/* Processed by ecpg (regression mode) */ /* These include files are added by the preprocessor */ #include #include #include /* End of automatic include section */ #define ECPGdebug(X,Y) ECPGdebug((X)+100,(Y)) #line 1 "prep.pgc" #include #include #include "ecpg_config.h" #ifndef ENABLE_THREAD_SAFETY int main(void) { printf("No threading enabled.\n"); return 0; } #else #ifdef WIN32 #define WIN32_LEAN_AND_MEAN #include #include #include #else #include #endif #include #define THREADS 16 #define REPEATS 50 #line 1 "sqlca.h" #ifndef POSTGRES_SQLCA_H #define POSTGRES_SQLCA_H #ifndef PGDLLIMPORT #if defined(WIN32) || defined(__CYGWIN__) #define PGDLLIMPORT __declspec (dllimport) #else #define PGDLLIMPORT #endif /* __CYGWIN__ */ #endif /* PGDLLIMPORT */ #define SQLERRMC_LEN 150 #ifdef __cplusplus extern "C" { #endif struct sqlca_t { char sqlcaid[8]; long sqlabc; long sqlcode; struct { int sqlerrml; char sqlerrmc[SQLERRMC_LEN]; } sqlerrm; char sqlerrp[8]; long sqlerrd[6]; /* Element 0: empty */ /* 1: OID of processed tuple if applicable */ /* 2: number of rows processed */ /* after an INSERT, UPDATE or */ /* DELETE statement */ /* 3: empty */ /* 4: empty */ /* 5: empty */ char sqlwarn[8]; /* Element 0: set to 'W' if at least one other is 'W' */ /* 1: if 'W' at least one character string */ /* value was truncated when it was */ /* stored into a host variable. */ /* * 2: if 'W' a (hopefully) non-fatal notice occurred */ /* 3: empty */ /* 4: empty */ /* 5: empty */ /* 6: empty */ /* 7: empty */ char sqlstate[5]; }; struct sqlca_t *ECPGget_sqlca(void); #ifndef POSTGRES_ECPG_INTERNAL #define sqlca (*ECPGget_sqlca()) #endif #ifdef __cplusplus } #endif #endif #line 26 "prep.pgc" #line 1 "regression.h" #line 27 "prep.pgc" /* exec sql whenever sqlerror sqlprint ; */ #line 29 "prep.pgc" /* exec sql whenever not found sqlprint ; */ #line 30 "prep.pgc" #ifdef WIN32 static unsigned __stdcall fn(void* arg) #else static void* fn(void* arg) #endif { int i; /* exec sql begin declare section */ #line 41 "prep.pgc" int value ; #line 42 "prep.pgc" char name [ 100 ] ; #line 43 "prep.pgc" char query [ 256 ] = "INSERT INTO T VALUES ( ? )" ; /* exec sql end declare section */ #line 44 "prep.pgc" value = (intptr_t) arg; sprintf(name, "Connection: %d", value); { ECPGconnect(__LINE__, 0, "ecpg1_regression" , NULL, NULL , name, 0); #line 49 "prep.pgc" if (sqlca.sqlcode < 0) sqlprint();} #line 49 "prep.pgc" { ECPGsetcommit(__LINE__, "on", NULL); #line 50 "prep.pgc" if (sqlca.sqlcode < 0) sqlprint();} #line 50 "prep.pgc" for (i = 1; i <= REPEATS; ++i) { { ECPGprepare(__LINE__, NULL, 0, "i", query); #line 53 "prep.pgc" if (sqlca.sqlcode < 0) sqlprint();} #line 53 "prep.pgc" { ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_execute, "i", ECPGt_int,&(value),(long)1,(long)1,sizeof(int), ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_EOIT, ECPGt_EORT); #line 54 "prep.pgc" if (sqlca.sqlcode == ECPG_NOT_FOUND) sqlprint(); #line 54 "prep.pgc" if (sqlca.sqlcode < 0) sqlprint();} #line 54 "prep.pgc" } { ECPGdeallocate(__LINE__, 0, NULL, "i"); #line 56 "prep.pgc" if (sqlca.sqlcode < 0) sqlprint();} #line 56 "prep.pgc" { ECPGdisconnect(__LINE__, name); #line 57 "prep.pgc" if (sqlca.sqlcode < 0) sqlprint();} #line 57 "prep.pgc" return 0; } int main () { intptr_t i; #ifdef WIN32 HANDLE threads[THREADS]; #else pthread_t threads[THREADS]; #endif { ECPGconnect(__LINE__, 0, "ecpg1_regression" , NULL, NULL , NULL, 0); #line 71 "prep.pgc" if (sqlca.sqlcode < 0) sqlprint();} #line 71 "prep.pgc" { ECPGsetcommit(__LINE__, "on", NULL); #line 72 "prep.pgc" if (sqlca.sqlcode < 0) sqlprint();} #line 72 "prep.pgc" { ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_normal, "drop table if exists T", ECPGt_EOIT, ECPGt_EORT); #line 73 "prep.pgc" if (sqlca.sqlcode < 0) sqlprint();} #line 73 "prep.pgc" { ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_normal, "create table T ( i int )", ECPGt_EOIT, ECPGt_EORT); #line 74 "prep.pgc" if (sqlca.sqlcode < 0) sqlprint();} #line 74 "prep.pgc" { ECPGdisconnect(__LINE__, "CURRENT"); #line 75 "prep.pgc" if (sqlca.sqlcode < 0) sqlprint();} #line 75 "prep.pgc" #ifdef WIN32 for (i = 0; i < THREADS; ++i) { unsigned id; threads[i] = (HANDLE)_beginthreadex(NULL, 0, fn, (void*)i, 0, &id); } WaitForMultipleObjects(THREADS, threads, TRUE, INFINITE); for (i = 0; i < THREADS; ++i) CloseHandle(threads[i]); #else for (i = 0; i < THREADS; ++i) pthread_create(&threads[i], NULL, fn, (void *) i); for (i = 0; i < THREADS; ++i) pthread_join(threads[i], NULL); #endif return 0; } #endif