/* Processed by ecpg (regression mode) */ /* These include files are added by the preprocessor */ #include #include #include #include /* End of automatic include section */ #define ECPGdebug(X,Y) ECPGdebug((X)+100,(Y)) #line 1 "binary.pgc" #include #include #line 1 "regression.h" #line 4 "binary.pgc" /* exec sql begin declare section */ struct TBempl { #line 9 "binary.pgc" long idnum ; #line 10 "binary.pgc" char name [ 21 ] ; #line 11 "binary.pgc" short accs ; #line 12 "binary.pgc" char byte [ 20 ] ; } ;/* exec sql end declare section */ #line 14 "binary.pgc" int main (void) { /* exec sql begin declare section */ #line 20 "binary.pgc" struct TBempl empl ; #line 21 "binary.pgc" char * data = "\\001\\155\\000\\212" ; /* exec sql end declare section */ #line 22 "binary.pgc" int i; ECPGdebug (1, stderr); empl.idnum = 1; { ECPGconnect(__LINE__, 0, "regress1" , NULL, NULL , NULL, 0); } #line 28 "binary.pgc" if (sqlca.sqlcode) { printf ("connect error = %ld\n", sqlca.sqlcode); exit (sqlca.sqlcode); } { ECPGdo(__LINE__, 0, 1, NULL, 0, 0, "create table empl ( idnum integer , name char ( 20 ) , accs smallint , byte bytea ) ", ECPGt_EOIT, ECPGt_EORT);} #line 36 "binary.pgc" if (sqlca.sqlcode) { printf ("create error = %ld\n", sqlca.sqlcode); exit (sqlca.sqlcode); } { ECPGdo(__LINE__, 0, 1, NULL, 0, 0, "insert into empl values ( 1 , 'first user' , 320 , $1 ) ", ECPGt_char,&(data),(long)0,(long)1,(1)*sizeof(char), ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_EOIT, ECPGt_EORT);} #line 43 "binary.pgc" if (sqlca.sqlcode) { printf ("insert error = %ld\n", sqlca.sqlcode); exit (sqlca.sqlcode); } /* declare C cursor for select name , accs , byte from empl where idnum = $1 */ #line 50 "binary.pgc" { ECPGdo(__LINE__, 0, 1, NULL, 0, 0, "declare C cursor for select name , accs , byte from empl where idnum = $1 ", ECPGt_long,&(empl.idnum),(long)1,(long)1,sizeof(long), ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_EOIT, ECPGt_EORT);} #line 51 "binary.pgc" { ECPGdo(__LINE__, 0, 1, NULL, 0, 0, "fetch C", ECPGt_EOIT, ECPGt_char,(empl.name),(long)21,(long)1,(21)*sizeof(char), ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_short,&(empl.accs),(long)1,(long)1,sizeof(short), ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_char,(empl.byte),(long)20,(long)1,(20)*sizeof(char), ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_EORT);} #line 52 "binary.pgc" if (sqlca.sqlcode) { printf ("fetch error = %ld\n", sqlca.sqlcode); exit (sqlca.sqlcode); } printf ("name=%s, accs=%d byte=%s\n", empl.name, empl.accs, empl.byte); memset(empl.name, 0, 21L); memset(empl.byte, '#', 20L); /* declare B binary cursor for select name , accs , byte from empl where idnum = $1 */ #line 63 "binary.pgc" { ECPGdo(__LINE__, 0, 1, NULL, 0, 0, "declare B binary cursor for select name , accs , byte from empl where idnum = $1 ", ECPGt_long,&(empl.idnum),(long)1,(long)1,sizeof(long), ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_EOIT, ECPGt_EORT);} #line 64 "binary.pgc" { ECPGdo(__LINE__, 0, 1, NULL, 0, 0, "fetch B", ECPGt_EOIT, ECPGt_char,(empl.name),(long)21,(long)1,(21)*sizeof(char), ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_short,&(empl.accs),(long)1,(long)1,sizeof(short), ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_char,(empl.byte),(long)20,(long)1,(20)*sizeof(char), ECPGt_NO_INDICATOR, NULL , 0L, 0L, 0L, ECPGt_EORT);} #line 65 "binary.pgc" if (sqlca.sqlcode) { printf ("fetch error = %ld\n", sqlca.sqlcode); exit (sqlca.sqlcode); } { ECPGdo(__LINE__, 0, 1, NULL, 0, 0, "close B", ECPGt_EOIT, ECPGt_EORT);} #line 72 "binary.pgc" /* do not print a.accs because big/little endian will have different outputs here */ printf ("name=%s, byte=", empl.name); for (i=0; i<20; i++) { if (empl.byte[i] == '#') break; printf("(%o)", (unsigned char)empl.byte[i]); } printf("\n"); { ECPGdisconnect(__LINE__, "CURRENT");} #line 83 "binary.pgc" exit (0); }