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OpenCL-CTS/test_conformance/images/clCopyImage/test_copy_3D.cpp
Michael Rizkalla 5930d45fc6 Refactor clCopyImage and clFillImage tests (#2283) 
This change mainly extends `clFillImage` and `clCopyImage` test function
to include memory flags to be used during creating the image instead of
hard-coding these values. The memory flags are also different parameters
for source and destination images in `clCopyImage` tests.

---------

Signed-off-by: Michael Rizkalla <michael.rizkalla@arm.com>
2025-04-01 09:53:37 -07:00

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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"
// Defined in test_copy_generic.cpp
extern int test_copy_image_generic( cl_context context, cl_command_queue queue, image_descriptor *srcImageInfo, image_descriptor *dstImageInfo,
const size_t sourcePos[], const size_t destPos[], const size_t regionSize[], MTdata d );
int test_copy_image_3D(cl_context context, cl_command_queue queue,
image_descriptor *srcImageInfo,
image_descriptor *dstImageInfo, MTdata d)
{
size_t origin[] = { 0, 0, 0, 0};
size_t region[] = { srcImageInfo->width, srcImageInfo->height,
srcImageInfo->depth };
if( gTestMipmaps )
{
size_t lod = (srcImageInfo->num_mip_levels > 1)
? (size_t)random_in_range(0, srcImageInfo->num_mip_levels - 1, d)
: 0;
origin[ 3 ] = lod;
region[0] =
(srcImageInfo->width >> lod) ? (srcImageInfo->width >> lod) : 1;
region[1] =
(srcImageInfo->height >> lod) ? (srcImageInfo->height >> lod) : 1;
region[2] =
(srcImageInfo->depth >> lod) ? (srcImageInfo->depth >> lod) : 1;
}
return test_copy_image_generic(context, queue, srcImageInfo, dstImageInfo,
origin, origin, region, d);
}
int test_copy_image_set_3D(cl_device_id device, cl_context context,
cl_command_queue queue, cl_mem_flags src_flags,
cl_mem_object_type src_type, cl_mem_flags dst_flags,
cl_mem_object_type dst_type, cl_image_format *format)
{
assert(dst_type == src_type); // This test expects to copy 3D -> 3D images
size_t maxWidth, maxHeight, maxDepth;
cl_ulong maxAllocSize, memSize;
image_descriptor srcImageInfo = { 0 };
image_descriptor dstImageInfo = { 0 };
RandomSeed seed( gRandomSeed );
size_t pixelSize;
srcImageInfo.format = format;
srcImageInfo.type = src_type;
srcImageInfo.mem_flags = src_flags;
pixelSize = get_pixel_size(srcImageInfo.format);
int error = clGetDeviceInfo( device, CL_DEVICE_IMAGE3D_MAX_WIDTH, sizeof( maxWidth ), &maxWidth, NULL );
error |= clGetDeviceInfo( device, CL_DEVICE_IMAGE3D_MAX_HEIGHT, sizeof( maxHeight ), &maxHeight, NULL );
error |= clGetDeviceInfo( device, CL_DEVICE_IMAGE3D_MAX_DEPTH, sizeof( maxDepth ), &maxDepth, NULL );
error |= clGetDeviceInfo( device, CL_DEVICE_MAX_MEM_ALLOC_SIZE, sizeof( maxAllocSize ), &maxAllocSize, NULL );
error |= clGetDeviceInfo( device, CL_DEVICE_GLOBAL_MEM_SIZE, sizeof( memSize ), &memSize, NULL );
test_error( error, "Unable to get max image 3D size from device" );
if (memSize > (cl_ulong)SIZE_MAX) {
memSize = (cl_ulong)SIZE_MAX;
maxAllocSize = (cl_ulong)SIZE_MAX;
}
if( gTestSmallImages )
{
for (srcImageInfo.width = 1; srcImageInfo.width < 13;
srcImageInfo.width++)
{
size_t rowPadding = gEnablePitch ? 80 : 0;
size_t slicePadding = gEnablePitch ? 3 : 0;
srcImageInfo.rowPitch = srcImageInfo.width * pixelSize + rowPadding;
if (gTestMipmaps)
srcImageInfo.num_mip_levels = (cl_uint)random_log_in_range(
2,
(int)compute_max_mip_levels(srcImageInfo.width,
srcImageInfo.height,
srcImageInfo.depth),
seed);
if (gEnablePitch)
{
do {
rowPadding++;
srcImageInfo.rowPitch =
srcImageInfo.width * pixelSize + rowPadding;
} while ((srcImageInfo.rowPitch % pixelSize) != 0);
}
for (srcImageInfo.height = 1; srcImageInfo.height < 9;
srcImageInfo.height++)
{
srcImageInfo.slicePitch = srcImageInfo.rowPitch
* (srcImageInfo.height + slicePadding);
for (srcImageInfo.depth = 2; srcImageInfo.depth < 9;
srcImageInfo.depth++)
{
if( gDebugTrace )
log_info(
" at size %d,%d,%d\n", (int)srcImageInfo.width,
(int)srcImageInfo.height, (int)srcImageInfo.depth);
dstImageInfo = srcImageInfo;
dstImageInfo.mem_flags = dst_flags;
int ret = test_copy_image_3D(context, queue, &srcImageInfo,
&dstImageInfo, seed);
if( ret )
return -1;
}
}
}
}
else if( gTestMaxImages )
{
// Try a specific set of maximum sizes
size_t numbeOfSizes;
size_t sizes[100][3];
get_max_sizes(&numbeOfSizes, 100, sizes, maxWidth, maxHeight, maxDepth,
1, maxAllocSize, memSize, srcImageInfo.type,
srcImageInfo.format);
for( size_t idx = 0; idx < numbeOfSizes; idx++ )
{
size_t rowPadding = gEnablePitch ? 80 : 0;
size_t slicePadding = gEnablePitch ? 3 : 0;
srcImageInfo.width = sizes[idx][0];
srcImageInfo.height = sizes[idx][1];
srcImageInfo.depth = sizes[idx][2];
srcImageInfo.rowPitch = srcImageInfo.width * pixelSize + rowPadding;
if (gTestMipmaps)
srcImageInfo.num_mip_levels = (cl_uint)random_log_in_range(
2,
(int)compute_max_mip_levels(srcImageInfo.width,
srcImageInfo.height,
srcImageInfo.depth),
seed);
if (gEnablePitch)
{
do {
rowPadding++;
srcImageInfo.rowPitch =
srcImageInfo.width * pixelSize + rowPadding;
} while ((srcImageInfo.rowPitch % pixelSize) != 0);
}
srcImageInfo.slicePitch =
srcImageInfo.rowPitch * (srcImageInfo.height + slicePadding);
log_info( "Testing %d x %d x %d\n", (int)sizes[ idx ][ 0 ], (int)sizes[ idx ][ 1 ], (int)sizes[ idx ][ 2 ] );
if( gDebugTrace )
log_info( " at max size %d,%d,%d\n", (int)sizes[ idx ][ 0 ], (int)sizes[ idx ][ 1 ], (int)sizes[ idx ][ 2 ] );
dstImageInfo = srcImageInfo;
dstImageInfo.mem_flags = dst_flags;
if (test_copy_image_3D(context, queue, &srcImageInfo, &dstImageInfo,
seed))
return -1;
}
}
else
{
for( int i = 0; i < NUM_IMAGE_ITERATIONS; i++ )
{
cl_ulong size;
size_t rowPadding = gEnablePitch ? 80 : 0;
size_t slicePadding = gEnablePitch ? 3 : 0;
// Loop until we get a size that a) will fit in the max alloc size and b) that an allocation of that
// image, the result array, plus offset arrays, will fit in the global ram space
do
{
srcImageInfo.width =
(size_t)random_log_in_range(16, (int)maxWidth / 32, seed);
srcImageInfo.height =
(size_t)random_log_in_range(16, (int)maxHeight / 32, seed);
srcImageInfo.depth =
(size_t)random_log_in_range(16, (int)maxDepth / 32, seed);
if (gTestMipmaps)
{
srcImageInfo.num_mip_levels = (cl_uint)random_log_in_range(
2,
(int)compute_max_mip_levels(srcImageInfo.width,
srcImageInfo.height,
srcImageInfo.depth),
seed);
srcImageInfo.rowPitch = srcImageInfo.width
* get_pixel_size(srcImageInfo.format);
srcImageInfo.slicePitch =
srcImageInfo.height * srcImageInfo.rowPitch;
size = compute_mipmapped_image_size(srcImageInfo);
size = size*4;
}
else
{
srcImageInfo.rowPitch =
srcImageInfo.width * pixelSize + rowPadding;
if (gEnablePitch)
{
do
{
rowPadding++;
srcImageInfo.rowPitch =
srcImageInfo.width * pixelSize + rowPadding;
} while ((srcImageInfo.rowPitch % pixelSize) != 0);
}
srcImageInfo.slicePitch = srcImageInfo.rowPitch
* (srcImageInfo.height + slicePadding);
size = (cl_ulong)srcImageInfo.slicePitch
* (cl_ulong)srcImageInfo.depth * 4 * 4;
}
} while( size > maxAllocSize || ( size * 3 ) > memSize );
if( gDebugTrace )
log_info(" at size %d,%d,%d (pitch %d,%d) out of %d,%d,%d\n",
(int)srcImageInfo.width, (int)srcImageInfo.height,
(int)srcImageInfo.depth, (int)srcImageInfo.rowPitch,
(int)srcImageInfo.slicePitch, (int)maxWidth,
(int)maxHeight, (int)maxDepth);
dstImageInfo = srcImageInfo;
dstImageInfo.mem_flags = dst_flags;
int ret = test_copy_image_3D(context, queue, &srcImageInfo,
&dstImageInfo, seed);
if( ret )
return -1;
}
}
return 0;
}
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