/* SPDX-License-Identifier: copyleft-next-0.3.1 */
/* Copyright 2024 Kim Kuparinen < kimi.h.kuparinen@gmail.com > */
#include <fwd/analyze.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
struct state {
};
static int analyze(struct state *state, struct scope *scope, struct ast *node);
static int analyze_list(struct state *state, struct scope *scope,
struct ast *nodes);
static int analyze_type(struct state *state, struct scope *scope,
struct type *type);
static int analyze_type_list(struct state *state, struct scope *scope,
struct type *types);
static int analyze_proc(struct state *state, struct scope *scope,
struct ast *node)
{
(void)state;
(void)scope;
struct scope *proc_scope = create_scope();
if (!proc_scope) {
internal_error("failed allocating proc scope");
return -1;
}
scope_add_scope(scope, proc_scope);
struct state proc_state = {};
if (analyze_list(&proc_state, proc_scope, proc_params(node)))
return -1;
struct type *proc_type = tgen_func_ptr(NULL, node->loc);
if (!proc_type) {
internal_error("failed allocating proc type");
return -1;
}
size_t group = 0;
foreach_node(param, proc_params(node)) {
if (param->ol == NULL && param->or == NULL)
group++; /* no opt group */
if (param->ol == NULL && param->or)
group++; /* start of new group */
/* otherwise same or ending group, don't increment */
param->t->group = group;
type_append(&proc_type->t0, clone_type(param->t));
}
node->t = proc_type;
return analyze(&proc_state, proc_scope, proc_body(node));
}
static int analyze_unop(struct state *state, struct scope *scope,
struct ast *node)
{
/** @todo check expr is some primitive type */
struct ast *expr = unop_expr(node);
if (analyze(state, scope, expr))
return -1;
node->t = expr->t;
return 0;
}
static int analyze_binop(struct state *state, struct scope *scope,
struct ast *node)
{
struct ast *lhs = binop_left(node);
struct ast *rhs = binop_right(node);
if (analyze(state, scope, lhs))
return -1;
if (analyze(state, scope, rhs))
return -1;
if (!types_match(lhs->t, rhs->t)) {
type_mismatch(scope, node, lhs->t, rhs->t);
return -1;
}
/** @todo check type is some primitive */
node->t = lhs->t;
return 0;
}
static int analyze_comparison(struct state *state, struct scope *scope,
struct ast *node)
{
struct ast *lhs = comparison_left(node);
struct ast *rhs = comparison_right(node);
if (analyze(state, scope, lhs))
return -1;
if (analyze(state, scope, rhs))
return -1;
if (!types_match(lhs->t, rhs->t)) {
type_mismatch(scope, node, lhs->t, rhs->t);
return -1;
}
/** @todo check type is some primitive */
char *tf = strdup("bool");
if (!tf) {
internal_error("failed allocating comparison bool str");
return -1;
}
node->t = tgen_id(tf, node->loc);
if (!node->t) {
internal_error("failed allocating comparison bool type");
free(tf);
return -1;
}
return 0;
}
static int analyze_block(struct state *state, struct scope *scope,
struct ast *node)
{
struct scope *block_scope = create_scope();
if (!block_scope) {
internal_error("failed to allocate block scope");
return -1;
}
scope_add_scope(scope, block_scope);
if (analyze_list(state, block_scope, block_body(node)))
return -1;
struct ast *last = ast_last(block_body(node));
if (last)
node->t = last->t;
else
node->t = tgen_void(node->loc);
return 0;
}
static int analyze_var(struct state *state, struct scope *scope,
struct ast *node)
{
if (analyze_type(state, scope, var_type(node)))
return -1;
node->t = var_type(node);
return scope_add_var(scope, node);
}
static int analyze_let(struct state *state, struct scope *scope,
struct ast *node)
{
if (analyze(state, scope, let_var(node)))
return -1;
if (analyze(state, scope, let_expr(node)))
return -1;
struct type *l = (let_var(node))->t;
struct type *r = (let_expr(node))->t;
if (!types_match(l, r)) {
type_mismatch(scope, node, l, r);
return -1;
}
node->t = l;
return 0;
}
static int analyze_init(struct state *state, struct scope *scope,
struct ast *node)
{
if (analyze_type_list(state, scope, init_args(node)))
return -1;
if (analyze(state, scope, init_body(node)))
return -1;
/** @todo check that all parameters match, though that requires that the
* type is defined in fwd and not in C++, so this might have to wait a
* bit */
node->t = tgen_construct(strdup(init_id(node)), init_args(node),
node->loc);
if (!node->t) {
internal_error("failed allocating type for construct");
return -1;
}
return 0;
}
static int analyze_call(struct state *state, struct scope *scope,
struct ast *node)
{
struct ast *expr = call_expr(node);
if (analyze(state, scope, expr))
return -1;
if (!is_callable(expr->t)) {
semantic_error(scope, node, "expected callable expression");
return -1;
}
struct type *types = callable_types(expr->t);
struct ast *args = call_args(node);
if (analyze_list(state, scope, args))
return -1;
size_t expected = type_list_len(types);
size_t got = ast_list_len(args);
if (expected != got) {
semantic_error(scope, node, "expected %d params, got %d",
expected, got);
return -1;
}
struct type *type = types;
foreach_node(arg, args) {
if (!types_match(type, arg->t)) {
type_mismatch(scope, node, type, arg->t);
return -1;
}
/* clone group info */
arg->t->group = type->group;
type = type->n;
}
node->t = tgen_void(node->loc);
if (!node->t) {
internal_error("failed allocating void type for call");
return -1;
}
return 0;
}
static int analyze_ref(struct state *state, struct scope *scope,
struct ast *node)
{
struct ast *expr = ref_base(node);
if (analyze(state, scope, expr))
return -1;
if (!is_lvalue(expr)) {
semantic_error(node->scope, node, "trying to reference rvalue");
return -1;
}
struct type *ref = tgen_ref(expr->t, node->loc);
if (!ref) {
internal_error("failed allocating ref type");
return -1;
}
node->t = ref;
return 0;
}
static int analyze_deref(struct state *state, struct scope *scope,
struct ast *node)
{
struct ast *expr = deref_base(node);
if (analyze(state, scope, expr))
return -1;
if (expr->t->k == TYPE_PTR) {
semantic_error(node->scope, node,
"deref of raw ptr not allowed");
semantic_info(node->scope, node,
"use fwd_null() to convert to ref");
return -1;
}
if (expr->t->k != TYPE_REF) {
semantic_error(node->scope, node,
"deref of something not a reference");
return -1;
}
node->t = tptr_base(expr->t);
return 0;
}
static int analyze_id(struct state *state, struct scope *scope,
struct ast *node)
{
struct ast *found = file_scope_find_symbol(scope, id_str(node));
if (!found) {
semantic_error(scope, node, "no symbol named \"%s\"",
id_str(node));
return -1;
}
/* kind of hacky, functions are given their type before they've been
* analyzed fully, this enables recursion */
if (!found->t && !ast_flags(found, AST_FLAG_ANALYZED)) {
assert(found->k == AST_PROC_DEF);
/* a proc def will use its own state and scope, but pass these
* on in case the analysis wants to print errors or something
*/
if (analyze(state, scope, found))
return -1;
}
node->t = found->t;
return 0;
}
static int analyze_closure(struct state *state, struct scope *scope,
struct ast *node)
{
struct scope *closure_scope = create_scope();
if (!closure_scope) {
internal_error("failed allocating closure scope");
return -1;
}
scope_add_scope(scope, closure_scope);
if (analyze_list(state, closure_scope, closure_bindings(node)))
return -1;
if (analyze(state, closure_scope, closure_body(node)))
return -1;
struct type *callable = NULL;
if (ast_flags(node, AST_FLAG_NOMOVES))
callable = tgen_pure_closure(NULL, node->loc);
else
callable = tgen_closure(NULL, node->loc);
if (!callable) {
internal_error("failed allocating closure type");
return -1;
}
foreach_node(binding, closure_bindings(node)) {
type_append(&callable->t0, clone_type(binding->t));
}
node->t = callable;
return 0;
}
static int analyze_int(struct state *state, struct scope *scope,
struct ast *node)
{
/** @todo do this properly, very hacky, bad bad bad */
char *i = strdup("int");
if (!i) {
internal_error("failed allocating constant int type string");
return -1;
}
node->t = tgen_id(i, node->loc);
if (!node->t) {
internal_error("failed allocating constant int type");
free(i);
return -1;
}
return 0;
}
static int analyze_str(struct state *state, struct scope *scope,
struct ast *node)
{
/** @todo do this properly, very hacky, bad bad bad */
char *i = strdup("char");
if (!i) {
internal_error("failed allocating constant char type string");
return -1;
}
struct type *ch = tgen_id(i, node->loc);
if (!ch) {
internal_error("failed allocating constant char type");
free(i);
return -1;
}
struct type *str = tgen_ptr(ch, node->loc);
if (!str) {
internal_error("failed allocating constant str type");
return -1;
}
node->t = str;
return 0;
}
static int analyze_if(struct state *state, struct scope *scope,
struct ast *node)
{
if (analyze(state, scope, if_cond(node)))
return -1;
if (analyze(state, scope, if_body(node)))
return -1;
if (analyze(state, scope, if_else(node)))
return -1;
node->t = tgen_void(node->loc);
if (!node->t) {
internal_error("failed allocating 'if' void type");
return -1;
}
return 0;
}
static int analyze(struct state *state, struct scope *scope, struct ast *node)
{
if (!node)
return 0;
if (ast_flags(node, AST_FLAG_ANALYZED)) {
assert(node->t);
return 0;
}
if (ast_flags(node, AST_FLAG_PREANALYZIS)) {
semantic_error(scope, node, "semantic loop detected");
return -1;
}
ast_set_flags(node, AST_FLAG_PREANALYZIS);
if (!node->scope)
node->scope = scope;
int ret = 0;
if (is_binop(node)) {
ret = analyze_binop(state, scope, node);
goto out;
}
if (is_comparison(node)) {
ret = analyze_comparison(state, scope, node);
goto out;
}
if (is_unop(node)) {
ret = analyze_unop(state, scope, node);
goto out;
}
switch (node->k) {
case AST_CLOSURE: ret = analyze_closure(state, scope, node); break;
case AST_PROC_DEF: ret = analyze_proc(state, scope, node); break;
case AST_VAR_DEF: ret = analyze_var(state, scope, node); break;
case AST_BLOCK: ret = analyze_block(state, scope, node); break;
case AST_DEREF: ret = analyze_deref(state, scope, node); break;
case AST_INIT: ret = analyze_init(state, scope, node); break;
case AST_CALL: ret = analyze_call(state, scope, node); break;
case AST_REF: ret = analyze_ref(state, scope, node); break;
case AST_LET: ret = analyze_let(state, scope, node); break;
case AST_ID: ret = analyze_id(state, scope, node); break;
case AST_IF: ret = analyze_if(state, scope, node); break;
case AST_CONST_INT: ret = analyze_int(state, scope, node); break;
case AST_CONST_STR: ret = analyze_str(state, scope, node); break;
case AST_EMPTY:
node->t = tgen_void(node->loc);
ret = 0;
break;
default:
internal_error("missing ast analysis for %s", ast_str(node->k));
return -1;
}
out:
if (ret)
return ret;
assert(node->t);
assert(node->scope);
ast_set_flags(node, AST_FLAG_ANALYZED);
return 0;
}
static int analyze_list(struct state *state, struct scope *scope,
struct ast *nodes)
{
foreach_node(node, nodes) {
if (analyze(state, scope, node))
return -1;
}
return 0;
}
static int analyze_type(struct state *state, struct scope *scope,
struct type *type)
{
/* for now, let's just say all types are fine as they are, specified by
* the user. */
(void)state;
(void)scope;
(void)type;
return 0;
}
static int analyze_type_list(struct state *state, struct scope *scope,
struct type *types)
{
foreach_type(type, types) {
if (analyze_type(state, scope, type))
return -1;
}
return 0;
}
int analyze_root(struct scope *scope, struct ast *root)
{
foreach_node(node, root) {
assert(node->k == AST_PROC_DEF);
if (scope_add_proc(scope, node))
return -1;
}
foreach_node(node, root) {
struct state state = {};
if (analyze(&state, scope, node))
return -1;
}
return 0;
}