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<?php |
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namespace DataValues\Tests; |
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use DataValues\TimeValue; |
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use DataValues\TimeValueCalculator; |
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/** |
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* @covers DataValues\TimeValueCalculator |
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* |
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* @group DataValue |
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* @group DataValueExtensions |
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* |
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* @license GPL-2.0+ |
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* @author Thiemo Kreuz |
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*/ |
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class TimeValueCalculatorTest extends \PHPUnit_Framework_TestCase { |
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/** |
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* @var TimeValueCalculator |
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*/ |
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private $calculator; |
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protected function setUp() { |
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$this->calculator = new TimeValueCalculator(); |
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} |
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/** |
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* @param string $time an ISO 8601 date and time |
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* @param int $timezone offset from UTC in minutes |
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* |
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* @return TimeValue |
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*/ |
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private function getTimeValueMock( $time, $timezone = 0 ) { |
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$timeValue = $this->getMockBuilder( TimeValue::class ) |
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->disableOriginalConstructor() |
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->getMock(); |
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$timeValue->expects( $this->any() ) |
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->method( 'getTime' ) |
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->will( $this->returnValue( $time ) ); |
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$timeValue->expects( $this->any() ) |
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->method( 'getTimezone' ) |
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->will( $this->returnValue( $timezone ) ); |
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$timeValue->expects( $this->any() ) |
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->method( 'getPrecision' ) |
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->will( $this->returnValue( TimeValue::PRECISION_DAY ) ); |
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$timeValue->expects( $this->any() ) |
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->method( 'getCalendarModel' ) |
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->will( $this->returnValue( 'Stardate' ) ); |
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return $timeValue; |
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} |
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public function timestampProvider() { |
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return array( |
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// Make sure it's identical to the PHP/Unix time stamps in current years |
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array( '+2004-02-29T00:00:00Z', strtotime( '2004-02-29T00:00:00+00:00' ) ), |
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array( '+2038-00-00T00:00:00Z', strtotime( '2038-01-01T00:00:00+00:00' ) ), |
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// Time zones |
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array( '+2000-01-01T12:59:59', strtotime( '2000-01-01T12:59:59-02:00' ), -120 ), |
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array( '+2000-01-01T12:59:59', strtotime( '2000-01-01T12:59:59+04:45' ), 285 ), |
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array( '+0401-00-00T00:00:00Z', -49512816000 ), |
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array( '+1902-00-00T00:00:00Z', -2145916800 ), |
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array( '+1939-00-00T00:00:00Z', -978307200 ), |
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array( '+1969-12-31T23:59:00Z', -60 ), |
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array( '+1969-12-31T23:59:59Z', -1 ), |
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array( '+1970-01-01T00:00:00Z', 0 ), |
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array( '+1970-01-01T00:00:01Z', 1 ), |
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array( '+1970-01-01T00:01:00Z', 60 ), |
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array( '+1972-02-29T00:00:00Z', 68169600 ), |
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array( '+1996-02-29T00:00:00Z', 825552000 ), |
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array( '+1999-12-31T23:59:59Z', 946684799 ), |
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array( '+2000-01-01T00:00:00Z', 946684800 ), |
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array( '+2000-02-01T00:00:00Z', 949363200 ), |
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array( '+2000-02-29T00:00:00Z', 951782400 ), |
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array( '+2001-00-00T00:00:00Z', 978307200 ), |
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array( '+2001-01-01T00:00:00Z', 978307200 ), |
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array( '+2014-04-30T12:35:55Z', 1398861355 ), |
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array( '+2401-00-00T00:00:00Z', 13601088000 ), |
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// Make sure there is only 1 second between these two |
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array( '-0001-12-31T23:59:59Z', -62135596801 ), |
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array( '+0001-00-00T00:00:00Z', -62135596800 ), |
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// No special calculation for leap seconds, just make sure they pass |
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array( '+1970-10-11T12:13:61Z', 24495241 ), |
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array( '+1970-10-11T12:14:01Z', 24495241 ), |
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// Year 0 does not exist, but we do not complain, assume -1 |
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array( '-0000-12-31T23:59:59Z', -62135596801 ), |
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array( '+0000-00-00T00:00:00Z', floor( ( -1 - 1969 ) * 365.2425 ) * 86400 ), |
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// Since there is no year 0, negative leap years are -1, -5 and so on |
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array( '-8001-00-00T00:00:00Z', floor( ( -8001 - 1969 ) * 365.2425 ) * 86400 ), |
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array( '-0005-00-00T00:00:00Z', floor( ( -5 - 1969 ) * 365.2425 ) * 86400 ), |
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array( '+0004-00-00T00:00:00Z', floor( ( 4 - 1970 ) * 365.2425 ) * 86400 ), |
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array( '+8000-00-00T00:00:00Z', floor( ( 8000 - 1970 ) * 365.2425 ) * 86400 ), |
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// PHP_INT_MIN is -2147483648 |
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array( '-2147484001-00-00T00:00:00Z', floor( ( -2147484001 - 1969 ) * 365.2425 ) * 86400 ), |
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// PHP_INT_MAX is +2147483647 |
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array( '+2147484000-00-00T00:00:00Z', floor( ( 2147484000 - 1970 ) * 365.2425 ) * 86400 ), |
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); |
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} |
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/** |
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* @dataProvider timestampProvider |
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*/ |
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public function testGetTimestamp( $time, $expectedTimestamp = 0.0, $timezone = 0 ) { |
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$timeValue = $this->getTimeValueMock( $time, $timezone ); |
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$timestamp = $this->calculator->getTimestamp( $timeValue ); |
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$this->assertEquals( $expectedTimestamp, $timestamp ); |
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} |
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public function yearProvider() { |
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return array( |
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// Every 4 years |
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array( 1895, 459 ), |
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array( 1896, 460, true ), |
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array( 1897, 460 ), |
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// Not every 100 years but every 400 years |
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array( 1900, 460 ), |
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array( 2000, 485, true ), |
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array( 2100, 509 ), |
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// Extremes |
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array( 1, 0 ), |
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array( 9999, 2424 ), |
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array( 2147483647, 520764784 ), |
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// There is no year zero, assume -1 |
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array( -1, 0, true ), |
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array( 0, 0, true ), |
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// Off by 1 for negative years because zero is skipped |
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array( -6, -2 ), |
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array( -5, -1, true ), |
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array( -4, -1 ), |
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array( -3, -1 ), |
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array( -2, -1 ), |
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array( -1, 0, true ), |
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array( 1, 0 ), |
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array( 2, 0 ), |
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array( 3, 0 ), |
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array( 4, 1, true ), |
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array( 5, 1 ), |
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// Because we can |
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array( -6.9, -2 ), |
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array( -6.1, -2 ), |
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array( -5.501, -1, true ), |
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array( -5.499, -1, true ), |
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array( -4.6, -1 ), |
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array( -4.4, -1 ), |
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array( 1995.01, 483 ), |
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array( 1995.09, 483 ), |
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array( 1996.001, 484, true ), |
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array( 1996.009, 484, true ), |
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array( 1997.1, 484 ), |
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array( 1997.9, 484 ), |
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); |
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} |
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/** |
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* @dataProvider yearProvider |
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*/ |
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public function testIsLeapYear( $year, $numberOfLeapYears, $expected = false ) { |
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$isLeapYear = $this->calculator->isLeapYear( $year ); |
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$this->assertEquals( $expected, $isLeapYear ); |
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} |
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/** |
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* @dataProvider yearProvider |
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*/ |
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public function testGetNumberOfLeapYears( $year, $expected, $isLeapYear = false ) { |
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$numberOfLeapYears = $this->calculator->getNumberOfLeapYears( $year ); |
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$this->assertEquals( $expected, $numberOfLeapYears ); |
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} |
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public function precisionProvider() { |
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$secondsPerDay = 60 * 60 * 24; |
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$daysPerGregorianYear = 365 + 1 / 4 - 1 / 100 + 1 / 400; |
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return array( |
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array( TimeValue::PRECISION_SECOND, 1 ), |
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array( TimeValue::PRECISION_MINUTE, 60 ), |
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array( TimeValue::PRECISION_HOUR, 60 * 60 ), |
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array( TimeValue::PRECISION_DAY, $secondsPerDay ), |
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array( TimeValue::PRECISION_MONTH, $secondsPerDay * $daysPerGregorianYear / 12 ), |
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array( TimeValue::PRECISION_YEAR, $secondsPerDay * $daysPerGregorianYear ), |
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array( TimeValue::PRECISION_YEAR10, $secondsPerDay * $daysPerGregorianYear * 1e1 ), |
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array( TimeValue::PRECISION_YEAR1G, $secondsPerDay * $daysPerGregorianYear * 1e9 ), |
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); |
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} |
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/** |
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* @dataProvider precisionProvider |
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*/ |
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public function testGetSecondsForPrecision( $precision, $expected ) { |
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$seconds = $this->calculator->getSecondsForPrecision( $precision ); |
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$this->assertEquals( $expected, $seconds ); |
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} |
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/** |
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* @return array |
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*/ |
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private function timestampWithoutSignProvider() { |
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return array( |
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'1054-02-11' . 'T' . '14:00:02' . 'Z', |
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'16-11-11' . 'T' . '06:08:04' . 'Z', |
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'2012-02-29' . 'T' . '23:59:59' . 'Z', |
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'2012-03-01' . 'T' . '00:00:00' . 'Z', |
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'2013-02-29' . 'T' . '23:59:59' . 'Z', |
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'2013-03-01' . 'T' . '00:00:00' . 'Z', |
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'99999-12-31' . 'T' . '23:59:59' . 'Z', |
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'0001-01-01' . 'T' . '00:00:00' . 'Z', |
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); |
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} |
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/** |
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* @return array |
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*/ |
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private function simplePrecisionProvider() { |
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return array( |
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TimeValue::PRECISION_SECOND, |
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TimeValue::PRECISION_MINUTE, |
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TimeValue::PRECISION_HOUR, |
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TimeValue::PRECISION_DAY, |
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TimeValue::PRECISION_MONTH, |
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TimeValue::PRECISION_YEAR, |
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TimeValue::PRECISION_YEAR10, |
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TimeValue::PRECISION_YEAR100, |
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TimeValue::PRECISION_YEAR1K, |
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TimeValue::PRECISION_YEAR10K, |
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TimeValue::PRECISION_YEAR100K, |
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TimeValue::PRECISION_YEAR1M, |
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TimeValue::PRECISION_YEAR10M, |
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TimeValue::PRECISION_YEAR100M, |
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TimeValue::PRECISION_YEAR1G |
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); |
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} |
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250
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251
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public function testGetLowerTimestamp() { |
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252
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$timestamps = $this->timestampWithoutSignProvider(); |
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253
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foreach ($timestamps as &$timestamp) { |
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254
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$this->auxTestGetLowerTimestamp('+' . $timestamp); |
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255
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$this->auxTestGetLowerTimestamp('-' . $timestamp); |
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256
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} |
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257
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} |
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258
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259
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public function testGetHigherTimestamp() { |
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260
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$timestamps = $this->timestampWithoutSignProvider(); |
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261
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foreach ($timestamps as &$timestamp) { |
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262
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$this->auxTestGetHigherTimestamp('+' . $timestamp); |
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$this->auxTestGetHigherTimestamp('-' . $timestamp); |
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} |
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265
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} |
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266
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267
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/** |
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268
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* @param $timestamp |
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269
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*/ |
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270
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private function auxTestGetLowerTimestamp($timestamp) { |
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271
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$timeValueCalculator = new TimeValueCalculator(); |
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272
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$array = simplePrecisionProvider(); |
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273
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foreach ($array as &$precision) { |
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274
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$timeValue = new TimeValue($timestamp, |
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0, 0, 0, |
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276
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$precision, |
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277
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TimeValue::CALENDAR_GREGORIAN); |
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278
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$unixTimestampAsIs = $timeValueCalculator->getTimestamp($timeValue); |
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279
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$unixLowerTimestamp = $timeValueCalculator->getLowerTimestamp($timeValue); |
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280
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$this->assertGreaterThanOrEqual($unixLowerTimestamp, $unixTimestampAsIs); |
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281
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282
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$timeValueBefore1 = new TimeValue($timestamp, |
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0, 1, 1, |
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284
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$precision, |
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285
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TimeValue::CALENDAR_GREGORIAN); |
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286
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$unixLowerTimestampBefore1 = $timeValueCalculator->getLowerTimestamp($timeValueBefore1); |
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287
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$this->assertGreaterThan($unixLowerTimestampBefore1, $unixLowerTimestamp); |
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288
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289
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$timeValueBefore2 = new TimeValue($timestamp, |
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290
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0, 2, 2, |
|
291
|
|
|
$precision, |
|
292
|
|
|
TimeValue::CALENDAR_GREGORIAN); |
|
293
|
|
|
$unixLowerTimestampBefore2 = $timeValueCalculator->getLowerTimestamp($timeValueBefore2); |
|
294
|
|
|
$this->assertGreaterThan($unixLowerTimestampBefore2, $unixLowerTimestampBefore1); |
|
295
|
|
|
} |
|
296
|
|
|
} |
|
297
|
|
|
|
|
298
|
|
|
/** |
|
299
|
|
|
* @param $timestamp |
|
300
|
|
|
*/ |
|
301
|
|
|
private function auxTestGetHigherTimestamp($timestamp) { |
|
302
|
|
|
$timeValueCalculator = new TimeValueCalculator(); |
|
303
|
|
|
$array = simplePrecisionProvider(); |
|
304
|
|
|
foreach ($array as &$precision) { |
|
305
|
|
|
$timeValue = new TimeValue($timestamp, |
|
306
|
|
|
0, 0, 0, |
|
307
|
|
|
$precision, |
|
308
|
|
|
TimeValue::CALENDAR_GREGORIAN); |
|
309
|
|
|
$unixTimestampAsIs = $timeValueCalculator->getTimestamp($timeValue); |
|
310
|
|
|
$unixHigherTimestamp = $timeValueCalculator->getHigherTimestamp($timeValue); |
|
311
|
|
|
$this->assertLessThanOrEqual($unixHigherTimestamp, $unixTimestampAsIs); |
|
312
|
|
|
|
|
313
|
|
|
$timeValueAfter1 = new TimeValue($timestamp, |
|
314
|
|
|
0, 1, 1, |
|
315
|
|
|
$precision, |
|
316
|
|
|
TimeValue::CALENDAR_GREGORIAN); |
|
317
|
|
|
$unixHigherTimestampAfter1 = $timeValueCalculator->getHigherTimestamp($timeValueAfter1); |
|
318
|
|
|
$this->assertLessThan($unixHigherTimestampAfter1, $unixHigherTimestamp); |
|
319
|
|
|
|
|
320
|
|
|
$timeValueAfter2 = new TimeValue($timestamp, |
|
321
|
|
|
0, 2, 2, |
|
322
|
|
|
$precision, |
|
323
|
|
|
TimeValue::CALENDAR_GREGORIAN); |
|
324
|
|
|
$unixHigherTimestampAfter2 = $timeValueCalculator->getHigherTimestamp($timeValueAfter2); |
|
325
|
|
|
$this->assertLessThan($unixHigherTimestampAfter2, $unixHigherTimestampAfter1); |
|
326
|
|
|
} |
|
327
|
|
|
} |
|
328
|
|
|
|
|
329
|
|
|
} |
|
330
|
|
|
|
DataValues /
Time
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This check looks from parameters that have been defined for a function or method, but which are not used in the method body.