/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2020 - Raw Material Software Limited JUCE is an open source library subject to commercial or open-source licensing. By using JUCE, you agree to the terms of both the JUCE 6 End-User License Agreement and JUCE Privacy Policy (both effective as of the 16th June 2020). End User License Agreement: www.juce.com/juce-6-licence Privacy Policy: www.juce.com/juce-privacy-policy Or: You may also use this code under the terms of the GPL v3 (see www.gnu.org/licenses). JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE DISCLAIMED. ============================================================================== */ namespace juce { /* This is some quick-and-dirty code to extract the typeface name from a lump of TTF file data. It's needed because although win32 will happily load a TTF file from in-memory data, it won't tell you the name of the damned font that it just loaded.. and in order to actually use the font, you need to know its name!! Anyway, this awful hack seems to work for most fonts. */ namespace TTFNameExtractor { struct OffsetTable { uint32 version; uint16 numTables, searchRange, entrySelector, rangeShift; }; struct TableDirectory { char tag[4]; uint32 checkSum, offset, length; }; struct NamingTable { uint16 formatSelector; uint16 numberOfNameRecords; uint16 offsetStartOfStringStorage; }; struct NameRecord { uint16 platformID, encodingID, languageID; uint16 nameID, stringLength, offsetFromStorageArea; }; static String parseNameRecord (MemoryInputStream& input, const NameRecord& nameRecord, const int64 directoryOffset, const int64 offsetOfStringStorage) { String result; auto oldPos = input.getPosition(); input.setPosition (directoryOffset + offsetOfStringStorage + ByteOrder::swapIfLittleEndian (nameRecord.offsetFromStorageArea)); auto stringLength = (int) ByteOrder::swapIfLittleEndian (nameRecord.stringLength); auto platformID = ByteOrder::swapIfLittleEndian (nameRecord.platformID); if (platformID == 0 || platformID == 3) { auto numChars = stringLength / 2 + 1; HeapBlock buffer; buffer.calloc (numChars + 1); input.read (buffer, stringLength); for (int i = 0; i < numChars; ++i) buffer[i] = ByteOrder::swapIfLittleEndian (buffer[i]); static_assert (sizeof (CharPointer_UTF16::CharType) == sizeof (uint16), "Sanity check UTF-16 type"); result = CharPointer_UTF16 ((CharPointer_UTF16::CharType*) buffer.getData()); } else { HeapBlock buffer; buffer.calloc (stringLength + 1); input.read (buffer, stringLength); result = CharPointer_UTF8 (buffer.getData()); } input.setPosition (oldPos); return result; } static String parseNameTable (MemoryInputStream& input, int64 directoryOffset) { input.setPosition (directoryOffset); NamingTable namingTable = {}; input.read (&namingTable, sizeof (namingTable)); for (int i = 0; i < (int) ByteOrder::swapIfLittleEndian (namingTable.numberOfNameRecords); ++i) { NameRecord nameRecord = {}; input.read (&nameRecord, sizeof (nameRecord)); if (ByteOrder::swapIfLittleEndian (nameRecord.nameID) == 4) { const String result (parseNameRecord (input, nameRecord, directoryOffset, ByteOrder::swapIfLittleEndian (namingTable.offsetStartOfStringStorage))); if (result.isNotEmpty()) return result; } } return {}; } static String getTypefaceNameFromFile (MemoryInputStream& input) { OffsetTable offsetTable = {}; input.read (&offsetTable, sizeof (offsetTable)); for (int i = 0; i < (int) ByteOrder::swapIfLittleEndian (offsetTable.numTables); ++i) { TableDirectory tableDirectory; zerostruct (tableDirectory); input.read (&tableDirectory, sizeof (tableDirectory)); if (String (tableDirectory.tag, sizeof (tableDirectory.tag)).equalsIgnoreCase ("name")) return parseNameTable (input, ByteOrder::swapIfLittleEndian (tableDirectory.offset)); } return {}; } } namespace FontEnumerators { static int CALLBACK fontEnum2 (ENUMLOGFONTEXW* lpelfe, NEWTEXTMETRICEXW*, int type, LPARAM lParam) { if (lpelfe != nullptr && (type & RASTER_FONTTYPE) == 0) { const String fontName (lpelfe->elfLogFont.lfFaceName); ((StringArray*) lParam)->addIfNotAlreadyThere (fontName.removeCharacters ("@")); } return 1; } static int CALLBACK fontEnum1 (ENUMLOGFONTEXW* lpelfe, NEWTEXTMETRICEXW*, int type, LPARAM lParam) { if (lpelfe != nullptr && (type & RASTER_FONTTYPE) == 0) { LOGFONTW lf = {}; lf.lfWeight = FW_DONTCARE; lf.lfOutPrecision = OUT_OUTLINE_PRECIS; lf.lfQuality = DEFAULT_QUALITY; lf.lfCharSet = DEFAULT_CHARSET; lf.lfClipPrecision = CLIP_DEFAULT_PRECIS; lf.lfPitchAndFamily = FF_DONTCARE; const String fontName (lpelfe->elfLogFont.lfFaceName); fontName.copyToUTF16 (lf.lfFaceName, sizeof (lf.lfFaceName)); auto dc = CreateCompatibleDC (nullptr); EnumFontFamiliesEx (dc, &lf, (FONTENUMPROCW) &fontEnum2, lParam, 0); DeleteDC (dc); } return 1; } } StringArray Font::findAllTypefaceNames() { StringArray results; #if JUCE_USE_DIRECTWRITE SharedResourcePointer factories; if (factories->systemFonts != nullptr) { ComSmartPtr fontFamily; uint32 fontFamilyCount = 0; fontFamilyCount = factories->systemFonts->GetFontFamilyCount(); for (uint32 i = 0; i < fontFamilyCount; ++i) { auto hr = factories->systemFonts->GetFontFamily (i, fontFamily.resetAndGetPointerAddress()); if (SUCCEEDED (hr)) results.addIfNotAlreadyThere (getFontFamilyName (fontFamily)); } } else #endif { auto dc = CreateCompatibleDC (nullptr); { LOGFONTW lf = {}; lf.lfWeight = FW_DONTCARE; lf.lfOutPrecision = OUT_OUTLINE_PRECIS; lf.lfQuality = DEFAULT_QUALITY; lf.lfCharSet = DEFAULT_CHARSET; lf.lfClipPrecision = CLIP_DEFAULT_PRECIS; lf.lfPitchAndFamily = FF_DONTCARE; EnumFontFamiliesEx (dc, &lf, (FONTENUMPROCW) &FontEnumerators::fontEnum1, (LPARAM) &results, 0); } DeleteDC (dc); } results.sort (true); return results; } StringArray Font::findAllTypefaceStyles (const String& family) { if (FontStyleHelpers::isPlaceholderFamilyName (family)) return findAllTypefaceStyles (FontStyleHelpers::getConcreteFamilyNameFromPlaceholder (family)); StringArray results; #if JUCE_USE_DIRECTWRITE SharedResourcePointer factories; if (factories->systemFonts != nullptr) { BOOL fontFound = false; uint32 fontIndex = 0; auto hr = factories->systemFonts->FindFamilyName (family.toWideCharPointer(), &fontIndex, &fontFound); if (! fontFound) fontIndex = 0; // Get the font family using the search results // Fonts like: Times New Roman, Times New Roman Bold, Times New Roman Italic are all in the same font family ComSmartPtr fontFamily; hr = factories->systemFonts->GetFontFamily (fontIndex, fontFamily.resetAndGetPointerAddress()); // Get the font faces ComSmartPtr dwFont; uint32 fontFacesCount = 0; fontFacesCount = fontFamily->GetFontCount(); for (uint32 i = 0; i < fontFacesCount; ++i) { hr = fontFamily->GetFont (i, dwFont.resetAndGetPointerAddress()); // Ignore any algorithmically generated bold and oblique styles.. if (dwFont->GetSimulations() == DWRITE_FONT_SIMULATIONS_NONE) results.addIfNotAlreadyThere (getFontFaceName (dwFont)); } } else #endif { results.add ("Regular"); results.add ("Italic"); results.add ("Bold"); results.add ("Bold Italic"); } return results; } extern bool juce_isRunningInWine(); struct DefaultFontNames { DefaultFontNames() { if (juce_isRunningInWine()) { // If we're running in Wine, then use fonts that might be available on Linux.. defaultSans = "Bitstream Vera Sans"; defaultSerif = "Bitstream Vera Serif"; defaultFixed = "Bitstream Vera Sans Mono"; } else { defaultSans = "Verdana"; defaultSerif = "Times New Roman"; defaultFixed = "Lucida Console"; defaultFallback = "Tahoma"; // (contains plenty of unicode characters) } } String defaultSans, defaultSerif, defaultFixed, defaultFallback; }; Typeface::Ptr Font::getDefaultTypefaceForFont (const Font& font) { static DefaultFontNames defaultNames; Font newFont (font); auto& faceName = font.getTypefaceName(); if (faceName == getDefaultSansSerifFontName()) newFont.setTypefaceName (defaultNames.defaultSans); else if (faceName == getDefaultSerifFontName()) newFont.setTypefaceName (defaultNames.defaultSerif); else if (faceName == getDefaultMonospacedFontName()) newFont.setTypefaceName (defaultNames.defaultFixed); if (font.getTypefaceStyle() == getDefaultStyle()) newFont.setTypefaceStyle ("Regular"); return Typeface::createSystemTypefaceFor (newFont); } //============================================================================== class WindowsTypeface : public Typeface { public: WindowsTypeface (const Font& font) : Typeface (font.getTypefaceName(), font.getTypefaceStyle()) { loadFont(); } WindowsTypeface (const void* data, size_t dataSize) : Typeface (String(), String()) { DWORD numInstalled = 0; memoryFont = AddFontMemResourceEx (const_cast (data), (DWORD) dataSize, nullptr, &numInstalled); MemoryInputStream m (data, dataSize, false); name = TTFNameExtractor::getTypefaceNameFromFile (m); loadFont(); } ~WindowsTypeface() { SelectObject (dc, previousFontH); // Replacing the previous font before deleting the DC avoids a warning in BoundsChecker DeleteDC (dc); if (fontH != nullptr) DeleteObject (fontH); if (memoryFont != nullptr) RemoveFontMemResourceEx (memoryFont); } float getAscent() const { return ascent; } float getDescent() const { return 1.0f - ascent; } float getHeightToPointsFactor() const { return heightToPointsFactor; } float getStringWidth (const String& text) { auto utf16 = text.toUTF16(); auto numChars = utf16.length(); HeapBlock results (numChars); float x = 0; if (GetGlyphIndices (dc, utf16, (int) numChars, reinterpret_cast (results.getData()), GGI_MARK_NONEXISTING_GLYPHS) != GDI_ERROR) { for (size_t i = 0; i < numChars; ++i) x += getKerning (dc, results[i], (i + 1) < numChars ? results[i + 1] : -1); } return x; } void getGlyphPositions (const String& text, Array& resultGlyphs, Array& xOffsets) { auto utf16 = text.toUTF16(); auto numChars = utf16.length(); HeapBlock results (numChars); float x = 0; if (GetGlyphIndices (dc, utf16, (int) numChars, reinterpret_cast (results.getData()), GGI_MARK_NONEXISTING_GLYPHS) != GDI_ERROR) { resultGlyphs.ensureStorageAllocated ((int) numChars); xOffsets.ensureStorageAllocated ((int) numChars + 1); for (size_t i = 0; i < numChars; ++i) { resultGlyphs.add (results[i]); xOffsets.add (x); x += getKerning (dc, results[i], (i + 1) < numChars ? results[i + 1] : -1); } } xOffsets.add (x); } bool getOutlineForGlyph (int glyphNumber, Path& glyphPath) { if (glyphNumber < 0) glyphNumber = defaultGlyph; GLYPHMETRICS gm; // (although GetGlyphOutline returns a DWORD, it may be -1 on failure, so treat it as signed int..) auto bufSize = (int) GetGlyphOutline (dc, (UINT) glyphNumber, GGO_NATIVE | GGO_GLYPH_INDEX, &gm, 0, nullptr, &identityMatrix); if (bufSize > 0) { HeapBlock data (bufSize); GetGlyphOutline (dc, (UINT) glyphNumber, GGO_NATIVE | GGO_GLYPH_INDEX, &gm, (DWORD) bufSize, data, &identityMatrix); auto pheader = reinterpret_cast (data.getData()); auto scaleX = 1.0f / tm.tmHeight; auto scaleY = -scaleX; while ((char*) pheader < data + bufSize) { glyphPath.startNewSubPath (scaleX * pheader->pfxStart.x.value, scaleY * pheader->pfxStart.y.value); auto curve = (const TTPOLYCURVE*) ((const char*) pheader + sizeof (TTPOLYGONHEADER)); auto curveEnd = ((const char*) pheader) + pheader->cb; while ((const char*) curve < curveEnd) { if (curve->wType == TT_PRIM_LINE) { for (int i = 0; i < curve->cpfx; ++i) glyphPath.lineTo (scaleX * curve->apfx[i].x.value, scaleY * curve->apfx[i].y.value); } else if (curve->wType == TT_PRIM_QSPLINE) { for (int i = 0; i < curve->cpfx - 1; ++i) { auto x2 = scaleX * curve->apfx[i].x.value; auto y2 = scaleY * curve->apfx[i].y.value; auto x3 = scaleX * curve->apfx[i + 1].x.value; auto y3 = scaleY * curve->apfx[i + 1].y.value; if (i < curve->cpfx - 2) { x3 = 0.5f * (x2 + x3); y3 = 0.5f * (y2 + y3); } glyphPath.quadraticTo (x2, y2, x3, y3); } } curve = (const TTPOLYCURVE*) &(curve->apfx [curve->cpfx]); } pheader = (const TTPOLYGONHEADER*) curve; glyphPath.closeSubPath(); } } return true; } private: static const MAT2 identityMatrix; HFONT fontH = {}; HGDIOBJ previousFontH = {}; HDC dc { CreateCompatibleDC (nullptr) }; TEXTMETRIC tm; HANDLE memoryFont = {}; float ascent = 1.0f, heightToPointsFactor = 1.0f; int defaultGlyph = -1, heightInPoints = 0; std::unordered_map kerningPairs; static uint64 kerningPairIndex (int glyph1, int glyph2) { return (((uint64) (uint32) glyph1) << 32) | (uint64) (uint32) glyph2; } void loadFont() { SetMapperFlags (dc, 0); SetMapMode (dc, MM_TEXT); LOGFONTW lf = {}; lf.lfCharSet = DEFAULT_CHARSET; lf.lfClipPrecision = CLIP_DEFAULT_PRECIS; lf.lfOutPrecision = OUT_OUTLINE_PRECIS; lf.lfPitchAndFamily = DEFAULT_PITCH | FF_DONTCARE; lf.lfQuality = PROOF_QUALITY; lf.lfItalic = (BYTE) (style.contains ("Italic") ? TRUE : FALSE); lf.lfWeight = style.contains ("Bold") ? FW_BOLD : FW_NORMAL; lf.lfHeight = -256; name.copyToUTF16 (lf.lfFaceName, sizeof (lf.lfFaceName)); auto standardSizedFont = CreateFontIndirect (&lf); if (standardSizedFont != nullptr) { if ((previousFontH = SelectObject (dc, standardSizedFont)) != nullptr) { fontH = standardSizedFont; OUTLINETEXTMETRIC otm; if (GetOutlineTextMetrics (dc, sizeof (otm), &otm) != 0) { heightInPoints = (int) otm.otmEMSquare; lf.lfHeight = -heightInPoints; fontH = CreateFontIndirect (&lf); SelectObject (dc, fontH); DeleteObject (standardSizedFont); } } } if (GetTextMetrics (dc, &tm)) { auto dpi = (GetDeviceCaps (dc, LOGPIXELSX) + GetDeviceCaps (dc, LOGPIXELSY)) / 2.0f; heightToPointsFactor = (dpi / GetDeviceCaps (dc, LOGPIXELSY)) * heightInPoints / (float) tm.tmHeight; ascent = tm.tmAscent / (float) tm.tmHeight; std::unordered_map glyphsForChars; defaultGlyph = getGlyphForChar (dc, glyphsForChars, tm.tmDefaultChar); createKerningPairs (dc, glyphsForChars, (float) tm.tmHeight); } } void createKerningPairs (HDC hdc, std::unordered_map& glyphsForChars, float height) { HeapBlock rawKerning; auto numKPs = GetKerningPairs (hdc, 0, nullptr); rawKerning.calloc (numKPs); GetKerningPairs (hdc, numKPs, rawKerning); std::unordered_map widthsForGlyphs; for (DWORD i = 0; i < numKPs; ++i) { auto glyph1 = getGlyphForChar (hdc, glyphsForChars, rawKerning[i].wFirst); auto glyph2 = getGlyphForChar (hdc, glyphsForChars, rawKerning[i].wSecond); auto standardWidth = getGlyphWidth (hdc, widthsForGlyphs, glyph1); kerningPairs[kerningPairIndex (glyph1, glyph2)] = (standardWidth + rawKerning[i].iKernAmount) / height; kerningPairs[kerningPairIndex (glyph1, -1)] = standardWidth / height; } } static int getGlyphForChar (HDC dc, std::unordered_map& cache, juce_wchar character) { auto existing = cache.find ((int) character); if (existing != cache.end()) return existing->second; const WCHAR charToTest[] = { (WCHAR) character, 0 }; WORD index = 0; if (GetGlyphIndices (dc, charToTest, 1, &index, GGI_MARK_NONEXISTING_GLYPHS) == GDI_ERROR || index == 0xffff) return -1; cache[(int) character] = index; return index; } static int getGlyphWidth (HDC dc, std::unordered_map& cache, int glyphNumber) { auto existing = cache.find (glyphNumber); if (existing != cache.end()) return existing->second; auto width = getGlyphWidth (dc, glyphNumber); cache[glyphNumber] = width; return width; } static int getGlyphWidth (HDC dc, int glyphNumber) { GLYPHMETRICS gm; gm.gmCellIncX = 0; GetGlyphOutline (dc, (UINT) glyphNumber, GGO_NATIVE | GGO_GLYPH_INDEX, &gm, 0, nullptr, &identityMatrix); return gm.gmCellIncX; } float getKerning (HDC hdc, int glyph1, int glyph2) { auto pair = kerningPairs.find (kerningPairIndex (glyph1, glyph2)); if (pair != kerningPairs.end()) return pair->second; auto single = kerningPairs.find (kerningPairIndex (glyph1, -1)); if (single != kerningPairs.end()) return single->second; auto width = getGlyphWidth (hdc, glyph1) / (float) tm.tmHeight; kerningPairs[kerningPairIndex (glyph1, -1)] = width; return width; } JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (WindowsTypeface) }; const MAT2 WindowsTypeface::identityMatrix = { { 0, 1 }, { 0, 0 }, { 0, 0 }, { 0, 1 } }; Typeface::Ptr Typeface::createSystemTypefaceFor (const Font& font) { #if JUCE_USE_DIRECTWRITE SharedResourcePointer factories; if (factories->systemFonts != nullptr) { std::unique_ptr wtf (new WindowsDirectWriteTypeface (font, factories->systemFonts)); if (wtf->loadedOk()) return wtf.release(); } #endif return new WindowsTypeface (font); } Typeface::Ptr Typeface::createSystemTypefaceFor (const void* data, size_t dataSize) { return new WindowsTypeface (data, dataSize); } void Typeface::scanFolderForFonts (const File&) { jassertfalse; // not implemented on this platform } } // namespace juce