diff options
Diffstat (limited to 'src/check_expr.cpp')
| -rw-r--r-- | src/check_expr.cpp | 192 |
1 files changed, 96 insertions, 96 deletions
diff --git a/src/check_expr.cpp b/src/check_expr.cpp index 60f07a068..d714e90a8 100644 --- a/src/check_expr.cpp +++ b/src/check_expr.cpp @@ -621,7 +621,9 @@ i64 check_distance_between_types(CheckerContext *c, Operand *operand, Type *type } PolyProcData poly_proc_data = {}; if (check_polymorphic_procedure_assignment(c, operand, type, operand->expr, &poly_proc_data)) { - add_entity_use(c, operand->expr, poly_proc_data.gen_entity); + Entity *e = poly_proc_data.gen_entity; + add_type_and_value(c->info, operand->expr, Addressing_Value, e->type, {}); + add_entity_use(c, operand->expr, e); return 4; } } @@ -1113,6 +1115,7 @@ bool check_cycle(CheckerContext *c, Entity *curr, bool report) { error(curr->token, "\t%.*s refers to", LIT(curr->token.string)); } error(curr->token, "\t%.*s", LIT(curr->token.string)); + curr->type = t_invalid; } return true; } @@ -1130,7 +1133,7 @@ Entity *check_ident(CheckerContext *c, Operand *o, Ast *n, Type *named_type, Typ Entity *e = scope_lookup(c->scope, name); if (e == nullptr) { if (is_blank_ident(name)) { - error(n, "'_' cannot be used as a value type"); + error(n, "'_' cannot be used as a value"); } else { error(n, "Undeclared name: %.*s", LIT(name)); } @@ -2213,6 +2216,10 @@ void check_shift(CheckerContext *c, Operand *x, Operand *y, Ast *node, Type *typ return; } + if (is_type_untyped(y->type)) { + convert_to_typed(c, y, t_uint); + } + x->mode = Addressing_Value; } @@ -2380,9 +2387,15 @@ bool check_cast_internal(CheckerContext *c, Operand *x, Type *type) { if (core_type(bt)->kind == Type_Basic) { if (check_representable_as_constant(c, x->value, bt, &x->value)) { return true; - } else if (is_type_pointer(type) && check_is_castable_to(c, x, type)) { - return true; + } else if (check_is_castable_to(c, x, type)) { + if (is_type_pointer(type)) { + return true; + } } + } else if (check_is_castable_to(c, x, type)) { + x->value = {}; + x->mode = Addressing_Value; + return true; } } else if (check_is_castable_to(c, x, type)) { if (x->mode != Addressing_Constant) { @@ -2392,6 +2405,9 @@ bool check_cast_internal(CheckerContext *c, Operand *x, Type *type) { } else if (is_type_union(type)) { x->mode = Addressing_Value; } + if (x->mode == Addressing_Value) { + x->value = {}; + } return true; } return false; @@ -2874,7 +2890,7 @@ void update_expr_type(CheckerContext *c, Ast *e, Type *type, bool final) { if (token_is_comparison(be->op.kind)) { // NOTE(bill): Do nothing as the types are fine } else if (token_is_shift(be->op.kind)) { - update_expr_type(c, be->left, type, final); + update_expr_type(c, be->left, type, final); } else { update_expr_type(c, be->left, type, final); update_expr_type(c, be->right, type, final); @@ -3188,8 +3204,8 @@ void convert_to_typed(CheckerContext *c, Operand *operand, Type *target_type) { break; } - operand->type = target_type; update_expr_type(c, operand->expr, target_type, true); + operand->type = target_type; } bool check_index_value(CheckerContext *c, bool open_range, Ast *index_value, i64 max_count, i64 *value, Type *type_hint=nullptr) { @@ -3376,7 +3392,7 @@ ExactValue get_constant_field_single(CheckerContext *c, ExactValue value, i32 in GB_ASSERT(bt->kind == Type_EnumeratedArray); corrected_index = index + exact_value_to_i64(bt->EnumeratedArray.min_value); } - if (op == Token_Ellipsis) { + if (op != Token_RangeHalf) { if (lo <= corrected_index && corrected_index <= hi) { TypeAndValue tav = fv->value->tav; if (success_) *success_ = true; @@ -3938,6 +3954,16 @@ bool check_assignment_arguments(CheckerContext *ctx, Array<Operand> const &lhs, add_type_and_value(&c->checker->info, o.expr, o.mode, tuple, o.value); } + if (o.mode == Addressing_OptionalOk && expr->kind == Ast_TypeAssertion) { + // NOTE(bill): Used only for optimizations in the backend + if (is_blank_ident(lhs[0].expr)) { + expr->TypeAssertion.ignores[0] = true; + } + if (is_blank_ident(lhs[1].expr)) { + expr->TypeAssertion.ignores[1] = true; + } + } + array_add(operands, val0); array_add(operands, val1); optional_ok = true; @@ -4052,6 +4078,16 @@ bool check_unpack_arguments(CheckerContext *ctx, Entity **lhs, isize lhs_count, add_type_and_value(&c->checker->info, o.expr, o.mode, tuple, o.value); } + if (o.mode == Addressing_OptionalOk && expr->kind == Ast_TypeAssertion) { + // NOTE(bill): Used only for optimizations in the backend + if (is_blank_ident(lhs[0]->token)) { + expr->TypeAssertion.ignores[0] = true; + } + if (is_blank_ident(lhs[1]->token)) { + expr->TypeAssertion.ignores[1] = true; + } + } + array_add(operands, val0); array_add(operands, val1); optional_ok = true; @@ -4076,6 +4112,16 @@ bool check_unpack_arguments(CheckerContext *ctx, Entity **lhs, isize lhs_count, } +bool is_expr_constant_zero(Ast *expr) { + GB_ASSERT(expr != nullptr); + auto v = exact_value_to_integer(expr->tav.value); + if (v.kind == ExactValue_Integer) { + return big_int_cmp_zero(&v.value_integer) == 0; + } + return false; +} + + CALL_ARGUMENT_CHECKER(check_call_arguments_internal) { ast_node(ce, CallExpr, call); GB_ASSERT(is_type_proc(proc_type)); @@ -4250,6 +4296,8 @@ CALL_ARGUMENT_CHECKER(check_call_arguments_internal) { err = CallArgumentError_WrongTypes; } } + } else if (show_error) { + check_assignment(c, &o, t, str_lit("argument")); } score += s; @@ -4265,7 +4313,10 @@ CALL_ARGUMENT_CHECKER(check_call_arguments_internal) { if (o.mode == Addressing_Type && is_type_typeid(e->type)) { add_type_info_type(c, o.type); add_type_and_value(c->info, o.expr, Addressing_Value, e->type, exact_value_typeid(o.type)); + } else if (show_error && is_type_untyped(o.type)) { + update_expr_type(c, o.expr, t, true); } + } if (variadic) { @@ -4303,6 +4354,8 @@ CALL_ARGUMENT_CHECKER(check_call_arguments_internal) { check_assignment(c, &o, t, str_lit("argument")); } err = CallArgumentError_WrongTypes; + } else if (show_error) { + check_assignment(c, &o, t, str_lit("argument")); } score += s; if (is_type_any(elem)) { @@ -4311,6 +4364,8 @@ CALL_ARGUMENT_CHECKER(check_call_arguments_internal) { if (o.mode == Addressing_Type && is_type_typeid(t)) { add_type_info_type(c, o.type); add_type_and_value(c->info, o.expr, Addressing_Value, t, exact_value_typeid(o.type)); + } else if (show_error && is_type_untyped(o.type)) { + update_expr_type(c, o.expr, t, true); } } } @@ -4525,6 +4580,8 @@ CALL_ARGUMENT_CHECKER(check_named_call_arguments) { err = CallArgumentError_NoneConstantParameter; } } + } else if (show_error) { + check_assignment(c, o, e->type, str_lit("procedure argument")); } score += s; } @@ -5459,7 +5516,7 @@ ExprKind check_call_expr(CheckerContext *c, Operand *operand, Ast *call, Ast *pr if (proc != nullptr && proc->kind == Ast_BasicDirective) { ast_node(bd, BasicDirective, proc); - String name = bd->name; + String name = bd->name.string; if (name == "location" || name == "assert" || name == "panic" || name == "defined" || name == "config" || name == "load") { operand->mode = Addressing_Builtin; operand->builtin_id = BuiltinProc_DIRECTIVE; @@ -5563,9 +5620,15 @@ ExprKind check_call_expr(CheckerContext *c, Operand *operand, Ast *call, Ast *pr } check_expr(c, operand, arg); if (operand->mode != Addressing_Invalid) { - check_cast(c, operand, t); + if (is_type_polymorphic(t)) { + error(call, "A polymorphic type cannot be used in a type conversion"); + } else { + // NOTE(bill): Otherwise the compiler can override the polymorphic type + // as it assumes it is determining the type + check_cast(c, operand, t); + } } - + operand->type = t; break; } } @@ -5715,7 +5778,7 @@ void check_expr_with_type_hint(CheckerContext *c, Operand *o, Ast *e, Type *t) { break; case Addressing_Type: if (t == nullptr || !is_type_typeid(t)) { - err_str = "is not an expression but a type"; + err_str = "is not an expression but a type, in this context it is ambiguous"; } break; case Addressing_Builtin: @@ -5903,8 +5966,9 @@ bool check_range(CheckerContext *c, Ast *node, Operand *x, Operand *y, ExactValu TokenKind op = Token_Lt; switch (ie->op.kind) { - case Token_Ellipsis: op = Token_LtEq; break; - case Token_RangeHalf: op = Token_Lt; break; + case Token_Ellipsis: op = Token_LtEq; break; // .. + case Token_RangeFull: op = Token_LtEq; break; // ..= + case Token_RangeHalf: op = Token_Lt; break; // ..< default: error(ie->op, "Invalid range operator"); break; } bool ok = compare_exact_values(op, a, b); @@ -5915,7 +5979,7 @@ bool check_range(CheckerContext *c, Ast *node, Operand *x, Operand *y, ExactValu } ExactValue inline_for_depth = exact_value_sub(b, a); - if (ie->op.kind == Token_Ellipsis) { + if (ie->op.kind != Token_RangeHalf) { inline_for_depth = exact_value_increment_one(inline_for_depth); } @@ -6127,13 +6191,14 @@ ExprKind check_expr_base_internal(CheckerContext *c, Operand *o, Ast *node, Type case_ast_node(bd, BasicDirective, node); o->mode = Addressing_Constant; - if (bd->name == "file") { + String name = bd->name.string; + if (name == "file") { o->type = t_untyped_string; o->value = exact_value_string(get_file_path_string(bd->token.pos.file_id)); - } else if (bd->name == "line") { + } else if (name == "line") { o->type = t_untyped_integer; o->value = exact_value_i64(bd->token.pos.line); - } else if (bd->name == "procedure") { + } else if (name == "procedure") { if (c->curr_proc_decl == nullptr) { error(node, "#procedure may only be used within procedures"); o->type = t_untyped_string; @@ -6142,7 +6207,7 @@ ExprKind check_expr_base_internal(CheckerContext *c, Operand *o, Ast *node, Type o->type = t_untyped_string; o->value = exact_value_string(c->proc_name); } - } else if (bd->name == "caller_location") { + } else if (name == "caller_location") { init_core_source_code_location(c->checker); error(node, "#caller_location may only be used as a default argument parameter"); o->type = t_source_code_location; @@ -6309,7 +6374,7 @@ ExprKind check_expr_base_internal(CheckerContext *c, Operand *o, Ast *node, Type if (cl->type->ArrayType.tag != nullptr) { Ast *tag = cl->type->ArrayType.tag; GB_ASSERT(tag->kind == Ast_BasicDirective); - String name = tag->BasicDirective.name; + String name = tag->BasicDirective.name.string; if (name == "soa") { error(node, "#soa arrays are not supported for compound literals"); return kind; @@ -6321,7 +6386,7 @@ ExprKind check_expr_base_internal(CheckerContext *c, Operand *o, Ast *node, Type if (cl->elems.count > 0) { Ast *tag = cl->type->DynamicArrayType.tag; GB_ASSERT(tag->kind == Ast_BasicDirective); - String name = tag->BasicDirective.name; + String name = tag->BasicDirective.name.string; if (name == "soa") { error(node, "#soa arrays are not supported for compound literals"); return kind; @@ -7536,47 +7601,6 @@ ExprKind check_expr_base_internal(CheckerContext *c, Operand *o, Ast *node, Type return Expr_Expr; } - if (t->kind == Type_Struct) { - TypeAtomOpTable *atom_op_table = t->Struct.atom_op_table; - if (atom_op_table != nullptr) { - if (atom_op_table->op[TypeAtomOp_index_set]) { - if (c->assignment_lhs_hint == node) { - o->mode = Addressing_AtomOpAssign; - o->type = o->type; - o->expr = node; - return kind; - } - } - if (atom_op_table->op[TypeAtomOp_index_get]) { - Entity *e = atom_op_table->op[TypeAtomOp_index_get]; - if (ie->index == nullptr) { - gbString str = expr_to_string(o->expr); - error(o->expr, "Missing index for '%s'", str); - gb_string_free(str); - o->mode = Addressing_Invalid; - o->expr = node; - return kind; - } - - GB_ASSERT(e->identifier != nullptr); - Ast *proc_ident = clone_ast(e->identifier); - - auto args = array_make<Ast *>(heap_allocator(), 2); - args[0] = ie->expr; - args[1] = ie->index; - - GB_ASSERT(c->file != nullptr); - Ast *fake_call = ast_call_expr(c->file, proc_ident, args, ie->open, ie->close, {}); - check_expr_base(c, o, fake_call, type_hint); - AtomOpMapEntry entry = {TypeAtomOp_index_get, fake_call}; - map_set(&c->info->atom_op_map, hash_pointer(node), entry); - o->expr = node; - return kind; - } - } - } - - i64 max_count = -1; bool valid = check_set_index_data(o, t, is_ptr, &max_count, o->type); @@ -7715,37 +7739,6 @@ ExprKind check_expr_base_internal(CheckerContext *c, Operand *o, Ast *node, Type if (is_type_soa_struct(t)) { valid = true; o->type = make_soa_struct_slice(c, nullptr, nullptr, t->Struct.soa_elem); - } else { - TypeAtomOpTable *atom_op_table = t->Struct.atom_op_table; - if (atom_op_table != nullptr && atom_op_table->op[TypeAtomOp_slice]) { - Entity *e = atom_op_table->op[TypeAtomOp_slice]; - GB_ASSERT(e->identifier != nullptr); - Ast *proc_ident = clone_ast(e->identifier); - - Ast *expr = se->expr; - if (o->mode == Addressing_Variable) { - expr = ast_unary_expr(c->file, {Token_And, STR_LIT("&")}, expr); - } else if (is_type_pointer(o->type)) { - // Okay - } else { - gbString str = expr_to_string(node); - error(node, "Cannot slice '%s', value is not addressable", str); - gb_string_free(str); - o->mode = Addressing_Invalid; - o->expr = node; - return kind; - } - auto args = array_make<Ast *>(heap_allocator(), 1); - args[0] = expr; - - - GB_ASSERT(c->file != nullptr); - Ast *fake_call = ast_call_expr(c->file, proc_ident, args, se->open, se->close, {}); - check_expr_base(c, o, fake_call, type_hint); - AtomOpMapEntry entry = {TypeAtomOp_slice, fake_call}; - map_set(&c->info->atom_op_map, hash_pointer(node), entry); - valid = true; - } } break; @@ -7774,10 +7767,7 @@ ExprKind check_expr_base_internal(CheckerContext *c, Operand *o, Ast *node, Type return kind; } - o->mode = Addressing_Value; - if (se->low == nullptr && se->high != nullptr) { - // error(se->interval0, "1st index is required if a 2nd index is specified"); // It is okay to continue as it will assume the 1st index is zero } @@ -7812,6 +7802,16 @@ ExprKind check_expr_base_internal(CheckerContext *c, Operand *o, Ast *node, Type } } + if (max_count < 0) { + if (o->mode == Addressing_Constant) { + gbString s = expr_to_string(se->expr); + error(se->expr, "Cannot slice constant value '%s'", s); + gb_string_free(s); + } + } + + o->mode = Addressing_Value; + if (is_type_string(t) && max_count >= 0) { bool all_constant = true; for (isize i = 0; i < gb_count_of(nodes); i++) { @@ -8152,7 +8152,7 @@ gbString write_expr_to_string(gbString str, Ast *node, bool shorthand) { case_ast_node(bd, BasicDirective, node); str = gb_string_append_rune(str, '#'); - str = string_append_string(str, bd->name); + str = string_append_string(str, bd->name.string); case_end; case_ast_node(ud, Undef, node); |