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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// Author: ksroka@google.com (Krzysztof Sroka)
#include <util/field_comparator.h>
#include <limits>
#include <unittest.pb.h>
#include <descriptor.h>
#include <gtest/gtest.h>
#include <stubs/mathutil.h>
namespace google {
namespace protobuf {
namespace util {
namespace {
using protobuf_unittest::TestAllTypes;
class DefaultFieldComparatorTest : public ::testing::Test {
protected:
void SetUp() { descriptor_ = TestAllTypes::descriptor(); }
const Descriptor* descriptor_;
DefaultFieldComparator comparator_;
TestAllTypes message_1_;
TestAllTypes message_2_;
};
TEST_F(DefaultFieldComparatorTest, RecursesIntoGroup) {
const FieldDescriptor* field = descriptor_->FindFieldByName("optionalgroup");
EXPECT_EQ(FieldComparator::RECURSE,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest, RecursesIntoNestedMessage) {
const FieldDescriptor* field =
descriptor_->FindFieldByName("optional_nested_message");
EXPECT_EQ(FieldComparator::RECURSE,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest, RecursesIntoForeignMessage) {
const FieldDescriptor* field =
descriptor_->FindFieldByName("optional_foreign_message");
EXPECT_EQ(FieldComparator::RECURSE,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest, Int32Comparison) {
const FieldDescriptor* field = descriptor_->FindFieldByName("optional_int32");
message_1_.set_optional_int32(1);
message_2_.set_optional_int32(1);
EXPECT_EQ(FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
message_2_.set_optional_int32(-1);
EXPECT_EQ(FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest, Int64Comparison) {
const FieldDescriptor* field = descriptor_->FindFieldByName("optional_int64");
message_1_.set_optional_int64(1L);
message_2_.set_optional_int64(1L);
EXPECT_EQ(FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
message_2_.set_optional_int64(-1L);
EXPECT_EQ(FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest, UInt32Comparison) {
const FieldDescriptor* field =
descriptor_->FindFieldByName("optional_uint32");
message_1_.set_optional_uint32(1);
message_2_.set_optional_uint32(1);
EXPECT_EQ(FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
message_2_.set_optional_uint32(2);
EXPECT_EQ(FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest, UInt64Comparison) {
const FieldDescriptor* field =
descriptor_->FindFieldByName("optional_uint64");
message_1_.set_optional_uint64(1L);
message_2_.set_optional_uint64(1L);
EXPECT_EQ(FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
message_2_.set_optional_uint64(2L);
EXPECT_EQ(FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest, BooleanComparison) {
const FieldDescriptor* field = descriptor_->FindFieldByName("optional_bool");
message_1_.set_optional_bool(true);
message_2_.set_optional_bool(true);
EXPECT_EQ(FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
message_2_.set_optional_bool(false);
EXPECT_EQ(FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest, EnumComparison) {
const FieldDescriptor* field =
descriptor_->FindFieldByName("optional_nested_enum");
message_1_.set_optional_nested_enum(TestAllTypes::BAR);
message_2_.set_optional_nested_enum(TestAllTypes::BAR);
EXPECT_EQ(FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
message_2_.set_optional_nested_enum(TestAllTypes::BAZ);
EXPECT_EQ(FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest, StringComparison) {
const FieldDescriptor* field =
descriptor_->FindFieldByName("optional_string");
message_1_.set_optional_string("foo");
message_2_.set_optional_string("foo");
EXPECT_EQ(FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
message_2_.set_optional_string("bar");
EXPECT_EQ(FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest, FloatingPointComparisonExact) {
const FieldDescriptor* field_float =
descriptor_->FindFieldByName("optional_float");
const FieldDescriptor* field_double =
descriptor_->FindFieldByName("optional_double");
message_1_.set_optional_float(0.1f);
message_2_.set_optional_float(0.1f);
message_1_.set_optional_double(0.1);
message_2_.set_optional_double(0.1);
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
message_2_.set_optional_float(0.2f);
message_2_.set_optional_double(0.2);
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest, FloatingPointComparisonApproximate) {
const FieldDescriptor* field_float =
descriptor_->FindFieldByName("optional_float");
const FieldDescriptor* field_double =
descriptor_->FindFieldByName("optional_double");
message_1_.set_optional_float(2.300005f);
message_2_.set_optional_float(2.300006f);
message_1_.set_optional_double(2.3000000000000003);
message_2_.set_optional_double(2.3000000000000007);
// Approximate comparison depends on MathUtil, so we assert on MathUtil
// results first to check if that's where the failure was introduced.
ASSERT_NE(message_1_.optional_float(), message_2_.optional_float());
ASSERT_NE(message_1_.optional_double(), message_2_.optional_double());
ASSERT_TRUE(MathUtil::AlmostEquals(message_1_.optional_float(),
message_2_.optional_float()));
ASSERT_TRUE(MathUtil::AlmostEquals(message_1_.optional_double(),
message_2_.optional_double()));
// DefaultFieldComparator's default float comparison mode is EXACT.
ASSERT_EQ(DefaultFieldComparator::EXACT, comparator_.float_comparison());
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
comparator_.set_float_comparison(DefaultFieldComparator::APPROXIMATE);
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest, FloatingPointComparisonTreatNaNsAsEqual) {
const FieldDescriptor* field_float =
descriptor_->FindFieldByName("optional_float");
const FieldDescriptor* field_double =
descriptor_->FindFieldByName("optional_double");
message_1_.set_optional_float(std::numeric_limits<float>::quiet_NaN());
message_2_.set_optional_float(std::numeric_limits<float>::quiet_NaN());
message_1_.set_optional_double(std::numeric_limits<double>::quiet_NaN());
message_2_.set_optional_double(std::numeric_limits<double>::quiet_NaN());
// DefaultFieldComparator's default float comparison mode is EXACT with
// treating NaNs as different.
ASSERT_EQ(DefaultFieldComparator::EXACT, comparator_.float_comparison());
ASSERT_EQ(false, comparator_.treat_nan_as_equal());
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
comparator_.set_float_comparison(DefaultFieldComparator::APPROXIMATE);
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
comparator_.set_treat_nan_as_equal(true);
ASSERT_EQ(true, comparator_.treat_nan_as_equal());
comparator_.set_float_comparison(DefaultFieldComparator::EXACT);
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
comparator_.set_float_comparison(DefaultFieldComparator::APPROXIMATE);
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
}
TEST_F(DefaultFieldComparatorTest,
FloatingPointComparisonWithinFractionOrMargin) {
const FieldDescriptor* field_float =
descriptor_->FindFieldByName("optional_float");
const FieldDescriptor* field_double =
descriptor_->FindFieldByName("optional_double");
message_1_.set_optional_float(100.0f);
message_2_.set_optional_float(109.9f);
message_1_.set_optional_double(100.0);
message_2_.set_optional_double(109.9);
comparator_.set_float_comparison(DefaultFieldComparator::APPROXIMATE);
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
// Should fail since the fraction is too low.
comparator_.SetFractionAndMargin(field_float, 0.01, 0.0);
comparator_.SetFractionAndMargin(field_double, 0.01, 0.0);
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
// Should fail since the margin is too low.
comparator_.SetFractionAndMargin(field_float, 0.0, 9.0);
comparator_.SetFractionAndMargin(field_double, 0.0, 9.0);
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
// Should succeed since the fraction is high enough.
comparator_.SetFractionAndMargin(field_float, 0.2, 0.0);
comparator_.SetFractionAndMargin(field_double, 0.2, 0.0);
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
// Should succeed since the margin is high enough.
comparator_.SetFractionAndMargin(field_float, 0.0, 10.0);
comparator_.SetFractionAndMargin(field_double, 0.0, 10.0);
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
// Setting values for one of the fields should not affect the other.
comparator_.SetFractionAndMargin(field_double, 0.0, 0.0);
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
// +inf should be equal even though they are not technically within margin or
// fraction.
message_1_.set_optional_float(std::numeric_limits<float>::infinity());
message_2_.set_optional_float(std::numeric_limits<float>::infinity());
message_1_.set_optional_double(std::numeric_limits<double>::infinity());
message_2_.set_optional_double(std::numeric_limits<double>::infinity());
comparator_.SetFractionAndMargin(field_float, 0.0, 0.0);
comparator_.SetFractionAndMargin(field_double, 0.0, 0.0);
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
// -inf should be equal even though they are not technically within margin or
// fraction.
message_1_.set_optional_float(-std::numeric_limits<float>::infinity());
message_2_.set_optional_float(-std::numeric_limits<float>::infinity());
message_1_.set_optional_double(-std::numeric_limits<double>::infinity());
message_2_.set_optional_double(-std::numeric_limits<double>::infinity());
comparator_.SetFractionAndMargin(field_float, 0.0, 0.0);
comparator_.SetFractionAndMargin(field_double, 0.0, 0.0);
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
// Finite values and inf should not be equal, even for a positive fraction.
message_1_.set_optional_float(std::numeric_limits<float>::infinity());
message_2_.set_optional_float(0.0f);
message_1_.set_optional_double(std::numeric_limits<double>::infinity());
message_2_.set_optional_double(0.0);
comparator_.SetFractionAndMargin(field_float, 0.1, 0.0);
comparator_.SetFractionAndMargin(field_double, 0.1, 0.0);
EXPECT_EQ(FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1,
nullptr));
EXPECT_EQ(FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1,
nullptr));
}
TEST_F(DefaultFieldComparatorTest,
FloatingPointComparisonWithinDefaultFractionOrMargin) {
const FieldDescriptor* field_float =
descriptor_->FindFieldByName("optional_float");
const FieldDescriptor* field_double =
descriptor_->FindFieldByName("optional_double");
message_1_.set_optional_float(100.0f);
message_2_.set_optional_float(109.9f);
message_1_.set_optional_double(100.0);
message_2_.set_optional_double(109.9);
comparator_.set_float_comparison(DefaultFieldComparator::APPROXIMATE);
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
// Set default fraction and margin.
comparator_.SetDefaultFractionAndMargin(0.01, 0.0);
// Float comparisons should fail since the fraction is too low.
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
// Set field-specific fraction and margin for one field (field_float) but not
// the other (field_double)
comparator_.SetFractionAndMargin(field_float, 0.2, 0.0);
// The field with the override should succeed, since its field-specific
// fraction is high enough.
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
// The field with no override should fail, since the default fraction is too
// low
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
// Set the default fraction and margin high enough so that fields that use
// the default should succeed
comparator_.SetDefaultFractionAndMargin(0.2, 0.0);
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
// The field with an override should still be OK
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
// Set fraction and margin for the field with an override to be too low
comparator_.SetFractionAndMargin(field_float, 0.01, 0.0);
// Now our default is high enough but field_float's override is too low.
EXPECT_EQ(
FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field_float, -1, -1, NULL));
EXPECT_EQ(
FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field_double, -1, -1, NULL));
}
// Simple test checking whether we compare values at correct indices.
TEST_F(DefaultFieldComparatorTest, RepeatedFieldComparison) {
const FieldDescriptor* field =
descriptor_->FindFieldByName("repeated_string");
message_1_.add_repeated_string("foo");
message_1_.add_repeated_string("bar");
message_2_.add_repeated_string("bar");
message_2_.add_repeated_string("baz");
EXPECT_EQ(FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field, 0, 0, NULL));
EXPECT_EQ(FieldComparator::DIFFERENT,
comparator_.Compare(message_1_, message_2_, field, 1, 1, NULL));
EXPECT_EQ(FieldComparator::SAME,
comparator_.Compare(message_1_, message_2_, field, 1, 0, NULL));
}
} // namespace
} // namespace util
} // namespace protobuf
} // namespace google
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