+/**
+ * Move forwards or backwards the date of a date_t.
+ *
+ * \param date to move
+ * \param difference value
+ */
+void date_Move( date_t *p_date, mtime_t i_difference )
+{
+ p_date->date += i_difference;
+}
+
+/**
+ * Increment the date and return the result, taking into account
+ * rounding errors.
+ *
+ * \param date to increment
+ * \param incrementation in number of samples
+ * \return date value
+ */
+mtime_t date_Increment( date_t *p_date, uint32_t i_nb_samples )
+{
+ mtime_t i_dividend = (mtime_t)i_nb_samples * 1000000 * p_date->i_divider_den;
+ p_date->date += i_dividend / p_date->i_divider_num;
+ p_date->i_remainder += (int)(i_dividend % p_date->i_divider_num);
+
+ if( p_date->i_remainder >= p_date->i_divider_num )
+ {
+ /* This is Bresenham algorithm. */
+ assert( p_date->i_remainder < 2*p_date->i_divider_num);
+ p_date->date += 1;
+ p_date->i_remainder -= p_date->i_divider_num;
+ }