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Initial open source release of OpenCL 2.2 CTS.

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Kedar Patil
2017-05-16 18:25:37 +05:30
parent 6911ba5116
commit 2821bf1323
1035 changed files with 343518 additions and 0 deletions
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274
test_conformance/images/clCopyImage/test_loops.cpp Normal file
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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 "../testBase.h"
extern cl_filter_mode gFilterModeToUse;
extern cl_addressing_mode gAddressModeToUse;
extern int gTypesToTest;
extern int gNormalizedModeToUse;
extern bool gTestMipmaps;
extern cl_channel_type gChannelTypeToUse;
extern cl_command_queue queue;
extern cl_context context;
extern cl_channel_type gChannelTypeToUse;
extern cl_channel_order gChannelOrderToUse;
extern bool gDebugTrace;
extern int test_copy_image_set_1D( cl_device_id device, cl_image_format *format );
extern int test_copy_image_set_2D( cl_device_id device, cl_image_format *format );
extern int test_copy_image_set_3D( cl_device_id device, cl_image_format *format );
extern int test_copy_image_set_1D_array( cl_device_id device, cl_image_format *format );
extern int test_copy_image_set_2D_array( cl_device_id device, cl_image_format *format );
extern int test_copy_image_set_2D_3D( cl_device_id device, cl_image_format *format, bool reverse );
extern int test_copy_image_set_2D_2D_array( cl_device_id device, cl_image_format *format, bool reverse );
extern int test_copy_image_set_3D_2D_array( cl_device_id device, cl_image_format *format, bool reverse );
int filter_formats( cl_image_format *formatList, bool *filterFlags, unsigned int formatCount, cl_channel_type *channelDataTypesToFilter )
{
int numSupported = 0;
for( unsigned int j = 0; j < formatCount; j++ )
{
// If this format has been previously filtered, remove the filter
if( filterFlags[ j ] )
filterFlags[ j ] = false;
// Have we already discarded this via the command line?
if( gChannelTypeToUse != (cl_channel_type)-1 && gChannelTypeToUse != formatList[ j ].image_channel_data_type )
{
filterFlags[ j ] = true;
continue;
}
// Have we already discarded the channel order via the command line?
if( gChannelOrderToUse != (cl_channel_order)-1 && gChannelOrderToUse != formatList[ j ].image_channel_order )
{
filterFlags[ j ] = true;
continue;
}
// Is given format standard channel order and type given by spec. We don't want to test it if this is vendor extension
if( !IsChannelOrderSupported( formatList[ j ].image_channel_order ) || !IsChannelTypeSupported( formatList[ j ].image_channel_data_type ) )
{
filterFlags[ j ] = true;
continue;
}
// We don't filter by channel type
if( !channelDataTypesToFilter )
{
numSupported++;
continue;
}
// Is the format supported?
int i;
for( i = 0; channelDataTypesToFilter[ i ] != (cl_channel_type)-1; i++ )
{
if( formatList[ j ].image_channel_data_type == channelDataTypesToFilter[ i ] )
{
numSupported++;
break;
}
}
if( channelDataTypesToFilter[ i ] == (cl_channel_type)-1 )
{
// Format is NOT supported, so mark it as such
filterFlags[ j ] = true;
}
}
return numSupported;
}
int get_format_list( cl_device_id device, cl_mem_object_type imageType, cl_image_format * &outFormatList, unsigned int &outFormatCount, cl_mem_flags flags )
{
int error;
cl_image_format tempList[ 128 ];
error = clGetSupportedImageFormats( context, (cl_mem_flags)flags,
imageType, 128, tempList, &outFormatCount );
test_error( error, "Unable to get count of supported image formats" );
outFormatList = new cl_image_format[ outFormatCount ];
error = clGetSupportedImageFormats( context, (cl_mem_flags)flags,
imageType, outFormatCount, outFormatList, NULL );
test_error( error, "Unable to get list of supported image formats" );
return 0;
}
int test_image_type( cl_device_id device, MethodsToTest testMethod, cl_mem_flags flags )
{
const char *name;
cl_mem_object_type imageType;
if ( gTestMipmaps )
{
if ( 0 == is_extension_available( device, "cl_khr_mipmap_image" ))
{
log_info( "-----------------------------------------------------\n" );
log_info( "This device does not support cl_khr_mipmap_image.\nSkipping mipmapped image test. \n" );
log_info( "-----------------------------------------------------\n\n" );
return 0;
}
}
if( testMethod == k1D )
{
name = "1D -> 1D";
imageType = CL_MEM_OBJECT_IMAGE1D;
}
else if( testMethod == k2D )
{
name = "2D -> 2D";
imageType = CL_MEM_OBJECT_IMAGE2D;
}
else if( testMethod == k3D )
{
name = "3D -> 3D";
imageType = CL_MEM_OBJECT_IMAGE3D;
}
else if( testMethod == k1DArray )
{
name = "1D array -> 1D array";
imageType = CL_MEM_OBJECT_IMAGE1D_ARRAY;
}
else if( testMethod == k2DArray )
{
name = "2D array -> 2D array";
imageType = CL_MEM_OBJECT_IMAGE2D_ARRAY;
}
else if( testMethod == k2DTo3D )
{
name = "2D -> 3D";
imageType = CL_MEM_OBJECT_IMAGE3D;
}
else if( testMethod == k3DTo2D )
{
name = "3D -> 2D";
imageType = CL_MEM_OBJECT_IMAGE3D;
}
else if( testMethod == k2DArrayTo2D )
{
name = "2D array -> 2D";
imageType = CL_MEM_OBJECT_IMAGE2D_ARRAY;
}
else if( testMethod == k2DTo2DArray )
{
name = "2D -> 2D array";
imageType = CL_MEM_OBJECT_IMAGE2D_ARRAY;
}
else if( testMethod == k2DArrayTo3D )
{
name = "2D array -> 3D";
imageType = CL_MEM_OBJECT_IMAGE3D;
}
else if( testMethod == k3DTo2DArray )
{
name = "3D -> 2D array";
imageType = CL_MEM_OBJECT_IMAGE3D;
}
if(gTestMipmaps)
log_info( "Running mipmapped %s tests...\n", name );
else
log_info( "Running %s tests...\n", name );
int ret = 0;
// Grab the list of supported image formats for integer reads
cl_image_format *formatList;
bool *filterFlags;
unsigned int numFormats;
if( get_format_list( device, imageType, formatList, numFormats, flags ) )
return -1;
filterFlags = new bool[ numFormats ];
if( filterFlags == NULL )
{
log_error( "ERROR: Out of memory allocating filter flags list!\n" );
return -1;
}
memset( filterFlags, 0, sizeof( bool ) * numFormats );
filter_formats(formatList, filterFlags, numFormats, NULL);
// Run the format list
for( unsigned int i = 0; i < numFormats; i++ )
{
int test_return = 0;
if( filterFlags[i] )
{
continue;
}
print_header( &formatList[ i ], false );
gTestCount++;
if( testMethod == k1D )
test_return = test_copy_image_set_1D( device, &formatList[ i ] );
else if( testMethod == k2D )
test_return = test_copy_image_set_2D( device, &formatList[ i ] );
else if( testMethod == k3D )
test_return = test_copy_image_set_3D( device, &formatList[ i ] );
else if( testMethod == k1DArray )
test_return = test_copy_image_set_1D_array( device, &formatList[ i ] );
else if( testMethod == k2DArray )
test_return = test_copy_image_set_2D_array( device, &formatList[ i ] );
else if( testMethod == k2DTo3D )
test_return = test_copy_image_set_2D_3D( device, &formatList[ i ], false );
else if( testMethod == k3DTo2D )
test_return = test_copy_image_set_2D_3D( device, &formatList[ i ], true );
else if( testMethod == k2DArrayTo2D)
test_return = test_copy_image_set_2D_2D_array( device, &formatList[ i ], true);
else if( testMethod == k2DTo2DArray)
test_return = test_copy_image_set_2D_2D_array( device, &formatList[ i ], false);
else if( testMethod == k2DArrayTo3D)
test_return = test_copy_image_set_3D_2D_array( device, &formatList[ i ], true);
else if( testMethod == k3DTo2DArray)
test_return = test_copy_image_set_3D_2D_array( device, &formatList[ i ], false);
if (test_return) {
gTestFailure++;
log_error( "FAILED: " );
print_header( &formatList[ i ], true );
log_info( "\n" );
}
ret += test_return;
}
delete filterFlags;
delete formatList;
return ret;
}
int test_image_set( cl_device_id device, MethodsToTest testMethod )
{
int ret = 0;
ret += test_image_type( device, testMethod, CL_MEM_READ_ONLY );
return ret;
}