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/* Processed by ecpg (regression mode) */
/* These include files are added by the preprocessor */
#include <ecpglib.h>
#include <ecpgerrno.h>
#include <sqlca.h>
/* End of automatic include section */
#define ECPGdebug(X,Y) ECPGdebug((X)+100,(Y))
#line 1 "autoprep.pgc"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
/* test automatic prepare for all statements */
#line 1 "regression.h"
#line 6 "autoprep.pgc"
static void test(void) {
/* exec sql begin declare section */
#line 10 "autoprep.pgc"
int item [ 4 ] , ind [ 4 ] , i = 1 ;
#line 11 "autoprep.pgc"
int item1 , ind1 ;
#line 12 "autoprep.pgc"
char sqlstr [ 64 ] = "SELECT item2 FROM T ORDER BY item2 NULLS LAST" ;
/* exec sql end declare section */
#line 13 "autoprep.pgc"
ECPGdebug(1, stderr);
{ ECPGconnect(__LINE__, 0, "ecpg1_regression" , NULL, NULL , NULL, 0); }
#line 16 "autoprep.pgc"
/* exec sql whenever sql_warning sqlprint ; */
#line 18 "autoprep.pgc"
/* exec sql whenever sqlerror sqlprint ; */
#line 19 "autoprep.pgc"
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_normal, "create table T ( Item1 int , Item2 int )", ECPGt_EOIT, ECPGt_EORT);
#line 21 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 21 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 21 "autoprep.pgc"
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_prepnormal, "insert into T values ( 1 , null )", ECPGt_EOIT, ECPGt_EORT);
#line 23 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 23 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 23 "autoprep.pgc"
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_prepnormal, "insert into T values ( 1 , $1 )",
ECPGt_int,&(i),(long)1,(long)1,sizeof(int),
ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_EOIT, ECPGt_EORT);
#line 24 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 24 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 24 "autoprep.pgc"
i++;
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_prepnormal, "insert into T values ( 1 , $1 )",
ECPGt_int,&(i),(long)1,(long)1,sizeof(int),
ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_EOIT, ECPGt_EORT);
#line 26 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 26 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 26 "autoprep.pgc"
{ ECPGprepare(__LINE__, NULL, 0, "i", " insert into T values ( 1 , 2 ) ");
#line 27 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 27 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 27 "autoprep.pgc"
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_execute, "i", ECPGt_EOIT, ECPGt_EORT);
#line 28 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 28 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 28 "autoprep.pgc"
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_prepnormal, "select Item2 from T order by Item2 nulls last", ECPGt_EOIT,
ECPGt_int,(item),(long)1,(long)4,sizeof(int),
ECPGt_int,(ind),(long)1,(long)4,sizeof(int), ECPGt_EORT);
#line 30 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 30 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 30 "autoprep.pgc"
for (i=0; i<4; i++)
printf("item[%d] = %d\n", i, ind[i] ? -1 : item[i]);
/* declare C cursor for select Item1 from T */
#line 35 "autoprep.pgc"
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_normal, "declare C cursor for select Item1 from T", ECPGt_EOIT, ECPGt_EORT);
#line 37 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 37 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 37 "autoprep.pgc"
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_normal, "fetch 1 in C", ECPGt_EOIT,
ECPGt_int,&(i),(long)1,(long)1,sizeof(int),
ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_EORT);
#line 39 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 39 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 39 "autoprep.pgc"
printf("i = %d\n", i);
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_normal, "close C", ECPGt_EOIT, ECPGt_EORT);
#line 42 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 42 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 42 "autoprep.pgc"
{ ECPGprepare(__LINE__, NULL, 0, "stmt1", sqlstr);
#line 44 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 44 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 44 "autoprep.pgc"
/* declare cur1 cursor for $1 */
#line 46 "autoprep.pgc"
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_normal, "declare cur1 cursor for $1",
ECPGt_char_variable,(ECPGprepared_statement(NULL, "stmt1", __LINE__)),(long)1,(long)1,(1)*sizeof(char),
ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_EOIT, ECPGt_EORT);
#line 48 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 48 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 48 "autoprep.pgc"
/* exec sql whenever not found break ; */
#line 50 "autoprep.pgc"
i = 0;
while (i < 100)
{
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_normal, "fetch cur1", ECPGt_EOIT,
ECPGt_int,&(item1),(long)1,(long)1,sizeof(int),
ECPGt_int,&(ind1),(long)1,(long)1,sizeof(int), ECPGt_EORT);
#line 55 "autoprep.pgc"
if (sqlca.sqlcode == ECPG_NOT_FOUND) break;
#line 55 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 55 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 55 "autoprep.pgc"
printf("item[%d] = %d\n", i, ind1 ? -1 : item1);
i++;
}
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_normal, "close cur1", ECPGt_EOIT, ECPGt_EORT);
#line 60 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 60 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 60 "autoprep.pgc"
{ ECPGdo(__LINE__, 0, 1, NULL, 0, ECPGst_normal, "drop table T", ECPGt_EOIT, ECPGt_EORT);
#line 62 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 62 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 62 "autoprep.pgc"
{ ECPGdisconnect(__LINE__, "ALL");
#line 64 "autoprep.pgc"
if (sqlca.sqlwarn[0] == 'W') sqlprint();
#line 64 "autoprep.pgc"
if (sqlca.sqlcode < 0) sqlprint();}
#line 64 "autoprep.pgc"
}
int main() {
test();
test(); /* retry */
return 0;
}
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