/* * Copyright (C) 2023 Riyyi * * SPDX-License-Identifier: MIT */ #include // sd::advance, std::next, std::prev #include #include // std::static_pointer_cast #include // std::span #include #include "ast.h" #include "environment.h" #include "error.h" #include "eval.h" #include "forward.h" #include "types.h" namespace blaze { Eval::Eval(ASTNodePtr ast, EnvironmentPtr env) : m_ast(ast) , m_env(env) { } void Eval::eval() { m_ast = evalImpl(m_ast, m_env); } ASTNodePtr Eval::evalImpl(ASTNodePtr ast, EnvironmentPtr env) { if (ast == nullptr || env == nullptr) { return nullptr; } if (!is(ast.get())) { return evalAst(ast, env); } auto list = std::static_pointer_cast(ast); if (list->empty()) { return ast; } // Environment auto nodes = list->nodes(); if (is(nodes.front().get())) { auto symbol = std::static_pointer_cast(nodes.front())->symbol(); nodes.pop_front(); if (symbol == "def!") { return evalDef(nodes, env); } if (symbol == "let*") { return evalLet(nodes, env); } if (symbol == "do") { return evalDo(nodes, env); } if (symbol == "if") { return evalIf(nodes, env); } if (symbol == "fn*") { return evalFn(nodes, env); } } // Function call return apply(std::static_pointer_cast(evalAst(ast, env))); } ASTNodePtr Eval::evalAst(ASTNodePtr ast, EnvironmentPtr env) { if (ast == nullptr || env == nullptr) { return nullptr; } ASTNode* ast_raw_ptr = ast.get(); if (is(ast_raw_ptr)) { auto result = env->get(std::static_pointer_cast(ast)->symbol()); if (!result) { Error::the().addError(format("'{}' not found", ast)); return nullptr; } return result; } else if (is(ast_raw_ptr)) { auto result = makePtr(); auto nodes = std::static_pointer_cast(ast)->nodes(); for (auto node : nodes) { ASTNodePtr eval_node = evalImpl(node, env); if (eval_node == nullptr) { return nullptr; } result->addNode(eval_node); } return result; } else if (is(ast_raw_ptr)) { auto result = makePtr(); auto nodes = std::static_pointer_cast(ast)->nodes(); for (auto node : nodes) { ASTNodePtr eval_node = evalImpl(node, env); if (eval_node == nullptr) { return nullptr; } result->addNode(eval_node); } return result; } else if (is(ast_raw_ptr)) { auto result = makePtr(); auto elements = std::static_pointer_cast(ast)->elements(); for (auto& element : elements) { ASTNodePtr element_node = evalImpl(element.second, env); if (element_node == nullptr) { return nullptr; } result->addElement(element.first, element_node); } return result; } return ast; } ASTNodePtr Eval::evalDef(const std::list& nodes, EnvironmentPtr env) { if (nodes.size() != 2) { Error::the().addError(format("wrong number of arguments: def!, {}", nodes.size())); return nullptr; } auto first_argument = *nodes.begin(); auto second_argument = *std::next(nodes.begin()); // First element needs to be a Symbol if (!is(first_argument.get())) { Error::the().addError(format("wrong argument type: symbol, {}", first_argument)); return nullptr; } std::string symbol = std::static_pointer_cast(first_argument)->symbol(); ASTNodePtr value = evalImpl(second_argument, env); // Dont overwrite symbols after an error if (Error::the().hasAnyError()) { return nullptr; } // Modify existing environment return env->set(symbol, value); } ASTNodePtr Eval::evalLet(const std::list& nodes, EnvironmentPtr env) { if (nodes.size() != 2) { Error::the().addError(format("wrong number of arguments: let*, {}", nodes.size())); return nullptr; } auto first_argument = *nodes.begin(); auto second_argument = *std::next(nodes.begin()); // First argument needs to be a List or Vector if (!is(first_argument.get())) { Error::the().addError(format("wrong argument type: collection, '{}'", first_argument)); return nullptr; } // Get the nodes out of the List or Vector std::list binding_nodes; auto bindings = std::static_pointer_cast(first_argument); binding_nodes = bindings->nodes(); // List or Vector needs to have an even number of elements size_t count = binding_nodes.size(); if (count % 2 != 0) { Error::the().addError(format("wrong number of arguments: {}, {}", "let* bindings", count)); return nullptr; } // Create new environment auto let_env = Environment::create(env); for (auto it = binding_nodes.begin(); it != binding_nodes.end(); std::advance(it, 2)) { // First element needs to be a Symbol if (!is(*it->get())) { Error::the().addError(format("wrong argument type: symbol, '{}'", *it)); return nullptr; } std::string key = std::static_pointer_cast(*it)->symbol(); ASTNodePtr value = evalImpl(*std::next(it), let_env); let_env->set(key, value); } // TODO: Remove limitation of 3 arguments // Eval all values in this new env, return last sexp of the result return evalImpl(second_argument, let_env); } ASTNodePtr Eval::evalDo(const std::list& nodes, EnvironmentPtr env) { if (nodes.size() == 0) { Error::the().addError(format("wrong number of arguments: do, {}", nodes.size())); return nullptr; } // Evaluate all nodes except the last for (auto it = nodes.begin(); it != std::prev(nodes.end(), 1); ++it) { evalImpl(*it, env); } // Eval and return last node return evalImpl(nodes.back(), env); } ASTNodePtr Eval::evalIf(const std::list& nodes, EnvironmentPtr env) { if (nodes.size() != 2 && nodes.size() != 3) { Error::the().addError(format("wrong number of arguments: if, {}", nodes.size())); return nullptr; } auto first_argument = *nodes.begin(); auto second_argument = *std::next(nodes.begin()); auto third_argument = (nodes.size() == 3) ? *std::next(std::next(nodes.begin())) : makePtr(Value::Nil); auto first_evaluated = evalImpl(first_argument, env); if (!is(first_evaluated.get()) || std::static_pointer_cast(first_evaluated)->state() == Value::True) { return evalImpl(second_argument, env); } else { return evalImpl(third_argument, env); } } #define ARG_COUNT_CHECK(name, size, comparison) \ if (size comparison) { \ Error::the().addError(format("wrong number of arguments: {}, {}", name, size)); \ return nullptr; \ } #define AST_CHECK(type, value) \ if (!is(value.get())) { \ Error::the().addError(format("wrong argument type: {}, {}", #type, value)); \ return nullptr; \ } #define AST_CAST(type, value, variable) \ AST_CHECK(type, value) \ auto variable = std::static_pointer_cast(value); ASTNodePtr Eval::evalFn(const std::list& nodes, EnvironmentPtr env) { ARG_COUNT_CHECK("fn*", nodes.size(), != 2); auto first_argument = *nodes.begin(); auto second_argument = *std::next(nodes.begin()); // First element needs to be a List or Vector AST_CAST(Collection, first_argument, collection); std::vector bindings; for (auto node : collection->nodes()) { // All nodes need to be a Symbol AST_CAST(Symbol, node, symbol); bindings.push_back(symbol->symbol()); } return makePtr(bindings, second_argument, env); } ASTNodePtr Eval::apply(std::shared_ptr evaluated_list) { if (evaluated_list == nullptr) { return nullptr; } auto nodes = evaluated_list->nodes(); if (!is(nodes.front().get()) && !is(nodes.front().get())) { Error::the().addError(format("invalid function: {}", nodes.front())); return nullptr; } // Function if (is(nodes.front().get())) { // car auto function = std::static_pointer_cast(nodes.front())->function(); // cdr nodes.pop_front(); return function(nodes); } // Lambda // car auto lambda = std::static_pointer_cast(nodes.front()); // cdr nodes.pop_front(); auto lambda_env = Environment::create(lambda->env(), lambda->bindings(), nodes); return evalImpl(lambda->body(), lambda_env); } } // namespace blaze