Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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// Protocol Buffers - Google's data interchange format
// Copyright 2023 Google LLC. All rights reserved.
//
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file or at
// https://developers.google.com/open-source/licenses/bsd
#include <cstdint>
#include <iterator>
#include <limits>
#include <memory>
#include <string>
#include <type_traits>
#include <utility>
#include <vector>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include "absl/status/statusor.h"
#include "absl/strings/string_view.h"
#include "google/protobuf/compiler/hpb/tests/child_model.upb.proto.h"
#include "google/protobuf/compiler/hpb/tests/no_package.upb.proto.h"
#include "google/protobuf/compiler/hpb/tests/test_model.upb.proto.h"
#include "google/protobuf/hpb/hpb.h"
#include "google/protobuf/hpb/requires.h"
#include "upb/mem/arena.h"
#include "upb/mem/arena.hpp"
namespace {
using ::hpb::internal::Requires;
using ::hpb_unittest::protos::ChildModel1;
using ::hpb_unittest::protos::container_ext;
using ::hpb_unittest::protos::ContainerExtension;
using ::hpb_unittest::protos::other_ext;
using ::hpb_unittest::protos::RED;
using ::hpb_unittest::protos::TestEnum;
using ::hpb_unittest::protos::TestModel;
using ::hpb_unittest::protos::TestModel_Category;
using ::hpb_unittest::protos::TestModel_Category_IMAGES;
using ::hpb_unittest::protos::TestModel_Category_NEWS;
using ::hpb_unittest::protos::TestModel_Category_VIDEO;
using ::hpb_unittest::protos::theme;
using ::hpb_unittest::protos::ThemeExtension;
using ::testing::ElementsAre;
TEST(CppGeneratedCode, Constructor) { TestModel test_model; }
TEST(CppGeneratedCode, MessageEnum) { EXPECT_EQ(5, TestModel_Category_IMAGES); }
TEST(CppGeneratedCode, ImportedEnum) { EXPECT_EQ(3, TestEnum::DEVICE_MONITOR); }
TEST(CppGeneratedCode, Enum) { EXPECT_EQ(1, RED); }
TEST(CppGeneratedCode, EnumNoPackage) { EXPECT_EQ(1, ::hpb_CELSIUS); }
TEST(CppGeneratedCode, MessageEnumType) {
TestModel_Category category1 = TestModel_Category_IMAGES;
TestModel::Category category2 = TestModel::IMAGES;
EXPECT_EQ(category1, category2);
}
TEST(CppGeneratedCode, MessageEnumValue) {
EXPECT_EQ(TestModel_Category_IMAGES, TestModel::IMAGES);
}
TEST(CppGeneratedCode, ArenaConstructor) {
::hpb::Arena arena;
auto testModel = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(false, testModel.has_b1());
}
TEST(CppGeneratedCode, Booleans) {
::hpb::Arena arena;
auto testModel = ::protos::CreateMessage<TestModel>(arena);
EXPECT_FALSE(testModel.b1());
testModel.set_b1(true);
EXPECT_TRUE(testModel.b1());
testModel.set_b1(false);
EXPECT_FALSE(testModel.b1());
testModel.set_b1(true);
EXPECT_TRUE(testModel.b1());
testModel.clear_b1();
EXPECT_FALSE(testModel.has_b1());
}
TEST(CppGeneratedCode, ScalarInt32) {
::hpb::Arena arena;
auto testModel = ::protos::CreateMessage<TestModel>(arena);
// Test int32 defaults.
EXPECT_EQ(testModel.value(), 0);
EXPECT_FALSE(testModel.has_value());
// Floating point defaults.
EXPECT_EQ(std::numeric_limits<float>::infinity(),
testModel.float_value_with_default());
EXPECT_EQ(-std::numeric_limits<double>::infinity(),
testModel.double_value_with_default());
// Set value.
testModel.set_value(5);
EXPECT_TRUE(testModel.has_value());
EXPECT_EQ(testModel.value(), 5);
// Change value.
testModel.set_value(10);
EXPECT_TRUE(testModel.has_value());
EXPECT_EQ(testModel.value(), 10);
// Clear value.
testModel.clear_value();
EXPECT_FALSE(testModel.has_value());
EXPECT_EQ(testModel.value(), 0);
}
const char kTestStr1[] = "abcdefg";
const char kTestStr2[] = "just another test string";
TEST(CppGeneratedCode, Strings) {
TestModel testModel;
testModel.set_str1(kTestStr1);
testModel.set_str2(kTestStr2);
EXPECT_EQ(testModel.str1(), kTestStr1);
EXPECT_EQ(testModel.str2(), kTestStr2);
EXPECT_TRUE(testModel.has_str1());
EXPECT_TRUE(testModel.has_str2());
testModel.clear_str1();
EXPECT_FALSE(testModel.has_str1());
EXPECT_TRUE(testModel.has_str2());
}
TEST(CppGeneratedCode, ScalarUInt32) {
::hpb::Arena arena;
auto testModel = ::protos::CreateMessage<TestModel>(arena);
// Test defaults.
EXPECT_EQ(testModel.optional_uint32(), 0);
EXPECT_FALSE(testModel.has_optional_uint32());
// Set value.
testModel.set_optional_uint32(0xA0001000);
EXPECT_TRUE(testModel.has_optional_uint32());
EXPECT_EQ(testModel.optional_uint32(), 0xA0001000);
// Change value.
testModel.set_optional_uint32(0x70002000);
EXPECT_TRUE(testModel.has_optional_uint32());
EXPECT_EQ(testModel.optional_uint32(), 0x70002000);
// Clear value.
testModel.clear_optional_uint32();
EXPECT_FALSE(testModel.has_optional_uint32());
EXPECT_EQ(testModel.optional_uint32(), 0);
}
TEST(CppGeneratedCode, ScalarInt64) {
::hpb::Arena arena;
auto testModel = ::protos::CreateMessage<TestModel>(arena);
// Test defaults.
EXPECT_EQ(testModel.optional_int64(), 0);
EXPECT_FALSE(testModel.has_optional_int64());
// Set value.
testModel.set_optional_int64(0xFF00CCDDA0001000);
EXPECT_TRUE(testModel.has_optional_int64());
EXPECT_EQ(testModel.optional_int64(), 0xFF00CCDDA0001000);
// Change value.
testModel.set_optional_int64(0xFF00CCDD70002000);
EXPECT_TRUE(testModel.has_optional_int64());
EXPECT_EQ(testModel.optional_int64(), 0xFF00CCDD70002000);
// Clear value.
testModel.clear_optional_int64();
EXPECT_FALSE(testModel.has_optional_int64());
EXPECT_EQ(testModel.optional_int64(), 0);
// Set after clear.
testModel.set_optional_int64(0xFF00CCDDA0001000);
EXPECT_TRUE(testModel.has_optional_int64());
EXPECT_EQ(testModel.optional_int64(), 0xFF00CCDDA0001000);
}
TEST(CppGeneratedCode, ScalarFloat) {
::hpb::Arena arena;
auto testModel = ::protos::CreateMessage<TestModel>(arena);
// Test defaults.
EXPECT_EQ(testModel.optional_float(), 0.0f);
EXPECT_FALSE(testModel.has_optional_float());
EXPECT_EQ(std::numeric_limits<float>::infinity(),
testModel.float_value_with_default());
EXPECT_EQ(-std::numeric_limits<double>::infinity(),
testModel.double_value_with_default());
// Set value.
testModel.set_optional_float(3.14159265f);
EXPECT_TRUE(testModel.has_optional_float());
EXPECT_NEAR(testModel.optional_float(), 3.14159265f, 1e-9f);
// Change value.
testModel.set_optional_float(-2.0f);
EXPECT_TRUE(testModel.has_optional_float());
EXPECT_NEAR(testModel.optional_float(), -2, 1e-9f);
// Clear value.
testModel.clear_optional_float();
EXPECT_FALSE(testModel.has_optional_float());
EXPECT_EQ(testModel.optional_float(), 0.0f);
// Set after clear.
testModel.set_optional_float(3.14159265f);
EXPECT_TRUE(testModel.has_optional_float());
EXPECT_NEAR(testModel.optional_float(), 3.14159265f, 1e-9f);
}
TEST(CppGeneratedCode, ScalarDouble) {
::hpb::Arena arena;
auto testModel = ::protos::CreateMessage<TestModel>(arena);
// Test defaults.
EXPECT_EQ(testModel.optional_double(), 0.0);
EXPECT_FALSE(testModel.has_optional_double());
// Set value.
testModel.set_optional_double(3.141592653589793);
EXPECT_TRUE(testModel.has_optional_double());
EXPECT_NEAR(testModel.optional_double(), 3.141592653589793, 1e-16f);
// Change value.
testModel.set_optional_double(-1.0);
EXPECT_TRUE(testModel.has_optional_double());
EXPECT_NEAR(testModel.optional_double(), -1.0, 1e-16f);
// Clear value.
testModel.clear_optional_double();
EXPECT_FALSE(testModel.has_optional_double());
EXPECT_EQ(testModel.optional_double(), 0.0f);
// Set after clear.
testModel.set_optional_double(3.141592653589793);
EXPECT_TRUE(testModel.has_optional_double());
EXPECT_NEAR(testModel.optional_double(), 3.141592653589793, 1e-16f);
}
TEST(CppGeneratedCode, Enums) {
::hpb::Arena arena;
auto testModel = ::protos::CreateMessage<TestModel>(arena);
// Check enum default value.
EXPECT_EQ(TestModel_Category_IMAGES, 5);
// Test defaults.
EXPECT_FALSE(testModel.has_category());
EXPECT_EQ(testModel.category(), TestModel_Category_IMAGES);
// Set value.
testModel.set_category(TestModel_Category_NEWS);
EXPECT_TRUE(testModel.has_category());
EXPECT_EQ(testModel.category(), TestModel_Category_NEWS);
// Change value.
testModel.set_category(TestModel_Category_VIDEO);
EXPECT_TRUE(testModel.has_category());
EXPECT_EQ(testModel.category(), TestModel_Category_VIDEO);
// Clear value.
testModel.clear_category();
EXPECT_FALSE(testModel.has_category());
EXPECT_EQ(testModel.category(), TestModel_Category_IMAGES);
// Set after clear.
testModel.set_category(TestModel_Category_VIDEO);
EXPECT_TRUE(testModel.has_category());
EXPECT_EQ(testModel.category(), TestModel_Category_VIDEO);
}
TEST(CppGeneratedCode, FieldWithDefaultValue) {
::hpb::Arena arena;
auto testModel = ::protos::CreateMessage<TestModel>(arena);
EXPECT_FALSE(testModel.has_int_value_with_default());
EXPECT_EQ(testModel.int_value_with_default(), 65);
testModel.set_int_value_with_default(10);
EXPECT_EQ(testModel.int_value_with_default(), 10);
EXPECT_FALSE(testModel.has_string_value_with_default());
EXPECT_EQ(testModel.string_value_with_default(), "hello");
testModel.set_string_value_with_default("new string");
EXPECT_EQ(testModel.string_value_with_default(), "new string");
}
TEST(CppGeneratedCode, OneOfFields) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_FALSE(test_model.has_oneof_member1());
EXPECT_FALSE(test_model.has_oneof_member2());
EXPECT_EQ(TestModel::CHILD_ONEOF1_NOT_SET, test_model.child_oneof1_case());
test_model.set_oneof_member1("one of string");
EXPECT_TRUE(test_model.has_oneof_member1());
EXPECT_FALSE(test_model.has_oneof_member2());
EXPECT_EQ(test_model.oneof_member1(), "one of string");
EXPECT_EQ(TestModel::kOneofMember1, test_model.child_oneof1_case());
test_model.set_oneof_member2(true);
EXPECT_FALSE(test_model.has_oneof_member1());
EXPECT_TRUE(test_model.has_oneof_member2());
EXPECT_EQ(test_model.oneof_member2(), true);
EXPECT_EQ(TestModel::kOneofMember2, test_model.child_oneof1_case());
test_model.clear_oneof_member2();
EXPECT_FALSE(test_model.has_oneof_member1());
EXPECT_FALSE(test_model.has_oneof_member2());
EXPECT_EQ(test_model.oneof_member1(), "");
EXPECT_EQ(test_model.oneof_member2(), false);
EXPECT_EQ(TestModel::CHILD_ONEOF1_NOT_SET, test_model.child_oneof1_case());
}
TEST(CppGeneratedCode, Messages) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(false, test_model.has_child_model_1());
auto child_model = test_model.child_model_1();
EXPECT_EQ(false, child_model->has_child_b1());
EXPECT_EQ(false, child_model->child_b1());
auto mutable_child = test_model.mutable_child_model_1();
mutable_child->set_child_b1(true);
EXPECT_EQ(true, mutable_child->has_child_b1());
EXPECT_EQ(true, mutable_child->child_b1());
// The View should not change due to mutation since it
// is default_instance.
EXPECT_EQ(false, child_model->has_child_b1());
// Readonly View should now show change.
child_model = test_model.child_model_1();
EXPECT_EQ(true, child_model->has_child_b1());
EXPECT_EQ(true, child_model->child_b1());
// Clear message field.
EXPECT_EQ(true, test_model.has_child_model_1());
test_model.clear_child_model_1();
EXPECT_EQ(false, test_model.has_child_model_1());
}
TEST(CppGeneratedCode, NestedMessages) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
auto nested_child = test_model.nested_child_1();
EXPECT_EQ(0, nested_child->nested_child_name().size());
auto mutable_nested_child = test_model.mutable_nested_child_1();
EXPECT_EQ(false, mutable_nested_child->has_nested_child_name());
mutable_nested_child->set_nested_child_name(kTestStr1);
EXPECT_EQ(true, mutable_nested_child->has_nested_child_name());
}
TEST(CppGeneratedCode, RepeatedMessages) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(0, test_model.child_models_size());
// Should be able to clear repeated field when empty.
test_model.mutable_child_models()->clear();
EXPECT_EQ(0, test_model.child_models_size());
// Add 2 children.
auto new_child = test_model.add_child_models();
EXPECT_EQ(true, new_child.ok());
new_child.value()->set_child_str1(kTestStr1);
new_child = test_model.add_child_models();
EXPECT_EQ(true, new_child.ok());
new_child.value()->set_child_str1(kTestStr2);
EXPECT_EQ(2, test_model.child_models_size());
// Mutable access.
auto mutable_first = test_model.mutable_child_models(0);
EXPECT_EQ(mutable_first->child_str1(), kTestStr1);
mutable_first->set_child_str1("change1");
auto mutable_second = test_model.mutable_child_models(1);
EXPECT_EQ(mutable_second->child_str1(), kTestStr2);
mutable_second->set_child_str1("change2");
// Check mutations using views.
auto view_first = test_model.child_models(0);
EXPECT_EQ(view_first->child_str1(), "change1");
auto view_second = test_model.child_models(1);
EXPECT_EQ(view_second->child_str1(), "change2");
}
TEST(CppGeneratedCode, RepeatedScalar) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(0, test_model.value_array_size());
// Should be able to clear repeated field when empty.
test_model.mutable_value_array()->clear();
EXPECT_EQ(0, test_model.value_array_size());
// Add 2 children.
EXPECT_EQ(true, test_model.add_value_array(5));
EXPECT_EQ(true, test_model.add_value_array(6));
EXPECT_EQ(2, test_model.value_array_size());
EXPECT_EQ(5, test_model.value_array(0));
EXPECT_EQ(6, test_model.value_array(1));
EXPECT_EQ(true, test_model.resize_value_array(3));
EXPECT_EQ(3, test_model.value_array_size());
test_model.set_value_array(2, 7);
EXPECT_EQ(5, test_model.value_array(0));
EXPECT_EQ(6, test_model.value_array(1));
EXPECT_EQ(7, test_model.value_array(2));
}
TEST(CppGeneratedCode, RepeatedFieldClear) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
test_model.mutable_value_array()->push_back(5);
test_model.mutable_value_array()->push_back(16);
test_model.mutable_value_array()->push_back(27);
ASSERT_EQ(test_model.mutable_value_array()->size(), 3);
test_model.mutable_value_array()->clear();
EXPECT_EQ(test_model.mutable_value_array()->size(), 0);
}
TEST(CppGeneratedCode, RepeatedFieldProxyForScalars) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(0, test_model.value_array().size());
EXPECT_EQ(0, test_model.mutable_value_array()->size());
test_model.mutable_value_array()->push_back(5);
test_model.mutable_value_array()->push_back(16);
test_model.mutable_value_array()->push_back(27);
ASSERT_EQ(test_model.mutable_value_array()->size(), 3);
EXPECT_EQ((*test_model.mutable_value_array())[0], 5);
EXPECT_EQ((*test_model.mutable_value_array())[1], 16);
EXPECT_EQ((*test_model.mutable_value_array())[2], 27);
const auto value_array = test_model.value_array();
ASSERT_EQ(value_array.size(), 3);
EXPECT_EQ(value_array[0], 5);
EXPECT_EQ(value_array[1], 16);
EXPECT_EQ(value_array[2], 27);
EXPECT_THAT(value_array, ElementsAre(5, 16, 27));
EXPECT_THAT(std::vector(value_array.begin(), value_array.end()),
ElementsAre(5, 16, 27));
EXPECT_THAT(std::vector(value_array.cbegin(), value_array.cend()),
ElementsAre(5, 16, 27));
EXPECT_THAT(std::vector(value_array.rbegin(), value_array.rend()),
ElementsAre(27, 16, 5));
EXPECT_THAT(std::vector(value_array.crbegin(), value_array.crend()),
ElementsAre(27, 16, 5));
}
TEST(CppGeneratedCode, RepeatedScalarIterator) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
test_model.mutable_value_array()->push_back(5);
test_model.mutable_value_array()->push_back(16);
test_model.mutable_value_array()->push_back(27);
int sum = 0;
// Access by value.
const ::protos::RepeatedField<int32_t>::CProxy rep1 =
test_model.value_array();
for (auto i : rep1) {
sum += i;
}
EXPECT_EQ(sum, 5 + 16 + 27);
// Access by const reference.
sum = 0;
for (const auto& i : *test_model.mutable_value_array()) {
sum += i;
}
EXPECT_EQ(sum, 5 + 16 + 27);
// Access by forwarding reference.
sum = 0;
for (auto&& i : *test_model.mutable_value_array()) {
sum += i;
}
EXPECT_EQ(sum, 5 + 16 + 27);
// Test iterator operators.
auto begin = test_model.value_array().begin();
auto end = test_model.value_array().end();
sum = 0;
for (auto it = begin; it != end; ++it) {
sum += *it;
}
EXPECT_EQ(sum, 5 + 16 + 27);
auto it = begin;
++it;
EXPECT_TRUE(begin < it);
EXPECT_TRUE(begin <= it);
it = end;
EXPECT_TRUE(it == end);
EXPECT_TRUE(it > begin);
EXPECT_TRUE(it >= begin);
EXPECT_TRUE(it != begin);
// difference type
it = end;
--it;
--it;
EXPECT_EQ(end - it, 2);
it = begin;
EXPECT_EQ(it[0], 5);
EXPECT_EQ(it[1], 16);
EXPECT_EQ(it[2], 27);
// ValueProxy.
sum = 0;
for (::protos::RepeatedField<int32_t>::ValueCProxy c :
test_model.value_array()) {
sum += c;
}
EXPECT_EQ(sum, 5 + 16 + 27);
sum = 0;
for (::protos::RepeatedField<int32_t>::ValueProxy c :
*test_model.mutable_value_array()) {
sum += c;
}
EXPECT_EQ(sum, 5 + 16 + 27);
}
TEST(CppGeneratedCode, RepeatedFieldProxyForStrings) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(0, test_model.repeated_string().size());
EXPECT_EQ(0, test_model.mutable_repeated_string()->size());
test_model.mutable_repeated_string()->push_back("a");
test_model.mutable_repeated_string()->push_back("b");
test_model.mutable_repeated_string()->push_back("c");
ASSERT_EQ(test_model.repeated_string().size(), 3);
EXPECT_EQ(test_model.repeated_string()[0], "a");
EXPECT_EQ(test_model.repeated_string()[1], "b");
EXPECT_EQ(test_model.repeated_string()[2], "c");
EXPECT_THAT(test_model.repeated_string(), ElementsAre("a", "b", "c"));
EXPECT_THAT(*test_model.mutable_repeated_string(),
ElementsAre("a", "b", "c"));
ASSERT_EQ(test_model.mutable_repeated_string()->size(), 3);
EXPECT_EQ((*test_model.mutable_repeated_string())[0], "a");
EXPECT_EQ((*test_model.mutable_repeated_string())[1], "b");
EXPECT_EQ((*test_model.mutable_repeated_string())[2], "c");
// The const accessor can't be used to modify the element
EXPECT_FALSE((std::is_assignable<decltype(test_model.repeated_string()[1]),
absl::string_view>::value));
// But the mutable one is fine.
(*test_model.mutable_repeated_string())[1] = "other";
EXPECT_THAT(test_model.repeated_string(), ElementsAre("a", "other", "c"));
test_model.mutable_repeated_string()->clear();
EXPECT_EQ(test_model.mutable_repeated_string()->size(), 0);
}
TEST(CppGeneratedCode, RepeatedFieldProxyForMessages) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(0, test_model.child_models().size());
ChildModel1 child1;
child1.set_child_str1(kTestStr1);
test_model.mutable_child_models()->push_back(child1);
ChildModel1 child2;
child2.set_child_str1(kTestStr2);
test_model.mutable_child_models()->push_back(std::move(child2));
int i = 0;
for (auto child : test_model.child_models()) {
EXPECT_FALSE(Requires<decltype(child)>(
[](auto&& x) -> decltype(x.set_child_str1("")) {}));
if (i++ == 0) {
EXPECT_EQ(child.child_str1(), kTestStr1);
} else {
EXPECT_EQ(child.child_str1(), kTestStr2);
}
}
i = 0;
for (const auto& child : *test_model.mutable_child_models()) {
if (i++ == 0) {
EXPECT_EQ(child.child_str1(), kTestStr1);
} else {
EXPECT_EQ(child.child_str1(), kTestStr2);
}
}
using testing::_;
EXPECT_THAT(test_model.child_models(), ElementsAre(_, _));
EXPECT_EQ(test_model.child_models().size(), 2);
EXPECT_EQ(test_model.child_models()[0].child_str1(), kTestStr1);
EXPECT_EQ(test_model.child_models()[1].child_str1(), kTestStr2);
EXPECT_EQ((*test_model.mutable_child_models())[0].child_str1(), kTestStr1);
EXPECT_EQ((*test_model.mutable_child_models())[1].child_str1(), kTestStr2);
(*test_model.mutable_child_models())[0].set_child_str1("change1");
EXPECT_EQ((*test_model.mutable_child_models())[0].child_str1(), "change1");
test_model.mutable_child_models()->clear();
EXPECT_EQ(test_model.mutable_child_models()->size(), 0);
}
TEST(CppGeneratedCode, EmptyRepeatedFieldProxyForMessages) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(0, test_model.child_models().size());
ChildModel1 child1;
child1.set_child_str1(kTestStr1);
EXPECT_EQ(test_model.child_models().size(), 0);
EXPECT_EQ(std::distance(test_model.child_models().begin(),
test_model.child_models().end()),
0);
}
TEST(CppGeneratedCode, RepeatedFieldProxyForMessagesIndexOperator) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(0, test_model.child_models().size());
ChildModel1 child1;
child1.set_child_str1(kTestStr1);
test_model.mutable_child_models()->push_back(child1);
ChildModel1 child2;
child2.set_child_str1(kTestStr2);
test_model.mutable_child_models()->push_back(std::move(child2));
ASSERT_EQ(test_model.child_models().size(), 2);
// test_model.child_models()[0].set_child_str1("change1");
(*test_model.mutable_child_models())[0].set_child_str1("change1");
EXPECT_EQ((*test_model.mutable_child_models())[0].child_str1(), "change1");
}
TEST(CppGeneratedCode, RepeatedStrings) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(0, test_model.repeated_string_size());
// Should be able to clear repeated field when empty.
test_model.mutable_repeated_string()->clear();
EXPECT_EQ(0, test_model.repeated_string_size());
// Add 2 children.
EXPECT_EQ(true, test_model.add_repeated_string("Hello"));
EXPECT_EQ(true, test_model.add_repeated_string("World"));
EXPECT_EQ(2, test_model.repeated_string_size());
EXPECT_EQ("Hello", test_model.repeated_string(0));
EXPECT_EQ("World", test_model.repeated_string(1));
EXPECT_EQ(true, test_model.resize_repeated_string(3));
EXPECT_EQ(3, test_model.repeated_string_size());
test_model.set_repeated_string(2, "Test");
EXPECT_EQ("Hello", test_model.repeated_string(0));
EXPECT_EQ("World", test_model.repeated_string(1));
EXPECT_EQ("Test", test_model.repeated_string(2));
}
TEST(CppGeneratedCode, MessageMapInt32KeyMessageValue) {
const int key_test_value = 3;
::hpb::Arena arena;
::hpb::Arena child_arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(0, test_model.child_map_size());
test_model.clear_child_map();
EXPECT_EQ(0, test_model.child_map_size());
auto child_model1 = ::protos::CreateMessage<ChildModel1>(child_arena);
child_model1.set_child_str1("abc");
test_model.set_child_map(key_test_value, child_model1);
auto map_result = test_model.get_child_map(key_test_value);
EXPECT_EQ(true, map_result.ok());
EXPECT_EQ("abc", map_result.value()->child_str1());
// Now mutate original child model to verify that value semantics are
// preserved.
child_model1.set_child_str1("abc V2");
EXPECT_EQ("abc", map_result.value()->child_str1());
test_model.delete_child_map(key_test_value);
auto map_result_after_delete = test_model.get_child_map(key_test_value);
EXPECT_EQ(false, map_result_after_delete.ok());
}
TEST(CppGeneratedCode, MessageMapStringKeyAndStringValue) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(0, test_model.str_to_str_map_size());
test_model.clear_str_to_str_map();
EXPECT_EQ(0, test_model.str_to_str_map_size());
test_model.set_str_to_str_map("first", "abc");
test_model.set_str_to_str_map("second", "def");
auto result = test_model.get_str_to_str_map("second");
EXPECT_EQ(true, result.ok());
EXPECT_EQ("def", result.value());
test_model.delete_str_to_str_map("first");
auto result_after_delete = test_model.get_str_to_str_map("first");
EXPECT_EQ(false, result_after_delete.ok());
}
TEST(CppGeneratedCode, MessageMapStringKeyAndInt32Value) {
::hpb::Arena arena;
auto test_model = ::protos::CreateMessage<TestModel>(arena);
EXPECT_EQ(0, test_model.str_to_int_map_size());
test_model.clear_str_to_int_map();
EXPECT_EQ(0, test_model.str_to_int_map_size());
test_model.set_str_to_int_map("first", 10);
EXPECT_EQ(1, test_model.str_to_int_map_size());
test_model.set_str_to_int_map("second", 20);
EXPECT_EQ(2, test_model.str_to_int_map_size());
auto result = test_model.get_str_to_int_map("second");
EXPECT_EQ(true, result.ok());
EXPECT_EQ(20, result.value());
test_model.delete_str_to_int_map("first");
auto result_after_delete = test_model.get_str_to_int_map("first");
EXPECT_EQ(false, result_after_delete.ok());
}
TEST(CppGeneratedCode, HasExtension) {
TestModel model;
EXPECT_EQ(false, ::protos::HasExtension(&model, theme));
}
TEST(CppGeneratedCode, HasExtensionPtr) {
TestModel model;
EXPECT_EQ(false, ::protos::HasExtension(model.recursive_child(), theme));
}
TEST(CppGeneratedCode, ClearExtensionWithEmptyExtension) {
TestModel model;
EXPECT_EQ(false, ::protos::HasExtension(&model, theme));
::protos::ClearExtension(&model, theme);
EXPECT_EQ(false, ::protos::HasExtension(&model, theme));
}
TEST(CppGeneratedCode, ClearExtensionWithEmptyExtensionPtr) {
TestModel model;
::protos::Ptr<TestModel> recursive_child = model.mutable_recursive_child();
::protos::ClearExtension(recursive_child, theme);
EXPECT_EQ(false, ::protos::HasExtension(recursive_child, theme));
}
TEST(CppGeneratedCode, SetExtension) {
TestModel model;
void* prior_message;
{
// Use a nested scope to make sure the arenas are fused correctly.
ThemeExtension extension1;
extension1.set_ext_name("Hello World");
prior_message = ::protos::internal::GetInternalMsg(&extension1);
EXPECT_EQ(false, ::protos::HasExtension(&model, theme));
EXPECT_EQ(
true,
::protos::SetExtension(&model, theme, std::move(extension1)).ok());
}
EXPECT_EQ(true, ::protos::HasExtension(&model, theme));
auto ext = ::protos::GetExtension(&model, theme);
EXPECT_TRUE(ext.ok());
EXPECT_EQ(::protos::internal::GetInternalMsg(*ext), prior_message);
}
TEST(CppGeneratedCode, SetExtensionWithPtr) {
::hpb::Arena arena_model;
::protos::Ptr<TestModel> model =
::protos::CreateMessage<TestModel>(arena_model);
void* prior_message;
{
// Use a nested scope to make sure the arenas are fused correctly.
::hpb::Arena arena;
::protos::Ptr<ThemeExtension> extension1 =
::protos::CreateMessage<ThemeExtension>(arena);
extension1->set_ext_name("Hello World");
prior_message = ::protos::internal::GetInternalMsg(extension1);
EXPECT_EQ(false, ::protos::HasExtension(model, theme));
auto res = ::protos::SetExtension(model, theme, extension1);
EXPECT_EQ(true, res.ok());
}
EXPECT_EQ(true, ::protos::HasExtension(model, theme));
auto ext = ::protos::GetExtension(model, theme);
EXPECT_TRUE(ext.ok());
EXPECT_NE(::protos::internal::GetInternalMsg(*ext), prior_message);
}
#ifndef _MSC_VER
TEST(CppGeneratedCode, SetExtensionShouldNotCompileForWrongType) {
::hpb::Arena arena;
::protos::Ptr<TestModel> model = ::protos::CreateMessage<TestModel>(arena);
ThemeExtension extension1;
ContainerExtension extension2;
const auto canSetExtension = [&](auto l) {
return Requires<decltype(model)>(l);
};
EXPECT_TRUE(canSetExtension(
[](auto p) -> decltype(::protos::SetExtension(p, theme, extension1)) {}));
// Wrong extension value type should fail to compile.
EXPECT_TRUE(!canSetExtension(
[](auto p) -> decltype(::protos::SetExtension(p, theme, extension2)) {}));
// Wrong extension id with correct extension type should fail to compile.
EXPECT_TRUE(
!canSetExtension([](auto p) -> decltype(::protos::SetExtension(
p, container_ext, extension1)) {}));
}
#endif
TEST(CppGeneratedCode, SetExtensionWithPtrSameArena) {
::hpb::Arena arena;
::protos::Ptr<TestModel> model = ::protos::CreateMessage<TestModel>(arena);
void* prior_message;
{
// Use a nested scope to make sure the arenas are fused correctly.
::protos::Ptr<ThemeExtension> extension1 =
::protos::CreateMessage<ThemeExtension>(arena);
extension1->set_ext_name("Hello World");
prior_message = ::protos::internal::GetInternalMsg(extension1);
EXPECT_EQ(false, ::protos::HasExtension(model, theme));
auto res = ::protos::SetExtension(model, theme, extension1);
EXPECT_EQ(true, res.ok());
}
EXPECT_EQ(true, ::protos::HasExtension(model, theme));
auto ext = ::protos::GetExtension(model, theme);
EXPECT_TRUE(ext.ok());
EXPECT_NE(::protos::internal::GetInternalMsg(*ext), prior_message);
}
TEST(CppGeneratedCode, SetExtensionFusingFailureShouldCopy) {
// Use an initial block to disallow fusing.
char initial_block[1000];
protos::Arena arena(initial_block, sizeof(initial_block));
protos::Ptr<TestModel> model = protos::CreateMessage<TestModel>(arena);
ThemeExtension extension1;
extension1.set_ext_name("Hello World");
ASSERT_FALSE(
upb_Arena_Fuse(arena.ptr(), ::protos::internal::GetArena(&extension1)));
EXPECT_FALSE(::protos::HasExtension(model, theme));
auto status = ::protos::SetExtension(model, theme, std::move(extension1));
EXPECT_TRUE(status.ok());
EXPECT_TRUE(::protos::HasExtension(model, theme));
EXPECT_TRUE(::protos::GetExtension(model, theme).ok());
}
TEST(CppGeneratedCode, SetExtensionShouldClone) {
TestModel model;
ThemeExtension extension1;
extension1.set_ext_name("Hello World");
EXPECT_EQ(false, ::protos::HasExtension(&model, theme));
EXPECT_EQ(true, ::protos::SetExtension(&model, theme, extension1).ok());
extension1.set_ext_name("Goodbye");
EXPECT_EQ(true, ::protos::HasExtension(&model, theme));
auto ext = ::protos::GetExtension(&model, theme);
EXPECT_TRUE(ext.ok());
EXPECT_EQ((*ext)->ext_name(), "Hello World");
}
TEST(CppGeneratedCode, SetExtensionShouldCloneConst) {
TestModel model;
ThemeExtension extension1;
extension1.set_ext_name("Hello World");
EXPECT_EQ(false, ::protos::HasExtension(&model, theme));
EXPECT_EQ(
true,
::protos::SetExtension(&model, theme, std::as_const(extension1)).ok());
extension1.set_ext_name("Goodbye");
EXPECT_EQ(true, ::protos::HasExtension(&model, theme));
auto ext = ::protos::GetExtension(&model, theme);
EXPECT_TRUE(ext.ok());
EXPECT_EQ((*ext)->ext_name(), "Hello World");
}
TEST(CppGeneratedCode, SetExtensionOnMutableChild) {
TestModel model;
ThemeExtension extension1;
extension1.set_ext_name("Hello World");
EXPECT_EQ(false,
::protos::HasExtension(model.mutable_recursive_child(), theme));
EXPECT_EQ(true, ::protos::SetExtension(model.mutable_recursive_child(), theme,
extension1)
.ok());
EXPECT_EQ(true,
::protos::HasExtension(model.mutable_recursive_child(), theme));
}
TEST(CppGeneratedCode, GetExtension) {
TestModel model;
ThemeExtension extension1;
extension1.set_ext_name("Hello World");
EXPECT_EQ(false, ::protos::HasExtension(&model, theme));
EXPECT_EQ(true, ::protos::SetExtension(&model, theme, extension1).ok());
EXPECT_EQ("Hello World",
::protos::GetExtension(&model, theme).value()->ext_name());
}
TEST(CppGeneratedCode, GetExtensionOnMutableChild) {
TestModel model;
ThemeExtension extension1;
extension1.set_ext_name("Hello World");
::protos::Ptr<TestModel> mutable_recursive_child =
model.mutable_recursive_child();
EXPECT_EQ(false, ::protos::HasExtension(mutable_recursive_child, theme));
EXPECT_EQ(
true,
::protos::SetExtension(mutable_recursive_child, theme, extension1).ok());
EXPECT_EQ("Hello World",
::protos::GetExtension(mutable_recursive_child, theme)
.value()
->ext_name());
}
TEST(CppGeneratedCode, GetExtensionOnImmutableChild) {
TestModel model;
ThemeExtension extension1;
extension1.set_ext_name("Hello World");
::protos::Ptr<TestModel> mutable_recursive_child =
model.mutable_recursive_child();
EXPECT_EQ(false, ::protos::HasExtension(mutable_recursive_child, theme));
EXPECT_EQ(
true,
::protos::SetExtension(mutable_recursive_child, theme, extension1).ok());
::protos::Ptr<const TestModel> recursive_child = model.recursive_child();
EXPECT_EQ("Hello World",
::protos::GetExtension(recursive_child, theme).value()->ext_name());
}
TEST(CppGeneratedCode, SerializeUsingArena) {
TestModel model;
model.set_str1("Hello World");
::upb::Arena arena;
absl::StatusOr<absl::string_view> bytes = ::protos::Serialize(&model, arena);
EXPECT_EQ(true, bytes.ok());
TestModel parsed_model = ::protos::Parse<TestModel>(bytes.value()).value();
EXPECT_EQ("Hello World", parsed_model.str1());
}
TEST(CppGeneratedCode, SerializeProxyUsingArena) {
::upb::Arena message_arena;
TestModel::Proxy model_proxy =
::protos::CreateMessage<TestModel>(message_arena);
model_proxy.set_str1("Hello World");
::upb::Arena arena;
absl::StatusOr<absl::string_view> bytes =
::protos::Serialize(&model_proxy, arena);
EXPECT_EQ(true, bytes.ok());
TestModel parsed_model = ::protos::Parse<TestModel>(bytes.value()).value();
EXPECT_EQ("Hello World", parsed_model.str1());
}
TEST(CppGeneratedCode, SerializeNestedMessageUsingArena) {
TestModel model;
model.mutable_recursive_child()->set_str1("Hello World");
::upb::Arena arena;
::protos::Ptr<const TestModel> child = model.recursive_child();
absl::StatusOr<absl::string_view> bytes = ::protos::Serialize(child, arena);
EXPECT_EQ(true, bytes.ok());
TestModel parsed_model = ::protos::Parse<TestModel>(bytes.value()).value();
EXPECT_EQ("Hello World", parsed_model.str1());
}
TEST(CppGeneratedCode, Parse) {
TestModel model;
model.set_str1("Test123");
ThemeExtension extension1;
extension1.set_ext_name("Hello World");
EXPECT_EQ(true, ::protos::SetExtension(&model, theme, extension1).ok());
::upb::Arena arena;
auto bytes = ::protos::Serialize(&model, arena);
EXPECT_EQ(true, bytes.ok());
TestModel parsed_model = ::protos::Parse<TestModel>(bytes.value()).value();
EXPECT_EQ("Test123", parsed_model.str1());
EXPECT_EQ(true, ::protos::GetExtension(&parsed_model, theme).ok());
}
TEST(CppGeneratedCode, ParseIntoPtrToModel) {
TestModel model;
model.set_str1("Test123");
ThemeExtension extension1;
extension1.set_ext_name("Hello World");
EXPECT_EQ(true, ::protos::SetExtension(&model, theme, extension1).ok());
::upb::Arena arena;
auto bytes = ::protos::Serialize(&model, arena);
EXPECT_EQ(true, bytes.ok());
::protos::Ptr<TestModel> parsed_model =
::protos::CreateMessage<TestModel>(arena);
EXPECT_TRUE(::protos::Parse(parsed_model, bytes.value()));
EXPECT_EQ("Test123", parsed_model->str1());
// Should return an extension even if we don't pass ExtensionRegistry
// by promoting unknown.
EXPECT_EQ(true, ::protos::GetExtension(parsed_model, theme).ok());
}
TEST(CppGeneratedCode, ParseWithExtensionRegistry) {
TestModel model;
model.set_str1("Test123");
ThemeExtension extension1;
extension1.set_ext_name("Hello World");
EXPECT_EQ(true, ::protos::SetExtension(&model, theme, extension1).ok());
EXPECT_EQ(true, ::protos::SetExtension(
&model, ThemeExtension::theme_extension, extension1)
.ok());
::upb::Arena arena;
auto bytes = ::protos::Serialize(&model, arena);
EXPECT_EQ(true, bytes.ok());
::protos::ExtensionRegistry extensions(
{&theme, &other_ext, &ThemeExtension::theme_extension}, arena);
TestModel parsed_model =
::protos::Parse<TestModel>(bytes.value(), extensions).value();
EXPECT_EQ("Test123", parsed_model.str1());
EXPECT_EQ(true, ::protos::GetExtension(&parsed_model, theme).ok());
EXPECT_EQ(true, ::protos::GetExtension(&parsed_model,
ThemeExtension::theme_extension)
.ok());
EXPECT_EQ("Hello World", ::protos::GetExtension(
&parsed_model, ThemeExtension::theme_extension)
.value()
->ext_name());
}
TEST(CppGeneratedCode, NameCollisions) {
TestModel model;
model.set_template_("test");
EXPECT_EQ("test", model.template_());
model.set_arena__("test");
EXPECT_EQ("test", model.arena__());
}
TEST(CppGeneratedCode, SharedPointer) {
std::shared_ptr<TestModel> model = std::make_shared<TestModel>();
::upb::Arena arena;
auto bytes = protos::Serialize(model.get(), arena);
EXPECT_TRUE(protos::Parse(model.get(), bytes.value()));
}
TEST(CppGeneratedCode, UniquePointer) {
auto model = std::make_unique<TestModel>();
::upb::Arena arena;
auto bytes = protos::Serialize(model.get(), arena);
EXPECT_TRUE(protos::Parse(model.get(), bytes.value()));
}
TEST(CppGeneratedCode, Assignment) {
TestModel model;
model.set_category(5);
model.mutable_child_model_1()->set_child_str1("text in child");
TestModel model2 = model;
EXPECT_EQ(5, model2.category());
EXPECT_EQ(model2.child_model_1()->child_str1(), "text in child");
}
TEST(CppGeneratedCode, PtrAssignment) {
TestModel model;
model.mutable_child_model_1()->set_child_str1("text in child");
ChildModel1 child_from_const_ptr = *model.child_model_1();
EXPECT_EQ(child_from_const_ptr.child_str1(), "text in child");
ChildModel1 child_from_ptr = *model.mutable_child_model_1();
EXPECT_EQ(child_from_ptr.child_str1(), "text in child");
}
TEST(CppGeneratedCode, CopyConstructor) {
TestModel model;
model.set_category(6);
TestModel model2(model);
EXPECT_EQ(6, model2.category());
}
TEST(CppGeneratedCode, PtrConstructor) {
TestModel model;
model.mutable_child_model_1()->set_child_str1("text in child");
ChildModel1 child_from_ptr(*model.mutable_child_model_1());
EXPECT_EQ(child_from_ptr.child_str1(), "text in child");
ChildModel1 child_from_const_ptr(*model.child_model_1());
EXPECT_EQ(child_from_const_ptr.child_str1(), "text in child");
}
TEST(CppGeneratedCode, MutableToProxy) {
TestModel model;
::protos::Ptr<ChildModel1> child = model.mutable_child_model_1();
(void)child;
}
TEST(CppGeneratedCode, ProxyToCProxy) {
TestModel model;
::protos::Ptr<ChildModel1> child = model.mutable_child_model_1();
::protos::Ptr<const ChildModel1> child2 = child;
(void)child2;
}
TEST(CppGeneratedCode, MutableAccessorsAreHiddenInCProxy) {
TestModel model;
::protos::Ptr<TestModel> proxy = &model;
::protos::Ptr<const TestModel> cproxy = proxy;
const auto test_const_accessors = [](auto p) {
// We don't want to run it, just check it compiles.
if (false) {
(void)p->has_str1();
(void)p->str1();
(void)p->has_value();
(void)p->value();
(void)p->has_oneof_member1();
(void)p->oneof_member1();
(void)p->value_array();
(void)p->value_array_size();
(void)p->value_array(1);
(void)p->has_nested_child_1();
(void)p->nested_child_1();
(void)p->child_models();
(void)p->child_models_size();
(void)p->child_models(1);
(void)p->child_map_size();
(void)p->get_child_map(1);
}
};
test_const_accessors(proxy);
test_const_accessors(cproxy);
const auto test_mutable_accessors = [](auto p, bool expected) {
const auto r = [&](auto l) { return Requires<decltype(p)>(l) == expected; };
EXPECT_TRUE(r([](auto p) -> decltype(p->set_str1("")) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->clear_str1()) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->set_value(1)) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->clear_value()) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->set_oneof_member1("")) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->clear_oneof_member1()) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->mutable_nested_child_1()) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->clear_nested_child_1()) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->add_value_array(1)) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->mutable_value_array()) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->resize_value_array(1)) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->set_value_array(1, 1)) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->add_child_models()) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->mutable_child_models(1)) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->clear_child_map()) {}));
EXPECT_TRUE(r([](auto p) -> decltype(p->delete_child_map(1)) {}));
EXPECT_TRUE(r(
[](auto p) -> decltype(p->set_child_map(1, *p->get_child_map(1))) {}));
};
test_mutable_accessors(proxy, true);
test_mutable_accessors(cproxy, false);
}
bool ProxyToCProxyMethod(::protos::Ptr<const ChildModel1> child) {
return child->child_str1() == "text in child";
}
TEST(CppGeneratedCode, PassProxyToCProxy) {
TestModel model;
model.mutable_child_model_1()->set_child_str1("text in child");
EXPECT_TRUE(ProxyToCProxyMethod(model.mutable_child_model_1()));
}
TEST(CppGeneratedCode, PtrImplicitConversion) {
TestModel model;
model.set_int64(5);
::protos::Ptr<TestModel> model_ptr = &model;
EXPECT_EQ(model_ptr->int64(), 5);
}
TEST(CppGeneratedCode, ClearSubMessage) {
// Fill model.
TestModel model;
model.set_int64(5);
auto new_child = model.mutable_child_model_1();
new_child->set_child_str1("text in child");
ThemeExtension extension1;
extension1.set_ext_name("name in extension");
EXPECT_TRUE(::protos::SetExtension(&model, theme, extension1).ok());
EXPECT_TRUE(model.mutable_child_model_1()->has_child_str1());
// Clear using Ptr<T>
::protos::ClearMessage(model.mutable_child_model_1());
EXPECT_FALSE(model.mutable_child_model_1()->has_child_str1());
}
TEST(CppGeneratedCode, ClearMessage) {
// Fill model.
TestModel model;
model.set_int64(5);
model.set_str2("Hello");
auto new_child = model.add_child_models();
ASSERT_TRUE(new_child.ok());
new_child.value()->set_child_str1("text in child");
ThemeExtension extension1;
extension1.set_ext_name("name in extension");
EXPECT_TRUE(::protos::SetExtension(&model, theme, extension1).ok());
// Clear using T*
::protos::ClearMessage(&model);
// Verify that scalars, repeated fields and extensions are cleared.
EXPECT_FALSE(model.has_int64());
EXPECT_FALSE(model.has_str2());
EXPECT_TRUE(model.child_models().empty());
EXPECT_FALSE(::protos::HasExtension(&model, theme));
}
TEST(CppGeneratedCode, CanInvokeClearMessageWithPtr) {
// Fill model.
TestModel model;
model.set_int64(5);
auto new_child = model.add_child_models();
// Clear using Ptr<T>
auto ptr = ::protos::Ptr<TestModel>(&model);
::protos::ClearMessage(ptr);
// Successful clear
EXPECT_FALSE(model.has_int64());
}
TEST(CppGeneratedCode, CanInvokeClearMessageWithRawPtr) {
// Fill model.
TestModel model;
model.set_int64(5);
auto new_child = model.add_child_models();
// Clear using T*
::protos::ClearMessage(&model);
// Successful clear
EXPECT_FALSE(model.has_int64());
}
template <typename T>
bool CanCallClearMessage() {
return Requires<T>([](auto x) -> decltype(::protos::ClearMessage(x)) {});
}
TEST(CppGeneratedCode, CannotInvokeClearMessageWithConstPtr) {
EXPECT_TRUE(CanCallClearMessage<::protos::Ptr<TestModel>>());
EXPECT_FALSE(CanCallClearMessage<::protos::Ptr<const TestModel>>());
}
TEST(CppGeneratedCode, CannotInvokeClearMessageWithConstRawPtr) {
EXPECT_TRUE(CanCallClearMessage<TestModel*>());
EXPECT_FALSE(CanCallClearMessage<const TestModel*>());
}
TEST(CppGeneratedCode, DeepCopy) {
// Fill model.
TestModel model;
model.set_int64(5);
model.set_str2("Hello");
auto new_child = model.add_child_models();
ASSERT_TRUE(new_child.ok());
new_child.value()->set_child_str1("text in child");
ThemeExtension extension1;
extension1.set_ext_name("name in extension");
EXPECT_TRUE(::protos::SetExtension(&model, theme, extension1).ok());
TestModel target;
target.set_b1(true);
::protos::DeepCopy(&model, &target);
EXPECT_FALSE(target.b1()) << "Target was not cleared before copying content ";
EXPECT_EQ(target.str2(), "Hello");
EXPECT_TRUE(::protos::HasExtension(&target, theme));
}
TEST(CppGeneratedCode, HasExtensionAndRegistry) {
// Fill model.
TestModel source;
source.set_int64(5);
source.set_str2("Hello");
auto new_child = source.add_child_models();
ASSERT_TRUE(new_child.ok());
new_child.value()->set_child_str1("text in child");
ThemeExtension extension1;
extension1.set_ext_name("name in extension");
ASSERT_TRUE(::protos::SetExtension(&source, theme, extension1).ok());
// Now that we have a source model with extension data, serialize.
::hpb::Arena arena;
std::string data = std::string(::protos::Serialize(&source, arena).value());
// Test with ExtensionRegistry
::protos::ExtensionRegistry extensions({&theme}, arena);
TestModel parsed_model = ::protos::Parse<TestModel>(data, extensions).value();
EXPECT_TRUE(::protos::HasExtension(&parsed_model, theme));
}
TEST(CppGeneratedCode, FieldNumberConstants) {
static_assert(TestModel::kChildMapFieldNumber == 225);
EXPECT_EQ(225, TestModel::kChildMapFieldNumber);
}
TEST(CppGeneratedCode, ClearConstMessageShouldFailForConstChild) {
TestModel model;
EXPECT_FALSE(CanCallClearMessage<decltype(model.child_model_1())>());
EXPECT_TRUE(CanCallClearMessage<decltype(model.mutable_child_model_1())>());
}
} // namespace