forked from kscience/kmath
analytic tests and examples
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/*
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* Copyright 2018-2021 KMath contributors.
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* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
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*/
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package space.kscience.kmath.tensors
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import space.kscience.kmath.operations.invoke
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import space.kscience.kmath.tensors.core.algebras.BroadcastDoubleTensorAlgebra
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import space.kscience.kmath.tensors.core.algebras.DoubleAnalyticTensorAlgebra
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// Dataset normalization
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fun main() {
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// work in context with analytic methods
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DoubleAnalyticTensorAlgebra {
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// take dataset of 5-element vectors from normal distribution
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val dataset = randomNormal(intArrayOf(100, 5)) * 1.5 // all elements from N(0, 1.5)
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BroadcastDoubleTensorAlgebra {
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dataset += fromArray(
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intArrayOf(5),
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doubleArrayOf(0.0, 1.0, 1.5, 3.0, 5.0) // rows means
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)
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}
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// find out mean and standard deviation of each column
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val mean = dataset.mean(0, false)
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val std = dataset.std(0, false)
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println("Mean:\n$mean")
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println("Standard deviation:\n$std")
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// also we can calculate other statistic as minimum and maximum of rows
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println("Minimum:\n${dataset.min(0, false)}")
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println("Maximum:\n${dataset.max(0, false)}")
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// now we can scale dataset with mean normalization
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val datasetScaled = BroadcastDoubleTensorAlgebra { (dataset - mean) / std }
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// find out mean and std of scaled dataset
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println("Mean of scaled:\n${datasetScaled.mean(0, false)}")
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println("Mean of scaled:\n${datasetScaled.std(0, false)}")
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}
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}
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@ -51,7 +51,6 @@ public interface AnalyticTensorAlgebra<T> :
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*/
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*/
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public fun Tensor<T>.max(dim: Int, keepDim: Boolean): Tensor<T>
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public fun Tensor<T>.max(dim: Int, keepDim: Boolean): Tensor<T>
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/**
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/**
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* @return the mean of all elements in the input tensor.
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* @return the mean of all elements in the input tensor.
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*/
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*/
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@ -110,7 +109,7 @@ public interface AnalyticTensorAlgebra<T> :
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public fun Tensor<T>.exp(): Tensor<T>
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public fun Tensor<T>.exp(): Tensor<T>
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//For information: https://pytorch.org/docs/stable/generated/torch.log.html
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//For information: https://pytorch.org/docs/stable/generated/torch.log.html
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public fun Tensor<T>.log(): Tensor<T>
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public fun Tensor<T>.ln(): Tensor<T>
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//For information: https://pytorch.org/docs/stable/generated/torch.sqrt.html
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//For information: https://pytorch.org/docs/stable/generated/torch.sqrt.html
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public fun Tensor<T>.sqrt(): Tensor<T>
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public fun Tensor<T>.sqrt(): Tensor<T>
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@ -25,7 +25,6 @@ public object DoubleAnalyticTensorAlgebra :
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override fun Tensor<Double>.max(dim: Int, keepDim: Boolean): DoubleTensor =
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override fun Tensor<Double>.max(dim: Int, keepDim: Boolean): DoubleTensor =
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foldDim({ x -> x.maxOrNull()!! }, dim, keepDim)
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foldDim({ x -> x.maxOrNull()!! }, dim, keepDim)
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override fun Tensor<Double>.mean(): Double = this.fold { it.sum() / tensor.numElements }
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override fun Tensor<Double>.mean(): Double = this.fold { it.sum() / tensor.numElements }
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override fun Tensor<Double>.mean(dim: Int, keepDim: Boolean): DoubleTensor =
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override fun Tensor<Double>.mean(dim: Int, keepDim: Boolean): DoubleTensor =
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@ -70,7 +69,7 @@ public object DoubleAnalyticTensorAlgebra :
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override fun Tensor<Double>.exp(): DoubleTensor = tensor.map(::exp)
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override fun Tensor<Double>.exp(): DoubleTensor = tensor.map(::exp)
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override fun Tensor<Double>.log(): DoubleTensor = tensor.map(::ln)
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override fun Tensor<Double>.ln(): DoubleTensor = tensor.map(::ln)
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override fun Tensor<Double>.sqrt(): DoubleTensor = tensor.map(::sqrt)
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override fun Tensor<Double>.sqrt(): DoubleTensor = tensor.map(::sqrt)
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@ -2,35 +2,159 @@ package space.kscience.kmath.tensors.core
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import space.kscience.kmath.operations.invoke
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import space.kscience.kmath.operations.invoke
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import space.kscience.kmath.tensors.core.algebras.DoubleAnalyticTensorAlgebra
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import space.kscience.kmath.tensors.core.algebras.DoubleAnalyticTensorAlgebra
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import kotlin.math.abs
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import space.kscience.kmath.tensors.core.algebras.DoubleAnalyticTensorAlgebra.tan
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import kotlin.math.exp
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import kotlin.math.*
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import kotlin.test.Test
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import kotlin.test.Test
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import kotlin.test.assertTrue
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import kotlin.test.assertTrue
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internal class TestDoubleAnalyticTensorAlgebra {
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internal class TestDoubleAnalyticTensorAlgebra {
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val shape = intArrayOf(2, 1, 3, 2)
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val shape = intArrayOf(2, 1, 3, 2)
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val buffer = doubleArrayOf(27.1, 20.0, 19.84, 23.123, 0.0, 1.0, 3.23, 133.7, 25.3, 100.3, 11.0, 12.012)
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val buffer = doubleArrayOf(
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27.1, 20.0, 19.84,
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23.123, 3.0, 2.0,
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3.23, 133.7, 25.3,
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100.3, 11.0, 12.012
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)
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val tensor = DoubleTensor(shape, buffer)
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val tensor = DoubleTensor(shape, buffer)
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fun DoubleArray.fmap(transform: (Double) -> Double): DoubleArray {
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fun DoubleArray.fmap(transform: (Double) -> Double): DoubleArray {
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return this.map(transform).toDoubleArray()
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return this.map(transform).toDoubleArray()
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}
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}
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fun DoubleArray.epsEqual(other: DoubleArray, eps: Double = 1e-5): Boolean {
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fun expectedTensor(transform: (Double) -> Double): DoubleTensor {
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for ((elem1, elem2) in this.asSequence().zip(other.asSequence())) {
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return DoubleTensor(shape, buffer.fmap(transform))
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if (abs(elem1 - elem2) > eps) {
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return false
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}
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}
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return true
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}
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}
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@Test
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@Test
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fun testExp() = DoubleAnalyticTensorAlgebra {
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fun testExp() = DoubleAnalyticTensorAlgebra {
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tensor.exp().let {
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assertTrue { tensor.exp() eq expectedTensor(::exp) }
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assertTrue { shape contentEquals it.shape }
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assertTrue { buffer.fmap(::exp).epsEqual(it.mutableBuffer.array())}
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}
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}
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@Test
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fun testLog() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.ln() eq expectedTensor(::ln) }
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}
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}
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@Test
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fun testSqrt() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.sqrt() eq expectedTensor(::sqrt) }
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}
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@Test
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fun testCos() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.cos() eq expectedTensor(::cos) }
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}
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@Test
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fun testCosh() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.cosh() eq expectedTensor(::cosh) }
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}
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@Test
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fun testAcosh() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.acosh() eq expectedTensor(::acosh) }
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}
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@Test
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fun testSin() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.sin() eq expectedTensor(::sin) }
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}
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@Test
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fun testSinh() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.sinh() eq expectedTensor(::sinh) }
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}
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@Test
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fun testAsinh() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.asinh() eq expectedTensor(::asinh) }
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}
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@Test
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fun testTan() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.tan() eq expectedTensor(::tan) }
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}
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@Test
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fun testAtan() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.atan() eq expectedTensor(::atan) }
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}
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@Test
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fun testTanh() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.tanh() eq expectedTensor(::tanh) }
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}
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@Test
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fun testCeil() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.ceil() eq expectedTensor(::ceil) }
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}
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@Test
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fun testFloor() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor.floor() eq expectedTensor(::floor) }
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}
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val shape2 = intArrayOf(2, 2)
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val buffer2 = doubleArrayOf(
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1.0, 2.0,
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-3.0, 4.0
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)
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val tensor2 = DoubleTensor(shape2, buffer2)
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@Test
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fun testMin() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor2.min() == -3.0 }
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assertTrue { tensor2.min(0, true) eq fromArray(
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intArrayOf(1, 2),
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doubleArrayOf(-3.0, 2.0)
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)}
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assertTrue { tensor2.min(1, false) eq fromArray(
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intArrayOf(2),
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doubleArrayOf(1.0, -3.0)
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)}
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}
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@Test
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fun testMax() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor2.max() == 4.0 }
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assertTrue { tensor2.max(0, true) eq fromArray(
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intArrayOf(1, 2),
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doubleArrayOf(1.0, 4.0)
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)}
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assertTrue { tensor2.max(1, false) eq fromArray(
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intArrayOf(2),
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doubleArrayOf(2.0, 4.0)
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)}
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}
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@Test
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fun testSum() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor2.sum() == 4.0 }
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assertTrue { tensor2.sum(0, true) eq fromArray(
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intArrayOf(1, 2),
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doubleArrayOf(-2.0, 6.0)
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)}
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assertTrue { tensor2.sum(1, false) eq fromArray(
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intArrayOf(2),
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doubleArrayOf(3.0, 1.0)
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)}
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}
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@Test
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fun testMean() = DoubleAnalyticTensorAlgebra {
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assertTrue { tensor2.mean() == 1.0 }
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assertTrue { tensor2.mean(0, true) eq fromArray(
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intArrayOf(1, 2),
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doubleArrayOf(-1.0, 3.0)
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)}
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assertTrue { tensor2.mean(1, false) eq fromArray(
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intArrayOf(2),
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doubleArrayOf(1.5, 0.5)
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)}
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}
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}
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}
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