DarkflameServer/tests/dCommonTests/TestLDFFormat.cpp

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#include "LDFFormat.h"
#include <gtest/gtest.h>
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#include "Game.h"
#include "dCommonDependencies.h"
#include "dLogger.h"
class LDFTests : public dCommonDependenciesTest {
protected:
void SetUp() override {
SetUpDependencies();
}
void TearDown() override {
TearDownDependencies();
}
};
typedef std::unique_ptr<LDFBaseData> LdfUniquePtr;
// Suite of tests for parsing LDF values
TEST_F(LDFTests, LDFUTF16Test) {
std::string testWord = "KEY=0:IAmA weird string with :::: and spac,./;'][\\es that I expect to be parsed correctly...; ";
LdfUniquePtr data(LDFBaseData::DataFromString(testWord));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_UTF_16);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<std::u16string>*)data.get())->GetValue(), u"IAmA weird string with :::: and spac,./;'][\\es that I expect to be parsed correctly...; ");
ASSERT_EQ(data->GetString(), testWord);
}
TEST_F(LDFTests, LDFUTF16EmptyTest) {
std::string testWord = "KEY=0:";
LdfUniquePtr data(LDFBaseData::DataFromString(testWord));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_UTF_16);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<std::u16string>*)data.get())->GetValue(), u"");
ASSERT_EQ(data->GetString(), testWord);
}
TEST_F(LDFTests, LDFUTF16ColonTest) {
std::string testWord = "KEY=0:::";
LdfUniquePtr data(LDFBaseData::DataFromString(testWord));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_UTF_16);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<std::u16string>*)data.get())->GetValue(), u"::");
ASSERT_EQ(data->GetString(), testWord);
}
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TEST_F(LDFTests, LDFUTF16EqualsTest) {
std::string testWord = "KEY=0:==";
LdfUniquePtr data(LDFBaseData::DataFromString(testWord));
ASSERT_NE(data, nullptr);
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ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_UTF_16);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<std::u16string>*)data.get())->GetValue(), u"==");
ASSERT_EQ(data->GetString(), testWord);
}
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TEST_F(LDFTests, LDFS32Test) {
LdfUniquePtr data(LDFBaseData::DataFromString("KEY=1:-15"));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_S32);
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ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<int32_t>*)data.get())->GetValue(), -15);
ASSERT_EQ(data->GetString(), "KEY=1:-15");
}
TEST_F(LDFTests, LDFU32Test) {
LdfUniquePtr data(LDFBaseData::DataFromString("KEY=5:15"));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_U32);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<uint32_t>*)data.get())->GetValue(), 15);
ASSERT_EQ(data->GetString(), "KEY=5:15");
}
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TEST_F(LDFTests, LDFU32TrueTest) {
LdfUniquePtr data(LDFBaseData::DataFromString("KEY=5:true"));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_U32);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<uint32_t>*)data.get())->GetValue(), 1);
ASSERT_EQ(data->GetString(), "KEY=5:1");
}
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TEST_F(LDFTests, LDFU32FalseTest) {
LdfUniquePtr data(LDFBaseData::DataFromString("KEY=5:false"));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_U32);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<uint32_t>*)data.get())->GetValue(), 0);
ASSERT_EQ(data->GetString(), "KEY=5:0");
}
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// Use find since floats and doubles generally have appended 0s
TEST_F(LDFTests, LDFFloatTest) {
LdfUniquePtr data(LDFBaseData::DataFromString("KEY=3:15.5"));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_FLOAT);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<float>*)data.get())->GetValue(), 15.5f);
ASSERT_EQ(data->GetString().find("KEY=3:15.5"), 0);
}
TEST_F(LDFTests, LDFDoubleTest) {
LdfUniquePtr data(LDFBaseData::DataFromString("KEY=4:15.5"));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_DOUBLE);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<double>*)data.get())->GetValue(), 15.5);
ASSERT_EQ(data->GetString().find("KEY=4:15.5"), 0);
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}
TEST_F(LDFTests, LDFBoolTrueTest) {
LdfUniquePtr data(LDFBaseData::DataFromString("KEY=7:true"));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_BOOLEAN);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<bool>*)data.get())->GetValue(), true);
ASSERT_EQ(data->GetString(), "KEY=7:1");
}
TEST_F(LDFTests, LDFBoolFalseTest) {
LdfUniquePtr data(LDFBaseData::DataFromString("KEY=7:false"));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_BOOLEAN);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<bool>*)data.get())->GetValue(), false);
ASSERT_EQ(data->GetString(), "KEY=7:0");
}
TEST_F(LDFTests, LDFBoolIntTest) {
LdfUniquePtr data(LDFBaseData::DataFromString("KEY=7:3"));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_BOOLEAN);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<bool>*)data.get())->GetValue(), true);
ASSERT_EQ(data->GetString(), "KEY=7:1");
}
TEST_F(LDFTests, LDFU64Test) {
LdfUniquePtr data(LDFBaseData::DataFromString("KEY=8:15"));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_U64);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<uint64_t>*)data.get())->GetValue(), 15);
ASSERT_EQ(data->GetString(), "KEY=8:15");
}
TEST_F(LDFTests, LDFLWOOBJIDTest) {
LdfUniquePtr data(LDFBaseData::DataFromString("KEY=9:15"));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_OBJID);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<uint64_t>*)data.get())->GetValue(), 15);
ASSERT_EQ(data->GetString(), "KEY=9:15");
}
TEST_F(LDFTests, LDFUTF8Test) {
std::string testWord = "KEY=13:IAmA weird string with :::: and spac,./;'][\\es that I expect to be parsed correctly...; ";
LdfUniquePtr data(LDFBaseData::DataFromString(testWord));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_UTF_8);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<std::string>*)data.get())->GetValue(), "IAmA weird string with :::: and spac,./;'][\\es that I expect to be parsed correctly...; ");
ASSERT_EQ(data->GetString(), testWord);
}
TEST_F(LDFTests, LDFUTF8EmptyTest) {
std::string testWord = "KEY=13:";
LdfUniquePtr data(LDFBaseData::DataFromString(testWord));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_UTF_8);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<std::string>*)data.get())->GetValue(), "");
ASSERT_EQ(data->GetString(), testWord);
}
TEST_F(LDFTests, LDFUTF8ColonsTest) {
std::string testWord = "KEY=13:::";
LdfUniquePtr data(LDFBaseData::DataFromString(testWord));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_UTF_8);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<std::string>*)data.get())->GetValue(), "::");
ASSERT_EQ(data->GetString(), testWord);
}
TEST_F(LDFTests, LDFUTF8EqualsTest) {
std::string testWord = "KEY=13:==";
LdfUniquePtr data(LDFBaseData::DataFromString(testWord));
ASSERT_NE(data, nullptr);
ASSERT_EQ(data->GetValueType(), eLDFType::LDF_TYPE_UTF_8);
ASSERT_EQ(data->GetKey(), u"KEY");
ASSERT_EQ(((LDFData<std::string>*)data.get())->GetValue(), "==");
ASSERT_EQ(data->GetString(), testWord);
}
TEST_F(LDFTests, LDFParseEdgeCaseTest) {
std::vector<std::string> tests = {
// Test undefined data
"", // Empty
"=", // Only equals sign
":", // Only colon
"=:", // Only colon and equals sign
// Test no LDFType
"KEY=:", // No LDF Type
"KEY=:44", // No LDF Type, but has value
// Test invalid values, but valid types
"key=1:", // no value for int32
"key=1:banana", // invalid value for int32
"key=3:", // No value for float
"key=3:banana", // invalid for float
"key=4:", // No value for double
"key=4:banana", // invalid for double
"key=5:", // No value for U32
"key=5:banana", // invalid for U32
"key=7:", // No value for bool
"key=7:banana", // invalid for bool
"key=8:", // No value for U64
"key=8:banana", // invalid for U64
"key=9:", // No value for LWOOBJID
"key=9:banana", // invalid for LWOOBJID
// Test invalid LDF types
"key=14:value", // invalid LDF type
"key=-1:value", // invalid LDF type
"key=-2:value", // invalid LDF type (no enum definition)
"key=Garbage:value", // invalid LDF type
};
for (auto testString : tests) {
Game::logger->Log("LDFTests", "Testing LDF Parsing of invalid string (%s)", testString.c_str());
EXPECT_NO_THROW(LDFBaseData::DataFromString(testString));
}
}
#ifdef PERF_TEST
TEST_F(LDFTests, LDFSpeedTest) {
std::string keyToTest = "KEY=0:IAmA weird string with :::: and s";
for (int i = 0; i < 10000; i++) LDFBaseData::DataFromString(keyToTest);
}
#endif //PERF