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339 lines
11 KiB
339 lines
11 KiB
/*
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*******************************************************************************
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* Copyright (C) 2013-2014, International Business Machines
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* Corporation and others. All Rights Reserved.
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*******************************************************************************
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* collationrootelements.cpp
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*
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* created on: 2013mar05
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* created by: Markus W. Scherer
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*/
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#include "unicode/utypes.h"
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#if !UCONFIG_NO_COLLATION
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#include "collation.h"
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#include "collationrootelements.h"
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#include "uassert.h"
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U_NAMESPACE_BEGIN
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int64_t
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CollationRootElements::lastCEWithPrimaryBefore(uint32_t p) const {
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if(p == 0) { return 0; }
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U_ASSERT(p > elements[elements[IX_FIRST_PRIMARY_INDEX]]);
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int32_t index = findP(p);
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uint32_t q = elements[index];
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uint32_t secTer;
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if(p == (q & 0xffffff00)) {
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// p == elements[index] is a root primary. Find the CE before it.
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// We must not be in a primary range.
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U_ASSERT((q & PRIMARY_STEP_MASK) == 0);
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secTer = elements[index - 1];
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if((secTer & SEC_TER_DELTA_FLAG) == 0) {
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// Primary CE just before p.
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p = secTer & 0xffffff00;
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secTer = Collation::COMMON_SEC_AND_TER_CE;
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} else {
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// secTer = last secondary & tertiary for the previous primary
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index -= 2;
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for(;;) {
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p = elements[index];
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if((p & SEC_TER_DELTA_FLAG) == 0) {
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p &= 0xffffff00;
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break;
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}
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--index;
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}
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}
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} else {
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// p > elements[index] which is the previous primary.
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// Find the last secondary & tertiary weights for it.
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p = q & 0xffffff00;
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secTer = Collation::COMMON_SEC_AND_TER_CE;
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for(;;) {
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q = elements[++index];
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if((q & SEC_TER_DELTA_FLAG) == 0) {
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// We must not be in a primary range.
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U_ASSERT((q & PRIMARY_STEP_MASK) == 0);
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break;
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}
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secTer = q;
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}
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}
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return ((int64_t)p << 32) | (secTer & ~SEC_TER_DELTA_FLAG);
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}
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int64_t
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CollationRootElements::firstCEWithPrimaryAtLeast(uint32_t p) const {
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if(p == 0) { return 0; }
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int32_t index = findP(p);
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if(p != (elements[index] & 0xffffff00)) {
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for(;;) {
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p = elements[++index];
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if((p & SEC_TER_DELTA_FLAG) == 0) {
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// First primary after p. We must not be in a primary range.
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U_ASSERT((p & PRIMARY_STEP_MASK) == 0);
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break;
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}
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}
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}
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// The code above guarantees that p has at most 3 bytes: (p & 0xff) == 0.
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return ((int64_t)p << 32) | Collation::COMMON_SEC_AND_TER_CE;
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}
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uint32_t
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CollationRootElements::getPrimaryBefore(uint32_t p, UBool isCompressible) const {
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int32_t index = findPrimary(p);
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int32_t step;
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uint32_t q = elements[index];
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if(p == (q & 0xffffff00)) {
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// Found p itself. Return the previous primary.
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// See if p is at the end of a previous range.
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step = (int32_t)q & PRIMARY_STEP_MASK;
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if(step == 0) {
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// p is not at the end of a range. Look for the previous primary.
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do {
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p = elements[--index];
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} while((p & SEC_TER_DELTA_FLAG) != 0);
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return p & 0xffffff00;
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}
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} else {
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// p is in a range, and not at the start.
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uint32_t nextElement = elements[index + 1];
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U_ASSERT(isEndOfPrimaryRange(nextElement));
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step = (int32_t)nextElement & PRIMARY_STEP_MASK;
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}
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// Return the previous range primary.
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if((p & 0xffff) == 0) {
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return Collation::decTwoBytePrimaryByOneStep(p, isCompressible, step);
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} else {
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return Collation::decThreeBytePrimaryByOneStep(p, isCompressible, step);
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}
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}
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uint32_t
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CollationRootElements::getSecondaryBefore(uint32_t p, uint32_t s) const {
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int32_t index;
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uint32_t previousSec, sec;
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if(p == 0) {
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index = (int32_t)elements[IX_FIRST_SECONDARY_INDEX];
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// Gap at the beginning of the secondary CE range.
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previousSec = 0;
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sec = elements[index] >> 16;
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} else {
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index = findPrimary(p) + 1;
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previousSec = Collation::BEFORE_WEIGHT16;
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sec = getFirstSecTerForPrimary(index) >> 16;
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}
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U_ASSERT(s >= sec);
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while(s > sec) {
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previousSec = sec;
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U_ASSERT((elements[index] & SEC_TER_DELTA_FLAG) != 0);
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sec = elements[index++] >> 16;
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}
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U_ASSERT(sec == s);
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return previousSec;
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}
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uint32_t
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CollationRootElements::getTertiaryBefore(uint32_t p, uint32_t s, uint32_t t) const {
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U_ASSERT((t & ~Collation::ONLY_TERTIARY_MASK) == 0);
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int32_t index;
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uint32_t previousTer, secTer;
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if(p == 0) {
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if(s == 0) {
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index = (int32_t)elements[IX_FIRST_TERTIARY_INDEX];
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// Gap at the beginning of the tertiary CE range.
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previousTer = 0;
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} else {
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index = (int32_t)elements[IX_FIRST_SECONDARY_INDEX];
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previousTer = Collation::BEFORE_WEIGHT16;
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}
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secTer = elements[index] & ~SEC_TER_DELTA_FLAG;
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} else {
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index = findPrimary(p) + 1;
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previousTer = Collation::BEFORE_WEIGHT16;
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secTer = getFirstSecTerForPrimary(index);
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}
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uint32_t st = (s << 16) | t;
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while(st > secTer) {
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if((secTer >> 16) == s) { previousTer = secTer; }
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U_ASSERT((elements[index] & SEC_TER_DELTA_FLAG) != 0);
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secTer = elements[index++] & ~SEC_TER_DELTA_FLAG;
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}
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U_ASSERT(secTer == st);
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return previousTer & 0xffff;
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}
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uint32_t
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CollationRootElements::getPrimaryAfter(uint32_t p, int32_t index, UBool isCompressible) const {
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U_ASSERT(p == (elements[index] & 0xffffff00) || isEndOfPrimaryRange(elements[index + 1]));
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uint32_t q = elements[++index];
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int32_t step;
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if((q & SEC_TER_DELTA_FLAG) == 0 && (step = (int32_t)q & PRIMARY_STEP_MASK) != 0) {
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// Return the next primary in this range.
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if((p & 0xffff) == 0) {
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return Collation::incTwoBytePrimaryByOffset(p, isCompressible, step);
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} else {
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return Collation::incThreeBytePrimaryByOffset(p, isCompressible, step);
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}
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} else {
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// Return the next primary in the list.
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while((q & SEC_TER_DELTA_FLAG) != 0) {
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q = elements[++index];
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}
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U_ASSERT((q & PRIMARY_STEP_MASK) == 0);
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return q;
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}
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}
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uint32_t
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CollationRootElements::getSecondaryAfter(int32_t index, uint32_t s) const {
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uint32_t secTer;
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uint32_t secLimit;
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if(index == 0) {
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// primary = 0
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U_ASSERT(s != 0);
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index = (int32_t)elements[IX_FIRST_SECONDARY_INDEX];
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secTer = elements[index];
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// Gap at the end of the secondary CE range.
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secLimit = 0x10000;
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} else {
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U_ASSERT(index >= (int32_t)elements[IX_FIRST_PRIMARY_INDEX]);
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secTer = getFirstSecTerForPrimary(index + 1);
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// If this is an explicit sec/ter unit, then it will be read once more.
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// Gap for secondaries of primary CEs.
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secLimit = getSecondaryBoundary();
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}
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for(;;) {
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uint32_t sec = secTer >> 16;
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if(sec > s) { return sec; }
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secTer = elements[++index];
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if((secTer & SEC_TER_DELTA_FLAG) == 0) { return secLimit; }
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}
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}
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uint32_t
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CollationRootElements::getTertiaryAfter(int32_t index, uint32_t s, uint32_t t) const {
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uint32_t secTer;
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uint32_t terLimit;
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if(index == 0) {
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// primary = 0
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if(s == 0) {
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U_ASSERT(t != 0);
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index = (int32_t)elements[IX_FIRST_TERTIARY_INDEX];
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// Gap at the end of the tertiary CE range.
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terLimit = 0x4000;
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} else {
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index = (int32_t)elements[IX_FIRST_SECONDARY_INDEX];
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// Gap for tertiaries of primary/secondary CEs.
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terLimit = getTertiaryBoundary();
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}
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secTer = elements[index] & ~SEC_TER_DELTA_FLAG;
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} else {
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U_ASSERT(index >= (int32_t)elements[IX_FIRST_PRIMARY_INDEX]);
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secTer = getFirstSecTerForPrimary(index + 1);
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// If this is an explicit sec/ter unit, then it will be read once more.
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terLimit = getTertiaryBoundary();
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}
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uint32_t st = (s << 16) | t;
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for(;;) {
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if(secTer > st) {
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U_ASSERT((secTer >> 16) == s);
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return secTer & 0xffff;
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}
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secTer = elements[++index];
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// No tertiary greater than t for this primary+secondary.
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if((secTer & SEC_TER_DELTA_FLAG) == 0 || (secTer >> 16) > s) { return terLimit; }
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secTer &= ~SEC_TER_DELTA_FLAG;
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}
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}
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uint32_t
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CollationRootElements::getFirstSecTerForPrimary(int32_t index) const {
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uint32_t secTer = elements[index];
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if((secTer & SEC_TER_DELTA_FLAG) == 0) {
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// No sec/ter delta.
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return Collation::COMMON_SEC_AND_TER_CE;
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}
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secTer &= ~SEC_TER_DELTA_FLAG;
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if(secTer > Collation::COMMON_SEC_AND_TER_CE) {
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// Implied sec/ter.
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return Collation::COMMON_SEC_AND_TER_CE;
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}
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// Explicit sec/ter below common/common.
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return secTer;
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}
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int32_t
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CollationRootElements::findPrimary(uint32_t p) const {
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// Requirement: p must occur as a root primary.
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U_ASSERT((p & 0xff) == 0); // at most a 3-byte primary
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int32_t index = findP(p);
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// If p is in a range, then we just assume that p is an actual primary in this range.
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// (Too cumbersome/expensive to check.)
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// Otherwise, it must be an exact match.
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U_ASSERT(isEndOfPrimaryRange(elements[index + 1]) || p == (elements[index] & 0xffffff00));
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return index;
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}
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int32_t
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CollationRootElements::findP(uint32_t p) const {
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// p need not occur as a root primary.
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// For example, it might be a reordering group boundary.
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U_ASSERT((p >> 24) != Collation::UNASSIGNED_IMPLICIT_BYTE);
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// modified binary search
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int32_t start = (int32_t)elements[IX_FIRST_PRIMARY_INDEX];
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U_ASSERT(p >= elements[start]);
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int32_t limit = length - 1;
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U_ASSERT(elements[limit] >= PRIMARY_SENTINEL);
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U_ASSERT(p < elements[limit]);
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while((start + 1) < limit) {
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// Invariant: elements[start] and elements[limit] are primaries,
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// and elements[start]<=p<=elements[limit].
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int32_t i = (start + limit) / 2;
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uint32_t q = elements[i];
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if((q & SEC_TER_DELTA_FLAG) != 0) {
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// Find the next primary.
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int32_t j = i + 1;
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for(;;) {
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if(j == limit) { break; }
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q = elements[j];
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if((q & SEC_TER_DELTA_FLAG) == 0) {
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i = j;
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break;
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}
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++j;
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}
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if((q & SEC_TER_DELTA_FLAG) != 0) {
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// Find the preceding primary.
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j = i - 1;
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for(;;) {
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if(j == start) { break; }
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q = elements[j];
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if((q & SEC_TER_DELTA_FLAG) == 0) {
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i = j;
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break;
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}
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--j;
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}
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if((q & SEC_TER_DELTA_FLAG) != 0) {
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// No primary between start and limit.
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break;
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}
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}
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}
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if(p < (q & 0xffffff00)) { // Reset the "step" bits of a range end primary.
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limit = i;
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} else {
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start = i;
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}
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}
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return start;
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}
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U_NAMESPACE_END
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#endif // !UCONFIG_NO_COLLATION
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