v0.3.0-dev-9 #324
@ -14,8 +14,7 @@ public class DoubleLinearOpsTensorAlgebra :
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override fun DoubleTensor.det(): DoubleTensor = detLU()
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override fun DoubleTensor.det(): DoubleTensor = detLU()
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override fun DoubleTensor.lu(): Pair<DoubleTensor, IntTensor> {
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internal fun DoubleTensor.luForDet(forDet: Boolean = false): Pair<DoubleTensor, IntTensor> {
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checkSquareMatrix(shape)
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checkSquareMatrix(shape)
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val luTensor = copy()
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val luTensor = copy()
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@ -31,10 +30,22 @@ public class DoubleLinearOpsTensorAlgebra :
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)
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)
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for ((lu, pivots) in luTensor.matrixSequence().zip(pivotsTensor.vectorSequence()))
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for ((lu, pivots) in luTensor.matrixSequence().zip(pivotsTensor.vectorSequence()))
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luHelper(lu.as2D(), pivots.as1D(), m)
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try {
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luHelper(lu.as2D(), pivots.as1D(), m)
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} catch (e: RuntimeException) {
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if (forDet) {
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lu.as2D()[intArrayOf(0, 0)] = 0.0
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} else {
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throw IllegalStateException("LUP decomposition can't be performed")
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}
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}
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return Pair(luTensor, pivotsTensor)
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return Pair(luTensor, pivotsTensor)
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}
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override fun DoubleTensor.lu(): Pair<DoubleTensor, IntTensor> {
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return luForDet(false)
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}
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}
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override fun luPivot(
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override fun luPivot(
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@ -66,11 +77,10 @@ public class DoubleLinearOpsTensorAlgebra :
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}
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}
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override fun DoubleTensor.cholesky(): DoubleTensor {
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public fun DoubleTensor.cholesky(epsilon: Double): DoubleTensor {
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checkSymmetric(this)
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checkSquareMatrix(shape)
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checkSquareMatrix(shape)
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//TODO("Andrei the det routine has bugs")
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checkPositiveDefinite(this)
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//checkPositiveDefinite(this)
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//checkPositiveDefinite(this, epsilon)
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val n = shape.last()
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val n = shape.last()
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val lTensor = zeroesLike()
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val lTensor = zeroesLike()
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@ -81,6 +91,8 @@ public class DoubleLinearOpsTensorAlgebra :
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return lTensor
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return lTensor
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}
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}
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override fun DoubleTensor.cholesky(): DoubleTensor = cholesky(1e-6)
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override fun DoubleTensor.qr(): Pair<DoubleTensor, DoubleTensor> {
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override fun DoubleTensor.qr(): Pair<DoubleTensor, DoubleTensor> {
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checkSquareMatrix(shape)
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checkSquareMatrix(shape)
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val qTensor = zeroesLike()
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val qTensor = zeroesLike()
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@ -134,7 +146,7 @@ public class DoubleLinearOpsTensorAlgebra :
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}
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}
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public fun DoubleTensor.detLU(): DoubleTensor {
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public fun DoubleTensor.detLU(): DoubleTensor {
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val (luTensor, pivotsTensor) = lu()
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val (luTensor, pivotsTensor) = luForDet(forDet = true)
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val n = shape.size
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val n = shape.size
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val detTensorShape = IntArray(n - 1) { i -> shape[i] }
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val detTensorShape = IntArray(n - 1) { i -> shape[i] }
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@ -2,6 +2,7 @@ package space.kscience.kmath.tensors.core
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import space.kscience.kmath.tensors.TensorAlgebra
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import space.kscience.kmath.tensors.TensorAlgebra
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import space.kscience.kmath.tensors.TensorStructure
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import space.kscience.kmath.tensors.TensorStructure
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import kotlin.math.abs
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internal inline fun <T, TensorType : TensorStructure<T>,
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internal inline fun <T, TensorType : TensorStructure<T>,
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@ -63,9 +64,20 @@ internal inline fun DoubleTensorAlgebra.checkSymmetric(tensor: DoubleTensor, eps
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"Tensor is not symmetric about the last 2 dimensions at precision $epsilon"
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"Tensor is not symmetric about the last 2 dimensions at precision $epsilon"
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}
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}
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internal inline fun DoubleLinearOpsTensorAlgebra.checkPositiveDefinite(tensor: DoubleTensor): Unit {
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internal inline fun DoubleLinearOpsTensorAlgebra.checkPositiveDefinite(
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tensor: DoubleTensor, epsilon: Double = 1e-6): Unit {
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checkSymmetric(tensor, epsilon)
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for( mat in tensor.matrixSequence())
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for( mat in tensor.matrixSequence())
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check(mat.asTensor().detLU().value() > 0.0){
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check(mat.asTensor().detLU().value() > 0.0){
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"Tensor contains matrices which are not positive definite ${mat.asTensor().detLU().value()}"
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"Tensor contains matrices which are not positive definite ${mat.asTensor().detLU().value()}"
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}
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}
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}
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internal inline fun DoubleLinearOpsTensorAlgebra.checkNonSingularMatrix(tensor: DoubleTensor): Unit {
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for( mat in tensor.matrixSequence()) {
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val detTensor = mat.asTensor().detLU()
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check(!(detTensor.eq(detTensor.zeroesLike()))){
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"Tensor contains matrices which are singular"
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}
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}
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}
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}
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@ -62,10 +62,10 @@ internal inline fun dotHelper(
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}
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}
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internal inline fun luHelper(lu: MutableStructure2D<Double>, pivots: MutableStructure1D<Int>, m: Int) {
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internal inline fun luHelper(lu: MutableStructure2D<Double>, pivots: MutableStructure1D<Int>, m: Int) {
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for (row in 0 until m) pivots[row] = row
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for (row in 0..m) pivots[row] = row
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for (i in 0 until m) {
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for (i in 0 until m) {
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var maxVal = -1.0
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var maxVal = 0.0
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var maxInd = i
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var maxInd = i
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for (k in i until m) {
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for (k in i until m) {
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@ -76,7 +76,9 @@ internal inline fun luHelper(lu: MutableStructure2D<Double>, pivots: MutableStru
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}
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}
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}
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}
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//todo check singularity
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if (abs(maxVal) < 1e-9) {
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throw RuntimeException()
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}
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if (maxInd != i) {
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if (maxInd != i) {
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@ -158,6 +160,9 @@ internal inline fun choleskyHelper(
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internal inline fun luMatrixDet(luTensor: MutableStructure2D<Double>, pivotsTensor: MutableStructure1D<Int>): Double {
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internal inline fun luMatrixDet(luTensor: MutableStructure2D<Double>, pivotsTensor: MutableStructure1D<Int>): Double {
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val lu = luTensor.as2D()
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val lu = luTensor.as2D()
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val pivots = pivotsTensor.as1D()
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val pivots = pivotsTensor.as1D()
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if (lu[0, 0] == 0.0) {
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return 0.0
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}
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val m = lu.shape[0]
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val m = lu.shape[0]
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val sign = if ((pivots[m] - m) % 2 == 0) 1.0 else -1.0
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val sign = if ((pivots[m] - m) % 2 == 0) 1.0 else -1.0
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return (0 until m).asSequence().map { lu[it, it] }.fold(sign) { left, right -> left * right }
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return (0 until m).asSequence().map { lu[it, it] }.fold(sign) { left, right -> left * right }
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@ -36,6 +36,7 @@ class TestDoubleLinearOpsTensorAlgebra {
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@Test
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@Test
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fun testDet() = DoubleLinearOpsTensorAlgebra {
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fun testDet() = DoubleLinearOpsTensorAlgebra {
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val expectedValue = 0.019827417
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val m = fromArray(
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val m = fromArray(
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intArrayOf(3, 3), doubleArrayOf(
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intArrayOf(3, 3), doubleArrayOf(
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2.1843, 1.4391, -0.4845,
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2.1843, 1.4391, -0.4845,
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@ -43,8 +44,20 @@ class TestDoubleLinearOpsTensorAlgebra {
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-0.4845, 0.4055, 0.7519
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-0.4845, 0.4055, 0.7519
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)
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)
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)
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)
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println(m.det().value())
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println(0.0197) //expected value
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assertTrue { abs(m.det().value() - expectedValue) < 1e-5}
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}
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@Test
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fun testDetSingle() = DoubleLinearOpsTensorAlgebra {
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val expectedValue = 48.151623
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val m = fromArray(
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intArrayOf(1, 1), doubleArrayOf(
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expectedValue
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)
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)
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assertTrue { abs(m.det().value() - expectedValue) < 1e-5}
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}
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}
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@Test
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@Test
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