tests/bigint_bitwise.rs - platform/external/rust/crates/num-bigint - Git at Google

 use num_bigint::{BigInt, Sign, ToBigInt};
 use num_traits::ToPrimitive;
 use std::{i32, i64, u32};

 enum ValueVec {
     N,
     P(&'static [u32]),
     M(&'static [u32]),
 }

 use crate::ValueVec::*;

 impl ToBigInt for ValueVec {
     fn to_bigint(&self) -> Option<BigInt> {
         match self {
             &N => Some(BigInt::from_slice(Sign::NoSign, &[])),
             &P(s) => Some(BigInt::from_slice(Sign::Plus, s)),
             &M(s) => Some(BigInt::from_slice(Sign::Minus, s)),
         }
     }
 }

 // a, !a
 const NOT_VALUES: &[(ValueVec, ValueVec)] = &[
     (N, M(&[1])),
     (P(&[1]), M(&[2])),
     (P(&[2]), M(&[3])),
     (P(&[!0 - 2]), M(&[!0 - 1])),
     (P(&[!0 - 1]), M(&[!0])),
     (P(&[!0]), M(&[0, 1])),
     (P(&[0, 1]), M(&[1, 1])),
     (P(&[1, 1]), M(&[2, 1])),
 ];

 // a, b, a & b, a | b, a ^ b
 const BITWISE_VALUES: &[(ValueVec, ValueVec, ValueVec, ValueVec, ValueVec)] = &[
     (N, N, N, N, N),
     (N, P(&[1]), N, P(&[1]), P(&[1])),
     (N, P(&[!0]), N, P(&[!0]), P(&[!0])),
     (N, P(&[0, 1]), N, P(&[0, 1]), P(&[0, 1])),
     (N, M(&[1]), N, M(&[1]), M(&[1])),
     (N, M(&[!0]), N, M(&[!0]), M(&[!0])),
     (N, M(&[0, 1]), N, M(&[0, 1]), M(&[0, 1])),
     (P(&[1]), P(&[!0]), P(&[1]), P(&[!0]), P(&[!0 - 1])),
     (P(&[!0]), P(&[!0]), P(&[!0]), P(&[!0]), N),
     (P(&[!0]), P(&[1, 1]), P(&[1]), P(&[!0, 1]), P(&[!0 - 1, 1])),
     (P(&[1]), M(&[!0]), P(&[1]), M(&[!0]), M(&[0, 1])),
     (P(&[!0]), M(&[1]), P(&[!0]), M(&[1]), M(&[0, 1])),
     (P(&[!0]), M(&[!0]), P(&[1]), M(&[1]), M(&[2])),
     (P(&[!0]), M(&[1, 1]), P(&[!0]), M(&[1, 1]), M(&[0, 2])),
     (P(&[1, 1]), M(&[!0]), P(&[1, 1]), M(&[!0]), M(&[0, 2])),
     (M(&[1]), M(&[!0]), M(&[!0]), M(&[1]), P(&[!0 - 1])),
     (M(&[!0]), M(&[!0]), M(&[!0]), M(&[!0]), N),
     (M(&[!0]), M(&[1, 1]), M(&[!0, 1]), M(&[1]), P(&[!0 - 1, 1])),
 ];

 const I32_MIN: i64 = i32::MIN as i64;
 const I32_MAX: i64 = i32::MAX as i64;
 const U32_MAX: i64 = u32::MAX as i64;

 // some corner cases
 const I64_VALUES: &[i64] = &[
     i64::MIN,
     i64::MIN + 1,
     i64::MIN + 2,
     i64::MIN + 3,
     -U32_MAX - 3,
     -U32_MAX - 2,
     -U32_MAX - 1,
     -U32_MAX,
     -U32_MAX + 1,
     -U32_MAX + 2,
     -U32_MAX + 3,
     I32_MIN - 3,
     I32_MIN - 2,
     I32_MIN - 1,
     I32_MIN,
     I32_MIN + 1,
     I32_MIN + 2,
     I32_MIN + 3,
     -3,
     -2,
     -1,
     0,
     1,
     2,
     3,
     I32_MAX - 3,
     I32_MAX - 2,
     I32_MAX - 1,
     I32_MAX,
     I32_MAX + 1,
     I32_MAX + 2,
     I32_MAX + 3,
     U32_MAX - 3,
     U32_MAX - 2,
     U32_MAX - 1,
     U32_MAX,
     U32_MAX + 1,
     U32_MAX + 2,
     U32_MAX + 3,
     i64::MAX - 3,
     i64::MAX - 2,
     i64::MAX - 1,
     i64::MAX,
 ];

 #[test]
 fn test_not() {
     for &(ref a, ref not) in NOT_VALUES.iter() {
         let a = a.to_bigint().unwrap();
         let not = not.to_bigint().unwrap();

         // sanity check for tests that fit in i64
         if let (Some(prim_a), Some(prim_not)) = (a.to_i64(), not.to_i64()) {
             assert_eq!(!prim_a, prim_not);
         }

         assert_eq!(!a.clone(), not, "!{:x}", a);
         assert_eq!(!not.clone(), a, "!{:x}", not);
     }
 }

 #[test]
 fn test_not_i64() {
     for &prim_a in I64_VALUES.iter() {
         let a = prim_a.to_bigint().unwrap();
         let not = (!prim_a).to_bigint().unwrap();
         assert_eq!(!a.clone(), not, "!{:x}", a);
     }
 }

 #[test]
 fn test_bitwise() {
     for &(ref a, ref b, ref and, ref or, ref xor) in BITWISE_VALUES.iter() {
         let a = a.to_bigint().unwrap();
         let b = b.to_bigint().unwrap();
         let and = and.to_bigint().unwrap();
         let or = or.to_bigint().unwrap();
         let xor = xor.to_bigint().unwrap();

         // sanity check for tests that fit in i64
         if let (Some(prim_a), Some(prim_b)) = (a.to_i64(), b.to_i64()) {
             if let Some(prim_and) = and.to_i64() {
                 assert_eq!(prim_a & prim_b, prim_and);
             }
             if let Some(prim_or) = or.to_i64() {
                 assert_eq!(prim_a | prim_b, prim_or);
             }
             if let Some(prim_xor) = xor.to_i64() {
                 assert_eq!(prim_a ^ prim_b, prim_xor);
             }
         }

         assert_eq!(a.clone() & &b, and, "{:x} & {:x}", a, b);
         assert_eq!(b.clone() & &a, and, "{:x} & {:x}", b, a);
         assert_eq!(a.clone() | &b, or, "{:x} | {:x}", a, b);
         assert_eq!(b.clone() | &a, or, "{:x} | {:x}", b, a);
         assert_eq!(a.clone() ^ &b, xor, "{:x} ^ {:x}", a, b);
         assert_eq!(b.clone() ^ &a, xor, "{:x} ^ {:x}", b, a);
     }
 }

 #[test]
 fn test_bitwise_i64() {
     for &prim_a in I64_VALUES.iter() {
         let a = prim_a.to_bigint().unwrap();
         for &prim_b in I64_VALUES.iter() {
             let b = prim_b.to_bigint().unwrap();
             let and = (prim_a & prim_b).to_bigint().unwrap();
             let or = (prim_a | prim_b).to_bigint().unwrap();
             let xor = (prim_a ^ prim_b).to_bigint().unwrap();
             assert_eq!(a.clone() & &b, and, "{:x} & {:x}", a, b);
             assert_eq!(a.clone() | &b, or, "{:x} | {:x}", a, b);
             assert_eq!(a.clone() ^ &b, xor, "{:x} ^ {:x}", a, b);
         }
     }
 }
	use num_bigint::{BigInt, Sign, ToBigInt};
	use num_traits::ToPrimitive;
	use std::{i32, i64, u32};

	enum ValueVec {
	N,
	P(&'static [u32]),
	M(&'static [u32]),
	}

	use crate::ValueVec::*;

	impl ToBigInt for ValueVec {
	fn to_bigint(&self) -> Option<BigInt> {
	match self {
	&N => Some(BigInt::from_slice(Sign::NoSign, &[])),
	&P(s) => Some(BigInt::from_slice(Sign::Plus, s)),
	&M(s) => Some(BigInt::from_slice(Sign::Minus, s)),
	}
	}
	}

	// a, !a
	const NOT_VALUES: &[(ValueVec, ValueVec)] = &[
	(N, M(&[1])),
	(P(&[1]), M(&[2])),
	(P(&[2]), M(&[3])),
	(P(&[!0 - 2]), M(&[!0 - 1])),
	(P(&[!0 - 1]), M(&[!0])),
	(P(&[!0]), M(&[0, 1])),
	(P(&[0, 1]), M(&[1, 1])),
	(P(&[1, 1]), M(&[2, 1])),
	];

	// a, b, a & b, a \| b, a ^ b
	const BITWISE_VALUES: &[(ValueVec, ValueVec, ValueVec, ValueVec, ValueVec)] = &[
	(N, N, N, N, N),
	(N, P(&[1]), N, P(&[1]), P(&[1])),
	(N, P(&[!0]), N, P(&[!0]), P(&[!0])),
	(N, P(&[0, 1]), N, P(&[0, 1]), P(&[0, 1])),
	(N, M(&[1]), N, M(&[1]), M(&[1])),
	(N, M(&[!0]), N, M(&[!0]), M(&[!0])),
	(N, M(&[0, 1]), N, M(&[0, 1]), M(&[0, 1])),
	(P(&[1]), P(&[!0]), P(&[1]), P(&[!0]), P(&[!0 - 1])),
	(P(&[!0]), P(&[!0]), P(&[!0]), P(&[!0]), N),
	(P(&[!0]), P(&[1, 1]), P(&[1]), P(&[!0, 1]), P(&[!0 - 1, 1])),
	(P(&[1]), M(&[!0]), P(&[1]), M(&[!0]), M(&[0, 1])),
	(P(&[!0]), M(&[1]), P(&[!0]), M(&[1]), M(&[0, 1])),
	(P(&[!0]), M(&[!0]), P(&[1]), M(&[1]), M(&[2])),
	(P(&[!0]), M(&[1, 1]), P(&[!0]), M(&[1, 1]), M(&[0, 2])),
	(P(&[1, 1]), M(&[!0]), P(&[1, 1]), M(&[!0]), M(&[0, 2])),
	(M(&[1]), M(&[!0]), M(&[!0]), M(&[1]), P(&[!0 - 1])),
	(M(&[!0]), M(&[!0]), M(&[!0]), M(&[!0]), N),
	(M(&[!0]), M(&[1, 1]), M(&[!0, 1]), M(&[1]), P(&[!0 - 1, 1])),
	];

	const I32_MIN: i64 = i32::MIN as i64;
	const I32_MAX: i64 = i32::MAX as i64;
	const U32_MAX: i64 = u32::MAX as i64;

	// some corner cases
	const I64_VALUES: &[i64] = &[
	i64::MIN,
	i64::MIN + 1,
	i64::MIN + 2,
	i64::MIN + 3,
	-U32_MAX - 3,
	-U32_MAX - 2,
	-U32_MAX - 1,
	-U32_MAX,
	-U32_MAX + 1,
	-U32_MAX + 2,
	-U32_MAX + 3,
	I32_MIN - 3,
	I32_MIN - 2,
	I32_MIN - 1,
	I32_MIN,
	I32_MIN + 1,
	I32_MIN + 2,
	I32_MIN + 3,
	-3,
	-2,
	-1,
	0,
	1,
	2,
	3,
	I32_MAX - 3,
	I32_MAX - 2,
	I32_MAX - 1,
	I32_MAX,
	I32_MAX + 1,
	I32_MAX + 2,
	I32_MAX + 3,
	U32_MAX - 3,
	U32_MAX - 2,
	U32_MAX - 1,
	U32_MAX,
	U32_MAX + 1,
	U32_MAX + 2,
	U32_MAX + 3,
	i64::MAX - 3,
	i64::MAX - 2,
	i64::MAX - 1,
	i64::MAX,
	];

	#[test]
	fn test_not() {
	for &(ref a, ref not) in NOT_VALUES.iter() {
	let a = a.to_bigint().unwrap();
	let not = not.to_bigint().unwrap();

	// sanity check for tests that fit in i64
	if let (Some(prim_a), Some(prim_not)) = (a.to_i64(), not.to_i64()) {
	assert_eq!(!prim_a, prim_not);
	}

	assert_eq!(!a.clone(), not, "!{:x}", a);
	assert_eq!(!not.clone(), a, "!{:x}", not);
	}
	}

	#[test]
	fn test_not_i64() {
	for &prim_a in I64_VALUES.iter() {
	let a = prim_a.to_bigint().unwrap();
	let not = (!prim_a).to_bigint().unwrap();
	assert_eq!(!a.clone(), not, "!{:x}", a);
	}
	}

	#[test]
	fn test_bitwise() {
	for &(ref a, ref b, ref and, ref or, ref xor) in BITWISE_VALUES.iter() {
	let a = a.to_bigint().unwrap();
	let b = b.to_bigint().unwrap();
	let and = and.to_bigint().unwrap();
	let or = or.to_bigint().unwrap();
	let xor = xor.to_bigint().unwrap();

	// sanity check for tests that fit in i64
	if let (Some(prim_a), Some(prim_b)) = (a.to_i64(), b.to_i64()) {
	if let Some(prim_and) = and.to_i64() {
	assert_eq!(prim_a & prim_b, prim_and);
	}
	if let Some(prim_or) = or.to_i64() {
	assert_eq!(prim_a \| prim_b, prim_or);
	}
	if let Some(prim_xor) = xor.to_i64() {
	assert_eq!(prim_a ^ prim_b, prim_xor);
	}
	}

	assert_eq!(a.clone() & &b, and, "{:x} & {:x}", a, b);
	assert_eq!(b.clone() & &a, and, "{:x} & {:x}", b, a);
	assert_eq!(a.clone() \| &b, or, "{:x} \| {:x}", a, b);
	assert_eq!(b.clone() \| &a, or, "{:x} \| {:x}", b, a);
	assert_eq!(a.clone() ^ &b, xor, "{:x} ^ {:x}", a, b);
	assert_eq!(b.clone() ^ &a, xor, "{:x} ^ {:x}", b, a);
	}
	}

	#[test]
	fn test_bitwise_i64() {
	for &prim_a in I64_VALUES.iter() {
	let a = prim_a.to_bigint().unwrap();
	for &prim_b in I64_VALUES.iter() {
	let b = prim_b.to_bigint().unwrap();
	let and = (prim_a & prim_b).to_bigint().unwrap();
	let or = (prim_a \| prim_b).to_bigint().unwrap();
	let xor = (prim_a ^ prim_b).to_bigint().unwrap();
	assert_eq!(a.clone() & &b, and, "{:x} & {:x}", a, b);
	assert_eq!(a.clone() \| &b, or, "{:x} \| {:x}", a, b);
	assert_eq!(a.clone() ^ &b, xor, "{:x} ^ {:x}", a, b);
	}
	}
	}