v0.3.0-dev-9 #324
@ -789,7 +789,7 @@ public final class space/kscience/kmath/nd/DefaultStrides : space/kscience/kmath
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public fun equals (Ljava/lang/Object;)Z
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public fun equals (Ljava/lang/Object;)Z
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public fun getLinearSize ()I
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public fun getLinearSize ()I
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public fun getShape ()[I
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public fun getShape ()[I
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public fun getStrides ()Ljava/util/List;
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public fun getStrides ()[I
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public fun hashCode ()I
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public fun hashCode ()I
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public fun index (I)[I
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public fun index (I)[I
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public fun offset ([I)I
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public fun offset ([I)I
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@ -931,7 +931,7 @@ public final class space/kscience/kmath/nd/ShortRingNDKt {
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public abstract interface class space/kscience/kmath/nd/Strides {
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public abstract interface class space/kscience/kmath/nd/Strides {
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public abstract fun getLinearSize ()I
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public abstract fun getLinearSize ()I
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public abstract fun getShape ()[I
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public abstract fun getShape ()[I
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public abstract fun getStrides ()Ljava/util/List;
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public abstract fun getStrides ()[I
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public abstract fun index (I)[I
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public abstract fun index (I)[I
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public fun indices ()Lkotlin/sequences/Sequence;
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public fun indices ()Lkotlin/sequences/Sequence;
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public abstract fun offset ([I)I
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public abstract fun offset ([I)I
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@ -184,7 +184,7 @@ public interface Strides {
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/**
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/**
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* Array strides
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* Array strides
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*/
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*/
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public val strides: List<Int>
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public val strides: IntArray
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/**
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/**
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* Get linear index from multidimensional index
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* Get linear index from multidimensional index
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@ -221,7 +221,7 @@ public class DefaultStrides private constructor(override val shape: IntArray) :
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/**
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/**
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* Strides for memory access
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* Strides for memory access
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*/
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*/
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override val strides: List<Int> by lazy {
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override val strides: IntArray by lazy {
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sequence {
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sequence {
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var current = 1
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var current = 1
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yield(1)
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yield(1)
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@ -230,7 +230,7 @@ public class DefaultStrides private constructor(override val shape: IntArray) :
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current *= it
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current *= it
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yield(current)
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yield(current)
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}
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}
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}.toList()
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}.toList().toIntArray()
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}
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}
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override fun offset(index: IntArray): Int = index.mapIndexed { i, value ->
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override fun offset(index: IntArray): Int = index.mapIndexed { i, value ->
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@ -15,7 +15,7 @@ public open class BufferedTensor<T>(
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get() = TensorLinearStructure(shape)
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get() = TensorLinearStructure(shape)
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public val numElements: Int
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public val numElements: Int
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get() = linearStructure.size
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get() = linearStructure.linearSize
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override fun get(index: IntArray): T = mutableBuffer[bufferStart + linearStructure.offset(index)]
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override fun get(index: IntArray): T = mutableBuffer[bufferStart + linearStructure.offset(index)]
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@ -60,7 +60,7 @@ internal fun <T> TensorStructure<T>.copyToBufferedTensor(): BufferedTensor<T> =
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internal fun <T> TensorStructure<T>.toBufferedTensor(): BufferedTensor<T> = when (this) {
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internal fun <T> TensorStructure<T>.toBufferedTensor(): BufferedTensor<T> = when (this) {
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is BufferedTensor<T> -> this
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is BufferedTensor<T> -> this
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is MutableBufferND<T> -> if (this.strides.strides.toIntArray() contentEquals TensorLinearStructure(this.shape).strides)
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is MutableBufferND<T> -> if (this.strides.strides contentEquals TensorLinearStructure(this.shape).strides)
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BufferedTensor(this.shape, this.mutableBuffer, 0) else this.copyToBufferedTensor()
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BufferedTensor(this.shape, this.mutableBuffer, 0) else this.copyToBufferedTensor()
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else -> this.copyToBufferedTensor()
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else -> this.copyToBufferedTensor()
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}
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}
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@ -20,7 +20,7 @@ public object BroadcastDoubleTensorAlgebra : DoubleTensorAlgebra() {
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val broadcast = broadcastTensors(tensor, other.tensor)
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val broadcast = broadcastTensors(tensor, other.tensor)
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val newThis = broadcast[0]
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val newThis = broadcast[0]
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val newOther = broadcast[1]
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val newOther = broadcast[1]
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val resBuffer = DoubleArray(newThis.linearStructure.size) { i ->
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val resBuffer = DoubleArray(newThis.linearStructure.linearSize) { i ->
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newThis.mutableBuffer.array()[i] + newOther.mutableBuffer.array()[i]
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newThis.mutableBuffer.array()[i] + newOther.mutableBuffer.array()[i]
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}
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}
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return DoubleTensor(newThis.shape, resBuffer)
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return DoubleTensor(newThis.shape, resBuffer)
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@ -28,7 +28,7 @@ public object BroadcastDoubleTensorAlgebra : DoubleTensorAlgebra() {
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override fun TensorStructure<Double>.plusAssign(other: TensorStructure<Double>) {
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override fun TensorStructure<Double>.plusAssign(other: TensorStructure<Double>) {
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val newOther = broadcastTo(other.tensor, tensor.shape)
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val newOther = broadcastTo(other.tensor, tensor.shape)
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for (i in 0 until tensor.linearStructure.size) {
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for (i in 0 until tensor.linearStructure.linearSize) {
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tensor.mutableBuffer.array()[tensor.bufferStart + i] +=
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tensor.mutableBuffer.array()[tensor.bufferStart + i] +=
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newOther.mutableBuffer.array()[tensor.bufferStart + i]
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newOther.mutableBuffer.array()[tensor.bufferStart + i]
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}
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}
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@ -38,7 +38,7 @@ public object BroadcastDoubleTensorAlgebra : DoubleTensorAlgebra() {
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val broadcast = broadcastTensors(tensor, other.tensor)
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val broadcast = broadcastTensors(tensor, other.tensor)
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val newThis = broadcast[0]
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val newThis = broadcast[0]
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val newOther = broadcast[1]
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val newOther = broadcast[1]
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val resBuffer = DoubleArray(newThis.linearStructure.size) { i ->
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val resBuffer = DoubleArray(newThis.linearStructure.linearSize) { i ->
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newThis.mutableBuffer.array()[i] - newOther.mutableBuffer.array()[i]
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newThis.mutableBuffer.array()[i] - newOther.mutableBuffer.array()[i]
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}
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}
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return DoubleTensor(newThis.shape, resBuffer)
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return DoubleTensor(newThis.shape, resBuffer)
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@ -46,7 +46,7 @@ public object BroadcastDoubleTensorAlgebra : DoubleTensorAlgebra() {
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override fun TensorStructure<Double>.minusAssign(other: TensorStructure<Double>) {
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override fun TensorStructure<Double>.minusAssign(other: TensorStructure<Double>) {
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val newOther = broadcastTo(other.tensor, tensor.shape)
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val newOther = broadcastTo(other.tensor, tensor.shape)
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for (i in 0 until tensor.linearStructure.size) {
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for (i in 0 until tensor.linearStructure.linearSize) {
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tensor.mutableBuffer.array()[tensor.bufferStart + i] -=
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tensor.mutableBuffer.array()[tensor.bufferStart + i] -=
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newOther.mutableBuffer.array()[tensor.bufferStart + i]
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newOther.mutableBuffer.array()[tensor.bufferStart + i]
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}
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}
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@ -56,7 +56,7 @@ public object BroadcastDoubleTensorAlgebra : DoubleTensorAlgebra() {
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val broadcast = broadcastTensors(tensor, other.tensor)
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val broadcast = broadcastTensors(tensor, other.tensor)
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val newThis = broadcast[0]
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val newThis = broadcast[0]
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val newOther = broadcast[1]
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val newOther = broadcast[1]
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val resBuffer = DoubleArray(newThis.linearStructure.size) { i ->
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val resBuffer = DoubleArray(newThis.linearStructure.linearSize) { i ->
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newThis.mutableBuffer.array()[newThis.bufferStart + i] *
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newThis.mutableBuffer.array()[newThis.bufferStart + i] *
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newOther.mutableBuffer.array()[newOther.bufferStart + i]
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newOther.mutableBuffer.array()[newOther.bufferStart + i]
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}
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}
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@ -65,7 +65,7 @@ public object BroadcastDoubleTensorAlgebra : DoubleTensorAlgebra() {
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override fun TensorStructure<Double>.timesAssign(other: TensorStructure<Double>) {
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override fun TensorStructure<Double>.timesAssign(other: TensorStructure<Double>) {
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val newOther = broadcastTo(other.tensor, tensor.shape)
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val newOther = broadcastTo(other.tensor, tensor.shape)
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for (i in 0 until tensor.linearStructure.size) {
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for (i in 0 until tensor.linearStructure.linearSize) {
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tensor.mutableBuffer.array()[tensor.bufferStart + i] *=
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tensor.mutableBuffer.array()[tensor.bufferStart + i] *=
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newOther.mutableBuffer.array()[tensor.bufferStart + i]
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newOther.mutableBuffer.array()[tensor.bufferStart + i]
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}
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}
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@ -75,7 +75,7 @@ public object BroadcastDoubleTensorAlgebra : DoubleTensorAlgebra() {
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val broadcast = broadcastTensors(tensor, other.tensor)
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val broadcast = broadcastTensors(tensor, other.tensor)
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val newThis = broadcast[0]
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val newThis = broadcast[0]
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val newOther = broadcast[1]
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val newOther = broadcast[1]
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val resBuffer = DoubleArray(newThis.linearStructure.size) { i ->
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val resBuffer = DoubleArray(newThis.linearStructure.linearSize) { i ->
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newThis.mutableBuffer.array()[newOther.bufferStart + i] /
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newThis.mutableBuffer.array()[newOther.bufferStart + i] /
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newOther.mutableBuffer.array()[newOther.bufferStart + i]
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newOther.mutableBuffer.array()[newOther.bufferStart + i]
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}
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}
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@ -84,7 +84,7 @@ public object BroadcastDoubleTensorAlgebra : DoubleTensorAlgebra() {
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override fun TensorStructure<Double>.divAssign(other: TensorStructure<Double>) {
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override fun TensorStructure<Double>.divAssign(other: TensorStructure<Double>) {
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val newOther = broadcastTo(other.tensor, tensor.shape)
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val newOther = broadcastTo(other.tensor, tensor.shape)
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for (i in 0 until tensor.linearStructure.size) {
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for (i in 0 until tensor.linearStructure.linearSize) {
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tensor.mutableBuffer.array()[tensor.bufferStart + i] /=
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tensor.mutableBuffer.array()[tensor.bufferStart + i] /=
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newOther.mutableBuffer.array()[tensor.bufferStart + i]
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newOther.mutableBuffer.array()[tensor.bufferStart + i]
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}
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}
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@ -5,16 +5,17 @@
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package space.kscience.kmath.tensors.core.algebras
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package space.kscience.kmath.tensors.core.algebras
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import space.kscience.kmath.nd.Strides
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import kotlin.math.max
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import kotlin.math.max
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internal inline fun offsetFromIndex(index: IntArray, shape: IntArray, strides: IntArray): Int =
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internal fun offsetFromIndex(index: IntArray, shape: IntArray, strides: IntArray): Int =
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index.mapIndexed { i, value ->
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index.mapIndexed { i, value ->
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if (value < 0 || value >= shape[i]) throw IndexOutOfBoundsException("Index $value out of shape bounds: (0,${shape[i]})")
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if (value < 0 || value >= shape[i]) throw IndexOutOfBoundsException("Index $value out of shape bounds: (0,${shape[i]})")
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value * strides[i]
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value * strides[i]
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}.sum()
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}.sum()
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internal inline fun stridesFromShape(shape: IntArray): IntArray {
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internal fun stridesFromShape(shape: IntArray): IntArray {
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val nDim = shape.size
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val nDim = shape.size
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val res = IntArray(nDim)
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val res = IntArray(nDim)
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if (nDim == 0)
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if (nDim == 0)
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@ -31,7 +32,7 @@ internal inline fun stridesFromShape(shape: IntArray): IntArray {
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}
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}
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internal inline fun indexFromOffset(offset: Int, strides: IntArray, nDim: Int): IntArray {
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internal fun indexFromOffset(offset: Int, strides: IntArray, nDim: Int): IntArray {
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val res = IntArray(nDim)
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val res = IntArray(nDim)
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var current = offset
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var current = offset
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var strideIndex = 0
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var strideIndex = 0
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@ -44,7 +45,7 @@ internal inline fun indexFromOffset(offset: Int, strides: IntArray, nDim: Int):
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return res
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return res
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}
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}
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internal inline fun stepIndex(index: IntArray, shape: IntArray, nDim: Int): IntArray {
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internal fun stepIndex(index: IntArray, shape: IntArray, nDim: Int): IntArray {
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val res = index.copyOf()
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val res = index.copyOf()
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var current = nDim - 1
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var current = nDim - 1
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var carry = 0
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var carry = 0
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@ -62,26 +63,26 @@ internal inline fun stepIndex(index: IntArray, shape: IntArray, nDim: Int): IntA
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}
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}
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public class TensorLinearStructure(public val shape: IntArray)
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public class TensorLinearStructure(override val shape: IntArray) : Strides
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{
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{
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public val strides: IntArray
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override val strides: IntArray
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get() = stridesFromShape(shape)
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get() = stridesFromShape(shape)
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public fun offset(index: IntArray): Int = offsetFromIndex(index, shape, strides)
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override fun offset(index: IntArray): Int = offsetFromIndex(index, shape, strides)
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public fun index(offset: Int): IntArray =
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override fun index(offset: Int): IntArray =
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indexFromOffset(offset, strides, shape.size)
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indexFromOffset(offset, strides, shape.size)
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public fun stepIndex(index: IntArray): IntArray =
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public fun stepIndex(index: IntArray): IntArray =
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stepIndex(index, shape, shape.size)
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stepIndex(index, shape, shape.size)
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public val size: Int
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override val linearSize: Int
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get() = shape.reduce(Int::times)
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get() = shape.reduce(Int::times)
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public val dim: Int
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public val dim: Int
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get() = shape.size
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get() = shape.size
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public fun indices(): Sequence<IntArray> = (0 until size).asSequence().map {
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override fun indices(): Sequence<IntArray> = (0 until linearSize).asSequence().map {
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index(it)
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index(it)
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}
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}
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}
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}
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Block a user