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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [testsuite/] [gcc.dg/] [di-sync-multithread.c] - Rev 708
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/* { dg-do run } */ /* { dg-require-effective-target sync_long_long_runtime } */ /* { dg-require-effective-target pthread_h } */ /* { dg-require-effective-target pthread } */ /* { dg-options "-pthread -std=gnu99" } */ /* { dg-additional-options "-march=pentium" { target { { i?86-*-* x86_64-*-* } && ia32 } } } */ /* test of long long atomic ops performed in parallel in 3 pthreads david.gilbert@linaro.org */ #include <pthread.h> #include <unistd.h> #ifdef _WIN32 #include <windows.h> #endif /*#define DEBUGIT 1 */ #ifdef DEBUGIT #include <stdio.h> #define DOABORT(x,...) {\ fprintf (stderr, x, __VA_ARGS__); fflush (stderr); abort ();\ } #else #define DOABORT(x,...) abort (); #endif /* Passed to each thread to describe which bits it is going to work on. */ struct threadwork { unsigned long long count; /* incremented each time the worker loops. */ unsigned int thread; /* ID */ unsigned int addlsb; /* 8 bit */ unsigned int logic1lsb; /* 5 bit */ unsigned int logic2lsb; /* 8 bit */ }; /* The shared word where all the atomic work is done. */ static volatile long long workspace; /* A shared word to tell the workers to quit when non-0. */ static long long doquit; extern void abort (void); /* Note this test doesn't test the return values much. */ void* worker (void* data) { struct threadwork *tw = (struct threadwork*)data; long long add1bit = 1ll << tw->addlsb; long long logic1bit = 1ll << tw->logic1lsb; long long logic2bit = 1ll << tw->logic2lsb; /* Clear the bits we use. */ __sync_and_and_fetch (&workspace, ~(0xffll * add1bit)); __sync_fetch_and_and (&workspace, ~(0x1fll * logic1bit)); __sync_fetch_and_and (&workspace, ~(0xffll * logic2bit)); do { long long tmp1, tmp2, tmp3; /* OK, lets try and do some stuff to the workspace - by the end of the main loop our area should be the same as it is now - i.e. 0. */ /* Push the arithmetic section upto 128 - one of the threads will case this to carry accross the 32bit boundary. */ for (tmp2 = 0; tmp2 < 64; tmp2++) { /* Add 2 using the two different adds. */ tmp1 = __sync_add_and_fetch (&workspace, add1bit); tmp3 = __sync_fetch_and_add (&workspace, add1bit); /* The value should be the intermediate add value in both cases. */ if ((tmp1 & (add1bit * 0xff)) != (tmp3 & (add1bit * 0xff))) DOABORT ("Mismatch of add intermediates on thread %d " "workspace=0x%llx tmp1=0x%llx " "tmp2=0x%llx tmp3=0x%llx\n", tw->thread, workspace, tmp1, tmp2, tmp3); } /* Set the logic bits. */ tmp2=__sync_or_and_fetch (&workspace, 0x1fll * logic1bit | 0xffll * logic2bit); /* Check the logic bits are set and the arithmetic value is correct. */ if ((tmp2 & (0x1fll * logic1bit | 0xffll * logic2bit | 0xffll * add1bit)) != (0x1fll * logic1bit | 0xffll * logic2bit | 0x80ll * add1bit)) DOABORT ("Midloop check failed on thread %d " "workspace=0x%llx tmp2=0x%llx " "masktmp2=0x%llx expected=0x%llx\n", tw->thread, workspace, tmp2, tmp2 & (0x1fll * logic1bit | 0xffll * logic2bit | 0xffll * add1bit), (0x1fll * logic1bit | 0xffll * logic2bit | 0x80ll * add1bit)); /* Pull the arithmetic set back down to 0 - again this should cause a carry across the 32bit boundary in one thread. */ for (tmp2 = 0; tmp2 < 64; tmp2++) { /* Subtract 2 using the two different subs. */ tmp1=__sync_sub_and_fetch (&workspace, add1bit); tmp3=__sync_fetch_and_sub (&workspace, add1bit); /* The value should be the intermediate sub value in both cases. */ if ((tmp1 & (add1bit * 0xff)) != (tmp3 & (add1bit * 0xff))) DOABORT ("Mismatch of sub intermediates on thread %d " "workspace=0x%llx tmp1=0x%llx " "tmp2=0x%llx tmp3=0x%llx\n", tw->thread, workspace, tmp1, tmp2, tmp3); } /* Clear the logic bits. */ __sync_fetch_and_xor (&workspace, 0x1fll * logic1bit); tmp3=__sync_and_and_fetch (&workspace, ~(0xffll * logic2bit)); /* The logic bits and the arithmetic bits should be zero again. */ if (tmp3 & (0x1fll * logic1bit | 0xffll * logic2bit | 0xffll * add1bit)) DOABORT ("End of worker loop; bits none 0 on thread %d " "workspace=0x%llx tmp3=0x%llx " "mask=0x%llx maskedtmp3=0x%llx\n", tw->thread, workspace, tmp3, (0x1fll * logic1bit | 0xffll * logic2bit | 0xffll * add1bit), tmp3 & (0x1fll * logic1bit | 0xffll * logic2bit | 0xffll * add1bit)); __sync_add_and_fetch (&tw->count, 1); } while (!__sync_bool_compare_and_swap (&doquit, 1, 1)); pthread_exit (0); } int main () { /* We have 3 threads doing three sets of operations, an 8 bit arithmetic field, a 5 bit logic field and an 8 bit logic field (just to pack them all in). 6 5 4 4 3 2 1 3 6 8 0 2 4 6 8 0 |...,...|...,...|...,...|...,...|...,...|...,...|...,...|...,... - T0 -- T1 -- T2 --T2 -- T0 -*- T2-- T1-- T1 -***- T0- logic2 logic2 arith log2 arith log1 log1 arith log1 */ unsigned int t; long long tmp; int err; struct threadwork tw[3]={ { 0ll, 0, 27, 0, 56 }, { 0ll, 1, 8,16, 48 }, { 0ll, 2, 40,21, 35 } }; pthread_t threads[3]; __sync_lock_release (&doquit); /* Get the work space into a known value - All 1's. */ __sync_lock_release (&workspace); /* Now all 0. */ tmp = __sync_val_compare_and_swap (&workspace, 0, -1ll); if (tmp!=0) DOABORT ("Initial __sync_val_compare_and_swap wasn't 0 workspace=0x%llx " "tmp=0x%llx\n", workspace,tmp); for (t = 0; t < 3; t++) { err=pthread_create (&threads[t], NULL , worker, &tw[t]); if (err) DOABORT ("pthread_create failed on thread %d with error %d\n", t, err); }; #ifdef _WIN32 Sleep (5000); #else sleep (5); #endif /* Stop please. */ __sync_lock_test_and_set (&doquit, 1ll); for (t = 0; t < 3; t++) { err=pthread_join (threads[t], NULL); if (err) DOABORT ("pthread_join failed on thread %d with error %d\n", t, err); }; __sync_synchronize (); /* OK, so all the workers have finished - the workers should have zero'd their workspace, the unused areas should still be 1. */ if (!__sync_bool_compare_and_swap (&workspace, 0x040000e0ll, 0)) DOABORT ("End of run workspace mismatch, got %llx\n", workspace); /* All the workers should have done some work. */ for (t = 0; t < 3; t++) { if (tw[t].count == 0) DOABORT ("Worker %d gave 0 count\n", t); }; return 0; }
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