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apache / systemds / d9a1f4de84acc57d6728517b95c3b0300d86d0d7 / . / src / test / java / org / apache / sysds / test / functions / binary / matrix_full_cellwise / FullMatrixVectorRowCellwiseOperationTest.java
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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.apache.sysds.test.functions.binary.matrix_full_cellwise;
import java.util.HashMap;
import org.junit.AfterClass;
import org.junit.BeforeClass;
import org.junit.Test;
import org.apache.sysds.api.DMLScript;
import org.apache.sysds.common.Types.ExecMode;
import org.apache.sysds.lops.LopProperties.ExecType;
import org.apache.sysds.runtime.matrix.data.MatrixValue.CellIndex;
import org.apache.sysds.test.AutomatedTestBase;
import org.apache.sysds.test.TestConfiguration;
import org.apache.sysds.test.TestUtils;
public class FullMatrixVectorRowCellwiseOperationTest extends AutomatedTestBase
{
private final static String TEST_NAME1 = "FullMatrixVectorRowCellwiseOperation_Addition";
private final static String TEST_NAME2 = "FullMatrixVectorRowCellwiseOperation_Substraction";
private final static String TEST_NAME3 = "FullMatrixVectorRowCellwiseOperation_Multiplication";
private final static String TEST_NAME4 = "FullMatrixVectorRowCellwiseOperation_Division";
private final static String TEST_DIR = "functions/binary/matrix_full_cellwise/";
private final static String TEST_CLASS_DIR = TEST_DIR + FullMatrixVectorRowCellwiseOperationTest.class.getSimpleName() + "/";
private final static double eps = 1e-10;
private final static int rows = 207;
private final static int cols = 1101;
private final static double sparsity1 = 0.7;
private final static double sparsity2 = 0.1;
private enum OpType{
ADDITION,
SUBTRACTION,
MULTIPLICATION,
DIVISION
}
private enum SparsityType{
DENSE,
SPARSE,
EMPTY
}
@Override
public void setUp()
{
addTestConfiguration(TEST_NAME1, new TestConfiguration(TEST_CLASS_DIR, TEST_NAME1, new String[]{"C"}));
addTestConfiguration(TEST_NAME2, new TestConfiguration(TEST_CLASS_DIR, TEST_NAME2, new String[]{"C"}));
addTestConfiguration(TEST_NAME3, new TestConfiguration(TEST_CLASS_DIR, TEST_NAME3, new String[]{"C"}));
addTestConfiguration(TEST_NAME4, new TestConfiguration(TEST_CLASS_DIR, TEST_NAME4, new String[]{"C"}));
if (TEST_CACHE_ENABLED) {
setOutAndExpectedDeletionDisabled(true);
}
}
@BeforeClass
public static void init()
{
TestUtils.clearDirectory(TEST_DATA_DIR + TEST_CLASS_DIR);
}
@AfterClass
public static void cleanUp()
{
if (TEST_CACHE_ENABLED) {
TestUtils.clearDirectory(TEST_DATA_DIR + TEST_CLASS_DIR);
}
}
// ------------------------------------
@Test
public void testAdditionDenseDenseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.DENSE, SparsityType.DENSE, ExecType.SPARK);
}
@Test
public void testAdditionDenseSparseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.DENSE, SparsityType.SPARSE, ExecType.SPARK);
}
@Test
public void testAdditionDenseEmptySP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.DENSE, SparsityType.EMPTY, ExecType.SPARK);
}
@Test
public void testAdditionSparseDenseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.SPARSE, SparsityType.DENSE, ExecType.SPARK);
}
@Test
public void testAdditionSparseSparseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.SPARSE, SparsityType.SPARSE, ExecType.SPARK);
}
@Test
public void testAdditionSparseEmptySP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.SPARSE, SparsityType.EMPTY, ExecType.SPARK);
}
@Test
public void testAdditionEmptyDenseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.EMPTY, SparsityType.DENSE, ExecType.SPARK);
}
@Test
public void testAdditionEmptySparseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.EMPTY, SparsityType.SPARSE, ExecType.SPARK);
}
@Test
public void testAdditionEmptyEmptySP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.EMPTY, SparsityType.EMPTY, ExecType.SPARK);
}
@Test
public void testSubtractionDenseDenseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.DENSE, SparsityType.DENSE, ExecType.SPARK);
}
@Test
public void testSubtractionDenseSparseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.DENSE, SparsityType.SPARSE, ExecType.SPARK);
}
@Test
public void testSubtractionDenseEmptySP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.DENSE, SparsityType.EMPTY, ExecType.SPARK);
}
@Test
public void testSubtractionSparseDenseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.SPARSE, SparsityType.DENSE, ExecType.SPARK);
}
@Test
public void testSubtractionSparseSparseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.SPARSE, SparsityType.SPARSE, ExecType.SPARK);
}
@Test
public void testSubtractionSparseEmptySP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.SPARSE, SparsityType.EMPTY, ExecType.SPARK);
}
@Test
public void testSubtractionEmptyDenseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.EMPTY, SparsityType.DENSE, ExecType.SPARK);
}
@Test
public void testSubtractionEmptySparseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.EMPTY, SparsityType.SPARSE, ExecType.SPARK);
}
@Test
public void testSubtractionEmptyEmptySP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.EMPTY, SparsityType.EMPTY, ExecType.SPARK);
}
@Test
public void testMultiplicationDenseDenseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.DENSE, SparsityType.DENSE, ExecType.SPARK);
}
@Test
public void testMultiplicationDenseSparseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.DENSE, SparsityType.SPARSE, ExecType.SPARK);
}
@Test
public void testMultiplicationDenseEmptySP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.DENSE, SparsityType.EMPTY, ExecType.SPARK);
}
@Test
public void testMultiplicationSparseDenseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.SPARSE, SparsityType.DENSE, ExecType.SPARK);
}
@Test
public void testMultiplicationSparseSparseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.SPARSE, SparsityType.SPARSE, ExecType.SPARK);
}
@Test
public void testMultiplicationSparseEmptySP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.SPARSE, SparsityType.EMPTY, ExecType.SPARK);
}
@Test
public void testMultiplicationEmptyDenseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.EMPTY, SparsityType.DENSE, ExecType.SPARK);
}
@Test
public void testMultiplicationEmptySparseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.EMPTY, SparsityType.SPARSE, ExecType.SPARK);
}
@Test
public void testMultiplicationEmptyEmptySP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.EMPTY, SparsityType.EMPTY, ExecType.SPARK);
}
@Test
public void testDivisionDenseDenseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.DENSE, SparsityType.DENSE, ExecType.SPARK);
}
@Test
public void testDivisionDenseSparseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.DENSE, SparsityType.SPARSE, ExecType.SPARK);
}
@Test
public void testDivisionDenseEmptySP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.DENSE, SparsityType.EMPTY, ExecType.SPARK);
}
@Test
public void testDivisionSparseDenseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.SPARSE, SparsityType.DENSE, ExecType.SPARK);
}
@Test
public void testDivisionSparseSparseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.SPARSE, SparsityType.SPARSE, ExecType.SPARK);
}
@Test
public void testDivisionSparseEmptySP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.SPARSE, SparsityType.EMPTY, ExecType.SPARK);
}
@Test
public void testDivisionEmptyDenseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.EMPTY, SparsityType.DENSE, ExecType.SPARK);
}
@Test
public void testDivisionEmptySparseSP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.EMPTY, SparsityType.SPARSE, ExecType.SPARK);
}
@Test
public void testDivisionEmptyEmptySP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.EMPTY, SparsityType.EMPTY, ExecType.SPARK);
}
// ------------------------------------
@Test
public void testAdditionDenseDenseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.DENSE, SparsityType.DENSE, ExecType.CP);
}
@Test
public void testAdditionDenseSparseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.DENSE, SparsityType.SPARSE, ExecType.CP);
}
@Test
public void testAdditionDenseEmptyCP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.DENSE, SparsityType.EMPTY, ExecType.CP);
}
@Test
public void testAdditionSparseDenseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.SPARSE, SparsityType.DENSE, ExecType.CP);
}
@Test
public void testAdditionSparseSparseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.SPARSE, SparsityType.SPARSE, ExecType.CP);
}
@Test
public void testAdditionSparseEmptyCP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.SPARSE, SparsityType.EMPTY, ExecType.CP);
}
@Test
public void testAdditionEmptyDenseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.EMPTY, SparsityType.DENSE, ExecType.CP);
}
@Test
public void testAdditionEmptySparseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.EMPTY, SparsityType.SPARSE, ExecType.CP);
}
@Test
public void testAdditionEmptyEmptyCP()
{
runMatrixVectorCellwiseOperationTest(OpType.ADDITION, SparsityType.EMPTY, SparsityType.EMPTY, ExecType.CP);
}
@Test
public void testSubtractionDenseDenseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.DENSE, SparsityType.DENSE, ExecType.CP);
}
@Test
public void testSubtractionDenseSparseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.DENSE, SparsityType.SPARSE, ExecType.CP);
}
@Test
public void testSubtractionDenseEmptyCP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.DENSE, SparsityType.EMPTY, ExecType.CP);
}
@Test
public void testSubtractionSparseDenseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.SPARSE, SparsityType.DENSE, ExecType.CP);
}
@Test
public void testSubtractionSparseSparseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.SPARSE, SparsityType.SPARSE, ExecType.CP);
}
@Test
public void testSubtractionSparseEmptyCP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.SPARSE, SparsityType.EMPTY, ExecType.CP);
}
@Test
public void testSubtractionEmptyDenseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.EMPTY, SparsityType.DENSE, ExecType.CP);
}
@Test
public void testSubtractionEmptySparseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.EMPTY, SparsityType.SPARSE, ExecType.CP);
}
@Test
public void testSubtractionEmptyEmptyCP()
{
runMatrixVectorCellwiseOperationTest(OpType.SUBTRACTION, SparsityType.EMPTY, SparsityType.EMPTY, ExecType.CP);
}
@Test
public void testMultiplicationDenseDenseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.DENSE, SparsityType.DENSE, ExecType.CP);
}
@Test
public void testMultiplicationDenseSparseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.DENSE, SparsityType.SPARSE, ExecType.CP);
}
@Test
public void testMultiplicationDenseEmptyCP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.DENSE, SparsityType.EMPTY, ExecType.CP);
}
@Test
public void testMultiplicationSparseDenseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.SPARSE, SparsityType.DENSE, ExecType.CP);
}
@Test
public void testMultiplicationSparseSparseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.SPARSE, SparsityType.SPARSE, ExecType.CP);
}
@Test
public void testMultiplicationSparseEmptyCP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.SPARSE, SparsityType.EMPTY, ExecType.CP);
}
@Test
public void testMultiplicationEmptyDenseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.EMPTY, SparsityType.DENSE, ExecType.CP);
}
@Test
public void testMultiplicationEmptySparseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.EMPTY, SparsityType.SPARSE, ExecType.CP);
}
@Test
public void testMultiplicationEmptyEmptyCP()
{
runMatrixVectorCellwiseOperationTest(OpType.MULTIPLICATION, SparsityType.EMPTY, SparsityType.EMPTY, ExecType.CP);
}
@Test
public void testDivisionDenseDenseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.DENSE, SparsityType.DENSE, ExecType.CP);
}
@Test
public void testDivisionDenseSparseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.DENSE, SparsityType.SPARSE, ExecType.CP);
}
@Test
public void testDivisionDenseEmptyCP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.DENSE, SparsityType.EMPTY, ExecType.CP);
}
@Test
public void testDivisionSparseDenseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.SPARSE, SparsityType.DENSE, ExecType.CP);
}
@Test
public void testDivisionSparseSparseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.SPARSE, SparsityType.SPARSE, ExecType.CP);
}
@Test
public void testDivisionSparseEmptyCP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.SPARSE, SparsityType.EMPTY, ExecType.CP);
}
@Test
public void testDivisionEmptyDenseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.EMPTY, SparsityType.DENSE, ExecType.CP);
}
@Test
public void testDivisionEmptySparseCP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.EMPTY, SparsityType.SPARSE, ExecType.CP);
}
@Test
public void testDivisionEmptyEmptyCP()
{
runMatrixVectorCellwiseOperationTest(OpType.DIVISION, SparsityType.EMPTY, SparsityType.EMPTY, ExecType.CP);
}
private void runMatrixVectorCellwiseOperationTest( OpType type, SparsityType sparseM1, SparsityType sparseM2, ExecType instType)
{
//rtplatform for MR
ExecMode platformOld = rtplatform;
switch( instType ){
case SPARK: rtplatform = ExecMode.SPARK; break;
default: rtplatform = ExecMode.HYBRID; break;
}
boolean sparkConfigOld = DMLScript.USE_LOCAL_SPARK_CONFIG;
if( rtplatform == ExecMode.SPARK )
DMLScript.USE_LOCAL_SPARK_CONFIG = true;
try
{
String TEST_NAME = null;
switch( type )
{
case ADDITION: TEST_NAME = TEST_NAME1; break;
case SUBTRACTION: TEST_NAME = TEST_NAME2; break;
case MULTIPLICATION: TEST_NAME = TEST_NAME3; break;
case DIVISION: TEST_NAME = TEST_NAME4; break;
}
TestConfiguration config = getTestConfiguration(TEST_NAME);
//get sparsity
double lsparsity1 = 1.0, lsparsity2 = 1.0;
switch( sparseM1 ){
case DENSE: lsparsity1 = sparsity1; break;
case SPARSE: lsparsity1 = sparsity2; break;
case EMPTY: lsparsity1 = 0.0; break;
}
switch( sparseM2 ){
case DENSE: lsparsity2 = sparsity1; break;
case SPARSE: lsparsity2 = sparsity2; break;
case EMPTY: lsparsity2 = 0.0; break;
}
String TEST_CACHE_DIR = "";
if (TEST_CACHE_ENABLED && (type != OpType.DIVISION))
{
TEST_CACHE_DIR = type.ordinal() + "_" + lsparsity1 + "_" + lsparsity2 + "/";
}
loadTestConfiguration(config, TEST_CACHE_DIR);
/* This is for running the junit test the new way, i.e., construct the arguments directly */
String HOME = SCRIPT_DIR + TEST_DIR;
fullDMLScriptName = HOME + TEST_NAME + ".dml";
programArgs = new String[]{"-args",
input("A"), input("B"), output("C") };
fullRScriptName = HOME + TEST_NAME + ".R";
rCmd = "Rscript" + " " + fullRScriptName + " " + inputDir() + " " + expectedDir();
//generate actual dataset
double[][] A = getRandomMatrix(rows, cols, 0, (lsparsity1==0)?0:1, lsparsity1, 7);
writeInputMatrixWithMTD("A", A, true);
double[][] B = getRandomMatrix(1, cols, 0, (lsparsity2==0)?0:1, lsparsity2, 3);
writeInputMatrixWithMTD("B", B, true);
boolean exceptionExpected = false;
runTest(true, exceptionExpected, null, -1);
if( !(type==OpType.DIVISION) )
{
runRScript(true);
//compare matrices
HashMap<CellIndex, Double> dmlfile = readDMLMatrixFromHDFS("C");
HashMap<CellIndex, Double> rfile = readRMatrixFromFS("C");
TestUtils.compareMatrices(dmlfile, rfile, eps, "Stat-DML", "Stat-R");
}
else
{
//For division, IEEE 754 defines x/0.0 as INFINITY and 0.0/0.0 as NaN.
//Java handles this correctly while R always returns 1.0E308 in those cases.
//Hence, we directly write the expected results.
double C[][] = new double[rows][cols];
for( int i=0; i<rows; i++ )
for( int j=0; j<cols; j++ )
C[i][j] = A[i][j]/B[0][j];
writeExpectedMatrix("C", C);
compareResults();
}
}
finally
{
rtplatform = platformOld;
DMLScript.USE_LOCAL_SPARK_CONFIG = sparkConfigOld;
}
}
}