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static bool block_enter(Block *b) {
bool ret = true;
arr_foreach(&b->stmts, Statement, stmt) {
if (stmt->kind == STMT_DECL) {
Declaration *decl = &stmt->decl;
arr_foreach(&decl->idents, Identifier, ident) {
Array *decls = &(*ident)->decls;
if (decls->len) {
/* check that it hasn't been declared in this block */
IdentDecl *prev = arr_last(decls);
if (prev->scope == b) {
err_print(decl->where, "Re-declaration of identifier in the same block.");
info_print(prev->decl->where, "Previous declaration was here.");
ret = false;
continue;
}
} else {
/* array not initialized yet */
arr_create(&(*ident)->decls, sizeof(IdentDecl));
}
IdentDecl *ident_decl = arr_add(decls);
ident_decl->decl = decl;
ident_decl->scope = b;
}
}
}
return ret;
}
static bool block_exit(Block *b) {
/* OPTIM: figure out some way of not re-iterating over everything */
bool ret = true;
arr_foreach(&b->stmts, Statement, stmt) {
if (stmt->kind == STMT_DECL) {
Declaration *decl = &stmt->decl;
arr_foreach(&decl->idents, Identifier, ident) {
Array *decls = &(*ident)->decls;
assert(decls->item_sz);
IdentDecl *last_decl = arr_last(decls);
if (last_decl->scope == b) {
arr_remove_last(decls); /* remove that declaration */
}
}
}
}
return ret;
}
static bool type_eq(Type *a, Type *b) {
if (a->kind != b->kind) return false;
if (a->flags & TYPE_FLAG_FLEXIBLE) {
if (b->flags & TYPE_FLAG_FLEXIBLE) return true;
assert(a->kind == TYPE_BUILTIN);
if (a->builtin == BUILTIN_FLOAT) {
return type_builtin_is_floating(b->builtin);
}
assert(a->builtin == BUILTIN_I64);
return type_builtin_is_numerical(b->builtin);
}
if (b->flags & TYPE_FLAG_FLEXIBLE) {
return type_eq(b, a); /* OPTIM? */
}
switch (a->kind) {
case TYPE_VOID: return true;
case TYPE_BUILTIN:
return a->builtin == b->builtin;
case TYPE_FN: {
if (a->fn.types.len != b->fn.types.len) return false;
Type *a_types = a->fn.types.data, *b_types = b->fn.types.data;
for (size_t i = 0; i < a->fn.types.len; i++) {
if (!type_eq(&a_types[i], &b_types[i]))
return false;
}
return true;
}
case TYPE_TUPLE:
if (a->tuple.len != b->tuple.len) return false;
Type *a_types = a->tuple.data, *b_types = b->tuple.data;
for (size_t i = 0; i < a->tuple.len; i++) {
if (!type_eq(&a_types[i], &b_types[i]))
return false;
}
return true;
case TYPE_ARR:
if (a->arr.n != b->arr.n) return false;
return type_eq(a->arr.of, b->arr.of);
}
assert(0);
return false;
}
/* expected must equal got, or an error will be produced */
static bool type_must_eq(Location where, Type *expected, Type *got) {
if (!type_eq(expected, got)) {
char str_ex[128];
char str_got[128];
type_to_str(expected, str_ex, sizeof str_ex);
type_to_str(got, str_got, sizeof str_got);
err_print(where, "Type mismatch: expected %s, but got %s.", str_ex, str_got);
return false;
}
return true;
}
/* Prints an error and returns false if the given expression is not an l-value */
static bool expr_must_lval(Expression *e) {
switch (e->kind) {
case EXPR_IDENT: {
IdentDecl *id_decl = ident_decl(e->ident);
if (!id_decl)
err_print(e->where, "Undeclared identifier.");
Declaration *d = id_decl->decl;
if (d->flags & DECL_FLAG_CONST) {
char *istr = ident_to_str(e->ident);
err_print(e->where, "Use of constant %s as a non-constant expression.", istr);
info_print(d->where, "%s was declared here.", istr);
return false;
}
return true;
}
case EXPR_BINARY_OP:
if (e->binary.op == BINARY_AT_INDEX) return true;
break;
default:
break;
}
err_print(e->where, "Cannot assign to non-lvalue.");
return false;
}
static bool type_of_expr(Expression *e, Type *t);
static bool type_of_ident(Location where, Identifier i, Type *t, bool allow_use_before_decl) {
IdentDecl *decl = ident_decl(i);
if (!decl) {
char *s = ident_to_str(i);
err_print(where, "Undeclared identifier: %s", s);
free(s);
return false;
}
Declaration *d = decl->decl;
if (!allow_use_before_decl) {
/* TODO: Check self-referential declarations */
if (d->where.code > where.code) {
char *s = ident_to_str(i);
err_print(where, "Use of identifier %s before its declaration.", s);
info_print(d->where, "%s will be declared here.", s);
free(s);
return false;
}
}
/* OPTIM: you don't always need to do so much copying */
Type decl_type;
if (d->flags & DECL_FLAG_ANNOTATES_TYPE) {
decl_type = d->type;
} else {
if (!type_of_expr(&d->expr, &decl_type))
return false;
}
if (d->idents.len > 1) {
/* it's a tuple! */
arr_foreach(&d->idents, Identifier, decl_i) {
if (*decl_i == i) {
long index = (long)(decl_i - (Identifier*)d->idents.data);
*t = ((Type*)d->type.tuple.data)[index];
return true;
}
}
assert(0);
return false;
} else {
*t = decl_type;
return true;
}
}
/* fixes the type (replaces [5+3]int with [8]int, etc.) */
static bool type_resolve(Type *t) {
if (t->flags & TYPE_FLAG_RESOLVED) return true;
switch (t->kind) {
case TYPE_ARR: {
/* it's an array */
if (!type_resolve(t->arr.of)) return false; /* resolve inner type */
Integer size;
if (!eval_expr_as_int(t->arr.n_expr, &size)) return false; /* resolve N */
if (size < 0)
err_print(t->arr.n_expr->where, "Negative array length (" INTEGER_FMT ")", size);
t->arr.n = (UInteger)size;
} break;
case TYPE_FN:
arr_foreach(&t->fn.types, Type, child_type) {
if (!type_resolve(child_type))
return false;
}
break;
case TYPE_TUPLE:
arr_foreach(&t->tuple, Type, child_type) {
if (!type_resolve(child_type))
return false;
}
break;
default: break;
}
t->flags |= TYPE_FLAG_RESOLVED;
return true;
}
/* NOTE: this does descend into un/binary ops, etc. but NOT into functions */
static bool type_of_expr(Expression *e, Type *t) {
t->flags = 0;
switch (e->kind) {
case EXPR_FN: {
FnExpr *f = &e->fn;
t->kind = TYPE_FN;
arr_create(&t->fn.types, sizeof(Type));
Type *ret_type = arr_add(&t->fn.types);
type_resolve(&f->ret_type);
*ret_type = f->ret_type;
arr_foreach(&f->params, Param, param) {
Type *param_type = arr_add(&t->fn.types);
type_resolve(¶m->type);
*param_type = param->type;
}
} break;
case EXPR_INT_LITERAL:
t->kind = TYPE_BUILTIN;
t->builtin = BUILTIN_I64;
t->flags |= TYPE_FLAG_FLEXIBLE;
break;
case EXPR_FLOAT_LITERAL:
t->kind = TYPE_BUILTIN;
t->builtin = BUILTIN_FLOAT;
t->flags |= TYPE_FLAG_FLEXIBLE;
break;
case EXPR_IDENT: {
if (!type_of_ident(e->where, e->ident, t, false)) return false;
} break;
case EXPR_CALL: {
Expression *f = e->call.fn;
Type fn_type;
if (f->kind == EXPR_IDENT) {
/* allow calling a function before declaring it */
if (!type_of_ident(e->where, e->ident, t, true)) return false;
} else {
if (!type_of_expr(f, &fn_type)) return false;
}
if (fn_type.kind != TYPE_FN) {
char type[128];
type_to_str(&fn_type, type, sizeof type);
err_print(e->where, "Calling non-function (type %s).", type);
return false;
}
/* TODO: Make sure args match fn type */
*t = *(Type*)fn_type.fn.types.data;
break;
}
case EXPR_UNARY_OP: {
Type *of_type = &e->unary.of->type;
if (!type_of_expr(e->unary.of, of_type)) return false;
switch (e->unary.op) {
case UNARY_MINUS:
if (of_type->kind != TYPE_BUILTIN || !type_builtin_is_numerical(of_type->builtin)) {
char s[128];
type_to_str(of_type, s, sizeof s);
err_print(e->where, "Cannot apply unary - to non-numerical type %s.", s);
return false;
}
*t = *of_type;
break;
}
} break;
case EXPR_BINARY_OP: {
Type *lhs_type = &e->binary.lhs->type;
Type *rhs_type = &e->binary.rhs->type;
if (!type_of_expr(e->binary.lhs, lhs_type)
|| !type_of_expr(e->binary.rhs, rhs_type))
return false;
switch (e->binary.op) {
case BINARY_SET:
if (!expr_must_lval(e->binary.lhs)) return false;
/* fallthrough */
case BINARY_PLUS:
case BINARY_MINUS: {
bool match = true;
if (e->binary.op != BINARY_SET) {
/* numerical binary ops */
if (lhs_type->kind != rhs_type->kind) {
match = false;
} else if (lhs_type->kind != TYPE_BUILTIN) {
match = false;
} else if (!type_builtin_is_numerical(lhs_type->builtin) || !type_builtin_is_numerical(rhs_type->builtin)) {
match = false;
}
}
if (match) {
if (e->binary.op == BINARY_SET) {
/* type of x = y is always void */
t->kind = TYPE_VOID;
break;
}
int lhs_is_flexible = lhs_type->flags & TYPE_FLAG_FLEXIBLE;
int rhs_is_flexible = rhs_type->flags & TYPE_FLAG_FLEXIBLE;
if (lhs_is_flexible && rhs_is_flexible) {
*t = *lhs_type;
if (rhs_type->builtin == BUILTIN_FLOAT) {
/* promote to float */
t->builtin = BUILTIN_FLOAT;
}
} else if (type_eq(lhs_type, rhs_type)) {
if (!lhs_is_flexible)
*t = *lhs_type;
else
*t = *rhs_type;
} else {
match = false;
}
}
if (!match) {
char s1[128], s2[128];
type_to_str(lhs_type, s1, sizeof s1);
type_to_str(rhs_type, s2, sizeof s2);
const char *op = binary_op_to_str(e->binary.op);
err_print(e->where, "Mismatched types to operator %s: %s and %s", op, s1, s2);
return false;
}
break;
}
case BINARY_AT_INDEX:
/* TODO(eventually): support non-builtin numerical (or even perhaps non-numerical) indices */
if (rhs_type->kind != TYPE_BUILTIN || !type_builtin_is_numerical(rhs_type->builtin)) {
err_print(e->where, "The index of an array must be a builtin numerical type.");
return false;
}
if (lhs_type->kind != TYPE_ARR) {
err_print(e->where, "Trying to take index of non-array.");
return false;
}
*t = *lhs_type->arr.of;
break;
case BINARY_COMMA: {
t->kind = TYPE_TUPLE;
Array *tup_types = &t->tuple;
arr_create(tup_types, sizeof(Type));
if (lhs_type->kind == TYPE_TUPLE) {
/* tuple, x => tuple */
arr_foreach(&lhs_type->tuple, Type, child) {
*(Type*)arr_add(tup_types) = *child;
}
} else {
*(Type*)arr_add(tup_types) = *lhs_type;
}
if (rhs_type->kind == TYPE_TUPLE) {
/* x, tuple => tuple */
arr_foreach(&rhs_type->tuple, Type, child) {
*(Type*)arr_add(tup_types) = *child;
}
} else {
*(Type*)arr_add(tup_types) = *rhs_type;
}
} break;
}
} break;
}
return true;
}
static bool types_stmt(Statement *s);
static bool types_block(Block *b) {
bool ret = true;
if (!block_enter(b)) return false;
arr_foreach(&b->stmts, Statement, s) {
if (!types_stmt(s)) ret = false;
}
if (!block_exit(b)) return false;
return ret;
}
static bool types_expr(Expression *e) {
Type *t = &e->type;
if (!type_of_expr(e, t)) return false;
switch (e->kind) {
case EXPR_FN:
return types_block(&e->fn.body);
case EXPR_CALL: {
bool ret = true;
arr_foreach(&e->call.args, Expression, arg) {
if (!types_expr(arg)) ret = false;
}
return ret;
} break;
default: break;
}
return true;
}
static bool types_decl(Declaration *d) {
if (d->flags & DECL_FLAG_FOUND_TYPE) return true;
if (d->flags & DECL_FLAG_ANNOTATES_TYPE) {
/* type supplied */
assert(d->type.kind != TYPE_VOID); /* there's no way to annotate void */
if (!type_resolve(&d->type))
return false;
}
if (d->flags & DECL_FLAG_HAS_EXPR) {
if (!types_expr(&d->expr)) {
return false;
}
if (d->flags & DECL_FLAG_ANNOTATES_TYPE) {
if (!type_must_eq(d->expr.where, &d->type, &d->expr.type))
return false;
} else {
if (d->expr.type.kind == TYPE_VOID) {
/* e.g. x := (fn(){})(); */
err_print(d->expr.where, "Used return value of function which does not return anything.");
return false;
}
d->type = d->expr.type;
}
}
d->flags |= DECL_FLAG_FOUND_TYPE;
return true;
}
static bool types_stmt(Statement *s) {
switch (s->kind) {
case STMT_EXPR:
if (!types_expr(&s->expr)) {
return false;
}
break;
case STMT_DECL:
if (!types_decl(&s->decl))
return false;
break;
}
return true;
}
static bool types_file(ParsedFile *f) {
arr_foreach(&f->stmts, Statement, s) {
if (!types_stmt(s)) {
return false;
}
}
return true;
}
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