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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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.
*/
/* $Rev$ $Date$ */
/**
* Test OpenCL kernel evaluator.
*/
#include <assert.h>
#include "stream.hpp"
#include "string.hpp"
#include "driver.hpp"
#include "parallel.hpp"
#include "perf.hpp"
namespace tuscany {
namespace opencl {
const string testFloatsCPU =
"kernel void add(const float x, const float y, global float* r) {\n"
" float l_x;\n"
" float l_y;\n"
" l_x = x;\n"
" l_y = y;\n"
" *r = l_x + l_y;\n"
"}\n"
"kernel void float_add(const float x, const float y, global float* r) {\n"
" add(x, y, r);\n"
"}\n";
const string testFloatsGPU =
"kernel void add(const float x, const float y, global float* r) {\n"
" local float l_x;\n"
" local float l_y;\n"
" l_x = x;\n"
" l_y = y;\n"
" barrier(CLK_LOCAL_MEM_FENCE);\n"
" *r = l_x + l_y;\n"
"}\n"
"kernel void float_add(const float x, const float y, global float* r) {\n"
" add(x, y, r);\n"
"}\n";
const string testBoolsCPU =
"kernel void int_or(const int x, const int y, global int* r) {\n"
" int l_x;\n"
" int l_y;\n"
" l_x = x;\n"
" l_y = y;\n"
" *r = l_x || l_y;\n"
"}\n";
const string testBoolsGPU =
"kernel void int_or(const int x, const int y, global int* r) {\n"
" local int l_x;\n"
" local int l_y;\n"
" l_x = x;\n"
" l_y = y;\n"
" barrier(CLK_LOCAL_MEM_FENCE);\n"
" *r = l_x || l_y;\n"
"}\n";
const string testCharsCPU =
"kernel void add(const float xl, global const char* x, const float yl, global const char* y, global char* r) {\n"
" const int ixl = (int)xl;\n"
" const int iyl = (int)yl;\n"
" for (int i = 0; i < ixl; i++)\n"
" r[i] = x[i];\n"
" for (int i = 0; i < iyl; i++)\n"
" r[ixl + i] = y[i];\n"
" r[ixl + iyl] = '\\0';\n"
"}\n"
"kernel void char128_add(const float xl, global const char* x, const float yl, global const char* y, global char* r) {\n"
" add(xl, x, yl, y, r);\n"
"}\n";
const string testCharsCopyGPU =
"kernel void add(const float xl, global const char* x, const float yl, global const char* y, global char* r) {\n"
" const int ixl = (int)xl;\n"
" const int iyl = (int)yl;\n"
" local char l_x[128];\n"
" local char l_y[128];\n"
" event_t re = async_work_group_copy(l_x, x, ixl, 0);\n"
" async_work_group_copy(l_y, y, iyl, re);\n"
" wait_group_events(1, &re);\n"
" local char l_r[128];\n"
" for (int i = 0; i < ixl; i++)\n"
" l_r[i] = l_x[i];\n"
" for (int i = 0; i < iyl; i++)\n"
" l_r[ixl + i] = l_y[i];\n"
" l_r[ixl + iyl] = '\\0';\n"
" event_t we = async_work_group_copy(r, l_r, ixl + iyl + 1, 0);\n"
" wait_group_events(1, &we);\n"
"}\n"
"kernel void char128(const float xl, global const char* x, const float yl, global const char* y, global char* r) {\n"
" add(xl, x, yl, y, r);\n"
"}\n";
const string testCharsGPU =
"kernel void add(const float xl, global const char* x, const float yl, global const char* y, global char* r) {\n"
" const int ixl = (int)xl;\n"
" const int iyl = (int)yl;\n"
" for (int i = 0; i < ixl; i++)\n"
" r[i] = x[i];\n"
" for (int i = 0; i < iyl; i++)\n"
" r[ixl + i] = y[i];\n"
" r[ixl + iyl] = '\\0';\n"
"}\n"
"kernel void char128(const float xl, global const char* x, const float yl, global const char* y, global char* r) {\n"
" add(xl, x, yl, y, r);\n"
"}\n";
const string testCharsParallelCPU =
"kernel void add(const float xl, global const char* x, const float yl, global const char* y, global char* r) {\n"
" const int i = get_global_id(0);\n"
" const int ixl = (int)xl;\n"
" const int iyl = (int)yl;\n"
" r[i] = i < ixl? x[i] : i < ixl + iyl? y[i - ixl] : '\\0';\n"
"}\n";
const string testCharsParallelCopyGPU =
"kernel void add(const float xl, global const char* x, const float yl, global const char* y, global char* r) {\n"
" const int i = get_global_id(0);\n"
" const int ixl = (int)xl;\n"
" const int iyl = (int)yl;\n"
" local char l_x[128];\n"
" local char l_y[128];\n"
" event_t re = async_work_group_copy(l_x, x, ixl, 0);\n"
" async_work_group_copy(l_y, y, iyl, re);\n"
" wait_group_events(1, &re);\n"
" local char l_r[128];\n"
" l_r[i] = i < ixl? l_x[i] : i < ixl + iyl? l_y[i - ixl] : '\\0';\n"
" event_t we = async_work_group_copy(r, l_r, ixl + iyl + 1, 0);\n"
" wait_group_events(1, &we);\n"
"}\n";
const string testCharsParallelGPU =
"kernel void add(const float xl, global const char* x, const float yl, global const char* y, global char* r) {\n"
" const int i = get_global_id(0);\n"
" const int ixl = (int)xl;\n"
" const int iyl = (int)yl;\n"
" r[i] = i < ixl? x[i] : i < ixl + iyl? y[i - ixl] : '\\0';\n"
"}\n";
const bool testTaskParallel(const OpenCLContext::DeviceType dev) {
const gc_scoped_pool pool;
OpenCLContext cl(dev);
if (!devices(cl) != 0)
return true;
{
istringstream is(dev == OpenCLContext::CPU? testFloatsCPU : testFloatsGPU);
failable<OpenCLProgram> clprog = readProgram("kernel.cl", is, cl);
assert(hasContent(clprog));
const value exp = mklist<value>("float_add", 2, 3);
const failable<value> r = evalKernel(createKernel(exp, content(clprog)), exp, cl);
assert(hasContent(r));
assert(content(r) == value(5));
}
if (true) return true;
{
istringstream is(dev == OpenCLContext::CPU? testFloatsCPU : testFloatsGPU);
failable<OpenCLProgram> clprog = readProgram("kernel.cl", is, cl);
assert(hasContent(clprog));
const value exp = mklist<value>("add", 2, 3);
const failable<value> r = evalKernel(createKernel(exp, content(clprog)), exp, 1, value::Number, 1, cl);
assert(hasContent(r));
assert(content(r) == value(5));
}
{
istringstream is(dev == OpenCLContext::CPU? testBoolsCPU : testBoolsGPU);
failable<OpenCLProgram> clprog = readProgram("kernel.cl", is, cl);
assert(hasContent(clprog));
const value exp = mklist<value>("int_or", true, false);
const failable<value> r = evalKernel(createKernel(exp, content(clprog)), exp, cl);
assert(hasContent(r));
assert(content(r) == trueValue);
const value exp2 = mklist<value>("int_or", false, false);
const failable<value> r2 = evalKernel(createKernel(exp2, content(clprog)), exp2, cl);
assert(hasContent(r2));
assert(content(r2) == falseValue);
}
{
istringstream is(dev == OpenCLContext::CPU? testCharsCPU : testCharsGPU);
failable<OpenCLProgram> clprog = readProgram("kernel.cl", is, cl);
assert(hasContent(clprog));
const value exp = mklist<value>("char128", 60, string("Hello Hello Hello Hello Hello Hello Hello Hello Hello Hello "), 60, string("World World World World World World World World World World "));
const failable<value> r = evalKernel(createKernel(exp, content(clprog)), exp, cl);
assert(hasContent(r));
assert(content(r) == value(string("Hello Hello Hello Hello Hello Hello Hello Hello Hello Hello World World World World World World World World World World ")));
}
{
istringstream is(dev == OpenCLContext::CPU? testCharsCPU : testCharsGPU);
failable<OpenCLProgram> clprog = readProgram("kernel.cl", is, cl);
assert(hasContent(clprog));
const value exp = mklist<value>("add", 60, string("Hello Hello Hello Hello Hello Hello Hello Hello Hello Hello "), 60, string("World World World World World World World World World World "));
const failable<value> r = evalKernel(createKernel(exp, content(clprog)), exp, 1, value::String, 128, cl);
assert(hasContent(r));
assert(content(r) == value(string("Hello Hello Hello Hello Hello Hello Hello Hello Hello Hello World World World World World World World World World World ")));
}
return true;
}
const bool testTaskParallelPerf(const OpenCLContext::DeviceType dev, const bool copy) {
const gc_scoped_pool pool;
OpenCLContext cl(dev);
if (!devices(cl) != 0)
return true;
istringstream is(dev == OpenCLContext::CPU? testCharsCPU : copy? testCharsCopyGPU : testCharsGPU);
failable<OpenCLProgram> fclprog = readProgram("kernel.cl", is, cl);
assert(hasContent(fclprog));
resetOpenCLCounters();
OpenCLProgram clprog = content(fclprog);
const value exp = mklist<value>("add", 60, string("Hello Hello Hello Hello Hello Hello Hello Hello Hello Hello "), 60, string("World World World World World World World World World World "));
const blambda el = [cl, clprog, exp]() -> const bool {
const failable<value> r = evalKernel(createKernel(exp, clprog), exp, 1, value::String, 128, cl);
assert(hasContent(r));
assert(content(r) == value(string("Hello Hello Hello Hello Hello Hello Hello Hello Hello Hello World World World World World World World World World World ")));
return true;
};
cout << "OpenCL task-parallel eval " << (dev == OpenCLContext::CPU? "CPU" : "GPU") << (copy? " copy" : "") << " test " << time(el, 5, 500) << " ms";
printOpenCLCounters(500);
cout << endl;
return true;
}
const bool testDataParallel(const OpenCLContext::DeviceType dev) {
const gc_scoped_pool pool;
OpenCLContext cl(dev);
if (!devices(cl) != 0)
return true;
{
istringstream is(dev == OpenCLContext::CPU? testCharsParallelCPU : testCharsParallelGPU);
failable<OpenCLProgram> clprog = readProgram("kernel.cl", is, cl);
assert(hasContent(clprog));
const value exp = mklist<value>("add", 6, string("Hello "), 5, string("World"));
const failable<value> r = evalKernel(createKernel(exp, content(clprog)), exp, 121, value::String, 128, cl);
assert(hasContent(r));
assert(content(r) == value(string("Hello World")));
}
return true;
}
const bool testDataParallelPerf(const OpenCLContext::DeviceType dev, const bool copy) {
const gc_scoped_pool pool;
OpenCLContext cl(dev);
if (!devices(cl) != 0)
return true;
istringstream is(dev == OpenCLContext::CPU? testCharsParallelCPU : copy? testCharsParallelCopyGPU : testCharsParallelGPU);
failable<OpenCLProgram> fclprog = readProgram("kernel.cl", is, cl);
assert(hasContent(fclprog));
resetOpenCLCounters();
OpenCLProgram clprog = content(fclprog);
const value exp = mklist<value>("add", 60, string("Hello Hello Hello Hello Hello Hello Hello Hello Hello Hello "), 60, string("World World World World World World World World World World "));
const blambda el = [cl, clprog, exp]() -> const bool {
const failable<value> r = evalKernel(createKernel(exp, clprog), exp, 121, value::String, 128, cl);
assert(hasContent(r));
assert(content(r) == value(string("Hello Hello Hello Hello Hello Hello Hello Hello Hello Hello World World World World World World World World World World ")));
return true;
};
cout << "OpenCL data-parallel eval " << (dev == OpenCLContext::CPU? "CPU" : "GPU") << (copy? " copy" : "") << " test " << time(el, 5, 500) << " ms";
printOpenCLCounters(500);
cout << endl;
return true;
}
}
}
int main() {
tuscany::cout << "Testing..." << tuscany::endl;
tuscany::opencl::testTaskParallel(tuscany::opencl::OpenCLContext::CPU);
tuscany::opencl::testTaskParallelPerf(tuscany::opencl::OpenCLContext::CPU, false);
tuscany::opencl::testDataParallel(tuscany::opencl::OpenCLContext::CPU);
tuscany::opencl::testDataParallelPerf(tuscany::opencl::OpenCLContext::CPU, false);
tuscany::opencl::testTaskParallel(tuscany::opencl::OpenCLContext::GPU);
tuscany::opencl::testTaskParallelPerf(tuscany::opencl::OpenCLContext::GPU, false);
tuscany::opencl::testTaskParallelPerf(tuscany::opencl::OpenCLContext::GPU, true);
tuscany::opencl::testDataParallel(tuscany::opencl::OpenCLContext::GPU);
tuscany::opencl::testDataParallelPerf(tuscany::opencl::OpenCLContext::GPU, false);
tuscany::opencl::testDataParallelPerf(tuscany::opencl::OpenCLContext::GPU, true);
tuscany::cout << "OK" << tuscany::endl;
return 0;
}
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