ','); if (outChCount >= kMaxLineLength) { outChCount = 0; fprintf(out, "%c", '\n'); } else { fprintf(out, "%c", ' '); } } } fprintf(out, "\n};\n\n"); // all fonts are now 0x00, 0x20 - 0xFE // don't need to generate or output character codes? fprintf(out, "const SkUnichar %sCharCodes[] = {\n", identifier); int offsetCount = charCodes.count(); for (int index = 0; index < offsetCount;) { unsigned offset = charCodes[index]; fprintf(out, "%u", offset); if (++index < offsetCount) { outChCount += offset_str_len(offset) + 2; fprintf(out, "%c", ','); if (outChCount >= kMaxLineLength) { outChCount = 0; fprintf(out, "%c", '\n'); } else { fprintf(out, "%c", ' '); } } } fprintf(out, "\n};\n\n"); SkString widthsStr; fprintf(out, "const SkFixed %sWidths[] = {\n", identifier); for (int index = 0; index < offsetCount; ++index) { output_fixed(widths[index], emSize, &widthsStr); } widthsStr = strip_final(widthsStr); fprintf(out, "%s\n};\n\n", widthsStr.c_str()); fprintf(out, "const size_t %sCharCodesCount = SK_ARRAY_COUNT(%sCharCodes);\n\n", identifier, identifier); SkFontMetrics metrics; font.getMetrics(&metrics); fprintf(out, "const SkFontMetrics %sMetrics = {\n", identifier); SkString metricsStr; metricsStr.printf("0x%08x, ", metrics.fFlags); output_scalar(metrics.fTop, emSize, &metricsStr); output_scalar(metrics.fAscent, emSize, &metricsStr); output_scalar(metrics.fDescent, emSize, &metricsStr); output_scalar(metrics.fBottom, emSize, &metricsStr); output_scalar(metrics.fLeading, emSize, &metricsStr); output_scalar(metrics.fAvgCharWidth, emSize, &metricsStr); output_scalar(metrics.fMaxCharWidth, emSize, &metricsStr); output_scalar(metrics.fXMin, emSize, &metricsStr); output_scalar(metrics.fXMax, emSize, &metricsStr); output_scalar(metrics.fXHeight, emSize, &metricsStr); output_scalar(metrics.fCapHeight, emSize, &metricsStr); output_scalar(metrics.fUnderlineThickness, emSize, &metricsStr); output_scalar(metrics.fUnderlinePosition, emSize, &metricsStr); output_scalar(metrics.fStrikeoutThickness, emSize, &metricsStr); output_scalar(metrics.fStrikeoutPosition, emSize, &metricsStr); metricsStr = strip_final(metricsStr); fprintf(out, "%s\n};\n\n", metricsStr.c_str()); } static SkString identifier(const FontFamilyDesc& family, const FontDesc& font) { SkString id(family.fIdentifierName); id.append(font.fNamedStyle.fIdentifierName); return id; } static void generate_fonts(const char* basepath, const SkSpan& families) { FILE* out = nullptr; for (const FontFamilyDesc& family : families) { out = font_header(family.fGenericName); for (const FontDesc& font : family.fFonts) { SkString filepath(SkOSPath::Join(basepath, font.fFile)); SkASSERTF(sk_exists(filepath.c_str()), "The file %s does not exist.", filepath.c_str()); sk_sp resourceTypeface = SkTypeface::MakeFromFile(filepath.c_str()); SkASSERTF(resourceTypeface, "The file %s is not a font.", filepath.c_str()); output_font(std::move(resourceTypeface), identifier(family, font).c_str(), out); } fclose(out); } } static const char* slant_to_string(SkFontStyle::Slant slant) { switch (slant) { case SkFontStyle::kUpright_Slant: return "SkFontStyle::kUpright_Slant"; case SkFontStyle::kItalic_Slant : return "SkFontStyle::kItalic_Slant" ; case SkFontStyle::kOblique_Slant: return "SkFontStyle::kOblique_Slant"; default: SK_ABORT("Unknown slant"); return ""; } } static void generate_index(const SkSpan& families, const FontDesc* defaultFont) { FILE* out = font_header("index"); fprintf(out, "static SkTestFontData gTestFonts[] = {\n"); for (const FontFamilyDesc& family : families) { for (const FontDesc& font : family.fFonts) { SkString identifierStr = identifier(family, font); const char* identifier = identifierStr.c_str(); const SkFontStyle& style = font.fNamedStyle.fStyle; fprintf(out, " { %sPoints, %sVerbs,\n" " %sCharCodes, %sCharCodesCount, %sWidths,\n" " %sMetrics, \"Toy %s\", SkFontStyle(%d,%d,%s)\n" " },\n", identifier, identifier, identifier, identifier, identifier, identifier, family.fFamilyName, style.weight(), style.width(), slant_to_string(style.slant())); } } fprintf(out, "};\n\n"); fprintf(out, "struct SubFont {\n" " const char* fFamilyName;\n" " const char* fStyleName;\n" " SkFontStyle fStyle;\n" " SkTestFontData& fFont;\n" " const char* fFile;\n" "};\n\n" "const SubFont gSubFonts[] = {\n"); int defaultIndex = -1; int testFontsIndex = 0; for (const FontFamilyDesc& family : families) { for (const FontDesc& font : family.fFonts) { if (&font == defaultFont) { defaultIndex = testFontsIndex; } const SkFontStyle& style = font.fNamedStyle.fStyle; fprintf(out, " { \"%s\", \"%s\", SkFontStyle(%d,%d,%s), gTestFonts[%d], \"%s\" },\n", family.fGenericName, font.fNamedStyle.fName, style.weight(), style.width(), slant_to_string(style.slant()), testFontsIndex, font.fFile); testFontsIndex++; } } testFontsIndex = 0; for (const FontFamilyDesc& family : families) { for (const FontDesc& font : family.fFonts) { fprintf(out, " { \"Toy %s\", \"%s\", SkFontStyle(%d,%d,%s), gTestFonts[%d], \"%s\" },\n", family.fFamilyName, font.fNamedStyle.fName, font.fNamedStyle.fStyle.weight(), font.fNamedStyle.fStyle.width(), slant_to_string(font.fNamedStyle.fStyle.slant()), testFontsIndex, font.fFile); testFontsIndex++; } } fprintf(out, "};\n\n"); SkASSERT(defaultIndex >= 0); fprintf(out, "const size_t gDefaultFontIndex = %d;\n", defaultIndex); fclose(out); } int main(int , char * const []) { constexpr NamedFontStyle normal = {"Normal", "Normal", SkFontStyle::Normal() }; constexpr NamedFontStyle bold = {"Bold", "Bold", SkFontStyle::Bold() }; constexpr NamedFontStyle italic = {"Italic", "Italic", SkFontStyle::Italic() }; constexpr NamedFontStyle bolditalic = {"Bold Italic", "BoldItalic", SkFontStyle::BoldItalic()}; static constexpr FontDesc kMonoFonts[] = { {normal, "LiberationMono-Regular.ttf"}, {bold, "LiberationMono-Bold.ttf"}, {italic, "LiberationMono-Italic.ttf"}, {bolditalic, "LiberationMono-BoldItalic.ttf"}, }; static constexpr FontDesc kSansFonts[] = { {normal, "LiberationSans-Regular.ttf"}, {bold, "LiberationSans-Bold.ttf"}, {italic, "LiberationSans-Italic.ttf"}, {bolditalic, "LiberationSans-BoldItalic.ttf"}, }; static constexpr FontDesc kSerifFonts[] = { {normal, "LiberationSerif-Regular.ttf"}, {bold, "LiberationSerif-Bold.ttf"}, {italic, "LiberationSerif-Italic.ttf"}, {bolditalic, "LiberationSerif-BoldItalic.ttf"}, }; static constexpr FontFamilyDesc kFamiliesData[] = { {"monospace", "Liberation Mono", "LiberationMono", { kMonoFonts }}, {"sans-serif", "Liberation Sans", "LiberationSans", { kSansFonts }}, {"serif", "Liberation Serif", "LiberationSerif", { kSerifFonts }}, }; static constexpr SkSpan kFamilies(kFamiliesData); #ifdef SK_BUILD_FOR_UNIX generate_fonts("/usr/share/fonts/truetype/liberation/", kFamilies); #else generate_fonts("/Library/Fonts/", kFamilies); #endif generate_index(kFamilies, &kFamilies[1].fFonts[0]); return 0; }