📄 ex473_oci7.cpp
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#include <iostream>
using namespace std;
#include <stdio.h>
#define OTL_ORA7 // Compile OTL 4.0/OCI7
#if defined(_MSC_VER)
#if (_MSC_VER >= 1400) // VC++ 8.0 or higher
#define OTL_ORA7_TIMESTAMP_TO_STRING(tm,s) \
{ \
sprintf_s(s,sizeof(s), \
"%02d/%02d/%04d %02d:%02d:%02d.%06ld",\
tm.month, \
tm.day, \
tm.year, \
tm.hour, \
tm.minute, \
tm.second, \
tm.fraction \
); \
}
#define OTL_ORA7_STRING_TO_TIMESTAMP(s,tm) \
{ \
sscanf_s(s, \
"%02d/%02d/%04d %02d:%02d:%02d.%06ld", \
&tm.month, \
&tm.day, \
&tm.year, \
&tm.hour, \
&tm.minute, \
&tm.second, \
&tm.fraction \
); \
}
#else
#define OTL_ORA7_TIMESTAMP_TO_STRING(tm,s) \
{ \
sprintf(s, \
"%02d/%02d/%04d %02d:%02d:%02d.%06ld",\
tm.month, \
tm.day, \
tm.year, \
tm.hour, \
tm.minute, \
tm.second, \
tm.fraction \
); \
}
#define OTL_ORA7_STRING_TO_TIMESTAMP(s,tm) \
{ \
sscanf(s, \
"%02d/%02d/%04d %02d:%02d:%02d.%06ld", \
&tm.month, \
&tm.day, \
&tm.year, \
&tm.hour, \
&tm.minute, \
&tm.second, \
&tm.fraction \
); \
}
#endif
#else
#define OTL_ORA7_TIMESTAMP_TO_STRING(tm,s) \
{ \
sprintf(s, \
"%02d/%02d/%04d %02d:%02d:%02d.%06ld",\
tm.month, \
tm.day, \
tm.year, \
tm.hour, \
tm.minute, \
tm.second, \
tm.fraction \
); \
}
#define OTL_ORA7_STRING_TO_TIMESTAMP(s,tm) \
{ \
sscanf(s, \
"%02d/%02d/%04d %02d:%02d:%02d.%06ld", \
&tm.month, \
&tm.day, \
&tm.year, \
&tm.hour, \
&tm.minute, \
&tm.second, \
&tm.fraction \
); \
}
#endif
#include <otlv4.h> // include the OTL 4.0 header file
otl_connect db; // connect object
void insert(void)
// insert rows into table
{
otl_stream o(50, // buffer size
"insert into test_tab2 "
"values(:f1<int>, "
" to_timestamp(:f2<char[28]>,'MM/DD/YYYY HH24:MI:SS.FF'))",
// SQL statement
db // connect object
);
otl_datetime tm;
for(int i=1;i<=10;++i){
tm.year=2007;
tm.month=1;
tm.day=19;
tm.hour=23;
tm.minute=12;
tm.second=12;
// Second's precision needs to be specified BEFORE the stucture can be
// used either for writing or reading timestamp values, which have second's
// fractional parts.
tm.frac_precision=6;
tm.fraction=123456;
o<<i;
o<<tm; // otl_datetime can be written into a
// char[XXX] variable when appropriate
// conversion is #defined
}
}
void select(void)
{
otl_stream i(50, // buffer size
"select "
" f1, "
" to_char(f2,'MM/DD/YYYY HH24:MI:SS.FF') f2 "
"from test_tab2 where f1 between :f1<int> and :f1*2",
// SELECT statement
db // connect object
);
// create select stream
int f1;
otl_datetime f2;
i<<4; // assigning :f1 = 4
// SELECT automatically executes when all input variables are
// assigned. First portion of out rows is fetched to the buffer
// Second's precision needs to be specified BEFORE the stucture can be
// used either for writing or reading timestamp values, which have second's
// fractional parts.
f2.frac_precision=6; // microseconds
while(!i.eof()){ // while not end-of-data
i>>f1;
i>>f2; // otl_datetime can be read from a
// char[XXX] variable when appropriate
// conversion is #defined
cout<<"f1="<<f1<<", f2="<<f2.month<<"/"<<f2.day<<"/"
<<f2.year<<" "<<f2.hour<<":"<<f2.minute<<":"
<<f2.second<<"."
<<f2.fraction
<<endl;
}
}
int main()
{
otl_connect::otl_initialize(); // initialize OCI environment
try{
db.rlogon("scott/tiger"); // connect to Oracle
otl_cursor::direct_exec
(
db,
"drop table test_tab2",
otl_exception::disabled // disable OTL exceptions
); // drop table
otl_cursor::direct_exec
(
db,
"create table test_tab2(f1 int, f2 timestamp)"
); // create table
insert(); // insert records into table
select(); // select records from table
}
catch(otl_exception& p){ // intercept OTL exceptions
cerr<<p.msg<<endl; // print out error message
cerr<<p.stm_text<<endl; // print out SQL that caused the error
cerr<<p.var_info<<endl; // print out the variable that caused the error
}
db.logoff(); // disconnect from Oracle
return 0;
}
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