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97f2a2213e
ClickHouse/dbms/IO/tests/gtest_DateTime64_parsing_and_writing.cpp
Ivan 97f2a2213e
Move all folders inside /dbms one level up (#9974) 
* Move some code outside dbms/src folder
* Fix paths
2020-04-02 02:51:21 +03:00

201 lines
6.3 KiB
C++
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#pragma GCC diagnostic ignored "-Wmissing-declarations"
#include <gtest/gtest.h>
#include <IO/ReadHelpers.h>
#include <IO/WriteHelpers.h>
#include <IO/parseDateTimeBestEffort.h>
#include <Common/PODArray.h>
/** Test formatting and parsing predefined DateTime64 values to/from string
*/
using namespace DB;
struct DateTime64StringsTestParam
{
const std::string_view comment;
const std::string_view string;
DateTime64 dt64;
UInt32 scale;
const DateLUTImpl & timezone;
};
static std::ostream & operator << (std::ostream & ostr, const DateTime64StringsTestParam & param)
{
return ostr << param.comment;
}
class DateTime64StringsTest : public ::testing::TestWithParam<DateTime64StringsTestParam> {};
class DateTime64StringParseTest : public DateTime64StringsTest{};
class DateTime64StringParseBestEffortTest : public DateTime64StringsTest{};
class DateTime64StringWriteTest : public DateTime64StringsTest {};
TEST_P(DateTime64StringParseTest, readDateTime64Text)
{
const auto & param = GetParam();
ReadBufferFromMemory read_buffer(param.string.data(), param.string.size());
DateTime64 actual{};
EXPECT_TRUE(tryReadDateTime64Text(actual, param.scale, read_buffer, param.timezone));
EXPECT_EQ(param.dt64, actual);
}
TEST_P(DateTime64StringParseTest, parseDateTime64BestEffort)
{
const auto & param = GetParam();
ReadBufferFromMemory read_buffer(param.string.data(), param.string.size());
DateTime64 actual;
EXPECT_TRUE(tryParseDateTime64BestEffort(actual, param.scale, read_buffer, param.timezone, DateLUT::instance("UTC")));
EXPECT_EQ(param.dt64, actual);
}
TEST_P(DateTime64StringWriteTest, WriteText)
{
const auto & param = GetParam();
PaddedPODArray<char> actual_string(param.string.size() * 2, '\0'); // TODO: detect overflows
WriteBuffer write_buffer(actual_string.data(), actual_string.size());
EXPECT_NO_THROW(writeDateTimeText(param.dt64, param.scale, write_buffer, param.timezone));
EXPECT_STREQ(param.string.data(), actual_string.data());
}
TEST_P(DateTime64StringParseBestEffortTest, parse)
{
const auto & param = GetParam();
ReadBufferFromMemory read_buffer(param.string.data(), param.string.size());
DateTime64 actual;
EXPECT_TRUE(tryParseDateTime64BestEffort(actual, param.scale, read_buffer, param.timezone, DateLUT::instance("UTC")));
EXPECT_EQ(param.dt64, actual);
}
// YYYY-MM-DD HH:MM:SS.NNNNNNNNN
INSTANTIATE_TEST_SUITE_P(Basic,
DateTime64StringParseTest,
::testing::ValuesIn(std::initializer_list<DateTime64StringsTestParam>{
{
"When subsecond part is missing from string it is set to zero.",
"2019-09-16 19:20:17",
1568650817'000,
3,
DateLUT::instance("Europe/Minsk")
},
{
"When subsecond part is present in string, but it is zero, it is set to zero.",
"2019-09-16 19:20:17.0",
1568650817'000,
3,
DateLUT::instance("Europe/Minsk")
},
{
"When scale is 0, subsecond part is not set.",
"2019-09-16 19:20:17",
1568650817ULL,
0,
DateLUT::instance("Europe/Minsk")
},
{
"When scale is 0, subsecond part is 0 despite beeing present in string.",
"2019-09-16 19:20:17.123",
1568650817ULL,
0,
DateLUT::instance("Europe/Minsk")
},
{
"When subsecond part is present in string, it is set correctly to DateTime64 value of scale 3.",
"2019-09-16 19:20:17.123",
1568650817'123,
3,
DateLUT::instance("Europe/Minsk")
},
{
"When subsecond part is present in string (and begins with 0), it is set correctly to DateTime64 value of scale 3.",
"2019-09-16 19:20:17.012",
1568650817'012,
3,
DateLUT::instance("Europe/Minsk")
},
{
"When subsecond part scale is smaller than DateTime64 scale, subsecond part is properly adjusted (as if padded from right with zeroes).",
"2019-09-16 19:20:17.123",
1568650817'12300ULL,
5,
DateLUT::instance("Europe/Minsk")
},
{
"When subsecond part scale is larger than DateTime64 scale, subsecond part is truncated.",
"2019-09-16 19:20:17.123",
1568650817'1ULL,
1,
DateLUT::instance("Europe/Minsk")
}
})
);
INSTANTIATE_TEST_SUITE_P(BestEffort,
DateTime64StringParseBestEffortTest,
::testing::ValuesIn(std::initializer_list<DateTime64StringsTestParam>{
{
"When subsecond part is unreasonably large, it truncated to given scale",
"2019-09-16 19:20:17.12345678910111213141516171819202122233435363738393031323334353637383940414243444546474849505152535455565758596061626364",
1568650817'123456ULL,
6,
DateLUT::instance("Europe/Minsk")
}
})
);
// TODO: add negative test cases for invalid strings, verifying that error is reported properly
INSTANTIATE_TEST_SUITE_P(Basic,
DateTime64StringWriteTest,
::testing::ValuesIn(std::initializer_list<DateTime64StringsTestParam>{
{
"non-zero subsecond part on DateTime64 with scale of 3",
"2019-09-16 19:20:17.123",
1568650817'123,
3,
DateLUT::instance("Europe/Minsk")
},
{
"non-zero subsecond part on DateTime64 with scale of 5",
"2019-09-16 19:20:17.12345",
1568650817'12345ULL,
5,
DateLUT::instance("Europe/Minsk")
},
{
"Zero subsecond part is written to string",
"2019-09-16 19:20:17.000",
1568650817'000ULL,
3,
DateLUT::instance("Europe/Minsk")
},
{
"When scale is 0, subsecond part (and separtor) is missing from string",
"2019-09-16 19:20:17",
1568650817ULL,
0,
DateLUT::instance("Europe/Minsk")
},
{
"Subsecond part with leading zeroes is written to string correctly",
"2019-09-16 19:20:17.001",
1568650817'001ULL,
3,
DateLUT::instance("Europe/Minsk")
}
})
);
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