0, 'y' => 3], ['x' => 7, 'y' => 6]), MetricsND::manhattan(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6]) ); } /** * @testdox The euclidean distance can be calculated * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testEuclidean() : void { self::assertEqualsWithDelta( Metrics2D::euclidean(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6]), MetricsND::euclidean(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6]), 0.1 ); } /** * @testdox The chebyshev distance can be calculated * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testChebyshev() : void { self::assertEquals( MetricsND::chebyshev(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6]), MetricsND::chebyshev(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6]) ); } /** * @testdox The minkowski distance can be calculated * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testMinkowski() : void { self::assertEqualsWithDelta( Metrics2D::minkowski(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6], 3), MetricsND::minkowski(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6], 3), 0.1 ); } /** * @testdox The canberra distance can be calculated * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testCanberra() : void { self::assertEqualsWithDelta( Metrics2D::canberra(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6]), MetricsND::canberra(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6]), 0.1 ); } /** * @testdox The bray-curtis distance can be calculated * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testBrayCurtis() : void { self::assertEqualsWithDelta( Metrics2D::brayCurtis(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6]), MetricsND::brayCurtis(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6]), 0.1 ); } /** * @testdox The angular distance can be calculated * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testAngularSeparation() : void { self::assertEqualsWithDelta( Metrics2D::angularSeparation(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6]), MetricsND::angularSeparation(['x' => 0, 'y' => 3], ['x' => 7, 'y' => 6]), 0.1 ); } /** * @testdox The hamming distance can be calculated * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testHammingDistance() : void { self::assertEquals( MetricsND::hamming([1, 1, 1, 1], [0, 1, 0, 0]), MetricsND::hamming([1, 1, 1, 1], [0, 1, 0, 0]), ); } /** * @testdox Different dimension sizes for the coordinates in the manhattan metric throw a InvalidDimensionException * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testInvalidManhattanDimension() : void { $this->expectException(\phpOMS\Math\Matrix\Exception\InvalidDimensionException::class); MetricsND::manhattan([3, 6, 4], [4, 6, 8, 3]); } /** * @testdox Different dimension sizes for the coordinates in the euclidean metric throw a InvalidDimensionException * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testInvalidEuclideanDimension() : void { $this->expectException(\phpOMS\Math\Matrix\Exception\InvalidDimensionException::class); MetricsND::euclidean([3, 6, 4], [4, 6, 8, 3]); } /** * @testdox Different dimension sizes for the coordinates in the chebyshev metric throw a InvalidDimensionException * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testInvalidChebyshevDimension() : void { $this->expectException(\phpOMS\Math\Matrix\Exception\InvalidDimensionException::class); MetricsND::chebyshev([3, 6, 4], [4, 6, 8, 3]); } /** * @testdox Different dimension sizes for the coordinates in the minkowski metric throw a InvalidDimensionException * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testInvalidMinkowskiDimension() : void { $this->expectException(\phpOMS\Math\Matrix\Exception\InvalidDimensionException::class); MetricsND::minkowski([3, 6, 4], [4, 6, 8, 3], 2); } /** * @testdox Different dimension sizes for the coordinates in the canberra metric throw a InvalidDimensionException * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testInvalidCanberraDimension() : void { $this->expectException(\phpOMS\Math\Matrix\Exception\InvalidDimensionException::class); MetricsND::canberra([3, 6, 4], [4, 6, 8, 3]); } /** * @testdox Different dimension sizes for the coordinates in the Bray Curtis metric throw a InvalidDimensionException * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testInvalidBrayCurtisDimension() : void { $this->expectException(\phpOMS\Math\Matrix\Exception\InvalidDimensionException::class); MetricsND::brayCurtis([3, 6, 4], [4, 6, 8, 3]); } /** * @testdox Different dimension sizes for the coordinates in the angular separation metric throw a InvalidDimensionException * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testInvalidAngularSeparationDimension() : void { $this->expectException(\phpOMS\Math\Matrix\Exception\InvalidDimensionException::class); MetricsND::angularSeparation([3, 6, 4], [4, 6, 8, 3]); } /** * @testdox Different dimension sizes for the coordinates in the hamming metric throw a InvalidDimensionException * @covers phpOMS\Math\Topology\MetricsND * @group framework */ public function testInvalidHammingDimension() : void { $this->expectException(\phpOMS\Math\Matrix\Exception\InvalidDimensionException::class); MetricsND::hamming([3, 6, 4], [4, 6, 8, 3]); } }