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//
// Copyright (c) 2017 The Khronos Group Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
#include <stdio.h>
#include <stdlib.h>
#include "harness/errorHelpers.h"
#include "harness/kernelHelpers.h"
#include "utils.h"
int kernel_functions(cl_device_id deviceID, cl_context context,
cl_command_queue queue, int num_elements,
unsigned int iterationNum, unsigned int width,
unsigned int height,
cl_dx9_media_adapter_type_khr adapterType,
TSurfaceFormat surfaceFormat,
TSharedHandleType sharedHandle)
{
const unsigned int FRAME_NUM = 2;
const cl_uchar MAX_VALUE = 255 / 2;
const std::string PROGRAM_STR =
"__kernel void TestFunction( read_only image2d_t planeIn, write_only "
"image2d_t planeOut, " NL " sampler_t "
"sampler, __global int *planeRes)" NL "{" NL
" int w = get_global_id(0);" NL " int h = get_global_id(1);" NL
" int width = get_image_width(planeIn);" NL
" int height = get_image_height(planeOut);" NL
" float4 color0 = read_imagef(planeIn, sampler, (int2)(w,h)) + "
"0.2f;" NL " float4 color1 = read_imagef(planeIn, sampler, "
"(float2)(w,h)) + 0.2f;" NL
" color0 = (color0 == color1) ? color0: (float4)(0.5, 0.5, 0.5, "
"0.5);" NL " write_imagef(planeOut, (int2)(w,h), color0);" NL
" if(w == 0 && h == 0)" NL " {" NL " planeRes[0] = width;" NL
" planeRes[1] = height;" NL " }" NL "}";
CResult result;
std::auto_ptr<CDeviceWrapper> deviceWrapper;
if (!DeviceCreate(adapterType, deviceWrapper))
{
result.ResultSub(CResult::TEST_ERROR);
return result.Result();
}
std::vector<std::vector<cl_uchar>> bufferIn(FRAME_NUM);
std::vector<std::vector<cl_uchar>> bufferExp(FRAME_NUM);
size_t frameSize = width * height * 3 / 2;
cl_uchar step = MAX_VALUE / FRAME_NUM;
for (size_t i = 0; i < FRAME_NUM; ++i)
{
if (!YUVGenerate(surfaceFormat, bufferIn[i], width, height,
static_cast<cl_uchar>(step * i),
static_cast<cl_uchar>(step * (i + 1)))
|| !YUVGenerate(surfaceFormat, bufferExp[i], width, height,
static_cast<cl_uchar>(step * i),
static_cast<cl_uchar>(step * (i + 1)), 0.2))
{
result.ResultSub(CResult::TEST_ERROR);
return result.Result();
}
}
while (deviceWrapper->AdapterNext())
{
cl_int error;
// check if the test can be run on the adapter
if (CL_SUCCESS
!= (error = deviceExistForCLTest(gPlatformIDdetected, adapterType,
deviceWrapper->Device(), result,
sharedHandle)))
{
return result.Result();
}
if (surfaceFormat != SURFACE_FORMAT_NV12
&& !SurfaceFormatCheck(adapterType, *deviceWrapper, surfaceFormat))
{
std::string sharedHandleStr =
(sharedHandle == SHARED_HANDLE_ENABLED) ? "yes" : "no";
std::string formatStr;
std::string adapterStr;
SurfaceFormatToString(surfaceFormat, formatStr);
AdapterToString(adapterType, adapterStr);
log_info(
"Skipping test case, image format is not supported by a device "
"(adapter type: %s, format: %s, shared handle: %s)\n",
adapterStr.c_str(), formatStr.c_str(), sharedHandleStr.c_str());
return result.Result();
}
void *objectSrcHandle = 0;
std::auto_ptr<CSurfaceWrapper> surfaceSrc;
if (!MediaSurfaceCreate(adapterType, width, height, surfaceFormat,
*deviceWrapper, surfaceSrc,
(sharedHandle == SHARED_HANDLE_ENABLED) ? true
: false,
&objectSrcHandle))
{
log_error("Media surface creation failed for %i adapter\n",
deviceWrapper->AdapterIdx());
result.ResultSub(CResult::TEST_ERROR);
return result.Result();
}
void *objectDstHandle = 0;
std::auto_ptr<CSurfaceWrapper> surfaceDst;
if (!MediaSurfaceCreate(adapterType, width, height, surfaceFormat,
*deviceWrapper, surfaceDst,
(sharedHandle == SHARED_HANDLE_ENABLED) ? true
: false,
&objectDstHandle))
{
log_error("Media surface creation failed for %i adapter\n",
deviceWrapper->AdapterIdx());
result.ResultSub(CResult::TEST_ERROR);
return result.Result();
}
cl_context_properties contextProperties[] = {
CL_CONTEXT_PLATFORM,
(cl_context_properties)gPlatformIDdetected,
AdapterTypeToContextInfo(adapterType),
(cl_context_properties)deviceWrapper->Device(),
0,
};
clContextWrapper ctx = clCreateContext(
&contextProperties[0], 1, &gDeviceIDdetected, NULL, NULL, &error);
if (error != CL_SUCCESS)
{
log_error("clCreateContext failed: %s\n", IGetErrorString(error));
result.ResultSub(CResult::TEST_FAIL);
return result.Result();
}
#if defined(_WIN32)
cl_dx9_surface_info_khr surfaceInfoSrc;
surfaceInfoSrc.resource =
*(static_cast<CD3D9SurfaceWrapper *>(surfaceSrc.get()));
surfaceInfoSrc.shared_handle = objectSrcHandle;
cl_dx9_surface_info_khr surfaceInfoDst;
surfaceInfoDst.resource =
*(static_cast<CD3D9SurfaceWrapper *>(surfaceDst.get()));
surfaceInfoDst.shared_handle = objectDstHandle;
#else
void *surfaceInfoSrc = 0;
void *surfaceInfoDst = 0;
return TEST_NOT_IMPLEMENTED;
#endif
std::vector<cl_mem> memObjSrcList;
std::vector<cl_mem> memObjDstList;
unsigned int planesNum = PlanesNum(surfaceFormat);
std::vector<clMemWrapper> planeSrcList(planesNum);
std::vector<clMemWrapper> planeDstList(planesNum);
for (unsigned int planeIdx = 0; planeIdx < planesNum; ++planeIdx)
{
planeSrcList[planeIdx] = clCreateFromDX9MediaSurfaceKHR(
ctx, CL_MEM_READ_WRITE, adapterType, &surfaceInfoSrc, planeIdx,
&error);
if (error != CL_SUCCESS)
{
log_error(
"clCreateFromDX9MediaSurfaceKHR failed for plane %i: %s\n",
planeIdx, IGetErrorString(error));
result.ResultSub(CResult::TEST_FAIL);
return result.Result();
}
memObjSrcList.push_back(planeSrcList[planeIdx]);
planeDstList[planeIdx] = clCreateFromDX9MediaSurfaceKHR(
ctx, CL_MEM_READ_WRITE, adapterType, &surfaceInfoDst, planeIdx,
&error);
if (error != CL_SUCCESS)
{
log_error(
"clCreateFromDX9MediaSurfaceKHR failed for plane %i: %s\n",
planeIdx, IGetErrorString(error));
result.ResultSub(CResult::TEST_FAIL);
return result.Result();
}
memObjDstList.push_back(planeDstList[planeIdx]);
}
clCommandQueueWrapper cmdQueue = clCreateCommandQueueWithProperties(
ctx, gDeviceIDdetected, 0, &error);
if (error != CL_SUCCESS)
{
log_error("Unable to create command queue: %s\n",
IGetErrorString(error));
result.ResultSub(CResult::TEST_FAIL);
return result.Result();
}
if (!ImageInfoVerify(adapterType, memObjSrcList, width, height,
surfaceSrc, objectSrcHandle))
{
log_error("Image info verification failed\n");
result.ResultSub(CResult::TEST_FAIL);
}
for (size_t frameIdx = 0; frameIdx < iterationNum; ++frameIdx)
{
if (!YUVSurfaceSet(surfaceFormat, surfaceSrc,
bufferIn[frameIdx % FRAME_NUM], width, height))
{
result.ResultSub(CResult::TEST_ERROR);
return result.Result();
}
error = clEnqueueAcquireDX9MediaSurfacesKHR(
cmdQueue, static_cast<cl_uint>(memObjSrcList.size()),
&memObjSrcList[0], 0, 0, 0);
if (error != CL_SUCCESS)
{
log_error("clEnqueueAcquireDX9MediaSurfacesKHR failed: %s\n",
IGetErrorString(error));
result.ResultSub(CResult::TEST_FAIL);
return result.Result();
}
error = clEnqueueAcquireDX9MediaSurfacesKHR(
cmdQueue, static_cast<cl_uint>(memObjDstList.size()),
&memObjDstList[0], 0, 0, 0);
if (error != CL_SUCCESS)
{
log_error("clEnqueueAcquireDX9MediaSurfacesKHR failed: %s\n",
IGetErrorString(error));
result.ResultSub(CResult::TEST_FAIL);
return result.Result();
}
clSamplerWrapper sampler = clCreateSampler(
ctx, CL_FALSE, CL_ADDRESS_NONE, CL_FILTER_NEAREST, &error);
if (error != CL_SUCCESS)
{
log_error("Unable to create sampler\n");
result.ResultSub(CResult::TEST_FAIL);
}
clProgramWrapper program;
clKernelWrapper kernel;
const char *progPtr = PROGRAM_STR.c_str();
if (create_single_kernel_helper(ctx, &program, &kernel, 1,
(const char **)&progPtr,
"TestFunction"))
result.ResultSub(CResult::TEST_FAIL);
size_t bufferSize = sizeof(cl_int) * 2;
clMemWrapper imageRes = clCreateBuffer(ctx, CL_MEM_READ_WRITE,
bufferSize, NULL, &error);
if (error != CL_SUCCESS)
{
log_error("clCreateBuffer failed: %s\n",
IGetErrorString(error));
result.ResultSub(CResult::TEST_FAIL);
}
size_t offset = 0;
size_t origin[3] = { 0, 0, 0 };
std::vector<cl_uchar> out(frameSize, 0);
for (size_t i = 0; i < memObjSrcList.size(); ++i)
{
size_t planeWidth = (i == 0) ? width : width / 2;
size_t planeHeight = (i == 0) ? height : height / 2;
size_t regionPlane[3] = { planeWidth, planeHeight, 1 };
size_t threads[2] = { planeWidth, planeHeight };
error = clSetKernelArg(kernel, 0, sizeof(memObjSrcList[i]),
&memObjSrcList[i]);
if (error != CL_SUCCESS)
{
log_error("Unable to set kernel arguments");
result.ResultSub(CResult::TEST_FAIL);
}
error = clSetKernelArg(kernel, 1, sizeof(memObjDstList[i]),
&memObjDstList[i]);
if (error != CL_SUCCESS)
{
log_error("Unable to set kernel arguments");
result.ResultSub(CResult::TEST_FAIL);
}
error = clSetKernelArg(kernel, 2, sizeof(sampler), &sampler);
if (error != CL_SUCCESS)
{
log_error("Unable to set kernel arguments");
result.ResultSub(CResult::TEST_FAIL);
}
error = clSetKernelArg(kernel, 3, sizeof(imageRes), &imageRes);
if (error != CL_SUCCESS)
{
log_error("Unable to set kernel arguments");
result.ResultSub(CResult::TEST_FAIL);
}
size_t localThreads[2];
error = get_max_common_2D_work_group_size(ctx, kernel, threads,
localThreads);
if (error != CL_SUCCESS)
{
log_error("Unable to get work group size to use");
result.ResultSub(CResult::TEST_FAIL);
}
error =
clEnqueueNDRangeKernel(cmdQueue, kernel, 2, NULL, threads,
localThreads, 0, NULL, NULL);
if (error != CL_SUCCESS)
{
log_error("Unable to execute test kernel");
result.ResultSub(CResult::TEST_FAIL);
}
std::vector<cl_uint> imageResOut(2, 0);
error = clEnqueueReadBuffer(cmdQueue, imageRes, CL_TRUE, 0,
bufferSize, &imageResOut[0], 0,
NULL, NULL);
if (error != CL_SUCCESS)
{
log_error("Unable to read buffer");
result.ResultSub(CResult::TEST_FAIL);
}
if (imageResOut[0] != planeWidth)
{
log_error("Invalid width value, test = %i, expected = %i\n",
imageResOut[0], planeWidth);
result.ResultSub(CResult::TEST_FAIL);
}
if (imageResOut[1] != planeHeight)
{
log_error(
"Invalid height value, test = %i, expected = %i\n",
imageResOut[1], planeHeight);
result.ResultSub(CResult::TEST_FAIL);
}
error = clEnqueueReadImage(cmdQueue, memObjDstList[i], CL_TRUE,
origin, regionPlane, 0, 0,
&out[offset], 0, 0, 0);
if (error != CL_SUCCESS)
{
log_error("clEnqueueReadImage failed: %s\n",
IGetErrorString(error));
result.ResultSub(CResult::TEST_FAIL);
}
offset += planeWidth * planeHeight;
}
if (!YUVCompare(surfaceFormat, out, bufferExp[frameIdx % FRAME_NUM],
width, height))
{
log_error(
"Frame idx: %i, OCL objects are different than expected\n",
frameIdx);
result.ResultSub(CResult::TEST_FAIL);
}
error = clEnqueueReleaseDX9MediaSurfacesKHR(
cmdQueue, static_cast<cl_uint>(memObjSrcList.size()),
&memObjSrcList[0], 0, 0, 0);
if (error != CL_SUCCESS)
{
log_error("clEnqueueReleaseDX9MediaSurfacesKHR failed: %s\n",
IGetErrorString(error));
result.ResultSub(CResult::TEST_FAIL);
}
error = clEnqueueReleaseDX9MediaSurfacesKHR(
cmdQueue, static_cast<cl_uint>(memObjDstList.size()),
&memObjDstList[0], 0, 0, 0);
if (error != CL_SUCCESS)
{
log_error("clEnqueueReleaseDX9MediaSurfacesKHR failed: %s\n",
IGetErrorString(error));
result.ResultSub(CResult::TEST_FAIL);
}
std::vector<cl_uchar> bufferOut(frameSize, 0);
if (!YUVSurfaceGet(surfaceFormat, surfaceDst, bufferOut, width,
height))
{
result.ResultSub(CResult::TEST_FAIL);
return result.Result();
}
if (!YUVCompare(surfaceFormat, bufferOut,
bufferExp[frameIdx % FRAME_NUM], width, height))
{
log_error(
"Frame idx: %i, media surface is different than expected\n",
frameIdx);
result.ResultSub(CResult::TEST_FAIL);
}
}
}
if (deviceWrapper->Status() != DEVICE_PASS)
{
std::string adapterName;
AdapterToString(adapterType, adapterName);
if (deviceWrapper->Status() == DEVICE_FAIL)
{
log_error("%s init failed\n", adapterName.c_str());
result.ResultSub(CResult::TEST_FAIL);
}
else
{
log_error("%s init incomplete due to unsupported device\n",
adapterName.c_str());
result.ResultSub(CResult::TEST_NOTSUPPORTED);
}
}
return result.Result();
}
int test_kernel(cl_device_id deviceID, cl_context context,
cl_command_queue queue, int num_elements)
{
CResult result;
#if defined(_WIN32)
// D3D9
if (kernel_functions(deviceID, context, queue, num_elements, 10, 256, 256,
CL_ADAPTER_D3D9_KHR, SURFACE_FORMAT_NV12,
SHARED_HANDLE_DISABLED)
!= 0)
{
log_error("\nTest case (D3D9, NV12, no shared handle) failed\n\n");
result.ResultSub(CResult::TEST_FAIL);
}
if (kernel_functions(deviceID, context, queue, num_elements, 3, 256, 256,
CL_ADAPTER_D3D9_KHR, SURFACE_FORMAT_YV12,
SHARED_HANDLE_DISABLED)
!= 0)
{
log_error("\nTest case (D3D9, YV12, no shared handle) failed\n\n");
result.ResultSub(CResult::TEST_FAIL);
}
// D3D9EX
if (kernel_functions(deviceID, context, queue, num_elements, 5, 256, 512,
CL_ADAPTER_D3D9EX_KHR, SURFACE_FORMAT_NV12,
SHARED_HANDLE_DISABLED)
!= 0)
{
log_error("\nTest case (D3D9EX, NV12, no shared handle) failed\n\n");
result.ResultSub(CResult::TEST_FAIL);
}
if (kernel_functions(deviceID, context, queue, num_elements, 7, 512, 256,
CL_ADAPTER_D3D9EX_KHR, SURFACE_FORMAT_NV12,
SHARED_HANDLE_ENABLED)
!= 0)
{
log_error("\nTest case (D3D9EX, NV12, shared handle) failed\n\n");
result.ResultSub(CResult::TEST_FAIL);
}
if (kernel_functions(deviceID, context, queue, num_elements, 10, 256, 256,
CL_ADAPTER_D3D9EX_KHR, SURFACE_FORMAT_YV12,
SHARED_HANDLE_DISABLED)
!= 0)
{
log_error("\nTest case (D3D9EX, YV12, no shared handle) failed\n\n");
result.ResultSub(CResult::TEST_FAIL);
}
if (kernel_functions(deviceID, context, queue, num_elements, 15, 128, 128,
CL_ADAPTER_D3D9EX_KHR, SURFACE_FORMAT_YV12,
SHARED_HANDLE_ENABLED)
!= 0)
{
log_error("\nTest case (D3D9EX, YV12, shared handle) failed\n\n");
result.ResultSub(CResult::TEST_FAIL);
}
// DXVA
if (kernel_functions(deviceID, context, queue, num_elements, 20, 128, 128,
CL_ADAPTER_DXVA_KHR, SURFACE_FORMAT_NV12,
SHARED_HANDLE_DISABLED)
!= 0)
{
log_error("\nTest case (DXVA, NV12, no shared handle) failed\n\n");
result.ResultSub(CResult::TEST_FAIL);
}
if (kernel_functions(deviceID, context, queue, num_elements, 40, 64, 64,
CL_ADAPTER_DXVA_KHR, SURFACE_FORMAT_NV12,
SHARED_HANDLE_ENABLED)
!= 0)
{
log_error("\nTest case (DXVA, NV12, shared handle) failed\n\n");
result.ResultSub(CResult::TEST_FAIL);
}
if (kernel_functions(deviceID, context, queue, num_elements, 5, 512, 512,
CL_ADAPTER_DXVA_KHR, SURFACE_FORMAT_YV12,
SHARED_HANDLE_DISABLED)
!= 0)
{
log_error("\nTest case (DXVA, YV12, no shared handle) failed\n\n");
result.ResultSub(CResult::TEST_FAIL);
}
if (kernel_functions(deviceID, context, queue, num_elements, 2, 1024, 1024,
CL_ADAPTER_DXVA_KHR, SURFACE_FORMAT_YV12,
SHARED_HANDLE_ENABLED)
!= 0)
{
log_error("\nTest case (DXVA, YV12, shared handle) failed\n\n");
result.ResultSub(CResult::TEST_FAIL);
}
#else
return TEST_NOT_IMPLEMENTED;
#endif
return result.Result();
}