blaze lisp
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/*
* Copyright (C) 2023 Riyyi
*
* SPDX-License-Identifier: MIT
*/
#include <iterator> // sd::advance, std::next
#include <list>
#include <memory> // std::static_pointer_cast
#include <span> // std::span
#include <string>
#include "ast.h"
#include "environment.h"
#include "error.h"
#include "eval.h"
#include "ruc/meta/assert.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<List>(ast.get())) {
return evalAst(ast, env);
}
auto list = std::static_pointer_cast<List>(ast);
if (list->empty()) {
return ast;
}
// Environment
auto nodes = list->nodes();
if (is<Symbol>(nodes.front().get())) {
auto symbol = std::static_pointer_cast<Symbol>(nodes.front())->symbol();
nodes.pop_front();
if (symbol == "def!") {
return evalDef(nodes, env);
}
if (symbol == "let*") {
return evalLet(nodes, env);
}
}
// Function call
return apply(std::static_pointer_cast<List>(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<Symbol>(ast_raw_ptr)) {
auto result = env->get(std::static_pointer_cast<Symbol>(ast)->symbol());
if (!result) {
Error::the().addError(format("'{}' not found", ast));
return nullptr;
}
return result;
}
else if (is<List>(ast_raw_ptr)) {
auto result = makePtr<List>();
auto nodes = std::static_pointer_cast<List>(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<Vector>(ast_raw_ptr)) {
auto result = makePtr<Vector>();
auto nodes = std::static_pointer_cast<Vector>(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<HashMap>(ast_raw_ptr)) {
auto result = makePtr<HashMap>();
auto elements = std::static_pointer_cast<HashMap>(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<ASTNodePtr>& 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<Symbol>(first_argument.get())) {
Error::the().addError(format("wrong type argument: symbol, {}", first_argument));
return nullptr;
}
std::string symbol = std::static_pointer_cast<Symbol>(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<ASTNodePtr>& 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<List>(first_argument.get()) && !is<Vector>(first_argument.get())) {
Error::the().addError(format("wrong argument type: list, '{}'", first_argument));
return nullptr;
}
// Get the nodes out of the List or Vector
std::list<ASTNodePtr> binding_nodes;
if (is<List>(first_argument.get())) {
auto bindings = std::static_pointer_cast<List>(first_argument);
binding_nodes = bindings->nodes();
}
else {
auto bindings = std::static_pointer_cast<Vector>(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 = makePtr<Environment>(env);
for (auto it = binding_nodes.begin(); it != binding_nodes.end(); std::advance(it, 2)) {
// First element needs to be a Symbol
if (!is<Symbol>(*it->get())) {
Error::the().addError(format("wrong argument type: symbol, '{}'", *it));
return nullptr;
}
std::string key = std::static_pointer_cast<Symbol>(*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::apply(std::shared_ptr<List> evaluated_list)
{
if (evaluated_list == nullptr) {
return nullptr;
}
auto nodes = evaluated_list->nodes();
if (!is<Function>(nodes.front().get())) {
Error::the().addError(format("invalid function: {}", nodes.front()));
return nullptr;
}
// car
auto lambda = std::static_pointer_cast<Function>(nodes.front())->lambda();
// cdr
nodes.pop_front();
return lambda(nodes);
}
} // namespace blaze