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#include <optional>
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#include <algorithm>
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#include "UserScript/parser.h"
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#include "UserScript.h"
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//////////////////////
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/// PARSER HELPERS ///
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//////////////////////
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using token = scripting::ast::token;
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using symbol_t = scripting::ast::symbol_t;
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template<typename T>
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struct parse_result {
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std::optional<T> result;
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std::span<token> rest;
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operator bool() { return result.has_value(); }
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};
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bool next_is_newline(std::span<token> current) {
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return (not current.empty()) && (holds_alternative<symbol_t>(current.front().value) && (get<symbol_t>(current.front().value) == symbol_t::new_line));
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}
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std::span<token> trim_newline(std::span<token> current) {
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while(next_is_newline(current)) {
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current = current.subspan(1);
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}
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return current;
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}
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///////////////////////////
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/// PARSER DECLARATIONS ///
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///////////////////////////
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parse_result<scripting::ast::expression> try_expression(std::span<token> code, std::vector<scripting::script_error>& errors);
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parse_result<scripting::ast::binary_algebraic_expression> try_binary_algebraic_expression(std::span<token> code, std::vector<scripting::script_error>& errors);
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parse_result<scripting::ast::variable_expression> try_variable_expression(std::span<token> code, std::vector<scripting::script_error>& errors);
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parse_result<scripting::ast::literal_int_expression> try_literal_int_expression(std::span<token> code, std::vector<scripting::script_error>& errors);
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parse_result<scripting::ast::literal_string_expression> try_literal_string_expression(std::span<token> code, std::vector<scripting::script_error>& errors);
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parse_result<scripting::ast::statement> try_statement(std::span<token> code, std::vector<scripting::script_error>& errors);
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parse_result<scripting::ast::command_expression> try_command_expr(std::span<token> code, std::vector<scripting::script_error>& errors);
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parse_result<scripting::ast::conditional> try_conditional(const std::span<token> code, std::vector<scripting::script_error>& errors, const std::string_view initiator = "if");
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parse_result<scripting::ast::while_loop> try_while_loop(const std::span<token> code, std::vector<scripting::script_error>& errors);
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parse_result<scripting::ast::paren_expression> try_paren_expression(std::span<token> code, std::vector<scripting::script_error>& errors);
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parse_result<scripting::ast::unary_algebraic_expression> try_unary_algebraic_expression(std::span<token> code, std::vector<scripting::script_error>& errors);
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//////////////////////////
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/// PARSER DEFINITIONS ///
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//////////////////////////
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parse_result<scripting::ast::command_expression> try_command_expr(std::span<token> code, std::vector<scripting::script_error>& errors) {
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scripting::ast::command_expression cmd;
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auto current = code;
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if(current.empty()) return {std::nullopt, code};
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if(not holds_alternative<symbol_t>(current.front().value)) return {std::nullopt, code};
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if(get<symbol_t>(current.front().value) != symbol_t::divide) return {std::nullopt, code};
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cmd.location = current.front().location;
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current = current.subspan(1);
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if(current.empty()) {
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errors.push_back(
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scripting::script_error{.location = code.front().location, .message = "Expected command name"});
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return {std::nullopt, code};
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}
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if(not holds_alternative<scripting::ast::identifier>(current.front().value)) {
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errors.push_back(
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scripting::script_error{.location = current.front().location, .message = "Expected command name"});
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return {std::nullopt, code};
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}
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cmd.name = get<scripting::ast::identifier>(current.front().value);
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current = current.subspan(1);
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while(
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not current.empty()
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and not (
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holds_alternative<symbol_t>(current.front().value)
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and get<symbol_t>(current.front().value) == symbol_t::new_line
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)
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and not (
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holds_alternative<symbol_t>(current.front().value)
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and get<symbol_t>(current.front().value) == symbol_t::r_paren
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)
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) {
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auto [expr, rest] = try_expression(current, errors);
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if(not expr) {
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errors.push_back(
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scripting::script_error{.location = current.front().location, .message = "Expected expression"});
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return {std::nullopt, code};
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}
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cmd.arguments.push_back(std::make_unique<scripting::ast::expression>(std::move(expr.value())));
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current = rest;
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}
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return {std::move(cmd), current};
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}
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parse_result<scripting::ast::expression> try_expression(std::span<token> code, std::vector<scripting::script_error>& errors) {
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scripting::ast::expression node;
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auto current = code;
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#ifdef HANDLE_EXPRESSION
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static_assert(false, "Found a macro name HANDLE_EXPRESSION, halting");
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#endif
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#define HANDLE_EXPRESSION(type) \
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node = scripting::ast::expression{ \
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.location = current.front().location, \
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.contents = std::make_unique<type>(std::move(expr.value())) \
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}; \
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current = rest;
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if(auto [expr, rest] = try_binary_algebraic_expression(current, errors); expr) {
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HANDLE_EXPRESSION(scripting::ast::binary_algebraic_expression)
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} else if(auto [expr, rest] = try_literal_string_expression(current, errors); expr) {
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HANDLE_EXPRESSION(scripting::ast::literal_string_expression)
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} else if(auto [expr, rest] = try_literal_int_expression(current, errors); expr) {
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HANDLE_EXPRESSION(scripting::ast::literal_int_expression)
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} else if(auto [expr, rest] = try_unary_algebraic_expression(current, errors); expr) {
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HANDLE_EXPRESSION(scripting::ast::unary_algebraic_expression)
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} else if(auto [expr, rest] = try_paren_expression(current, errors); expr) {
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HANDLE_EXPRESSION(scripting::ast::paren_expression)
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} else if(auto [expr, rest] = try_variable_expression(current, errors); expr) {
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HANDLE_EXPRESSION(scripting::ast::variable_expression)
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} else {
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return {std::nullopt, code};
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}
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#undef HANDLE_EXPRESSION
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return {.result = std::move(node), .rest = current};
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}
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parse_result<scripting::ast::conditional> try_conditional(const std::span<token> code, std::vector<scripting::script_error>& errors, const std::string_view initiator) {
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#ifdef FAILURE
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static_assert(false, "Found a macro name FAILURE, halting");
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#endif
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#define FAILURE {.result = std::nullopt, .rest = code}
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scripting::ast::conditional result{};
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if(code.empty()) return FAILURE;
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auto current = code;
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result.location = current.front().location;
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const auto endif_found = [&]() -> bool {
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if (current.empty()) return false;
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if (not holds_alternative<scripting::ast::identifier>(current.front().value)) return false;
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if (get<scripting::ast::identifier>(current.front().value).value != "endif") return false;
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return true;
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};
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// chomps a new line if available, returns true if it failed
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const auto MISSING_NEW_LINE = [&]() -> bool {
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if (current.empty()) {
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errors.push_back(
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scripting::script_error{.location = code.front().location, .message = "Interrupted conditional"});
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return true;
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}
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auto new_line = current.front();
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if (not holds_alternative<symbol_t>(current.front().value)) {
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errors.push_back(
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scripting::script_error{.location = current.front().location, .message = "Expected new line"});
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return true;
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}
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if (get<symbol_t>(current.front().value) != symbol_t::new_line) {
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errors.push_back(
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scripting::script_error{.location = current.front().location, .message = "Expected new line"});
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return true;
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}
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current = current.subspan(1);
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return false;
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};
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if (current.empty()) return FAILURE;
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if (not holds_alternative<scripting::ast::identifier>(current.front().value)) return FAILURE;
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if (get<scripting::ast::identifier>(current.front().value).value != initiator) return FAILURE;
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current = current.subspan(1);
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// Read the condition
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auto conditional_node = try_expression(current, errors);
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if (not conditional_node.result) {
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errors.push_back(
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scripting::script_error{.location = code.front().location, .message = "Expected expression in conditional"});
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return FAILURE;
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}
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result.condition = std::make_unique<scripting::ast::expression>(std::move(conditional_node.result.value()));
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current = conditional_node.rest;
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if(MISSING_NEW_LINE()) return FAILURE;
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if (current.empty()) {
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errors.push_back(
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scripting::script_error{.location = code.front().location, .message = "Interrupted conditional"});
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return FAILURE;
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}
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result.on_condition = std::make_unique<scripting::ast::block>();
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result.on_condition->location = current.front().location;
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bool else_mode = false;
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while (not endif_found()) {
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const auto error_count = errors.size();
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// Handles elseif sequences as nested ifs in the else block
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auto nester = try_conditional(current, errors, "elseif");
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if(nester.result) {
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result.otherwise = std::make_unique<scripting::ast::block>();
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result.otherwise->location = current.front().location;
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result.otherwise->contents.push_back(scripting::ast::statement{
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.location = current.front().location,
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.contents = std::make_unique<scripting::ast::conditional>(std::move(nester.result.value())),
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});
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current = nester.rest;
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return {.result = std::move(result), .rest = current};
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} else if(error_count != errors.size()) {
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return FAILURE;
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}
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// Handles code
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if(auto block_contents = try_statement(current, errors); block_contents.result) {
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if(not else_mode) {
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result.on_condition->contents.push_back(std::move(block_contents.result.value()));
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} else {
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result.otherwise->contents.push_back(std::move(block_contents.result.value()));
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}
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current = block_contents.rest;
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} else {
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if(current.empty()) {
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errors.push_back(
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scripting::script_error{.location = code.front().location, .message = "Interrupted conditional"});
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return FAILURE;
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}
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// Handles switching to else mode
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if(
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holds_alternative<scripting::ast::identifier>(current.front().value)
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&& get<scripting::ast::identifier>(current.front().value).value == "else"
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) {
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auto loc = current.front().location;
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current = current.subspan(1);
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if(MISSING_NEW_LINE()) return FAILURE;
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if(else_mode) {
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errors.push_back(
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scripting::script_error{.location = current.front().location, .message = "Repeated else in conditional"});
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} else {
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else_mode = true;
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result.otherwise = std::make_unique<scripting::ast::block>();
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result.otherwise->location = std::move(loc);
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}
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}else {
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errors.push_back(
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scripting::script_error{.location = current.front().location, .message = "Unexpected expression content"});
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return FAILURE;
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}
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}
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}
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// checks for endif
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if(endif_found()) {
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current = current.subspan(1);
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if(not current.empty() && MISSING_NEW_LINE()) return FAILURE;
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}
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return {.result = std::move(result), .rest = current};
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#undef FAILURE
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}
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parse_result<scripting::ast::while_loop> try_while_loop(const std::span<token> code, std::vector<scripting::script_error>& errors) {
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#ifdef FAILURE
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static_assert(false, "Found a macro name FAILURE, halting");
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#endif
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#define FAILURE {.result = std::nullopt, .rest = code}
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scripting::ast::while_loop result{};
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if(code.empty()) return FAILURE;
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auto current = code;
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result.location = current.front().location;
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const auto endwhile_found = [&]() -> bool {
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if (current.empty()) return false;
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if (not holds_alternative<scripting::ast::identifier>(current.front().value)) return false;
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if (get<scripting::ast::identifier>(current.front().value).value != "endwhile") return false;
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return true;
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};
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// chomps a new line if available, returns true if it failed
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const auto MISSING_NEW_LINE = [&]() -> bool {
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if (current.empty()) {
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errors.push_back(
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scripting::script_error{.location = code.front().location, .message = "Interrupted while loop"});
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return true;
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}
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auto new_line = current.front();
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if (not holds_alternative<symbol_t>(current.front().value)) {
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errors.push_back(
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scripting::script_error{.location = current.front().location, .message = "Expected new line"});
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return true;
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}
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if (get<symbol_t>(current.front().value) != symbol_t::new_line) {
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errors.push_back(
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scripting::script_error{.location = current.front().location, .message = "Expected new line"});
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return true;
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}
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current = current.subspan(1);
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return false;
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};
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if (current.empty()) return FAILURE;
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if (not holds_alternative<scripting::ast::identifier>(current.front().value)) return FAILURE;
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if (get<scripting::ast::identifier>(current.front().value).value != "while") return FAILURE;
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current = current.subspan(1);
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// Read the condition
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auto conditional_node = try_expression(current, errors);
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if (not conditional_node.result) {
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errors.push_back(
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scripting::script_error{.location = code.front().location, .message = "Expected expression in while loop"});
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return FAILURE;
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}
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result.condition = std::make_unique<scripting::ast::expression>(std::move(conditional_node.result.value()));
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current = conditional_node.rest;
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if(MISSING_NEW_LINE()) return FAILURE;
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if (current.empty()) {
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errors.push_back(
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scripting::script_error{.location = code.front().location, .message = "Interrupted while loop"});
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return FAILURE;
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}
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result.on_condition = std::make_unique<scripting::ast::block>();
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result.on_condition->location = current.front().location;
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while (not endwhile_found()) {
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const auto error_count = errors.size();
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if(error_count != errors.size()) {
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return FAILURE;
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}
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// Handles code
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if(auto block_contents = try_statement(current, errors); block_contents.result) {
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result.on_condition->contents.push_back(std::move(block_contents.result.value()));
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current = block_contents.rest;
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} else {
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if(current.empty()) {
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errors.push_back(
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scripting::script_error{.location = code.front().location, .message = "Interrupted while loop"});
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return FAILURE;
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} else {
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errors.push_back(
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scripting::script_error{.location = current.front().location, .message = "Unexpected statement in block"});
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return FAILURE;
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}
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}
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}
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// checks for endif
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if(endwhile_found()) {
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current = current.subspan(1);
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if(not current.empty() && MISSING_NEW_LINE()) return FAILURE;
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}
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return {.result = std::move(result), .rest = current};
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#undef FAILURE
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}
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parse_result<scripting::ast::paren_expression> try_paren_expression(std::span<token> code, std::vector<scripting::script_error>& errors) {
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scripting::ast::paren_expression paren;
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auto current = code;
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if(current.empty()) return {std::nullopt, code};
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if(not holds_alternative<symbol_t>(current.front().value)) return {std::nullopt, code};
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if(get<symbol_t>(current.front().value) != symbol_t::l_paren) return {std::nullopt, code};
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paren.location = current.front().location;
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current = current.subspan(1);
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if(auto [cmd, cmd_rest] = try_command_expr(current, errors); cmd) {
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paren.content = std::make_unique<scripting::ast::command_expression>(std::move(cmd.value()));
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current = cmd_rest;
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} else if(auto [expr, expr_rest] = try_expression(current, errors); expr) {
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paren.content = std::make_unique<scripting::ast::expression>(std::move(expr.value()));
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current = expr_rest;
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} else {
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errors.push_back(
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scripting::script_error{.location = (current.empty() ? paren.location : current.front().location), .message = "Expected either a command or some type of expression"});
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return {std::nullopt, code};
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}
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if(current.empty()) {
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errors.push_back(
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scripting::script_error{.location = paren.location, .message = "No matching parenthesis"});
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return {std::nullopt, code};
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}
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if(not holds_alternative<symbol_t>(current.front().value) or get<symbol_t>(current.front().value) != symbol_t::r_paren) {
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errors.push_back(
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scripting::script_error{.location = current.front().location, .message = "No matching parenthesis, expected a closing parenthesis"});
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return {std::nullopt, code};
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}
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current = current.subspan(1);
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return {.result = std::move(paren), .rest = current};
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}
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parse_result<scripting::ast::statement> try_statement(std::span<token> code, std::vector<scripting::script_error>& errors) {
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scripting::ast::statement node;
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auto current = code;
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current = trim_newline(current);
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if(auto [expr, rest] = try_conditional(current, errors); expr) {
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node.contents = std::make_unique<scripting::ast::conditional>(std::move(expr.value()));
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node.location = current.front().location;
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current = rest;
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} else if(auto [expr, rest] = try_command_expr(current, errors); expr) {
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node.contents = std::make_unique<scripting::ast::command_expression>(std::move(expr.value()));
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node.location = current.front().location;
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current = rest;
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} else if(auto [expr, rest] = try_while_loop(current, errors); expr) {
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node.contents = std::make_unique<scripting::ast::while_loop>(std::move(expr.value()));
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node.location = current.front().location;
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current = rest;
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} else return {std::nullopt, code};
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current = trim_newline(current);
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return {.result = std::move(node), .rest = current};
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}
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parse_result<scripting::ast::unary_algebraic_expression> try_unary_algebraic_expression(std::span<token> code, std::vector<scripting::script_error>& errors) {
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constexpr std::array lexer_operators = {symbol_t::binary_not, symbol_t::logical_not};
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constexpr std::array ast_operators = {scripting::ast::operator_t::binary_not, scripting::ast::operator_t::logical_not};
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static_assert(lexer_operators.size() == ast_operators.size());
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scripting::ast::unary_algebraic_expression node;
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auto current = code;
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if(current.empty()) return {std::nullopt, code};
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if(not holds_alternative<symbol_t>(current.front().value)) return {std::nullopt, code};
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auto res = std::ranges::find(lexer_operators, get<symbol_t>(current.front().value));
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if(res == lexer_operators.end()) return {std::nullopt, code};
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node.location = current.front().location;
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node.op = *(ast_operators.begin() + (res - lexer_operators.begin()));
|
|
current = current.subspan(1);
|
|
|
|
|
|
/// TODO: Gives the lowest priority to unaries (aka, they are applied last)
|
|
auto operand = try_expression(current, errors);
|
|
if (not operand.result) {
|
|
errors.push_back(
|
|
scripting::script_error{.location = code.front().location, .message = "Expected expression after unary operator"});
|
|
return {std::nullopt, code};
|
|
}
|
|
node.content = std::make_unique<scripting::ast::expression>(std::move(operand.result.value()));
|
|
current = operand.rest;
|
|
|
|
return {.result = std::move(node), .rest = current};
|
|
}
|
|
|
|
parse_result<scripting::ast::binary_algebraic_expression> try_binary_algebraic_expression(std::span<token> code, std::vector<scripting::script_error>& errors) {
|
|
// The two following arrays are the operator mappings
|
|
|
|
constexpr std::array lexer_operators = {
|
|
symbol_t::divide,
|
|
symbol_t::modulo,
|
|
symbol_t::multiply,
|
|
symbol_t::subtract,
|
|
symbol_t::add,
|
|
symbol_t::bitshift_left,
|
|
symbol_t::bitshift_right,
|
|
symbol_t::rotate_left,
|
|
symbol_t::rotate_right,
|
|
symbol_t::less_than,
|
|
symbol_t::greater_than,
|
|
symbol_t::less_or_equal_than,
|
|
symbol_t::greater_or_equal_than,
|
|
symbol_t::equals,
|
|
symbol_t::different,
|
|
symbol_t::binary_and,
|
|
symbol_t::binary_or,
|
|
symbol_t::binary_xor,
|
|
symbol_t::logical_and,
|
|
symbol_t::logical_or,
|
|
};
|
|
constexpr std::array ast_operators = {
|
|
scripting::ast::operator_t::divide,
|
|
scripting::ast::operator_t::modulo,
|
|
scripting::ast::operator_t::multiply,
|
|
scripting::ast::operator_t::subtract,
|
|
scripting::ast::operator_t::add,
|
|
scripting::ast::operator_t::bitshift_left,
|
|
scripting::ast::operator_t::bitshift_right,
|
|
scripting::ast::operator_t::rotate_left,
|
|
scripting::ast::operator_t::rotate_right,
|
|
scripting::ast::operator_t::less_than,
|
|
scripting::ast::operator_t::greater_than,
|
|
scripting::ast::operator_t::less_or_equal_than,
|
|
scripting::ast::operator_t::greater_or_equal_than,
|
|
scripting::ast::operator_t::equals,
|
|
scripting::ast::operator_t::different,
|
|
scripting::ast::operator_t::binary_and,
|
|
scripting::ast::operator_t::binary_or,
|
|
scripting::ast::operator_t::binary_xor,
|
|
scripting::ast::operator_t::logical_and,
|
|
scripting::ast::operator_t::logical_or,
|
|
};
|
|
constexpr std::array ast_precedences = {
|
|
1,
|
|
1,
|
|
1,
|
|
2,
|
|
2,
|
|
3,
|
|
3,
|
|
3,
|
|
3,
|
|
4,
|
|
4,
|
|
4,
|
|
4,
|
|
4,
|
|
4,
|
|
5,
|
|
5,
|
|
5,
|
|
6,
|
|
7,
|
|
};
|
|
static_assert(lexer_operators.size() == ast_operators.size());
|
|
static_assert(ast_precedences.size() == ast_operators.size());
|
|
|
|
scripting::ast::binary_algebraic_expression node;
|
|
auto current = code;
|
|
|
|
#ifdef HANDLE_EXPRESSION
|
|
static_assert(false, "Found a macro name HANDLE_EXPRESSION, halting");
|
|
#endif
|
|
#define HANDLE_EXPRESSION(type) \
|
|
node.lhs = std::make_unique<scripting::ast::expression>(scripting::ast::expression{ \
|
|
.location = current.front().location, \
|
|
.contents = std::make_unique<type>(std::move(expr.value())) \
|
|
}); \
|
|
current = rest;
|
|
|
|
if(auto [expr, rest] = try_literal_string_expression(current, errors); expr) {
|
|
HANDLE_EXPRESSION(scripting::ast::literal_string_expression)
|
|
} else if(auto [expr, rest] = try_literal_int_expression(current, errors); expr) {
|
|
HANDLE_EXPRESSION(scripting::ast::literal_int_expression)
|
|
} else if(auto [expr, rest] = try_unary_algebraic_expression(current, errors); expr) {
|
|
HANDLE_EXPRESSION(scripting::ast::unary_algebraic_expression)
|
|
} else if(auto [expr, rest] = try_paren_expression(current, errors); expr) {
|
|
HANDLE_EXPRESSION(scripting::ast::paren_expression)
|
|
} else if(auto [expr, rest] = try_variable_expression(current, errors); expr) {
|
|
HANDLE_EXPRESSION(scripting::ast::variable_expression)
|
|
} else {
|
|
return {std::nullopt, code};
|
|
}
|
|
#undef HANDLE_EXPRESSION
|
|
|
|
if(current.empty()) {
|
|
return {std::nullopt, code};
|
|
}
|
|
if(not holds_alternative<symbol_t>(current.front().value)) {
|
|
return {std::nullopt, code};
|
|
}
|
|
auto res = std::ranges::find(lexer_operators, get<symbol_t>(current.front().value));
|
|
if(res == lexer_operators.end()) {
|
|
return {std::nullopt, code};
|
|
}
|
|
auto rhs_idx = (res - lexer_operators.begin());
|
|
node.op = *(ast_operators.begin() + rhs_idx);
|
|
node.location = current.front().location;
|
|
current = current.subspan(1);
|
|
|
|
auto operand = try_expression(current, errors);
|
|
if (not operand.result) {
|
|
errors.push_back(
|
|
scripting::script_error{.location = node.location, .message = "Expected expression after binary operator"});
|
|
return {std::nullopt, code};
|
|
}
|
|
/// Check if our "large (rhs) bite" has an operation precedence that is bigger and in that case, swap the operations around
|
|
//... We may need to do that iteratively until we risk a priority reversal. This is basically shifting the ast to the left until
|
|
//... the precedence are "heapified" and left associative
|
|
if(std::holds_alternative<std::unique_ptr<scripting::ast::binary_algebraic_expression>>(operand.result.value().contents)) {
|
|
// Must check for precedence reordering
|
|
auto& lhs = std::get<std::unique_ptr<scripting::ast::binary_algebraic_expression>>(operand.result.value().contents);
|
|
auto lhs_it = std::ranges::find(ast_operators, lhs->op);
|
|
auto lhs_idx = lhs_it - ast_operators.begin();
|
|
// >= ensures left associativity
|
|
if(ast_precedences[rhs_idx] <= ast_precedences[lhs_idx]) {
|
|
// Precedence reordering required
|
|
// https://link.excalidraw.com/l/hxPegpAmTX/6d1BYX0rfKU
|
|
node.rhs = std::move(lhs->lhs);
|
|
scripting::ast::binary_algebraic_expression reordered{
|
|
.location = operand.result.value().location,
|
|
.lhs = std::make_unique<scripting::ast::expression>(scripting::ast::expression{
|
|
.location = node.location,
|
|
.contents = std::make_unique<scripting::ast::binary_algebraic_expression>(std::move(node))
|
|
}),
|
|
.op = lhs->op,
|
|
.rhs = std::move(lhs->rhs),
|
|
};
|
|
current = operand.rest;
|
|
return {.result = std::move(reordered), .rest = current};
|
|
}
|
|
}
|
|
// No reordering required
|
|
node.rhs = std::make_unique<scripting::ast::expression>(std::move(operand.result.value()));
|
|
current = operand.rest;
|
|
|
|
return {.result = std::move(node), .rest = current};
|
|
}
|
|
|
|
parse_result<scripting::ast::variable_expression> try_variable_expression(std::span<token> code, std::vector<scripting::script_error>& errors) {
|
|
scripting::ast::variable_expression node;
|
|
auto current = code;
|
|
|
|
if(current.empty()) return {std::nullopt, code};
|
|
if(not holds_alternative<scripting::ast::identifier>(current.front().value)) return {std::nullopt, code};
|
|
node.location = current.front().location;
|
|
node.name = get<scripting::ast::identifier>(current.front().value);
|
|
current = current.subspan(1);
|
|
|
|
return {.result = std::move(node), .rest = current};
|
|
}
|
|
|
|
parse_result<scripting::ast::literal_string_expression> try_literal_string_expression(std::span<token> code, std::vector<scripting::script_error>& errors) {
|
|
scripting::ast::literal_string_expression node;
|
|
auto current = code;
|
|
|
|
if(current.empty()) return {std::nullopt, code};
|
|
if(not holds_alternative<std::string>(current.front().value)) return {std::nullopt, code};
|
|
node.location = current.front().location;
|
|
node.value = get<std::string>(current.front().value);
|
|
current = current.subspan(1);
|
|
|
|
return {.result = std::move(node), .rest = current};
|
|
}
|
|
|
|
parse_result<scripting::ast::literal_int_expression> try_literal_int_expression(std::span<token> code, std::vector<scripting::script_error>& errors) {
|
|
scripting::ast::literal_int_expression node;
|
|
auto current = code;
|
|
|
|
if(current.empty()) return {std::nullopt, code};
|
|
if(not holds_alternative<int32_t>(current.front().value)) return {std::nullopt, code};
|
|
node.location = current.front().location;
|
|
node.value = get<int32_t>(current.front().value);
|
|
current = current.subspan(1);
|
|
|
|
return {.result = std::move(node), .rest = current};
|
|
}
|
|
|
|
scripting::ast::block scripting::ast::parse(std::span<token> code, std::vector<scripting::script_error>& errors) {
|
|
scripting::ast::block node;
|
|
auto current = trim_newline(code);
|
|
|
|
while(not current.empty()) {
|
|
auto pre_size = current.size();
|
|
auto [expr, rest] = try_statement(current, errors);
|
|
if(expr) {
|
|
node.contents.push_back(std::move(expr.value()));
|
|
current = rest;
|
|
} else {
|
|
bool progress = false;
|
|
while(not (next_is_newline(current) or current.empty())) {
|
|
current = current.subspan(1);
|
|
progress = true;
|
|
}
|
|
if(not progress && not errors.empty()) {
|
|
return scripting::ast::block{};
|
|
}
|
|
if(not current.empty() && current.size() == pre_size) {
|
|
errors.push_back(script_error{
|
|
.location = current.front().location,
|
|
.message = "Parsing stuck in infinite loop with no progress"
|
|
});
|
|
}
|
|
}
|
|
current = trim_newline(current);
|
|
}
|
|
if(not errors.empty()) {
|
|
return scripting::ast::block{};
|
|
}
|
|
|
|
return std::move(node);
|
|
}
|