commit | a35d12ddcf4a63281499e9a9bffa0b51130b3e2d | [log] [tgz] |
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author | Linux Build Service Account <lnxbuild@localhost> | Fri Apr 15 20:01:32 2022 -0700 |
committer | Linux Build Service Account <lnxbuild@localhost> | Fri Apr 15 20:01:32 2022 -0700 |
tree | 093a10236baa01d7379125c7f105e4e980b57bb5 | |
parent | e78019952c041b63af3fed56d0601700fd1fcfc9 [diff] | |
parent | c0c4380fe015e2fd2bfcdf5c14e6b8be624c9adc [diff] |
Merge c0c4380fe015e2fd2bfcdf5c14e6b8be624c9adc on remote branch Change-Id: I1ac9b1103d0470e11486f885385672938df19884
pthreadpool is a portable and efficient thread pool implementation. It provides similar functionality to #pragma omp parallel for
, but with additional features.
The following example demonstates using the thread pool for parallel addition of two arrays:
static void add_arrays(struct array_addition_context* context, size_t i) { context->sum[i] = context->augend[i] + context->addend[i]; } #define ARRAY_SIZE 4 int main() { double augend[ARRAY_SIZE] = { 1.0, 2.0, 4.0, -5.0 }; double addend[ARRAY_SIZE] = { 0.25, -1.75, 0.0, 0.5 }; double sum[ARRAY_SIZE]; pthreadpool_t threadpool = pthreadpool_create(0); assert(threadpool != NULL); const size_t threads_count = pthreadpool_get_threads_count(threadpool); printf("Created thread pool with %zu threads\n", threads_count); struct array_addition_context context = { augend, addend, sum }; pthreadpool_parallelize_1d(threadpool, (pthreadpool_task_1d_t) add_arrays, (void*) &context, ARRAY_SIZE, PTHREADPOOL_FLAG_DISABLE_DENORMALS /* flags */); pthreadpool_destroy(threadpool); threadpool = NULL; printf("%8s\t%.2lf\t%.2lf\t%.2lf\t%.2lf\n", "Augend", augend[0], augend[1], augend[2], augend[3]); printf("%8s\t%.2lf\t%.2lf\t%.2lf\t%.2lf\n", "Addend", addend[0], addend[1], addend[2], addend[3]); printf("%8s\t%.2lf\t%.2lf\t%.2lf\t%.2lf\n", "Sum", sum[0], sum[1], sum[2], sum[3]); return 0; }