Tensors dot #257
@ -45,7 +45,7 @@ public class BroadcastDoubleTensorAlgebra : DoubleTensorAlgebra() {
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val newThis = broadcast[0]
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val newOther = broadcast[1]
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val resBuffer = DoubleArray(newThis.linearStructure.size) { i ->
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newThis.buffer.array()[newOther.bufferStart + i] *
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newThis.buffer.array()[newThis.bufferStart + i] *
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newOther.buffer.array()[newOther.bufferStart + i]
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}
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return DoubleTensor(newThis.shape, resBuffer)
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@ -182,17 +182,13 @@ internal inline fun broadcastTensors(vararg tensors: DoubleTensor): List<DoubleT
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}
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internal inline fun broadcastOuterTensors(vararg tensors: DoubleTensor): List<DoubleTensor> {
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var onlyTwoDims = true
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for (tensor in tensors) {
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if (tensor.shape.size < 2) {
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val onlyTwoDims = tensors.asSequence().onEach {
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require(it.shape.size >= 2) {
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throw RuntimeException("Tensors must have at least 2 dimensions")
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}
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if (tensor.shape.size != 2) {
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onlyTwoDims = false
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}
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}
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}.any { it.shape.size != 2 }
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if (onlyTwoDims) {
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if (!onlyTwoDims) {
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return tensors.asList()
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}
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@ -233,7 +229,7 @@ internal inline fun broadcastOuterTensors(vararg tensors: DoubleTensor): List<Do
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newTensor.buffer.array()[newTensor.bufferStart + curLinearIndex]
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}
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}
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res.add(resTensor)
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res += resTensor
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}
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return res
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@ -34,7 +34,8 @@ public open class BufferedTensor<T>(
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public fun vectorSequence(): Sequence<MutableStructure1D<T>> = sequence {
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check(shape.size >= 1) {"todo"}
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val vectorOffset = linearStructure.strides[0]
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val n = shape.size
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val vectorOffset = shape[n - 1]
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val vectorShape = intArrayOf(shape.last())
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for (offset in 0 until numel step vectorOffset) {
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val vector = BufferedTensor<T>(vectorShape, buffer, offset).as1D()
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@ -44,8 +45,9 @@ public open class BufferedTensor<T>(
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public fun matrixSequence(): Sequence<MutableStructure2D<T>> = sequence {
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check(shape.size >= 2) {"todo"}
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val matrixOffset = linearStructure.strides[1]
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val matrixShape = intArrayOf(shape[shape.size - 2], shape.last()) //todo better way?
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val n = shape.size
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val matrixOffset = shape[n - 1] * shape[n - 2]
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val matrixShape = intArrayOf(shape[n - 2], shape[n - 1]) //todo better way?
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for (offset in 0 until numel step matrixOffset) {
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val matrix = BufferedTensor<T>(matrixShape, buffer, offset).as2D()
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yield(matrix)
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@ -8,7 +8,7 @@ public class DoubleLinearOpsTensorAlgebra :
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DoubleTensorAlgebra() {
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override fun DoubleTensor.inv(): DoubleTensor {
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TODO("Not yet implemented")
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TODO("ANDREI")
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}
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override fun DoubleTensor.lu(tol: Double): Pair<DoubleTensor, IntTensor> {
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@ -135,16 +135,16 @@ public class DoubleLinearOpsTensorAlgebra :
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}
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override fun DoubleTensor.qr(): DoubleTensor {
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TODO("Not yet implemented")
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TODO("ANDREI")
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}
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override fun DoubleTensor.svd(): Triple<DoubleTensor, DoubleTensor, DoubleTensor> {
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TODO("Not yet implemented")
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TODO("ALYA")
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}
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override fun DoubleTensor.symEig(eigenvectors: Boolean): Pair<DoubleTensor, DoubleTensor> {
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TODO("Not yet implemented")
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TODO("ANDREI")
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}
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}
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@ -241,37 +241,6 @@ public open class DoubleTensorAlgebra : TensorPartialDivisionAlgebra<Double, Dou
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TODO("Not yet implemented")
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}
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private fun DoubleTensor.dotTwoDimensionalTensors(other: DoubleTensor): DoubleTensor {
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if (this.shape.size > 2 || other.shape.size > 2) {
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throw RuntimeException("Both tensors must have a maximum of 2 dimensions")
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}
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if (this.shape[1] != other.shape[0]) {
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throw RuntimeException("Tensors dot operation dimension mismatch: " +
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"(${this.shape[0]}, ${this.shape[1]}) x (${other.shape[0]}, ${other.shape[1]})")
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}
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val l = this.shape[0]
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val m = this.shape[1]
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val n = other.shape[1]
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val res = DoubleTensor(intArrayOf(l, n), DoubleArray(l * n))
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for (i in 0 until l) {
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for (j in 0 until n) {
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var curr = 0.0
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for (k in 0 until m) {
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val ik = this.linearStructure.offset(intArrayOf(i, k))
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val kj = other.linearStructure.offset(intArrayOf(k, j))
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curr += this.buffer.array()[ik] * other.buffer.array()[kj]
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}
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val linearIndex = res.linearStructure.offset(intArrayOf(i, j))
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res.buffer.array()[linearIndex] = curr
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}
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}
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return res
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}
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override fun DoubleTensor.dot(other: DoubleTensor): DoubleTensor {
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if (this.shape.size == 1 && other.shape.size == 1) {
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return DoubleTensor(intArrayOf(1), doubleArrayOf(this.times(other).buffer.array().sum()))
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@ -279,10 +248,15 @@ public open class DoubleTensorAlgebra : TensorPartialDivisionAlgebra<Double, Dou
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var newThis = this.copy()
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var newOther = other.copy()
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var penultimateDim = false
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var lastDim = false
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if (this.shape.size == 1) {
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penultimateDim = true
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newThis = this.view(intArrayOf(1) + this.shape)
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}
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if (other.shape.size == 1) {
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lastDim = true
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newOther = other.view(other.shape + intArrayOf(1) )
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}
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@ -299,13 +273,12 @@ public open class DoubleTensorAlgebra : TensorPartialDivisionAlgebra<Double, Dou
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}
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val m = m1
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var resShape = newThis.shape.sliceArray(0..(newThis.shape.size - 2)) + intArrayOf(newOther.shape.last())
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val resShape = newThis.shape.sliceArray(0..(newThis.shape.size - 2)) + intArrayOf(newOther.shape.last())
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val resSize = resShape.reduce { acc, i -> acc * i }
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val resTensor = DoubleTensor(resShape, DoubleArray(resSize))
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for ((res, ab) in resTensor.matrixSequence().zip(newThis.matrixSequence().zip(newOther.matrixSequence()))) {
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val a = ab.first
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val b = ab.second
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val (a, b) = ab
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for (i in 0 until l) {
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for (j in 0 until n) {
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@ -318,6 +291,13 @@ public open class DoubleTensorAlgebra : TensorPartialDivisionAlgebra<Double, Dou
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}
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}
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if (penultimateDim) {
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return resTensor.view(resTensor.shape.dropLast(2).toIntArray() +
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intArrayOf(resTensor.shape.last()))
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}
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if (lastDim) {
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return resTensor.view(resTensor.shape.dropLast(1).toIntArray())
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}
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return resTensor
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}
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@ -338,7 +318,7 @@ public open class DoubleTensorAlgebra : TensorPartialDivisionAlgebra<Double, Dou
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}
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override fun DoubleTensor.det(): DoubleTensor {
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TODO("Not yet implemented")
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TODO("ANDREI")
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}
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override fun DoubleTensor.square(): DoubleTensor {
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@ -82,15 +82,37 @@ class TestDoubleTensorAlgebra {
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@Test
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fun dot() = DoubleTensorAlgebra {
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val tensor1 = fromArray(intArrayOf(2, 3), doubleArrayOf(1.0, 2.0, 3.0, 4.0, 5.0, 6.0))
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val tensor11 = fromArray(intArrayOf(3, 2), doubleArrayOf(1.0, 2.0, 3.0, 4.0, 5.0, 6.0))
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val tensor2 = fromArray(intArrayOf(3), doubleArrayOf(10.0, 20.0, 30.0))
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val tensor3 = fromArray(intArrayOf(1, 1, 3), doubleArrayOf(-1.0, -2.0, -3.0))
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val res12 = tensor1.dot(tensor2)
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assertTrue(res12.buffer.array() contentEquals doubleArrayOf(140.0, 320.0))
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assertTrue(res12.shape contentEquals intArrayOf(2, 1))
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assertTrue(res12.shape contentEquals intArrayOf(2))
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val tensor4 = fromArray(intArrayOf(10, 3, 4), DoubleArray(10 * 3 * 4) {0.0})
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val tensor5 = fromArray(intArrayOf(10, 4, 5), DoubleArray(10 * 4 * 5) {0.0})
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val res32 = tensor3.dot(tensor2)
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assertTrue(res32.buffer.array() contentEquals doubleArrayOf(-140.0))
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assertTrue(res32.shape contentEquals intArrayOf(1, 1))
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val res22 = tensor2.dot(tensor2)
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assertTrue(res22.buffer.array() contentEquals doubleArrayOf(1400.0))
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assertTrue(res22.shape contentEquals intArrayOf(1))
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val res11 = tensor1.dot(tensor11)
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assertTrue(res11.buffer.array() contentEquals doubleArrayOf(22.0, 28.0, 49.0, 64.0))
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assertTrue(res11.shape contentEquals intArrayOf(2, 2))
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var tensor4 = fromArray(intArrayOf(10, 3, 4), DoubleArray(10 * 3 * 4) {0.0})
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var tensor5 = fromArray(intArrayOf(10, 4, 5), DoubleArray(10 * 4 * 5) {0.0})
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assertTrue(tensor4.dot(tensor5).shape contentEquals intArrayOf(10, 3, 5))
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tensor4 = fromArray(intArrayOf(10, 3, 4), DoubleArray(10 * 3 * 4) {0.0})
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tensor5 = fromArray(intArrayOf(4, 5), DoubleArray(4 * 5) {0.0})
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assertTrue(tensor4.dot(tensor5).shape contentEquals intArrayOf(10, 3, 5))
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tensor4 = fromArray(intArrayOf(4, 2, 1, 3, 8, 1), DoubleArray(4 * 2 * 1 * 3 * 8 * 1) {0.0})
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tensor5 = fromArray(intArrayOf(5, 1, 2, 8, 3, 1, 5), DoubleArray(5 * 1 * 2 * 8 * 3 * 1 * 5) {0.0})
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assertTrue(tensor4.dot(tensor5).shape contentEquals intArrayOf(5, 4, 2, 8, 3, 8, 5))
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}
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@Test
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Block a user