Datasets:

echodict
/

llama.cpp

	#include "peg-parser.h"

	#include "common.h"
	#include "json-schema-to-grammar.h"
	#include "log.h"
	#include "unicode.h"

	#include <algorithm>
	#include <initializer_list>
	#include <map>
	#include <memory>
	#include <nlohmann/json.hpp>
	#include <regex>
	#include <stdexcept>
	#include <unordered_set>

	// Trick to catch missing branches
	template <typename T>
	inline constexpr bool is_always_false_v = false;

	const char * common_peg_parse_result_type_name(common_peg_parse_result_type type) {
	switch (type) {
	case COMMON_PEG_PARSE_RESULT_FAIL: return "fail";
	case COMMON_PEG_PARSE_RESULT_SUCCESS: return "success";
	case COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT: return "need_more_input";
	default: return "unknown";
	}
	}

	static bool is_hex_digit(const char c) {
	return (c >= '0' && c <= '9') \|\| (c >= 'a' && c <= 'f') \|\| (c >= 'A' && c <= 'F');
	}

	// Trie for matching multiple literals.
	// This is used in common_peg_until_parser and to build a GBNF exclusion grammar
	struct trie {
	struct node {
	std::map<uint32_t, size_t> children; // Use uint32_t to store Unicode codepoints
	bool is_word;
	};

	std::vector<node> nodes;

	trie(const std::vector<std::string> & words) {
	create_node(); // root node
	for (const auto & w : words) {
	insert(w);
	}
	}

	enum match_result { NO_MATCH, PARTIAL_MATCH, COMPLETE_MATCH };

	// Check if a delimiter starts at the given position
	match_result check_at(std::string_view sv, size_t start_pos) const {
	size_t current = 0; // Start at root
	size_t pos = start_pos;

	// LOG_DBG("%s: checking at pos %zu, sv='%s'\n", __func__, start_pos, std::string(sv).c_str());

	while (pos < sv.size()) {
	auto result = common_parse_utf8_codepoint(sv, pos);
	if (result.status != utf8_parse_result::SUCCESS) {
	break;
	}

	auto it = nodes[current].children.find(result.codepoint);
	if (it == nodes[current].children.end()) {
	// Can't continue matching
	return match_result{match_result::NO_MATCH};
	}

	current = it->second;
	pos += result.bytes_consumed;

	// Check if we've matched a complete word
	if (nodes[current].is_word) {
	return match_result{match_result::COMPLETE_MATCH};
	}
	}

	// Reached end of input while still in the trie (not at root)
	if (current != 0) {
	// We're in the middle of a potential match
	return match_result{match_result::PARTIAL_MATCH};
	}

	// Reached end at root (no match)
	return match_result{match_result::NO_MATCH};
	}

	struct prefix_and_next {
	std::vector<uint32_t> prefix;
	std::vector<uint32_t> next_chars;
	};

	std::vector<prefix_and_next> collect_prefix_and_next() {
	std::vector<uint32_t> prefix;
	std::vector<prefix_and_next> result;
	collect_prefix_and_next(0, prefix, result);
	return result;
	}

	private:
	void collect_prefix_and_next(size_t index, std::vector<uint32_t> & prefix, std::vector<prefix_and_next> & out) {
	if (!nodes[index].is_word) {
	if (!nodes[index].children.empty()) {
	std::vector<uint32_t> chars;
	chars.reserve(nodes[index].children.size());
	for (const auto & p : nodes[index].children) {
	chars.push_back(p.first);
	}
	out.emplace_back(prefix_and_next{prefix, chars});
	}
	}

	for (const auto & p : nodes[index].children) {
	uint32_t ch = p.first;
	auto child = p.second;
	prefix.push_back(ch);
	collect_prefix_and_next(child, prefix, out);
	prefix.pop_back();
	}
	}

	size_t create_node() {
	size_t index = nodes.size();
	nodes.emplace_back();
	return index;
	}

	void insert(const std::string & word) {
	size_t current = 0;
	size_t pos = 0;
	while (pos < word.length()) {
	auto result = common_parse_utf8_codepoint(word, pos);
	if (result.status != utf8_parse_result::SUCCESS) {
	break;
	}

	uint32_t ch = result.codepoint;
	pos += result.bytes_consumed;

	auto it = nodes[current].children.find(ch);
	if (it == nodes[current].children.end()) {
	size_t child = create_node();
	nodes[current].children[ch] = child;
	current = child;
	} else {
	current = it->second;
	}
	}
	nodes[current].is_word = true;
	}
	};

	static std::pair<uint32_t, size_t> parse_hex_escape(const std::string & str, size_t pos, int hex_count) {
	if (pos + hex_count > str.length()) {
	return {0, 0};
	}

	uint32_t value = 0;
	for (int i = 0; i < hex_count; i++) {
	char c = str[pos + i];
	if (!is_hex_digit(c)) {
	return {0, 0};
	}
	value <<= 4;
	if ('a' <= c && c <= 'f') {
	value += c - 'a' + 10;
	} else if ('A' <= c && c <= 'F') {
	value += c - 'A' + 10;
	} else if ('0' <= c && c <= '9') {
	value += c - '0';
	} else {
	break;
	}
	}
	return {value, static_cast<size_t>(hex_count)};
	}

	static std::pair<uint32_t, size_t> parse_char_class_char(const std::string & content, size_t pos) {
	if (content[pos] == '\\' && pos + 1 < content.length()) {
	switch (content[pos + 1]) {
	case 'x': {
	auto result = parse_hex_escape(content, pos + 2, 2);
	if (result.second > 0) {
	return {result.first, 2 + result.second};
	}
	// Invalid escape, treat as literal 'x'
	return {static_cast<uint32_t>('x'), 2};
	}
	case 'u': {
	auto result = parse_hex_escape(content, pos + 2, 4);
	if (result.second > 0) {
	return {result.first, 2 + result.second};
	}
	// Invalid escape, treat as literal 'u'
	return {static_cast<uint32_t>('u'), 2};
	}
	case 'U': {
	auto result = parse_hex_escape(content, pos + 2, 8);
	if (result.second > 0) {
	return {result.first, 2 + result.second};
	}
	// Invalid escape, treat as literal 'U'
	return {static_cast<uint32_t>('U'), 2};
	}
	case 'n': return {'\n', 2};
	case 't': return {'\t', 2};
	case 'r': return {'\r', 2};
	case '\\': return {'\\', 2};
	case ']': return {']', 2};
	case '[': return {'[', 2};
	default: return {static_cast<uint32_t>(content[pos + 1]), 2};
	}
	}

	// Regular character - return as codepoint
	return {static_cast<uint32_t>(static_cast<unsigned char>(content[pos])), 1};
	}

	static std::pair<std::vector<common_peg_chars_parser::char_range>, bool> parse_char_classes(const std::string & classes) {
	std::vector<common_peg_chars_parser::char_range> ranges;
	bool negated = false;

	std::string content = classes;
	if (content.front() == '[') {
	content = content.substr(1);
	}

	if (content.back() == ']') {
	content.pop_back();
	}

	// Check for negation
	if (!content.empty() && content.front() == '^') {
	negated = true;
	content = content.substr(1);
	}

	size_t i = 0;
	while (i < content.length()) {
	auto [start, start_len] = parse_char_class_char(content, i);
	i += start_len;

	if (i + 1 < content.length() && content[i] == '-') {
	// Range detected
	auto [end, end_len] = parse_char_class_char(content, i + 1);
	ranges.push_back(common_peg_chars_parser::char_range{start, end});
	i += 1 + end_len;
	} else {
	ranges.push_back(common_peg_chars_parser::char_range{start, start});
	}
	}

	return {ranges, negated};
	}

	void common_peg_ast_arena::visit(common_peg_ast_id id, const common_peg_ast_visitor & visitor) const {
	if (id == COMMON_PEG_INVALID_AST_ID) {
	return;
	}
	const auto & node = get(id);
	visitor(node);
	for (const auto & child : node.children) {
	visit(child, visitor);
	}
	}

	void common_peg_ast_arena::visit(const common_peg_parse_result & result, const common_peg_ast_visitor & visitor) const {
	for (const auto & node : result.nodes) {
	visit(node, visitor);
	}
	}

	struct parser_executor;

	common_peg_parser_id common_peg_arena::add_parser(common_peg_parser_variant parser) {
	common_peg_parser_id id = parsers_.size();
	parsers_.push_back(std::move(parser));
	return id;
	}

	void common_peg_arena::add_rule(const std::string & name, common_peg_parser_id id) {
	rules_[name] = id;
	}

	common_peg_parser_id common_peg_arena::get_rule(const std::string & name) const {
	auto it = rules_.find(name);
	if (it == rules_.end()) {
	throw std::runtime_error("Rule not found: " + name);
	}
	return it->second;
	}

	struct parser_executor {
	const common_peg_arena & arena;
	common_peg_parse_context & ctx;
	size_t start_pos;

	parser_executor(const common_peg_arena & arena, common_peg_parse_context & ctx, size_t start)
	: arena(arena), ctx(ctx), start_pos(start) {}

	std::string debug_indent() const { return std::string(ctx.parse_depth * 2, ' '); }

	std::string debug_input_snippet(size_t pos, size_t len = 60) const {
	if (pos >= ctx.input.size()) {
	return "<EOF>";
	}
	auto snippet = ctx.input.substr(pos, len);
	// Escape newlines for display
	std::string result;
	for (char c : snippet) {
	if (c == '\n') {
	result += "\\n";
	} else if (c == '\r') {
	result += "\\r";
	} else if (c == '\t') {
	result += "\\t";
	} else {
	result += c;
	}
	}
	if (pos + len < ctx.input.size()) {
	result += "...";
	}
	return result;
	}

	common_peg_parse_result operator()(const common_peg_epsilon_parser & /* p */) const {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos);
	}

	common_peg_parse_result operator()(const common_peg_start_parser & /* p */) const {
	return common_peg_parse_result(
	start_pos == 0 ? COMMON_PEG_PARSE_RESULT_SUCCESS : COMMON_PEG_PARSE_RESULT_FAIL,
	start_pos
	);
	}

	common_peg_parse_result operator()(const common_peg_end_parser & /* p */) const {
	return common_peg_parse_result(
	start_pos >= ctx.input.size() ? COMMON_PEG_PARSE_RESULT_SUCCESS : COMMON_PEG_PARSE_RESULT_FAIL,
	start_pos
	);
	}

	common_peg_parse_result operator()(const common_peg_literal_parser & p) {
	auto pos = start_pos;
	for (auto i = 0u; i < p.literal.size(); ++i) {
	if (pos >= ctx.input.size()) {
	if (!ctx.is_lenient()) {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start_pos, pos);
	}
	if (ctx.input[pos] != p.literal[i]) {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos);
	}
	++pos;
	}

	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos, pos);
	}

	common_peg_parse_result operator()(const common_peg_sequence_parser & p) {
	if (ctx.is_debug()) {
	LOG_DBG("%sSEQ start at %zu '%s' (%zu children)\n", debug_indent().c_str(), start_pos,
	debug_input_snippet(start_pos).c_str(), p.children.size());
	}
	ctx.parse_depth++;

	auto pos = start_pos;
	std::vector<common_peg_ast_id> nodes;

	for (size_t i = 0; i < p.children.size(); i++) {
	const auto & child_id = p.children[i];
	if (ctx.is_debug()) {
	fprintf(stderr, "%sSEQ child %zu: %s\n", debug_indent().c_str(), i, arena.dump(child_id).c_str());
	}
	auto result = arena.parse(child_id, ctx, pos);

	if (ctx.is_debug()) {
	fprintf(stderr, "%sSEQ child %zu: %s at %zu->%zu\n", debug_indent().c_str(), i,
	common_peg_parse_result_type_name(result.type), result.start, result.end);
	}

	if (result.fail()) {
	ctx.parse_depth--;
	if (ctx.is_debug()) {
	fprintf(stderr, "%sSEQ -> FAIL\n", debug_indent().c_str());
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos, result.end);
	}

	if (!result.nodes.empty()) {
	nodes.insert(nodes.end(), result.nodes.begin(), result.nodes.end());
	}

	if (result.need_more_input()) {
	ctx.parse_depth--;
	if (ctx.is_debug()) {
	fprintf(stderr, "%sSEQ -> NEED_MORE\n", debug_indent().c_str());
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start_pos, result.end, std::move(nodes));
	}

	pos = result.end;
	}

	ctx.parse_depth--;
	if (ctx.is_debug()) {
	fprintf(stderr, "%sSEQ -> SUCCESS at %zu->%zu\n", debug_indent().c_str(), start_pos, pos);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos, pos, std::move(nodes));
	}

	common_peg_parse_result operator()(const common_peg_choice_parser & p) {
	if (ctx.is_debug()) {
	fprintf(stderr, "%sCHOICE start at %zu '%s' (%zu options)\n", debug_indent().c_str(), start_pos,
	debug_input_snippet(start_pos).c_str(), p.children.size());
	}
	ctx.parse_depth++;

	auto pos = start_pos;
	for (size_t i = 0; i < p.children.size(); i++) {
	const auto & child_id = p.children[i];
	if (ctx.is_debug()) {
	fprintf(stderr, "%sCHOICE option %zu: %s\n", debug_indent().c_str(), i, arena.dump(child_id).c_str());
	}
	auto result = arena.parse(child_id, ctx, pos);
	if (ctx.is_debug()) {
	fprintf(stderr, "%sCHOICE option %zu: %s\n", debug_indent().c_str(), i,
	common_peg_parse_result_type_name(result.type));
	}
	if (!result.fail()) {
	ctx.parse_depth--;
	if (ctx.is_debug()) {
	fprintf(stderr, "%sCHOICE -> %s (option %zu)\n", debug_indent().c_str(),
	common_peg_parse_result_type_name(result.type), i);
	}
	return result;
	}
	}

	ctx.parse_depth--;
	if (ctx.is_debug()) {
	fprintf(stderr, "%sCHOICE -> FAIL (no options matched)\n", debug_indent().c_str());
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos);
	}

	common_peg_parse_result operator()(const common_peg_repetition_parser & p) {
	if (ctx.is_debug()) {
	fprintf(stderr, "%sREPEAT start at %zu '%s' (min=%d, max=%d)\n", debug_indent().c_str(), start_pos,
	debug_input_snippet(start_pos).c_str(), p.min_count, p.max_count);
	}
	ctx.parse_depth++;

	auto pos = start_pos;
	int match_count = 0;
	std::vector<common_peg_ast_id> nodes;

	// Try to match up to max_count times (or unlimited if max_count is -1)
	while (p.max_count == -1 \|\| match_count < p.max_count) {
	if (pos >= ctx.input.size()) {
	if (ctx.is_debug()) {
	fprintf(stderr, "%sREPEAT: at end of input, count=%d\n", debug_indent().c_str(), match_count);
	}
	break;
	}

	auto result = arena.parse(p.child, ctx, pos);

	if (ctx.is_debug()) {
	fprintf(stderr, "%sREPEAT iter %d: %s at %zu->%zu, nodes=%zu\n", debug_indent().c_str(), match_count,
	common_peg_parse_result_type_name(result.type), result.start, result.end, result.nodes.size());
	fprintf(stderr, "%sREPEAT CHILD: %s\n", debug_indent().c_str(), arena.dump(p.child).c_str());
	}

	if (result.success()) {
	// Prevent infinite loop on empty matches
	if (result.end == pos) {
	if (ctx.is_debug()) {
	fprintf(stderr, "%s REPEAT: empty match, stopping\n", debug_indent().c_str());
	}
	break;
	}

	if (!result.nodes.empty()) {
	nodes.insert(nodes.end(), result.nodes.begin(), result.nodes.end());
	}

	pos = result.end;
	match_count++;
	continue;
	}

	if (result.need_more_input()) {
	if (!result.nodes.empty()) {
	nodes.insert(nodes.end(), result.nodes.begin(), result.nodes.end());
	}

	ctx.parse_depth--;
	if (ctx.is_debug()) {
	fprintf(stderr, "%sREPEAT -> NEED_MORE (count=%d, nodes=%zu)\n", debug_indent().c_str(),
	match_count, nodes.size());
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start_pos, result.end, std::move(nodes));
	}

	// Child failed - stop trying
	if (ctx.is_debug()) {
	fprintf(stderr, "%sREPEAT: child failed, stopping\n", debug_indent().c_str());
	}
	break;
	}

	// Check if we got enough matches
	if (p.min_count > 0 && match_count < p.min_count) {
	ctx.parse_depth--;
	if (pos >= ctx.input.size() && ctx.is_lenient()) {
	if (ctx.is_debug()) {
	fprintf(stderr, "%sREPEAT -> NEED_MORE (not enough matches: %d < %d)\n", debug_indent().c_str(),
	match_count, p.min_count);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start_pos, pos, std::move(nodes));
	}
	if (ctx.is_debug()) {
	fprintf(stderr, "%sREPEAT -> FAIL (not enough matches: %d < %d)\n", debug_indent().c_str(), match_count,
	p.min_count);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos, pos);
	}

	ctx.parse_depth--;
	if (ctx.is_debug()) {
	fprintf(stderr, "%sREPEAT -> SUCCESS (count=%d, nodes=%zu)\n", debug_indent().c_str(), match_count,
	nodes.size());
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos, pos, std::move(nodes));
	}

	common_peg_parse_result operator()(const common_peg_and_parser & p) {
	auto result = arena.parse(p.child, ctx, start_pos);
	// Pass result but don't consume input
	return common_peg_parse_result(result.type, start_pos);
	}

	common_peg_parse_result operator()(const common_peg_not_parser & p) {
	auto result = arena.parse(p.child, ctx, start_pos);

	if (result.success()) {
	// Fail if the underlying parser matches
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos);
	}

	if (result.need_more_input()) {
	// Propagate - need to know what child would match before negating
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start_pos);
	}

	// Child failed, so negation succeeds
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos);
	}

	common_peg_parse_result operator()(const common_peg_any_parser & /* p */) const {
	// Parse a single UTF-8 codepoint (not just a single byte)
	auto result = common_parse_utf8_codepoint(ctx.input, start_pos);

	if (result.status == utf8_parse_result::INCOMPLETE) {
	if (!ctx.is_lenient()) {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start_pos);
	}
	if (result.status == utf8_parse_result::INVALID) {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos, start_pos + result.bytes_consumed);
	}

	common_peg_parse_result operator()(const common_peg_space_parser & /* p */) {
	auto pos = start_pos;
	while (pos < ctx.input.size()) {
	auto c = static_cast<unsigned char>(ctx.input[pos]);
	if (std::isspace(c)) {
	++pos;
	} else {
	break;
	}
	}

	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos, pos);
	}

	common_peg_parse_result operator()(const common_peg_chars_parser & p) const {
	auto pos = start_pos;
	int match_count = 0;

	// Try to match up to max_count times (or unlimited if max_count is -1)
	while (p.max_count == -1 \|\| match_count < p.max_count) {
	auto result = common_parse_utf8_codepoint(ctx.input, pos);

	if (result.status == utf8_parse_result::INCOMPLETE) {
	if (match_count >= p.min_count) {
	// We have enough matches, succeed with what we have
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos, pos);
	}
	// Not enough matches yet
	if (!ctx.is_lenient()) {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start_pos, pos);
	}

	if (result.status == utf8_parse_result::INVALID) {
	// Malformed UTF-8 in input
	if (match_count >= p.min_count) {
	// We have enough matches, succeed up to here
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos, pos);
	}
	// Not enough matches, fail
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos);
	}

	// Check if this codepoint matches our character class
	bool matches = false;
	for (const auto & range : p.ranges) {
	if (range.contains(result.codepoint)) {
	matches = true;
	break;
	}
	}

	// If negated, invert the match result
	if (p.negated) {
	matches = !matches;
	}

	if (matches) {
	pos += result.bytes_consumed;
	++match_count;
	} else {
	// Character doesn't match, stop matching
	break;
	}
	}

	// Check if we got enough matches
	if (match_count < p.min_count) {
	if (pos >= ctx.input.size() && ctx.is_lenient()) {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start_pos, pos);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos, pos);
	}

	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos, pos);
	}

	static common_peg_parse_result handle_escape_sequence(common_peg_parse_context & ctx, size_t start, size_t & pos, const char delimiter) {
	++pos; // consume '\'
	if (pos >= ctx.input.size()) {
	if (!ctx.is_lenient()) {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start, pos);
	}

	char c = ctx.input[pos];
	if (c == delimiter \|\| c == '\\' \|\| c == '/' \|\| c == 'b' \|\| c == 'f' \|\| c == 'n' \|\| c == 'r' \|\| c == 't') {
	++pos;
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start, pos);
	} else if (c == 'u') {
	return handle_unicode_escape(ctx, start, pos);
	} else {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start);
	}
	}

	static common_peg_parse_result handle_unicode_escape(common_peg_parse_context & ctx, size_t start, size_t & pos) {
	++pos; // consume 'u'
	for (int i = 0; i < 4; ++i) {
	if (pos >= ctx.input.size()) {
	if (!ctx.is_lenient()) {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start, pos);
	}
	if (!is_hex_digit(ctx.input[pos])) {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start);
	}
	++pos;
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start, pos);
	}

	common_peg_parse_result operator()(const common_peg_string_parser & p) {
	auto pos = start_pos;

	// Parse string content (without quotes)
	while (pos < ctx.input.size()) {
	char c = ctx.input[pos];

	if (c == p.delimiter) {
	// Found closing delimiter - success (don't consume it)
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos, pos);
	}

	if (c == '\\') {
	auto result = handle_escape_sequence(ctx, start_pos, pos, p.delimiter);
	if (!result.success()) {
	return result;
	}
	} else {
	auto utf8_result = common_parse_utf8_codepoint(ctx.input, pos);

	if (utf8_result.status == utf8_parse_result::INCOMPLETE) {
	if (!ctx.is_lenient()) {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start_pos, pos);
	}

	if (utf8_result.status == utf8_parse_result::INVALID) {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos);
	}

	pos += utf8_result.bytes_consumed;
	}
	}

	// Reached end without finding closing quote
	if (!ctx.is_lenient()) {
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos, pos);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start_pos, pos);
	}

	common_peg_parse_result operator()(const common_peg_until_parser & p) const {
	trie matcher(p.delimiters);

	// Scan input and check for delimiters
	size_t pos = start_pos;
	size_t last_valid_pos = start_pos;

	while (pos < ctx.input.size()) {
	auto utf8_result = common_parse_utf8_codepoint(ctx.input, pos);

	if (utf8_result.status == utf8_parse_result::INCOMPLETE) {
	// Incomplete UTF-8 sequence
	if (!ctx.is_lenient()) {
	// Input is complete but UTF-8 is incomplete = malformed
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos);
	}
	// Return what we have so far (before incomplete sequence)
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start_pos, last_valid_pos);
	}

	if (utf8_result.status == utf8_parse_result::INVALID) {
	// Malformed UTF-8
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_FAIL, start_pos);
	}

	// Check if a delimiter starts at this position
	auto match = matcher.check_at(ctx.input, pos);

	if (match == trie::COMPLETE_MATCH) {
	// Found a complete delimiter, return everything before it
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos, pos);
	}

	if (match == trie::PARTIAL_MATCH) {
	// Found a partial match extending to end of input, return everything before it
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos, pos);
	}

	pos += utf8_result.bytes_consumed;
	last_valid_pos = pos;
	}

	if (last_valid_pos == ctx.input.size() && ctx.is_lenient()) {
	// Reached the end of a partial stream, there might still be more input that we need to consume.
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_NEED_MORE_INPUT, start_pos, last_valid_pos);
	}
	return common_peg_parse_result(COMMON_PEG_PARSE_RESULT_SUCCESS, start_pos, last_valid_pos);
	}

	common_peg_parse_result operator()(const common_peg_schema_parser & p) {
	return arena.parse(p.child, ctx, start_pos);
	}

	common_peg_parse_result operator()(const common_peg_rule_parser & p) {
	// Parse the child
	auto result = arena.parse(p.child, ctx, start_pos);

	if (!result.fail()) {
	std::string_view text;
	if (result.start < ctx.input.size()) {
	text = std::string_view(ctx.input).substr(result.start, result.end - result.start);
	}

	auto node_id = ctx.ast.add_node(
	p.name,
	"",
	result.start,
	result.end,
	text,
	std::move(result.nodes),
	result.need_more_input()
	);

	return common_peg_parse_result(result.type, result.start, result.end, { node_id });
	}

	return result;
	}

	common_peg_parse_result operator()(const common_peg_tag_parser & p) {
	// Parse the child
	if (ctx.is_debug()) {
	fprintf(stderr, "%sTAG: %s\n", debug_indent().c_str(), p.tag.c_str());
	}
	auto result = arena.parse(p.child, ctx, start_pos);

	if (!result.fail()) {
	std::string_view text;
	if (result.start < ctx.input.size()) {
	text = std::string_view(ctx.input).substr(result.start, result.end - result.start);
	}

	auto node_id = ctx.ast.add_node(
	"",
	p.tag,
	result.start,
	result.end,
	text,
	std::move(result.nodes),
	result.need_more_input()
	);

	return common_peg_parse_result(result.type, result.start, result.end, { node_id });
	}

	return result;
	}

	common_peg_parse_result operator()(const common_peg_ref_parser & p) {
	auto rule_id = arena.get_rule(p.name);
	return arena.parse(rule_id, ctx, start_pos);
	}

	common_peg_parse_result operator()(const common_peg_atomic_parser & p) {
	auto result = arena.parse(p.child, ctx, start_pos);
	if (result.need_more_input()) {
	// Clear nodes so they don't propagate up.
	result.nodes.clear();
	}
	return result;
	}
	};

	common_peg_parse_result common_peg_arena::parse(common_peg_parse_context & ctx, size_t start) const {
	if (root_ == COMMON_PEG_INVALID_PARSER_ID) {
	throw std::runtime_error("No root parser set");
	}
	return parse(root_, ctx, start);
	}

	common_peg_parse_result common_peg_arena::parse(common_peg_parser_id id, common_peg_parse_context & ctx, size_t start) const {
	// Execute parser
	const auto & parser = parsers_.at(id);
	parser_executor exec(*this, ctx, start);
	return std::visit(exec, parser);
	}

	common_peg_parser_id common_peg_arena::resolve_ref(common_peg_parser_id id) {
	const auto & parser = parsers_.at(id);
	if (auto ref = std::get_if<common_peg_ref_parser>(&parser)) {
	return get_rule(ref->name);
	}
	return id;
	}

	static void bfs_node(common_peg_ast_arena &arena, std::ostringstream & oss, const common_peg_ast_node & node, int indent) {
	for (int i = 0; i < indent; i++) {
	oss << " ";
	}
	oss << "NODE " << node.id;
	if (!node.rule.empty()) {
	oss << " (rule " << node.rule << ")";
	}
	if (!node.tag.empty()) {
	oss << " (tag " << node.tag << ")";
	}
	oss << " ['" << node.text << "']\n";
	for (const auto child : node.children) {
	bfs_node(arena, oss, arena.get(child), indent + 1);
	}
	}

	std::string common_peg_ast_arena::dump() {
	std::ostringstream oss;
	for (auto & node : nodes_) {
	bfs_node(*this, oss, node, 0);
	}
	return oss.str();
	}

	void common_peg_arena::resolve_refs() {
	// Walk through all parsers and replace refs with their corresponding rule IDs
	for (auto & parser : parsers_) {
	std::visit([this](auto & p) {
	using T = std::decay_t<decltype(p)>;

	if constexpr (std::is_same_v<T, common_peg_sequence_parser>) {
	for (auto & child : p.children) {
	child = resolve_ref(child);
	}
	} else if constexpr (std::is_same_v<T, common_peg_choice_parser>) {
	for (auto & child : p.children) {
	child = resolve_ref(child);
	}
	} else if constexpr (std::is_same_v<T, common_peg_repetition_parser> \|\|
	std::is_same_v<T, common_peg_and_parser> \|\|
	std::is_same_v<T, common_peg_not_parser> \|\|
	std::is_same_v<T, common_peg_tag_parser> \|\|
	std::is_same_v<T, common_peg_atomic_parser>) {
	p.child = resolve_ref(p.child);
	} else if constexpr (std::is_same_v<T, common_peg_rule_parser>) {
	p.child = resolve_ref(p.child);
	} else if constexpr (std::is_same_v<T, common_peg_schema_parser>) {
	p.child = resolve_ref(p.child);
	} else if constexpr (std::is_same_v<T, common_peg_epsilon_parser> \|\|
	std::is_same_v<T, common_peg_start_parser> \|\|
	std::is_same_v<T, common_peg_end_parser> \|\|
	std::is_same_v<T, common_peg_ref_parser> \|\|
	std::is_same_v<T, common_peg_until_parser> \|\|
	std::is_same_v<T, common_peg_literal_parser> \|\|
	std::is_same_v<T, common_peg_string_parser> \|\|
	std::is_same_v<T, common_peg_chars_parser> \|\|
	std::is_same_v<T, common_peg_any_parser> \|\|
	std::is_same_v<T, common_peg_space_parser>) {
	// These rules do not have children
	} else {
	static_assert(is_always_false_v<T>);
	}
	}, parser);
	}

	// Also flatten root if it's a ref
	if (root_ != COMMON_PEG_INVALID_PARSER_ID) {
	root_ = resolve_ref(root_);
	}
	}

	std::string common_peg_arena::dump(common_peg_parser_id id) const {
	std::unordered_set<common_peg_parser_id> visited;
	return dump_impl(id, visited);
	}

	std::string common_peg_arena::dump_impl(common_peg_parser_id id,
	std::unordered_set<common_peg_parser_id> & visited) const {
	// Check for cycles
	if (visited.count(id)) {
	return "[cycle]";
	}
	visited.insert(id);

	const auto & parser = parsers_.at(id);

	return std::visit([this, &visited](const auto & p) -> std::string {
	using T = std::decay_t<decltype(p)>;

	if constexpr (std::is_same_v<T, common_peg_epsilon_parser>) {
	return "Epsilon";
	} else if constexpr (std::is_same_v<T, common_peg_start_parser>) {
	return "Start";
	} else if constexpr (std::is_same_v<T, common_peg_end_parser>) {
	return "End";
	} else if constexpr (std::is_same_v<T, common_peg_literal_parser>) {
	return "Literal(" + p.literal + ")";
	} else if constexpr (std::is_same_v<T, common_peg_sequence_parser>) {
	std::vector<std::string> parts;
	for (const auto & child : p.children) {
	parts.push_back(dump_impl(child, visited));
	}
	return "Sequence(" + string_join(parts, ", ") + ")";
	} else if constexpr (std::is_same_v<T, common_peg_choice_parser>) {
	std::vector<std::string> parts;
	for (const auto & child : p.children) {
	parts.push_back(dump_impl(child, visited));
	}
	return "Choice(" + string_join(parts, ", ") + ")";
	} else if constexpr (std::is_same_v<T, common_peg_repetition_parser>) {
	if (p.max_count == -1) {
	return "Repetition(" + dump_impl(p.child, visited) + ", " + std::to_string(p.min_count) +
	", unbounded)";
	}
	return "Repetition(" + dump_impl(p.child, visited) + ", " + std::to_string(p.min_count) + ", " + std::to_string(p.max_count) + ")";
	} else if constexpr (std::is_same_v<T, common_peg_and_parser>) {
	return "And(" + dump_impl(p.child, visited) + ")";
	} else if constexpr (std::is_same_v<T, common_peg_not_parser>) {
	return "Not(" + dump_impl(p.child, visited) + ")";
	} else if constexpr (std::is_same_v<T, common_peg_atomic_parser>) {
	return "Atomic(" + dump_impl(p.child, visited) + ")";
	} else if constexpr (std::is_same_v<T, common_peg_any_parser>) {
	return "Any";
	} else if constexpr (std::is_same_v<T, common_peg_space_parser>) {
	return "Space";
	} else if constexpr (std::is_same_v<T, common_peg_chars_parser>) {
	if (p.max_count == -1) {
	return "CharRepeat(" + p.pattern + ", " + std::to_string(p.min_count) + ", unbounded)";
	}
	return "CharRepeat(" + p.pattern + ", " + std::to_string(p.min_count) + ", " + std::to_string(p.max_count) + ")";
	} else if constexpr (std::is_same_v<T, common_peg_string_parser>) {
	return "String(" + std::string(1, p.delimiter) + ")";
	} else if constexpr (std::is_same_v<T, common_peg_until_parser>) {
	return "Until(" + string_join(p.delimiters, " \| ") + ")";
	} else if constexpr (std::is_same_v<T, common_peg_schema_parser>) {
	return "Schema(" + dump_impl(p.child, visited) + ", " + (p.schema ? p.schema->dump() : "null") + ")";
	} else if constexpr (std::is_same_v<T, common_peg_rule_parser>) {
	return "Rule(" + p.name + ", " + dump_impl(p.child, visited) + ")";
	} else if constexpr (std::is_same_v<T, common_peg_ref_parser>) {
	return "Ref(" + p.name + ")";
	} else if constexpr (std::is_same_v<T, common_peg_tag_parser>) {
	return "Tag(" + p.tag + ", " + dump(p.child) + ")";
	} else if constexpr (std::is_same_v<T, common_peg_atomic_parser>) {
	return "Atomic(" + dump(p.child) + ")";
	} else {
	return "Unknown";
	}
	}, parser);
	}

	common_peg_parser & common_peg_parser::operator=(const common_peg_parser & other) {
	id_ = other.id_;
	return *this;
	}

	common_peg_parser & common_peg_parser::operator+=(const common_peg_parser & other) {
	id_ = builder_.sequence({id_, other.id_});
	return *this;
	}

	common_peg_parser & common_peg_parser::operator\|=(const common_peg_parser & other) {
	id_ = builder_.choice({id_, other.id_});
	return *this;
	}

	common_peg_parser common_peg_parser::operator+(const common_peg_parser & other) const {
	return builder_.sequence({id_, other.id_});
	}

	common_peg_parser common_peg_parser::operator\|(const common_peg_parser & other) const {
	return builder_.choice({id_, other.id_});
	}

	common_peg_parser common_peg_parser::operator<<(const common_peg_parser & other) const {
	return builder_.sequence({id_, builder_.space(), other.id_});
	}

	common_peg_parser common_peg_parser::operator+(const char * str) const {
	return *this + builder_.literal(str);
	}

	common_peg_parser common_peg_parser::operator+(const std::string & str) const {
	return *this + builder_.literal(str);
	}

	common_peg_parser common_peg_parser::operator<<(const char * str) const {
	return *this << builder_.literal(str);
	}

	common_peg_parser common_peg_parser::operator<<(const std::string & str) const {
	return *this << builder_.literal(str);
	}

	common_peg_parser common_peg_parser::operator\|(const char * str) const {
	return *this \| builder_.literal(str);
	}

	common_peg_parser common_peg_parser::operator\|(const std::string & str) const {
	return *this \| builder_.literal(str);
	}

	common_peg_parser operator+(const char * str, const common_peg_parser & p) {
	return p.builder().literal(str) + p;
	}

	common_peg_parser operator+(const std::string & str, const common_peg_parser & p) {
	return operator+(str.c_str(), p);
	}

	common_peg_parser operator<<(const char * str, const common_peg_parser & p) {
	return p.builder().literal(str) << p;
	}

	common_peg_parser operator<<(const std::string & str, const common_peg_parser & p) {
	return operator<<(str.c_str(), p);
	}

	common_peg_parser operator\|(const char * str, const common_peg_parser & p) {
	return p.builder().literal(str) \| p;
	}

	common_peg_parser operator\|(const std::string & str, const common_peg_parser & p) {
	return operator\|(str.c_str(), p);
	}

	static std::string rule_name(const std::string & name) {
	static const std::regex invalid_rule_chars_re("[^a-zA-Z0-9-]+");
	return std::regex_replace(name, invalid_rule_chars_re, "-");
	}

	common_peg_parser_builder::common_peg_parser_builder() {}

	common_peg_parser common_peg_parser_builder::sequence(const std::vector<common_peg_parser_id> & parsers) {
	// Flatten nested sequences
	std::vector<common_peg_parser_id> flattened;
	for (const auto & p : parsers) {
	const auto & parser = arena_.get(p);
	if (auto seq = std::get_if<common_peg_sequence_parser>(&parser)) {
	flattened.insert(flattened.end(), seq->children.begin(), seq->children.end());
	} else {
	flattened.push_back(p);
	}
	}
	return wrap(arena_.add_parser(common_peg_sequence_parser{flattened}));
	}

	common_peg_parser common_peg_parser_builder::sequence(const std::vector<common_peg_parser> & parsers) {
	std::vector<common_peg_parser_id> ids;
	ids.reserve(parsers.size());
	for (const auto & p : parsers) {
	ids.push_back(p.id());
	}
	return sequence(ids);
	}

	common_peg_parser common_peg_parser_builder::sequence(std::initializer_list<common_peg_parser> parsers) {
	std::vector<common_peg_parser_id> ids;
	ids.reserve(parsers.size());
	for (const auto & p : parsers) {
	ids.push_back(p.id());
	}
	return sequence(ids);
	}

	common_peg_parser common_peg_parser_builder::choice(const std::vector<common_peg_parser_id> & parsers) {
	// Flatten nested choices
	std::vector<common_peg_parser_id> flattened;
	for (const auto & p : parsers) {
	const auto & parser = arena_.get(p);
	if (auto choice = std::get_if<common_peg_choice_parser>(&parser)) {
	flattened.insert(flattened.end(), choice->children.begin(), choice->children.end());
	} else {
	flattened.push_back(p);
	}
	}
	return wrap(arena_.add_parser(common_peg_choice_parser{flattened}));
	}

	common_peg_parser common_peg_parser_builder::choice(const std::vector<common_peg_parser> & parsers) {
	std::vector<common_peg_parser_id> ids;
	ids.reserve(parsers.size());
	for (const auto & p : parsers) {
	ids.push_back(p.id());
	}
	return choice(ids);
	}

	common_peg_parser common_peg_parser_builder::choice(std::initializer_list<common_peg_parser> parsers) {
	std::vector<common_peg_parser_id> ids;
	ids.reserve(parsers.size());
	for (const auto & p : parsers) {
	ids.push_back(p.id());
	}
	return choice(ids);
	}

	common_peg_parser common_peg_parser_builder::chars(const std::string & classes, int min, int max) {
	auto [ranges, negated] = parse_char_classes(classes);
	return wrap(arena_.add_parser(common_peg_chars_parser{classes, ranges, negated, min, max}));
	}

	common_peg_parser common_peg_parser_builder::schema(const common_peg_parser & p, const std::string & name, const nlohmann::ordered_json & schema, bool raw) {
	return wrap(arena_.add_parser(common_peg_schema_parser{p.id(), name, std::make_shared<nlohmann::ordered_json>(schema), raw}));
	}

	common_peg_parser common_peg_parser_builder::rule(const std::string & name, const common_peg_parser & p, bool trigger) {
	auto clean_name = rule_name(name);
	auto rule_id = arena_.add_parser(common_peg_rule_parser{clean_name, p.id(), trigger});
	arena_.add_rule(clean_name, rule_id);
	return ref(clean_name);
	}

	common_peg_parser common_peg_parser_builder::rule(const std::string & name, const std::function<common_peg_parser()> & builder_fn, bool trigger) {
	auto clean_name = rule_name(name);
	if (arena_.has_rule(clean_name)) {
	return ref(clean_name);
	}

	// Create placeholder rule to allow recursive references
	auto placeholder = any(); // Temporary placeholder
	auto placeholder_rule_id = arena_.add_parser(common_peg_rule_parser{clean_name, placeholder.id(), trigger});
	arena_.add_rule(clean_name, placeholder_rule_id);

	// Build the actual parser
	auto parser = builder_fn();

	// Replace placeholder with actual rule
	auto rule_id = arena_.add_parser(common_peg_rule_parser{clean_name, parser.id(), trigger});
	arena_.rules_[clean_name] = rule_id;

	return ref(clean_name);
	}

	void common_peg_parser_builder::set_root(const common_peg_parser & p) {
	arena_.set_root(p.id());
	}

	common_peg_arena common_peg_parser_builder::build() {
	arena_.resolve_refs();
	return std::move(arena_);
	}

	// String primitives

	common_peg_parser common_peg_parser_builder::string_content(char delimiter) {
	return wrap(arena_.add_parser(common_peg_string_parser{delimiter}));
	}

	common_peg_parser common_peg_parser_builder::double_quoted_string() {
	return rule("double-quoted-string", [this]() {
	return sequence({literal("\""), string_content('"'), literal("\""), space()});
	});
	}

	common_peg_parser common_peg_parser_builder::single_quoted_string() {
	return rule("single-quoted-string", [this]() {
	return sequence({literal("'"), string_content('\''), literal("'"), space()});
	});
	}

	common_peg_parser common_peg_parser_builder::quoted_string() {
	return rule("quoted-string", [this]() {
	return choice({double_quoted_string(), single_quoted_string()});
	});
	}

	// JSON parsers

	common_peg_parser common_peg_parser_builder::json_number() {
	return rule("json-number", [this]() {
	auto digit1_9 = chars("[1-9]", 1, 1);
	auto digits = chars("[0-9]");
	auto int_part = choice({literal("0"), sequence({digit1_9, chars("[0-9]", 0, -1)})});
	auto frac = sequence({literal("."), digits});
	auto exp = sequence({choice({literal("e"), literal("E")}), optional(chars("[+-]", 1, 1)), digits});
	// Negative lookahead: only commit the number when the next character can't extend it.
	// At EOF in partial mode, chars returns NEED_MORE → negate propagates NEED_MORE → number not committed.
	// This prevents premature commits of partial numbers (e.g. "3" when "3.14" is incoming).
	auto not_number_continuation = negate(chars("[0-9.eE+-]", 1, 1));
	return sequence({ optional(literal("-")), int_part, optional(frac), optional(exp), not_number_continuation, space() });
	});
	}

	common_peg_parser common_peg_parser_builder::json_string() {
	return rule("json-string", [this]() {
	return sequence({literal("\""), string_content('"'), literal("\""), space()});
	});
	}

	common_peg_parser common_peg_parser_builder::json_bool() {
	return rule("json-bool", [this]() {
	return sequence({choice({literal("true"), literal("false")}), space()});
	});
	}

	common_peg_parser common_peg_parser_builder::json_null() {
	return rule("json-null", [this]() {
	return sequence({literal("null"), space()});
	});
	}

	common_peg_parser common_peg_parser_builder::json_object() {
	return rule("json-object", [this]() {
	auto ws = space();
	auto member = sequence({json_string(), ws, literal(":"), ws, json()});
	auto members = sequence({member, zero_or_more(sequence({ws, literal(","), ws, member}))});
	return sequence({
	literal("{"),
	ws,
	choice({
	literal("}"),
	sequence({members, ws, literal("}")})
	}),
	ws
	});
	});
	}

	common_peg_parser common_peg_parser_builder::json_array() {
	return rule("json-array", [this]() {
	auto ws = space();
	auto elements = sequence({json(), zero_or_more(sequence({literal(","), ws, json()}))});
	return sequence({
	literal("["),
	ws,
	choice({
	literal("]"),
	sequence({elements, ws, literal("]")})
	}),
	ws
	});
	});
	}

	common_peg_parser common_peg_parser_builder::json() {
	return rule("json-value", [this]() {
	return choice({
	json_object(),
	json_array(),
	json_string(),
	json_number(),
	json_bool(),
	json_null()
	});
	});
	}

	common_peg_parser common_peg_parser_builder::python_string() {
	return rule("python-string", [this]() {
	return choice({double_quoted_string(), single_quoted_string()});
	});
	}

	common_peg_parser common_peg_parser_builder::python_number() {
	return json_number();
	}

	common_peg_parser common_peg_parser_builder::python_bool() {
	return rule("python-bool", [this]() {
	return sequence({
	choice({literal("True"), literal("False")}),
	space()
	});
	});
	}

	common_peg_parser common_peg_parser_builder::python_null() {
	return rule("python-none", [this]() {
	return sequence({literal("None"), space()});
	});
	}

	common_peg_parser common_peg_parser_builder::python_dict() {
	return rule("python-dict", [this]() {
	auto ws = space();
	auto member = sequence({python_string(), ws, literal(":"), ws, python_value()});
	auto members = sequence({member, zero_or_more(sequence({ws, literal(","), ws, member}))});
	return sequence({
	literal("{"),
	ws,
	choice({
	literal("}"),
	sequence({members, ws, literal("}")})
	}),
	ws
	});
	});
	}

	common_peg_parser common_peg_parser_builder::python_array() {
	return rule("python-array", [this]() {
	auto ws = space();
	auto elements = sequence({python_value(), zero_or_more(sequence({literal(","), ws, python_value()}))});
	return sequence({
	literal("["),
	ws,
	choice({
	literal("]"),
	sequence({elements, ws, literal("]")})
	}),
	ws
	});
	});
	}

	common_peg_parser common_peg_parser_builder::python_value() {
	return rule("python-value", [this]() {
	return choice({
	python_dict(),
	python_array(),
	python_string(),
	python_number(),
	python_bool(),
	python_null()
	});
	});
	}

	common_peg_parser common_peg_parser_builder::marker() {
	auto sharp_bracket_parser = literal("<") + until(">") + literal(">");
	auto square_bracket_parser = literal("[") + until("]") + literal("]");
	return choice({ sharp_bracket_parser, square_bracket_parser });
	}

	common_peg_parser common_peg_parser_builder::json_member(const std::string & key, const common_peg_parser & p) {
	auto ws = space();
	return sequence({
	literal("\"" + key + "\""),
	ws,
	literal(":"),
	ws,
	p,
	});
	}

	static std::string gbnf_escape_char_class(uint32_t c) {
	if (c == '-' \|\| c == ']' \|\| c == '[' \|\| c == '\\') {
	return "\\" + std::string(1, (char) c);
	}
	// Escape whitespace control characters
	if (c == '\n') {
	return "\\n";
	}
	if (c == '\t') {
	return "\\t";
	}
	if (c == '\r') {
	return "\\r";
	}

	// Printable ASCII
	if (c >= 0x20 && c <= 0x7E) {
	return std::string(1, (char) c);
	}

	// Hex escape
	char buf[16];
	const char * hex = "0123456789ABCDEF";

	if (c <= 0xFF) {
	buf[0] = '\\';
	buf[1] = 'x';
	buf[2] = hex[(c >> 4) & 0xF];
	buf[3] = hex[c & 0xF];
	buf[4] = '\0';
	} else if (c <= 0xFFFF) {
	buf[0] = '\\';
	buf[1] = 'u';
	buf[2] = hex[(c >> 12) & 0xF];
	buf[3] = hex[(c >> 8) & 0xF];
	buf[4] = hex[(c >> 4) & 0xF];
	buf[5] = hex[c & 0xF];
	buf[6] = '\0';
	} else {
	buf[0] = '\\';
	buf[1] = 'U';
	for (int i = 0; i < 8; i++) {
	buf[2 + i] = hex[(c >> ((7 - i) * 4)) & 0xF];
	}
	buf[10] = '\0';
	}

	return std::string(buf);
	}

	static std::string gbnf_excluding_pattern(const std::vector<std::string> & strings) {
	trie matcher(strings);
	auto pieces = matcher.collect_prefix_and_next();

	std::string pattern;
	for (size_t i = 0; i < pieces.size(); ++i) {
	if (i > 0) {
	pattern += " \| ";
	}

	const auto & pre = pieces[i].prefix;
	const auto & chars = pieces[i].next_chars;

	std::string cls;
	cls.reserve(chars.size());
	for (uint32_t ch : chars) {
	cls += gbnf_escape_char_class(ch);
	}

	if (!pre.empty()) {
	pattern += gbnf_format_literal(common_unicode_cpts_to_utf8(pre)) + " [^" + cls + "]";
	} else {
	pattern += "[^" + cls + "]";
	}
	}

	return "(" + pattern + ")*";
	}

	static std::unordered_set<std::string> collect_reachable_rules(
	const common_peg_arena & arena,
	const common_peg_parser_id & rule
	) {
	std::unordered_set<std::string> reachable;
	std::unordered_set<std::string> visited;

	std::function<void(common_peg_parser_id)> visit = [&](common_peg_parser_id id) {
	const auto & parser = arena.get(id);

	std::visit([&](const auto & p) {
	using T = std::decay_t<decltype(p)>;

	if constexpr (std::is_same_v<T, common_peg_epsilon_parser> \|\|
	std::is_same_v<T, common_peg_start_parser> \|\|
	std::is_same_v<T, common_peg_end_parser> \|\|
	std::is_same_v<T, common_peg_until_parser> \|\|
	std::is_same_v<T, common_peg_literal_parser> \|\|
	std::is_same_v<T, common_peg_chars_parser> \|\|
	std::is_same_v<T, common_peg_space_parser> \|\|
	std::is_same_v<T, common_peg_any_parser> \|\|
	std::is_same_v<T, common_peg_string_parser>) {
	// These parsers do not have any children
	} else if constexpr (std::is_same_v<T, common_peg_sequence_parser>) {
	for (auto child : p.children) {
	visit(child);
	}
	} else if constexpr (std::is_same_v<T, common_peg_choice_parser>) {
	for (auto child : p.children) {
	visit(child);
	}
	} else if constexpr (std::is_same_v<T, common_peg_repetition_parser> \|\|
	std::is_same_v<T, common_peg_and_parser> \|\|
	std::is_same_v<T, common_peg_not_parser> \|\|
	std::is_same_v<T, common_peg_tag_parser> \|\|
	std::is_same_v<T, common_peg_atomic_parser> \|\|
	std::is_same_v<T, common_peg_schema_parser>) {
	visit(p.child);
	} else if constexpr (std::is_same_v<T, common_peg_rule_parser>) {
	if (visited.find(p.name) == visited.end()) {
	visited.insert(p.name);
	reachable.insert(p.name);
	visit(p.child);
	}
	} else if constexpr (std::is_same_v<T, common_peg_ref_parser>) {
	// Traverse rules so we pick up everything
	auto referenced_rule = arena.get_rule(p.name);
	visit(referenced_rule);
	} else {
	static_assert(is_always_false_v<T>);
	}
	}, parser);
	};

	visit(rule);
	return reachable;
	}

	// GBNF generation implementation
	void common_peg_arena::build_grammar(const common_grammar_builder & builder, bool lazy) const {
	// Generate GBNF for a parser
	std::function<std::string(common_peg_parser_id)> to_gbnf = [&](common_peg_parser_id id) -> std::string {
	const auto & parser = parsers_.at(id);

	return std::visit([&](const auto & p) -> std::string {
	using T = std::decay_t<decltype(p)>;

	if constexpr (std::is_same_v<T, common_peg_epsilon_parser> \|\|
	std::is_same_v<T, common_peg_start_parser> \|\|
	std::is_same_v<T, common_peg_end_parser>) {
	return "";
	} else if constexpr (std::is_same_v<T, common_peg_literal_parser>) {
	return gbnf_format_literal(p.literal);
	} else if constexpr (std::is_same_v<T, common_peg_sequence_parser>) {
	std::string s;
	for (const auto & child : p.children) {
	if (!s.empty()) {
	s += " ";
	}
	auto child_gbnf = to_gbnf(child);
	const auto & child_parser = parsers_.at(child);
	if (std::holds_alternative<common_peg_choice_parser>(child_parser) \|\|
	std::holds_alternative<common_peg_sequence_parser>(child_parser)) {
	s += "(" + child_gbnf + ")";
	} else {
	s += child_gbnf;
	}
	}
	return s;
	} else if constexpr (std::is_same_v<T, common_peg_choice_parser>) {
	std::string s;
	for (const auto & child : p.children) {
	if (!s.empty()) {
	s += " \| ";
	}
	auto child_gbnf = to_gbnf(child);
	const auto & child_parser = parsers_.at(child);
	if (std::holds_alternative<common_peg_choice_parser>(child_parser)) {
	s += "(" + child_gbnf + ")";
	} else {
	s += child_gbnf;
	}
	}
	return s;
	} else if constexpr (std::is_same_v<T, common_peg_repetition_parser>) {
	auto child_gbnf = to_gbnf(p.child);
	const auto & child_parser = parsers_.at(p.child);
	if (std::holds_alternative<common_peg_choice_parser>(child_parser) \|\|
	std::holds_alternative<common_peg_sequence_parser>(child_parser)) {
	child_gbnf = "(" + child_gbnf + ")";
	}
	if (p.min_count == 0 && p.max_count == 1) {
	return child_gbnf + "?";
	}
	if (p.min_count == 0 && p.max_count == -1) {
	return child_gbnf + "*";
	}
	if (p.min_count == 1 && p.max_count == -1) {
	return child_gbnf + "+";
	}
	if (p.max_count == -1) {
	return child_gbnf + "{" + std::to_string(p.min_count) + ",}";
	}
	if (p.min_count == p.max_count) {
	if (p.min_count == 1) {
	return child_gbnf;
	}
	return child_gbnf + "{" + std::to_string(p.min_count) + "}";
	}
	return child_gbnf + "{" + std::to_string(p.min_count) + "," + std::to_string(p.max_count) + "}";
	} else if constexpr (std::is_same_v<T, common_peg_and_parser> \|\| std::is_same_v<T, common_peg_not_parser>) {
	return ""; // Lookahead not supported in GBNF
	} else if constexpr (std::is_same_v<T, common_peg_any_parser>) {
	return ".";
	} else if constexpr (std::is_same_v<T, common_peg_space_parser>) {
	return "space";
	} else if constexpr (std::is_same_v<T, common_peg_chars_parser>) {
	std::string result = p.pattern;
	if (p.min_count == 0 && p.max_count == 1) {
	return result + "?";
	}
	if (p.min_count == 0 && p.max_count == -1) {
	return result + "*";
	}
	if (p.min_count == 1 && p.max_count == -1) {
	return result + "+";
	}
	if (p.max_count == -1) {
	return result + "{" + std::to_string(p.min_count) + ",}";
	}
	if (p.min_count == p.max_count) {
	if (p.min_count == 1) {
	return result;
	}
	return result + "{" + std::to_string(p.min_count) + "}";
	}
	return result + "{" + std::to_string(p.min_count) + "," + std::to_string(p.max_count) + "}";
	} else if constexpr (std::is_same_v<T, common_peg_string_parser>) {
	const std::string delim(1, p.delimiter);
	return R"(( [^)" + delim + R"(\\] \| "\\" ( [)" + delim + R"(\\/ bfnrt] \| "u" [0-9a-fA-F]{4} ) )*)";
	} else if constexpr (std::is_same_v<T, common_peg_until_parser>) {
	if (p.delimiters.empty()) {
	return ".*";
	}
	return gbnf_excluding_pattern(p.delimiters);
	} else if constexpr (std::is_same_v<T, common_peg_schema_parser>) {
	if (p.schema) {
	if (p.raw && p.schema->contains("type") && p.schema->at("type").is_string() && p.schema->at("type") == "string") {
	// TODO: Implement more comprehensive grammar generation for raw strings.
	// For now, use the grammar emitted from the underlying parser.
	return to_gbnf(p.child);
	}
	return builder.add_schema(p.name, *p.schema);
	}
	return to_gbnf(p.child);
	} else if constexpr (std::is_same_v<T, common_peg_rule_parser>) {
	return p.name;
	} else if constexpr (std::is_same_v<T, common_peg_ref_parser>) {
	// Refs should not exist after flattening, but kept just in case
	return p.name;
	} else if constexpr (std::is_same_v<T, common_peg_tag_parser>) {
	return to_gbnf(p.child);
	} else if constexpr (std::is_same_v<T, common_peg_atomic_parser>) {
	return to_gbnf(p.child);
	} else {
	static_assert(is_always_false_v<T>);
	}
	}, parser);
	};

	// Collect reachable rules
	std::unordered_set<std::string> reachable_rules;

	if (lazy) {
	// Collect rules reachable from trigger rules
	for (const auto & [name, id] : rules_) {
	const auto & parser = parsers_.at(id);
	if (auto rule = std::get_if<common_peg_rule_parser>(&parser)) {
	if (rule->trigger) {
	// Mark trigger as reachable and visit it
	reachable_rules.insert(name);
	auto add_rules = collect_reachable_rules(*this, id);
	reachable_rules.insert(add_rules.begin(), add_rules.end());
	}
	}
	}
	} else {
	// Collect rules reachable from root
	reachable_rules = collect_reachable_rules(*this, root_);
	}

	// Create GBNF rules for all reachable rules
	for (const auto & [name, rule_id] : rules_) {
	if (reachable_rules.find(name) == reachable_rules.end()) {
	continue;
	}

	const auto & parser = parsers_.at(rule_id);
	if (auto rule = std::get_if<common_peg_rule_parser>(&parser)) {
	builder.add_rule(rule->name, to_gbnf(rule->child));
	}
	}

	if (lazy) {
	// Generate root rule from trigger rules only
	std::vector<std::string> trigger_names;
	for (const auto & [name, rule_id] : rules_) {
	const auto & parser = parsers_.at(rule_id);
	if (auto rule = std::get_if<common_peg_rule_parser>(&parser)) {
	if (rule->trigger) {
	trigger_names.push_back(rule->name);
	}
	}
	}

	// Sort for predictable order
	std::sort(trigger_names.begin(), trigger_names.end());
	builder.add_rule("root", string_join(trigger_names, " \| "));
	} else if (root_ != COMMON_PEG_INVALID_PARSER_ID) {
	builder.add_rule("root", to_gbnf(root_));
	}
	}

	static nlohmann::json serialize_parser_variant(const common_peg_parser_variant & variant) {
	using json = nlohmann::json;

	return std::visit([](const auto & p) -> json {
	using T = std::decay_t<decltype(p)>;

	if constexpr (std::is_same_v<T, common_peg_epsilon_parser>) {
	return json{{"type", "epsilon"}};
	} else if constexpr (std::is_same_v<T, common_peg_start_parser>) {
	return json{{"type", "start"}};
	} else if constexpr (std::is_same_v<T, common_peg_end_parser>) {
	return json{{"type", "end"}};
	} else if constexpr (std::is_same_v<T, common_peg_literal_parser>) {
	return json{{"type", "literal"}, {"literal", p.literal}};
	} else if constexpr (std::is_same_v<T, common_peg_sequence_parser>) {
	return json{{"type", "sequence"}, {"children", p.children}};
	} else if constexpr (std::is_same_v<T, common_peg_choice_parser>) {
	return json{{"type", "choice"}, {"children", p.children}};
	} else if constexpr (std::is_same_v<T, common_peg_repetition_parser>) {
	return json{
	{"type", "repetition"},
	{"child", p.child},
	{"min_count", p.min_count},
	{"max_count", p.max_count}
	};
	} else if constexpr (std::is_same_v<T, common_peg_and_parser>) {
	return json{{"type", "and"}, {"child", p.child}};
	} else if constexpr (std::is_same_v<T, common_peg_not_parser>) {
	return json{{"type", "not"}, {"child", p.child}};
	} else if constexpr (std::is_same_v<T, common_peg_any_parser>) {
	return json{{"type", "any"}};
	} else if constexpr (std::is_same_v<T, common_peg_space_parser>) {
	return json{{"type", "space"}};
	} else if constexpr (std::is_same_v<T, common_peg_chars_parser>) {
	json ranges = json::array();
	for (const auto & range : p.ranges) {
	ranges.push_back({{"start", range.start}, {"end", range.end}});
	}
	return json{
	{"type", "chars"},
	{"pattern", p.pattern},
	{"ranges", ranges},
	{"negated", p.negated},
	{"min_count", p.min_count},
	{"max_count", p.max_count}
	};
	} else if constexpr (std::is_same_v<T, common_peg_string_parser>) {
	return json{{"type", "string"}, {"delimiter", std::string(1, p.delimiter)}};
	} else if constexpr (std::is_same_v<T, common_peg_until_parser>) {
	return json{{"type", "until"}, {"delimiters", p.delimiters}};
	} else if constexpr (std::is_same_v<T, common_peg_schema_parser>) {
	return json{
	{"type", "schema"},
	{"child", p.child},
	{"name", p.name},
	{"schema", p.schema ? *p.schema : nullptr},
	{"raw", p.raw}
	};
	} else if constexpr (std::is_same_v<T, common_peg_rule_parser>) {
	return json{
	{"type", "rule"},
	{"name", p.name},
	{"child", p.child},
	{"trigger", p.trigger}
	};
	} else if constexpr (std::is_same_v<T, common_peg_ref_parser>) {
	return json{{"type", "ref"}, {"name", p.name}};
	} else if constexpr (std::is_same_v<T, common_peg_atomic_parser>) {
	return json{{"type", "atomic"}, {"child", p.child}};
	} else if constexpr (std::is_same_v<T, common_peg_tag_parser>) {
	return json{
	{"type", "tag"},
	{"child", p.child},
	{"tag", p.tag}
	};
	}
	}, variant);
	}

	nlohmann::json common_peg_arena::to_json() const {
	auto parsers = nlohmann::json::array();
	for (const auto & parser : parsers_) {
	parsers.push_back(serialize_parser_variant(parser));
	}
	return nlohmann::json{
	{"parsers", parsers},
	{"rules", rules_},
	{"root", root_}
	};
	}

	static common_peg_parser_variant deserialize_parser_variant(const nlohmann::json & j) {
	if (!j.contains("type") \|\| !j["type"].is_string()) {
	throw std::runtime_error("Parser variant JSON missing or invalid 'type' field");
	}

	std::string type = j["type"];

	if (type == "epsilon") {
	return common_peg_epsilon_parser{};
	}
	if (type == "start") {
	return common_peg_start_parser{};
	}
	if (type == "end") {
	return common_peg_end_parser{};
	}
	if (type == "literal") {
	if (!j.contains("literal") \|\| !j["literal"].is_string()) {
	throw std::runtime_error("literal parser missing or invalid 'literal' field");
	}
	return common_peg_literal_parser{j["literal"]};
	}
	if (type == "sequence") {
	if (!j.contains("children") \|\| !j["children"].is_array()) {
	throw std::runtime_error("sequence parser missing or invalid 'children' field");
	}
	return common_peg_sequence_parser{j["children"].get<std::vector<common_peg_parser_id>>()};
	}
	if (type == "choice") {
	if (!j.contains("children") \|\| !j["children"].is_array()) {
	throw std::runtime_error("choice parser missing or invalid 'children' field");
	}
	return common_peg_choice_parser{j["children"].get<std::vector<common_peg_parser_id>>()};
	}
	if (type == "repetition") {
	if (!j.contains("child") \|\| !j.contains("min_count") \|\| !j.contains("max_count")) {
	throw std::runtime_error("repetition parser missing required fields");
	}
	return common_peg_repetition_parser{
	j["child"].get<common_peg_parser_id>(),
	j["min_count"].get<int>(),
	j["max_count"].get<int>()
	};
	}
	if (type == "and") {
	if (!j.contains("child")) {
	throw std::runtime_error("and parser missing 'child' field");
	}
	return common_peg_and_parser{j["child"].get<common_peg_parser_id>()};
	}
	if (type == "not") {
	if (!j.contains("child")) {
	throw std::runtime_error("not parser missing 'child' field");
	}
	return common_peg_not_parser{j["child"].get<common_peg_parser_id>()};
	}
	if (type == "any") {
	return common_peg_any_parser{};
	}
	if (type == "space") {
	return common_peg_space_parser{};
	}
	if (type == "chars") {
	if (!j.contains("pattern") \|\| !j.contains("ranges") \|\| !j.contains("negated") \|\|
	!j.contains("min_count") \|\| !j.contains("max_count")) {
	throw std::runtime_error("chars parser missing required fields");
	}
	common_peg_chars_parser parser;
	parser.pattern = j["pattern"];
	parser.negated = j["negated"];
	parser.min_count = j["min_count"];
	parser.max_count = j["max_count"];
	for (const auto & range_json : j["ranges"]) {
	if (!range_json.contains("start") \|\| !range_json.contains("end")) {
	throw std::runtime_error("char_range missing 'start' or 'end' field");
	}
	parser.ranges.push_back({
	range_json["start"].get<uint32_t>(),
	range_json["end"].get<uint32_t>()
	});
	}
	return parser;
	}
	if (type == "string") {
	if (!j.contains("delimiter")) {
	throw std::runtime_error("string parser missing delimiter field.");
	}
	std::string delimiter = j["delimiter"];
	if (delimiter.empty()) {
	throw std::runtime_error("string parser delimiter is empty.");
	}
	return common_peg_string_parser{delimiter[0]};
	}
	if (type == "until") {
	if (!j.contains("delimiters") \|\| !j["delimiters"].is_array()) {
	throw std::runtime_error("until parser missing or invalid 'delimiters' field");
	}
	return common_peg_until_parser{j["delimiters"].get<std::vector<std::string>>()};
	}
	if (type == "schema") {
	if (!j.contains("child") \|\| !j.contains("name") \|\| !j.contains("schema") \|\| !j.contains("raw")) {
	throw std::runtime_error("schema parser missing required fields");
	}
	common_peg_schema_parser parser;
	parser.child = j["child"].get<common_peg_parser_id>();
	parser.name = j["name"];
	if (!j["schema"].is_null()) {
	parser.schema = std::make_shared<nlohmann::ordered_json>(j["schema"]);
	}
	parser.raw = j["raw"].get<bool>();
	return parser;
	}
	if (type == "rule") {
	if (!j.contains("name") \|\| !j.contains("child") \|\| !j.contains("trigger")) {
	throw std::runtime_error("rule parser missing required fields");
	}
	return common_peg_rule_parser{
	j["name"].get<std::string>(),
	j["child"].get<common_peg_parser_id>(),
	j["trigger"].get<bool>()
	};
	}
	if (type == "ref") {
	if (!j.contains("name") \|\| !j["name"].is_string()) {
	throw std::runtime_error("ref parser missing or invalid 'name' field");
	}
	return common_peg_ref_parser{j["name"]};
	}
	if (type == "atomic") {
	if (!j.contains("child")) {
	throw std::runtime_error("tag parser missing required fields");
	}
	return common_peg_atomic_parser{
	j["child"].get<common_peg_parser_id>(),
	};
	}
	if (type == "tag") {
	if (!j.contains("child") \|\| !j.contains("tag")) {
	throw std::runtime_error("tag parser missing required fields");
	}
	return common_peg_tag_parser{
	j["child"].get<common_peg_parser_id>(),
	j["tag"].get<std::string>(),
	};
	}

	throw std::runtime_error("Unknown parser type: " + type);
	}

	common_peg_arena common_peg_arena::from_json(const nlohmann::json & j) {
	if (!j.contains("parsers") \|\| !j["parsers"].is_array()) {
	throw std::runtime_error("JSON missing or invalid 'parsers' array");
	}
	if (!j.contains("rules") \|\| !j["rules"].is_object()) {
	throw std::runtime_error("JSON missing or invalid 'rules' object");
	}
	if (!j.contains("root")) {
	throw std::runtime_error("JSON missing 'root' field");
	}

	common_peg_arena arena;

	const auto & parsers_json = j["parsers"];
	arena.parsers_.reserve(parsers_json.size());
	for (const auto & parser_json : parsers_json) {
	arena.parsers_.push_back(deserialize_parser_variant(parser_json));
	}

	arena.rules_ = j["rules"].get<std::unordered_map<std::string, common_peg_parser_id>>();

	for (const auto & [name, id] : arena.rules_) {
	if (id >= arena.parsers_.size()) {
	throw std::runtime_error("Rule '" + name + "' references invalid parser ID: " + std::to_string(id));
	}
	}

	arena.root_ = j["root"].get<common_peg_parser_id>();
	if (arena.root_ != COMMON_PEG_INVALID_PARSER_ID && arena.root_ >= arena.parsers_.size()) {
	throw std::runtime_error("Root references invalid parser ID: " + std::to_string(arena.root_));
	}

	return arena;
	}

	std::string common_peg_arena::save() const {
	return to_json().dump();
	}

	void common_peg_arena::load(const std::string & data) {
	*this = from_json(nlohmann::json::parse(data));
	}

	common_peg_arena build_peg_parser(const std::function<common_peg_parser(common_peg_parser_builder & builder)> & fn) {
	common_peg_parser_builder builder;
	builder.set_root(fn(builder));
	return builder.build();
	}