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// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
/*
*******************************************************************************
* Copyright (C) 2013-2014, International Business Machines
* Corporation and others. All Rights Reserved.
*******************************************************************************
* collationsets.cpp
*
* created on: 2013feb09
* created by: Markus W. Scherer
*/
#include "unicode/utypes.h"
#if !UCONFIG_NO_COLLATION
#include "unicode/ucharstrie.h"
#include "unicode/uniset.h"
#include "unicode/unistr.h"
#include "unicode/ustringtrie.h"
#include "collation.h"
#include "collationdata.h"
#include "collationsets.h"
#include "normalizer2impl.h"
#include "uassert.h"
#include "utf16collationiterator.h"
#include "utrie2.h"
U_NAMESPACE_BEGIN
U_CDECL_BEGIN
static UBool U_CALLCONV
enumTailoredRange(const void *context, UChar32 start, UChar32 end, uint32_t ce32) {
if(ce32 == Collation::FALLBACK_CE32) {
return TRUE; // fallback to base, not tailored
}
TailoredSet *ts = (TailoredSet *)context;
return ts->handleCE32(start, end, ce32);
}
U_CDECL_END
void
TailoredSet::forData(const CollationData *d, UErrorCode &ec) {
if(U_FAILURE(ec)) { return; }
errorCode = ec; // Preserve info & warning codes.
data = d;
baseData = d->base;
U_ASSERT(baseData != NULL);
utrie2_enum(data->trie, NULL, enumTailoredRange, this);
ec = errorCode;
}
UBool
TailoredSet::handleCE32(UChar32 start, UChar32 end, uint32_t ce32) {
U_ASSERT(ce32 != Collation::FALLBACK_CE32);
if(Collation::isSpecialCE32(ce32)) {
ce32 = data->getIndirectCE32(ce32);
if(ce32 == Collation::FALLBACK_CE32) {
return U_SUCCESS(errorCode);
}
}
do {
uint32_t baseCE32 = baseData->getFinalCE32(baseData->getCE32(start));
// Do not just continue if ce32 == baseCE32 because
// contractions and expansions in different data objects
// normally differ even if they have the same data offsets.
if(Collation::isSelfContainedCE32(ce32) && Collation::isSelfContainedCE32(baseCE32)) {
// fastpath
if(ce32 != baseCE32) {
tailored->add(start);
}
} else {
compare(start, ce32, baseCE32);
}
} while(++start <= end);
return U_SUCCESS(errorCode);
}
void
TailoredSet::compare(UChar32 c, uint32_t ce32, uint32_t baseCE32) {
if(Collation::isPrefixCE32(ce32)) {
const UChar *p = data->contexts + Collation::indexFromCE32(ce32);
ce32 = data->getFinalCE32(CollationData::readCE32(p));
if(Collation::isPrefixCE32(baseCE32)) {
const UChar *q = baseData->contexts + Collation::indexFromCE32(baseCE32);
baseCE32 = baseData->getFinalCE32(CollationData::readCE32(q));
comparePrefixes(c, p + 2, q + 2);
} else {
addPrefixes(data, c, p + 2);
}
} else if(Collation::isPrefixCE32(baseCE32)) {
const UChar *q = baseData->contexts + Collation::indexFromCE32(baseCE32);
baseCE32 = baseData->getFinalCE32(CollationData::readCE32(q));
addPrefixes(baseData, c, q + 2);
}
if(Collation::isContractionCE32(ce32)) {
const UChar *p = data->contexts + Collation::indexFromCE32(ce32);
if((ce32 & Collation::CONTRACT_SINGLE_CP_NO_MATCH) != 0) {
ce32 = Collation::NO_CE32;
} else {
ce32 = data->getFinalCE32(CollationData::readCE32(p));
}
if(Collation::isContractionCE32(baseCE32)) {
const UChar *q = baseData->contexts + Collation::indexFromCE32(baseCE32);
if((baseCE32 & Collation::CONTRACT_SINGLE_CP_NO_MATCH) != 0) {
baseCE32 = Collation::NO_CE32;
} else {
baseCE32 = baseData->getFinalCE32(CollationData::readCE32(q));
}
compareContractions(c, p + 2, q + 2);
} else {
addContractions(c, p + 2);
}
} else if(Collation::isContractionCE32(baseCE32)) {
const UChar *q = baseData->contexts + Collation::indexFromCE32(baseCE32);
baseCE32 = baseData->getFinalCE32(CollationData::readCE32(q));
addContractions(c, q + 2);
}
int32_t tag;
if(Collation::isSpecialCE32(ce32)) {
tag = Collation::tagFromCE32(ce32);
U_ASSERT(tag != Collation::PREFIX_TAG);
U_ASSERT(tag != Collation::CONTRACTION_TAG);
// Currently, the tailoring data builder does not write offset tags.
// They might be useful for saving space,
// but they would complicate the builder,
// and in tailorings we assume that performance of tailored characters is more important.
U_ASSERT(tag != Collation::OFFSET_TAG);
} else {
tag = -1;
}
int32_t baseTag;
if(Collation::isSpecialCE32(baseCE32)) {
baseTag = Collation::tagFromCE32(baseCE32);
U_ASSERT(baseTag != Collation::PREFIX_TAG);
U_ASSERT(baseTag != Collation::CONTRACTION_TAG);
} else {
baseTag = -1;
}
// Non-contextual mappings, expansions, etc.
if(baseTag == Collation::OFFSET_TAG) {
// We might be comparing a tailoring CE which is a copy of
// a base offset-tag CE, via the [optimize [set]] syntax
// or when a single-character mapping was copied for tailored contractions.
// Offset tags always result in long-primary CEs,
// with common secondary/tertiary weights.
if(!Collation::isLongPrimaryCE32(ce32)) {
add(c);
return;
}
int64_t dataCE = baseData->ces[Collation::indexFromCE32(baseCE32)];
uint32_t p = Collation::getThreeBytePrimaryForOffsetData(c, dataCE);
if(Collation::primaryFromLongPrimaryCE32(ce32) != p) {
add(c);
return;
}
}
if(tag != baseTag) {
add(c);
return;
}
if(tag == Collation::EXPANSION32_TAG) {
const uint32_t *ce32s = data->ce32s + Collation::indexFromCE32(ce32);
int32_t length = Collation::lengthFromCE32(ce32);
const uint32_t *baseCE32s = baseData->ce32s + Collation::indexFromCE32(baseCE32);
int32_t baseLength = Collation::lengthFromCE32(baseCE32);
if(length != baseLength) {
add(c);
return;
}
for(int32_t i = 0; i < length; ++i) {
if(ce32s[i] != baseCE32s[i]) {
add(c);
break;
}
}
} else if(tag == Collation::EXPANSION_TAG) {
const int64_t *ces = data->ces + Collation::indexFromCE32(ce32);
int32_t length = Collation::lengthFromCE32(ce32);
const int64_t *baseCEs = baseData->ces + Collation::indexFromCE32(baseCE32);
int32_t baseLength = Collation::lengthFromCE32(baseCE32);
if(length != baseLength) {
add(c);
return;
}
for(int32_t i = 0; i < length; ++i) {
if(ces[i] != baseCEs[i]) {
add(c);
break;
}
}
} else if(tag == Collation::HANGUL_TAG) {
UChar jamos[3];
int32_t length = Hangul::decompose(c, jamos);
if(tailored->contains(jamos[0]) || tailored->contains(jamos[1]) ||
(length == 3 && tailored->contains(jamos[2]))) {
add(c);
}
} else if(ce32 != baseCE32) {
add(c);
}
}
void
TailoredSet::comparePrefixes(UChar32 c, const UChar *p, const UChar *q) {
// Parallel iteration over prefixes of both tables.
UCharsTrie::Iterator prefixes(p, 0, errorCode);
UCharsTrie::Iterator basePrefixes(q, 0, errorCode);
const UnicodeString *tp = NULL; // Tailoring prefix.
const UnicodeString *bp = NULL; // Base prefix.
// Use a string with a U+FFFF as the limit sentinel.
// U+FFFF is untailorable and will not occur in prefixes.
UnicodeString none((UChar)0xffff);
for(;;) {
if(tp == NULL) {
if(prefixes.next(errorCode)) {
tp = &prefixes.getString();
} else {
tp = &none;
}
}
if(bp == NULL) {
if(basePrefixes.next(errorCode)) {
bp = &basePrefixes.getString();
} else {
bp = &none;
}
}
if(tp == &none && bp == &none) { break; }
int32_t cmp = tp->compare(*bp);
if(cmp < 0) {
// tp occurs in the tailoring but not in the base.
addPrefix(data, *tp, c, (uint32_t)prefixes.getValue());
tp = NULL;
} else if(cmp > 0) {
// bp occurs in the base but not in the tailoring.
addPrefix(baseData, *bp, c, (uint32_t)basePrefixes.getValue());
bp = NULL;
} else {
setPrefix(*tp);
compare(c, (uint32_t)prefixes.getValue(), (uint32_t)basePrefixes.getValue());
resetPrefix();
tp = NULL;
bp = NULL;
}
}
}
void
TailoredSet::compareContractions(UChar32 c, const UChar *p, const UChar *q) {
// Parallel iteration over suffixes of both tables.
UCharsTrie::Iterator suffixes(p, 0, errorCode);
UCharsTrie::Iterator baseSuffixes(q, 0, errorCode);
const UnicodeString *ts = NULL; // Tailoring suffix.
const UnicodeString *bs = NULL; // Base suffix.
// Use a string with two U+FFFF as the limit sentinel.
// U+FFFF is untailorable and will not occur in contractions except maybe
// as a single suffix character for a root-collator boundary contraction.
UnicodeString none((UChar)0xffff);
none.append((UChar)0xffff);
for(;;) {
if(ts == NULL) {
if(suffixes.next(errorCode)) {
ts = &suffixes.getString();
} else {
ts = &none;
}
}
if(bs == NULL) {
if(baseSuffixes.next(errorCode)) {
bs = &baseSuffixes.getString();
} else {
bs = &none;
}
}
if(ts == &none && bs == &none) { break; }
int32_t cmp = ts->compare(*bs);
if(cmp < 0) {
// ts occurs in the tailoring but not in the base.
addSuffix(c, *ts);
ts = NULL;
} else if(cmp > 0) {
// bs occurs in the base but not in the tailoring.
addSuffix(c, *bs);
bs = NULL;
} else {
suffix = ts;
compare(c, (uint32_t)suffixes.getValue(), (uint32_t)baseSuffixes.getValue());
suffix = NULL;
ts = NULL;
bs = NULL;
}
}
}
void
TailoredSet::addPrefixes(const CollationData *d, UChar32 c, const UChar *p) {
UCharsTrie::Iterator prefixes(p, 0, errorCode);
while(prefixes.next(errorCode)) {
addPrefix(d, prefixes.getString(), c, (uint32_t)prefixes.getValue());
}
}
void
TailoredSet::addPrefix(const CollationData *d, const UnicodeString &pfx, UChar32 c, uint32_t ce32) {
setPrefix(pfx);
ce32 = d->getFinalCE32(ce32);
if(Collation::isContractionCE32(ce32)) {
const UChar *p = d->contexts + Collation::indexFromCE32(ce32);
addContractions(c, p + 2);
}
tailored->add(UnicodeString(unreversedPrefix).append(c));
resetPrefix();
}
void
TailoredSet::addContractions(UChar32 c, const UChar *p) {
UCharsTrie::Iterator suffixes(p, 0, errorCode);
while(suffixes.next(errorCode)) {
addSuffix(c, suffixes.getString());
}
}
void
TailoredSet::addSuffix(UChar32 c, const UnicodeString &sfx) {
tailored->add(UnicodeString(unreversedPrefix).append(c).append(sfx));
}
void
TailoredSet::add(UChar32 c) {
if(unreversedPrefix.isEmpty() && suffix == NULL) {
tailored->add(c);
} else {
UnicodeString s(unreversedPrefix);
s.append(c);
if(suffix != NULL) {
s.append(*suffix);
}
tailored->add(s);
}
}
ContractionsAndExpansions::CESink::~CESink() {}
U_CDECL_BEGIN
static UBool U_CALLCONV
enumCnERange(const void *context, UChar32 start, UChar32 end, uint32_t ce32) {
ContractionsAndExpansions *cne = (ContractionsAndExpansions *)context;
if(cne->checkTailored == 0) {
// There is no tailoring.
// No need to collect nor check the tailored set.
} else if(cne->checkTailored < 0) {
// Collect the set of code points with mappings in the tailoring data.
if(ce32 == Collation::FALLBACK_CE32) {
return TRUE; // fallback to base, not tailored
} else {
cne->tailored.add(start, end);
}
// checkTailored > 0: Exclude tailored ranges from the base data enumeration.
} else if(start == end) {
if(cne->tailored.contains(start)) {
return TRUE;
}
} else if(cne->tailored.containsSome(start, end)) {
cne->ranges.set(start, end).removeAll(cne->tailored);
int32_t count = cne->ranges.getRangeCount();
for(int32_t i = 0; i < count; ++i) {
cne->handleCE32(cne->ranges.getRangeStart(i), cne->ranges.getRangeEnd(i), ce32);
}
return U_SUCCESS(cne->errorCode);
}
cne->handleCE32(start, end, ce32);
return U_SUCCESS(cne->errorCode);
}
U_CDECL_END
void
ContractionsAndExpansions::forData(const CollationData *d, UErrorCode &ec) {
if(U_FAILURE(ec)) { return; }
errorCode = ec; // Preserve info & warning codes.
// Add all from the data, can be tailoring or base.
if(d->base != NULL) {
checkTailored = -1;
}
data = d;
utrie2_enum(data->trie, NULL, enumCnERange, this);
if(d->base == NULL || U_FAILURE(errorCode)) {
ec = errorCode;
return;
}
// Add all from the base data but only for un-tailored code points.
tailored.freeze();
checkTailored = 1;
data = d->base;
utrie2_enum(data->trie, NULL, enumCnERange, this);
ec = errorCode;
}
void
ContractionsAndExpansions::forCodePoint(const CollationData *d, UChar32 c, UErrorCode &ec) {
if(U_FAILURE(ec)) { return; }
errorCode = ec; // Preserve info & warning codes.
uint32_t ce32 = d->getCE32(c);
if(ce32 == Collation::FALLBACK_CE32) {
d = d->base;
ce32 = d->getCE32(c);
}
data = d;
handleCE32(c, c, ce32);
ec = errorCode;
}
void
ContractionsAndExpansions::handleCE32(UChar32 start, UChar32 end, uint32_t ce32) {
for(;;) {
if((ce32 & 0xff) < Collation::SPECIAL_CE32_LOW_BYTE) {
// !isSpecialCE32()
if(sink != NULL) {
sink->handleCE(Collation::ceFromSimpleCE32(ce32));
}
return;
}
switch(Collation::tagFromCE32(ce32)) {
case Collation::FALLBACK_TAG:
return;
case Collation::RESERVED_TAG_3:
case Collation::BUILDER_DATA_TAG:
case Collation::LEAD_SURROGATE_TAG:
if(U_SUCCESS(errorCode)) { errorCode = U_INTERNAL_PROGRAM_ERROR; }
return;
case Collation::LONG_PRIMARY_TAG:
if(sink != NULL) {
sink->handleCE(Collation::ceFromLongPrimaryCE32(ce32));
}
return;
case Collation::LONG_SECONDARY_TAG:
if(sink != NULL) {
sink->handleCE(Collation::ceFromLongSecondaryCE32(ce32));
}
return;
case Collation::LATIN_EXPANSION_TAG:
if(sink != NULL) {
ces[0] = Collation::latinCE0FromCE32(ce32);
ces[1] = Collation::latinCE1FromCE32(ce32);
sink->handleExpansion(ces, 2);
}
// Optimization: If we have a prefix,
// then the relevant strings have been added already.
if(unreversedPrefix.isEmpty()) {
addExpansions(start, end);
}
return;
case Collation::EXPANSION32_TAG:
if(sink != NULL) {
const uint32_t *ce32s = data->ce32s + Collation::indexFromCE32(ce32);
int32_t length = Collation::lengthFromCE32(ce32);
for(int32_t i = 0; i < length; ++i) {
ces[i] = Collation::ceFromCE32(*ce32s++);
}
sink->handleExpansion(ces, length);
}
// Optimization: If we have a prefix,
// then the relevant strings have been added already.
if(unreversedPrefix.isEmpty()) {
addExpansions(start, end);
}
return;
case Collation::EXPANSION_TAG:
if(sink != NULL) {
int32_t length = Collation::lengthFromCE32(ce32);
sink->handleExpansion(data->ces + Collation::indexFromCE32(ce32), length);
}
// Optimization: If we have a prefix,
// then the relevant strings have been added already.
if(unreversedPrefix.isEmpty()) {
addExpansions(start, end);
}
return;
case Collation::PREFIX_TAG:
handlePrefixes(start, end, ce32);
return;
case Collation::CONTRACTION_TAG:
handleContractions(start, end, ce32);
return;
case Collation::DIGIT_TAG:
// Fetch the non-numeric-collation CE32 and continue.
ce32 = data->ce32s[Collation::indexFromCE32(ce32)];
break;
case Collation::U0000_TAG:
U_ASSERT(start == 0 && end == 0);
// Fetch the normal ce32 for U+0000 and continue.
ce32 = data->ce32s[0];
break;
case Collation::HANGUL_TAG:
if(sink != NULL) {
// TODO: This should be optimized,
// especially if [start..end] is the complete Hangul range. (assert that)
UTF16CollationIterator iter(data, FALSE, NULL, NULL, NULL);
UChar hangul[1] = { 0 };
for(UChar32 c = start; c <= end; ++c) {
hangul[0] = (UChar)c;
iter.setText(hangul, hangul + 1);
int32_t length = iter.fetchCEs(errorCode);
if(U_FAILURE(errorCode)) { return; }
// Ignore the terminating non-CE.
U_ASSERT(length >= 2 && iter.getCE(length - 1) == Collation::NO_CE);
sink->handleExpansion(iter.getCEs(), length - 1);
}
}
// Optimization: If we have a prefix,
// then the relevant strings have been added already.
if(unreversedPrefix.isEmpty()) {
addExpansions(start, end);
}
return;
case Collation::OFFSET_TAG:
// Currently no need to send offset CEs to the sink.
return;
case Collation::IMPLICIT_TAG:
// Currently no need to send implicit CEs to the sink.
return;
}
}
}
void
ContractionsAndExpansions::handlePrefixes(
UChar32 start, UChar32 end, uint32_t ce32) {
const UChar *p = data->contexts + Collation::indexFromCE32(ce32);
ce32 = CollationData::readCE32(p); // Default if no prefix match.
handleCE32(start, end, ce32);
if(!addPrefixes) { return; }
UCharsTrie::Iterator prefixes(p + 2, 0, errorCode);
while(prefixes.next(errorCode)) {
setPrefix(prefixes.getString());
// Prefix/pre-context mappings are special kinds of contractions
// that always yield expansions.
addStrings(start, end, contractions);
addStrings(start, end, expansions);
handleCE32(start, end, (uint32_t)prefixes.getValue());
}
resetPrefix();
}
void
ContractionsAndExpansions::handleContractions(
UChar32 start, UChar32 end, uint32_t ce32) {
const UChar *p = data->contexts + Collation::indexFromCE32(ce32);
if((ce32 & Collation::CONTRACT_SINGLE_CP_NO_MATCH) != 0) {
// No match on the single code point.
// We are underneath a prefix, and the default mapping is just
// a fallback to the mappings for a shorter prefix.
U_ASSERT(!unreversedPrefix.isEmpty());
} else {
ce32 = CollationData::readCE32(p); // Default if no suffix match.
U_ASSERT(!Collation::isContractionCE32(ce32));
handleCE32(start, end, ce32);
}
UCharsTrie::Iterator suffixes(p + 2, 0, errorCode);
while(suffixes.next(errorCode)) {
suffix = &suffixes.getString();
addStrings(start, end, contractions);
if(!unreversedPrefix.isEmpty()) {
addStrings(start, end, expansions);
}
handleCE32(start, end, (uint32_t)suffixes.getValue());
}
suffix = NULL;
}
void
ContractionsAndExpansions::addExpansions(UChar32 start, UChar32 end) {
if(unreversedPrefix.isEmpty() && suffix == NULL) {
if(expansions != NULL) {
expansions->add(start, end);
}
} else {
addStrings(start, end, expansions);
}
}
void
ContractionsAndExpansions::addStrings(UChar32 start, UChar32 end, UnicodeSet *set) {
if(set == NULL) { return; }
UnicodeString s(unreversedPrefix);
do {
s.append(start);
if(suffix != NULL) {
s.append(*suffix);
}
set->add(s);
s.truncate(unreversedPrefix.length());
} while(++start <= end);
}
U_NAMESPACE_END
#endif // !UCONFIG_NO_COLLATION