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// Copyright 2017 Yahoo Holdings. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
package com.yahoo.tensor;
import com.google.common.collect.Sets;
import org.junit.Test;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertTrue;
/**
* Basic mixed tensor tests. Tensor operations are tested in EvaluationTestCase
*
* @author lesters
*/
public class MixedTensorTestCase {
@Test
public void testEmpty() {
TensorType type = new TensorType.Builder().mapped("x").indexed("y", 3).build();
Tensor empty = Tensor.Builder.of(type).build();
assertTrue(empty instanceof MixedTensor);
assertTrue(empty.isEmpty());
assertEquals("tensor(x{},y[3]):{}", empty.toString());
assertEquals("tensor(x{},y[3]):{}", Tensor.from("tensor(x{},y[3]):{}").toString());
}
@Test
public void testScalar() {
TensorType type = new TensorType.Builder().build();
Tensor scalar = MixedTensor.Builder.of(type).cell().value(42.0).build();
assertEquals(scalar.asDouble(), 42.0, 1e-6);
}
@Test
public void testOneIndexedBuilding() {
TensorType type = new TensorType.Builder().indexed("y", 3).build();
Tensor tensor = MixedTensor.Builder.of(type).
cell().label("y", 0).value(1).
cell().label("y", 1).value(2).
// {y:2} should be 0.0 and non NaN since we specify indexed size
build();
assertEquals(Sets.newHashSet("y"), tensor.type().dimensionNames());
assertEquals("tensor(y[3]):{{y:0}:1.0,{y:1}:2.0,{y:2}:0.0}",
tensor.toString());
}
@Test
public void testTwoIndexedBuilding() {
TensorType type = new TensorType.Builder().indexed("x").indexed("y", 3).build();
Tensor tensor = MixedTensor.Builder.of(type).
cell().label("x", 0).label("y", 0).value(1).
cell().label("x", 0).label("y", 1).value(2).
// {x:1,y:2} should be 0.0 and non NaN since we specify indexed size
cell().label("x", 1).label("y", 0).value(4).
cell().label("x", 1).label("y", 1).value(5).
cell().label("x", 1).label("y", 2).value(6).
build();
assertEquals(Sets.newHashSet("x", "y"), tensor.type().dimensionNames());
assertEquals("tensor(x[2],y[3]):{{x:0,y:0}:1.0,{x:0,y:1}:2.0,{x:0,y:2}:0.0,{x:1,y:0}:4.0,{x:1,y:1}:5.0,{x:1,y:2}:6.0}",
tensor.toString());
}
@Test
public void testOneMappedBuilding() {
TensorType type = new TensorType.Builder().mapped("x").build();
Tensor tensor = MixedTensor.Builder.of(type).
cell().label("x", "0").value(1).
cell().label("x", "1").value(2).
build();
assertEquals(Sets.newHashSet("x"), tensor.type().dimensionNames());
assertEquals("tensor(x{}):{{x:0}:1.0,{x:1}:2.0}",
tensor.toString());
}
@Test
public void testTwoMappedBuilding() {
TensorType type = new TensorType.Builder().mapped("x").mapped("y").build();
Tensor tensor = MixedTensor.Builder.of(type).
cell().label("x", "0").label("y", "0").value(1).
cell().label("x", "0").label("y", "1").value(2).
cell().label("x", "1").label("y", "0").value(4).
cell().label("x", "1").label("y", "1").value(5).
cell().label("x", "1").label("y", "2").value(6).
build();
assertEquals(Sets.newHashSet("x", "y"), tensor.type().dimensionNames());
assertEquals("tensor(x{},y{}):{{x:0,y:0}:1.0,{x:0,y:1}:2.0,{x:1,y:0}:4.0,{x:1,y:1}:5.0,{x:1,y:2}:6.0}",
tensor.toString());
}
@Test
public void testOneMappedOneIndexedBuilding() {
TensorType type = new TensorType.Builder().mapped("x").indexed("y", 3).build();
Tensor tensor = MixedTensor.Builder.of(type).
cell().label("x", "1").label("y", 0).value(1).
cell().label("x", "1").label("y", 1).value(2).
// {x:1,y:2} should be 0.0 and non NaN since we specify indexed size
cell().label("x", "2").label("y", 0).value(4).
cell().label("x", "2").label("y", 1).value(5).
cell().label("x", "2").label("y", 2).value(6).
build();
assertEquals(Sets.newHashSet("x", "y"), tensor.type().dimensionNames());
assertEquals("tensor(x{},y[3]):{{x:1,y:0}:1.0,{x:1,y:1}:2.0,{x:1,y:2}:0.0,{x:2,y:0}:4.0,{x:2,y:1}:5.0,{x:2,y:2}:6.0}",
tensor.toString());
}
@Test
public void testTwoMappedOneIndexedBuilding() {
TensorType type = new TensorType.Builder().mapped("x").indexed("y").mapped("z").build();
Tensor tensor = Tensor.Builder.of(type).
cell().label("x", "x1").label("y", 0).label("z","z1").value(1).
cell().label("x", "x1").label("y", 0).label("z","z2").value(2).
cell().label("x", "x1").label("y", 1).label("z","z1").value(3).
cell().label("x", "x1").label("y", 1).label("z","z2").value(4).
cell().label("x", "x1").label("y", 2).label("z","z1").value(5).
cell().label("x", "x1").label("y", 2).label("z","z2").value(6).
cell().label("x", "x2").label("y", 0).label("z","z1").value(11).
cell().label("x", "x2").label("y", 0).label("z","z2").value(12).
cell().label("x", "x2").label("y", 1).label("z","z1").value(13).
cell().label("x", "x2").label("y", 1).label("z","z2").value(14).
cell().label("x", "x2").label("y", 2).label("z","z1").value(15).
cell().label("x", "x2").label("y", 2).label("z","z2").value(16).
build();
assertEquals(Sets.newHashSet("x", "y", "z"), tensor.type().dimensionNames());
assertEquals("tensor(x{},y[3],z{}):{{x:x1,y:0,z:z1}:1.0,{x:x1,y:0,z:z2}:2.0,{x:x1,y:1,z:z1}:3.0,{x:x1,y:1,z:z2}:4.0,{x:x1,y:2,z:z1}:5.0,{x:x1,y:2,z:z2}:6.0,{x:x2,y:0,z:z1}:11.0,{x:x2,y:0,z:z2}:12.0,{x:x2,y:1,z:z1}:13.0,{x:x2,y:1,z:z2}:14.0,{x:x2,y:2,z:z1}:15.0,{x:x2,y:2,z:z2}:16.0}",
tensor.toString());
}
@Test
public void testTwoMappedTwoIndexedBuilding() {
TensorType type = new TensorType.Builder().mapped("i").indexed("j", 2).mapped("k").indexed("l", 2).build();
Tensor tensor = Tensor.Builder.of(type).
cell().label("i", "a").label("k","c").label("j",0).label("l",0).value(1).
cell().label("i", "a").label("k","c").label("j",0).label("l",1).value(2).
cell().label("i", "a").label("k","c").label("j",1).label("l",0).value(3).
cell().label("i", "a").label("k","c").label("j",1).label("l",1).value(4).
cell().label("i", "a").label("k","d").label("j",0).label("l",0).value(5).
cell().label("i", "a").label("k","d").label("j",0).label("l",1).value(6).
cell().label("i", "a").label("k","d").label("j",1).label("l",0).value(7).
cell().label("i", "a").label("k","d").label("j",1).label("l",1).value(8).
cell().label("i", "b").label("k","c").label("j",0).label("l",0).value(9).
cell().label("i", "b").label("k","c").label("j",0).label("l",1).value(10).
cell().label("i", "b").label("k","c").label("j",1).label("l",0).value(11).
cell().label("i", "b").label("k","c").label("j",1).label("l",1).value(12).
cell().label("i", "b").label("k","d").label("j",0).label("l",0).value(13).
cell().label("i", "b").label("k","d").label("j",0).label("l",1).value(14).
cell().label("i", "b").label("k","d").label("j",1).label("l",0).value(15).
cell().label("i", "b").label("k","d").label("j",1).label("l",1).value(16).
build();
assertEquals(Sets.newHashSet("i", "j", "k", "l"), tensor.type().dimensionNames());
assertEquals("tensor(i{},j[2],k{},l[2]):{{i:a,j:0,k:c,l:0}:1.0,{i:a,j:0,k:c,l:1}:2.0,{i:a,j:0,k:d,l:0}:5.0,{i:a,j:0,k:d,l:1}:6.0,{i:a,j:1,k:c,l:0}:3.0,{i:a,j:1,k:c,l:1}:4.0,{i:a,j:1,k:d,l:0}:7.0,{i:a,j:1,k:d,l:1}:8.0,{i:b,j:0,k:c,l:0}:9.0,{i:b,j:0,k:c,l:1}:10.0,{i:b,j:0,k:d,l:0}:13.0,{i:b,j:0,k:d,l:1}:14.0,{i:b,j:1,k:c,l:0}:11.0,{i:b,j:1,k:c,l:1}:12.0,{i:b,j:1,k:d,l:0}:15.0,{i:b,j:1,k:d,l:1}:16.0}",
tensor.toString());
}
}
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