cuda-samples/Samples/5_Domain_Specific/HSOpticalFlow/derivativesKernel.cuh

/* Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *  * Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 *  * Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *  * Neither the name of NVIDIA CORPORATION nor the names of its
 *    contributors may be used to endorse or promote products derived
 *    from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ``AS IS'' AND ANY
 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT OWNER OR
 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
 * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

#include "common.h"

///////////////////////////////////////////////////////////////////////////////
/// \brief compute image derivatives
///
/// CUDA kernel, relies heavily on texture unit
/// \param[in]  width   image width
/// \param[in]  height  image height
/// \param[in]  stride  image stride
/// \param[out] Ix      x derivative
/// \param[out] Iy      y derivative
/// \param[out] Iz      temporal derivative
///////////////////////////////////////////////////////////////////////////////
__global__ void ComputeDerivativesKernel(int width, int height, int stride,
                                         float *Ix, float *Iy, float *Iz,
                                         cudaTextureObject_t texSource,
                                         cudaTextureObject_t texTarget) {
  const int ix = threadIdx.x + blockIdx.x * blockDim.x;
  const int iy = threadIdx.y + blockIdx.y * blockDim.y;

  const int pos = ix + iy * stride;

  if (ix >= width || iy >= height) return;

  float dx = 1.0f / (float)width;
  float dy = 1.0f / (float)height;

  float x = ((float)ix + 0.5f) * dx;
  float y = ((float)iy + 0.5f) * dy;

  float t0, t1;
  // x derivative
  t0 = tex2D<float>(texSource, x - 2.0f * dx, y);
  t0 -= tex2D<float>(texSource, x - 1.0f * dx, y) * 8.0f;
  t0 += tex2D<float>(texSource, x + 1.0f * dx, y) * 8.0f;
  t0 -= tex2D<float>(texSource, x + 2.0f * dx, y);
  t0 /= 12.0f;

  t1 = tex2D<float>(texTarget, x - 2.0f * dx, y);
  t1 -= tex2D<float>(texTarget, x - 1.0f * dx, y) * 8.0f;
  t1 += tex2D<float>(texTarget, x + 1.0f * dx, y) * 8.0f;
  t1 -= tex2D<float>(texTarget, x + 2.0f * dx, y);
  t1 /= 12.0f;

  Ix[pos] = (t0 + t1) * 0.5f;

  // t derivative
  Iz[pos] = tex2D<float>(texTarget, x, y) - tex2D<float>(texSource, x, y);

  // y derivative
  t0 = tex2D<float>(texSource, x, y - 2.0f * dy);
  t0 -= tex2D<float>(texSource, x, y - 1.0f * dy) * 8.0f;
  t0 += tex2D<float>(texSource, x, y + 1.0f * dy) * 8.0f;
  t0 -= tex2D<float>(texSource, x, y + 2.0f * dy);
  t0 /= 12.0f;

  t1 = tex2D<float>(texTarget, x, y - 2.0f * dy);
  t1 -= tex2D<float>(texTarget, x, y - 1.0f * dy) * 8.0f;
  t1 += tex2D<float>(texTarget, x, y + 1.0f * dy) * 8.0f;
  t1 -= tex2D<float>(texTarget, x, y + 2.0f * dy);
  t1 /= 12.0f;

  Iy[pos] = (t0 + t1) * 0.5f;
}

///////////////////////////////////////////////////////////////////////////////
/// \brief compute image derivatives
///
/// \param[in]  I0  source image
/// \param[in]  I1  tracked image
/// \param[in]  w   image width
/// \param[in]  h   image height
/// \param[in]  s   image stride
/// \param[out] Ix  x derivative
/// \param[out] Iy  y derivative
/// \param[out] Iz  temporal derivative
///////////////////////////////////////////////////////////////////////////////
static void ComputeDerivatives(const float *I0, const float *I1, int w, int h,
                               int s, float *Ix, float *Iy, float *Iz) {
  dim3 threads(32, 6);
  dim3 blocks(iDivUp(w, threads.x), iDivUp(h, threads.y));

  cudaTextureObject_t texSource, texTarget;
  cudaResourceDesc texRes;
  memset(&texRes, 0, sizeof(cudaResourceDesc));

  texRes.resType = cudaResourceTypePitch2D;
  texRes.res.pitch2D.devPtr = (void *)I0;
  texRes.res.pitch2D.desc = cudaCreateChannelDesc<float>();
  texRes.res.pitch2D.width = w;
  texRes.res.pitch2D.height = h;
  texRes.res.pitch2D.pitchInBytes = s * sizeof(float);

  cudaTextureDesc texDescr;
  memset(&texDescr, 0, sizeof(cudaTextureDesc));

  texDescr.normalizedCoords = true;
  texDescr.filterMode = cudaFilterModeLinear;
  texDescr.addressMode[0] = cudaAddressModeMirror;
  texDescr.addressMode[1] = cudaAddressModeMirror;
  texDescr.readMode = cudaReadModeElementType;

  checkCudaErrors(
      cudaCreateTextureObject(&texSource, &texRes, &texDescr, NULL));
  memset(&texRes, 0, sizeof(cudaResourceDesc));
  texRes.resType = cudaResourceTypePitch2D;
  texRes.res.pitch2D.devPtr = (void *)I1;
  texRes.res.pitch2D.desc = cudaCreateChannelDesc<float>();
  texRes.res.pitch2D.width = w;
  texRes.res.pitch2D.height = h;
  texRes.res.pitch2D.pitchInBytes = s * sizeof(float);
  checkCudaErrors(
      cudaCreateTextureObject(&texTarget, &texRes, &texDescr, NULL));

  ComputeDerivativesKernel<<<blocks, threads>>>(w, h, s, Ix, Iy, Iz, texSource,
                                                texTarget);
}
add and update samples for CUDA 11.6 2022-01-13 14:05:24 +08:00			`/* Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved.`
add and update samples for CUDA 11.5 2021-10-21 19:04:49 +08:00			`*`
			`* Redistribution and use in source and binary forms, with or without`
			`* modification, are permitted provided that the following conditions`
			`* are met:`
			`* * Redistributions of source code must retain the above copyright`
			`* notice, this list of conditions and the following disclaimer.`
			`* * Redistributions in binary form must reproduce the above copyright`
			`* notice, this list of conditions and the following disclaimer in the`
			`* documentation and/or other materials provided with the distribution.`
			`* * Neither the name of NVIDIA CORPORATION nor the names of its`
			`* contributors may be used to endorse or promote products derived`
			`* from this software without specific prior written permission.`
			`*`
			* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ``AS IS'' AND ANY
			`* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE`
			`* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR`
			`* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR`
			`* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,`
			`* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,`
			`* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR`
			`* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY`
			`* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT`
			`* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE`
			`* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.`
			`*/`

			`#include "common.h"`

			`///////////////////////////////////////////////////////////////////////////////`
			`/// \brief compute image derivatives`
			`///`
			`/// CUDA kernel, relies heavily on texture unit`
			`/// \param[in] width image width`
			`/// \param[in] height image height`
			`/// \param[in] stride image stride`
			`/// \param[out] Ix x derivative`
			`/// \param[out] Iy y derivative`
			`/// \param[out] Iz temporal derivative`
			`///////////////////////////////////////////////////////////////////////////////`
			`__global__ void ComputeDerivativesKernel(int width, int height, int stride,`
			`float Ix, float Iy, float *Iz,`
			`cudaTextureObject_t texSource,`
			`cudaTextureObject_t texTarget) {`
			`const int ix = threadIdx.x + blockIdx.x * blockDim.x;`
			`const int iy = threadIdx.y + blockIdx.y * blockDim.y;`

			`const int pos = ix + iy * stride;`

			`if (ix >= width \|\| iy >= height) return;`

			`float dx = 1.0f / (float)width;`
			`float dy = 1.0f / (float)height;`

			`float x = ((float)ix + 0.5f) * dx;`
			`float y = ((float)iy + 0.5f) * dy;`

			`float t0, t1;`
			`// x derivative`
			`t0 = tex2D<float>(texSource, x - 2.0f * dx, y);`
			`t0 -= tex2D<float>(texSource, x - 1.0f * dx, y) * 8.0f;`
			`t0 += tex2D<float>(texSource, x + 1.0f * dx, y) * 8.0f;`
			`t0 -= tex2D<float>(texSource, x + 2.0f * dx, y);`
			`t0 /= 12.0f;`

			`t1 = tex2D<float>(texTarget, x - 2.0f * dx, y);`
			`t1 -= tex2D<float>(texTarget, x - 1.0f * dx, y) * 8.0f;`
			`t1 += tex2D<float>(texTarget, x + 1.0f * dx, y) * 8.0f;`
			`t1 -= tex2D<float>(texTarget, x + 2.0f * dx, y);`
			`t1 /= 12.0f;`

			`Ix[pos] = (t0 + t1) * 0.5f;`

			`// t derivative`
			`Iz[pos] = tex2D<float>(texTarget, x, y) - tex2D<float>(texSource, x, y);`

			`// y derivative`
			`t0 = tex2D<float>(texSource, x, y - 2.0f * dy);`
			`t0 -= tex2D<float>(texSource, x, y - 1.0f * dy) * 8.0f;`
			`t0 += tex2D<float>(texSource, x, y + 1.0f * dy) * 8.0f;`
			`t0 -= tex2D<float>(texSource, x, y + 2.0f * dy);`
			`t0 /= 12.0f;`

			`t1 = tex2D<float>(texTarget, x, y - 2.0f * dy);`
			`t1 -= tex2D<float>(texTarget, x, y - 1.0f * dy) * 8.0f;`
			`t1 += tex2D<float>(texTarget, x, y + 1.0f * dy) * 8.0f;`
			`t1 -= tex2D<float>(texTarget, x, y + 2.0f * dy);`
			`t1 /= 12.0f;`

			`Iy[pos] = (t0 + t1) * 0.5f;`
			`}`

			`///////////////////////////////////////////////////////////////////////////////`
			`/// \brief compute image derivatives`
			`///`
			`/// \param[in] I0 source image`
			`/// \param[in] I1 tracked image`
			`/// \param[in] w image width`
			`/// \param[in] h image height`
			`/// \param[in] s image stride`
			`/// \param[out] Ix x derivative`
			`/// \param[out] Iy y derivative`
			`/// \param[out] Iz temporal derivative`
			`///////////////////////////////////////////////////////////////////////////////`
			`static void ComputeDerivatives(const float I0, const float I1, int w, int h,`
			`int s, float Ix, float Iy, float *Iz) {`
			`dim3 threads(32, 6);`
			`dim3 blocks(iDivUp(w, threads.x), iDivUp(h, threads.y));`

			`cudaTextureObject_t texSource, texTarget;`
			`cudaResourceDesc texRes;`
			`memset(&texRes, 0, sizeof(cudaResourceDesc));`

			`texRes.resType = cudaResourceTypePitch2D;`
			`texRes.res.pitch2D.devPtr = (void *)I0;`
			`texRes.res.pitch2D.desc = cudaCreateChannelDesc<float>();`
			`texRes.res.pitch2D.width = w;`
			`texRes.res.pitch2D.height = h;`
			`texRes.res.pitch2D.pitchInBytes = s * sizeof(float);`

			`cudaTextureDesc texDescr;`
			`memset(&texDescr, 0, sizeof(cudaTextureDesc));`

			`texDescr.normalizedCoords = true;`
			`texDescr.filterMode = cudaFilterModeLinear;`
			`texDescr.addressMode[0] = cudaAddressModeMirror;`
			`texDescr.addressMode[1] = cudaAddressModeMirror;`
			`texDescr.readMode = cudaReadModeElementType;`

			`checkCudaErrors(`
			`cudaCreateTextureObject(&texSource, &texRes, &texDescr, NULL));`
			`memset(&texRes, 0, sizeof(cudaResourceDesc));`
			`texRes.resType = cudaResourceTypePitch2D;`
			`texRes.res.pitch2D.devPtr = (void *)I1;`
			`texRes.res.pitch2D.desc = cudaCreateChannelDesc<float>();`
			`texRes.res.pitch2D.width = w;`
			`texRes.res.pitch2D.height = h;`
			`texRes.res.pitch2D.pitchInBytes = s * sizeof(float);`
			`checkCudaErrors(`
			`cudaCreateTextureObject(&texTarget, &texRes, &texDescr, NULL));`

			`ComputeDerivativesKernel<<<blocks, threads>>>(w, h, s, Ix, Iy, Iz, texSource,`
			`texTarget);`
			`}`