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OpenCL-CTS/test_conformance/images/kernel_read_write/test_loops.cpp
James Price 03a0989998 Use std::vector for format lists in images suite (#1105) 
* Use std::vector for format lists in images suite

Avoids memory deallocation issues and generally simplifies the code.

* Fixup formatting with git-clang-format
2021-01-14 13:27:59 +00:00

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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"
#include "../common.h"
extern cl_filter_mode gFilterModeToUse;
extern cl_addressing_mode gAddressModeToUse;
extern int gNormalizedModeToUse;
extern int gTypesToTest;
extern int gtestTypesToRun;
extern int test_read_image_set_1D(cl_device_id device, cl_context context,
cl_command_queue queue,
const cl_image_format *format,
image_sampler_data *imageSampler,
bool floatCoords, ExplicitType outputType);
extern int test_read_image_set_2D(cl_device_id device, cl_context context,
cl_command_queue queue,
const cl_image_format *format,
image_sampler_data *imageSampler,
bool floatCoords, ExplicitType outputType);
extern int test_read_image_set_3D(cl_device_id device, cl_context context,
cl_command_queue queue,
const cl_image_format *format,
image_sampler_data *imageSampler,
bool floatCoords, ExplicitType outputType);
extern int test_read_image_set_1D_array(cl_device_id device, cl_context context,
cl_command_queue queue,
const cl_image_format *format,
image_sampler_data *imageSampler,
bool floatCoords,
ExplicitType outputType);
extern int test_read_image_set_2D_array(cl_device_id device, cl_context context,
cl_command_queue queue,
const cl_image_format *format,
image_sampler_data *imageSampler,
bool floatCoords,
ExplicitType outputType);
int test_read_image_type(cl_device_id device, cl_context context,
cl_command_queue queue, const cl_image_format *format,
bool floatCoords, image_sampler_data *imageSampler,
ExplicitType outputType, cl_mem_object_type imageType)
{
int ret = 0;
cl_addressing_mode *addressModes = NULL;
// The sampler-less read image functions behave exactly as the corresponding
// read image functions described in section 6.13.14.2 that take integer
// coordinates and a sampler with filter mode set to CLK_FILTER_NEAREST,
// normalized coordinates set to CLK_NORMALIZED_COORDS_FALSE and addressing
// mode to CLK_ADDRESS_NONE
cl_addressing_mode addressModes_rw[] = { CL_ADDRESS_NONE,
(cl_addressing_mode)-1 };
cl_addressing_mode addressModes_ro[] = {
/* CL_ADDRESS_CLAMP_NONE,*/ CL_ADDRESS_CLAMP_TO_EDGE, CL_ADDRESS_CLAMP,
CL_ADDRESS_REPEAT, CL_ADDRESS_MIRRORED_REPEAT, (cl_addressing_mode)-1
};
if (gtestTypesToRun & kReadWriteTests)
{
addressModes = addressModes_rw;
}
else
{
addressModes = addressModes_ro;
}
#if defined(__APPLE__)
// According to the OpenCL specification, we do not guarantee the precision
// of operations for linear filtering on the GPU. We do not test linear
// filtering for the CL_RGB CL_UNORM_INT_101010 image format; however, we
// test it internally for a set of other image formats.
if ((gDeviceType == CL_DEVICE_TYPE_GPU)
&& (imageSampler->filter_mode == CL_FILTER_LINEAR)
&& (format->image_channel_order == CL_RGB)
&& (format->image_channel_data_type == CL_UNORM_INT_101010))
{
log_info("--- Skipping CL_RGB CL_UNORM_INT_101010 format with "
"CL_FILTER_LINEAR on GPU.\n");
return 0;
}
#endif
for (int adMode = 0; addressModes[adMode] != (cl_addressing_mode)-1;
adMode++)
{
imageSampler->addressing_mode = addressModes[adMode];
if ((addressModes[adMode] == CL_ADDRESS_REPEAT
|| addressModes[adMode] == CL_ADDRESS_MIRRORED_REPEAT)
&& !(imageSampler->normalized_coords))
continue; // Repeat doesn't make sense for non-normalized coords
// Use this run if we were told to only run a certain filter mode
if (gAddressModeToUse != (cl_addressing_mode)-1
&& imageSampler->addressing_mode != gAddressModeToUse)
continue;
/*
Remove redundant check to see if workaround still necessary
// Check added in because this case was leaking through causing a crash
on CPU if( ! imageSampler->normalized_coords &&
imageSampler->addressing_mode == CL_ADDRESS_REPEAT ) continue; //repeat
mode requires normalized coordinates
*/
print_read_header(format, imageSampler, false);
gTestCount++;
int retCode = 0;
switch (imageType)
{
case CL_MEM_OBJECT_IMAGE1D:
retCode = test_read_image_set_1D(device, context, queue, format,
imageSampler, floatCoords,
outputType);
break;
case CL_MEM_OBJECT_IMAGE1D_ARRAY:
retCode = test_read_image_set_1D_array(device, context, queue,
format, imageSampler,
floatCoords, outputType);
break;
case CL_MEM_OBJECT_IMAGE2D:
retCode = test_read_image_set_2D(device, context, queue, format,
imageSampler, floatCoords,
outputType);
break;
case CL_MEM_OBJECT_IMAGE2D_ARRAY:
retCode = test_read_image_set_2D_array(device, context, queue,
format, imageSampler,
floatCoords, outputType);
break;
case CL_MEM_OBJECT_IMAGE3D:
retCode = test_read_image_set_3D(device, context, queue, format,
imageSampler, floatCoords,
outputType);
break;
}
if (retCode != 0)
{
gFailCount++;
log_error("FAILED: ");
print_read_header(format, imageSampler, true);
log_info("\n");
}
ret |= retCode;
}
return ret;
}
int test_read_image_formats(cl_device_id device, cl_context context,
cl_command_queue queue,
const std::vector<cl_image_format> &formatList,
const std::vector<bool> &filterFlags,
image_sampler_data *imageSampler,
ExplicitType outputType,
cl_mem_object_type imageType)
{
int ret = 0;
bool flipFlop[2] = { false, true };
int normalizedIdx, floatCoordIdx;
// Use this run if we were told to only run a certain filter mode
if (gFilterModeToUse != (cl_filter_mode)-1
&& imageSampler->filter_mode != gFilterModeToUse)
return 0;
// Test normalized/non-normalized
for (normalizedIdx = 0; normalizedIdx < 2; normalizedIdx++)
{
imageSampler->normalized_coords = flipFlop[normalizedIdx];
if (gNormalizedModeToUse != 7
&& gNormalizedModeToUse != (int)imageSampler->normalized_coords)
continue;
for (floatCoordIdx = 0; floatCoordIdx < 2; floatCoordIdx++)
{
// Checks added in because this case was leaking through causing a
// crash on CPU
if (!flipFlop[floatCoordIdx])
if (imageSampler->filter_mode != CL_FILTER_NEAREST
|| // integer coords can only be used with nearest
flipFlop[normalizedIdx]) // Normalized integer coords makes
// no sense (they'd all be zero)
continue;
if (flipFlop[floatCoordIdx] && (gtestTypesToRun & kReadWriteTests))
// sampler-less read in read_write tests run only integer coord
continue;
log_info("read_image (%s coords, %s results) "
"*****************************\n",
flipFlop[floatCoordIdx] ? (imageSampler->normalized_coords
? "normalized float"
: "unnormalized float")
: "integer",
get_explicit_type_name(outputType));
for (unsigned int i = 0; i < formatList.size(); i++)
{
if (filterFlags[i]) continue;
const cl_image_format &imageFormat = formatList[i];
ret |=
test_read_image_type(device, context, queue, &imageFormat,
flipFlop[floatCoordIdx], imageSampler,
outputType, imageType);
}
}
}
return ret;
}
int test_image_set(cl_device_id device, cl_context context,
cl_command_queue queue, test_format_set_fn formatTestFn,
cl_mem_object_type imageType)
{
int ret = 0;
static int printedFormatList = -1;
if ((imageType == CL_MEM_OBJECT_IMAGE3D)
&& (formatTestFn == test_write_image_formats))
{
if (0 == is_extension_available(device, "cl_khr_3d_image_writes"))
{
log_info("-----------------------------------------------------\n");
log_info(
"This device does not support "
"cl_khr_3d_image_writes.\nSkipping 3d image write test. \n");
log_info(
"-----------------------------------------------------\n\n");
return 0;
}
}
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 ((0 == is_extension_available(device, "cl_khr_mipmap_image_writes"))
&& (formatTestFn == test_write_image_formats))
{
log_info("-----------------------------------------------------\n");
log_info("This device does not support "
"cl_khr_mipmap_image_writes.\nSkipping mipmapped image "
"write test. \n");
log_info(
"-----------------------------------------------------\n\n");
return 0;
}
}
int version_check = (get_device_cl_version(device) < Version(1, 2));
if (version_check != 0)
{
switch (imageType)
{
case CL_MEM_OBJECT_IMAGE1D:
test_missing_feature(version_check, "image_1D");
case CL_MEM_OBJECT_IMAGE1D_ARRAY:
test_missing_feature(version_check, "image_1D_array");
case CL_MEM_OBJECT_IMAGE2D_ARRAY:
test_missing_feature(version_check, "image_2D_array");
}
}
// This flag is only for querying the list of supported formats
// The flag for creating image will be set explicitly in test functions
cl_mem_flags flags;
const char *flagNames;
if (formatTestFn == test_read_image_formats)
{
if (gtestTypesToRun & kReadTests)
{
flags = CL_MEM_READ_ONLY;
flagNames = "read";
}
else
{
flags = CL_MEM_KERNEL_READ_AND_WRITE;
flagNames = "read_write";
}
}
else
{
if (gtestTypesToRun & kWriteTests)
{
flags = CL_MEM_WRITE_ONLY;
flagNames = "write";
}
else
{
flags = CL_MEM_KERNEL_READ_AND_WRITE;
flagNames = "read_write";
}
}
// Grab the list of supported image formats for integer reads
std::vector<cl_image_format> formatList;
if (get_format_list(context, imageType, formatList, flags)) return -1;
// First time through, we'll go ahead and print the formats supported,
// regardless of type
int test = imageType
| (formatTestFn == test_read_image_formats ? (1 << 16) : (1 << 17));
if (printedFormatList != test)
{
log_info("---- Supported %s %s formats for this device ---- \n",
convert_image_type_to_string(imageType), flagNames);
for (unsigned int f = 0; f < formatList.size(); f++)
{
if (IsChannelOrderSupported(formatList[f].image_channel_order)
&& IsChannelTypeSupported(
formatList[f].image_channel_data_type))
log_info(
" %-7s %-24s %d\n",
GetChannelOrderName(formatList[f].image_channel_order),
GetChannelTypeName(formatList[f].image_channel_data_type),
(int)get_format_channel_count(&formatList[f]));
}
log_info("------------------------------------------- \n");
printedFormatList = test;
}
image_sampler_data imageSampler;
for (auto test : imageTestTypes)
{
if (gTypesToTest & test.type)
{
std::vector<bool> filterFlags(formatList.size(), false);
if (filter_formats(formatList, filterFlags, test.channelTypes,
gTestMipmaps)
== 0)
{
log_info("No formats supported for %s type\n", test.name);
}
else
{
imageSampler.filter_mode = CL_FILTER_NEAREST;
ret += formatTestFn(device, context, queue, formatList,
filterFlags, &imageSampler,
test.explicitType, imageType);
// Linear filtering is only supported with floats
if (test.type == kTestFloat)
{
imageSampler.filter_mode = CL_FILTER_LINEAR;
ret += formatTestFn(device, context, queue, formatList,
filterFlags, &imageSampler,
test.explicitType, imageType);
}
}
}
}
return ret;
}
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