rust/library/core/tests/num/bignum.rs
2020-07-27 19:51:13 -05:00

241 lines
8.2 KiB
Rust

use core::num::bignum::tests::Big8x3 as Big;
#[test]
#[should_panic]
fn test_from_u64_overflow() {
Big::from_u64(0x1000000);
}
#[test]
fn test_add() {
assert_eq!(*Big::from_small(3).add(&Big::from_small(4)), Big::from_small(7));
assert_eq!(*Big::from_small(3).add(&Big::from_small(0)), Big::from_small(3));
assert_eq!(*Big::from_small(0).add(&Big::from_small(3)), Big::from_small(3));
assert_eq!(*Big::from_small(3).add(&Big::from_u64(0xfffe)), Big::from_u64(0x10001));
assert_eq!(*Big::from_u64(0xfedc).add(&Big::from_u64(0x789)), Big::from_u64(0x10665));
assert_eq!(*Big::from_u64(0x789).add(&Big::from_u64(0xfedc)), Big::from_u64(0x10665));
}
#[test]
#[should_panic]
fn test_add_overflow_1() {
Big::from_small(1).add(&Big::from_u64(0xffffff));
}
#[test]
#[should_panic]
fn test_add_overflow_2() {
Big::from_u64(0xffffff).add(&Big::from_small(1));
}
#[test]
fn test_add_small() {
assert_eq!(*Big::from_small(3).add_small(4), Big::from_small(7));
assert_eq!(*Big::from_small(3).add_small(0), Big::from_small(3));
assert_eq!(*Big::from_small(0).add_small(3), Big::from_small(3));
assert_eq!(*Big::from_small(7).add_small(250), Big::from_u64(257));
assert_eq!(*Big::from_u64(0x7fff).add_small(1), Big::from_u64(0x8000));
assert_eq!(*Big::from_u64(0x2ffe).add_small(0x35), Big::from_u64(0x3033));
assert_eq!(*Big::from_small(0xdc).add_small(0x89), Big::from_u64(0x165));
}
#[test]
#[should_panic]
fn test_add_small_overflow() {
Big::from_u64(0xffffff).add_small(1);
}
#[test]
fn test_sub() {
assert_eq!(*Big::from_small(7).sub(&Big::from_small(4)), Big::from_small(3));
assert_eq!(*Big::from_u64(0x10665).sub(&Big::from_u64(0x789)), Big::from_u64(0xfedc));
assert_eq!(*Big::from_u64(0x10665).sub(&Big::from_u64(0xfedc)), Big::from_u64(0x789));
assert_eq!(*Big::from_u64(0x10665).sub(&Big::from_u64(0x10664)), Big::from_small(1));
assert_eq!(*Big::from_u64(0x10665).sub(&Big::from_u64(0x10665)), Big::from_small(0));
}
#[test]
#[should_panic]
fn test_sub_underflow_1() {
Big::from_u64(0x10665).sub(&Big::from_u64(0x10666));
}
#[test]
#[should_panic]
fn test_sub_underflow_2() {
Big::from_small(0).sub(&Big::from_u64(0x123456));
}
#[test]
fn test_mul_small() {
assert_eq!(*Big::from_small(7).mul_small(5), Big::from_small(35));
assert_eq!(*Big::from_small(0xff).mul_small(0xff), Big::from_u64(0xfe01));
assert_eq!(*Big::from_u64(0xffffff / 13).mul_small(13), Big::from_u64(0xffffff));
}
#[test]
#[should_panic]
fn test_mul_small_overflow() {
Big::from_u64(0x800000).mul_small(2);
}
#[test]
fn test_mul_pow2() {
assert_eq!(*Big::from_small(0x7).mul_pow2(4), Big::from_small(0x70));
assert_eq!(*Big::from_small(0xff).mul_pow2(1), Big::from_u64(0x1fe));
assert_eq!(*Big::from_small(0xff).mul_pow2(12), Big::from_u64(0xff000));
assert_eq!(*Big::from_small(0x1).mul_pow2(23), Big::from_u64(0x800000));
assert_eq!(*Big::from_u64(0x123).mul_pow2(0), Big::from_u64(0x123));
assert_eq!(*Big::from_u64(0x123).mul_pow2(7), Big::from_u64(0x9180));
assert_eq!(*Big::from_u64(0x123).mul_pow2(15), Big::from_u64(0x918000));
assert_eq!(*Big::from_small(0).mul_pow2(23), Big::from_small(0));
}
#[test]
#[should_panic]
fn test_mul_pow2_overflow_1() {
Big::from_u64(0x1).mul_pow2(24);
}
#[test]
#[should_panic]
fn test_mul_pow2_overflow_2() {
Big::from_u64(0x123).mul_pow2(16);
}
#[test]
fn test_mul_pow5() {
assert_eq!(*Big::from_small(42).mul_pow5(0), Big::from_small(42));
assert_eq!(*Big::from_small(1).mul_pow5(2), Big::from_small(25));
assert_eq!(*Big::from_small(1).mul_pow5(4), Big::from_u64(25 * 25));
assert_eq!(*Big::from_small(4).mul_pow5(3), Big::from_u64(500));
assert_eq!(*Big::from_small(140).mul_pow5(2), Big::from_u64(25 * 140));
assert_eq!(*Big::from_small(25).mul_pow5(1), Big::from_small(125));
assert_eq!(*Big::from_small(125).mul_pow5(7), Big::from_u64(9765625));
assert_eq!(*Big::from_small(0).mul_pow5(127), Big::from_small(0));
}
#[test]
#[should_panic]
fn test_mul_pow5_overflow_1() {
Big::from_small(1).mul_pow5(12);
}
#[test]
#[should_panic]
fn test_mul_pow5_overflow_2() {
Big::from_small(230).mul_pow5(8);
}
#[test]
fn test_mul_digits() {
assert_eq!(*Big::from_small(3).mul_digits(&[5]), Big::from_small(15));
assert_eq!(*Big::from_small(0xff).mul_digits(&[0xff]), Big::from_u64(0xfe01));
assert_eq!(*Big::from_u64(0x123).mul_digits(&[0x56, 0x4]), Big::from_u64(0x4edc2));
assert_eq!(*Big::from_u64(0x12345).mul_digits(&[0x67]), Big::from_u64(0x7530c3));
assert_eq!(*Big::from_small(0x12).mul_digits(&[0x67, 0x45, 0x3]), Big::from_u64(0x3ae13e));
assert_eq!(*Big::from_u64(0xffffff / 13).mul_digits(&[13]), Big::from_u64(0xffffff));
assert_eq!(*Big::from_small(13).mul_digits(&[0x3b, 0xb1, 0x13]), Big::from_u64(0xffffff));
}
#[test]
#[should_panic]
fn test_mul_digits_overflow_1() {
Big::from_u64(0x800000).mul_digits(&[2]);
}
#[test]
#[should_panic]
fn test_mul_digits_overflow_2() {
Big::from_u64(0x1000).mul_digits(&[0, 0x10]);
}
#[test]
fn test_div_rem_small() {
let as_val = |(q, r): (&mut Big, u8)| (q.clone(), r);
assert_eq!(as_val(Big::from_small(0xff).div_rem_small(15)), (Big::from_small(17), 0));
assert_eq!(as_val(Big::from_small(0xff).div_rem_small(16)), (Big::from_small(15), 15));
assert_eq!(as_val(Big::from_small(3).div_rem_small(40)), (Big::from_small(0), 3));
assert_eq!(
as_val(Big::from_u64(0xffffff).div_rem_small(123)),
(Big::from_u64(0xffffff / 123), (0xffffffu64 % 123) as u8)
);
assert_eq!(
as_val(Big::from_u64(0x10000).div_rem_small(123)),
(Big::from_u64(0x10000 / 123), (0x10000u64 % 123) as u8)
);
}
#[test]
fn test_div_rem() {
fn div_rem(n: u64, d: u64) -> (Big, Big) {
let mut q = Big::from_small(42);
let mut r = Big::from_small(42);
Big::from_u64(n).div_rem(&Big::from_u64(d), &mut q, &mut r);
(q, r)
}
assert_eq!(div_rem(1, 1), (Big::from_small(1), Big::from_small(0)));
assert_eq!(div_rem(4, 3), (Big::from_small(1), Big::from_small(1)));
assert_eq!(div_rem(1, 7), (Big::from_small(0), Big::from_small(1)));
assert_eq!(div_rem(45, 9), (Big::from_small(5), Big::from_small(0)));
assert_eq!(div_rem(103, 9), (Big::from_small(11), Big::from_small(4)));
assert_eq!(div_rem(123456, 77), (Big::from_u64(1603), Big::from_small(25)));
assert_eq!(div_rem(0xffff, 1), (Big::from_u64(0xffff), Big::from_small(0)));
assert_eq!(div_rem(0xeeee, 0xffff), (Big::from_small(0), Big::from_u64(0xeeee)));
assert_eq!(div_rem(2_000_000, 2), (Big::from_u64(1_000_000), Big::from_u64(0)));
}
#[test]
fn test_is_zero() {
assert!(Big::from_small(0).is_zero());
assert!(!Big::from_small(3).is_zero());
assert!(!Big::from_u64(0x123).is_zero());
assert!(!Big::from_u64(0xffffff).sub(&Big::from_u64(0xfffffe)).is_zero());
assert!(Big::from_u64(0xffffff).sub(&Big::from_u64(0xffffff)).is_zero());
}
#[test]
fn test_get_bit() {
let x = Big::from_small(0b1101);
assert_eq!(x.get_bit(0), 1);
assert_eq!(x.get_bit(1), 0);
assert_eq!(x.get_bit(2), 1);
assert_eq!(x.get_bit(3), 1);
let y = Big::from_u64(1 << 15);
assert_eq!(y.get_bit(14), 0);
assert_eq!(y.get_bit(15), 1);
assert_eq!(y.get_bit(16), 0);
}
#[test]
#[should_panic]
fn test_get_bit_out_of_range() {
Big::from_small(42).get_bit(24);
}
#[test]
fn test_bit_length() {
assert_eq!(Big::from_small(0).bit_length(), 0);
assert_eq!(Big::from_small(1).bit_length(), 1);
assert_eq!(Big::from_small(5).bit_length(), 3);
assert_eq!(Big::from_small(0x18).bit_length(), 5);
assert_eq!(Big::from_u64(0x4073).bit_length(), 15);
assert_eq!(Big::from_u64(0xffffff).bit_length(), 24);
}
#[test]
fn test_ord() {
assert!(Big::from_u64(0) < Big::from_u64(0xffffff));
assert!(Big::from_u64(0x102) < Big::from_u64(0x201));
}
#[test]
fn test_fmt() {
assert_eq!(format!("{:?}", Big::from_u64(0)), "0x0");
assert_eq!(format!("{:?}", Big::from_u64(0x1)), "0x1");
assert_eq!(format!("{:?}", Big::from_u64(0x12)), "0x12");
assert_eq!(format!("{:?}", Big::from_u64(0x123)), "0x1_23");
assert_eq!(format!("{:?}", Big::from_u64(0x1234)), "0x12_34");
assert_eq!(format!("{:?}", Big::from_u64(0x12345)), "0x1_23_45");
assert_eq!(format!("{:?}", Big::from_u64(0x123456)), "0x12_34_56");
}