/* * Copyright 2011 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SkFontMgr_android_parser_DEFINED #define SkFontMgr_android_parser_DEFINED #include "SkFontMgr.h" #include "SkString.h" #include "SkTArray.h" #include "SkTDArray.h" #include "SkTypes.h" #include #include /** \class SkLanguage The SkLanguage class represents a human written language, and is used by text draw operations to determine which glyph to draw when drawing characters with variants (ie Han-derived characters). */ class SkLanguage { public: SkLanguage() { } SkLanguage(const SkString& tag) : fTag(tag) { } SkLanguage(const char* tag) : fTag(tag) { } SkLanguage(const char* tag, size_t len) : fTag(tag, len) { } SkLanguage(const SkLanguage& b) : fTag(b.fTag) { } /** Gets a BCP 47 language identifier for this SkLanguage. @return a BCP 47 language identifier representing this language */ const SkString& getTag() const { return fTag; } /** Performs BCP 47 fallback to return an SkLanguage one step more general. @return an SkLanguage one step more general */ SkLanguage getParent() const; bool operator==(const SkLanguage& b) const { return fTag == b.fTag; } bool operator!=(const SkLanguage& b) const { return fTag != b.fTag; } SkLanguage& operator=(const SkLanguage& b) { fTag = b.fTag; return *this; } private: //! BCP 47 language identifier SkString fTag; }; enum FontVariants { kDefault_FontVariant = 0x01, kCompact_FontVariant = 0x02, kElegant_FontVariant = 0x04, kLast_FontVariant = kElegant_FontVariant, }; typedef uint32_t FontVariant; // Must remain trivially movable (can be memmoved). struct FontFileInfo { FontFileInfo() : fIndex(0), fWeight(0), fStyle(Style::kAuto) { } SkString fFileName; int fIndex; int fWeight; enum class Style { kAuto, kNormal, kItalic } fStyle; SkTArray fVariationDesignPosition; }; /** * A font family provides one or more names for a collection of fonts, each of * which has a different style (normal, italic) or weight (thin, light, bold, * etc). * Some fonts may occur in compact variants for use in the user interface. * Android distinguishes "fallback" fonts to support non-ASCII character sets. */ struct FontFamily { FontFamily(const SkString& basePath, bool isFallbackFont) : fVariant(kDefault_FontVariant) , fOrder(-1) , fIsFallbackFont(isFallbackFont) , fBasePath(basePath) { } SkTArray fNames; SkTArray fFonts; SkTArray fLanguages; FontVariant fVariant; int fOrder; // internal to the parser, not useful to users. bool fIsFallbackFont; const SkString fBasePath; }; namespace SkFontMgr_Android_Parser { /** Parses system font configuration files and appends result to fontFamilies. */ void GetSystemFontFamilies(SkTDArray& fontFamilies); /** Parses font configuration files and appends result to fontFamilies. */ void GetCustomFontFamilies(SkTDArray& fontFamilies, const SkString& basePath, const char* fontsXml, const char* fallbackFontsXml, const char* langFallbackFontsDir = nullptr); } // SkFontMgr_Android_Parser namespace /** Parses a null terminated string into an integer type, checking for overflow. * http://www.w3.org/TR/html-markup/datatypes.html#common.data.integer.non-negative-def * * If the string cannot be parsed into 'value', returns false and does not change 'value'. */ template static bool parse_non_negative_integer(const char* s, T* value) { static_assert(std::numeric_limits::is_integer, "T_must_be_integer"); if (*s == '\0') { return false; } const T nMax = std::numeric_limits::max() / 10; const T dMax = std::numeric_limits::max() - (nMax * 10); T n = 0; for (; *s; ++s) { // Check if digit if (*s < '0' || '9' < *s) { return false; } T d = *s - '0'; // Check for overflow if (n > nMax || (n == nMax && d > dMax)) { return false; } n = (n * 10) + d; } *value = n; return true; } /** Parses a null terminated string into a signed fixed point value with bias N. * * Like http://www.w3.org/TR/html-markup/datatypes.html#common.data.float-def , * but may start with '.' and does not support 'e'. '-?((:digit:+(.:digit:+)?)|(.:digit:+))' * * Checks for overflow. * Low bit rounding is not defined (is currently truncate). * Bias (N) required to allow for the sign bit and 4 bits of integer. * * If the string cannot be parsed into 'value', returns false and does not change 'value'. */ template static bool parse_fixed(const char* s, T* value) { static_assert(std::numeric_limits::is_integer, "T_must_be_integer"); static_assert(std::numeric_limits::is_signed, "T_must_be_signed"); static_assert(sizeof(T) * CHAR_BIT - N >= 5, "N_must_leave_four_bits_plus_sign"); bool negate = false; if (*s == '-') { ++s; negate = true; } if (*s == '\0') { return false; } const T nMax = (std::numeric_limits::max() >> N) / 10; const T dMax = (std::numeric_limits::max() >> N) - (nMax * 10); T n = 0; T frac = 0; for (; *s; ++s) { // Check if digit if (*s < '0' || '9' < *s) { // If it wasn't a digit, check if it is a '.' followed by something. if (*s != '.' || s[1] == '\0') { return false; } // Find the end, verify digits. for (++s; *s; ++s) { if (*s < '0' || '9' < *s) { return false; } } // Read back toward the '.'. for (--s; *s != '.'; --s) { T d = *s - '0'; frac = (frac + (d << N)) / 10; // This requires four bits overhead. } break; } T d = *s - '0'; // Check for overflow if (n > nMax || (n == nMax && d > dMax)) { return false; } n = (n * 10) + d; } if (negate) { n = -n; frac = -frac; } *value = SkLeftShift(n, N) + frac; return true; } #endif /* SkFontMgr_android_parser_DEFINED */