/*
* 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.giraph.examples;
import org.apache.giraph.conf.GiraphConfiguration;
import org.apache.giraph.edge.ByteArrayEdges;
import org.apache.giraph.utils.InternalVertexRunner;
import org.junit.Test;
import java.util.Map;
import static org.junit.Assert.assertEquals;
/**
* Tests for {@link RandomWalkWithRestartComputation}
*/
public class RandomWalkWithRestartComputationTest {
/**
* A local integration test on toy data
*/
@Test
public void testToyData() throws Exception {
// A small graph
String[] graph = new String[] { "12 34 56", "34 78", "56 34 78", "78 34" };
GiraphConfiguration conf = new GiraphConfiguration();
conf.setInt(RandomWalkWithRestartComputation.SOURCE_VERTEX, 12);
conf.setInt(RandomWalkWithRestartComputation.MAX_SUPERSTEPS, 30);
conf.setFloat(
RandomWalkWithRestartComputation.TELEPORTATION_PROBABILITY, 0.25f);
conf.setComputationClass(RandomWalkWithRestartComputation.class);
conf.setOutEdgesClass(ByteArrayEdges.class);
conf.setVertexInputFormatClass(LongDoubleDoubleTextInputFormat.class);
conf.setVertexOutputFormatClass(
VertexWithDoubleValueDoubleEdgeTextOutputFormat.class);
conf.setWorkerContextClass(RandomWalkWorkerContext.class);
conf.setMasterComputeClass(RandomWalkVertexMasterCompute.class);
// Run internally
Iterable<String> results = InternalVertexRunner.run(conf, graph);
Map<Long, Double> steadyStateProbabilities =
RandomWalkTestUtils.parseSteadyStateProbabilities(results);
// values computed with external software
// 0.25, 0.354872, 0.09375, 0.301377
assertEquals(0.25, steadyStateProbabilities.get(12L), RandomWalkTestUtils.EPSILON);
assertEquals(0.354872, steadyStateProbabilities.get(34L),
RandomWalkTestUtils.EPSILON);
assertEquals(0.09375, steadyStateProbabilities.get(56L), RandomWalkTestUtils.EPSILON);
assertEquals(0.301377, steadyStateProbabilities.get(78L),
RandomWalkTestUtils.EPSILON);
}
/**
* A local integration test on toy data
*/
@Test
public void testWeightedGraph() throws Exception {
// A small graph
String[] graph =
new String[] { "12 34:0.1 56:0.9", "34 78:0.9 56:0.1",
"56 12:0.1 34:0.8 78:0.1", "78 34:1.0" };
GiraphConfiguration conf = new GiraphConfiguration();
conf.setInt(RandomWalkWithRestartComputation.SOURCE_VERTEX, 12);
conf.setInt(RandomWalkWithRestartComputation.MAX_SUPERSTEPS, 30);
conf.setFloat(
RandomWalkWithRestartComputation.TELEPORTATION_PROBABILITY, 0.15f);
conf.setComputationClass(RandomWalkWithRestartComputation.class);
conf.setOutEdgesClass(ByteArrayEdges.class);
conf.setVertexInputFormatClass(
NormalizingLongDoubleDoubleTextInputFormat.class);
conf.setVertexOutputFormatClass(
VertexWithDoubleValueDoubleEdgeTextOutputFormat.class);
conf.setWorkerContextClass(RandomWalkWorkerContext.class);
conf.setMasterComputeClass(RandomWalkVertexMasterCompute.class);
// Run internally
Iterable<String> results = InternalVertexRunner.run(conf, graph);
Map<Long, Double> steadyStateProbabilities =
RandomWalkTestUtils.parseSteadyStateProbabilities(results);
// values computed with external software
// 0.163365, 0.378932, 0.156886, 0.300816
assertEquals(0.163365, steadyStateProbabilities.get(12L),
RandomWalkTestUtils.EPSILON);
assertEquals(0.378932, steadyStateProbabilities.get(34L),
RandomWalkTestUtils.EPSILON);
assertEquals(0.156886, steadyStateProbabilities.get(56L),
RandomWalkTestUtils.EPSILON);
assertEquals(0.300816, steadyStateProbabilities.get(78L),
RandomWalkTestUtils.EPSILON);
}
}