// Copyright 2012 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. // Test inherent wrapping_* methods for {i,u}{size,8,16,32,64}. use std::{i8, i16, i32, i64, isize}; use std::{u8, u16, u32, u64, usize}; fn main() { assert_eq!( i8::MAX.wrapping_add(1), i8::MIN); assert_eq!( i16::MAX.wrapping_add(1), i16::MIN); assert_eq!( i32::MAX.wrapping_add(1), i32::MIN); assert_eq!( i64::MAX.wrapping_add(1), i64::MIN); assert_eq!(isize::MAX.wrapping_add(1), isize::MIN); assert_eq!( i8::MIN.wrapping_sub(1), i8::MAX); assert_eq!( i16::MIN.wrapping_sub(1), i16::MAX); assert_eq!( i32::MIN.wrapping_sub(1), i32::MAX); assert_eq!( i64::MIN.wrapping_sub(1), i64::MAX); assert_eq!(isize::MIN.wrapping_sub(1), isize::MAX); assert_eq!( u8::MAX.wrapping_add(1), u8::MIN); assert_eq!( u16::MAX.wrapping_add(1), u16::MIN); assert_eq!( u32::MAX.wrapping_add(1), u32::MIN); assert_eq!( u64::MAX.wrapping_add(1), u64::MIN); assert_eq!(usize::MAX.wrapping_add(1), usize::MIN); assert_eq!( u8::MIN.wrapping_sub(1), u8::MAX); assert_eq!( u16::MIN.wrapping_sub(1), u16::MAX); assert_eq!( u32::MIN.wrapping_sub(1), u32::MAX); assert_eq!( u64::MIN.wrapping_sub(1), u64::MAX); assert_eq!(usize::MIN.wrapping_sub(1), usize::MAX); assert_eq!((0xfe_u8 as i8).wrapping_mul(16), (0xe0_u8 as i8)); assert_eq!((0xfedc_u16 as i16).wrapping_mul(16), (0xedc0_u16 as i16)); assert_eq!((0xfedc_ba98_u32 as i32).wrapping_mul(16), (0xedcb_a980_u32 as i32)); assert_eq!((0xfedc_ba98_7654_3217_u64 as i64).wrapping_mul(16), (0xedcb_a987_6543_2170_u64 as i64)); match () { #[cfg(target_pointer_width = "32")] () => { assert_eq!((0xfedc_ba98_u32 as isize).wrapping_mul(16), (0xedcb_a980_u32 as isize)); } #[cfg(target_pointer_width = "64")] () => { assert_eq!((0xfedc_ba98_7654_3217_u64 as isize).wrapping_mul(16), (0xedcb_a987_6543_2170_u64 as isize)); } } assert_eq!((0xfe as u8).wrapping_mul(16), (0xe0 as u8)); assert_eq!((0xfedc as u16).wrapping_mul(16), (0xedc0 as u16)); assert_eq!((0xfedc_ba98 as u32).wrapping_mul(16), (0xedcb_a980 as u32)); assert_eq!((0xfedc_ba98_7654_3217 as u64).wrapping_mul(16), (0xedcb_a987_6543_2170 as u64)); match () { #[cfg(target_pointer_width = "32")] () => { assert_eq!((0xfedc_ba98 as usize).wrapping_mul(16), (0xedcb_a980 as usize)); } #[cfg(target_pointer_width = "64")] () => { assert_eq!((0xfedc_ba98_7654_3217 as usize).wrapping_mul(16), (0xedcb_a987_6543_2170 as usize)); } } macro_rules! check_mul_no_wrap { ($e:expr, $f:expr) => { assert_eq!(($e).wrapping_mul($f), ($e) * $f); } } macro_rules! check_mul_wraps { ($e:expr, $f:expr) => { assert_eq!(($e).wrapping_mul($f), $e); } } check_mul_no_wrap!(0xfe_u8 as i8, -1); check_mul_no_wrap!(0xfedc_u16 as i16, -1); check_mul_no_wrap!(0xfedc_ba98_u32 as i32, -1); check_mul_no_wrap!(0xfedc_ba98_7654_3217_u64 as i64, -1); check_mul_no_wrap!(0xfedc_ba98_7654_3217_u64 as u64 as isize, -1); check_mul_no_wrap!(0xfe_u8 as i8, -2); check_mul_no_wrap!(0xfedc_u16 as i16, -2); check_mul_no_wrap!(0xfedc_ba98_u32 as i32, -2); check_mul_no_wrap!(0xfedc_ba98_7654_3217_u64 as i64, -2); check_mul_no_wrap!(0xfedc_ba98_fedc_ba98_u64 as u64 as isize, -2); check_mul_no_wrap!(0xfe_u8 as i8, 2); check_mul_no_wrap!(0xfedc_u16 as i16, 2); check_mul_no_wrap!(0xfedc_ba98_u32 as i32, 2); check_mul_no_wrap!(0xfedc_ba98_7654_3217_u64 as i64, 2); check_mul_no_wrap!(0xfedc_ba98_fedc_ba98_u64 as u64 as isize, 2); check_mul_wraps!(0x80_u8 as i8, -1); check_mul_wraps!(0x8000_u16 as i16, -1); check_mul_wraps!(0x8000_0000_u32 as i32, -1); check_mul_wraps!(0x8000_0000_0000_0000_u64 as i64, -1); match () { #[cfg(target_pointer_width = "32")] () => { check_mul_wraps!(0x8000_0000_u32 as isize, -1); } #[cfg(target_pointer_width = "64")] () => { check_mul_wraps!(0x8000_0000_0000_0000_u64 as isize, -1); } } macro_rules! check_div_no_wrap { ($e:expr, $f:expr) => { assert_eq!(($e).wrapping_div($f), ($e) / $f); } } macro_rules! check_div_wraps { ($e:expr, $f:expr) => { assert_eq!(($e).wrapping_div($f), $e); } } check_div_no_wrap!(0xfe_u8 as i8, -1); check_div_no_wrap!(0xfedc_u16 as i16, -1); check_div_no_wrap!(0xfedc_ba98_u32 as i32, -1); check_div_no_wrap!(0xfedc_ba98_7654_3217_u64 as i64, -1); check_div_no_wrap!(0xfedc_ba98_7654_3217_u64 as u64 as isize, -1); check_div_no_wrap!(0xfe_u8 as i8, -2); check_div_no_wrap!(0xfedc_u16 as i16, -2); check_div_no_wrap!(0xfedc_ba98_u32 as i32, -2); check_div_no_wrap!(0xfedc_ba98_7654_3217_u64 as i64, -2); check_div_no_wrap!(0xfedc_ba98_7654_3217_u64 as u64 as isize, -2); check_div_no_wrap!(0xfe_u8 as i8, 2); check_div_no_wrap!(0xfedc_u16 as i16, 2); check_div_no_wrap!(0xfedc_ba98_u32 as i32, 2); check_div_no_wrap!(0xfedc_ba98_7654_3217_u64 as i64, 2); check_div_no_wrap!(0xfedc_ba98_7654_3217_u64 as u64 as isize, 2); check_div_wraps!(-128 as i8, -1); check_div_wraps!(0x8000_u16 as i16, -1); check_div_wraps!(0x8000_0000_u32 as i32, -1); check_div_wraps!(0x8000_0000_0000_0000_u64 as i64, -1); match () { #[cfg(target_pointer_width = "32")] () => { check_div_wraps!(0x8000_0000_u32 as isize, -1); } #[cfg(target_pointer_width = "64")] () => { check_div_wraps!(0x8000_0000_0000_0000_u64 as isize, -1); } } macro_rules! check_rem_no_wrap { ($e:expr, $f:expr) => { assert_eq!(($e).wrapping_rem($f), ($e) % $f); } } macro_rules! check_rem_wraps { ($e:expr, $f:expr) => { assert_eq!(($e).wrapping_rem($f), 0); } } check_rem_no_wrap!(0xfe_u8 as i8, -1); check_rem_no_wrap!(0xfedc_u16 as i16, -1); check_rem_no_wrap!(0xfedc_ba98_u32 as i32, -1); check_rem_no_wrap!(0xfedc_ba98_7654_3217_u64 as i64, -1); check_rem_no_wrap!(0xfedc_ba98_7654_3217_u64 as u64 as isize, -1); check_rem_no_wrap!(0xfe_u8 as i8, -2); check_rem_no_wrap!(0xfedc_u16 as i16, -2); check_rem_no_wrap!(0xfedc_ba98_u32 as i32, -2); check_rem_no_wrap!(0xfedc_ba98_7654_3217_u64 as i64, -2); check_rem_no_wrap!(0xfedc_ba98_7654_3217_u64 as u64 as isize, -2); check_rem_no_wrap!(0xfe_u8 as i8, 2); check_rem_no_wrap!(0xfedc_u16 as i16, 2); check_rem_no_wrap!(0xfedc_ba98_u32 as i32, 2); check_rem_no_wrap!(0xfedc_ba98_7654_3217_u64 as i64, 2); check_rem_no_wrap!(0xfedc_ba98_7654_3217_u64 as u64 as isize, 2); check_rem_wraps!(0x80_u8 as i8, -1); check_rem_wraps!(0x8000_u16 as i16, -1); check_rem_wraps!(0x8000_0000_u32 as i32, -1); check_rem_wraps!(0x8000_0000_0000_0000_u64 as i64, -1); match () { #[cfg(target_pointer_width = "32")] () => { check_rem_wraps!(0x8000_0000_u32 as isize, -1); } #[cfg(target_pointer_width = "64")] () => { check_rem_wraps!(0x8000_0000_0000_0000_u64 as isize, -1); } } macro_rules! check_neg_no_wrap { ($e:expr) => { assert_eq!(($e).wrapping_neg(), -($e)); } } macro_rules! check_neg_wraps { ($e:expr) => { assert_eq!(($e).wrapping_neg(), ($e)); } } check_neg_no_wrap!(0xfe_u8 as i8); check_neg_no_wrap!(0xfedc_u16 as i16); check_neg_no_wrap!(0xfedc_ba98_u32 as i32); check_neg_no_wrap!(0xfedc_ba98_7654_3217_u64 as i64); check_neg_no_wrap!(0xfedc_ba98_7654_3217_u64 as u64 as isize); check_neg_wraps!(0x80_u8 as i8); check_neg_wraps!(0x8000_u16 as i16); check_neg_wraps!(0x8000_0000_u32 as i32); check_neg_wraps!(0x8000_0000_0000_0000_u64 as i64); match () { #[cfg(target_pointer_width = "32")] () => { check_neg_wraps!(0x8000_0000_u32 as isize); } #[cfg(target_pointer_width = "64")] () => { check_neg_wraps!(0x8000_0000_0000_0000_u64 as isize); } } }