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boolean_unmask_ops.cc
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boolean_unmask_ops.cc
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#include "caffe2/operators/boolean_unmask_ops.h"
#include "caffe2/core/operator.h"
#include "caffe2/core/tensor.h"
namespace caffe2 {
template <>
bool BooleanUnmaskOp<CPUContext>::RunOnDevice() {
int maskSize = Input(0).numel();
int numMasks = InputSize() / 2;
auto& valueMeta = Input(1).dtype();
auto* valuesOut = Output(0);
valuesOut->Resize(maskSize);
auto* valuesOutPtr = (char*)valuesOut->raw_mutable_data(valueMeta);
std::vector<int> nextValueIndices(numMasks, 0);
for (int maskOffset = 0; maskOffset < maskSize; ++maskOffset) {
bool maskFound = false;
for (int maskIndex = 0; maskIndex < numMasks; ++maskIndex) {
auto& mask = Input(maskIndex * 2);
CAFFE_ENFORCE_EQ(mask.dim(), 1);
CAFFE_ENFORCE_EQ(mask.numel(), maskSize);
const auto* maskPtr = mask.template data<bool>();
auto& values = Input(maskIndex * 2 + 1);
CAFFE_ENFORCE_EQ(values.dim(), 1);
const auto* valuesPtr = (char*)values.raw_data();
if (maskPtr[maskOffset]) {
auto& valueIndex = nextValueIndices[maskIndex];
CAFFE_ENFORCE_LT(valueIndex, values.numel());
auto* src = valuesPtr + (valueIndex++) * valueMeta.itemsize();
auto* dst = valuesOutPtr + maskOffset * valueMeta.itemsize();
std::copy(src, src + valueMeta.itemsize(), dst);
maskFound = true;
break;
}
}
CAFFE_ENFORCE(
maskFound, "All masks have False at position ", maskOffset, ".");
}
// check all indices match value length
for (int i = 0; i < numMasks; ++i) {
auto& values = Input(i * 2 + 1);
CAFFE_ENFORCE_EQ(
values.numel(),
nextValueIndices[i],
"The number of true at mask ",
i,
" does not match the corresponding value size.");
}
return true;
}
REGISTER_CPU_OPERATOR(BooleanUnmask, BooleanUnmaskOp<CPUContext>);
OPERATOR_SCHEMA(BooleanUnmask)
.NumInputs([](int n) { return n > 0 && n % 2 == 0; })
.NumOutputs(1)
.SetDoc(R"DOC(
Given a series of masks and values, reconstruct values together according to masks. A comprehensive example:
```
mask1 = True, False, True, False, False
values1 = 1.0, 3.0
mask2 = False, True, False, False, False
values2 = 2.0
mask3 = False, False, False, True, True
values3 = 4.0, 5.0
```
Reconstruct by:
```
output = net.BooleanUnmask([mask1, values1, mask2, values2, mask3, values3], ["output"])
output = 1.0, 2.0, 3.0, 4.0, 5.0
```
Note that for all mask positions, there must be at least one True. This is not allowed:
```
mask1 = True, False
values1 = 1.0
mask2 = False, False
values2 =
output = net.BooleanUnmask([mask1, values1, mask2, values2], ["output"])
```
If there are multiple True values for a field, we accept the first value, and no longer expect a value for that location:
```
mask1 = True, False
values1 = 1.0
mask2 = True, True
values2 = 2.0
output = net.BooleanUnmask([mask1, values1, mask2, values2], ["output"])
output = 1.0, 2.0
```
*** Note that we alternate `data` and `mask` inputs
Github Links:
- https://github.com/pytorch/pytorch/blob/main/caffe2/operators/boolean_unmask_ops.cc
<details>
<summary> <b>Example</b> </summary>
**Code**
```
workspace.ResetWorkspace()
op = core.CreateOperator(
"BooleanUnmask",
["mask1", "data1", "mask2", "data2"],
["unmasked_data"]
)
workspace.FeedBlob("mask1", np.array([True,False,False,True,True,False]))
workspace.FeedBlob("data1", np.array([1,4,5]))
workspace.FeedBlob("mask2", np.array([False,True,True,False,False,True]))
workspace.FeedBlob("data2", np.array([2,3,6]))
print("data1:", workspace.FetchBlob("data1"))
print("mask1:", workspace.FetchBlob("mask1"))
print("data2:", workspace.FetchBlob("data2"))
print("mask2:", workspace.FetchBlob("mask2"))
workspace.RunOperatorOnce(op)
print("unmasked_data:", workspace.FetchBlob("unmasked_data"))
```
**Result**
```
data1: [1 4 5]
mask1: [ True False False True True False]
data2: [2 3 6]
mask2: [False True True False False True]
unmasked_data: [1 2 3 4 5 6]
```
</details>
)DOC")
.Input(0,"data","(*Tensor*): 1D input tensor(s)")
.Input(1,"mask","(*Tensor`<bool>`*): 1D boolean mask tensor(s)")
.Output(0, "unmasked_data", "(*Tensor*): 1D tensor of same type as `data` input that contains the unmasked input tensor");
NO_GRADIENT(BooleanUnmask)
}