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// © 2024 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
#include "unicode/utypes.h"
#if !UCONFIG_NO_FORMATTING
#if !UCONFIG_NO_MF2
#include "unicode/messageformat2.h"
#include "messageformat2_allocation.h"
#include "messageformat2_checker.h"
#include "messageformat2_errors.h"
#include "messageformat2_evaluation.h"
#include "messageformat2_function_registry_internal.h"
#include "messageformat2_macros.h"
#include "messageformat2_parser.h"
#include "messageformat2_serializer.h"
#include "uvector.h" // U_ASSERT
U_NAMESPACE_BEGIN
namespace message2 {
// MessageFormatter::Builder
// -------------------------------------
// Creates a MessageFormat instance based on the pattern.
MessageFormatter::Builder& MessageFormatter::Builder::setPattern(const UnicodeString& pat, UParseError& parseError, UErrorCode& errorCode) {
normalizedInput.remove();
// Parse the pattern
MFDataModel::Builder tree(errorCode);
Parser(pat, tree, *errors, normalizedInput).parse(parseError, errorCode);
// Build the data model based on what was parsed
dataModel = tree.build(errorCode);
hasDataModel = true;
hasPattern = true;
pattern = pat;
return *this;
}
// Precondition: `reg` is non-null
// Does not adopt `reg`
MessageFormatter::Builder& MessageFormatter::Builder::setFunctionRegistry(const MFFunctionRegistry& reg) {
customMFFunctionRegistry = ®
return *this;
}
MessageFormatter::Builder& MessageFormatter::Builder::setLocale(const Locale& loc) {
locale = loc;
return *this;
}
MessageFormatter::Builder& MessageFormatter::Builder::setDataModel(MFDataModel&& newDataModel) {
normalizedInput.remove();
delete errors;
errors = nullptr;
hasPattern = false;
hasDataModel = true;
dataModel = std::move(newDataModel);
return *this;
}
/*
This build() method is non-destructive, which entails the risk that
its borrowed MFFunctionRegistry and (if the setDataModel() method was called)
MFDataModel pointers could become invalidated.
*/
MessageFormatter MessageFormatter::Builder::build(UErrorCode& errorCode) const {
return MessageFormatter(*this, errorCode);
}
MessageFormatter::Builder::Builder(UErrorCode& errorCode) : locale(Locale::getDefault()), customMFFunctionRegistry(nullptr) {
// Initialize errors
errors = new StaticErrors(errorCode);
CHECK_ERROR(errorCode);
if (errors == nullptr) {
errorCode = U_MEMORY_ALLOCATION_ERROR;
}
}
MessageFormatter::Builder::~Builder() {
if (errors != nullptr) {
delete errors;
}
}
// MessageFormatter
MessageFormatter::MessageFormatter(const MessageFormatter::Builder& builder, UErrorCode &success) : locale(builder.locale), customMFFunctionRegistry(builder.customMFFunctionRegistry) {
CHECK_ERROR(success);
// Set up the standard function registry
MFFunctionRegistry::Builder standardFunctionsBuilder(success);
FormatterFactory* dateTime = StandardFunctions::DateTimeFactory::dateTime(success);
FormatterFactory* date = StandardFunctions::DateTimeFactory::date(success);
FormatterFactory* time = StandardFunctions::DateTimeFactory::time(success);
FormatterFactory* number = new StandardFunctions::NumberFactory();
FormatterFactory* integer = new StandardFunctions::IntegerFactory();
standardFunctionsBuilder.adoptFormatter(FunctionName(UnicodeString("datetime")), dateTime, success)
.adoptFormatter(FunctionName(UnicodeString("date")), date, success)
.adoptFormatter(FunctionName(UnicodeString("time")), time, success)
.adoptFormatter(FunctionName(UnicodeString("number")), number, success)
.adoptFormatter(FunctionName(UnicodeString("integer")), integer, success)
.adoptSelector(FunctionName(UnicodeString("number")), new StandardFunctions::PluralFactory(UPLURAL_TYPE_CARDINAL), success)
.adoptSelector(FunctionName(UnicodeString("integer")), new StandardFunctions::PluralFactory(StandardFunctions::PluralFactory::integer()), success)
.adoptSelector(FunctionName(UnicodeString("string")), new StandardFunctions::TextFactory(), success);
CHECK_ERROR(success);
standardMFFunctionRegistry = standardFunctionsBuilder.build();
CHECK_ERROR(success);
standardMFFunctionRegistry.checkStandard();
normalizedInput = builder.normalizedInput;
// Build data model
// First, check that there is a data model
// (which might have been set by setDataModel(), or to
// the data model parsed from the pattern by setPattern())
if (!builder.hasDataModel) {
success = U_INVALID_STATE_ERROR;
return;
}
dataModel = builder.dataModel;
if (builder.errors != nullptr) {
errors = new StaticErrors(*builder.errors, success);
} else {
// Initialize errors
LocalPointer<StaticErrors> errorsNew(new StaticErrors(success));
CHECK_ERROR(success);
errors = errorsNew.orphan();
}
// Note: we currently evaluate variables lazily,
// without memoization. This call is still necessary
// to check out-of-scope uses of local variables in
// right-hand sides (unresolved variable errors can
// only be checked when arguments are known)
// Check for resolution errors
Checker(dataModel, *errors).check(success);
}
void MessageFormatter::cleanup() noexcept {
if (errors != nullptr) {
delete errors;
}
}
MessageFormatter& MessageFormatter::operator=(MessageFormatter&& other) noexcept {
cleanup();
locale = std::move(other.locale);
standardMFFunctionRegistry = std::move(other.standardMFFunctionRegistry);
customMFFunctionRegistry = other.customMFFunctionRegistry;
dataModel = std::move(other.dataModel);
normalizedInput = std::move(other.normalizedInput);
errors = other.errors;
other.errors = nullptr;
return *this;
}
const MFDataModel& MessageFormatter::getDataModel() const { return dataModel; }
UnicodeString MessageFormatter::getPattern() const {
// Converts the current data model back to a string
UnicodeString result;
Serializer serializer(getDataModel(), result);
serializer.serialize();
return result;
}
// Precondition: custom function registry exists
const MFFunctionRegistry& MessageFormatter::getCustomMFFunctionRegistry() const {
U_ASSERT(hasCustomMFFunctionRegistry());
return *customMFFunctionRegistry;
}
MessageFormatter::~MessageFormatter() {
cleanup();
}
// Selector and formatter lookup
// -----------------------------
// Postcondition: selector != nullptr || U_FAILURE(status)
Selector* MessageFormatter::getSelector(MessageContext& context, const FunctionName& functionName, UErrorCode& status) const {
NULL_ON_ERROR(status);
U_ASSERT(isSelector(functionName));
const SelectorFactory* selectorFactory = lookupSelectorFactory(context, functionName, status);
NULL_ON_ERROR(status);
if (selectorFactory == nullptr) {
status = U_MEMORY_ALLOCATION_ERROR;
return nullptr;
}
// Create a specific instance of the selector
auto result = selectorFactory->createSelector(getLocale(), status);
NULL_ON_ERROR(status);
return result;
}
// Returns an owned pointer
Formatter* MessageFormatter::getFormatter(const FunctionName& functionName, UErrorCode& status) const {
NULL_ON_ERROR(status);
// Create the formatter
// First, look up the formatter factory for this function
FormatterFactory* formatterFactory = lookupFormatterFactory(functionName, status);
NULL_ON_ERROR(status);
U_ASSERT(formatterFactory != nullptr);
// Create a specific instance of the formatter
Formatter* formatter = formatterFactory->createFormatter(locale, status);
NULL_ON_ERROR(status);
if (formatter == nullptr) {
status = U_MEMORY_ALLOCATION_ERROR;
return nullptr;
}
return formatter;
}
bool MessageFormatter::getDefaultFormatterNameByType(const UnicodeString& type, FunctionName& name) const {
U_ASSERT(hasCustomMFFunctionRegistry());
const MFFunctionRegistry& reg = getCustomMFFunctionRegistry();
return reg.getDefaultFormatterNameByType(type, name);
}
// ---------------------------------------------------
// Function registry
bool MessageFormatter::isBuiltInSelector(const FunctionName& functionName) const {
return standardMFFunctionRegistry.hasSelector(functionName);
}
bool MessageFormatter::isBuiltInFormatter(const FunctionName& functionName) const {
return standardMFFunctionRegistry.hasFormatter(functionName);
}
// https://github.com/unicode-org/message-format-wg/issues/409
// Unknown function = unknown function error
// Formatter used as selector = selector error
// Selector used as formatter = formatting error
const SelectorFactory* MessageFormatter::lookupSelectorFactory(MessageContext& context, const FunctionName& functionName, UErrorCode& status) const {
DynamicErrors& err = context.getErrors();
if (isBuiltInSelector(functionName)) {
return standardMFFunctionRegistry.getSelector(functionName);
}
if (isBuiltInFormatter(functionName)) {
err.setSelectorError(functionName, status);
return nullptr;
}
if (hasCustomMFFunctionRegistry()) {
const MFFunctionRegistry& customMFFunctionRegistry = getCustomMFFunctionRegistry();
const SelectorFactory* selectorFactory = customMFFunctionRegistry.getSelector(functionName);
if (selectorFactory != nullptr) {
return selectorFactory;
}
if (customMFFunctionRegistry.getFormatter(functionName) != nullptr) {
err.setSelectorError(functionName, status);
return nullptr;
}
}
// Either there is no custom function registry and the function
// isn't built-in, or the function doesn't exist in either the built-in
// or custom registry.
// Unknown function error
err.setUnknownFunction(functionName, status);
return nullptr;
}
FormatterFactory* MessageFormatter::lookupFormatterFactory(const FunctionName& functionName,
UErrorCode& status) const {
NULL_ON_ERROR(status);
if (isBuiltInFormatter(functionName)) {
return standardMFFunctionRegistry.getFormatter(functionName);
}
if (isBuiltInSelector(functionName)) {
status = U_MF_FORMATTING_ERROR;
return nullptr;
}
if (hasCustomMFFunctionRegistry()) {
const MFFunctionRegistry& customMFFunctionRegistry = getCustomMFFunctionRegistry();
FormatterFactory* formatterFactory = customMFFunctionRegistry.getFormatter(functionName);
if (formatterFactory != nullptr) {
return formatterFactory;
}
if (customMFFunctionRegistry.getSelector(functionName) != nullptr) {
status = U_MF_FORMATTING_ERROR;
return nullptr;
}
}
// Either there is no custom function registry and the function
// isn't built-in, or the function doesn't exist in either the built-in
// or custom registry.
// Unknown function error
status = U_MF_UNKNOWN_FUNCTION_ERROR;
return nullptr;
}
bool MessageFormatter::isCustomFormatter(const FunctionName& fn) const {
return hasCustomMFFunctionRegistry() && getCustomMFFunctionRegistry().getFormatter(fn) != nullptr;
}
bool MessageFormatter::isCustomSelector(const FunctionName& fn) const {
return hasCustomMFFunctionRegistry() && getCustomMFFunctionRegistry().getSelector(fn) != nullptr;
}
} // namespace message2
U_NAMESPACE_END
#endif /* #if !UCONFIG_NO_MF2 */
#endif /* #if !UCONFIG_NO_FORMATTING */
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