/** * returns the rk number for column (coffset = column - field_2_first_col) * * @param coffset the coffset = column - field_2_first_col * * @return the value (decoded into a double) */ public double getRKNumberAt(int coffset) { return RKUtil.decodeNumber(field_3_rks[coffset].rk); }
/** * Extract the value of the number * <P> * The mechanism for determining the value is dependent on the two * low order bits of the raw number. If bit 1 is set, the number * is an integer and can be cast directly as a double, otherwise, * it's apparently the exponent and mantissa of a double (and the * remaining low-order bits of the double's mantissa are 0's). * <P> * If bit 0 is set, the result of the conversion to a double is * divided by 100; otherwise, the value is left alone. * <P> * [insert picture of Screwy Squirrel in full Napoleonic regalia] * * @return the value as a proper double (hey, it <B>could</B> * happen) */ public double getRKNumber() { return RKUtil.decodeNumber(field_4_rk_number); }
/** * returns the rk number for column (coffset = column - field_2_first_col) * * @param coffset the coffset = column - field_2_first_col * * @return the value (decoded into a double) */ public double getRKNumberAt(int coffset) { return RKUtil.decodeNumber(field_3_rks[coffset].rk); }
/** * returns the rk number for column (coffset = column - field_2_first_col) * @return the value (decoded into a double) */ public double getRKNumberAt(int coffset) { return RKUtil.decodeNumber(field_3_rks[coffset].rk); }
/** * returns the rk number for column (coffset = column - field_2_first_col) * @return the value (decoded into a double) */ public double getRKNumberAt(int coffset) { return RKUtil.decodeNumber(field_3_rks[coffset].rk); }
/** * Extract the value of the number * <P> * The mechanism for determining the value is dependent on the two * low order bits of the raw number. If bit 1 is set, the number * is an integer and can be cast directly as a double, otherwise, * it's apparently the exponent and mantissa of a double (and the * remaining low-order bits of the double's mantissa are 0's). * <P> * If bit 0 is set, the result of the conversion to a double is * divided by 100; otherwise, the value is left alone. * <P> * [insert picture of Screwy Squirrel in full Napoleonic regalia] * * @return the value as a proper double (hey, it <B>could</B> * happen) */ public double getRKNumber() { return RKUtil.decodeNumber(field_4_rk_number); }
/** * Extract the value of the number * <P> * The mechanism for determining the value is dependent on the two * low order bits of the raw number. If bit 1 is set, the number * is an integer and can be cast directly as a double, otherwise, * it's apparently the exponent and mantissa of a double (and the * remaining low-order bits of the double's mantissa are 0's). * <P> * If bit 0 is set, the result of the conversion to a double is * divided by 100; otherwise, the value is left alone. * <P> * [insert picture of Screwy Squirrel in full Napoleonic regalia] * * @return the value as a proper double (hey, it <B>could</B> * happen) */ public double getRKNumber() { return RKUtil.decodeNumber(field_4_rk_number); }
/** * Extract the value of the number * <P> * The mechanism for determining the value is dependent on the two * low order bits of the raw number. If bit 1 is set, the number * is an integer and can be cast directly as a double, otherwise, * it's apparently the exponent and mantissa of a double (and the * remaining low-order bits of the double's mantissa are 0's). * <P> * If bit 0 is set, the result of the conversion to a double is * divided by 100; otherwise, the value is left alone. * <P> * [insert picture of Screwy Squirrel in full Napoleonic regalia] * * @return the value as a proper double (hey, it <B>could</B> * happen) */ public double getRKNumber() { return RKUtil.decodeNumber(field_4_rk_number); }