111 lines
3.5 KiB
Rust
111 lines
3.5 KiB
Rust
use int::LargeInt;
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use int::Int;
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trait Add: LargeInt {
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fn add(self, other: Self) -> Self {
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let (low, carry) = self.low().overflowing_add(other.low());
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let high = self.high().wrapping_add(other.high());
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let carry = if carry { Self::HighHalf::ONE } else { Self::HighHalf::ZERO };
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Self::from_parts(low, high.wrapping_add(carry))
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}
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}
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impl Add for u128 {}
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trait Addo: Int {
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fn addo(self, other: Self, overflow: &mut i32) -> Self {
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*overflow = 0;
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let result = self.wrapping_add(other);
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if other >= Self::ZERO {
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if result < self {
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*overflow = 1;
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}
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} else {
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if result >= self {
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*overflow = 1;
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}
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}
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result
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}
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}
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impl Addo for i128 {}
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impl Addo for u128 {}
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#[cfg_attr(not(stage0), lang = "i128_add")]
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#[allow(dead_code)]
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fn rust_i128_add(a: i128, b: i128) -> i128 {
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rust_u128_add(a as _, b as _) as _
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}
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#[cfg_attr(not(stage0), lang = "i128_addo")]
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#[allow(dead_code)]
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fn rust_i128_addo(a: i128, b: i128) -> (i128, bool) {
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let mut oflow = 0;
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let r = a.addo(b, &mut oflow);
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(r, oflow != 0)
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}
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#[cfg_attr(not(stage0), lang = "u128_add")]
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#[allow(dead_code)]
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fn rust_u128_add(a: u128, b: u128) -> u128 {
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a.add(b)
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}
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#[cfg_attr(not(stage0), lang = "u128_addo")]
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#[allow(dead_code)]
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fn rust_u128_addo(a: u128, b: u128) -> (u128, bool) {
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let mut oflow = 0;
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let r = a.addo(b, &mut oflow);
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(r, oflow != 0)
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}
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#[test]
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fn test_add() {
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assert_eq!(rust_u128_add(1, 2), 3);
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assert_eq!(rust_u128_add(!0, 3), 2);
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assert_eq!(rust_u128_add(1 << 63, 1 << 63), 1 << 64);
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assert_eq!(rust_u128_add(
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0x54009B79B43145A0_B781BF1FD491296E_u128,
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0x6019CEECA5354210_839AB51D155FF7F3_u128),
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0xB41A6A66596687B1_3B1C743CE9F12161_u128);
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assert_eq!(rust_u128_add(
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0x3AE89C3AACEE47CD_8721275248B38DDB_u128,
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0xEFDD73C41D344744_B0842900C3352A63_u128),
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0x2AC60FFECA228F12_37A550530BE8B83E_u128);
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assert_eq!(rust_i128_add(1, 2), 3);
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assert_eq!(rust_i128_add(-1, 3), 2);
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}
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#[test]
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fn test_addo() {
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assert_eq!(rust_u128_addo(1, 2), (3, false));
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assert_eq!(rust_u128_addo(!0, 3), (2, true));
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assert_eq!(rust_u128_addo(1 << 63, 1 << 63), (1 << 64, false));
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assert_eq!(rust_u128_addo(
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0x54009B79B43145A0_B781BF1FD491296E_u128,
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0x6019CEECA5354210_839AB51D155FF7F3_u128),
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(0xB41A6A66596687B1_3B1C743CE9F12161_u128, false));
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assert_eq!(rust_u128_addo(
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0x3AE89C3AACEE47CD_8721275248B38DDB_u128,
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0xEFDD73C41D344744_B0842900C3352A63_u128),
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(0x2AC60FFECA228F12_37A550530BE8B83E_u128, true));
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assert_eq!(rust_i128_addo(1, 2), (3, false));
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assert_eq!(rust_i128_addo(-1, 3), (2, false));
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assert_eq!(rust_i128_addo(1 << 63, 1 << 63), (1 << 64, false));
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assert_eq!(rust_i128_addo(
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0x54009B79B43145A0_B781BF1FD491296E_i128,
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0x6019CEECA5354210_839AB51D155FF7F3_i128),
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(-0x4BE59599A699784E_C4E38BC3160EDE9F_i128, true));
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assert_eq!(rust_i128_addo(
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0x3AE89C3AACEE47CD_8721275248B38DDB_i128,
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-0x10228C3BE2CBB8BB_4F7BD6FF3CCAD59D_i128),
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(0x2AC60FFECA228F12_37A550530BE8B83E_i128, false));
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assert_eq!(rust_i128_addo(
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-0x54009B79B43145A0_B781BF1FD491296E_i128,
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-0x6019CEECA5354210_839AB51D155FF7F3_i128),
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(0x4BE59599A699784E_C4E38BC3160EDE9F_i128, true));
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assert_eq!(rust_i128_addo(
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-0x3AE89C3AACEE47CD_8721275248B38DDB_i128,
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0x10228C3BE2CBB8BB_4F7BD6FF3CCAD59D_i128),
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(-0x2AC60FFECA228F12_37A550530BE8B83E_i128, false));
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} |