v0.3.0-dev-18 #459
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package space.kscience.kmath.tensorflow
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import org.tensorflow.Graph
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import org.tensorflow.Output
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import org.tensorflow.ndarray.NdArray
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import org.tensorflow.ndarray.Shape
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import org.tensorflow.op.core.Constant
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import org.tensorflow.types.TFloat64
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import space.kscience.kmath.misc.PerformancePitfall
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import space.kscience.kmath.tensors.api.Tensor
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public class DoubleTensorFlowOutput(
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graph: Graph,
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output: Output<TFloat64>
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) : TensorFlowOutput<Double, TFloat64>(graph, output) {
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override fun org.tensorflow.Tensor.actualizeTensor(): NdArray<Double> = output.asTensor()
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}
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public class DoubleTensorFlowAlgebra internal constructor(
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graph: Graph
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) : TensorFlowAlgebra<Double, TFloat64>(graph) {
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override fun Tensor<Double>.asTensorFlow(): TensorFlowOutput<Double, TFloat64> =
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if (this is TensorFlowOutput<Double, *> && output.type() == TFloat64::class.java) {
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@Suppress("UNCHECKED_CAST")
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this as TensorFlowOutput<Double, TFloat64>
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} else {
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val res = TFloat64.tensorOf(Shape.of(*shape.toLongArray())) { array ->
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@OptIn(PerformancePitfall::class)
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elements().forEach { (index, value) ->
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array.setDouble(value, *index.toLongArray())
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}
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}
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DoubleTensorFlowOutput(graph, ops.constant(res).asOutput())
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}
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override fun Output<TFloat64>.wrap(): TensorFlowOutput<Double, TFloat64> = DoubleTensorFlowOutput(graph, this)
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override fun const(value: Double): Constant<TFloat64> = ops.constant(value)
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}
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@ -14,11 +14,10 @@ import space.kscience.kmath.nd.Shape
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import space.kscience.kmath.tensors.api.Tensor
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import space.kscience.kmath.tensors.api.TensorAlgebra
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private fun IntArray.toLongArray() = LongArray(size) { get(it).toLong() }
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private fun LongArray.toIntArray() = IntArray(size) { get(it).toInt() }
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internal fun IntArray.toLongArray() = LongArray(size) { get(it).toLong() }
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internal fun LongArray.toIntArray() = IntArray(size) { get(it).toInt() }
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private val <T> NdArray<T>.scalar: T
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get() = getObject()
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internal val <T> NdArray<T>.scalar: T get() = getObject()
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public sealed interface TensorFlowTensor<T> : Tensor<T>
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@ -72,14 +71,12 @@ public abstract class TensorFlowOutput<T, TT : TType>(
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public abstract class TensorFlowAlgebra<T, TT : TType> internal constructor(
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private val graph: Graph
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protected val graph: Graph
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) : TensorAlgebra<T> {
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private val ops by lazy { Ops.create(graph) }
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protected val ops: Ops by lazy { Ops.create(graph) }
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protected fun Tensor<T>.asTensorFlow(): TensorFlowOutput<T, TT> = if (this is TensorFlowOutput<T, TT>) this else {
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TODO()
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}
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protected abstract fun Tensor<T>.asTensorFlow(): TensorFlowOutput<T, TT>
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protected abstract fun Output<TT>.wrap(): TensorFlowOutput<T, TT>
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@ -138,27 +135,29 @@ public abstract class TensorFlowAlgebra<T, TT : TType> internal constructor(
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private inline fun unOp(value: Tensor<T>, operation: (Operand<TT>) -> Operand<TT>): TensorFlowOutput<T, TT> =
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operation(value.asTensorFlow().output).asOutput().wrap()
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override fun T.plus(other: Tensor<T>) = biOp(other, ops.math::add)
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override fun T.plus(other: Tensor<T>): TensorFlowOutput<T, TT> = biOp(other, ops.math::add)
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override fun Tensor<T>.plus(value: T) = biOp(value, ops.math::add)
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override fun Tensor<T>.plus(value: T): TensorFlowOutput<T, TT> = biOp(value, ops.math::add)
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override fun Tensor<T>.plus(other: Tensor<T>) = biOp(other, ops.math::add)
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override fun Tensor<T>.plus(other: Tensor<T>): TensorFlowOutput<T, TT> = biOp(other, ops.math::add)
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override fun Tensor<T>.plusAssign(value: T): Unit = inPlaceOp(value, ops.math::add)
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override fun Tensor<T>.plusAssign(other: Tensor<T>): Unit = inPlaceOp(other, ops.math::add)
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override fun Tensor<T>.minus(value: T) = biOp(value, ops.math::sub)
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override fun Tensor<T>.minus(value: T): TensorFlowOutput<T, TT> = biOp(value, ops.math::sub)
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override fun Tensor<T>.minus(other: Tensor<T>) = biOp(other, ops.math::sub)
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override fun Tensor<T>.minus(other: Tensor<T>): TensorFlowOutput<T, TT> = biOp(other, ops.math::sub)
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override fun T.minus(other: Tensor<T>): Tensor<T> = biOp(other, ops.math::sub)
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override fun Tensor<T>.minusAssign(value: T): Unit = inPlaceOp(value, ops.math::sub)
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override fun Tensor<T>.minusAssign(other: Tensor<T>): Unit = inPlaceOp(other, ops.math::sub)
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override fun T.times(other: Tensor<T>) = biOp(other, ops.math::mul)
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override fun T.times(other: Tensor<T>): TensorFlowOutput<T, TT> = biOp(other, ops.math::mul)
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override fun Tensor<T>.times(value: T) = biOp(value, ops.math::mul)
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override fun Tensor<T>.times(value: T): TensorFlowOutput<T, TT> = biOp(value, ops.math::mul)
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override fun Tensor<T>.times(other: Tensor<T>): TensorFlowOutput<T, TT> = biOp(other, ops.math::mul)
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@ -166,14 +165,14 @@ public abstract class TensorFlowAlgebra<T, TT : TType> internal constructor(
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override fun Tensor<T>.timesAssign(other: Tensor<T>): Unit = inPlaceOp(other, ops.math::mul)
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override fun Tensor<T>.unaryMinus() = unOp(this, ops.math::neg)
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override fun Tensor<T>.unaryMinus(): TensorFlowOutput<T, TT> = unOp(this, ops.math::neg)
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override fun Tensor<T>.get(i: Int): Tensor<T> {
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ops.
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TODO("Not yet implemented")
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}
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override fun Tensor<T>.transpose(i: Int, j: Int): Tensor<T> {
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TODO("Not yet implemented")
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override fun Tensor<T>.transpose(i: Int, j: Int): Tensor<T> = unOp(this) {
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ops.linalg.transpose(it, ops.constant(intArrayOf(i, j)))
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}
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override fun Tensor<T>.view(shape: IntArray): Tensor<T> {
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@ -184,15 +183,15 @@ public abstract class TensorFlowAlgebra<T, TT : TType> internal constructor(
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TODO("Not yet implemented")
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}
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override fun Tensor<T>.dot(other: Tensor<T>) = biOp(other, ops.math.)
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override fun Tensor<T>.dot(other: Tensor<T>): TensorFlowOutput<T, TT> = biOp(other) { l, r ->
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ops.linalg.matMul(l, r)
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}
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override fun diagonalEmbedding(diagonalEntries: Tensor<T>, offset: Int, dim1: Int, dim2: Int): Tensor<T> = ops.run {
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TODO("Not yet implemented")
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}
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override fun Tensor<T>.sum(): T {
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TODO("Not yet implemented")
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}
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override fun Tensor<T>.sum(): T = TODO("Not yet implemented")
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override fun Tensor<T>.sum(dim: Int, keepDim: Boolean): Tensor<T> {
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TODO("Not yet implemented")
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@ -361,16 +361,16 @@ public open class DoubleTensorAlgebra :
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dotHelper(a.as2D(), b.as2D(), res.as2D(), l, m1, n)
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}
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if (penultimateDim) {
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return resTensor.view(
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return if (penultimateDim) {
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resTensor.view(
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resTensor.shape.dropLast(2).toIntArray() +
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intArrayOf(resTensor.shape.last())
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)
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} else if (lastDim) {
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resTensor.view(resTensor.shape.dropLast(1).toIntArray())
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} else {
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resTensor
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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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override fun diagonalEmbedding(
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