375 lines
12 KiB
C++
375 lines
12 KiB
C++
//
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// Copyright (c) 2017 The Khronos Group Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//
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#include <stdio.h>
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#include <string.h>
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#include "harness/testHarness.h"
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#include "harness/typeWrappers.h"
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#include <vector>
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#include "procs.h"
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#include "utils.h"
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#include <time.h>
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#ifdef CL_VERSION_2_0
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static int gNestingLevel = 4;
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extern int gWimpyMode;
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static const char* enqueue_nested_blocks_single[] =
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{
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NL, "void block_fn(__global int* res, int level)"
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NL, "{"
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NL, " size_t tid = get_global_id(0);"
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NL, " queue_t def_q = get_default_queue();"
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NL, " ndrange_t ndrange = ndrange_1D(3);"
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NL, " if(--level < 0) return;"
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NL, ""
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NL, " void (^kernelBlock)(void) = ^{ block_fn(res, level); };"
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NL, ""
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NL, " // Only 1 work-item enqueues block"
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NL, " if(tid == 1)"
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NL, " {"
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NL, " res[tid]++;"
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NL, " int enq_res = enqueue_kernel(def_q, CLK_ENQUEUE_FLAGS_WAIT_KERNEL, ndrange, kernelBlock);"
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NL, " if(enq_res != CLK_SUCCESS) { res[tid] = -1; return; }"
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NL, " }"
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NL, "}"
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NL, ""
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NL, "kernel void enqueue_nested_blocks_single(__global int* res, int level)"
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NL, "{"
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NL, " block_fn(res, level);"
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NL, "}"
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NL
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};
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static const char* enqueue_nested_blocks_some_eq[] =
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{
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NL, "void block_fn(int level, __global int* res)"
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NL, "{"
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NL, " size_t tid = get_global_id(0);"
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NL, " queue_t def_q = get_default_queue();"
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NL, " ndrange_t ndrange = ndrange_1D(10);"
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NL, " if(--level < 0) return;"
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NL, ""
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NL, " void (^kernelBlock)(void) = ^{ block_fn(level, res); };"
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NL, ""
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NL, " // Some work-items enqueues nested blocks with the same level"
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NL, " if(tid < (get_global_size(0) >> 1))"
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NL, " {"
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NL, " atomic_inc(&res[tid]);"
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NL, " int enq_res = enqueue_kernel(def_q, CLK_ENQUEUE_FLAGS_WAIT_KERNEL, ndrange, kernelBlock);"
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NL, " if(enq_res != CLK_SUCCESS) { res[tid] = -1; return; }"
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NL, " }"
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NL, "}"
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NL, ""
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NL, "kernel void enqueue_nested_blocks_some_eq(__global int* res, int level)"
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NL, "{"
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NL, " block_fn(level, res);"
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NL, "}"
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NL
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};
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static const char* enqueue_nested_blocks_some_diff[] =
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{
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NL, "void block_fn(int level, __global int* res)"
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NL, "{"
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NL, " size_t tid = get_global_id(0);"
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NL, " queue_t def_q = get_default_queue();"
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NL, " ndrange_t ndrange = ndrange_1D(10);"
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NL, " if(--level < 0) return;"
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NL, ""
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NL, " void (^kernelBlock)(void) = ^{ block_fn(level, res); };"
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NL, ""
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NL, " // Some work-items enqueues nested blocks with different levels"
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NL, " if(tid % 2)"
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NL, " {"
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NL, " atomic_inc(&res[tid]);"
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NL, " if(level >= tid)"
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NL, " {"
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NL, " int enq_res = enqueue_kernel(def_q, CLK_ENQUEUE_FLAGS_WAIT_KERNEL, ndrange, kernelBlock);"
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NL, " if(enq_res != CLK_SUCCESS) { res[tid] = -1; return; }"
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NL, " }"
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NL, " }"
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NL, "}"
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NL, ""
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NL, "kernel void enqueue_nested_blocks_some_diff(__global int* res, int level)"
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NL, "{"
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NL, " block_fn(level, res);"
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NL, "}"
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NL
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};
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static const char* enqueue_nested_blocks_all_eq[] =
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{
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NL, "void block_fn(int level, __global int* res)"
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NL, "{"
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NL, " size_t tid = get_global_id(0);"
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NL, " queue_t def_q = get_default_queue();"
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NL, " ndrange_t ndrange = ndrange_1D(4);"
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NL, " if(--level < 0) return;"
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NL, ""
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NL, " void (^kernelBlock)(void) = ^{ block_fn(level, res); };"
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NL, ""
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NL, " // All work-items enqueues nested blocks with the same level"
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NL, " atomic_inc(&res[tid]);"
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NL, " int enq_res = enqueue_kernel(def_q, CLK_ENQUEUE_FLAGS_WAIT_KERNEL, ndrange, kernelBlock);"
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NL, " if(enq_res != CLK_SUCCESS) { res[tid] = -1; return; }"
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NL, "}"
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NL, ""
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NL, "kernel void enqueue_nested_blocks_all_eq(__global int* res, int level)"
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NL, "{"
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NL, " block_fn(level, res);"
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NL, "}"
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NL
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};
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static const char* enqueue_nested_blocks_all_diff[] =
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{
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NL, "void block_fn(int level, __global int* res)"
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NL, "{"
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NL, " size_t tid = get_global_id(0);"
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NL, " queue_t def_q = get_default_queue();"
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NL, " ndrange_t ndrange = ndrange_1D(10);"
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NL, " if(--level < 0) return;"
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NL, ""
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NL, " void (^kernelBlock)(void) = ^{ block_fn(level, res); };"
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NL, ""
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NL, " // All work-items enqueues nested blocks with different levels"
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NL, " atomic_inc(&res[tid]);"
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NL, " if(level >= tid)"
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NL, " {"
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NL, " int enq_res = enqueue_kernel(def_q, CLK_ENQUEUE_FLAGS_WAIT_KERNEL, ndrange, kernelBlock);"
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NL, " if(enq_res != CLK_SUCCESS) { res[tid] = -1; return; }"
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NL, " }"
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NL, "}"
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NL, ""
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NL, "kernel void enqueue_nested_blocks_all_diff(__global int* res, int level)"
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NL, "{"
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NL, " block_fn(level, res);"
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NL, "}"
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NL
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};
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static int check_single(cl_int* results, cl_int len, cl_int nesting_level)
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{
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int i, fail = -1;
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const cl_uint tid = 1;
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for(i = 0; i < len; ++i)
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{
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if(i != tid && results[i] != 0) { fail = i; break; }
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if(i == tid && results[i] != nesting_level) { fail = i; break; }
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}
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return fail;
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}
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void generate_reference_some_eq(std::vector<cl_int> &referenceResults, cl_int len, cl_int nesting_level)
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{
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size_t globalWorkSize = (nesting_level == gNestingLevel)? len: 10;
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if(--nesting_level < 0) return;
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for (size_t tid = 0; tid < globalWorkSize; ++tid)
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{
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if (tid < (globalWorkSize >> 1))
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{
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++referenceResults[tid];
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generate_reference_some_eq(referenceResults, len, nesting_level);
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}
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}
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}
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static int check_some_eq(cl_int* results, cl_int len, cl_int nesting_level)
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{
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int i, fail = -1;
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std::vector<cl_int> referenceResults(len, 0);
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generate_reference_some_eq(referenceResults, len, nesting_level);
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for(i = 0; i < len; ++i)
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{
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if (results[i] != referenceResults[i]) { fail = i; break; }
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}
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return fail;
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}
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void generate_reference_some_diff(std::vector<cl_int> &referenceResults, cl_int len, cl_int nesting_level)
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{
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size_t globalWorkSize = (nesting_level == gNestingLevel)? len: 10;
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if(--nesting_level < 0) return;
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for (size_t tid = 0; tid < globalWorkSize; ++tid)
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{
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if (tid % 2)
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{
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++referenceResults[tid];
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if (nesting_level >= tid)
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{
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generate_reference_some_diff(referenceResults, len, nesting_level);
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}
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}
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}
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}
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static int check_some_diff(cl_int* results, cl_int len, cl_int nesting_level)
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{
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int i, fail = -1;
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std::vector<cl_int> referenceResults(len, 0);
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generate_reference_some_diff(referenceResults, len, nesting_level);
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for(i = 0; i < len; ++i)
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{
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if (results[i] != referenceResults[i]) { fail = i; break; }
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}
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return fail;
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}
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void generate_reference_all_eq(std::vector<cl_int> &referenceResults, cl_int len, cl_int nesting_level)
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{
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size_t globalWorkSize = (nesting_level == gNestingLevel)? len: 4;
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if(--nesting_level < 0) return;
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for (size_t tid = 0; tid < globalWorkSize; ++tid)
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{
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++referenceResults[tid];
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generate_reference_all_eq(referenceResults, len, nesting_level);
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}
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}
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static int check_all_eq(cl_int* results, cl_int len, cl_int nesting_level)
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{
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int i, fail = -1;
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std::vector<cl_int> referenceResults(len, 0);
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generate_reference_all_eq(referenceResults, len, nesting_level);
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for(i = 0; i < len; ++i)
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{
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if (results[i] != referenceResults[i]) { fail = i; break; }
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}
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return fail;
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}
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void generate_reference_all_diff(std::vector<cl_int> &referenceResults, cl_int len, cl_int nesting_level)
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{
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size_t globalWorkSize = (nesting_level == gNestingLevel)? len: 10;
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if(--nesting_level < 0) return;
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for (size_t tid = 0; tid < globalWorkSize; ++tid)
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{
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++referenceResults[tid];
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if (nesting_level >= tid)
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{
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generate_reference_all_diff(referenceResults, len, nesting_level);
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}
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}
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}
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static int check_all_diff(cl_int* results, cl_int len, cl_int nesting_level)
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{
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int i, fail = -1;
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std::vector<cl_int> referenceResults(len, 0);
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generate_reference_all_diff(referenceResults, len, nesting_level);
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for(i = 0; i < len; ++i)
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{
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if (results[i] != referenceResults[i]) { fail = i; break; }
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}
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return fail;
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}
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static const kernel_src_check sources_nested_blocks[] =
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{
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{ KERNEL(enqueue_nested_blocks_single), check_single },
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{ KERNEL(enqueue_nested_blocks_some_eq), check_some_eq },
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{ KERNEL(enqueue_nested_blocks_some_diff), check_some_diff },
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{ KERNEL(enqueue_nested_blocks_all_eq), check_all_eq },
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{ KERNEL(enqueue_nested_blocks_all_diff), check_all_diff }
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};
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int test_enqueue_nested_blocks(cl_device_id device, cl_context context, cl_command_queue queue, int num_elements)
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{
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cl_uint i, k;
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cl_int err_ret, res = 0;
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clCommandQueueWrapper dev_queue;
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const size_t MAX_GLOBAL_WORK_SIZE = MAX_GWS / 4;
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cl_int kernel_results[MAX_GLOBAL_WORK_SIZE] = {0};
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if(gWimpyMode)
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{
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gNestingLevel = 2;
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vlog( "*** WARNING: Testing in Wimpy mode! ***\n" );
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vlog( "*** Wimpy mode is not sufficient to verify correctness. ***\n" );
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}
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size_t ret_len;
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cl_uint max_queues = 1;
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cl_uint maxQueueSize = 0;
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err_ret = clGetDeviceInfo(device, CL_DEVICE_QUEUE_ON_DEVICE_MAX_SIZE, sizeof(maxQueueSize), &maxQueueSize, 0);
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test_error(err_ret, "clGetDeviceInfo(CL_DEVICE_QUEUE_ON_DEVICE_MAX_SIZE) failed");
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err_ret = clGetDeviceInfo(device, CL_DEVICE_MAX_ON_DEVICE_QUEUES, sizeof(max_queues), &max_queues, &ret_len);
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test_error(err_ret, "clGetDeviceInfo(CL_DEVICE_MAX_ON_DEVICE_QUEUES) failed");
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cl_queue_properties queue_prop_def[] =
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{
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CL_QUEUE_PROPERTIES, CL_QUEUE_OUT_OF_ORDER_EXEC_MODE_ENABLE|CL_QUEUE_ON_DEVICE|CL_QUEUE_ON_DEVICE_DEFAULT,
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CL_QUEUE_SIZE, maxQueueSize,
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0
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};
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dev_queue = clCreateCommandQueueWithProperties(context, device, queue_prop_def, &err_ret);
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test_error(err_ret, "clCreateCommandQueueWithProperties(CL_QUEUE_DEVICE|CL_QUEUE_DEFAULT) failed");
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kernel_arg args[] =
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{
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{ sizeof(cl_int), &gNestingLevel }
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};
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size_t failCnt = 0;
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for(k = 0; k < arr_size(sources_nested_blocks); ++k)
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{
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if (!gKernelName.empty() && gKernelName != sources_nested_blocks[k].src.kernel_name)
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continue;
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log_info("Running '%s' kernel (%d of %d) ...\n", sources_nested_blocks[k].src.kernel_name, k + 1, arr_size(sources_nested_blocks));
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for(i = 0; i < MAX_GLOBAL_WORK_SIZE; ++i) kernel_results[i] = 0;
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err_ret = run_n_kernel_args(context, queue, sources_nested_blocks[k].src.lines, sources_nested_blocks[k].src.num_lines, sources_nested_blocks[k].src.kernel_name, 0, MAX_GLOBAL_WORK_SIZE, kernel_results, sizeof(kernel_results), arr_size(args), args);
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if(check_error(err_ret, "'%s' kernel execution failed", sources_nested_blocks[k].src.kernel_name)) { res = -1; continue ; }
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//check results
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int fail = sources_nested_blocks[k].check(kernel_results, MAX_GLOBAL_WORK_SIZE, gNestingLevel);
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if(check_error(err_ret, "'%s' kernel execution failed", sources_nested_blocks[k].src.kernel_name)) { ++failCnt; res = -1; continue; }
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else if(fail >= 0 && check_error(-1, "'%s' kernel results validation failed: [%d] returned %d expected 0", sources_nested_blocks[k].src.kernel_name, fail, kernel_results[fail])) { ++failCnt; res = -1; continue; }
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else log_info("'%s' kernel is OK.\n", sources_nested_blocks[k].src.kernel_name);
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}
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if (failCnt > 0)
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{
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log_error("ERROR: %d of %d kernels failed.\n", failCnt, arr_size(sources_nested_blocks));
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}
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return res;
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}
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#endif
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