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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_data_model.h"
#include "messageformat2_macros.h"
#include "messageformat2_serializer.h"
#include "uvector.h" // U_ASSERT
U_NAMESPACE_BEGIN
namespace message2 {
// Generates a string representation of a data model
// ------------------------------------------------
using namespace data_model;
// Private helper methods
void Serializer::whitespace() {
result += SPACE;
}
void Serializer::emit(UChar32 c) {
result += c;
}
void Serializer::emit(const UnicodeString& s) {
result += s;
}
template <int32_t N>
void Serializer::emit(const UChar32 (&token)[N]) {
// Don't emit the terminator
for (int32_t i = 0; i < N - 1; i++) {
emit(token[i]);
}
}
void Serializer::emit(const Literal& l) {
if (l.isQuoted()) {
emit(PIPE);
const UnicodeString& contents = l.unquoted();
for (int32_t i = 0; ((int32_t) i) < contents.length(); i++) {
// Re-escape any PIPE or BACKSLASH characters
switch(contents[i]) {
case BACKSLASH:
case PIPE: {
emit(BACKSLASH);
break;
}
default: {
break;
}
}
emit(contents[i]);
}
emit(PIPE);
} else {
emit(l.unquoted());
}
}
void Serializer::emit(const Key& k) {
if (k.isWildcard()) {
emit(ASTERISK);
return;
}
emit(k.asLiteral());
}
void Serializer::emit(const SelectorKeys& k) {
const Key* ks = k.getKeysInternal();
int32_t len = k.len;
// It would be an error for `keys` to be empty;
// that would mean this is the single `pattern`
// variant, and in that case, this method shouldn't be called
U_ASSERT(len > 0);
for (int32_t i = 0; i < len; i++) {
if (i != 0) {
whitespace();
}
emit(ks[i]);
}
}
void Serializer::emit(const Operand& rand) {
U_ASSERT(!rand.isNull());
if (rand.isVariable()) {
emit(DOLLAR);
emit(rand.asVariable());
} else {
// Literal: quoted or unquoted
emit(rand.asLiteral());
}
}
void Serializer::emit(const OptionMap& options) {
// Errors should have been checked before this point
UErrorCode localStatus = U_ZERO_ERROR;
U_ASSERT(!options.bogus);
for (int32_t i = 0; i < options.size(); i++) {
const Option& opt = options.getOption(i, localStatus);
// No need to check error code, since we already checked
// that !bogus
whitespace();
emit(opt.getName());
emit(EQUALS);
emit(opt.getValue());
}
}
void Serializer::emitAttributes(const OptionMap& attributes) {
// Errors should have been checked before this point
UErrorCode localStatus = U_ZERO_ERROR;
U_ASSERT(!attributes.bogus);
for (int32_t i = 0; i < attributes.size(); i++) {
const Option& attr = attributes.getOption(i, localStatus);
// No need to check error code, since we already checked
// that !bogus
whitespace();
emit(AT);
emit(attr.getName());
const Operand& v = attr.getValue();
if (!v.isNull()) {
emit(EQUALS);
emit(v);
}
}
}
void Serializer::emit(const Reserved& reserved) {
// Re-escape '\' / '{' / '|' / '}'
for (int32_t i = 0; i < reserved.numParts(); i++) {
const Literal& l = reserved.getPart(i);
if (l.isQuoted()) {
emit(l);
} else {
const UnicodeString& s = l.unquoted();
for (int32_t j = 0; ((int32_t) j) < s.length(); j++) {
switch(s[j]) {
case LEFT_CURLY_BRACE:
case PIPE:
case RIGHT_CURLY_BRACE:
case BACKSLASH: {
emit(BACKSLASH);
break;
}
default:
break;
}
emit(s[j]);
}
}
}
}
void Serializer::emit(const Expression& expr) {
emit(LEFT_CURLY_BRACE);
if (!expr.isReserved() && !expr.isFunctionCall()) {
// Literal or variable, no annotation
emit(expr.getOperand());
} else {
// Function call or reserved
if (!expr.isStandaloneAnnotation()) {
// Must be a function call that has an operand
emit(expr.getOperand());
whitespace();
}
UErrorCode localStatus = U_ZERO_ERROR;
const Operator* rator = expr.getOperator(localStatus);
U_ASSERT(U_SUCCESS(localStatus));
if (rator->isReserved()) {
const Reserved& reserved = rator->asReserved();
emit(reserved);
} else {
emit(COLON);
emit(rator->getFunctionName());
// No whitespace after function name, in case it has
// no options. (when there are options, emit(OptionMap) will
// emit the leading whitespace)
emit(rator->getOptionsInternal());
}
}
emitAttributes(expr.getAttributesInternal());
emit(RIGHT_CURLY_BRACE);
}
void Serializer::emit(const PatternPart& part) {
if (part.isText()) {
// Raw text
const UnicodeString& text = part.asText();
// Re-escape '{'/'}'/'\'
for (int32_t i = 0; ((int32_t) i) < text.length(); i++) {
switch(text[i]) {
case BACKSLASH:
case LEFT_CURLY_BRACE:
case RIGHT_CURLY_BRACE: {
emit(BACKSLASH);
break;
}
default:
break;
}
emit(text[i]);
}
return;
}
// Markup
if (part.isMarkup()) {
const Markup& markup = part.asMarkup();
emit(LEFT_CURLY_BRACE);
if (markup.isClose()) {
emit(SLASH);
} else {
emit(NUMBER_SIGN);
}
emit(markup.getName());
emit(markup.getOptionsInternal());
emitAttributes(markup.getAttributesInternal());
if (markup.isStandalone()) {
emit(SLASH);
}
emit(RIGHT_CURLY_BRACE);
return;
}
// Expression
emit(part.contents());
}
void Serializer::emit(const Pattern& pat) {
int32_t len = pat.numParts();
// Always quote pattern, which should match the normalized input
// if the parser is constructing it correctly
emit(LEFT_CURLY_BRACE);
emit(LEFT_CURLY_BRACE);
for (int32_t i = 0; i < len; i++) {
// No whitespace is needed here -- see the `pattern` nonterminal in the grammar
emit(pat.getPart(i));
}
emit(RIGHT_CURLY_BRACE);
emit(RIGHT_CURLY_BRACE);
}
void Serializer::serializeDeclarations() {
const Binding* bindings = dataModel.getLocalVariablesInternal();
U_ASSERT(bindings != nullptr);
for (int32_t i = 0; i < dataModel.bindingsLen; i++) {
const Binding& b = bindings[i];
if (b.isLocal()) {
// No whitespace needed here -- see `message` in the grammar
emit(ID_LOCAL);
whitespace();
emit(DOLLAR);
emit(b.getVariable());
// No whitespace needed here -- see `local-declaration` in the grammar
emit(EQUALS);
// No whitespace needed here -- see `local-declaration` in the grammar
} else {
// Input declaration
emit(ID_INPUT);
// No whitespace needed here -- see `input-declaration` in the grammar
}
emit(b.getValue());
}
}
void Serializer::serializeUnsupported() {
const UnsupportedStatement* statements = dataModel.getUnsupportedStatementsInternal();
U_ASSERT(statements != nullptr);
for (int32_t i = 0; i < dataModel.unsupportedStatementsLen; i++) {
const UnsupportedStatement& s = statements[i];
emit(s.getKeyword());
UErrorCode localErrorCode = U_ZERO_ERROR;
const Reserved* r = s.getBody(localErrorCode);
if (U_SUCCESS(localErrorCode)) {
whitespace();
emit(*r);
}
const Expression* e = s.getExpressionsInternal();
for (int32_t j = 0; j < s.expressionsLen; j++) {
emit(e[j]);
}
}
}
void Serializer::serializeSelectors() {
U_ASSERT(!dataModel.hasPattern());
const Expression* selectors = dataModel.getSelectorsInternal();
emit(ID_MATCH);
for (int32_t i = 0; i < dataModel.numSelectors(); i++) {
// No whitespace needed here -- see `selectors` in the grammar
emit(selectors[i]);
}
}
void Serializer::serializeVariants() {
U_ASSERT(!dataModel.hasPattern());
const Variant* variants = dataModel.getVariantsInternal();
for (int32_t i = 0; i < dataModel.numVariants(); i++) {
const Variant& v = variants[i];
emit(v.getKeys());
// No whitespace needed here -- see `variant` in the grammar
emit(v.getPattern());
}
}
// Main (public) serializer method
void Serializer::serialize() {
serializeDeclarations();
serializeUnsupported();
// Pattern message
if (dataModel.hasPattern()) {
emit(dataModel.getPattern());
} else {
// Selectors message
serializeSelectors();
serializeVariants();
}
}
} // namespace message2
U_NAMESPACE_END
#endif /* #if !UCONFIG_NO_MF2 */
#endif /* #if !UCONFIG_NO_FORMATTING */
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