// © 2016 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html /* ******************************************************************************* * Copyright (C) 1996-2012, International Business Machines Corporation and * others. All Rights Reserved. ******************************************************************************* */ //=============================================================================== // // File sortkey.cpp // // // // Created by: Helena Shih // // Modification History: // // Date Name Description // // 6/20/97 helena Java class name change. // 6/23/97 helena Added comments to make code more readable. // 6/26/98 erm Changed to use byte arrays instead of UnicodeString // 7/31/98 erm hashCode: minimum inc should be 2 not 1, // Cleaned up operator= // 07/12/99 helena HPUX 11 CC port. // 03/06/01 synwee Modified compareTo, to handle the result of // 2 string similar in contents, but one is longer // than the other //=============================================================================== #include "unicode/utypes.h" #if !UCONFIG_NO_COLLATION #include "unicode/sortkey.h" #include "cmemory.h" #include "uelement.h" #include "ustr_imp.h" U_NAMESPACE_BEGIN // A hash code of kInvalidHashCode indicates that the hash code needs // to be computed. A hash code of kEmptyHashCode is used for empty keys // and for any key whose computed hash code is kInvalidHashCode. static const int32_t kInvalidHashCode = 0; static const int32_t kEmptyHashCode = 1; // The "bogus hash code" replaces a separate fBogus flag. static const int32_t kBogusHashCode = 2; UOBJECT_DEFINE_RTTI_IMPLEMENTATION(CollationKey) CollationKey::CollationKey() : UObject(), fFlagAndLength(0), fHashCode(kEmptyHashCode) { } // Create a collation key from a bit array. CollationKey::CollationKey(const uint8_t* newValues, int32_t count) : UObject(), fFlagAndLength(count), fHashCode(kInvalidHashCode) { if (count < 0 || (newValues == NULL && count != 0) || (count > getCapacity() && reallocate(count, 0) == NULL)) { setToBogus(); return; } if (count > 0) { uprv_memcpy(getBytes(), newValues, count); } } CollationKey::CollationKey(const CollationKey& other) : UObject(other), fFlagAndLength(other.getLength()), fHashCode(other.fHashCode) { if (other.isBogus()) { setToBogus(); return; } int32_t length = fFlagAndLength; if (length > getCapacity() && reallocate(length, 0) == NULL) { setToBogus(); return; } if (length > 0) { uprv_memcpy(getBytes(), other.getBytes(), length); } } CollationKey::~CollationKey() { if(fFlagAndLength < 0) { uprv_free(fUnion.fFields.fBytes); } } uint8_t *CollationKey::reallocate(int32_t newCapacity, int32_t length) { uint8_t *newBytes = static_cast(uprv_malloc(newCapacity)); if(newBytes == NULL) { return NULL; } if(length > 0) { uprv_memcpy(newBytes, getBytes(), length); } if(fFlagAndLength < 0) { uprv_free(fUnion.fFields.fBytes); } fUnion.fFields.fBytes = newBytes; fUnion.fFields.fCapacity = newCapacity; fFlagAndLength |= 0x80000000; return newBytes; } void CollationKey::setLength(int32_t newLength) { // U_ASSERT(newLength >= 0 && newLength <= getCapacity()); fFlagAndLength = (fFlagAndLength & 0x80000000) | newLength; fHashCode = kInvalidHashCode; } // set the key to an empty state CollationKey& CollationKey::reset() { fFlagAndLength &= 0x80000000; fHashCode = kEmptyHashCode; return *this; } // set the key to a "bogus" or invalid state CollationKey& CollationKey::setToBogus() { fFlagAndLength &= 0x80000000; fHashCode = kBogusHashCode; return *this; } bool CollationKey::operator==(const CollationKey& source) const { return getLength() == source.getLength() && (this == &source || uprv_memcmp(getBytes(), source.getBytes(), getLength()) == 0); } const CollationKey& CollationKey::operator=(const CollationKey& other) { if (this != &other) { if (other.isBogus()) { return setToBogus(); } int32_t length = other.getLength(); if (length > getCapacity() && reallocate(length, 0) == NULL) { return setToBogus(); } if (length > 0) { uprv_memcpy(getBytes(), other.getBytes(), length); } fFlagAndLength = (fFlagAndLength & 0x80000000) | length; fHashCode = other.fHashCode; } return *this; } // Bitwise comparison for the collation keys. Collator::EComparisonResult CollationKey::compareTo(const CollationKey& target) const { UErrorCode errorCode = U_ZERO_ERROR; return static_cast(compareTo(target, errorCode)); } // Bitwise comparison for the collation keys. UCollationResult CollationKey::compareTo(const CollationKey& target, UErrorCode &status) const { if(U_SUCCESS(status)) { const uint8_t *src = getBytes(); const uint8_t *tgt = target.getBytes(); // are we comparing the same string if (src == tgt) return UCOL_EQUAL; UCollationResult result; // are we comparing different lengths? int32_t minLength = getLength(); int32_t targetLength = target.getLength(); if (minLength < targetLength) { result = UCOL_LESS; } else if (minLength == targetLength) { result = UCOL_EQUAL; } else { minLength = targetLength; result = UCOL_GREATER; } if (minLength > 0) { int diff = uprv_memcmp(src, tgt, minLength); if (diff > 0) { return UCOL_GREATER; } else if (diff < 0) { return UCOL_LESS; } } return result; } else { return UCOL_EQUAL; } } #ifdef U_USE_COLLATION_KEY_DEPRECATES // Create a copy of the byte array. uint8_t* CollationKey::toByteArray(int32_t& count) const { uint8_t *result = (uint8_t*) uprv_malloc( sizeof(uint8_t) * fCount ); if (result == NULL) { count = 0; } else { count = fCount; if (count > 0) { uprv_memcpy(result, fBytes, fCount); } } return result; } #endif static int32_t computeHashCode(const uint8_t *key, int32_t length) { const char *s = reinterpret_cast(key); int32_t hash; if (s == NULL || length == 0) { hash = kEmptyHashCode; } else { hash = ustr_hashCharsN(s, length); if (hash == kInvalidHashCode || hash == kBogusHashCode) { hash = kEmptyHashCode; } } return hash; } int32_t CollationKey::hashCode() const { // (Cribbed from UnicodeString) // We cache the hashCode; when it becomes invalid, due to any change to the // string, we note this by setting it to kInvalidHashCode. [LIU] // Note: This method is semantically const, but physically non-const. if (fHashCode == kInvalidHashCode) { fHashCode = computeHashCode(getBytes(), getLength()); } return fHashCode; } U_NAMESPACE_END U_CAPI int32_t U_EXPORT2 ucol_keyHashCode(const uint8_t *key, int32_t length) { return icu::computeHashCode(key, length); } #endif /* #if !UCONFIG_NO_COLLATION */