/* ******************************************************************************* * Copyright (C) 2012-2014, International Business Machines * Corporation and others. All Rights Reserved. ******************************************************************************* * collationfcd.h * * created on: 2012aug18 * created by: Markus W. Scherer */ #ifndef __COLLATIONFCD_H__ #define __COLLATIONFCD_H__ #include "unicode/utypes.h" #if !UCONFIG_NO_COLLATION #include "unicode/utf16.h" U_NAMESPACE_BEGIN /** * Data and functions for the FCD check fast path. * * The fast path looks at a pair of 16-bit code units and checks * whether there is an FCD boundary between them; * there is if the first unit has a trailing ccc=0 (!hasTccc(first)) * or the second unit has a leading ccc=0 (!hasLccc(second)), * or both. * When the fast path finds a possible non-boundary, * then the FCD check slow path looks at the actual sequence of FCD values. * * This is a pure optimization. * The fast path must at least find all possible non-boundaries. * If the fast path is too pessimistic, it costs performance. * * For a pair of BMP characters, the fast path tests are precise (1 bit per character). * * For a supplementary code point, the two units are its lead and trail surrogates. * We set hasTccc(lead)=true if any of its 1024 associated supplementary code points * has lccc!=0 or tccc!=0. * We set hasLccc(trail)=true for all trail surrogates. * As a result, we leave the fast path if the lead surrogate might start a * supplementary code point that is not FCD-inert. * (So the fast path need not detect that there is a surrogate pair, * nor look ahead to the next full code point.) * * hasLccc(lead)=true if any of its 1024 associated supplementary code points * has lccc!=0, for fast boundary checking between BMP & supplementary. * * hasTccc(trail)=false: * It should only be tested for unpaired trail surrogates which are FCD-inert. */ class U_I18N_API CollationFCD { public: static inline UBool hasLccc(UChar32 c) { // assert c <= 0xffff // c can be negative, e.g., U_SENTINEL from UCharIterator; // that is handled in the first test. int32_t i; return // U+0300 is the first character with lccc!=0. c >= 0x300 && (i = lcccIndex[c >> 5]) != 0 && (lcccBits[i] & ((uint32_t)1 << (c & 0x1f))) != 0; } static inline UBool hasTccc(UChar32 c) { // assert c <= 0xffff // c can be negative, e.g., U_SENTINEL from UCharIterator; // that is handled in the first test. int32_t i; return // U+00C0 is the first character with tccc!=0. c >= 0xc0 && (i = tcccIndex[c >> 5]) != 0 && (tcccBits[i] & ((uint32_t)1 << (c & 0x1f))) != 0; } static inline UBool mayHaveLccc(UChar32 c) { // Handles all of Unicode 0..10FFFF. // c can be negative, e.g., U_SENTINEL. // U+0300 is the first character with lccc!=0. if(c < 0x300) { return FALSE; } if(c > 0xffff) { c = U16_LEAD(c); } int32_t i; return (i = lcccIndex[c >> 5]) != 0 && (lcccBits[i] & ((uint32_t)1 << (c & 0x1f))) != 0; } /** * Tibetan composite vowel signs (U+0F73, U+0F75, U+0F81) * must be decomposed before reaching the core collation code, * or else some sequences including them, even ones passing the FCD check, * do not yield canonically equivalent results. * * This is a fast and imprecise test. * * @param c a code point * @return TRUE if c is U+0F73, U+0F75 or U+0F81 or one of several other Tibetan characters */ static inline UBool maybeTibetanCompositeVowel(UChar32 c) { return (c & 0x1fff01) == 0xf01; } /** * Tibetan composite vowel signs (U+0F73, U+0F75, U+0F81) * must be decomposed before reaching the core collation code, * or else some sequences including them, even ones passing the FCD check, * do not yield canonically equivalent results. * * They have distinct lccc/tccc combinations: 129/130 or 129/132. * * @param fcd16 the FCD value (lccc/tccc combination) of a code point * @return TRUE if fcd16 is from U+0F73, U+0F75 or U+0F81 */ static inline UBool isFCD16OfTibetanCompositeVowel(uint16_t fcd16) { return fcd16 == 0x8182 || fcd16 == 0x8184; } private: CollationFCD(); // No instantiation. static const uint8_t lcccIndex[2048]; static const uint8_t tcccIndex[2048]; static const uint32_t lcccBits[65]; static const uint32_t tcccBits[114]; }; U_NAMESPACE_END #endif // !UCONFIG_NO_COLLATION #endif // __COLLATIONFCD_H__