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// © 2017 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
#include "unicode/utypes.h"
#if !UCONFIG_NO_FORMATTING
#include "unicode/ustring.h"
#include "unicode/ures.h"
#include "cstring.h"
#include "charstr.h"
#include "resource.h"
#include "number_compact.h"
#include "number_microprops.h"
#include "uresimp.h"
using namespace icu;
using namespace icu::number;
using namespace icu::number::impl;
namespace {
// A dummy object used when a "0" compact decimal entry is encountered. This is necessary
// in order to prevent falling back to root. Object equality ("==") is intended.
const UChar *USE_FALLBACK = u"<USE FALLBACK>";
/** Produces a string like "NumberElements/latn/patternsShort/decimalFormat". */
void getResourceBundleKey(const char *nsName, CompactStyle compactStyle, CompactType compactType,
CharString &sb, UErrorCode &status) {
sb.clear();
sb.append("NumberElements/", status);
sb.append(nsName, status);
sb.append(compactStyle == CompactStyle::UNUM_SHORT ? "/patternsShort" : "/patternsLong", status);
sb.append(compactType == CompactType::TYPE_DECIMAL ? "/decimalFormat" : "/currencyFormat", status);
}
int32_t getIndex(int32_t magnitude, StandardPlural::Form plural) {
return magnitude * StandardPlural::COUNT + plural;
}
int32_t countZeros(const UChar *patternString, int32_t patternLength) {
// NOTE: This strategy for computing the number of zeros is a hack for efficiency.
// It could break if there are any 0s that aren't part of the main pattern.
int32_t numZeros = 0;
for (int32_t i = 0; i < patternLength; i++) {
if (patternString[i] == u'0') {
numZeros++;
} else if (numZeros > 0) {
break; // zeros should always be contiguous
}
}
return numZeros;
}
} // namespace
// NOTE: patterns and multipliers both get zero-initialized.
CompactData::CompactData() : patterns(), multipliers(), largestMagnitude(0), isEmpty(true) {
}
void CompactData::populate(const Locale &locale, const char *nsName, CompactStyle compactStyle,
CompactType compactType, UErrorCode &status) {
CompactDataSink sink(*this);
LocalUResourceBundlePointer rb(ures_open(nullptr, locale.getName(), &status));
if (U_FAILURE(status)) { return; }
bool nsIsLatn = strcmp(nsName, "latn") == 0;
bool compactIsShort = compactStyle == CompactStyle::UNUM_SHORT;
// Fall back to latn numbering system and/or short compact style.
CharString resourceKey;
getResourceBundleKey(nsName, compactStyle, compactType, resourceKey, status);
UErrorCode localStatus = U_ZERO_ERROR;
ures_getAllItemsWithFallback(rb.getAlias(), resourceKey.data(), sink, localStatus);
if (isEmpty && !nsIsLatn) {
getResourceBundleKey("latn", compactStyle, compactType, resourceKey, status);
localStatus = U_ZERO_ERROR;
ures_getAllItemsWithFallback(rb.getAlias(), resourceKey.data(), sink, localStatus);
}
if (isEmpty && !compactIsShort) {
getResourceBundleKey(nsName, CompactStyle::UNUM_SHORT, compactType, resourceKey, status);
localStatus = U_ZERO_ERROR;
ures_getAllItemsWithFallback(rb.getAlias(), resourceKey.data(), sink, localStatus);
}
if (isEmpty && !nsIsLatn && !compactIsShort) {
getResourceBundleKey("latn", CompactStyle::UNUM_SHORT, compactType, resourceKey, status);
localStatus = U_ZERO_ERROR;
ures_getAllItemsWithFallback(rb.getAlias(), resourceKey.data(), sink, localStatus);
}
// The last fallback should be guaranteed to return data.
if (isEmpty) {
status = U_INTERNAL_PROGRAM_ERROR;
}
}
int32_t CompactData::getMultiplier(int32_t magnitude) const {
if (magnitude < 0) {
return 0;
}
if (magnitude > largestMagnitude) {
magnitude = largestMagnitude;
}
return multipliers[magnitude];
}
const UChar *CompactData::getPattern(
int32_t magnitude,
const PluralRules *rules,
const DecimalQuantity &dq) const {
if (magnitude < 0) {
return nullptr;
}
if (magnitude > largestMagnitude) {
magnitude = largestMagnitude;
}
const UChar *patternString = nullptr;
if (dq.hasIntegerValue()) {
int64_t i = dq.toLong(true);
if (i == 0) {
patternString = patterns[getIndex(magnitude, StandardPlural::Form::EQ_0)];
} else if (i == 1) {
patternString = patterns[getIndex(magnitude, StandardPlural::Form::EQ_1)];
}
if (patternString != nullptr) {
return patternString;
}
}
StandardPlural::Form plural = utils::getStandardPlural(rules, dq);
patternString = patterns[getIndex(magnitude, plural)];
if (patternString == nullptr && plural != StandardPlural::OTHER) {
// Fall back to "other" plural variant
patternString = patterns[getIndex(magnitude, StandardPlural::OTHER)];
}
if (patternString == USE_FALLBACK) { // == is intended
// Return null if USE_FALLBACK is present
patternString = nullptr;
}
return patternString;
}
void CompactData::getUniquePatterns(UVector &output, UErrorCode &status) const {
U_ASSERT(output.isEmpty());
// NOTE: In C++, this is done more manually with a UVector.
// In Java, we can take advantage of JDK HashSet.
for (auto pattern : patterns) {
if (pattern == nullptr || pattern == USE_FALLBACK) {
continue;
}
// Insert pattern into the UVector if the UVector does not already contain the pattern.
// Search the UVector from the end since identical patterns are likely to be adjacent.
for (int32_t i = output.size() - 1; i >= 0; i--) {
if (u_strcmp(pattern, static_cast<const UChar *>(output[i])) == 0) {
goto continue_outer;
}
}
// The string was not found; add it to the UVector.
// ANDY: This requires a const_cast. Why?
output.addElementX(const_cast<UChar *>(pattern), status);
continue_outer:
continue;
}
}
void CompactData::CompactDataSink::put(const char *key, ResourceValue &value, UBool /*noFallback*/,
UErrorCode &status) {
// traverse into the table of powers of ten
ResourceTable powersOfTenTable = value.getTable(status);
if (U_FAILURE(status)) { return; }
for (int i3 = 0; powersOfTenTable.getKeyAndValue(i3, key, value); ++i3) {
// Assumes that the keys are always of the form "10000" where the magnitude is the
// length of the key minus one. We expect magnitudes to be less than MAX_DIGITS.
auto magnitude = static_cast<int8_t> (strlen(key) - 1);
int8_t multiplier = data.multipliers[magnitude];
U_ASSERT(magnitude < COMPACT_MAX_DIGITS);
// Iterate over the plural variants ("one", "other", etc)
ResourceTable pluralVariantsTable = value.getTable(status);
if (U_FAILURE(status)) { return; }
for (int i4 = 0; pluralVariantsTable.getKeyAndValue(i4, key, value); ++i4) {
// Skip this magnitude/plural if we already have it from a child locale.
// Note: This also skips USE_FALLBACK entries.
StandardPlural::Form plural = StandardPlural::fromString(key, status);
if (U_FAILURE(status)) { return; }
if (data.patterns[getIndex(magnitude, plural)] != nullptr) {
continue;
}
// The value "0" means that we need to use the default pattern and not fall back
// to parent locales. Example locale where this is relevant: 'it'.
int32_t patternLength;
const UChar *patternString = value.getString(patternLength, status);
if (U_FAILURE(status)) { return; }
if (u_strcmp(patternString, u"0") == 0) {
patternString = USE_FALLBACK;
patternLength = 0;
}
// Save the pattern string. We will parse it lazily.
data.patterns[getIndex(magnitude, plural)] = patternString;
// If necessary, compute the multiplier: the difference between the magnitude
// and the number of zeros in the pattern.
if (multiplier == 0) {
int32_t numZeros = countZeros(patternString, patternLength);
if (numZeros > 0) { // numZeros==0 in certain cases, like Somali "Kun"
multiplier = static_cast<int8_t> (numZeros - magnitude - 1);
}
}
}
// Save the multiplier.
if (data.multipliers[magnitude] == 0) {
data.multipliers[magnitude] = multiplier;
if (magnitude > data.largestMagnitude) {
data.largestMagnitude = magnitude;
}
data.isEmpty = false;
} else {
U_ASSERT(data.multipliers[magnitude] == multiplier);
}
}
}
///////////////////////////////////////////////////////////
/// END OF CompactData.java; BEGIN CompactNotation.java ///
///////////////////////////////////////////////////////////
CompactHandler::CompactHandler(
CompactStyle compactStyle,
const Locale &locale,
const char *nsName,
CompactType compactType,
const PluralRules *rules,
MutablePatternModifier *buildReference,
bool safe,
const MicroPropsGenerator *parent,
UErrorCode &status)
: rules(rules), parent(parent), safe(safe) {
data.populate(locale, nsName, compactStyle, compactType, status);
if (safe) {
// Safe code path
precomputeAllModifiers(*buildReference, status);
} else {
// Unsafe code path
// Store the MutablePatternModifier reference.
unsafePatternModifier = buildReference;
}
}
CompactHandler::~CompactHandler() {
for (int32_t i = 0; i < precomputedModsLength; i++) {
delete precomputedMods[i].mod;
}
}
void CompactHandler::precomputeAllModifiers(MutablePatternModifier &buildReference, UErrorCode &status) {
if (U_FAILURE(status)) { return; }
// Initial capacity of 12 for 0K, 00K, 000K, ...M, ...B, and ...T
UVector allPatterns(12, status);
if (U_FAILURE(status)) { return; }
data.getUniquePatterns(allPatterns, status);
if (U_FAILURE(status)) { return; }
// C++ only: ensure that precomputedMods has room.
precomputedModsLength = allPatterns.size();
if (precomputedMods.getCapacity() < precomputedModsLength) {
precomputedMods.resize(allPatterns.size(), status);
if (U_FAILURE(status)) { return; }
}
for (int32_t i = 0; i < precomputedModsLength; i++) {
auto patternString = static_cast<const UChar *>(allPatterns[i]);
UnicodeString hello(patternString);
CompactModInfo &info = precomputedMods[i];
ParsedPatternInfo patternInfo;
PatternParser::parseToPatternInfo(UnicodeString(patternString), patternInfo, status);
if (U_FAILURE(status)) { return; }
buildReference.setPatternInfo(&patternInfo, {UFIELD_CATEGORY_NUMBER, UNUM_COMPACT_FIELD});
info.mod = buildReference.createImmutable(status);
if (U_FAILURE(status)) { return; }
info.patternString = patternString;
}
}
void CompactHandler::processQuantity(DecimalQuantity &quantity, MicroProps µs,
UErrorCode &status) const {
parent->processQuantity(quantity, micros, status);
if (U_FAILURE(status)) { return; }
// Treat zero, NaN, and infinity as if they had magnitude 0
int32_t magnitude;
int32_t multiplier = 0;
if (quantity.isZeroish()) {
magnitude = 0;
micros.rounder.apply(quantity, status);
} else {
// TODO: Revisit chooseMultiplierAndApply
multiplier = micros.rounder.chooseMultiplierAndApply(quantity, data, status);
magnitude = quantity.isZeroish() ? 0 : quantity.getMagnitude();
magnitude -= multiplier;
}
const UChar *patternString = data.getPattern(magnitude, rules, quantity);
if (patternString == nullptr) {
// Use the default (non-compact) modifier.
// No need to take any action.
} else if (safe) {
// Safe code path.
// Java uses a hash set here for O(1) lookup. C++ uses a linear search.
// TODO: Benchmark this and maybe change to a binary search or hash table.
int32_t i = 0;
for (; i < precomputedModsLength; i++) {
const CompactModInfo &info = precomputedMods[i];
if (u_strcmp(patternString, info.patternString) == 0) {
info.mod->applyToMicros(micros, quantity, status);
break;
}
}
// It should be guaranteed that we found the entry.
U_ASSERT(i < precomputedModsLength);
} else {
// Unsafe code path.
// Overwrite the PatternInfo in the existing modMiddle.
// C++ Note: Use unsafePatternInfo for proper lifecycle.
ParsedPatternInfo &patternInfo = const_cast<CompactHandler *>(this)->unsafePatternInfo;
PatternParser::parseToPatternInfo(UnicodeString(patternString), patternInfo, status);
unsafePatternModifier->setPatternInfo(
&unsafePatternInfo,
{UFIELD_CATEGORY_NUMBER, UNUM_COMPACT_FIELD});
unsafePatternModifier->setNumberProperties(quantity.signum(), StandardPlural::Form::COUNT);
micros.modMiddle = unsafePatternModifier;
}
// Change the exponent only after we select appropriate plural form
// for formatting purposes so that we preserve expected formatted
// string behavior.
quantity.adjustExponent(-1 * multiplier);
// We already performed rounding. Do not perform it again.
micros.rounder = RoundingImpl::passThrough();
}
#endif /* #if !UCONFIG_NO_FORMATTING */
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