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OpenCL-CTS/test_conformance/images/clReadWriteImage/main.cpp
Kedar Patil 2821bf1323 Initial open source release of OpenCL 2.2 CTS.
2017-05-16 18:44:33 +05:30

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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 "../../../test_common/harness/compat.h"
#include <stdio.h>
#include <string.h>
#if !defined(_WIN32)
#include <unistd.h>
#include <sys/time.h>
#endif
#include "../testBase.h"
bool gDebugTrace = false, gTestSmallImages = false, gTestMaxImages = false, gUseRamp = false, gTestRounding = false, gTestMipmaps = false;
int gTypesToTest = 0;
cl_channel_type gChannelTypeToUse = (cl_channel_type)-1;
bool gEnablePitch = false;
cl_device_type gDeviceType = CL_DEVICE_TYPE_DEFAULT;
cl_command_queue queue;
cl_context context;
#define MAX_ALLOWED_STD_DEVIATION_IN_MB 8.0
void printUsage( const char *execName )
{
const char *p = strrchr( execName, '/' );
if( p != NULL )
execName = p + 1;
log_info( "Usage: %s [debug_trace] [small_images]\n", execName );
log_info( "Where:\n" );
log_info( "\t1D - Only test 1D images\n" );
log_info( "\t2D - Only test 2D images\n" );
log_info( "\t3D - Only test 3D images\n" );
log_info( "\t1Darray - Only test 1D image arrays\n" );
log_info( "\t2Darray - Only test 2D image arrays\n" );
log_info( "\n" );
log_info( "\tdebug_trace - Enables additional debug info logging\n" );
log_info( "\tsmall_images - Runs every format through a loop of widths 1-13 and heights 1-9, instead of random sizes\n" );
log_info( "\tmax_images - Runs every format through a set of size combinations with the max values, max values - 1, and max values / 128\n" );
log_info( "\trounding - Runs every format through a single image filled with every possible value for that image format, to verify rounding works properly\n" );
log_info( "\tuse_pitches - Enables row and slice pitches\n" );
log_info( "\tuse_ramp - Instead of random data, uses images filled with ramps (and 0xff on any padding pixels) to ease debugging\n" );
log_info( "\ttest_mipmaps - Test mipmapped images\n" );
}
extern int test_image_set( cl_device_id device, cl_mem_object_type image_type );
int main(int argc, const char *argv[])
{
cl_platform_id platform;
cl_device_id device;
cl_channel_type chanType;
char str[ 128 ];
bool randomize = false;
int testMethods = 0;
test_start();
checkDeviceTypeOverride( &gDeviceType );
// Parse arguments
for( int i = 1; i < argc; i++ )
{
strncpy( str, argv[ i ], sizeof( str ) - 1 );
if( strcmp( str, "cpu" ) == 0 || strcmp( str, "CL_DEVICE_TYPE_CPU" ) == 0 )
gDeviceType = CL_DEVICE_TYPE_CPU;
else if( strcmp( str, "gpu" ) == 0 || strcmp( str, "CL_DEVICE_TYPE_GPU" ) == 0 )
gDeviceType = CL_DEVICE_TYPE_GPU;
else if( strcmp( str, "accelerator" ) == 0 || strcmp( str, "CL_DEVICE_TYPE_ACCELERATOR" ) == 0 )
gDeviceType = CL_DEVICE_TYPE_ACCELERATOR;
else if( strcmp( str, "CL_DEVICE_TYPE_DEFAULT" ) == 0 )
gDeviceType = CL_DEVICE_TYPE_DEFAULT;
else if( strcmp( str, "debug_trace" ) == 0 )
gDebugTrace = true;
else if( strcmp( str, "small_images" ) == 0 )
gTestSmallImages = true;
else if( strcmp( str, "max_images" ) == 0 )
gTestMaxImages = true;
else if( strcmp( str, "use_pitches" ) == 0 )
gEnablePitch = true;
else if( strcmp( str, "use_ramps" ) == 0 )
gUseRamp = true;
else if( strcmp(str, "test_mipmaps") == 0 ) {
gTestMipmaps = true;
// Don't test pitches with mipmaps right now.
gEnablePitch = false;
}
else if( strcmp( str, "randomize" ) == 0 )
randomize = true;
else if( strcmp( str, "1D" ) == 0 )
testMethods |= k1D;
else if( strcmp( str, "2D" ) == 0 )
testMethods |= k2D;
else if( strcmp( str, "3D" ) == 0 )
testMethods |= k3D;
else if( strcmp( str, "1Darray" ) == 0 )
testMethods |= k1DArray;
else if( strcmp( str, "2Darray" ) == 0 )
testMethods |= k2DArray;
else if( strcmp( str, "help" ) == 0 || strcmp( str, "?" ) == 0 )
{
printUsage( argv[ 0 ] );
return -1;
}
else if( ( chanType = get_channel_type_from_name( str ) ) != (cl_channel_type)-1 )
gChannelTypeToUse = chanType;
else
{
log_error( "ERROR: Unknown argument %d: %s. Exiting....\n", i, str );
return -1;
}
}
if (testMethods == 0)
testMethods = k1D | k2D | k3D | k1DArray | k2DArray;
// Seed the random # generators
if( randomize )
{
gRandomSeed = (cl_uint) time( NULL );
log_info( "Random seed: %u.\n", gRandomSeed );
gReSeed = 1;
}
int error;
// Get our platform
error = clGetPlatformIDs(1, &platform, NULL);
if( error )
{
print_error( error, "Unable to get platform" );
test_finish();
return -1;
}
// Get our device
unsigned int num_devices;
error = clGetDeviceIDs(platform, gDeviceType, 0, NULL, &num_devices);
if( error )
{
print_error( error, "Unable to get number of devices" );
test_finish();
return -1;
}
uint32_t gDeviceIndex = 0;
const char* device_index_env = getenv("CL_DEVICE_INDEX");
if (device_index_env) {
if (device_index_env) {
gDeviceIndex = atoi(device_index_env);
}
if (gDeviceIndex >= num_devices) {
vlog("Specified CL_DEVICE_INDEX=%d out of range, using index 0.\n", gDeviceIndex);
gDeviceIndex = 0;
}
}
cl_device_id *gDeviceList = (cl_device_id *)malloc( num_devices * sizeof( cl_device_id ) );
error = clGetDeviceIDs(platform, gDeviceType, num_devices, gDeviceList, NULL);
if( error )
{
print_error( error, "Unable to get devices" );
free( gDeviceList );
test_finish();
return -1;
}
device = gDeviceList[gDeviceIndex];
free( gDeviceList );
log_info( "Using " );
if( printDeviceHeader( device ) != CL_SUCCESS )
{
test_finish();
return -1;
}
// Check for image support
if(checkForImageSupport( device ) == CL_IMAGE_FORMAT_NOT_SUPPORTED) {
log_info("Device does not support images. Skipping test.\n");
test_finish();
return 0;
}
// Create a context to test with
context = clCreateContext( NULL, 1, &device, notify_callback, NULL, &error );
if( error != CL_SUCCESS )
{
print_error( error, "Unable to create testing context" );
test_finish();
return -1;
}
// Create a queue against the context
queue = clCreateCommandQueueWithProperties( context, device, 0, &error );
if( error != CL_SUCCESS )
{
print_error( error, "Unable to create testing command queue" );
test_finish();
return -1;
}
if( gTestSmallImages )
log_info( "Note: Using small test images\n" );
// Run the test now
int ret = 0;
if (testMethods & k1D)
ret += test_image_set( device, CL_MEM_OBJECT_IMAGE1D );
if (testMethods & k2D)
ret += test_image_set( device, CL_MEM_OBJECT_IMAGE2D );
if (testMethods & k3D)
ret += test_image_set( device, CL_MEM_OBJECT_IMAGE3D );
if (testMethods & k1DArray)
ret += test_image_set( device, CL_MEM_OBJECT_IMAGE1D_ARRAY );
if (testMethods & k2DArray)
ret += test_image_set( device, CL_MEM_OBJECT_IMAGE2D_ARRAY );
error = clFinish(queue);
if (error)
print_error(error, "clFinish failed.");
if (gTestFailure == 0) {
if (gTestCount > 1)
log_info("PASSED %d of %d tests.\n", gTestCount, gTestCount);
else
log_info("PASSED test.\n");
} else if (gTestFailure > 0) {
if (gTestCount > 1)
log_error("FAILED %d of %d tests.\n", gTestFailure, gTestCount);
else
log_error("FAILED test.\n");
}
// Clean up
clReleaseCommandQueue(queue);
clReleaseContext(context);
test_finish();
if (gTestFailure > 0)
return gTestFailure;
return ret;
}
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