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Bug #4315 : fix CUDA bitwise operations with mask

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This commit is contained in:
Vladislav Vinogradov 2015-05-06 13:28:08 +03:00
parent 90c3d7d361
commit d87c30dc84
3 changed files with 303 additions and 135 deletions
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40
modules/gpu/src/cuda/element_operations.cu
View File

@ -1896,53 +1896,53 @@ namespace cv { namespace gpu { namespace device
namespace arithm
{
template <typename T> void bitMatNot(PtrStepSzb src, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream)
template <typename T> void bitMatNot(PtrStepSzb src, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream)
{
if (mask.data)
transform((PtrStepSz<T>) src, (PtrStepSz<T>) dst, bit_not<T>(), mask, stream);
transform((PtrStepSz<T>) src, (PtrStepSz<T>) dst, bit_not<T>(), SingleMaskChannels(mask, num_channels), stream);
else
transform((PtrStepSz<T>) src, (PtrStepSz<T>) dst, bit_not<T>(), WithOutMask(), stream);
}
template <typename T> void bitMatAnd(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream)
template <typename T> void bitMatAnd(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream)
{
if (mask.data)
transform((PtrStepSz<T>) src1, (PtrStepSz<T>) src2, (PtrStepSz<T>) dst, bit_and<T>(), mask, stream);
transform((PtrStepSz<T>) src1, (PtrStepSz<T>) src2, (PtrStepSz<T>) dst, bit_and<T>(), SingleMaskChannels(mask, num_channels), stream);
else
transform((PtrStepSz<T>) src1, (PtrStepSz<T>) src2, (PtrStepSz<T>) dst, bit_and<T>(), WithOutMask(), stream);
}
template <typename T> void bitMatOr(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream)
template <typename T> void bitMatOr(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream)
{
if (mask.data)
transform((PtrStepSz<T>) src1, (PtrStepSz<T>) src2, (PtrStepSz<T>) dst, bit_or<T>(), mask, stream);
transform((PtrStepSz<T>) src1, (PtrStepSz<T>) src2, (PtrStepSz<T>) dst, bit_or<T>(), SingleMaskChannels(mask, num_channels), stream);
else
transform((PtrStepSz<T>) src1, (PtrStepSz<T>) src2, (PtrStepSz<T>) dst, bit_or<T>(), WithOutMask(), stream);
}
template <typename T> void bitMatXor(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream)
template <typename T> void bitMatXor(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream)
{
if (mask.data)
transform((PtrStepSz<T>) src1, (PtrStepSz<T>) src2, (PtrStepSz<T>) dst, bit_xor<T>(), mask, stream);
transform((PtrStepSz<T>) src1, (PtrStepSz<T>) src2, (PtrStepSz<T>) dst, bit_xor<T>(), SingleMaskChannels(mask, num_channels), stream);
else
transform((PtrStepSz<T>) src1, (PtrStepSz<T>) src2, (PtrStepSz<T>) dst, bit_xor<T>(), WithOutMask(), stream);
}
template void bitMatNot<uchar>(PtrStepSzb src, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template void bitMatNot<ushort>(PtrStepSzb src, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template void bitMatNot<uint>(PtrStepSzb src, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template void bitMatNot<uchar>(PtrStepSzb src, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template void bitMatNot<ushort>(PtrStepSzb src, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template void bitMatNot<uint>(PtrStepSzb src, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template void bitMatAnd<uchar>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template void bitMatAnd<ushort>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template void bitMatAnd<uint>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template void bitMatAnd<uchar>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template void bitMatAnd<ushort>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template void bitMatAnd<uint>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template void bitMatOr<uchar>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template void bitMatOr<ushort>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template void bitMatOr<uint>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template void bitMatOr<uchar>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template void bitMatOr<ushort>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template void bitMatOr<uint>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template void bitMatXor<uchar>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template void bitMatXor<ushort>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template void bitMatXor<uint>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template void bitMatXor<uchar>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template void bitMatXor<ushort>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template void bitMatXor<uint>(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
}
//////////////////////////////////////////////////////////////////////////////////////

339
modules/gpu/src/element_operations.cpp
View File

@ -1955,7 +1955,7 @@ void cv::gpu::compare(const GpuMat& src, Scalar sc, GpuMat& dst, int cmpop, Stre
namespace arithm
{
template <typename T> void bitMatNot(PtrStepSzb src, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template <typename T> void bitMatNot(PtrStepSzb src, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
}
void cv::gpu::bitwise_not(const GpuMat& src, GpuMat& dst, const GpuMat& mask, Stream& s)
@ -1964,39 +1964,73 @@ void cv::gpu::bitwise_not(const GpuMat& src, GpuMat& dst, const GpuMat& mask, St
const int depth = src.depth();
CV_Assert( depth <= CV_64F );
CV_Assert( depth < CV_32F );
CV_Assert( mask.empty() || (mask.type() == CV_8UC1 && mask.size() == src.size()) );
dst.create(src.size(), src.type());
cudaStream_t stream = StreamAccessor::getStream(s);
const int bcols = (int) (src.cols * src.elemSize());
if ((bcols & 3) == 0)
if (mask.empty())
{
const int vcols = bcols >> 2;
const int bcols = (int) (src.cols * src.elemSize());
bool aligned =
isAligned(src.data, sizeof(unsigned int)) &&
isAligned(dst.data, sizeof(unsigned int));
bitMatNot<unsigned int>(
PtrStepSzb(src.rows, vcols, src.data, src.step),
PtrStepSzb(src.rows, vcols, dst.data, dst.step),
mask, stream);
}
else if ((bcols & 1) == 0)
{
const int vcols = bcols >> 1;
if (aligned && (bcols & 3) == 0)
{
const int vcols = bcols >> 2;
bitMatNot<unsigned short>(
PtrStepSzb(src.rows, vcols, src.data, src.step),
PtrStepSzb(src.rows, vcols, dst.data, dst.step),
mask, stream);
bitMatNot<unsigned int>(
PtrStepSzb(src.rows, vcols, src.data, src.step),
PtrStepSzb(src.rows, vcols, dst.data, dst.step),
PtrStepb(), 1, stream);
}
else if (aligned && (bcols & 1) == 0)
{
const int vcols = bcols >> 1;
bitMatNot<unsigned short>(
PtrStepSzb(src.rows, vcols, src.data, src.step),
PtrStepSzb(src.rows, vcols, dst.data, dst.step),
PtrStepb(), 1, stream);
}
else
{
bitMatNot<unsigned char>(
PtrStepSzb(src.rows, bcols, src.data, src.step),
PtrStepSzb(src.rows, bcols, dst.data, dst.step),
PtrStepb(), 1, stream);
}
}
else
{
bitMatNot<unsigned char>(
PtrStepSzb(src.rows, bcols, src.data, src.step),
PtrStepSzb(src.rows, bcols, dst.data, dst.step),
mask, stream);
const int elem_size = src.elemSize1();
const int num_channels = src.channels();
const int bcols = src.cols * num_channels;
if (elem_size == 1)
{
bitMatNot<unsigned char>(
PtrStepSzb(src.rows, bcols, src.data, src.step),
PtrStepSzb(src.rows, bcols, dst.data, dst.step),
mask, num_channels, stream);
}
else if (elem_size == 2)
{
bitMatNot<unsigned short>(
PtrStepSzb(src.rows, bcols, src.data, src.step),
PtrStepSzb(src.rows, bcols, dst.data, dst.step),
mask, num_channels, stream);
}
else if (elem_size == 4)
{
bitMatNot<unsigned int>(
PtrStepSzb(src.rows, bcols, src.data, src.step),
PtrStepSzb(src.rows, bcols, dst.data, dst.step),
mask, num_channels, stream);
}
}
}
@ -2005,9 +2039,9 @@ void cv::gpu::bitwise_not(const GpuMat& src, GpuMat& dst, const GpuMat& mask, St
namespace arithm
{
template <typename T> void bitMatAnd(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template <typename T> void bitMatOr(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template <typename T> void bitMatXor(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, cudaStream_t stream);
template <typename T> void bitMatAnd(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template <typename T> void bitMatOr(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
template <typename T> void bitMatXor(PtrStepSzb src1, PtrStepSzb src2, PtrStepSzb dst, PtrStepb mask, int num_channels, cudaStream_t stream);
}
void cv::gpu::bitwise_and(const GpuMat& src1, const GpuMat& src2, GpuMat& dst, const GpuMat& mask, Stream& s)
@ -2016,7 +2050,7 @@ void cv::gpu::bitwise_and(const GpuMat& src1, const GpuMat& src2, GpuMat& dst, c
const int depth = src1.depth();
CV_Assert( depth <= CV_64F );
CV_Assert( depth < CV_32F );
CV_Assert( src2.size() == src1.size() && src2.type() == src1.type() );
CV_Assert( mask.empty() || (mask.type() == CV_8UC1 && mask.size() == src1.size()) );
@ -2024,36 +2058,73 @@ void cv::gpu::bitwise_and(const GpuMat& src1, const GpuMat& src2, GpuMat& dst, c
cudaStream_t stream = StreamAccessor::getStream(s);
const int bcols = (int) (src1.cols * src1.elemSize());
if ((bcols & 3) == 0)
if (mask.empty())
{
const int vcols = bcols >> 2;
const int bcols = (int) (src1.cols * src1.elemSize());
bool aligned =
isAligned(src1.data, sizeof(unsigned int)) &&
isAligned(src2.data, sizeof(unsigned int)) &&
isAligned(dst.data, sizeof(unsigned int));
bitMatAnd<unsigned int>(
PtrStepSzb(src1.rows, vcols, src1.data, src1.step),
PtrStepSzb(src1.rows, vcols, src2.data, src2.step),
PtrStepSzb(src1.rows, vcols, dst.data, dst.step),
mask, stream);
}
else if ((bcols & 1) == 0)
{
const int vcols = bcols >> 1;
if (aligned && (bcols & 3) == 0)
{
const int vcols = bcols >> 2;
bitMatAnd<unsigned short>(
PtrStepSzb(src1.rows, vcols, src1.data, src1.step),
PtrStepSzb(src1.rows, vcols, src2.data, src2.step),
PtrStepSzb(src1.rows, vcols, dst.data, dst.step),
mask, stream);
bitMatAnd<unsigned int>(
PtrStepSzb(src1.rows, vcols, src1.data, src1.step),
PtrStepSzb(src1.rows, vcols, src2.data, src2.step),
PtrStepSzb(src1.rows, vcols, dst.data, dst.step),
PtrStepb(), 1, stream);
}
else if (aligned && (bcols & 1) == 0)
{
const int vcols = bcols >> 1;
bitMatAnd<unsigned short>(
PtrStepSzb(src1.rows, vcols, src1.data, src1.step),
PtrStepSzb(src1.rows, vcols, src2.data, src2.step),
PtrStepSzb(src1.rows, vcols, dst.data, dst.step),
PtrStepb(), 1, stream);
}
else
{
bitMatAnd<unsigned char>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
PtrStepb(), 1, stream);
}
}
else
{
const int elem_size = src1.elemSize1();
const int num_channels = src1.channels();
const int bcols = src1.cols * num_channels;
bitMatAnd<unsigned char>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
mask, stream);
if (elem_size == 1)
{
bitMatAnd<unsigned char>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
mask, num_channels, stream);
}
else if (elem_size == 2)
{
bitMatAnd<unsigned short>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
mask, num_channels, stream);
}
else if (elem_size == 4)
{
bitMatAnd<unsigned int>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
mask, num_channels, stream);
}
}
}
@ -2063,7 +2134,7 @@ void cv::gpu::bitwise_or(const GpuMat& src1, const GpuMat& src2, GpuMat& dst, co
const int depth = src1.depth();
CV_Assert( depth <= CV_64F );
CV_Assert( depth < CV_32F );
CV_Assert( src2.size() == src1.size() && src2.type() == src1.type() );
CV_Assert( mask.empty() || (mask.type() == CV_8UC1 && mask.size() == src1.size()) );
@ -2071,36 +2142,73 @@ void cv::gpu::bitwise_or(const GpuMat& src1, const GpuMat& src2, GpuMat& dst, co
cudaStream_t stream = StreamAccessor::getStream(s);
const int bcols = (int) (src1.cols * src1.elemSize());
if ((bcols & 3) == 0)
if (mask.empty())
{
const int vcols = bcols >> 2;
const int bcols = (int) (src1.cols * src1.elemSize());
bool aligned =
isAligned(src1.data, sizeof(unsigned int)) &&
isAligned(src2.data, sizeof(unsigned int)) &&
isAligned(dst.data, sizeof(unsigned int));
bitMatOr<unsigned int>(
PtrStepSzb(src1.rows, vcols, src1.data, src1.step),
PtrStepSzb(src1.rows, vcols, src2.data, src2.step),
PtrStepSzb(src1.rows, vcols, dst.data, dst.step),
mask, stream);
}
else if ((bcols & 1) == 0)
{
const int vcols = bcols >> 1;
if (aligned && (bcols & 3) == 0)
{
const int vcols = bcols >> 2;
bitMatOr<unsigned short>(
PtrStepSzb(src1.rows, vcols, src1.data, src1.step),
PtrStepSzb(src1.rows, vcols, src2.data, src2.step),
PtrStepSzb(src1.rows, vcols, dst.data, dst.step),
mask, stream);
bitMatOr<unsigned int>(
PtrStepSzb(src1.rows, vcols, src1.data, src1.step),
PtrStepSzb(src1.rows, vcols, src2.data, src2.step),
PtrStepSzb(src1.rows, vcols, dst.data, dst.step),
PtrStepb(), 1, stream);
}
else if (aligned && (bcols & 1) == 0)
{
const int vcols = bcols >> 1;
bitMatOr<unsigned short>(
PtrStepSzb(src1.rows, vcols, src1.data, src1.step),
PtrStepSzb(src1.rows, vcols, src2.data, src2.step),
PtrStepSzb(src1.rows, vcols, dst.data, dst.step),
PtrStepb(), 1, stream);
}
else
{
bitMatOr<unsigned char>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
PtrStepb(), 1, stream);
}
}
else
{
const int elem_size = src1.elemSize1();
const int num_channels = src1.channels();
const int bcols = src1.cols * num_channels;
bitMatOr<unsigned char>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
mask, stream);
if (elem_size == 1)
{
bitMatOr<unsigned char>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
mask, num_channels, stream);
}
else if (elem_size == 2)
{
bitMatOr<unsigned short>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
mask, num_channels, stream);
}
else if (elem_size == 4)
{
bitMatOr<unsigned int>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
mask, num_channels, stream);
}
}
}
@ -2110,7 +2218,7 @@ void cv::gpu::bitwise_xor(const GpuMat& src1, const GpuMat& src2, GpuMat& dst, c
const int depth = src1.depth();
CV_Assert( depth <= CV_64F );
CV_Assert( depth < CV_32F );
CV_Assert( src2.size() == src1.size() && src2.type() == src1.type() );
CV_Assert( mask.empty() || (mask.type() == CV_8UC1 && mask.size() == src1.size()) );
@ -2118,36 +2226,73 @@ void cv::gpu::bitwise_xor(const GpuMat& src1, const GpuMat& src2, GpuMat& dst, c
cudaStream_t stream = StreamAccessor::getStream(s);
const int bcols = (int) (src1.cols * src1.elemSize());
if ((bcols & 3) == 0)
if (mask.empty())
{
const int vcols = bcols >> 2;
const int bcols = (int) (src1.cols * src1.elemSize());
bool aligned =
isAligned(src1.data, sizeof(unsigned int)) &&
isAligned(src2.data, sizeof(unsigned int)) &&
isAligned(dst.data, sizeof(unsigned int));
bitMatXor<unsigned int>(
PtrStepSzb(src1.rows, vcols, src1.data, src1.step),
PtrStepSzb(src1.rows, vcols, src2.data, src2.step),
PtrStepSzb(src1.rows, vcols, dst.data, dst.step),
mask, stream);
}
else if ((bcols & 1) == 0)
{
const int vcols = bcols >> 1;
if (aligned && (bcols & 3) == 0)
{
const int vcols = bcols >> 2;
bitMatXor<unsigned short>(
PtrStepSzb(src1.rows, vcols, src1.data, src1.step),
PtrStepSzb(src1.rows, vcols, src2.data, src2.step),
PtrStepSzb(src1.rows, vcols, dst.data, dst.step),
mask, stream);
bitMatXor<unsigned int>(
PtrStepSzb(src1.rows, vcols, src1.data, src1.step),
PtrStepSzb(src1.rows, vcols, src2.data, src2.step),
PtrStepSzb(src1.rows, vcols, dst.data, dst.step),
PtrStepb(), 1, stream);
}
else if (aligned && (bcols & 1) == 0)
{
const int vcols = bcols >> 1;
bitMatXor<unsigned short>(
PtrStepSzb(src1.rows, vcols, src1.data, src1.step),
PtrStepSzb(src1.rows, vcols, src2.data, src2.step),
PtrStepSzb(src1.rows, vcols, dst.data, dst.step),
PtrStepb(), 1, stream);
}
else
{
bitMatXor<unsigned char>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
PtrStepb(), 1, stream);
}
}
else
{
const int elem_size = src1.elemSize1();
const int num_channels = src1.channels();
const int bcols = src1.cols * num_channels;
bitMatXor<unsigned char>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
mask, stream);
if (elem_size == 1)
{
bitMatXor<unsigned char>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
mask, num_channels, stream);
}
else if (elem_size == 2)
{
bitMatXor<unsigned short>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
mask, num_channels, stream);
}
else if (elem_size == 4)
{
bitMatXor<unsigned int>(
PtrStepSzb(src1.rows, bcols, src1.data, src1.step),
PtrStepSzb(src1.rows, bcols, src2.data, src2.step),
PtrStepSzb(src1.rows, bcols, dst.data, dst.step),
mask, num_channels, stream);
}
}
}

59
modules/gpu/test/test_core.cpp
View File

@ -1785,72 +1785,95 @@ INSTANTIATE_TEST_CASE_P(GPU_Core, Compare_Scalar, testing::Combine(
//////////////////////////////////////////////////////////////////////////////
// Bitwise_Array
PARAM_TEST_CASE(Bitwise_Array, cv::gpu::DeviceInfo, cv::Size, MatType)
PARAM_TEST_CASE(Bitwise_Array, cv::gpu::DeviceInfo, cv::Size, MatType, UseRoi)
{
cv::gpu::DeviceInfo devInfo;
cv::Size size;
int type;
bool useRoi;
cv::Mat src1;
cv::Mat src2;
cv::Mat mask;
virtual void SetUp()
{
devInfo = GET_PARAM(0);
size = GET_PARAM(1);
type = GET_PARAM(2);
useRoi = GET_PARAM(3);
cv::gpu::setDevice(devInfo.deviceID());
src1 = randomMat(size, type, 0.0, std::numeric_limits<int>::max());
src2 = randomMat(size, type, 0.0, std::numeric_limits<int>::max());
mask = randomMat(size, CV_8UC1, 0.0, 2.0);
}
};
GPU_TEST_P(Bitwise_Array, Not)
{
cv::gpu::GpuMat dst;
cv::gpu::bitwise_not(loadMat(src1), dst);
cv::gpu::GpuMat dst_nomask, dst_mask(src1.size(), src1.type(), cv::Scalar::all(0));
cv::gpu::bitwise_not(loadMat(src1, useRoi), dst_nomask);
cv::gpu::bitwise_not(loadMat(src1, useRoi), dst_mask, loadMat(mask, useRoi));
cv::Mat dst_gold = ~src1;
cv::Mat dst_gold_nomask, dst_gold_mask(src1.size(), src1.type(), cv::Scalar::all(0));
cv::bitwise_not(src1, dst_gold_nomask);
cv::bitwise_not(src1, dst_gold_mask, mask);
EXPECT_MAT_NEAR(dst_gold, dst, 0.0);
EXPECT_MAT_NEAR(dst_gold_nomask, dst_nomask, 0.0);
EXPECT_MAT_NEAR(dst_gold_mask, dst_mask, 0.0);
}
GPU_TEST_P(Bitwise_Array, Or)
{
cv::gpu::GpuMat dst;
cv::gpu::bitwise_or(loadMat(src1), loadMat(src2), dst);
cv::gpu::GpuMat dst_nomask, dst_mask(src1.size(), src1.type(), cv::Scalar::all(0));
cv::gpu::bitwise_or(loadMat(src1, useRoi), loadMat(src2, useRoi), dst_nomask);
cv::gpu::bitwise_or(loadMat(src1, useRoi), loadMat(src2, useRoi), dst_mask, loadMat(mask, useRoi));
cv::Mat dst_gold = src1 | src2;
cv::Mat dst_gold_nomask, dst_gold_mask(src1.size(), src1.type(), cv::Scalar::all(0));
cv::bitwise_or(src1, src2, dst_gold_nomask);
cv::bitwise_or(src1, src2, dst_gold_mask, mask);
EXPECT_MAT_NEAR(dst_gold, dst, 0.0);
EXPECT_MAT_NEAR(dst_gold_nomask, dst_nomask, 0.0);
EXPECT_MAT_NEAR(dst_gold_mask, dst_mask, 0.0);
}
GPU_TEST_P(Bitwise_Array, And)
{
cv::gpu::GpuMat dst;
cv::gpu::bitwise_and(loadMat(src1), loadMat(src2), dst);
cv::gpu::GpuMat dst_nomask, dst_mask(src1.size(), src1.type(), cv::Scalar::all(0));
cv::gpu::bitwise_and(loadMat(src1, useRoi), loadMat(src2, useRoi), dst_nomask);
cv::gpu::bitwise_and(loadMat(src1, useRoi), loadMat(src2, useRoi), dst_mask, loadMat(mask, useRoi));
cv::Mat dst_gold = src1 & src2;
cv::Mat dst_gold_nomask, dst_gold_mask(src1.size(), src1.type(), cv::Scalar::all(0));
cv::bitwise_and(src1, src2, dst_gold_nomask);
cv::bitwise_and(src1, src2, dst_gold_mask, mask);
EXPECT_MAT_NEAR(dst_gold, dst, 0.0);
EXPECT_MAT_NEAR(dst_gold_nomask, dst_nomask, 0.0);
EXPECT_MAT_NEAR(dst_gold_mask, dst_mask, 0.0);
}
GPU_TEST_P(Bitwise_Array, Xor)
{
cv::gpu::GpuMat dst;
cv::gpu::bitwise_xor(loadMat(src1), loadMat(src2), dst);
cv::gpu::GpuMat dst_nomask, dst_mask(src1.size(), src1.type(), cv::Scalar::all(0));
cv::gpu::bitwise_xor(loadMat(src1, useRoi), loadMat(src2, useRoi), dst_nomask);
cv::gpu::bitwise_xor(loadMat(src1, useRoi), loadMat(src2, useRoi), dst_mask, loadMat(mask, useRoi));
cv::Mat dst_gold = src1 ^ src2;
cv::Mat dst_gold_nomask, dst_gold_mask(src1.size(), src1.type(), cv::Scalar::all(0));
cv::bitwise_xor(src1, src2, dst_gold_nomask);
cv::bitwise_xor(src1, src2, dst_gold_mask, mask);
EXPECT_MAT_NEAR(dst_gold, dst, 0.0);
EXPECT_MAT_NEAR(dst_gold_nomask, dst_nomask, 0.0);
EXPECT_MAT_NEAR(dst_gold_mask, dst_mask, 0.0);
}
INSTANTIATE_TEST_CASE_P(GPU_Core, Bitwise_Array, testing::Combine(
ALL_DEVICES,
DIFFERENT_SIZES,
TYPES(CV_8U, CV_32S, 1, 4)));
TYPES(CV_8U, CV_32S, 1, 4),
WHOLE_SUBMAT));
//////////////////////////////////////////////////////////////////////////////
// Bitwise_Scalar