v0.3.0-dev-9 #324
@ -69,10 +69,10 @@ public open class DoubleTensorAlgebra : TensorPartialDivisionAlgebra<Double, Dou
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}
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}
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override fun DoubleTensor.plusAssign(other: DoubleTensor) {
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override fun DoubleTensor.plusAssign(other: DoubleTensor) {
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//todo should be change with broadcasting
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val newOther = broadcastTo(other, this.shape)
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for (i in 0 until this.strides.linearSize) {
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for (i in 0 until this.strides.linearSize) {
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this.buffer.array()[this.bufferStart + i] +=
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this.buffer.array()[this.bufferStart + i] +=
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other.buffer.array()[this.bufferStart + i]
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newOther.buffer.array()[this.bufferStart + i]
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}
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}
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}
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}
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@ -107,41 +107,45 @@ public open class DoubleTensorAlgebra : TensorPartialDivisionAlgebra<Double, Dou
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}
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}
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override fun DoubleTensor.minusAssign(other: DoubleTensor) {
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override fun DoubleTensor.minusAssign(other: DoubleTensor) {
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TODO("Alya")
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val newOther = broadcastTo(other, this.shape)
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for (i in 0 until this.strides.linearSize) {
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this.buffer.array()[this.bufferStart + i] -=
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newOther.buffer.array()[this.bufferStart + i]
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}
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}
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}
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override fun Double.times(other: DoubleTensor): DoubleTensor {
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override fun Double.times(other: DoubleTensor): DoubleTensor {
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//todo should be change with broadcasting
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val resBuffer = DoubleArray(other.strides.linearSize) { i ->
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val resBuffer = DoubleArray(other.strides.linearSize) { i ->
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other.buffer.array()[other.bufferStart + i] * this
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other.buffer.array()[other.bufferStart + i] * this
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}
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}
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return DoubleTensor(other.shape, resBuffer)
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return DoubleTensor(other.shape, resBuffer)
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}
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}
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//todo should be change with broadcasting
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override fun DoubleTensor.times(value: Double): DoubleTensor = value * this
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override fun DoubleTensor.times(value: Double): DoubleTensor = value * this
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override fun DoubleTensor.times(other: DoubleTensor): DoubleTensor {
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override fun DoubleTensor.times(other: DoubleTensor): DoubleTensor {
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//todo should be change with broadcasting
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val broadcast = broadcastTensors(this, other)
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val resBuffer = DoubleArray(this.strides.linearSize) { i ->
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val newThis = broadcast[0]
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this.buffer.array()[other.bufferStart + i] *
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val newOther = broadcast[1]
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other.buffer.array()[other.bufferStart + i]
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val resBuffer = DoubleArray(newThis.strides.linearSize) { i ->
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newThis.buffer.array()[newOther.bufferStart + i] *
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newOther.buffer.array()[newOther.bufferStart + i]
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}
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}
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return DoubleTensor(this.shape, resBuffer)
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return DoubleTensor(newThis.shape, resBuffer)
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}
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}
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override fun DoubleTensor.timesAssign(value: Double) {
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override fun DoubleTensor.timesAssign(value: Double) {
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//todo should be change with broadcasting
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for (i in 0 until this.strides.linearSize) {
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for (i in 0 until this.strides.linearSize) {
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this.buffer.array()[this.bufferStart + i] *= value
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this.buffer.array()[this.bufferStart + i] *= value
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}
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}
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}
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}
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override fun DoubleTensor.timesAssign(other: DoubleTensor) {
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override fun DoubleTensor.timesAssign(other: DoubleTensor) {
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//todo should be change with broadcasting
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val newOther = broadcastTo(other, this.shape)
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for (i in 0 until this.strides.linearSize) {
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for (i in 0 until this.strides.linearSize) {
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this.buffer.array()[this.bufferStart + i] *=
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this.buffer.array()[this.bufferStart + i] *=
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other.buffer.array()[this.bufferStart + i]
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newOther.buffer.array()[this.bufferStart + i]
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}
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}
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}
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}
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@ -32,6 +32,43 @@ internal inline fun broadcastShapes(vararg shapes: IntArray): IntArray {
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return totalShape
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return totalShape
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}
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}
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internal inline fun broadcastTo(tensor: DoubleTensor, newShape: IntArray): DoubleTensor {
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if (tensor.shape.size > newShape.size) {
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throw RuntimeException("Tensor is not compatible with the new shape")
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}
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val n = newShape.reduce { acc, i -> acc * i }
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val resTensor = DoubleTensor(newShape, DoubleArray(n))
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for (i in tensor.shape.indices) {
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val curDim = tensor.shape[i]
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val offset = newShape.size - tensor.shape.size
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if (curDim != 1 && newShape[i + offset] != curDim) {
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throw RuntimeException("Tensor is not compatible with the new shape and cannot be broadcast")
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}
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}
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for (linearIndex in 0 until n) {
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val totalMultiIndex = resTensor.strides.index(linearIndex)
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val curMultiIndex = tensor.shape.copyOf()
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val offset = totalMultiIndex.size - curMultiIndex.size
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for (i in curMultiIndex.indices) {
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if (curMultiIndex[i] != 1) {
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curMultiIndex[i] = totalMultiIndex[i + offset]
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} else {
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curMultiIndex[i] = 0
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}
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}
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val curLinearIndex = tensor.strides.offset(curMultiIndex)
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resTensor.buffer.array()[linearIndex] =
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tensor.buffer.array()[tensor.bufferStart + curLinearIndex]
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}
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return resTensor
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}
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internal inline fun broadcastTensors(vararg tensors: DoubleTensor): List<DoubleTensor> {
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internal inline fun broadcastTensors(vararg tensors: DoubleTensor): List<DoubleTensor> {
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val totalShape = broadcastShapes(*(tensors.map { it.shape }).toTypedArray())
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val totalShape = broadcastShapes(*(tensors.map { it.shape }).toTypedArray())
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val n = totalShape.reduce { acc, i -> acc * i }
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val n = totalShape.reduce { acc, i -> acc * i }
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@ -58,6 +58,16 @@ class TestDoubleTensorAlgebra {
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) contentEquals intArrayOf(5, 6, 7))
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) contentEquals intArrayOf(5, 6, 7))
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}
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}
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@Test
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fun broadcastTo() = DoubleTensorAlgebra {
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val tensor1 = DoubleTensor(intArrayOf(2, 3), doubleArrayOf(1.0, 2.0, 3.0, 4.0, 5.0, 6.0))
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val tensor2 = DoubleTensor(intArrayOf(1, 3), doubleArrayOf(10.0, 20.0, 30.0))
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val res = broadcastTo(tensor2, tensor1.shape)
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assertTrue(res.shape contentEquals intArrayOf(2, 3))
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assertTrue(res.buffer.array() contentEquals doubleArrayOf(10.0, 20.0, 30.0, 10.0, 20.0, 30.0))
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}
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@Test
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@Test
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fun broadcastTensors() = DoubleTensorAlgebra {
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fun broadcastTensors() = DoubleTensorAlgebra {
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val tensor1 = DoubleTensor(intArrayOf(2, 3), doubleArrayOf(1.0, 2.0, 3.0, 4.0, 5.0, 6.0))
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val tensor1 = DoubleTensor(intArrayOf(2, 3), doubleArrayOf(1.0, 2.0, 3.0, 4.0, 5.0, 6.0))
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