276 lines
No EOL
10 KiB
C++
276 lines
No EOL
10 KiB
C++
#include <map>
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#include <set>
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#include <string>
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#include <utility>
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#include <vector>
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#include "compiler/generate_code/c_code.h"
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#include "compiler/generate_code/helpers.h"
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#include "compiler/rules/built_in_symbols.h"
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namespace tree_sitter {
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using std::string;
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using std::to_string;
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using std::map;
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using std::vector;
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using std::set;
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using std::pair;
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namespace generate_code {
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string _switch(string condition, string body) {
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return join({
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"switch (" + condition + ") {",
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indent(body),
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"}"
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});
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}
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string _case(string value, string body) {
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return join({
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"case " + value + ":",
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indent(body), ""
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});
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}
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string _default(string body) {
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return join({
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"default:",
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indent(body)
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});
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}
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string _if(string condition, string body) {
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return join({
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"if (" + condition + ")",
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indent(body), ""
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});
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}
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class CCodeGenerator {
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const string name;
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const ParseTable parse_table;
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const LexTable lex_table;
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public:
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CCodeGenerator(string name, const ParseTable &parse_table, const LexTable &lex_table) :
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name(name),
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parse_table(parse_table),
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lex_table(lex_table)
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{}
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string symbol_id(rules::Symbol symbol) {
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if (symbol.is_built_in()) {
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if (symbol == rules::ERROR)
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return "ts_builtin_sym_error";
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else
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return "ts_builtin_sym_end";
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} else if (symbol.is_auxiliary()) {
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return "ts_aux_sym_" + symbol.name;
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} else {
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return "ts_sym_" + symbol.name;
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}
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}
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string character_code(char character) {
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switch (character) {
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case '\0':
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return "\\0";
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case '"':
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return "\\\"";
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case '\n':
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return "\\n";
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case '\\':
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return "\\\\";
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default:
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return string() + character;
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}
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}
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string condition_for_character_range(const rules::CharacterRange &range) {
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string lookahead("LOOKAHEAD_CHAR()");
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if (range.min == range.max) {
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return lookahead + " == '" + character_code(range.min) + "'";
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} else {
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return string("'") + character_code(range.min) + string("' <= ") + lookahead +
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" && " + lookahead + " <= '" + character_code(range.max) + "'";
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}
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}
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string condition_for_character_set(const rules::CharacterSet &set) {
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vector<string> parts;
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if (set.ranges.size() == 1) {
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return condition_for_character_range(*set.ranges.begin());
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} else {
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for (auto &match : set.ranges)
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parts.push_back("(" + condition_for_character_range(match) + ")");
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return join(parts, " ||\n ");
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}
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}
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string condition_for_character_rule(const rules::CharacterSet &rule) {
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vector<string> parts;
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pair<rules::CharacterSet, bool> representation = rule.most_compact_representation();
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if (representation.second)
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return condition_for_character_set(representation.first);
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else
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return "!(" + condition_for_character_set(rule.complement()) + ")";
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}
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string code_for_parse_actions(const rules::Symbol &symbol, const ParseAction &action) {
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string sym_id = symbol_id(symbol);
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switch (action.type) {
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case ParseActionTypeAccept:
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return "ACCEPT_INPUT(" + sym_id + ")";
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case ParseActionTypeShift:
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return "SHIFT(" + sym_id + ", " + to_string(action.state_index) + ")";
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case ParseActionTypeReduce:
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return "REDUCE(" +
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sym_id + ", " +
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symbol_id(action.symbol) + ", " +
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to_string(action.child_flags.size()) + ")";
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default:
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return "";
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}
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}
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string parse_error_call(const set<rules::Symbol> &expected_inputs) {
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string result = "PARSE_ERROR(" + to_string(expected_inputs.size()) + ", EXPECT({";
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bool started = false;
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for (auto &symbol : expected_inputs) {
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if (started) result += ", ";
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started = true;
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result += symbol_id(symbol);
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}
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result += "}));";
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return result;
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}
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string code_for_lex_actions(const LexAction &action,
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const set<rules::CharacterSet> &expected_inputs) {
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switch (action.type) {
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case LexActionTypeAdvance:
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return "ADVANCE(" + to_string(action.state_index) + ");";
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case LexActionTypeAccept:
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return "ACCEPT_TOKEN(" + symbol_id(action.symbol) + ");";
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case LexActionTypeError:
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return "LEX_ERROR();";
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}
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}
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string switch_on_lookahead_char(const LexState &parse_state) {
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string result = "";
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auto expected_inputs = parse_state.expected_inputs();
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for (auto pair : parse_state.actions)
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if (!pair.first.is_empty())
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result += _if(condition_for_character_rule(pair.first),
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code_for_lex_actions(pair.second, expected_inputs));
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result += code_for_lex_actions(parse_state.default_action, expected_inputs);
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return result;
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}
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string switch_on_lex_state() {
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string body = "";
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for (size_t i = 0; i < lex_table.states.size(); i++)
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body += _case(std::to_string(i), switch_on_lookahead_char(lex_table.states[i]));
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body += _case("ts_lex_state_error", switch_on_lookahead_char(lex_table.error_state));
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body += _default("LEX_PANIC();");
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return _switch("LEX_STATE()", body);
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}
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string symbol_count() {
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return "#define TS_SYMBOL_COUNT " + to_string(parse_table.symbols.size());
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}
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string symbol_enum() {
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string result = "enum {\n";
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for (auto symbol : parse_table.symbols)
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if (!symbol.is_built_in())
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result += indent(symbol_id(symbol)) + ",\n";
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return result + "};";
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}
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string rule_names_list() {
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string result = "SYMBOL_NAMES = {\n";
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for (auto symbol : parse_table.symbols)
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if (!symbol.is_built_in())
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result += indent(string("\"") + symbol.name) + "\",\n";
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return result + "};";
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}
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string hidden_symbol_flags() {
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string result = "HIDDEN_SYMBOL_FLAGS = {\n";
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for (auto &symbol : parse_table.symbols)
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if (!symbol.is_built_in())
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result += indent(symbol.is_hidden() ? "1" : "0") + ",\n";
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return result + "};";
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}
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string includes() {
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return "#include \"tree_sitter/parser.h\"";
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}
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string lex_function() {
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return join({
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"LEX_FN() {",
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indent("START_LEXER();"),
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indent(switch_on_lex_state()),
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"}"
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});
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}
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template<typename T>
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vector<string> map_to_string(const vector<T> &inputs, std::function<string(T)> f) {
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vector<string> result;
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for (auto &item : inputs)
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result.push_back(f(item));
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return result;
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}
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string parse_table_row_for_state(const ParseState &state) {
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string result("SET_LEX_STATE(" + to_string(state.lex_state_id) + ");");
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for (auto &pair : state.actions) {
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result += "\n" + code_for_parse_actions(pair.first, pair.second);
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}
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return result;
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}
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string parse_table_function() {
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size_t state_id = 0;
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return join({
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"PARSE_TABLE() {",
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indent(join({
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"START_TABLE(" + to_string(parse_table.states.size()) + ")",
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join(map_to_string<ParseState>(parse_table.states, [&](ParseState state) -> string {
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return join({
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"STATE(" + to_string(state_id++) + ");",
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parse_table_row_for_state(state),
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"END_STATE();"
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});
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}), "\n\n"),
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"END_TABLE();",
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}, "\n\n")),
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"}"
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});
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}
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string parser_export() {
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return "EXPORT_PARSER(ts_parser_" + name + ");";
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}
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string code() {
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return join({
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includes(),
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symbol_count(),
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symbol_enum(),
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rule_names_list(),
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hidden_symbol_flags(),
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lex_function(),
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parse_table_function(),
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parser_export(),
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}, "\n\n") + "\n";
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}
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};
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string c_code(string name, const ParseTable &parse_table, const LexTable &lex_table) {
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return CCodeGenerator(name, parse_table, lex_table).code();
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}
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}
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} |