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#include <iostream>
#include <cstdlib>
#include "test_builtins.h"
#include "CL/cl.h"
#include <stdint.h>
const char sampler_source[] =
"__kernel void test_case(__global uint *rs, sampler_t sampler) {\n"
" sampler_t good_sampler = CLK_NORMALIZED_COORDS_TRUE |\n"
" CLK_ADDRESS_MIRRORED_REPEAT |\n"
" CLK_FILTER_NEAREST;\n"
"\n"
" if (sampler != good_sampler) *rs = 1;\n"
"}\n";
const char barrier_source[] =
"__kernel void test_case(__global uint *rs) {\n"
" *rs = 0;\n"
" int i; for (i=0; i<3; i++) barrier(0);\n"
" *rs += 1;\n"
"}\n";
const char image_source[] =
"__kernel void test_case(__global uint *rs, __write_only image2d_t image1,\n"
" __write_only image2d_t image2,\n"
" __read_only image2d_t image3) {\n"
" float4 fcolor;\n"
" int4 scolor;\n"
" int2 coord;\n"
" sampler_t sampler = CLK_NORMALIZED_COORDS_TRUE |\n"
" CLK_ADDRESS_MIRRORED_REPEAT |\n"
" CLK_FILTER_NEAREST;\n"
"\n"
" if (get_image_width(image1) != 4) *rs = 1;\n"
" if (get_image_height(image1) != 4) *rs = 2;\n"
" if (get_image_channel_data_type(image2) != CLK_SIGNED_INT16) *rs = 3;\n"
" if (get_image_channel_order(image2) != CLK_RGBA) *rs = 4;\n"
"\n"
" if (*rs != 0) return;\n"
"\n"
" fcolor.x = 1.0f;\n"
" fcolor.y = 0.5f;\n"
" fcolor.z = 0.0f;\n"
" fcolor.w = 1.0f;\n"
"\n"
" scolor.x = -3057;\n"
" scolor.y = 65;\n"
" scolor.z = 0;\n"
" scolor.w = 32767;\n"
"\n"
" coord.x = 3;\n"
" coord.y = 1;\n"
"\n"
" write_imagef(image1, coord, fcolor);\n"
" write_imagei(image2, coord, scolor);\n"
"\n"
" coord.x = 1;\n"
" coord.y = 1;\n"
" fcolor = read_imagef(image3, 0, coord);\n"
" if (fcolor.x < 0.99f || fcolor.y < 0.99f || fcolor.z > 0.01f ||\n"
" fcolor.w > 0.01f) { *rs = 5; return; }\n"
"\n"
" float2 fcoords;\n"
" fcoords.x = 0.31f;\n"
" fcoords.y = 3.1415f;\n"
" fcolor = read_imagef(image3, sampler, fcoords);\n"
"}\n";
enum TestCaseKind
{
NormalKind,
SamplerKind,
BarrierKind,
ImageKind
};
/*
* To ease testing, each kernel will be a Task kernel taking a pointer to an
* integer and running built-in functions. If an error is encountered, the
* integer pointed to by the arg will be set accordingly. If the kernel succeeds,
* this integer is set to 0.
*/
static uint32_t run_kernel(const char *source, TestCaseKind kind)
{
cl_platform_id platform = 0;
cl_device_id device;
cl_context ctx;
cl_command_queue queue;
cl_program program;
cl_int result;
cl_kernel kernel;
cl_event event;
cl_mem rs_buf;
cl_sampler sampler;
cl_mem mem1, mem2, mem3;
cl_image_format fmt;
unsigned char image2d_data[3*3*4] = {
255, 0, 0, 0, 0, 255, 0, 0, 128, 128, 128, 0,
0, 0, 255, 0, 255, 255, 0, 0, 0, 128, 0, 0,
255, 128, 0, 0, 128, 0, 255, 0, 0, 0, 0, 0
};
uint32_t rs = 0;
result = clGetDeviceIDs(platform, CL_DEVICE_TYPE_DEFAULT, 1, &device, 0);
if (result != CL_SUCCESS) return 65536;
ctx = clCreateContext(0, 1, &device, 0, 0, &result);
if (result != CL_SUCCESS) return 65537;
queue = clCreateCommandQueue(ctx, device, 0, &result);
if (result != CL_SUCCESS) return 65538;
program = clCreateProgramWithSource(ctx, 1, &source, 0, &result);
if (result != CL_SUCCESS) return 65539;
result = clBuildProgram(program, 1, &device, "", 0, 0);
if (result != CL_SUCCESS)
{
// Print log
char *log = 0;
size_t len = 0;
clGetProgramBuildInfo(program, device, CL_PROGRAM_BUILD_LOG, 0, 0, &len);
log = (char *)std::malloc(len);
clGetProgramBuildInfo(program, device, CL_PROGRAM_BUILD_LOG, len, log, 0);
std::cout << log << std::endl;
std::free(log);
return 65540;
}
kernel = clCreateKernel(program, "test_case", &result);
if (result != CL_SUCCESS) return 65541;
// Create the result buffer
rs_buf = clCreateBuffer(ctx, CL_MEM_READ_WRITE | CL_MEM_USE_HOST_PTR,
sizeof(rs), &rs, &result);
if (result != CL_SUCCESS) return 65542;
result = clSetKernelArg(kernel, 0, sizeof(cl_mem), &rs_buf);
if (result != CL_SUCCESS) return 65543;
// Kind
switch (kind)
{
case NormalKind:
break;
case SamplerKind:
sampler = clCreateSampler(ctx, 1, CL_ADDRESS_MIRRORED_REPEAT, CL_FILTER_NEAREST, &result);
if (result != CL_SUCCESS) return 65546;
result = clSetKernelArg(kernel, 1, sizeof(cl_sampler), &sampler);
if (result != CL_SUCCESS) return 65547;
break;
case ImageKind:
fmt.image_channel_data_type = CL_UNORM_INT8;
fmt.image_channel_order = CL_RGBA;
mem1 = clCreateImage2D(ctx, CL_MEM_WRITE_ONLY, &fmt, 4, 4, 0, 0, &result);
if (result != CL_SUCCESS) return 65548;
mem3 = clCreateImage2D(ctx, CL_MEM_READ_ONLY | CL_MEM_COPY_HOST_PTR,
&fmt, 3, 3, 0, image2d_data, &result);
if (result != CL_SUCCESS) return 65548;
fmt.image_channel_data_type = CL_SIGNED_INT16;
mem2 = clCreateImage2D(ctx, CL_MEM_WRITE_ONLY, &fmt, 4, 4, 0, 0, &result);
if (result != CL_SUCCESS) return 65548;
result = clSetKernelArg(kernel, 1, sizeof(cl_mem), &mem1);
if (result != CL_SUCCESS) return 65549;
result = clSetKernelArg(kernel, 2, sizeof(cl_mem), &mem2);
if (result != CL_SUCCESS) return 65549;
result = clSetKernelArg(kernel, 3, sizeof(cl_mem), &mem3);
if (result != CL_SUCCESS) return 65549;
break;
default:
break;
}
if (kind == BarrierKind)
{
size_t local_size = 64;
size_t global_size = 64;
result = clEnqueueNDRangeKernel(queue, kernel, 1, 0, &global_size,
&local_size, 0, 0, &event);
if (result != CL_SUCCESS) return 65544;
}
else
{
result = clEnqueueTask(queue, kernel, 0, 0, &event);
if (result != CL_SUCCESS) return 65544;
}
result = clWaitForEvents(1, &event);
if (result != CL_SUCCESS) return 65545;
if (kind == SamplerKind) clReleaseSampler(sampler);
if (kind == ImageKind)
{
clReleaseMemObject(mem1);
clReleaseMemObject(mem2);
clReleaseMemObject(mem3);
}
clReleaseEvent(event);
clReleaseMemObject(rs_buf);
clReleaseKernel(kernel);
clReleaseProgram(program);
clReleaseCommandQueue(queue);
clReleaseContext(ctx);
return rs;
}
static const char *default_error(uint32_t errcode)
{
switch (errcode)
{
case 0:
return 0;
case 65536:
return "Cannot get a device ID";
case 65537:
return "Cannot create a context";
case 65538:
return "Cannot create a command queue";
case 65539:
return "Cannot create a program with given source";
case 65540:
return "Cannot build the program";
case 65541:
return "Cannot create the test_case kernel";
case 65542:
return "Cannot create a buffer holding a uint32_t";
case 65543:
return "Cannot set kernel argument";
case 65544:
return "Cannot enqueue the kernel";
case 65545:
return "Cannot wait for the event";
case 65546:
return "Cannot create a sampler";
case 65547:
return "Cannot set a sampler kernel argument";
case 65548:
return "Cannot create an Image2D object";
case 65549:
return "Cannot set image kernel argument";
default:
return "Unknown error code";
}
}
START_TEST (test_sampler)
{
uint32_t rs = run_kernel(sampler_source, SamplerKind);
const char *errstr = 0;
switch (rs)
{
case 1:
errstr = "Sampler bitfield invalid";
break;
default:
errstr = default_error(rs);
}
fail_if(
errstr != 0,
errstr
);
}
END_TEST
START_TEST (test_barrier)
{
uint32_t rs = run_kernel(barrier_source, BarrierKind);
fail_if(
rs != 0x40,
default_error(rs)
);
}
END_TEST
START_TEST (test_image)
{
uint32_t rs = run_kernel(image_source, ImageKind);
const char *errstr = 0;
switch (rs)
{
case 1:
errstr = "Image1 must have width of 4";
break;
case 2:
errstr = "Image1 must have width of 4";
break;
case 3:
errstr = "Image2 must have type SIGNED_FLOAT16";
break;
case 4:
errstr = "Image2 must have channel order RGBA";
break;
case 5:
errstr = "The value read from the image is not good";
break;
default:
errstr = default_error(rs);
}
fail_if(
errstr != 0,
errstr
);
}
END_TEST
TCase *cl_builtins_tcase_create(void)
{
TCase *tc = NULL;
tc = tcase_create("builtins");
tcase_add_test(tc, test_sampler);
tcase_add_test(tc, test_barrier);
tcase_add_test(tc, test_image);
return tc;
}
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