# hardy # Copyright (c) 2018 Status Research & Development GmbH # Licensed and distributed under either of # * MIT license (license terms in the root directory or at http://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at http://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. import unittest, random, math, ../hardy # Random seed for reproducibility randomize(0xDEADBEEF) template undistinct[T](x: HardBase[T]): T = T(x) suite "Hardened unsigned integers": test "High - getting the biggest representable number": check: high(HardBase[byte]).undistinct == 0xFF.byte high(HardBase[uint8]).undistinct == 0xFF.uint8 high(HardBase[uint16]).undistinct == 0xFFFF.uint16 high(HardBase[uint32]).undistinct == 0xFFFFFFFF.uint32 high(HardBase[uint64]).undistinct == 0xFFFFFFFF_FFFFFFFF.uint64 test "bitwise `and`, `or`, `xor`, `not`": let x1 = rand(high(int)).uint64 let y1 = rand(high(int)).uint64 let x2 = rand(high(int)).uint64 let y2 = rand(high(int)).uint64 let x3 = rand(high(int)).uint64 let y3 = rand(high(int)).uint64 template bitwise_check(op: untyped): untyped = block: check: op(hard(0'u32), hard(0'u32)).undistinct == op(0'u32, 0'u32) op(hard(0'u32), hard(1'u32)).undistinct == op(0'u32, 1'u32) op(hard(1234'u64), hard(5678'u64)).undistinct == op(1234'u64, 5678'u64) op(x1.hard, y1.hard).undistinct == op(x1, y1) op(x2.hard, y2.hard).undistinct == op(x2, y2) op(x3.hard, y3.hard).undistinct == op(x3, y3) bitwise_check(`and`) bitwise_check(`or`) bitwise_check(`xor`) block: check: not(hard(0'u32)).undistinct == not 0'u32 not(hard(1'u32)).undistinct == not 1'u32 not(hard(1234'u64)).undistinct == not 1234'u64 not(hard(5678'u64)).undistinct == not 5678'u32 not(hard(x1)).undistinct == not x1 not(hard(x2)).undistinct == not x2 not(hard(x3)).undistinct == not x3 not(hard(y1)).undistinct == not y1 not(hard(y2)).undistinct == not y2 not(hard(y3)).undistinct == not y3 test "Logical shifts": let x1 = rand(high(int)).uint64 let y1 = rand(high(int)).uint64 let x2 = rand(high(int)).uint64 let y2 = rand(high(int32)).uint64 let x3 = rand(high(int32)).uint64 let y3 = rand(high(int32)).uint64 let s1 = rand(10) let s2 = rand(10) let s3 = rand(10) template shift_check(op: untyped): untyped = block: check: op(hard(0'u32), 1).undistinct == op(0'u32, 1) op(hard(1'u32), 2).undistinct == op(1'u32, 2) op(hard(1234'u64), 3).undistinct == op(1234'u64, 3) op(hard(2'u64^30), 1).undistinct == op(2'u64^30, 1) op(hard(2'u64^31 + 1), 1).undistinct == op(2'u64^31 + 1, 1) op(hard(2'u64^32), 1).undistinct == op(2'u64^32, 1) op(x1.hard, s1).undistinct == op(x1, s1) op(x2.hard, s2).undistinct == op(x2, s2) op(x3.hard, s3).undistinct == op(x3, s3) op(y1.hard, s1).undistinct == op(y1, s1) op(y2.hard, s2).undistinct == op(y2, s2) op(y3.hard, s3).undistinct == op(y3, s3) shift_check(`shl`) shift_check(`shr`) test "Operators `+`, `-`, `*`": let x1 = rand(high(int)).uint64 let y1 = rand(high(int)).uint64 let x2 = rand(high(int)).uint64 let y2 = rand(high(int)).uint64 let x3 = rand(high(int)).uint64 let y3 = rand(high(int)).uint64 template operator_check(op: untyped): untyped = block: check: op(hard(0'u32), hard(0'u32)).undistinct == op(0'u32, 0'u32) op(hard(0'u32), hard(1'u32)).undistinct == op(0'u32, 1'u32) op(hard(1234'u64), hard(5678'u64)).undistinct == op(1234'u64, 5678'u64) op(x1.hard, y1.hard).undistinct == op(x1, y1) op(x2.hard, y2.hard).undistinct == op(x2, y2) op(x3.hard, y3.hard).undistinct == op(x3, y3) operator_check(`+`) operator_check(`-`) operator_check(`*`)