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// SPDX-License-Identifier: MIT
// Copyright (c) 2015-2021 Zig Contributors
// This file is part of [zig](https://ziglang.org/), which is MIT licensed.
// The MIT license requires this copyright notice to be included in all copies
// and substantial portions of the software.
//! Sfc64 pseudo-random number generator from Practically Random.
//! Fastest engine of pracrand and smallest footprint.
//! See http://pracrand.sourceforge.net/
const std = @import("std");
const Random = std.rand.Random;
const math = std.math;
const Sfc64 = @This();
random: Random,
a: u64 = undefined,
b: u64 = undefined,
c: u64 = undefined,
counter: u64 = undefined,
const Rotation = 24;
const RightShift = 11;
const LeftShift = 3;
pub fn init(init_s: u64) Sfc64 {
var x = Sfc64{
.random = Random{ .fillFn = fill },
};
x.seed(init_s);
return x;
}
fn next(self: *Sfc64) u64 {
const tmp = self.a +% self.b +% self.counter;
self.counter += 1;
self.a = self.b ^ (self.b >> RightShift);
self.b = self.c +% (self.c << LeftShift);
self.c = math.rotl(u64, self.c, Rotation) +% tmp;
return tmp;
}
fn seed(self: *Sfc64, init_s: u64) void {
self.a = init_s;
self.b = init_s;
self.c = init_s;
self.counter = 1;
var i: u32 = 0;
while (i < 12) : (i += 1) {
_ = self.next();
}
}
fn fill(r: *Random, buf: []u8) void {
const self = @fieldParentPtr(Sfc64, "random", r);
var i: usize = 0;
const aligned_len = buf.len - (buf.len & 7);
// Complete 8 byte segments.
while (i < aligned_len) : (i += 8) {
var n = self.next();
comptime var j: usize = 0;
inline while (j < 8) : (j += 1) {
buf[i + j] = @truncate(u8, n);
n >>= 8;
}
}
// Remaining. (cuts the stream)
if (i != buf.len) {
var n = self.next();
while (i < buf.len) : (i += 1) {
buf[i] = @truncate(u8, n);
n >>= 8;
}
}
}
test "Sfc64 sequence" {
// Unfortunately there does not seem to be an official test sequence.
var r = Sfc64.init(0);
const seq = [_]u64{
0x3acfa029e3cc6041,
0xf5b6515bf2ee419c,
0x1259635894a29b61,
0xb6ae75395f8ebd6,
0x225622285ce302e2,
0x520d28611395cb21,
0xdb909c818901599d,
0x8ffd195365216f57,
0xe8c4ad5e258ac04a,
0x8f8ef2c89fdb63ca,
0xf9865b01d98d8e2f,
0x46555871a65d08ba,
0x66868677c6298fcd,
0x2ce15a7e6329f57d,
0xb2f1833ca91ca79,
0x4b0890ac9bf453ca,
};
for (seq) |s| {
try std.testing.expectEqual(s, r.next());
}
}
test "Sfc64 fill" {
// Unfortunately there does not seem to be an official test sequence.
var r = Sfc64.init(0);
const seq = [_]u64{
0x3acfa029e3cc6041,
0xf5b6515bf2ee419c,
0x1259635894a29b61,
0xb6ae75395f8ebd6,
0x225622285ce302e2,
0x520d28611395cb21,
0xdb909c818901599d,
0x8ffd195365216f57,
0xe8c4ad5e258ac04a,
0x8f8ef2c89fdb63ca,
0xf9865b01d98d8e2f,
0x46555871a65d08ba,
0x66868677c6298fcd,
0x2ce15a7e6329f57d,
0xb2f1833ca91ca79,
0x4b0890ac9bf453ca,
};
for (seq) |s| {
var buf0: [8]u8 = undefined;
var buf1: [7]u8 = undefined;
std.mem.writeIntLittle(u64, &buf0, s);
Sfc64.fill(&r.random, &buf1);
try std.testing.expect(std.mem.eql(u8, buf0[0..7], buf1[0..]));
}
}
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