/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 4 -*- * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef GFX_FONTCONFIG_UTILS_H #define GFX_FONTCONFIG_UTILS_H #include "gfxPlatform.h" #include "nsAutoRef.h" #include "nsTArray.h" #include "nsTHashtable.h" #include "nsISupportsImpl.h" #include template <> class nsAutoRefTraits : public nsPointerRefTraits { public: static void Release(FcPattern *ptr) { FcPatternDestroy(ptr); } static void AddRef(FcPattern *ptr) { FcPatternReference(ptr); } }; template <> class nsAutoRefTraits : public nsPointerRefTraits { public: static void Release(FcFontSet *ptr) { FcFontSetDestroy(ptr); } }; template <> class nsAutoRefTraits : public nsPointerRefTraits { public: static void Release(FcCharSet *ptr) { FcCharSetDestroy(ptr); } }; class gfxIgnoreCaseCStringComparator { public: bool Equals(const nsACString& a, const nsACString& b) const { return nsCString(a).Equals(b, nsCaseInsensitiveCStringComparator()); } bool LessThan(const nsACString& a, const nsACString& b) const { return a < b; } }; class gfxFontNameList : public nsTArray { public: NS_INLINE_DECL_REFCOUNTING(gfxFontNameList) bool Exists(nsAString& aName); }; class gfxFontconfigUtils { public: gfxFontconfigUtils(); static gfxFontconfigUtils* GetFontconfigUtils() { if (!sUtils) sUtils = new gfxFontconfigUtils(); return sUtils; } static void Shutdown(); nsresult GetFontList(nsIAtom *aLangGroup, const nsACString& aGenericFamily, nsTArray& aListOfFonts); nsresult UpdateFontList(); nsresult ResolveFontName(const nsAString& aFontName, gfxPlatform::FontResolverCallback aCallback, void *aClosure, bool& aAborted); nsresult GetStandardFamilyName(const nsAString& aFontName, nsAString& aFamilyName); const nsTArray< nsCountedRef >& GetFontsForFamily(const FcChar8 *aFamilyName); const nsTArray< nsCountedRef >& GetFontsForFullname(const FcChar8 *aFullname); // Returns the best support that any font offers for |aLang|. FcLangResult GetBestLangSupport(const FcChar8 *aLang); // Returns the fonts offering this best level of support. const nsTArray< nsCountedRef >& GetFontsForLang(const FcChar8 *aLang); // Retuns the language support for a fontconfig font pattern static FcLangResult GetLangSupport(FcPattern *aFont, const FcChar8 *aLang); // Conversions between FcChar8*, which is unsigned char*, // and (signed) char*, that check the type of the argument. static const FcChar8 *ToFcChar8(const char *aCharPtr) { return reinterpret_cast(aCharPtr); } static const FcChar8 *ToFcChar8(const nsCString& aCString) { return ToFcChar8(aCString.get()); } static const char *ToCString(const FcChar8 *aChar8Ptr) { return reinterpret_cast(aChar8Ptr); } static PRUint8 FcSlantToThebesStyle(int aFcSlant); static PRUint8 GetThebesStyle(FcPattern *aPattern); // slant static PRUint16 GetThebesWeight(FcPattern *aPattern); static PRInt16 GetThebesStretch(FcPattern *aPattern); static int GetFcSlant(const gfxFontStyle& aFontStyle); // Returns a precise FC_WEIGHT from |aBaseWeight|, // which is a CSS absolute weight / 100. static int FcWeightForBaseWeight(PRInt8 aBaseWeight); static int FcWidthForThebesStretch(PRInt16 aStretch); static bool GetFullnameFromFamilyAndStyle(FcPattern *aFont, nsACString *aFullname); // This doesn't consider which faces exist, and so initializes the pattern // using a guessed weight, and doesn't consider sizeAdjust. static nsReturnRef NewPattern(const nsTArray& aFamilies, const gfxFontStyle& aFontStyle, const char *aLang); /** * @param aLangGroup [in] a Mozilla langGroup. * @param aFcLang [out] returns a language suitable for fontconfig * matching |aLangGroup| or an empty string if no match is found. */ static void GetSampleLangForGroup(nsIAtom *aLangGroup, nsACString *aFcLang); protected: // Base class for hash table entries with case-insensitive FcChar8 // string keys. class FcStrEntryBase : public PLDHashEntryHdr { public: typedef const FcChar8 *KeyType; typedef const FcChar8 *KeyTypePointer; static KeyTypePointer KeyToPointer(KeyType aKey) { return aKey; } // Case-insensitive hash. // // fontconfig always ignores case of ASCII characters in family // names and languages, but treatment of whitespace in families is // not consistent. FcFontSort and FcFontMatch ignore whitespace // except for whitespace in the first character, while FcFontList // and config subsitution tests require whitespace to match // exactly. CSS 2.1 implies that whitespace is important in the // font-family property. FcStrCmpIgnoreCase considers whitespace // important. static PLDHashNumber HashKey(const FcChar8 *aKey) { PRUint32 hash = 0; for (const FcChar8 *c = aKey; *c != '\0'; ++c) { hash = PR_ROTATE_LEFT32(hash, 3) ^ FcToLower(*c); } return hash; } enum { ALLOW_MEMMOVE = true }; }; public: // Hash entry with a dependent const FcChar8* pointer to an external // string for a key (and no data). The user must ensure that the string // associated with the pointer is not destroyed. This entry type is // useful for family name keys as the family name string is held in the // font pattern. class DepFcStrEntry : public FcStrEntryBase { public: // When constructing a new entry in the hashtable, the key is left // NULL. The caller of PutEntry() must fill in mKey when NULL. This // provides a mechanism for the caller of PutEntry() to determine // whether the entry has been initialized. DepFcStrEntry(KeyTypePointer aName) : mKey(NULL) { } DepFcStrEntry(const DepFcStrEntry& toCopy) : mKey(toCopy.mKey) { } bool KeyEquals(KeyTypePointer aKey) const { return FcStrCmpIgnoreCase(aKey, mKey) == 0; } const FcChar8 *mKey; }; // Hash entry that uses a copy of an FcChar8 string to store the key. // This entry type is useful for language keys, as languages are usually // not stored as strings in font patterns. class CopiedFcStrEntry : public FcStrEntryBase { public: // When constructing a new entry in the hashtable, the key is void. // The caller of PutEntry() must call InitKey() when IsKeyInitialized() // returns false. This provides a mechanism for the caller of // PutEntry() to determine whether the entry has been initialized. CopiedFcStrEntry(KeyTypePointer aName) { mKey.SetIsVoid(true); } CopiedFcStrEntry(const CopiedFcStrEntry& toCopy) : mKey(toCopy.mKey) { } bool KeyEquals(KeyTypePointer aKey) const { return FcStrCmpIgnoreCase(aKey, ToFcChar8(mKey)) == 0; } bool IsKeyInitialized() { return !mKey.IsVoid(); } void InitKey(const FcChar8* aKey) { mKey.Assign(ToCString(aKey)); } private: nsCString mKey; }; protected: class FontsByFcStrEntry : public DepFcStrEntry { public: FontsByFcStrEntry(KeyTypePointer aName) : DepFcStrEntry(aName) { } FontsByFcStrEntry(const FontsByFcStrEntry& toCopy) : DepFcStrEntry(toCopy), mFonts(toCopy.mFonts) { } bool AddFont(FcPattern *aFont) { return mFonts.AppendElement(aFont) != nsnull; } const nsTArray< nsCountedRef >& GetFonts() { return mFonts; } private: nsTArray< nsCountedRef > mFonts; }; // FontsByFullnameEntry is similar to FontsByFcStrEntry (used for // mFontsByFamily) except for two differences: // // * The font does not always contain a single string for the fullname, so // the key is sometimes a combination of family and style. // // * There is usually only one font. class FontsByFullnameEntry : public DepFcStrEntry { public: // When constructing a new entry in the hashtable, the key is left // NULL. The caller of PutEntry() is must fill in mKey when adding // the first font if the key is not derived from the family and style. // If the key is derived from family and style, a font must be added. FontsByFullnameEntry(KeyTypePointer aName) : DepFcStrEntry(aName) { } FontsByFullnameEntry(const FontsByFullnameEntry& toCopy) : DepFcStrEntry(toCopy), mFonts(toCopy.mFonts) { } bool KeyEquals(KeyTypePointer aKey) const; bool AddFont(FcPattern *aFont) { return mFonts.AppendElement(aFont) != nsnull; } const nsTArray< nsCountedRef >& GetFonts() { return mFonts; } // Don't memmove the nsAutoTArray. enum { ALLOW_MEMMOVE = false }; private: // There is usually only one font, but sometimes more. nsAutoTArray,1> mFonts; }; class LangSupportEntry : public CopiedFcStrEntry { public: LangSupportEntry(KeyTypePointer aName) : CopiedFcStrEntry(aName) { } LangSupportEntry(const LangSupportEntry& toCopy) : CopiedFcStrEntry(toCopy), mSupport(toCopy.mSupport) { } FcLangResult mSupport; nsTArray< nsCountedRef > mFonts; }; static gfxFontconfigUtils* sUtils; bool IsExistingFamily(const nsCString& aFamilyName); nsresult GetFontListInternal(nsTArray& aListOfFonts, nsIAtom *aLangGroup); nsresult UpdateFontListInternal(bool aForce = false); void AddFullnameEntries(); LangSupportEntry *GetLangSupportEntry(const FcChar8 *aLang, bool aWithFonts); // mFontsByFamily and mFontsByFullname contain entries only for families // and fullnames for which there are fonts. nsTHashtable mFontsByFamily; nsTHashtable mFontsByFullname; // mLangSupportTable contains an entry for each language that has been // looked up through GetLangSupportEntry, even when the language is not // supported. nsTHashtable mLangSupportTable; const nsTArray< nsCountedRef > mEmptyPatternArray; nsTArray mAliasForMultiFonts; FcConfig *mLastConfig; }; #endif /* GFX_FONTCONFIG_UTILS_H */