// Copyright 2013 The Flutter Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "flutter/shell/platform/linux/public/flutter_linux/fl_value.h" #include #include "gtest/gtest.h" TEST(FlDartProjectTest, Null) { g_autoptr(FlValue) value = fl_value_new_null(); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_NULL); } TEST(FlValueTest, NullEqual) { g_autoptr(FlValue) value1 = fl_value_new_null(); g_autoptr(FlValue) value2 = fl_value_new_null(); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, NullToString) { g_autoptr(FlValue) value = fl_value_new_null(); g_autofree gchar* text = fl_value_to_string(value); EXPECT_STREQ(text, "null"); } TEST(FlValueTest, BoolTrue) { g_autoptr(FlValue) value = fl_value_new_bool(TRUE); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_BOOL); EXPECT_TRUE(fl_value_get_bool(value)); } TEST(FlValueTest, BoolFalse) { g_autoptr(FlValue) value = fl_value_new_bool(FALSE); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_BOOL); EXPECT_FALSE(fl_value_get_bool(value)); } TEST(FlValueTest, BoolEqual) { g_autoptr(FlValue) value1 = fl_value_new_bool(TRUE); g_autoptr(FlValue) value2 = fl_value_new_bool(TRUE); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, BoolNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_bool(TRUE); g_autoptr(FlValue) value2 = fl_value_new_bool(FALSE); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, BoolTrueToString) { g_autoptr(FlValue) value = fl_value_new_bool(TRUE); g_autofree gchar* text = fl_value_to_string(value); EXPECT_STREQ(text, "true"); } TEST(FlValueTest, BoolFalseToString) { g_autoptr(FlValue) value = fl_value_new_bool(FALSE); g_autofree gchar* text = fl_value_to_string(value); EXPECT_STREQ(text, "false"); } TEST(FlValueTest, IntZero) { g_autoptr(FlValue) value = fl_value_new_int(0); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_int(value), 0); } TEST(FlValueTest, IntOne) { g_autoptr(FlValue) value = fl_value_new_int(1); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_int(value), 1); } TEST(FlValueTest, IntMinusOne) { g_autoptr(FlValue) value = fl_value_new_int(-1); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_int(value), -1); } TEST(FlValueTest, IntMin) { g_autoptr(FlValue) value = fl_value_new_int(G_MININT64); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_int(value), G_MININT64); } TEST(FlValueTest, IntMax) { g_autoptr(FlValue) value = fl_value_new_int(G_MAXINT64); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_int(value), G_MAXINT64); } TEST(FlValueTest, IntEqual) { g_autoptr(FlValue) value1 = fl_value_new_int(42); g_autoptr(FlValue) value2 = fl_value_new_int(42); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, IntNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_int(42); g_autoptr(FlValue) value2 = fl_value_new_int(99); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, IntToString) { g_autoptr(FlValue) value = fl_value_new_int(42); g_autofree gchar* text = fl_value_to_string(value); EXPECT_STREQ(text, "42"); } TEST(FlValueTest, FloatZero) { g_autoptr(FlValue) value = fl_value_new_float(0.0); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_FLOAT); EXPECT_EQ(fl_value_get_float(value), 0.0); } TEST(FlValueTest, FloatOne) { g_autoptr(FlValue) value = fl_value_new_float(1.0); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_FLOAT); EXPECT_EQ(fl_value_get_float(value), 1.0); } TEST(FlValueTest, FloatMinusOne) { g_autoptr(FlValue) value = fl_value_new_float(-1.0); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_FLOAT); EXPECT_EQ(fl_value_get_float(value), -1.0); } TEST(FlValueTest, FloatPi) { g_autoptr(FlValue) value = fl_value_new_float(M_PI); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_FLOAT); EXPECT_EQ(fl_value_get_float(value), M_PI); } TEST(FlValueTest, FloatEqual) { g_autoptr(FlValue) value1 = fl_value_new_float(M_PI); g_autoptr(FlValue) value2 = fl_value_new_float(M_PI); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, FloatNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_float(M_PI); g_autoptr(FlValue) value2 = fl_value_new_float(M_E); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, FloatToString) { g_autoptr(FlValue) value = fl_value_new_float(M_PI); g_autofree gchar* text = fl_value_to_string(value); EXPECT_STREQ(text, "3.1415926535897931"); } TEST(FlValueTest, String) { g_autoptr(FlValue) value = fl_value_new_string("hello"); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_STRING); EXPECT_STREQ(fl_value_get_string(value), "hello"); } TEST(FlValueTest, StringEmpty) { g_autoptr(FlValue) value = fl_value_new_string(""); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_STRING); EXPECT_STREQ(fl_value_get_string(value), ""); } TEST(FlValueTest, StringSized) { g_autoptr(FlValue) value = fl_value_new_string_sized("hello", 2); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_STRING); EXPECT_STREQ(fl_value_get_string(value), "he"); } TEST(FlValueTest, StringSizedNullptr) { g_autoptr(FlValue) value = fl_value_new_string_sized(nullptr, 0); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_STRING); EXPECT_STREQ(fl_value_get_string(value), ""); } TEST(FlValueTest, StringSizedZeroLength) { g_autoptr(FlValue) value = fl_value_new_string_sized("hello", 0); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_STRING); EXPECT_STREQ(fl_value_get_string(value), ""); } TEST(FlValueTest, StringEqual) { g_autoptr(FlValue) value1 = fl_value_new_string("hello"); g_autoptr(FlValue) value2 = fl_value_new_string("hello"); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, StringNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_string("hello"); g_autoptr(FlValue) value2 = fl_value_new_string("world"); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, StringToString) { g_autoptr(FlValue) value = fl_value_new_string("hello"); g_autofree gchar* text = fl_value_to_string(value); EXPECT_STREQ(text, "hello"); } TEST(FlValueTest, Uint8List) { uint8_t data[] = {0x00, 0x01, 0xFE, 0xFF}; g_autoptr(FlValue) value = fl_value_new_uint8_list(data, 4); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_UINT8_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(4)); EXPECT_EQ(fl_value_get_uint8_list(value)[0], 0x00); EXPECT_EQ(fl_value_get_uint8_list(value)[1], 0x01); EXPECT_EQ(fl_value_get_uint8_list(value)[2], 0xFE); EXPECT_EQ(fl_value_get_uint8_list(value)[3], 0xFF); } TEST(FlValueTest, Uint8ListNullptr) { g_autoptr(FlValue) value = fl_value_new_uint8_list(nullptr, 0); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_UINT8_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(0)); } TEST(FlValueTest, Uint8ListEqual) { uint8_t data1[] = {1, 2, 3}; g_autoptr(FlValue) value1 = fl_value_new_uint8_list(data1, 3); uint8_t data2[] = {1, 2, 3}; g_autoptr(FlValue) value2 = fl_value_new_uint8_list(data2, 3); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Uint8ListEmptyEqual) { g_autoptr(FlValue) value1 = fl_value_new_uint8_list(nullptr, 0); g_autoptr(FlValue) value2 = fl_value_new_uint8_list(nullptr, 0); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Uint8ListNotEqualSameSize) { uint8_t data1[] = {1, 2, 3}; g_autoptr(FlValue) value1 = fl_value_new_uint8_list(data1, 3); uint8_t data2[] = {1, 2, 4}; g_autoptr(FlValue) value2 = fl_value_new_uint8_list(data2, 3); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Uint8ListNotEqualDifferentSize) { uint8_t data1[] = {1, 2, 3}; g_autoptr(FlValue) value1 = fl_value_new_uint8_list(data1, 3); uint8_t data2[] = {1, 2, 3, 4}; g_autoptr(FlValue) value2 = fl_value_new_uint8_list(data2, 4); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Uint8ListEmptyNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_uint8_list(nullptr, 0); uint8_t data[] = {1, 2, 3}; g_autoptr(FlValue) value2 = fl_value_new_uint8_list(data, 3); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Uint8ListToString) { uint8_t data[] = {0x00, 0x01, 0xFE, 0xFF}; g_autoptr(FlValue) value = fl_value_new_uint8_list(data, 4); g_autofree gchar* text = fl_value_to_string(value); EXPECT_STREQ(text, "[0, 1, 254, 255]"); } TEST(FlValueTest, Int32List) { int32_t data[] = {0, -1, G_MAXINT32, G_MININT32}; g_autoptr(FlValue) value = fl_value_new_int32_list(data, 4); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_INT32_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(4)); EXPECT_EQ(fl_value_get_int32_list(value)[0], 0); EXPECT_EQ(fl_value_get_int32_list(value)[1], -1); EXPECT_EQ(fl_value_get_int32_list(value)[2], G_MAXINT32); EXPECT_EQ(fl_value_get_int32_list(value)[3], G_MININT32); } TEST(FlValueTest, Int32ListNullptr) { g_autoptr(FlValue) value = fl_value_new_int32_list(nullptr, 0); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_INT32_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(0)); } TEST(FlValueTest, Int32ListEqual) { int32_t data1[] = {0, G_MAXINT32, G_MININT32}; g_autoptr(FlValue) value1 = fl_value_new_int32_list(data1, 3); int32_t data2[] = {0, G_MAXINT32, G_MININT32}; g_autoptr(FlValue) value2 = fl_value_new_int32_list(data2, 3); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Int32ListEmptyEqual) { g_autoptr(FlValue) value1 = fl_value_new_int32_list(nullptr, 0); g_autoptr(FlValue) value2 = fl_value_new_int32_list(nullptr, 0); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Int32ListNotEqualSameSize) { int32_t data1[] = {0, G_MAXINT32, G_MININT32}; g_autoptr(FlValue) value1 = fl_value_new_int32_list(data1, 3); int32_t data2[] = {0, G_MININT32, G_MAXINT32}; g_autoptr(FlValue) value2 = fl_value_new_int32_list(data2, 3); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Int32ListNotEqualDifferentSize) { int32_t data1[] = {0, G_MAXINT32, G_MININT32}; g_autoptr(FlValue) value1 = fl_value_new_int32_list(data1, 3); int32_t data2[] = {0, G_MAXINT32, G_MININT32, -1}; g_autoptr(FlValue) value2 = fl_value_new_int32_list(data2, 4); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Int32ListEmptyNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_int32_list(nullptr, 0); int32_t data[] = {0, G_MAXINT32, G_MININT32}; g_autoptr(FlValue) value2 = fl_value_new_int32_list(data, 3); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Int32ListToString) { int32_t data[] = {0, G_MAXINT32, G_MININT32}; g_autoptr(FlValue) value = fl_value_new_int32_list(data, 3); g_autofree gchar* text = fl_value_to_string(value); EXPECT_STREQ(text, "[0, 2147483647, -2147483648]"); } TEST(FlValueTest, Int64List) { int64_t data[] = {0, -1, G_MAXINT64, G_MININT64}; g_autoptr(FlValue) value = fl_value_new_int64_list(data, 4); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_INT64_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(4)); EXPECT_EQ(fl_value_get_int64_list(value)[0], 0); EXPECT_EQ(fl_value_get_int64_list(value)[1], -1); EXPECT_EQ(fl_value_get_int64_list(value)[2], G_MAXINT64); EXPECT_EQ(fl_value_get_int64_list(value)[3], G_MININT64); } TEST(FlValueTest, Int64ListNullptr) { g_autoptr(FlValue) value = fl_value_new_int64_list(nullptr, 0); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_INT64_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(0)); } TEST(FlValueTest, Int64ListEqual) { int64_t data1[] = {0, G_MAXINT64, G_MININT64}; g_autoptr(FlValue) value1 = fl_value_new_int64_list(data1, 3); int64_t data2[] = {0, G_MAXINT64, G_MININT64}; g_autoptr(FlValue) value2 = fl_value_new_int64_list(data2, 3); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Int64ListEmptyEqual) { g_autoptr(FlValue) value1 = fl_value_new_int64_list(nullptr, 0); g_autoptr(FlValue) value2 = fl_value_new_int64_list(nullptr, 0); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Int64ListNotEqualSameSize) { int64_t data1[] = {0, G_MAXINT64, G_MININT64}; g_autoptr(FlValue) value1 = fl_value_new_int64_list(data1, 3); int64_t data2[] = {0, G_MININT64, G_MAXINT64}; g_autoptr(FlValue) value2 = fl_value_new_int64_list(data2, 3); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Int64ListNotEqualDifferentSize) { int64_t data1[] = {0, G_MAXINT64, G_MININT64}; g_autoptr(FlValue) value1 = fl_value_new_int64_list(data1, 3); int64_t data2[] = {0, G_MAXINT64, G_MININT64, -1}; g_autoptr(FlValue) value2 = fl_value_new_int64_list(data2, 4); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Int64ListEmptyNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_int64_list(nullptr, 0); int64_t data[] = {0, G_MAXINT64, G_MININT64}; g_autoptr(FlValue) value2 = fl_value_new_int64_list(data, 3); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Int64ListToString) { int64_t data[] = {0, G_MAXINT64, G_MININT64}; g_autoptr(FlValue) value = fl_value_new_int64_list(data, 3); g_autofree gchar* text = fl_value_to_string(value); EXPECT_STREQ(text, "[0, 9223372036854775807, -9223372036854775808]"); } TEST(FlValueTest, FloatList) { double data[] = {0.0, -1.0, M_PI}; g_autoptr(FlValue) value = fl_value_new_float_list(data, 4); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_FLOAT_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(4)); EXPECT_EQ(fl_value_get_float_list(value)[0], 0); EXPECT_EQ(fl_value_get_float_list(value)[1], -1.0); EXPECT_EQ(fl_value_get_float_list(value)[2], M_PI); } TEST(FlValueTest, FloatListNullptr) { g_autoptr(FlValue) value = fl_value_new_float_list(nullptr, 0); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_FLOAT_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(0)); } TEST(FlValueTest, FloatListEqual) { double data1[] = {0, -0.5, M_PI}; g_autoptr(FlValue) value1 = fl_value_new_float_list(data1, 3); double data2[] = {0, -0.5, M_PI}; g_autoptr(FlValue) value2 = fl_value_new_float_list(data2, 3); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, FloatListEmptyEqual) { g_autoptr(FlValue) value1 = fl_value_new_float_list(nullptr, 0); g_autoptr(FlValue) value2 = fl_value_new_float_list(nullptr, 0); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, FloatListNotEqualSameSize) { double data1[] = {0, -0.5, M_PI}; g_autoptr(FlValue) value1 = fl_value_new_float_list(data1, 3); double data2[] = {0, -0.5, M_E}; g_autoptr(FlValue) value2 = fl_value_new_float_list(data2, 3); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, FloatListNotEqualDifferentSize) { double data1[] = {0, -0.5, M_PI}; g_autoptr(FlValue) value1 = fl_value_new_float_list(data1, 3); double data2[] = {0, -0.5, M_PI, 42}; g_autoptr(FlValue) value2 = fl_value_new_float_list(data2, 4); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, FloatListEmptyNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_float_list(nullptr, 0); double data[] = {0, -0.5, M_PI}; g_autoptr(FlValue) value2 = fl_value_new_float_list(data, 3); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, FloatListToString) { double data[] = {0, -0.5, M_PI}; g_autoptr(FlValue) value = fl_value_new_float_list(data, 3); g_autofree gchar* text = fl_value_to_string(value); EXPECT_STREQ(text, "[0.0, -0.5, 3.1415926535897931]"); } TEST(FlValueTest, ListEmpty) { g_autoptr(FlValue) value = fl_value_new_list(); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(0)); } TEST(FlValueTest, ListAdd) { g_autoptr(FlValue) value = fl_value_new_list(); g_autoptr(FlValue) child = fl_value_new_null(); fl_value_append(value, child); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(1)); EXPECT_EQ(fl_value_get_type(fl_value_get_list_value(value, 0)), FL_VALUE_TYPE_NULL); } TEST(FlValueTest, ListAddTake) { g_autoptr(FlValue) value = fl_value_new_list(); fl_value_append_take(value, fl_value_new_null()); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(1)); EXPECT_EQ(fl_value_get_type(fl_value_get_list_value(value, 0)), FL_VALUE_TYPE_NULL); } TEST(FlValueTest, ListChildTypes) { g_autoptr(FlValue) value = fl_value_new_list(); fl_value_append_take(value, fl_value_new_null()); fl_value_append_take(value, fl_value_new_bool(TRUE)); fl_value_append_take(value, fl_value_new_int(42)); fl_value_append_take(value, fl_value_new_float(M_PI)); fl_value_append_take(value, fl_value_new_uint8_list(nullptr, 0)); fl_value_append_take(value, fl_value_new_int32_list(nullptr, 0)); fl_value_append_take(value, fl_value_new_int64_list(nullptr, 0)); fl_value_append_take(value, fl_value_new_float_list(nullptr, 0)); fl_value_append_take(value, fl_value_new_list()); fl_value_append_take(value, fl_value_new_map()); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(10)); EXPECT_EQ(fl_value_get_type(fl_value_get_list_value(value, 0)), FL_VALUE_TYPE_NULL); EXPECT_EQ(fl_value_get_type(fl_value_get_list_value(value, 1)), FL_VALUE_TYPE_BOOL); EXPECT_EQ(fl_value_get_type(fl_value_get_list_value(value, 2)), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_type(fl_value_get_list_value(value, 3)), FL_VALUE_TYPE_FLOAT); EXPECT_EQ(fl_value_get_type(fl_value_get_list_value(value, 4)), FL_VALUE_TYPE_UINT8_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_list_value(value, 5)), FL_VALUE_TYPE_INT32_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_list_value(value, 6)), FL_VALUE_TYPE_INT64_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_list_value(value, 7)), FL_VALUE_TYPE_FLOAT_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_list_value(value, 8)), FL_VALUE_TYPE_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_list_value(value, 9)), FL_VALUE_TYPE_MAP); } TEST(FlValueTest, ListStrv) { g_auto(GStrv) words = g_strsplit("hello:world", ":", -1); g_autoptr(FlValue) value = fl_value_new_list_from_strv(words); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(2)); ASSERT_EQ(fl_value_get_type(fl_value_get_list_value(value, 0)), FL_VALUE_TYPE_STRING); EXPECT_STREQ(fl_value_get_string(fl_value_get_list_value(value, 0)), "hello"); ASSERT_EQ(fl_value_get_type(fl_value_get_list_value(value, 1)), FL_VALUE_TYPE_STRING); EXPECT_STREQ(fl_value_get_string(fl_value_get_list_value(value, 1)), "world"); } TEST(FlValueTest, ListStrvEmpty) { g_auto(GStrv) words = g_strsplit("", ":", -1); g_autoptr(FlValue) value = fl_value_new_list_from_strv(words); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_LIST); ASSERT_EQ(fl_value_get_length(value), static_cast(0)); } TEST(FlValueTest, ListEqual) { g_autoptr(FlValue) value1 = fl_value_new_list(); fl_value_append_take(value1, fl_value_new_int(1)); fl_value_append_take(value1, fl_value_new_int(2)); fl_value_append_take(value1, fl_value_new_int(3)); g_autoptr(FlValue) value2 = fl_value_new_list(); fl_value_append_take(value2, fl_value_new_int(1)); fl_value_append_take(value2, fl_value_new_int(2)); fl_value_append_take(value2, fl_value_new_int(3)); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, ListEmptyEqual) { g_autoptr(FlValue) value1 = fl_value_new_list(); g_autoptr(FlValue) value2 = fl_value_new_list(); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, ListNotEqualSameSize) { g_autoptr(FlValue) value1 = fl_value_new_list(); fl_value_append_take(value1, fl_value_new_int(1)); fl_value_append_take(value1, fl_value_new_int(2)); fl_value_append_take(value1, fl_value_new_int(3)); g_autoptr(FlValue) value2 = fl_value_new_list(); fl_value_append_take(value2, fl_value_new_int(1)); fl_value_append_take(value2, fl_value_new_int(2)); fl_value_append_take(value2, fl_value_new_int(4)); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, ListNotEqualDifferentSize) { g_autoptr(FlValue) value1 = fl_value_new_list(); fl_value_append_take(value1, fl_value_new_int(1)); fl_value_append_take(value1, fl_value_new_int(2)); fl_value_append_take(value1, fl_value_new_int(3)); g_autoptr(FlValue) value2 = fl_value_new_list(); fl_value_append_take(value2, fl_value_new_int(1)); fl_value_append_take(value2, fl_value_new_int(2)); fl_value_append_take(value2, fl_value_new_int(3)); fl_value_append_take(value2, fl_value_new_int(4)); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, ListEmptyNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_list(); g_autoptr(FlValue) value2 = fl_value_new_list(); fl_value_append_take(value2, fl_value_new_int(1)); fl_value_append_take(value2, fl_value_new_int(2)); fl_value_append_take(value2, fl_value_new_int(3)); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, ListToString) { g_autoptr(FlValue) value = fl_value_new_list(); fl_value_append_take(value, fl_value_new_null()); fl_value_append_take(value, fl_value_new_bool(TRUE)); fl_value_append_take(value, fl_value_new_int(42)); fl_value_append_take(value, fl_value_new_float(M_PI)); fl_value_append_take(value, fl_value_new_uint8_list(nullptr, 0)); fl_value_append_take(value, fl_value_new_int32_list(nullptr, 0)); fl_value_append_take(value, fl_value_new_int64_list(nullptr, 0)); fl_value_append_take(value, fl_value_new_float_list(nullptr, 0)); fl_value_append_take(value, fl_value_new_list()); fl_value_append_take(value, fl_value_new_map()); g_autofree gchar* text = fl_value_to_string(value); EXPECT_STREQ(text, "[null, true, 42, 3.1415926535897931, [], [], [], [], [], {}]"); } TEST(FlValueTest, MapEmpty) { g_autoptr(FlValue) value = fl_value_new_map(); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_MAP); ASSERT_EQ(fl_value_get_length(value), static_cast(0)); } TEST(FlValueTest, MapSet) { g_autoptr(FlValue) value = fl_value_new_map(); g_autoptr(FlValue) k = fl_value_new_string("count"); g_autoptr(FlValue) v = fl_value_new_int(42); fl_value_set(value, k, v); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_MAP); ASSERT_EQ(fl_value_get_length(value), static_cast(1)); ASSERT_EQ(fl_value_get_type(fl_value_get_map_key(value, 0)), FL_VALUE_TYPE_STRING); EXPECT_STREQ(fl_value_get_string(fl_value_get_map_key(value, 0)), "count"); ASSERT_EQ(fl_value_get_type(fl_value_get_map_value(value, 0)), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_int(fl_value_get_map_value(value, 0)), 42); } TEST(FlValueTest, MapSetTake) { g_autoptr(FlValue) value = fl_value_new_map(); fl_value_set_take(value, fl_value_new_string("count"), fl_value_new_int(42)); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_MAP); ASSERT_EQ(fl_value_get_length(value), static_cast(1)); ASSERT_EQ(fl_value_get_type(fl_value_get_map_key(value, 0)), FL_VALUE_TYPE_STRING); EXPECT_STREQ(fl_value_get_string(fl_value_get_map_key(value, 0)), "count"); ASSERT_EQ(fl_value_get_type(fl_value_get_map_value(value, 0)), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_int(fl_value_get_map_value(value, 0)), 42); } TEST(FlValueTest, MapSetString) { g_autoptr(FlValue) value = fl_value_new_map(); g_autoptr(FlValue) v = fl_value_new_int(42); fl_value_set_string(value, "count", v); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_MAP); ASSERT_EQ(fl_value_get_length(value), static_cast(1)); ASSERT_EQ(fl_value_get_type(fl_value_get_map_key(value, 0)), FL_VALUE_TYPE_STRING); EXPECT_STREQ(fl_value_get_string(fl_value_get_map_key(value, 0)), "count"); ASSERT_EQ(fl_value_get_type(fl_value_get_map_value(value, 0)), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_int(fl_value_get_map_value(value, 0)), 42); } TEST(FlValueTest, MapSetStringTake) { g_autoptr(FlValue) value = fl_value_new_map(); fl_value_set_string_take(value, "count", fl_value_new_int(42)); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_MAP); ASSERT_EQ(fl_value_get_length(value), static_cast(1)); ASSERT_EQ(fl_value_get_type(fl_value_get_map_key(value, 0)), FL_VALUE_TYPE_STRING); EXPECT_STREQ(fl_value_get_string(fl_value_get_map_key(value, 0)), "count"); ASSERT_EQ(fl_value_get_type(fl_value_get_map_value(value, 0)), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_int(fl_value_get_map_value(value, 0)), 42); } TEST(FlValueTest, MapLookup) { g_autoptr(FlValue) value = fl_value_new_map(); fl_value_set_string_take(value, "one", fl_value_new_int(1)); fl_value_set_string_take(value, "two", fl_value_new_int(2)); fl_value_set_string_take(value, "three", fl_value_new_int(3)); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_MAP); g_autoptr(FlValue) two_key = fl_value_new_string("two"); FlValue* v = fl_value_lookup(value, two_key); ASSERT_NE(v, nullptr); ASSERT_EQ(fl_value_get_type(v), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_int(v), 2); g_autoptr(FlValue) four_key = fl_value_new_string("four"); v = fl_value_lookup(value, four_key); ASSERT_EQ(v, nullptr); } TEST(FlValueTest, MapLookupString) { g_autoptr(FlValue) value = fl_value_new_map(); fl_value_set_string_take(value, "one", fl_value_new_int(1)); fl_value_set_string_take(value, "two", fl_value_new_int(2)); fl_value_set_string_take(value, "three", fl_value_new_int(3)); FlValue* v = fl_value_lookup_string(value, "two"); ASSERT_NE(v, nullptr); ASSERT_EQ(fl_value_get_type(v), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_int(v), 2); v = fl_value_lookup_string(value, "four"); ASSERT_EQ(v, nullptr); } TEST(FlValueTest, MapValueypes) { g_autoptr(FlValue) value = fl_value_new_map(); fl_value_set_take(value, fl_value_new_string("null"), fl_value_new_null()); fl_value_set_take(value, fl_value_new_string("bool"), fl_value_new_bool(TRUE)); fl_value_set_take(value, fl_value_new_string("int"), fl_value_new_int(42)); fl_value_set_take(value, fl_value_new_string("float"), fl_value_new_float(M_PI)); fl_value_set_take(value, fl_value_new_string("uint8_list"), fl_value_new_uint8_list(nullptr, 0)); fl_value_set_take(value, fl_value_new_string("int32_list"), fl_value_new_int32_list(nullptr, 0)); fl_value_set_take(value, fl_value_new_string("int64_list"), fl_value_new_int64_list(nullptr, 0)); fl_value_set_take(value, fl_value_new_string("float_list"), fl_value_new_float_list(nullptr, 0)); fl_value_set_take(value, fl_value_new_string("list"), fl_value_new_list()); fl_value_set_take(value, fl_value_new_string("map"), fl_value_new_map()); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_MAP); ASSERT_EQ(fl_value_get_length(value), static_cast(10)); EXPECT_EQ(fl_value_get_type(fl_value_get_map_value(value, 0)), FL_VALUE_TYPE_NULL); EXPECT_EQ(fl_value_get_type(fl_value_get_map_value(value, 1)), FL_VALUE_TYPE_BOOL); EXPECT_EQ(fl_value_get_type(fl_value_get_map_value(value, 2)), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_type(fl_value_get_map_value(value, 3)), FL_VALUE_TYPE_FLOAT); EXPECT_EQ(fl_value_get_type(fl_value_get_map_value(value, 4)), FL_VALUE_TYPE_UINT8_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_map_value(value, 5)), FL_VALUE_TYPE_INT32_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_map_value(value, 6)), FL_VALUE_TYPE_INT64_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_map_value(value, 7)), FL_VALUE_TYPE_FLOAT_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_map_value(value, 8)), FL_VALUE_TYPE_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_map_value(value, 9)), FL_VALUE_TYPE_MAP); } TEST(FlValueTest, MapKeyTypes) { g_autoptr(FlValue) value = fl_value_new_map(); fl_value_set_take(value, fl_value_new_null(), fl_value_new_string("null")); fl_value_set_take(value, fl_value_new_bool(TRUE), fl_value_new_string("bool")); fl_value_set_take(value, fl_value_new_int(42), fl_value_new_string("int")); fl_value_set_take(value, fl_value_new_float(M_PI), fl_value_new_string("float")); fl_value_set_take(value, fl_value_new_uint8_list(nullptr, 0), fl_value_new_string("uint8_list")); fl_value_set_take(value, fl_value_new_int32_list(nullptr, 0), fl_value_new_string("int32_list")); fl_value_set_take(value, fl_value_new_int64_list(nullptr, 0), fl_value_new_string("int64_list")); fl_value_set_take(value, fl_value_new_float_list(nullptr, 0), fl_value_new_string("float_list")); fl_value_set_take(value, fl_value_new_list(), fl_value_new_string("list")); fl_value_set_take(value, fl_value_new_map(), fl_value_new_string("map")); ASSERT_EQ(fl_value_get_type(value), FL_VALUE_TYPE_MAP); ASSERT_EQ(fl_value_get_length(value), static_cast(10)); EXPECT_EQ(fl_value_get_type(fl_value_get_map_key(value, 0)), FL_VALUE_TYPE_NULL); EXPECT_EQ(fl_value_get_type(fl_value_get_map_key(value, 1)), FL_VALUE_TYPE_BOOL); EXPECT_EQ(fl_value_get_type(fl_value_get_map_key(value, 2)), FL_VALUE_TYPE_INT); EXPECT_EQ(fl_value_get_type(fl_value_get_map_key(value, 3)), FL_VALUE_TYPE_FLOAT); EXPECT_EQ(fl_value_get_type(fl_value_get_map_key(value, 4)), FL_VALUE_TYPE_UINT8_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_map_key(value, 5)), FL_VALUE_TYPE_INT32_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_map_key(value, 6)), FL_VALUE_TYPE_INT64_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_map_key(value, 7)), FL_VALUE_TYPE_FLOAT_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_map_key(value, 8)), FL_VALUE_TYPE_LIST); EXPECT_EQ(fl_value_get_type(fl_value_get_map_key(value, 9)), FL_VALUE_TYPE_MAP); } TEST(FlValueTest, MapEqual) { g_autoptr(FlValue) value1 = fl_value_new_map(); fl_value_set_string_take(value1, "one", fl_value_new_int(1)); fl_value_set_string_take(value1, "two", fl_value_new_int(2)); fl_value_set_string_take(value1, "three", fl_value_new_int(3)); g_autoptr(FlValue) value2 = fl_value_new_map(); fl_value_set_string_take(value2, "one", fl_value_new_int(1)); fl_value_set_string_take(value2, "two", fl_value_new_int(2)); fl_value_set_string_take(value2, "three", fl_value_new_int(3)); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, MapEqualDifferentOrder) { g_autoptr(FlValue) value1 = fl_value_new_map(); fl_value_set_string_take(value1, "one", fl_value_new_int(1)); fl_value_set_string_take(value1, "two", fl_value_new_int(2)); fl_value_set_string_take(value1, "three", fl_value_new_int(3)); g_autoptr(FlValue) value2 = fl_value_new_map(); fl_value_set_string_take(value2, "one", fl_value_new_int(1)); fl_value_set_string_take(value2, "three", fl_value_new_int(3)); fl_value_set_string_take(value2, "two", fl_value_new_int(2)); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, MapEmptyEqual) { g_autoptr(FlValue) value1 = fl_value_new_map(); g_autoptr(FlValue) value2 = fl_value_new_map(); EXPECT_TRUE(fl_value_equal(value1, value2)); } TEST(FlValueTest, MapNotEqualSameSizeDifferentKeys) { g_autoptr(FlValue) value1 = fl_value_new_map(); fl_value_set_string_take(value1, "one", fl_value_new_int(1)); fl_value_set_string_take(value1, "two", fl_value_new_int(2)); fl_value_set_string_take(value1, "three", fl_value_new_int(3)); g_autoptr(FlValue) value2 = fl_value_new_map(); fl_value_set_string_take(value2, "one", fl_value_new_int(1)); fl_value_set_string_take(value2, "two", fl_value_new_int(2)); fl_value_set_string_take(value2, "four", fl_value_new_int(3)); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, MapNotEqualSameSizeDifferentValues) { g_autoptr(FlValue) value1 = fl_value_new_map(); fl_value_set_string_take(value1, "one", fl_value_new_int(1)); fl_value_set_string_take(value1, "two", fl_value_new_int(2)); fl_value_set_string_take(value1, "three", fl_value_new_int(3)); g_autoptr(FlValue) value2 = fl_value_new_map(); fl_value_set_string_take(value2, "one", fl_value_new_int(1)); fl_value_set_string_take(value2, "two", fl_value_new_int(2)); fl_value_set_string_take(value2, "three", fl_value_new_int(4)); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, MapNotEqualDifferentSize) { g_autoptr(FlValue) value1 = fl_value_new_map(); fl_value_set_string_take(value1, "one", fl_value_new_int(1)); fl_value_set_string_take(value1, "two", fl_value_new_int(2)); fl_value_set_string_take(value1, "three", fl_value_new_int(3)); g_autoptr(FlValue) value2 = fl_value_new_map(); fl_value_set_string_take(value2, "one", fl_value_new_int(1)); fl_value_set_string_take(value2, "two", fl_value_new_int(2)); fl_value_set_string_take(value2, "three", fl_value_new_int(3)); fl_value_set_string_take(value2, "four", fl_value_new_int(4)); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, MapEmptyNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_map(); g_autoptr(FlValue) value2 = fl_value_new_map(); fl_value_set_string_take(value2, "one", fl_value_new_int(1)); fl_value_set_string_take(value2, "two", fl_value_new_int(2)); fl_value_set_string_take(value2, "three", fl_value_new_int(3)); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, MapToString) { g_autoptr(FlValue) value = fl_value_new_map(); fl_value_set_take(value, fl_value_new_string("null"), fl_value_new_null()); fl_value_set_take(value, fl_value_new_string("bool"), fl_value_new_bool(TRUE)); fl_value_set_take(value, fl_value_new_string("int"), fl_value_new_int(42)); fl_value_set_take(value, fl_value_new_string("float"), fl_value_new_float(M_PI)); fl_value_set_take(value, fl_value_new_string("uint8_list"), fl_value_new_uint8_list(nullptr, 0)); fl_value_set_take(value, fl_value_new_string("int32_list"), fl_value_new_int32_list(nullptr, 0)); fl_value_set_take(value, fl_value_new_string("int64_list"), fl_value_new_int64_list(nullptr, 0)); fl_value_set_take(value, fl_value_new_string("float_list"), fl_value_new_float_list(nullptr, 0)); fl_value_set_take(value, fl_value_new_string("list"), fl_value_new_list()); fl_value_set_take(value, fl_value_new_string("map"), fl_value_new_map()); fl_value_set_take(value, fl_value_new_null(), fl_value_new_string("null")); fl_value_set_take(value, fl_value_new_bool(TRUE), fl_value_new_string("bool")); fl_value_set_take(value, fl_value_new_int(42), fl_value_new_string("int")); fl_value_set_take(value, fl_value_new_float(M_PI), fl_value_new_string("float")); fl_value_set_take(value, fl_value_new_uint8_list(nullptr, 0), fl_value_new_string("uint8_list")); fl_value_set_take(value, fl_value_new_int32_list(nullptr, 0), fl_value_new_string("int32_list")); fl_value_set_take(value, fl_value_new_int64_list(nullptr, 0), fl_value_new_string("int64_list")); fl_value_set_take(value, fl_value_new_float_list(nullptr, 0), fl_value_new_string("float_list")); fl_value_set_take(value, fl_value_new_list(), fl_value_new_string("list")); fl_value_set_take(value, fl_value_new_map(), fl_value_new_string("map")); g_autofree gchar* text = fl_value_to_string(value); EXPECT_STREQ(text, "{null: null, bool: true, int: 42, float: 3.1415926535897931, " "uint8_list: [], int32_list: [], int64_list: [], float_list: " "[], list: [], map: {}, null: null, true: bool, 42: int, " "3.1415926535897931: float, []: uint8_list, []: int32_list, []: " "int64_list, []: float_list, []: list, {}: map}"); } TEST(FlValueTest, EqualSameObject) { g_autoptr(FlValue) value = fl_value_new_null(); EXPECT_TRUE(fl_value_equal(value, value)); } TEST(FlValueTest, NullIntNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_null(); g_autoptr(FlValue) value2 = fl_value_new_int(0); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, NullBoolNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_bool(FALSE); g_autoptr(FlValue) value2 = fl_value_new_int(0); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, StringUint8ListNotEqual) { uint8_t data[] = {'h', 'e', 'l', 'l', 'o'}; g_autoptr(FlValue) value1 = fl_value_new_uint8_list(data, 5); g_autoptr(FlValue) value2 = fl_value_new_string("hello"); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Uint8ListInt32ListNotEqual) { uint8_t data8[] = {0, 1, 2, 3, 4}; int32_t data32[] = {0, 1, 2, 3, 4}; g_autoptr(FlValue) value1 = fl_value_new_uint8_list(data8, 5); g_autoptr(FlValue) value2 = fl_value_new_int32_list(data32, 5); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Int32ListInt64ListNotEqual) { int32_t data32[] = {0, 1, 2, 3, 4}; int64_t data64[] = {0, 1, 2, 3, 4}; g_autoptr(FlValue) value1 = fl_value_new_int32_list(data32, 5); g_autoptr(FlValue) value2 = fl_value_new_int64_list(data64, 5); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, Int64ListFloatListNotEqual) { int64_t data64[] = {0, 1, 2, 3, 4}; double dataf[] = {0.0, 1.0, 2.0, 3.0, 4.0}; g_autoptr(FlValue) value1 = fl_value_new_int64_list(data64, 5); g_autoptr(FlValue) value2 = fl_value_new_float_list(dataf, 5); EXPECT_FALSE(fl_value_equal(value1, value2)); } TEST(FlValueTest, ListMapNotEqual) { g_autoptr(FlValue) value1 = fl_value_new_list(); g_autoptr(FlValue) value2 = fl_value_new_map(); EXPECT_FALSE(fl_value_equal(value1, value2)); }