The date and time Types

Note: Cassandra 2.2+ is required.

The driver currently uses raw types to handle date and time because date and time handling is often very application specific in C/C++. It currently provides methods to handle converting Epoch (January 1, 1970) time in seconds to and from date/time.

The date type uses an unsigned 32-bit integer (cass_uint32_t) to represent the number of days with Epoch centered at 231. Because it’s centered at Epoch it can be used to represent days before Epoch. The time type uses a signed 64-bit integer (cass_int64_t) to represent the number of nanoseconds since midnight and valid values are in the range 0 to 86399999999999.

The following examples both use this schema:

CREATE TABLE date_time (key text PRIMARY KEY,
                        year_month_day date,
                        time_of_day time);

INSERTing the date and time Types

#include <time.h>

/* ... */

CassStatement* statement = cass_statement_new("INSERT INTO date_time (key, year_month_day, time_of_day) "
                                              "VALUES (?, ?, ?)");

time_t now = time(NULL); /* Time in seconds from Epoch */

/* Converts the time since the Epoch in seconds to the 'date' type */
cass_uint_32_t year_month_day = cass_date_from_epoch(now);

/* Converts the time since the Epoch in seconds to the 'time' type */
cass_int64_t time_of_day = cass_time_from_epoch(now);

cass_statement_bind_string(statement, 0, "xyz");

/* 'date' uses an unsigned 32-bit integer */
cass_statement_bind_uint32(statement, 1, year_month_day);

/* 'time' uses a signed 64-bit integer */
cass_statement_bind_int64(statement, 2, time_of_day)

CassFuture* future = cass_session_execute(session, statement);

/* Handle future result */

/* CassStatement and CassFuture both need to be freed */
cass_statement_free(statement);
cass_future_free(future);

SELECTing the date and time Types

#include <time.h>

/* ... */

CassStatement* statement = cass_statement_new("SELECT * FROM examples.date_time WHERE key = ?");

CassFuture* future = cass_session_execute(session, statement);

const CassResult* result = cass_future_get_result(future);
/* Make sure there's a valid result */
if (result != NULL && cass_result_row_count(resut) > 0) {
  const CassRow* row = cass_result_first_row(result);

  /* Get the value of the "year_month_day" column */
  cass_uint32_t year_month_day;
  cass_value_get_uint32(cass_row_get_column(row, 1), &year_month_day);

  /* Get the value of the "time_of_day" column */
  cass_int64_t time_of_day;
  cass_value_get_int64(cass_row_get_column(row, 2), &time_of_day);

  /* Convert 'date' and 'time' to Epoch time */
  time_t time = (time_t)cass_date_time_to_epoch(year_month_day, time_of_day);
  printf("Date and time: %s", asctime(localtime(&time)))
} else {
  /* Handle error */
}

/* CassStatement and CassFuture both need to be freed */
cass_statement_free(statement);
cass_future_free(future);