bloglang/11/definition.cpp

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#include "definition.hpp"
#include "error.hpp"
#include "ast.hpp"
#include "instruction.hpp"
#include "llvm_context.hpp"
#include "type.hpp"
#include "type_env.hpp"
#include <llvm/IR/DerivedTypes.h>
#include <llvm/IR/Function.h>
#include <llvm/IR/Type.h>
void definition_defn::find_free(type_mgr& mgr, type_env_ptr& env) {
this->env = env;
var_env = type_scope(env);
return_type = mgr.new_type();
full_type = return_type;
for(auto it = params.rbegin(); it != params.rend(); it++) {
type_ptr param_type = mgr.new_type();
full_type = type_ptr(new type_arr(param_type, full_type));
var_env->bind(*it, param_type);
}
body->find_free(mgr, var_env, free_variables);
}
void definition_defn::insert_types(type_mgr& mgr) {
env->bind(name, full_type);
}
void definition_defn::typecheck(type_mgr& mgr) {
type_ptr body_type = body->typecheck(mgr);
mgr.unify(return_type, body_type);
}
void definition_defn::compile() {
env_ptr new_env = env_ptr(new env_offset(0, nullptr));
for(auto it = params.rbegin(); it != params.rend(); it++) {
new_env = env_ptr(new env_var(*it, new_env));
}
body->compile(new_env, instructions);
instructions.push_back(instruction_ptr(new instruction_update(params.size())));
instructions.push_back(instruction_ptr(new instruction_pop(params.size())));
}
void definition_defn::declare_llvm(llvm_context& ctx) {
generated_function = ctx.create_custom_function(name, params.size());
}
void definition_defn::generate_llvm(llvm_context& ctx) {
ctx.builder.SetInsertPoint(&generated_function->getEntryBlock());
for(auto& instruction : instructions) {
instruction->gen_llvm(ctx, generated_function);
}
ctx.builder.CreateRetVoid();
}
void definition_data::insert_types(type_env_ptr& env) {
this->env = env;
env->bind_type(name, type_ptr(new type_data(name, vars.size())));
}
void definition_data::insert_constructors() const {
type_ptr this_type_ptr = env->lookup_type(name);
type_data* this_type = static_cast<type_data*>(this_type_ptr.get());
int next_tag = 0;
std::set<std::string> var_set;
type_app* return_app = new type_app(std::move(this_type_ptr));
type_ptr return_type(return_app);
for(auto& var : vars) {
if(var_set.find(var) != var_set.end()) throw 0;
var_set.insert(var);
return_app->arguments.push_back(type_ptr(new type_var(var)));
}
for(auto& constructor : constructors) {
constructor->tag = next_tag;
this_type->constructors[constructor->name] = { next_tag++ };
type_ptr full_type = return_type;
for(auto it = constructor->types.rbegin(); it != constructor->types.rend(); it++) {
type_ptr type = (*it)->to_type(var_set, env);
full_type = type_ptr(new type_arr(type, full_type));
}
type_scheme_ptr full_scheme(new type_scheme(std::move(full_type)));
full_scheme->forall.insert(full_scheme->forall.begin(), vars.begin(), vars.end());
env->bind(constructor->name, full_scheme);
}
}
void definition_data::generate_llvm(llvm_context& ctx) {
for(auto& constructor : constructors) {
auto new_function =
ctx.create_custom_function(constructor->name, constructor->types.size());
std::vector<instruction_ptr> instructions;
instructions.push_back(instruction_ptr(
new instruction_pack(constructor->tag, constructor->types.size())
));
instructions.push_back(instruction_ptr(new instruction_update(0)));
ctx.builder.SetInsertPoint(&new_function->getEntryBlock());
for (auto& instruction : instructions) {
instruction->gen_llvm(ctx, new_function);
}
ctx.builder.CreateRetVoid();
}
}