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// Copyright 2018 Yahoo Holdings. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
package com.yahoo.searchlib.rankingexpression.integration.ml.importer.operations;
import com.yahoo.searchlib.rankingexpression.integration.ml.importer.OrderedTensorType;
import com.yahoo.searchlib.rankingexpression.integration.ml.importer.DimensionRenamer;
import com.yahoo.tensor.Tensor;
import com.yahoo.tensor.TensorType;
import com.yahoo.tensor.functions.TensorFunction;
import java.util.List;
import java.util.Optional;
public class ConcatV2 extends IntermediateOperation {
private String concatDimensionName;
public ConcatV2(String modelName, String nodeName, List<IntermediateOperation> inputs) {
super(modelName, nodeName, inputs);
}
@Override
protected OrderedTensorType lazyGetType() {
if (!inputs.stream().map(IntermediateOperation::type).allMatch(Optional::isPresent)) {
return null;
}
IntermediateOperation concatDimOp = inputs.get(inputs.size() - 1); // ConcatV2: concat dimension is the last input
if (!concatDimOp.getConstantValue().isPresent()) {
throw new IllegalArgumentException("ConcatV2 in " + name + ": " +
"concat dimension must be a constant.");
}
Tensor concatDimTensor = concatDimOp.getConstantValue().get().asTensor();
if (concatDimTensor.type().rank() != 0) {
throw new IllegalArgumentException("ConcatV2 in " + name + ": " +
"concat dimension must be a scalar.");
}
OrderedTensorType aType = inputs.get(0).type().get();
int concatDim = (int)concatDimTensor.asDouble();
long concatDimSize = aType.dimensions().get(concatDim).size().orElse(-1L);
for (int i = 1; i < inputs.size() - 1; ++i) {
OrderedTensorType bType = inputs.get(i).type().get();
if (bType.rank() != aType.rank()) {
throw new IllegalArgumentException("ConcatV2 in " + name + ": " +
"inputs must have save rank.");
}
for (int j = 0; j < aType.rank(); ++j) {
long dimSizeA = aType.dimensions().get(j).size().orElse(-1L);
long dimSizeB = bType.dimensions().get(j).size().orElse(-1L);
if (j == concatDim) {
concatDimSize += dimSizeB;
} else if (dimSizeA != dimSizeB) {
throw new IllegalArgumentException("ConcatV2 in " + name + ": " +
"input dimension " + j + " differs in input tensors.");
}
}
}
OrderedTensorType.Builder typeBuilder = new OrderedTensorType.Builder();
int dimensionIndex = 0;
for (TensorType.Dimension dimension : aType.dimensions()) {
if (dimensionIndex == concatDim) {
concatDimensionName = dimension.name();
typeBuilder.add(TensorType.Dimension.indexed(concatDimensionName, concatDimSize));
} else {
typeBuilder.add(dimension);
}
dimensionIndex++;
}
return typeBuilder.build();
}
@Override
protected TensorFunction lazyGetFunction() {
if (!inputs.stream().map(IntermediateOperation::function).allMatch(Optional::isPresent)) {
return null;
}
TensorFunction result = inputs.get(0).function().get();
for (int i = 1; i < inputs.size() - 1; ++i) {
TensorFunction b = inputs.get(i).function().get();
result = new com.yahoo.tensor.functions.Concat(result, b, concatDimensionName);
}
return result;
}
@Override
public void addDimensionNameConstraints(DimensionRenamer renamer) {
if (!inputs.stream().map(IntermediateOperation::type).allMatch(Optional::isPresent)) {
return;
}
OrderedTensorType a = inputs.get(0).type().get();
for (int i = 1; i < inputs.size() - 1; ++i) {
OrderedTensorType b = inputs.get(i).type().get();
String bDim = b.dimensions().get(i).name();
String aDim = a.dimensions().get(i).name();
renamer.addConstraint(aDim, bDim, DimensionRenamer::equals, this);
}
}
@Override
public void renameDimensions(DimensionRenamer renamer) {
super.renameDimensions(renamer);
concatDimensionName = renamer.dimensionNameOf(concatDimensionName).orElse(concatDimensionName);
}
}
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