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dart / sdk.git / 3d817218ef573eb65b2bd2b73a61fdab39a2754f / . / pkg / analyzer / test / src / dart / constant / value_test.dart
blob: 7e79afac804386f48872f178dc81fb6584940b2b [file] [log] [blame]
// Copyright (c) 2016, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
library analyzer.test.src.dart.constant.value_test;
import 'package:analyzer/src/generated/constant.dart';
import 'package:analyzer/src/generated/resolver.dart';
import 'package:analyzer/src/generated/testing/test_type_provider.dart';
import 'package:test/test.dart';
import 'package:test_reflective_loader/test_reflective_loader.dart';
import '../../../generated/test_support.dart';
main() {
defineReflectiveSuite(() {
defineReflectiveTests(DartObjectImplTest);
});
}
const Matcher isEvaluationException = const isInstanceOf<EvaluationException>();
const int LONG_MAX_VALUE = 0x7fffffffffffffff;
const Matcher throwsEvaluationException = const Throws(isEvaluationException);
@reflectiveTest
class DartObjectImplTest extends EngineTestCase {
TypeProvider _typeProvider = new TestTypeProvider();
void test_add_knownDouble_knownDouble() {
_assertAdd(_doubleValue(3.0), _doubleValue(1.0), _doubleValue(2.0));
}
void test_add_knownDouble_knownInt() {
_assertAdd(_doubleValue(3.0), _doubleValue(1.0), _intValue(2));
}
void test_add_knownDouble_unknownDouble() {
_assertAdd(_doubleValue(null), _doubleValue(1.0), _doubleValue(null));
}
void test_add_knownDouble_unknownInt() {
_assertAdd(_doubleValue(null), _doubleValue(1.0), _intValue(null));
}
void test_add_knownInt_knownInt() {
_assertAdd(_intValue(3), _intValue(1), _intValue(2));
}
void test_add_knownInt_knownString() {
_assertAdd(null, _intValue(1), _stringValue("2"));
}
void test_add_knownInt_unknownDouble() {
_assertAdd(_doubleValue(null), _intValue(1), _doubleValue(null));
}
void test_add_knownInt_unknownInt() {
_assertAdd(_intValue(null), _intValue(1), _intValue(null));
}
void test_add_knownString_knownInt() {
_assertAdd(null, _stringValue("1"), _intValue(2));
}
void test_add_knownString_knownString() {
_assertAdd(_stringValue("ab"), _stringValue("a"), _stringValue("b"));
}
void test_add_knownString_unknownString() {
_assertAdd(_stringValue(null), _stringValue("a"), _stringValue(null));
}
void test_add_unknownDouble_knownDouble() {
_assertAdd(_doubleValue(null), _doubleValue(null), _doubleValue(2.0));
}
void test_add_unknownDouble_knownInt() {
_assertAdd(_doubleValue(null), _doubleValue(null), _intValue(2));
}
void test_add_unknownInt_knownDouble() {
_assertAdd(_doubleValue(null), _intValue(null), _doubleValue(2.0));
}
void test_add_unknownInt_knownInt() {
_assertAdd(_intValue(null), _intValue(null), _intValue(2));
}
void test_add_unknownString_knownString() {
_assertAdd(_stringValue(null), _stringValue(null), _stringValue("b"));
}
void test_add_unknownString_unknownString() {
_assertAdd(_stringValue(null), _stringValue(null), _stringValue(null));
}
void test_bitAnd_knownInt_knownInt() {
_assertBitAnd(_intValue(2), _intValue(6), _intValue(3));
}
void test_bitAnd_knownInt_knownString() {
_assertBitAnd(null, _intValue(6), _stringValue("3"));
}
void test_bitAnd_knownInt_unknownInt() {
_assertBitAnd(_intValue(null), _intValue(6), _intValue(null));
}
void test_bitAnd_knownString_knownInt() {
_assertBitAnd(null, _stringValue("6"), _intValue(3));
}
void test_bitAnd_unknownInt_knownInt() {
_assertBitAnd(_intValue(null), _intValue(null), _intValue(3));
}
void test_bitAnd_unknownInt_unknownInt() {
_assertBitAnd(_intValue(null), _intValue(null), _intValue(null));
}
void test_bitNot_knownInt() {
_assertBitNot(_intValue(-4), _intValue(3));
}
void test_bitNot_knownString() {
_assertBitNot(null, _stringValue("6"));
}
void test_bitNot_unknownInt() {
_assertBitNot(_intValue(null), _intValue(null));
}
void test_bitOr_knownInt_knownInt() {
_assertBitOr(_intValue(7), _intValue(6), _intValue(3));
}
void test_bitOr_knownInt_knownString() {
_assertBitOr(null, _intValue(6), _stringValue("3"));
}
void test_bitOr_knownInt_unknownInt() {
_assertBitOr(_intValue(null), _intValue(6), _intValue(null));
}
void test_bitOr_knownString_knownInt() {
_assertBitOr(null, _stringValue("6"), _intValue(3));
}
void test_bitOr_unknownInt_knownInt() {
_assertBitOr(_intValue(null), _intValue(null), _intValue(3));
}
void test_bitOr_unknownInt_unknownInt() {
_assertBitOr(_intValue(null), _intValue(null), _intValue(null));
}
void test_bitXor_knownInt_knownInt() {
_assertBitXor(_intValue(5), _intValue(6), _intValue(3));
}
void test_bitXor_knownInt_knownString() {
_assertBitXor(null, _intValue(6), _stringValue("3"));
}
void test_bitXor_knownInt_unknownInt() {
_assertBitXor(_intValue(null), _intValue(6), _intValue(null));
}
void test_bitXor_knownString_knownInt() {
_assertBitXor(null, _stringValue("6"), _intValue(3));
}
void test_bitXor_unknownInt_knownInt() {
_assertBitXor(_intValue(null), _intValue(null), _intValue(3));
}
void test_bitXor_unknownInt_unknownInt() {
_assertBitXor(_intValue(null), _intValue(null), _intValue(null));
}
void test_concatenate_knownInt_knownString() {
_assertConcatenate(null, _intValue(2), _stringValue("def"));
}
void test_concatenate_knownString_knownInt() {
_assertConcatenate(null, _stringValue("abc"), _intValue(3));
}
void test_concatenate_knownString_knownString() {
_assertConcatenate(
_stringValue("abcdef"), _stringValue("abc"), _stringValue("def"));
}
void test_concatenate_knownString_unknownString() {
_assertConcatenate(
_stringValue(null), _stringValue("abc"), _stringValue(null));
}
void test_concatenate_unknownString_knownString() {
_assertConcatenate(
_stringValue(null), _stringValue(null), _stringValue("def"));
}
void test_divide_knownDouble_knownDouble() {
_assertDivide(_doubleValue(3.0), _doubleValue(6.0), _doubleValue(2.0));
}
void test_divide_knownDouble_knownInt() {
_assertDivide(_doubleValue(3.0), _doubleValue(6.0), _intValue(2));
}
void test_divide_knownDouble_unknownDouble() {
_assertDivide(_doubleValue(null), _doubleValue(6.0), _doubleValue(null));
}
void test_divide_knownDouble_unknownInt() {
_assertDivide(_doubleValue(null), _doubleValue(6.0), _intValue(null));
}
void test_divide_knownInt_knownInt() {
_assertDivide(_doubleValue(3.0), _intValue(6), _intValue(2));
}
void test_divide_knownInt_knownString() {
_assertDivide(null, _intValue(6), _stringValue("2"));
}
void test_divide_knownInt_unknownDouble() {
_assertDivide(_doubleValue(null), _intValue(6), _doubleValue(null));
}
void test_divide_knownInt_unknownInt() {
_assertDivide(_doubleValue(null), _intValue(6), _intValue(null));
}
void test_divide_knownString_knownInt() {
_assertDivide(null, _stringValue("6"), _intValue(2));
}
void test_divide_unknownDouble_knownDouble() {
_assertDivide(_doubleValue(null), _doubleValue(null), _doubleValue(2.0));
}
void test_divide_unknownDouble_knownInt() {
_assertDivide(_doubleValue(null), _doubleValue(null), _intValue(2));
}
void test_divide_unknownInt_knownDouble() {
_assertDivide(_doubleValue(null), _intValue(null), _doubleValue(2.0));
}
void test_divide_unknownInt_knownInt() {
_assertDivide(_doubleValue(null), _intValue(null), _intValue(2));
}
void test_equalEqual_bool_false() {
_assertEqualEqual(_boolValue(false), _boolValue(false), _boolValue(true));
}
void test_equalEqual_bool_true() {
_assertEqualEqual(_boolValue(true), _boolValue(true), _boolValue(true));
}
void test_equalEqual_bool_unknown() {
_assertEqualEqual(_boolValue(null), _boolValue(null), _boolValue(false));
}
void test_equalEqual_double_false() {
_assertEqualEqual(_boolValue(false), _doubleValue(2.0), _doubleValue(4.0));
}
void test_equalEqual_double_true() {
_assertEqualEqual(_boolValue(true), _doubleValue(2.0), _doubleValue(2.0));
}
void test_equalEqual_double_unknown() {
_assertEqualEqual(_boolValue(null), _doubleValue(1.0), _doubleValue(null));
}
void test_equalEqual_int_false() {
_assertEqualEqual(_boolValue(false), _intValue(-5), _intValue(5));
}
void test_equalEqual_int_true() {
_assertEqualEqual(_boolValue(true), _intValue(5), _intValue(5));
}
void test_equalEqual_int_unknown() {
_assertEqualEqual(_boolValue(null), _intValue(null), _intValue(3));
}
void test_equalEqual_list_empty() {
_assertEqualEqual(null, _listValue(), _listValue());
}
void test_equalEqual_list_false() {
_assertEqualEqual(null, _listValue(), _listValue());
}
void test_equalEqual_map_empty() {
_assertEqualEqual(null, _mapValue(), _mapValue());
}
void test_equalEqual_map_false() {
_assertEqualEqual(null, _mapValue(), _mapValue());
}
void test_equalEqual_null() {
_assertEqualEqual(_boolValue(true), _nullValue(), _nullValue());
}
void test_equalEqual_string_false() {
_assertEqualEqual(
_boolValue(false), _stringValue("abc"), _stringValue("def"));
}
void test_equalEqual_string_true() {
_assertEqualEqual(
_boolValue(true), _stringValue("abc"), _stringValue("abc"));
}
void test_equalEqual_string_unknown() {
_assertEqualEqual(
_boolValue(null), _stringValue(null), _stringValue("def"));
}
void test_equals_list_false_differentSizes() {
expect(
_listValue([_boolValue(true)]) ==
_listValue([_boolValue(true), _boolValue(false)]),
isFalse);
}
void test_equals_list_false_sameSize() {
expect(_listValue([_boolValue(true)]) == _listValue([_boolValue(false)]),
isFalse);
}
void test_equals_list_true_empty() {
expect(_listValue(), _listValue());
}
void test_equals_list_true_nonEmpty() {
expect(_listValue([_boolValue(true)]), _listValue([_boolValue(true)]));
}
void test_equals_map_true_empty() {
expect(_mapValue(), _mapValue());
}
void test_equals_symbol_false() {
expect(_symbolValue("a") == _symbolValue("b"), isFalse);
}
void test_equals_symbol_true() {
expect(_symbolValue("a"), _symbolValue("a"));
}
void test_getValue_bool_false() {
expect(_boolValue(false).toBoolValue(), false);
}
void test_getValue_bool_true() {
expect(_boolValue(true).toBoolValue(), true);
}
void test_getValue_bool_unknown() {
expect(_boolValue(null).toBoolValue(), isNull);
}
void test_getValue_double_known() {
double value = 2.3;
expect(_doubleValue(value).toDoubleValue(), value);
}
void test_getValue_double_unknown() {
expect(_doubleValue(null).toDoubleValue(), isNull);
}
void test_getValue_int_known() {
int value = 23;
expect(_intValue(value).toIntValue(), value);
}
void test_getValue_int_unknown() {
expect(_intValue(null).toIntValue(), isNull);
}
void test_getValue_list_empty() {
Object result = _listValue().toListValue();
_assertInstanceOfObjectArray(result);
List<Object> array = result as List<Object>;
expect(array, hasLength(0));
}
void test_getValue_list_valid() {
Object result = _listValue([_intValue(23)]).toListValue();
_assertInstanceOfObjectArray(result);
List<Object> array = result as List<Object>;
expect(array, hasLength(1));
}
void test_getValue_map_empty() {
Object result = _mapValue().toMapValue();
EngineTestCase.assertInstanceOf((obj) => obj is Map, Map, result);
Map map = result as Map;
expect(map, hasLength(0));
}
void test_getValue_map_valid() {
Object result =
_mapValue([_stringValue("key"), _stringValue("value")]).toMapValue();
EngineTestCase.assertInstanceOf((obj) => obj is Map, Map, result);
Map map = result as Map;
expect(map, hasLength(1));
}
void test_getValue_null() {
expect(_nullValue().isNull, isTrue);
}
void test_getValue_string_known() {
String value = "twenty-three";
expect(_stringValue(value).toStringValue(), value);
}
void test_getValue_string_unknown() {
expect(_stringValue(null).toStringValue(), isNull);
}
void test_greaterThan_knownDouble_knownDouble_false() {
_assertGreaterThan(_boolValue(false), _doubleValue(1.0), _doubleValue(2.0));
}
void test_greaterThan_knownDouble_knownDouble_true() {
_assertGreaterThan(_boolValue(true), _doubleValue(2.0), _doubleValue(1.0));
}
void test_greaterThan_knownDouble_knownInt_false() {
_assertGreaterThan(_boolValue(false), _doubleValue(1.0), _intValue(2));
}
void test_greaterThan_knownDouble_knownInt_true() {
_assertGreaterThan(_boolValue(true), _doubleValue(2.0), _intValue(1));
}
void test_greaterThan_knownDouble_unknownDouble() {
_assertGreaterThan(_boolValue(null), _doubleValue(1.0), _doubleValue(null));
}
void test_greaterThan_knownDouble_unknownInt() {
_assertGreaterThan(_boolValue(null), _doubleValue(1.0), _intValue(null));
}
void test_greaterThan_knownInt_knownInt_false() {
_assertGreaterThan(_boolValue(false), _intValue(1), _intValue(2));
}
void test_greaterThan_knownInt_knownInt_true() {
_assertGreaterThan(_boolValue(true), _intValue(2), _intValue(1));
}
void test_greaterThan_knownInt_knownString() {
_assertGreaterThan(null, _intValue(1), _stringValue("2"));
}
void test_greaterThan_knownInt_unknownDouble() {
_assertGreaterThan(_boolValue(null), _intValue(1), _doubleValue(null));
}
void test_greaterThan_knownInt_unknownInt() {
_assertGreaterThan(_boolValue(null), _intValue(1), _intValue(null));
}
void test_greaterThan_knownString_knownInt() {
_assertGreaterThan(null, _stringValue("1"), _intValue(2));
}
void test_greaterThan_unknownDouble_knownDouble() {
_assertGreaterThan(_boolValue(null), _doubleValue(null), _doubleValue(2.0));
}
void test_greaterThan_unknownDouble_knownInt() {
_assertGreaterThan(_boolValue(null), _doubleValue(null), _intValue(2));
}
void test_greaterThan_unknownInt_knownDouble() {
_assertGreaterThan(_boolValue(null), _intValue(null), _doubleValue(2.0));
}
void test_greaterThan_unknownInt_knownInt() {
_assertGreaterThan(_boolValue(null), _intValue(null), _intValue(2));
}
void test_greaterThanOrEqual_knownDouble_knownDouble_false() {
_assertGreaterThanOrEqual(
_boolValue(false), _doubleValue(1.0), _doubleValue(2.0));
}
void test_greaterThanOrEqual_knownDouble_knownDouble_true() {
_assertGreaterThanOrEqual(
_boolValue(true), _doubleValue(2.0), _doubleValue(1.0));
}
void test_greaterThanOrEqual_knownDouble_knownInt_false() {
_assertGreaterThanOrEqual(
_boolValue(false), _doubleValue(1.0), _intValue(2));
}
void test_greaterThanOrEqual_knownDouble_knownInt_true() {
_assertGreaterThanOrEqual(
_boolValue(true), _doubleValue(2.0), _intValue(1));
}
void test_greaterThanOrEqual_knownDouble_unknownDouble() {
_assertGreaterThanOrEqual(
_boolValue(null), _doubleValue(1.0), _doubleValue(null));
}
void test_greaterThanOrEqual_knownDouble_unknownInt() {
_assertGreaterThanOrEqual(
_boolValue(null), _doubleValue(1.0), _intValue(null));
}
void test_greaterThanOrEqual_knownInt_knownInt_false() {
_assertGreaterThanOrEqual(_boolValue(false), _intValue(1), _intValue(2));
}
void test_greaterThanOrEqual_knownInt_knownInt_true() {
_assertGreaterThanOrEqual(_boolValue(true), _intValue(2), _intValue(2));
}
void test_greaterThanOrEqual_knownInt_knownString() {
_assertGreaterThanOrEqual(null, _intValue(1), _stringValue("2"));
}
void test_greaterThanOrEqual_knownInt_unknownDouble() {
_assertGreaterThanOrEqual(
_boolValue(null), _intValue(1), _doubleValue(null));
}
void test_greaterThanOrEqual_knownInt_unknownInt() {
_assertGreaterThanOrEqual(_boolValue(null), _intValue(1), _intValue(null));
}
void test_greaterThanOrEqual_knownString_knownInt() {
_assertGreaterThanOrEqual(null, _stringValue("1"), _intValue(2));
}
void test_greaterThanOrEqual_unknownDouble_knownDouble() {
_assertGreaterThanOrEqual(
_boolValue(null), _doubleValue(null), _doubleValue(2.0));
}
void test_greaterThanOrEqual_unknownDouble_knownInt() {
_assertGreaterThanOrEqual(
_boolValue(null), _doubleValue(null), _intValue(2));
}
void test_greaterThanOrEqual_unknownInt_knownDouble() {
_assertGreaterThanOrEqual(
_boolValue(null), _intValue(null), _doubleValue(2.0));
}
void test_greaterThanOrEqual_unknownInt_knownInt() {
_assertGreaterThanOrEqual(_boolValue(null), _intValue(null), _intValue(2));
}
void test_hasKnownValue_bool_false() {
expect(_boolValue(false).hasKnownValue, isTrue);
}
void test_hasKnownValue_bool_true() {
expect(_boolValue(true).hasKnownValue, isTrue);
}
void test_hasKnownValue_bool_unknown() {
expect(_boolValue(null).hasKnownValue, isFalse);
}
void test_hasKnownValue_double_known() {
expect(_doubleValue(2.3).hasKnownValue, isTrue);
}
void test_hasKnownValue_double_unknown() {
expect(_doubleValue(null).hasKnownValue, isFalse);
}
void test_hasKnownValue_dynamic() {
expect(_dynamicValue().hasKnownValue, isTrue);
}
void test_hasKnownValue_int_known() {
expect(_intValue(23).hasKnownValue, isTrue);
}
void test_hasKnownValue_int_unknown() {
expect(_intValue(null).hasKnownValue, isFalse);
}
void test_hasKnownValue_list_empty() {
expect(_listValue().hasKnownValue, isTrue);
}
void test_hasKnownValue_list_invalidElement() {
expect(_listValue([_dynamicValue()]).hasKnownValue, isTrue);
}
void test_hasKnownValue_list_valid() {
expect(_listValue([_intValue(23)]).hasKnownValue, isTrue);
}
void test_hasKnownValue_map_empty() {
expect(_mapValue().hasKnownValue, isTrue);
}
void test_hasKnownValue_map_invalidKey() {
expect(_mapValue([_dynamicValue(), _stringValue("value")]).hasKnownValue,
isTrue);
}
void test_hasKnownValue_map_invalidValue() {
expect(_mapValue([_stringValue("key"), _dynamicValue()]).hasKnownValue,
isTrue);
}
void test_hasKnownValue_map_valid() {
expect(
_mapValue([_stringValue("key"), _stringValue("value")]).hasKnownValue,
isTrue);
}
void test_hasKnownValue_null() {
expect(_nullValue().hasKnownValue, isTrue);
}
void test_hasKnownValue_num() {
expect(_numValue().hasKnownValue, isFalse);
}
void test_hasKnownValue_string_known() {
expect(_stringValue("twenty-three").hasKnownValue, isTrue);
}
void test_hasKnownValue_string_unknown() {
expect(_stringValue(null).hasKnownValue, isFalse);
}
void test_identical_bool_false() {
_assertIdentical(_boolValue(false), _boolValue(false), _boolValue(true));
}
void test_identical_bool_true() {
_assertIdentical(_boolValue(true), _boolValue(true), _boolValue(true));
}
void test_identical_bool_unknown() {
_assertIdentical(_boolValue(null), _boolValue(null), _boolValue(false));
}
void test_identical_double_false() {
_assertIdentical(_boolValue(false), _doubleValue(2.0), _doubleValue(4.0));
}
void test_identical_double_true() {
_assertIdentical(_boolValue(true), _doubleValue(2.0), _doubleValue(2.0));
}
void test_identical_double_unknown() {
_assertIdentical(_boolValue(null), _doubleValue(1.0), _doubleValue(null));
}
void test_identical_int_false() {
_assertIdentical(_boolValue(false), _intValue(-5), _intValue(5));
}
void test_identical_int_true() {
_assertIdentical(_boolValue(true), _intValue(5), _intValue(5));
}
void test_identical_int_unknown() {
_assertIdentical(_boolValue(null), _intValue(null), _intValue(3));
}
void test_identical_list_empty() {
_assertIdentical(_boolValue(true), _listValue(), _listValue());
}
void test_identical_list_false() {
_assertIdentical(
_boolValue(false), _listValue(), _listValue([_intValue(3)]));
}
void test_identical_map_empty() {
_assertIdentical(_boolValue(true), _mapValue(), _mapValue());
}
void test_identical_map_false() {
_assertIdentical(_boolValue(false), _mapValue(),
_mapValue([_intValue(1), _intValue(2)]));
}
void test_identical_null() {
_assertIdentical(_boolValue(true), _nullValue(), _nullValue());
}
void test_identical_string_false() {
_assertIdentical(
_boolValue(false), _stringValue("abc"), _stringValue("def"));
}
void test_identical_string_true() {
_assertIdentical(
_boolValue(true), _stringValue("abc"), _stringValue("abc"));
}
void test_identical_string_unknown() {
_assertIdentical(_boolValue(null), _stringValue(null), _stringValue("def"));
}
void test_integerDivide_knownDouble_knownDouble() {
_assertIntegerDivide(_intValue(3), _doubleValue(6.0), _doubleValue(2.0));
}
void test_integerDivide_knownDouble_knownInt() {
_assertIntegerDivide(_intValue(3), _doubleValue(6.0), _intValue(2));
}
void test_integerDivide_knownDouble_unknownDouble() {
_assertIntegerDivide(
_intValue(null), _doubleValue(6.0), _doubleValue(null));
}
void test_integerDivide_knownDouble_unknownInt() {
_assertIntegerDivide(_intValue(null), _doubleValue(6.0), _intValue(null));
}
void test_integerDivide_knownInt_knownInt() {
_assertIntegerDivide(_intValue(3), _intValue(6), _intValue(2));
}
void test_integerDivide_knownInt_knownString() {
_assertIntegerDivide(null, _intValue(6), _stringValue("2"));
}
void test_integerDivide_knownInt_unknownDouble() {
_assertIntegerDivide(_intValue(null), _intValue(6), _doubleValue(null));
}
void test_integerDivide_knownInt_unknownInt() {
_assertIntegerDivide(_intValue(null), _intValue(6), _intValue(null));
}
void test_integerDivide_knownString_knownInt() {
_assertIntegerDivide(null, _stringValue("6"), _intValue(2));
}
void test_integerDivide_unknownDouble_knownDouble() {
_assertIntegerDivide(
_intValue(null), _doubleValue(null), _doubleValue(2.0));
}
void test_integerDivide_unknownDouble_knownInt() {
_assertIntegerDivide(_intValue(null), _doubleValue(null), _intValue(2));
}
void test_integerDivide_unknownInt_knownDouble() {
_assertIntegerDivide(_intValue(null), _intValue(null), _doubleValue(2.0));
}
void test_integerDivide_unknownInt_knownInt() {
_assertIntegerDivide(_intValue(null), _intValue(null), _intValue(2));
}
void test_isBoolNumStringOrNull_bool_false() {
expect(_boolValue(false).isBoolNumStringOrNull, isTrue);
}
void test_isBoolNumStringOrNull_bool_true() {
expect(_boolValue(true).isBoolNumStringOrNull, isTrue);
}
void test_isBoolNumStringOrNull_bool_unknown() {
expect(_boolValue(null).isBoolNumStringOrNull, isTrue);
}
void test_isBoolNumStringOrNull_double_known() {
expect(_doubleValue(2.3).isBoolNumStringOrNull, isTrue);
}
void test_isBoolNumStringOrNull_double_unknown() {
expect(_doubleValue(null).isBoolNumStringOrNull, isTrue);
}
void test_isBoolNumStringOrNull_dynamic() {
expect(_dynamicValue().isBoolNumStringOrNull, isTrue);
}
void test_isBoolNumStringOrNull_int_known() {
expect(_intValue(23).isBoolNumStringOrNull, isTrue);
}
void test_isBoolNumStringOrNull_int_unknown() {
expect(_intValue(null).isBoolNumStringOrNull, isTrue);
}
void test_isBoolNumStringOrNull_list() {
expect(_listValue().isBoolNumStringOrNull, isFalse);
}
void test_isBoolNumStringOrNull_null() {
expect(_nullValue().isBoolNumStringOrNull, isTrue);
}
void test_isBoolNumStringOrNull_num() {
expect(_numValue().isBoolNumStringOrNull, isTrue);
}
void test_isBoolNumStringOrNull_string_known() {
expect(_stringValue("twenty-three").isBoolNumStringOrNull, isTrue);
}
void test_isBoolNumStringOrNull_string_unknown() {
expect(_stringValue(null).isBoolNumStringOrNull, isTrue);
}
void test_lessThan_knownDouble_knownDouble_false() {
_assertLessThan(_boolValue(false), _doubleValue(2.0), _doubleValue(1.0));
}
void test_lessThan_knownDouble_knownDouble_true() {
_assertLessThan(_boolValue(true), _doubleValue(1.0), _doubleValue(2.0));
}
void test_lessThan_knownDouble_knownInt_false() {
_assertLessThan(_boolValue(false), _doubleValue(2.0), _intValue(1));
}
void test_lessThan_knownDouble_knownInt_true() {
_assertLessThan(_boolValue(true), _doubleValue(1.0), _intValue(2));
}
void test_lessThan_knownDouble_unknownDouble() {
_assertLessThan(_boolValue(null), _doubleValue(1.0), _doubleValue(null));
}
void test_lessThan_knownDouble_unknownInt() {
_assertLessThan(_boolValue(null), _doubleValue(1.0), _intValue(null));
}
void test_lessThan_knownInt_knownInt_false() {
_assertLessThan(_boolValue(false), _intValue(2), _intValue(1));
}
void test_lessThan_knownInt_knownInt_true() {
_assertLessThan(_boolValue(true), _intValue(1), _intValue(2));
}
void test_lessThan_knownInt_knownString() {
_assertLessThan(null, _intValue(1), _stringValue("2"));
}
void test_lessThan_knownInt_unknownDouble() {
_assertLessThan(_boolValue(null), _intValue(1), _doubleValue(null));
}
void test_lessThan_knownInt_unknownInt() {
_assertLessThan(_boolValue(null), _intValue(1), _intValue(null));
}
void test_lessThan_knownString_knownInt() {
_assertLessThan(null, _stringValue("1"), _intValue(2));
}
void test_lessThan_unknownDouble_knownDouble() {
_assertLessThan(_boolValue(null), _doubleValue(null), _doubleValue(2.0));
}
void test_lessThan_unknownDouble_knownInt() {
_assertLessThan(_boolValue(null), _doubleValue(null), _intValue(2));
}
void test_lessThan_unknownInt_knownDouble() {
_assertLessThan(_boolValue(null), _intValue(null), _doubleValue(2.0));
}
void test_lessThan_unknownInt_knownInt() {
_assertLessThan(_boolValue(null), _intValue(null), _intValue(2));
}
void test_lessThanOrEqual_knownDouble_knownDouble_false() {
_assertLessThanOrEqual(
_boolValue(false), _doubleValue(2.0), _doubleValue(1.0));
}
void test_lessThanOrEqual_knownDouble_knownDouble_true() {
_assertLessThanOrEqual(
_boolValue(true), _doubleValue(1.0), _doubleValue(2.0));
}
void test_lessThanOrEqual_knownDouble_knownInt_false() {
_assertLessThanOrEqual(_boolValue(false), _doubleValue(2.0), _intValue(1));
}
void test_lessThanOrEqual_knownDouble_knownInt_true() {
_assertLessThanOrEqual(_boolValue(true), _doubleValue(1.0), _intValue(2));
}
void test_lessThanOrEqual_knownDouble_unknownDouble() {
_assertLessThanOrEqual(
_boolValue(null), _doubleValue(1.0), _doubleValue(null));
}
void test_lessThanOrEqual_knownDouble_unknownInt() {
_assertLessThanOrEqual(
_boolValue(null), _doubleValue(1.0), _intValue(null));
}
void test_lessThanOrEqual_knownInt_knownInt_false() {
_assertLessThanOrEqual(_boolValue(false), _intValue(2), _intValue(1));
}
void test_lessThanOrEqual_knownInt_knownInt_true() {
_assertLessThanOrEqual(_boolValue(true), _intValue(1), _intValue(2));
}
void test_lessThanOrEqual_knownInt_knownString() {
_assertLessThanOrEqual(null, _intValue(1), _stringValue("2"));
}
void test_lessThanOrEqual_knownInt_unknownDouble() {
_assertLessThanOrEqual(_boolValue(null), _intValue(1), _doubleValue(null));
}
void test_lessThanOrEqual_knownInt_unknownInt() {
_assertLessThanOrEqual(_boolValue(null), _intValue(1), _intValue(null));
}
void test_lessThanOrEqual_knownString_knownInt() {
_assertLessThanOrEqual(null, _stringValue("1"), _intValue(2));
}
void test_lessThanOrEqual_unknownDouble_knownDouble() {
_assertLessThanOrEqual(
_boolValue(null), _doubleValue(null), _doubleValue(2.0));
}
void test_lessThanOrEqual_unknownDouble_knownInt() {
_assertLessThanOrEqual(_boolValue(null), _doubleValue(null), _intValue(2));
}
void test_lessThanOrEqual_unknownInt_knownDouble() {
_assertLessThanOrEqual(
_boolValue(null), _intValue(null), _doubleValue(2.0));
}
void test_lessThanOrEqual_unknownInt_knownInt() {
_assertLessThanOrEqual(_boolValue(null), _intValue(null), _intValue(2));
}
void test_logicalAnd_false_false() {
_assertLogicalAnd(_boolValue(false), _boolValue(false), _boolValue(false));
}
void test_logicalAnd_false_null() {
expect(() {
_assertLogicalAnd(_boolValue(false), _boolValue(false), _nullValue());
}, throwsEvaluationException);
}
void test_logicalAnd_false_string() {
expect(() {
_assertLogicalAnd(
_boolValue(false), _boolValue(false), _stringValue("false"));
}, throwsEvaluationException);
}
void test_logicalAnd_false_true() {
_assertLogicalAnd(_boolValue(false), _boolValue(false), _boolValue(true));
}
void test_logicalAnd_null_false() {
expect(() {
_assertLogicalAnd(_boolValue(false), _nullValue(), _boolValue(false));
}, throwsEvaluationException);
}
void test_logicalAnd_null_true() {
expect(() {
_assertLogicalAnd(_boolValue(false), _nullValue(), _boolValue(true));
}, throwsEvaluationException);
}
void test_logicalAnd_string_false() {
expect(() {
_assertLogicalAnd(
_boolValue(false), _stringValue("true"), _boolValue(false));
}, throwsEvaluationException);
}
void test_logicalAnd_string_true() {
expect(() {
_assertLogicalAnd(
_boolValue(false), _stringValue("false"), _boolValue(true));
}, throwsEvaluationException);
}
void test_logicalAnd_true_false() {
_assertLogicalAnd(_boolValue(false), _boolValue(true), _boolValue(false));
}
void test_logicalAnd_true_null() {
_assertLogicalAnd(null, _boolValue(true), _nullValue());
}
void test_logicalAnd_true_string() {
expect(() {
_assertLogicalAnd(
_boolValue(false), _boolValue(true), _stringValue("true"));
}, throwsEvaluationException);
}
void test_logicalAnd_true_true() {
_assertLogicalAnd(_boolValue(true), _boolValue(true), _boolValue(true));
}
void test_logicalNot_false() {
_assertLogicalNot(_boolValue(true), _boolValue(false));
}
void test_logicalNot_null() {
_assertLogicalNot(null, _nullValue());
}
void test_logicalNot_string() {
expect(() {
_assertLogicalNot(_boolValue(true), _stringValue(null));
}, throwsEvaluationException);
}
void test_logicalNot_true() {
_assertLogicalNot(_boolValue(false), _boolValue(true));
}
void test_logicalNot_unknown() {
_assertLogicalNot(_boolValue(null), _boolValue(null));
}
void test_logicalOr_false_false() {
_assertLogicalOr(_boolValue(false), _boolValue(false), _boolValue(false));
}
void test_logicalOr_false_null() {
_assertLogicalOr(null, _boolValue(false), _nullValue());
}
void test_logicalOr_false_string() {
expect(() {
_assertLogicalOr(
_boolValue(false), _boolValue(false), _stringValue("false"));
}, throwsEvaluationException);
}
void test_logicalOr_false_true() {
_assertLogicalOr(_boolValue(true), _boolValue(false), _boolValue(true));
}
void test_logicalOr_null_false() {
expect(() {
_assertLogicalOr(_boolValue(false), _nullValue(), _boolValue(false));
}, throwsEvaluationException);
}
void test_logicalOr_null_true() {
expect(() {
_assertLogicalOr(_boolValue(true), _nullValue(), _boolValue(true));
}, throwsEvaluationException);
}
void test_logicalOr_string_false() {
expect(() {
_assertLogicalOr(
_boolValue(false), _stringValue("true"), _boolValue(false));
}, throwsEvaluationException);
}
void test_logicalOr_string_true() {
expect(() {
_assertLogicalOr(
_boolValue(true), _stringValue("false"), _boolValue(true));
}, throwsEvaluationException);
}
void test_logicalOr_true_false() {
_assertLogicalOr(_boolValue(true), _boolValue(true), _boolValue(false));
}
void test_logicalOr_true_null() {
expect(() {
_assertLogicalOr(_boolValue(true), _boolValue(true), _nullValue());
}, throwsEvaluationException);
}
void test_logicalOr_true_string() {
expect(() {
_assertLogicalOr(
_boolValue(true), _boolValue(true), _stringValue("true"));
}, throwsEvaluationException);
}
void test_logicalOr_true_true() {
_assertLogicalOr(_boolValue(true), _boolValue(true), _boolValue(true));
}
void test_minus_knownDouble_knownDouble() {
_assertMinus(_doubleValue(1.0), _doubleValue(4.0), _doubleValue(3.0));
}
void test_minus_knownDouble_knownInt() {
_assertMinus(_doubleValue(1.0), _doubleValue(4.0), _intValue(3));
}
void test_minus_knownDouble_unknownDouble() {
_assertMinus(_doubleValue(null), _doubleValue(4.0), _doubleValue(null));
}
void test_minus_knownDouble_unknownInt() {
_assertMinus(_doubleValue(null), _doubleValue(4.0), _intValue(null));
}
void test_minus_knownInt_knownInt() {
_assertMinus(_intValue(1), _intValue(4), _intValue(3));
}
void test_minus_knownInt_knownString() {
_assertMinus(null, _intValue(4), _stringValue("3"));
}
void test_minus_knownInt_unknownDouble() {
_assertMinus(_doubleValue(null), _intValue(4), _doubleValue(null));
}
void test_minus_knownInt_unknownInt() {
_assertMinus(_intValue(null), _intValue(4), _intValue(null));
}
void test_minus_knownString_knownInt() {
_assertMinus(null, _stringValue("4"), _intValue(3));
}
void test_minus_unknownDouble_knownDouble() {
_assertMinus(_doubleValue(null), _doubleValue(null), _doubleValue(3.0));
}
void test_minus_unknownDouble_knownInt() {
_assertMinus(_doubleValue(null), _doubleValue(null), _intValue(3));
}
void test_minus_unknownInt_knownDouble() {
_assertMinus(_doubleValue(null), _intValue(null), _doubleValue(3.0));
}
void test_minus_unknownInt_knownInt() {
_assertMinus(_intValue(null), _intValue(null), _intValue(3));
}
void test_negated_double_known() {
_assertNegated(_doubleValue(2.0), _doubleValue(-2.0));
}
void test_negated_double_unknown() {
_assertNegated(_doubleValue(null), _doubleValue(null));
}
void test_negated_int_known() {
_assertNegated(_intValue(-3), _intValue(3));
}
void test_negated_int_unknown() {
_assertNegated(_intValue(null), _intValue(null));
}
void test_negated_string() {
_assertNegated(null, _stringValue(null));
}
void test_notEqual_bool_false() {
_assertNotEqual(_boolValue(false), _boolValue(true), _boolValue(true));
}
void test_notEqual_bool_true() {
_assertNotEqual(_boolValue(true), _boolValue(false), _boolValue(true));
}
void test_notEqual_bool_unknown() {
_assertNotEqual(_boolValue(null), _boolValue(null), _boolValue(false));
}
void test_notEqual_double_false() {
_assertNotEqual(_boolValue(false), _doubleValue(2.0), _doubleValue(2.0));
}
void test_notEqual_double_true() {
_assertNotEqual(_boolValue(true), _doubleValue(2.0), _doubleValue(4.0));
}
void test_notEqual_double_unknown() {
_assertNotEqual(_boolValue(null), _doubleValue(1.0), _doubleValue(null));
}
void test_notEqual_int_false() {
_assertNotEqual(_boolValue(false), _intValue(5), _intValue(5));
}
void test_notEqual_int_true() {
_assertNotEqual(_boolValue(true), _intValue(-5), _intValue(5));
}
void test_notEqual_int_unknown() {
_assertNotEqual(_boolValue(null), _intValue(null), _intValue(3));
}
void test_notEqual_null() {
_assertNotEqual(_boolValue(false), _nullValue(), _nullValue());
}
void test_notEqual_string_false() {
_assertNotEqual(
_boolValue(false), _stringValue("abc"), _stringValue("abc"));
}
void test_notEqual_string_true() {
_assertNotEqual(_boolValue(true), _stringValue("abc"), _stringValue("def"));
}
void test_notEqual_string_unknown() {
_assertNotEqual(_boolValue(null), _stringValue(null), _stringValue("def"));
}
void test_performToString_bool_false() {
_assertPerformToString(_stringValue("false"), _boolValue(false));
}
void test_performToString_bool_true() {
_assertPerformToString(_stringValue("true"), _boolValue(true));
}
void test_performToString_bool_unknown() {
_assertPerformToString(_stringValue(null), _boolValue(null));
}
void test_performToString_double_known() {
_assertPerformToString(_stringValue("2.0"), _doubleValue(2.0));
}
void test_performToString_double_unknown() {
_assertPerformToString(_stringValue(null), _doubleValue(null));
}
void test_performToString_int_known() {
_assertPerformToString(_stringValue("5"), _intValue(5));
}
void test_performToString_int_unknown() {
_assertPerformToString(_stringValue(null), _intValue(null));
}
void test_performToString_null() {
_assertPerformToString(_stringValue("null"), _nullValue());
}
void test_performToString_string_known() {
_assertPerformToString(_stringValue("abc"), _stringValue("abc"));
}
void test_performToString_string_unknown() {
_assertPerformToString(_stringValue(null), _stringValue(null));
}
void test_remainder_knownDouble_knownDouble() {
_assertRemainder(_doubleValue(1.0), _doubleValue(7.0), _doubleValue(2.0));
}
void test_remainder_knownDouble_knownInt() {
_assertRemainder(_doubleValue(1.0), _doubleValue(7.0), _intValue(2));
}
void test_remainder_knownDouble_unknownDouble() {
_assertRemainder(_doubleValue(null), _doubleValue(7.0), _doubleValue(null));
}
void test_remainder_knownDouble_unknownInt() {
_assertRemainder(_doubleValue(null), _doubleValue(6.0), _intValue(null));
}
void test_remainder_knownInt_knownInt() {
_assertRemainder(_intValue(1), _intValue(7), _intValue(2));
}
void test_remainder_knownInt_knownString() {
_assertRemainder(null, _intValue(7), _stringValue("2"));
}
void test_remainder_knownInt_unknownDouble() {
_assertRemainder(_doubleValue(null), _intValue(7), _doubleValue(null));
}
void test_remainder_knownInt_unknownInt() {
_assertRemainder(_intValue(null), _intValue(7), _intValue(null));
}
void test_remainder_knownString_knownInt() {
_assertRemainder(null, _stringValue("7"), _intValue(2));
}
void test_remainder_unknownDouble_knownDouble() {
_assertRemainder(_doubleValue(null), _doubleValue(null), _doubleValue(2.0));
}
void test_remainder_unknownDouble_knownInt() {
_assertRemainder(_doubleValue(null), _doubleValue(null), _intValue(2));
}
void test_remainder_unknownInt_knownDouble() {
_assertRemainder(_doubleValue(null), _intValue(null), _doubleValue(2.0));
}
void test_remainder_unknownInt_knownInt() {
_assertRemainder(_intValue(null), _intValue(null), _intValue(2));
}
void test_shiftLeft_knownInt_knownInt() {
_assertShiftLeft(_intValue(48), _intValue(6), _intValue(3));
}
void test_shiftLeft_knownInt_knownString() {
_assertShiftLeft(null, _intValue(6), _stringValue(null));
}
void test_shiftLeft_knownInt_tooLarge() {
_assertShiftLeft(
_intValue(null),
_intValue(6),
new DartObjectImpl(
_typeProvider.intType, new IntState(LONG_MAX_VALUE)));
}
void test_shiftLeft_knownInt_unknownInt() {
_assertShiftLeft(_intValue(null), _intValue(6), _intValue(null));
}
void test_shiftLeft_knownString_knownInt() {
_assertShiftLeft(null, _stringValue(null), _intValue(3));
}
void test_shiftLeft_unknownInt_knownInt() {
_assertShiftLeft(_intValue(null), _intValue(null), _intValue(3));
}
void test_shiftLeft_unknownInt_unknownInt() {
_assertShiftLeft(_intValue(null), _intValue(null), _intValue(null));
}
void test_shiftRight_knownInt_knownInt() {
_assertShiftRight(_intValue(6), _intValue(48), _intValue(3));
}
void test_shiftRight_knownInt_knownString() {
_assertShiftRight(null, _intValue(48), _stringValue(null));
}
void test_shiftRight_knownInt_tooLarge() {
_assertShiftRight(
_intValue(null),
_intValue(48),
new DartObjectImpl(
_typeProvider.intType, new IntState(LONG_MAX_VALUE)));
}
void test_shiftRight_knownInt_unknownInt() {
_assertShiftRight(_intValue(null), _intValue(48), _intValue(null));
}
void test_shiftRight_knownString_knownInt() {
_assertShiftRight(null, _stringValue(null), _intValue(3));
}
void test_shiftRight_unknownInt_knownInt() {
_assertShiftRight(_intValue(null), _intValue(null), _intValue(3));
}
void test_shiftRight_unknownInt_unknownInt() {
_assertShiftRight(_intValue(null), _intValue(null), _intValue(null));
}
void test_stringLength_int() {
expect(() {
_assertStringLength(_intValue(null), _intValue(0));
}, throwsEvaluationException);
}
void test_stringLength_knownString() {
_assertStringLength(_intValue(3), _stringValue("abc"));
}
void test_stringLength_unknownString() {
_assertStringLength(_intValue(null), _stringValue(null));
}
void test_times_knownDouble_knownDouble() {
_assertTimes(_doubleValue(6.0), _doubleValue(2.0), _doubleValue(3.0));
}
void test_times_knownDouble_knownInt() {
_assertTimes(_doubleValue(6.0), _doubleValue(2.0), _intValue(3));
}
void test_times_knownDouble_unknownDouble() {
_assertTimes(_doubleValue(null), _doubleValue(2.0), _doubleValue(null));
}
void test_times_knownDouble_unknownInt() {
_assertTimes(_doubleValue(null), _doubleValue(2.0), _intValue(null));
}
void test_times_knownInt_knownInt() {
_assertTimes(_intValue(6), _intValue(2), _intValue(3));
}
void test_times_knownInt_knownString() {
_assertTimes(null, _intValue(2), _stringValue("3"));
}
void test_times_knownInt_unknownDouble() {
_assertTimes(_doubleValue(null), _intValue(2), _doubleValue(null));
}
void test_times_knownInt_unknownInt() {
_assertTimes(_intValue(null), _intValue(2), _intValue(null));
}
void test_times_knownString_knownInt() {
_assertTimes(null, _stringValue("2"), _intValue(3));
}
void test_times_unknownDouble_knownDouble() {
_assertTimes(_doubleValue(null), _doubleValue(null), _doubleValue(3.0));
}
void test_times_unknownDouble_knownInt() {
_assertTimes(_doubleValue(null), _doubleValue(null), _intValue(3));
}
void test_times_unknownInt_knownDouble() {
_assertTimes(_doubleValue(null), _intValue(null), _doubleValue(3.0));
}
void test_times_unknownInt_knownInt() {
_assertTimes(_intValue(null), _intValue(null), _intValue(3));
}
/**
* Assert that the result of adding the [left] and [right] operands is the
* [expected] value, or that the operation throws an exception if the expected
* value is `null`.
*/
void _assertAdd(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.add(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.add(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of bit-anding the [left] and [right] operands is the
* [expected] value, or that the operation throws an exception if the expected
* value is `null`.
*/
void _assertBitAnd(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.bitAnd(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.bitAnd(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the bit-not of the [operand] is the [expected] value, or that
* the operation throws an exception if the expected value is `null`.
*/
void _assertBitNot(DartObjectImpl expected, DartObjectImpl operand) {
if (expected == null) {
expect(() {
operand.bitNot(_typeProvider);
}, throwsEvaluationException);
} else {
DartObjectImpl result = operand.bitNot(_typeProvider);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of bit-oring the [left] and [right] operands is the
* [expected] value, or that the operation throws an exception if the expected
* value is `null`.
*/
void _assertBitOr(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.bitOr(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.bitOr(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of bit-xoring the [left] and [right] operands is the
* [expected] value, or that the operation throws an exception if the expected
* value is `null`.
*/
void _assertBitXor(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.bitXor(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.bitXor(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of concatenating the [left] and [right] operands is
* the [expected] value, or that the operation throws an exception if the
* expected value is `null`.
*/
void _assertConcatenate(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.concatenate(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.concatenate(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of dividing the [left] and [right] operands is the
* [expected] value, or that the operation throws an exception if the expected
* value is `null`.
*/
void _assertDivide(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.divide(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.divide(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of comparing the [left] and [right] operands for
* equality is the [expected] value, or that the operation throws an exception
* if the expected value is `null`.
*/
void _assertEqualEqual(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.equalEqual(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.equalEqual(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of comparing the [left] and [right] operands is the
* [expected] value, or that the operation throws an exception if the expected
* value is `null`.
*/
void _assertGreaterThan(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.greaterThan(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.greaterThan(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of comparing the [left] and [right] operands is the
* [expected] value, or that the operation throws an exception if the expected
* value is `null`.
*/
void _assertGreaterThanOrEqual(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.greaterThanOrEqual(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.greaterThanOrEqual(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of comparing the [left] and [right] operands using
* identical() is the expected value.
*/
void _assertIdentical(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
DartObjectImpl result = left.isIdentical(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
void _assertInstanceOfObjectArray(Object result) {
// TODO(scheglov) implement
}
/**
* Assert that the result of dividing the [left] and [right] operands as
* integers is the [expected] value, or that the operation throws an exception
* if the expected value is `null`.
*/
void _assertIntegerDivide(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.integerDivide(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.integerDivide(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of comparing the [left] and [right] operands is the
* [expected] value, or that the operation throws an exception if the expected
* value is `null`.
*/
void _assertLessThan(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.lessThan(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.lessThan(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of comparing the [left] and [right] operands is the
* [expected] value, or that the operation throws an exception if the expected
* value is `null`.
*/
void _assertLessThanOrEqual(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.lessThanOrEqual(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.lessThanOrEqual(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of logical-anding the [left] and [right] operands is
* the [expected] value, or that the operation throws an exception if the
* expected value is `null`.
*/
void _assertLogicalAnd(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.logicalAnd(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.logicalAnd(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the logical-not of the [operand] is the [expected] value, or
* that the operation throws an exception if the expected value is `null`.
*/
void _assertLogicalNot(DartObjectImpl expected, DartObjectImpl operand) {
if (expected == null) {
expect(() {
operand.logicalNot(_typeProvider);
}, throwsEvaluationException);
} else {
DartObjectImpl result = operand.logicalNot(_typeProvider);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of logical-oring the [left] and [right] operands is
* the [expected] value, or that the operation throws an exception if the
* expected value is `null`.
*/
void _assertLogicalOr(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.logicalOr(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.logicalOr(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of subtracting the [left] and [right] operands is
* the [expected] value, or that the operation throws an exception if the
* expected value is `null`.
*/
void _assertMinus(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.minus(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.minus(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the negation of the [operand] is the [expected] value, or that
* the operation throws an exception if the expected value is `null`.
*/
void _assertNegated(DartObjectImpl expected, DartObjectImpl operand) {
if (expected == null) {
expect(() {
operand.negated(_typeProvider);
}, throwsEvaluationException);
} else {
DartObjectImpl result = operand.negated(_typeProvider);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of comparing the [left] and [right] operands for
* inequality is the [expected] value, or that the operation throws an
* exception if the expected value is `null`.
*/
void _assertNotEqual(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.notEqual(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.notEqual(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that converting the [operand] to a string is the [expected] value,
* or that the operation throws an exception if the expected value is `null`.
*/
void _assertPerformToString(DartObjectImpl expected, DartObjectImpl operand) {
if (expected == null) {
expect(() {
operand.performToString(_typeProvider);
}, throwsEvaluationException);
} else {
DartObjectImpl result = operand.performToString(_typeProvider);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of taking the remainder of the [left] and [right]
* operands is the [expected] value, or that the operation throws an exception
* if the expected value is `null`.
*/
void _assertRemainder(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.remainder(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.remainder(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of multiplying the [left] and [right] operands is
* the [expected] value, or that the operation throws an exception if the
* expected value is `null`.
*/
void _assertShiftLeft(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.shiftLeft(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.shiftLeft(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of multiplying the [left] and [right] operands is
* the [expected] value, or that the operation throws an exception if the
* expected value is `null`.
*/
void _assertShiftRight(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.shiftRight(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.shiftRight(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the length of the [operand] is the [expected] value, or that
* the operation throws an exception if the expected value is `null`.
*/
void _assertStringLength(DartObjectImpl expected, DartObjectImpl operand) {
if (expected == null) {
expect(() {
operand.stringLength(_typeProvider);
}, throwsEvaluationException);
} else {
DartObjectImpl result = operand.stringLength(_typeProvider);
expect(result, isNotNull);
expect(result, expected);
}
}
/**
* Assert that the result of multiplying the [left] and [right] operands is
* the [expected] value, or that the operation throws an exception if the
* expected value is `null`.
*/
void _assertTimes(
DartObjectImpl expected, DartObjectImpl left, DartObjectImpl right) {
if (expected == null) {
expect(() {
left.times(_typeProvider, right);
}, throwsEvaluationException);
} else {
DartObjectImpl result = left.times(_typeProvider, right);
expect(result, isNotNull);
expect(result, expected);
}
}
DartObjectImpl _boolValue(bool value) {
if (value == null) {
return new DartObjectImpl(
_typeProvider.boolType, BoolState.UNKNOWN_VALUE);
} else if (identical(value, false)) {
return new DartObjectImpl(_typeProvider.boolType, BoolState.FALSE_STATE);
} else if (identical(value, true)) {
return new DartObjectImpl(_typeProvider.boolType, BoolState.TRUE_STATE);
}
fail("Invalid boolean value used in test");
return null;
}
DartObjectImpl _doubleValue(double value) {
if (value == null) {
return new DartObjectImpl(
_typeProvider.doubleType, DoubleState.UNKNOWN_VALUE);
} else {
return new DartObjectImpl(
_typeProvider.doubleType, new DoubleState(value));
}
}
DartObjectImpl _dynamicValue() {
return new DartObjectImpl(
_typeProvider.nullType, DynamicState.DYNAMIC_STATE);
}
DartObjectImpl _intValue(int value) {
if (value == null) {
return new DartObjectImpl(_typeProvider.intType, IntState.UNKNOWN_VALUE);
} else {
return new DartObjectImpl(_typeProvider.intType, new IntState(value));
}
}
DartObjectImpl _listValue(
[List<DartObjectImpl> elements = DartObjectImpl.EMPTY_LIST]) {
return new DartObjectImpl(_typeProvider.listType, new ListState(elements));
}
DartObjectImpl _mapValue(
[List<DartObjectImpl> keyElementPairs = DartObjectImpl.EMPTY_LIST]) {
Map<DartObjectImpl, DartObjectImpl> map =
new Map<DartObjectImpl, DartObjectImpl>();
int count = keyElementPairs.length;
for (int i = 0; i < count;) {
map[keyElementPairs[i++]] = keyElementPairs[i++];
}
return new DartObjectImpl(_typeProvider.mapType, new MapState(map));
}
DartObjectImpl _nullValue() {
return new DartObjectImpl(_typeProvider.nullType, NullState.NULL_STATE);
}
DartObjectImpl _numValue() {
return new DartObjectImpl(_typeProvider.nullType, NumState.UNKNOWN_VALUE);
}
DartObjectImpl _stringValue(String value) {
if (value == null) {
return new DartObjectImpl(
_typeProvider.stringType, StringState.UNKNOWN_VALUE);
} else {
return new DartObjectImpl(
_typeProvider.stringType, new StringState(value));
}
}
DartObjectImpl _symbolValue(String value) {
return new DartObjectImpl(_typeProvider.symbolType, new SymbolState(value));
}
}