Index: openmp/trunk/runtime/src/kmp_lock.cpp =================================================================== --- openmp/trunk/runtime/src/kmp_lock.cpp +++ openmp/trunk/runtime/src/kmp_lock.cpp @@ -3058,11 +3058,12 @@ if (idx == __kmp_i_lock_table.size) { // Double up the space for block pointers int row = __kmp_i_lock_table.size / KMP_I_LOCK_CHUNK; - kmp_indirect_lock_t **old_table = __kmp_i_lock_table.table; - __kmp_i_lock_table.table = (kmp_indirect_lock_t **)__kmp_allocate( + kmp_indirect_lock_t **new_table = (kmp_indirect_lock_t **)__kmp_allocate( 2 * row * sizeof(kmp_indirect_lock_t *)); - KMP_MEMCPY(__kmp_i_lock_table.table, old_table, + KMP_MEMCPY(new_table, __kmp_i_lock_table.table, row * sizeof(kmp_indirect_lock_t *)); + kmp_indirect_lock_t **old_table = __kmp_i_lock_table.table; + __kmp_i_lock_table.table = new_table; __kmp_free(old_table); // Allocate new objects in the new blocks for (int i = row; i < 2 * row; ++i) Index: openmp/trunk/runtime/test/lock/omp_init_lock.c =================================================================== --- openmp/trunk/runtime/test/lock/omp_init_lock.c +++ openmp/trunk/runtime/test/lock/omp_init_lock.c @@ -0,0 +1,42 @@ +// RUN: %libomp-compile-and-run +#include "omp_testsuite.h" +#include + +// This should be slightly less than KMP_I_LOCK_CHUNK, which is 1024 +#define LOCKS_PER_ITER 1000 +#define ITERATIONS (REPETITIONS + 1) + +// This tests concurrently using locks on one thread while initializing new +// ones on another thread. This exercises the global lock pool. +int test_omp_init_lock() { + int i; + omp_lock_t lcks[ITERATIONS * LOCKS_PER_ITER]; +#pragma omp parallel for schedule(static) num_threads(NUM_TASKS) + for (i = 0; i < ITERATIONS; i++) { + int j; + omp_lock_t *my_lcks = &lcks[i * LOCKS_PER_ITER]; + for (j = 0; j < LOCKS_PER_ITER; j++) { + omp_init_lock(&my_lcks[j]); + } + for (j = 0; j < LOCKS_PER_ITER * 100; j++) { + omp_set_lock(&my_lcks[j % LOCKS_PER_ITER]); + omp_unset_lock(&my_lcks[j % LOCKS_PER_ITER]); + } + } + // Wait until all repititions are done. The test is exercising growth of + // the global lock pool, which does not shrink when no locks are allocated. + { + int j; + for (j = 0; j < ITERATIONS * LOCKS_PER_ITER; j++) { + omp_destroy_lock(&lcks[j]); + } + } + + return 0; +} + +int main() { + // No use repeating this test, since it's exercising a private global pool + // which is not reset between test iterations. + return test_omp_init_lock(); +}