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Diffstat (limited to 'rand/src/prng/isaac64.rs')
| -rw-r--r-- | rand/src/prng/isaac64.rs | 340 |
1 files changed, 340 insertions, 0 deletions
diff --git a/rand/src/prng/isaac64.rs b/rand/src/prng/isaac64.rs new file mode 100644 index 0000000..b98e3fe --- /dev/null +++ b/rand/src/prng/isaac64.rs @@ -0,0 +1,340 @@ +// Copyright 2013 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 <LICENSE-APACHE or +// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license +// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your +// option. This file may not be copied, modified, or distributed +// except according to those terms. + +//! The ISAAC-64 random number generator. + +use core::slice; +use core::iter::repeat; +use core::num::Wrapping as w; +use core::fmt; + +use {Rng, SeedableRng, Rand}; + +#[allow(bad_style)] +type w64 = w<u64>; + +const RAND_SIZE_64_LEN: usize = 8; +const RAND_SIZE_64: usize = 1 << RAND_SIZE_64_LEN; + +/// A random number generator that uses ISAAC-64[1], the 64-bit +/// variant of the ISAAC algorithm. +/// +/// The ISAAC algorithm is generally accepted as suitable for +/// cryptographic purposes, but this implementation has not be +/// verified as such. Prefer a generator like `OsRng` that defers to +/// the operating system for cases that need high security. +/// +/// [1]: Bob Jenkins, [*ISAAC: A fast cryptographic random number +/// generator*](http://www.burtleburtle.net/bob/rand/isaacafa.html) +#[derive(Copy)] +pub struct Isaac64Rng { + cnt: usize, + rsl: [w64; RAND_SIZE_64], + mem: [w64; RAND_SIZE_64], + a: w64, + b: w64, + c: w64, +} + +static EMPTY_64: Isaac64Rng = Isaac64Rng { + cnt: 0, + rsl: [w(0); RAND_SIZE_64], + mem: [w(0); RAND_SIZE_64], + a: w(0), b: w(0), c: w(0), +}; + +impl Isaac64Rng { + /// Create a 64-bit ISAAC random number generator using the + /// default fixed seed. + pub fn new_unseeded() -> Isaac64Rng { + let mut rng = EMPTY_64; + rng.init(false); + rng + } + + /// Initialises `self`. If `use_rsl` is true, then use the current value + /// of `rsl` as a seed, otherwise construct one algorithmically (not + /// randomly). + fn init(&mut self, use_rsl: bool) { + macro_rules! init { + ($var:ident) => ( + let mut $var = w(0x9e3779b97f4a7c13); + ) + } + init!(a); init!(b); init!(c); init!(d); + init!(e); init!(f); init!(g); init!(h); + + macro_rules! mix { + () => {{ + a=a-e; f=f^(h>>9); h=h+a; + b=b-f; g=g^(a<<9); a=a+b; + c=c-g; h=h^(b>>23); b=b+c; + d=d-h; a=a^(c<<15); c=c+d; + e=e-a; b=b^(d>>14); d=d+e; + f=f-b; c=c^(e<<20); e=e+f; + g=g-c; d=d^(f>>17); f=f+g; + h=h-d; e=e^(g<<14); g=g+h; + }} + } + + for _ in 0..4 { + mix!(); + } + + if use_rsl { + macro_rules! memloop { + ($arr:expr) => {{ + for i in (0..RAND_SIZE_64 / 8).map(|i| i * 8) { + a=a+$arr[i ]; b=b+$arr[i+1]; + c=c+$arr[i+2]; d=d+$arr[i+3]; + e=e+$arr[i+4]; f=f+$arr[i+5]; + g=g+$arr[i+6]; h=h+$arr[i+7]; + mix!(); + self.mem[i ]=a; self.mem[i+1]=b; + self.mem[i+2]=c; self.mem[i+3]=d; + self.mem[i+4]=e; self.mem[i+5]=f; + self.mem[i+6]=g; self.mem[i+7]=h; + } + }} + } + + memloop!(self.rsl); + memloop!(self.mem); + } else { + for i in (0..RAND_SIZE_64 / 8).map(|i| i * 8) { + mix!(); + self.mem[i ]=a; self.mem[i+1]=b; + self.mem[i+2]=c; self.mem[i+3]=d; + self.mem[i+4]=e; self.mem[i+5]=f; + self.mem[i+6]=g; self.mem[i+7]=h; + } + } + + self.isaac64(); + } + + /// Refills the output buffer (`self.rsl`) + fn isaac64(&mut self) { + self.c = self.c + w(1); + // abbreviations + let mut a = self.a; + let mut b = self.b + self.c; + const MIDPOINT: usize = RAND_SIZE_64 / 2; + const MP_VEC: [(usize, usize); 2] = [(0,MIDPOINT), (MIDPOINT, 0)]; + macro_rules! ind { + ($x:expr) => { + *self.mem.get_unchecked((($x >> 3usize).0 as usize) & (RAND_SIZE_64 - 1)) + } + } + + for &(mr_offset, m2_offset) in MP_VEC.iter() { + for base in (0..MIDPOINT / 4).map(|i| i * 4) { + + macro_rules! rngstepp { + ($j:expr, $shift:expr) => {{ + let base = base + $j; + let mix = a ^ (a << $shift); + let mix = if $j == 0 {!mix} else {mix}; + + unsafe { + let x = *self.mem.get_unchecked(base + mr_offset); + a = mix + *self.mem.get_unchecked(base + m2_offset); + let y = ind!(x) + a + b; + *self.mem.get_unchecked_mut(base + mr_offset) = y; + + b = ind!(y >> RAND_SIZE_64_LEN) + x; + *self.rsl.get_unchecked_mut(base + mr_offset) = b; + } + }} + } + + macro_rules! rngstepn { + ($j:expr, $shift:expr) => {{ + let base = base + $j; + let mix = a ^ (a >> $shift); + let mix = if $j == 0 {!mix} else {mix}; + + unsafe { + let x = *self.mem.get_unchecked(base + mr_offset); + a = mix + *self.mem.get_unchecked(base + m2_offset); + let y = ind!(x) + a + b; + *self.mem.get_unchecked_mut(base + mr_offset) = y; + + b = ind!(y >> RAND_SIZE_64_LEN) + x; + *self.rsl.get_unchecked_mut(base + mr_offset) = b; + } + }} + } + + rngstepp!(0, 21); + rngstepn!(1, 5); + rngstepp!(2, 12); + rngstepn!(3, 33); + } + } + + self.a = a; + self.b = b; + self.cnt = RAND_SIZE_64; + } +} + +// Cannot be derived because [u32; 256] does not implement Clone +impl Clone for Isaac64Rng { + fn clone(&self) -> Isaac64Rng { + *self + } +} + +impl Rng for Isaac64Rng { + #[inline] + fn next_u32(&mut self) -> u32 { + self.next_u64() as u32 + } + + #[inline] + fn next_u64(&mut self) -> u64 { + if self.cnt == 0 { + // make some more numbers + self.isaac64(); + } + self.cnt -= 1; + + // See corresponding location in IsaacRng.next_u32 for + // explanation. + debug_assert!(self.cnt < RAND_SIZE_64); + self.rsl[(self.cnt % RAND_SIZE_64) as usize].0 + } +} + +impl<'a> SeedableRng<&'a [u64]> for Isaac64Rng { + fn reseed(&mut self, seed: &'a [u64]) { + // make the seed into [seed[0], seed[1], ..., seed[seed.len() + // - 1], 0, 0, ...], to fill rng.rsl. + let seed_iter = seed.iter().map(|&x| x).chain(repeat(0u64)); + + for (rsl_elem, seed_elem) in self.rsl.iter_mut().zip(seed_iter) { + *rsl_elem = w(seed_elem); + } + self.cnt = 0; + self.a = w(0); + self.b = w(0); + self.c = w(0); + + self.init(true); + } + + /// Create an ISAAC random number generator with a seed. This can + /// be any length, although the maximum number of elements used is + /// 256 and any more will be silently ignored. A generator + /// constructed with a given seed will generate the same sequence + /// of values as all other generators constructed with that seed. + fn from_seed(seed: &'a [u64]) -> Isaac64Rng { + let mut rng = EMPTY_64; + rng.reseed(seed); + rng + } +} + +impl Rand for Isaac64Rng { + fn rand<R: Rng>(other: &mut R) -> Isaac64Rng { + let mut ret = EMPTY_64; + unsafe { + let ptr = ret.rsl.as_mut_ptr() as *mut u8; + + let slice = slice::from_raw_parts_mut(ptr, RAND_SIZE_64 * 8); + other.fill_bytes(slice); + } + ret.cnt = 0; + ret.a = w(0); + ret.b = w(0); + ret.c = w(0); + + ret.init(true); + return ret; + } +} + +impl fmt::Debug for Isaac64Rng { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + write!(f, "Isaac64Rng {{}}") + } +} + +#[cfg(test)] +mod test { + use {Rng, SeedableRng}; + use super::Isaac64Rng; + + #[test] + fn test_rng_64_rand_seeded() { + let s = ::test::rng().gen_iter::<u64>().take(256).collect::<Vec<u64>>(); + let mut ra: Isaac64Rng = SeedableRng::from_seed(&s[..]); + let mut rb: Isaac64Rng = SeedableRng::from_seed(&s[..]); + assert!(::test::iter_eq(ra.gen_ascii_chars().take(100), + rb.gen_ascii_chars().take(100))); + } + + #[test] + fn test_rng_64_seeded() { + let seed: &[_] = &[1, 23, 456, 7890, 12345]; + let mut ra: Isaac64Rng = SeedableRng::from_seed(seed); + let mut rb: Isaac64Rng = SeedableRng::from_seed(seed); + assert!(::test::iter_eq(ra.gen_ascii_chars().take(100), + rb.gen_ascii_chars().take(100))); + } + + #[test] + fn test_rng_64_reseed() { + let s = ::test::rng().gen_iter::<u64>().take(256).collect::<Vec<u64>>(); + let mut r: Isaac64Rng = SeedableRng::from_seed(&s[..]); + let string1: String = r.gen_ascii_chars().take(100).collect(); + + r.reseed(&s[..]); + + let string2: String = r.gen_ascii_chars().take(100).collect(); + assert_eq!(string1, string2); + } + + #[test] + fn test_rng_64_true_values() { + let seed: &[_] = &[1, 23, 456, 7890, 12345]; + let mut ra: Isaac64Rng = SeedableRng::from_seed(seed); + // Regression test that isaac is actually using the above vector + let v = (0..10).map(|_| ra.next_u64()).collect::<Vec<_>>(); + assert_eq!(v, + vec!(547121783600835980, 14377643087320773276, 17351601304698403469, + 1238879483818134882, 11952566807690396487, 13970131091560099343, + 4469761996653280935, 15552757044682284409, 6860251611068737823, + 13722198873481261842)); + + let seed: &[_] = &[12345, 67890, 54321, 9876]; + let mut rb: Isaac64Rng = SeedableRng::from_seed(seed); + // skip forward to the 10000th number + for _ in 0..10000 { rb.next_u64(); } + + let v = (0..10).map(|_| rb.next_u64()).collect::<Vec<_>>(); + assert_eq!(v, + vec!(18143823860592706164, 8491801882678285927, 2699425367717515619, + 17196852593171130876, 2606123525235546165, 15790932315217671084, + 596345674630742204, 9947027391921273664, 11788097613744130851, + 10391409374914919106)); + } + + #[test] + fn test_rng_clone() { + let seed: &[_] = &[1, 23, 456, 7890, 12345]; + let mut rng: Isaac64Rng = SeedableRng::from_seed(seed); + let mut clone = rng.clone(); + for _ in 0..16 { + assert_eq!(rng.next_u64(), clone.next_u64()); + } + } +} |