544d7d9982
As suggested by @leecannon, this provides more flexibility to the `Random` interface. For exmaple, this allows for an implementation to provide multiple different fill functions.
236 lines
6.0 KiB
Zig
236 lines
6.0 KiB
Zig
//! ISAAC64 - http://www.burtleburtle.net/bob/rand/isaacafa.html
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//!
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//! Follows the general idea of the implementation from here with a few shortcuts.
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//! https://doc.rust-lang.org/rand/src/rand/prng/isaac64.rs.html
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const std = @import("std");
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const Random = std.rand.Random;
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const mem = std.mem;
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const Isaac64 = @This();
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r: [256]u64,
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m: [256]u64,
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a: u64,
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b: u64,
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c: u64,
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i: usize,
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pub fn init(init_s: u64) Isaac64 {
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var isaac = Isaac64{
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.r = undefined,
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.m = undefined,
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.a = undefined,
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.b = undefined,
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.c = undefined,
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.i = undefined,
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};
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// seed == 0 => same result as the unseeded reference implementation
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isaac.seed(init_s, 1);
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return isaac;
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}
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pub fn random(self: *Isaac64) Random {
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return Random.init(self, fill);
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}
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fn step(self: *Isaac64, mix: u64, base: usize, comptime m1: usize, comptime m2: usize) void {
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const x = self.m[base + m1];
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self.a = mix +% self.m[base + m2];
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const y = self.a +% self.b +% self.m[@intCast(usize, (x >> 3) % self.m.len)];
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self.m[base + m1] = y;
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self.b = x +% self.m[@intCast(usize, (y >> 11) % self.m.len)];
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self.r[self.r.len - 1 - base - m1] = self.b;
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}
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fn refill(self: *Isaac64) void {
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const midpoint = self.r.len / 2;
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self.c +%= 1;
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self.b +%= self.c;
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{
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var i: usize = 0;
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while (i < midpoint) : (i += 4) {
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self.step(~(self.a ^ (self.a << 21)), i + 0, 0, midpoint);
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self.step(self.a ^ (self.a >> 5), i + 1, 0, midpoint);
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self.step(self.a ^ (self.a << 12), i + 2, 0, midpoint);
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self.step(self.a ^ (self.a >> 33), i + 3, 0, midpoint);
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}
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}
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{
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var i: usize = 0;
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while (i < midpoint) : (i += 4) {
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self.step(~(self.a ^ (self.a << 21)), i + 0, midpoint, 0);
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self.step(self.a ^ (self.a >> 5), i + 1, midpoint, 0);
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self.step(self.a ^ (self.a << 12), i + 2, midpoint, 0);
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self.step(self.a ^ (self.a >> 33), i + 3, midpoint, 0);
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}
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}
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self.i = 0;
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}
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fn next(self: *Isaac64) u64 {
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if (self.i >= self.r.len) {
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self.refill();
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}
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const value = self.r[self.i];
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self.i += 1;
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return value;
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}
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fn seed(self: *Isaac64, init_s: u64, comptime rounds: usize) void {
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// We ignore the multi-pass requirement since we don't currently expose full access to
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// seeding the self.m array completely.
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mem.set(u64, self.m[0..], 0);
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self.m[0] = init_s;
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// prescrambled golden ratio constants
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var a = [_]u64{
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0x647c4677a2884b7c,
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0xb9f8b322c73ac862,
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0x8c0ea5053d4712a0,
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0xb29b2e824a595524,
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0x82f053db8355e0ce,
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0x48fe4a0fa5a09315,
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0xae985bf2cbfc89ed,
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0x98f5704f6c44c0ab,
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};
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comptime var i: usize = 0;
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inline while (i < rounds) : (i += 1) {
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var j: usize = 0;
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while (j < self.m.len) : (j += 8) {
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comptime var x1: usize = 0;
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inline while (x1 < 8) : (x1 += 1) {
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a[x1] +%= self.m[j + x1];
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}
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a[0] -%= a[4];
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a[5] ^= a[7] >> 9;
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a[7] +%= a[0];
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a[1] -%= a[5];
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a[6] ^= a[0] << 9;
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a[0] +%= a[1];
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a[2] -%= a[6];
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a[7] ^= a[1] >> 23;
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a[1] +%= a[2];
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a[3] -%= a[7];
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a[0] ^= a[2] << 15;
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a[2] +%= a[3];
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a[4] -%= a[0];
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a[1] ^= a[3] >> 14;
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a[3] +%= a[4];
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a[5] -%= a[1];
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a[2] ^= a[4] << 20;
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a[4] +%= a[5];
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a[6] -%= a[2];
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a[3] ^= a[5] >> 17;
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a[5] +%= a[6];
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a[7] -%= a[3];
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a[4] ^= a[6] << 14;
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a[6] +%= a[7];
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comptime var x2: usize = 0;
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inline while (x2 < 8) : (x2 += 1) {
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self.m[j + x2] = a[x2];
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}
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}
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}
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mem.set(u64, self.r[0..], 0);
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self.a = 0;
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self.b = 0;
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self.c = 0;
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self.i = self.r.len; // trigger refill on first value
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}
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pub fn fill(self: *Isaac64, buf: []u8) void {
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var i: usize = 0;
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const aligned_len = buf.len - (buf.len & 7);
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// Fill complete 64-byte segments
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while (i < aligned_len) : (i += 8) {
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var n = self.next();
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comptime var j: usize = 0;
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inline while (j < 8) : (j += 1) {
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buf[i + j] = @truncate(u8, n);
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n >>= 8;
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}
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}
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// Fill trailing, ignoring excess (cut the stream).
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if (i != buf.len) {
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var n = self.next();
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while (i < buf.len) : (i += 1) {
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buf[i] = @truncate(u8, n);
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n >>= 8;
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}
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}
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}
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test "isaac64 sequence" {
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var r = Isaac64.init(0);
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// from reference implementation
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const seq = [_]u64{
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0xf67dfba498e4937c,
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0x84a5066a9204f380,
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0xfee34bd5f5514dbb,
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0x4d1664739b8f80d6,
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0x8607459ab52a14aa,
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0x0e78bc5a98529e49,
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0xfe5332822ad13777,
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0x556c27525e33d01a,
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0x08643ca615f3149f,
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0xd0771faf3cb04714,
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0x30e86f68a37b008d,
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0x3074ebc0488a3adf,
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0x270645ea7a2790bc,
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0x5601a0a8d3763c6a,
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0x2f83071f53f325dd,
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0xb9090f3d42d2d2ea,
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};
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for (seq) |s| {
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try std.testing.expect(s == r.next());
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}
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}
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test "isaac64 fill" {
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var r = Isaac64.init(0);
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// from reference implementation
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const seq = [_]u64{
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0xf67dfba498e4937c,
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0x84a5066a9204f380,
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0xfee34bd5f5514dbb,
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0x4d1664739b8f80d6,
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0x8607459ab52a14aa,
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0x0e78bc5a98529e49,
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0xfe5332822ad13777,
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0x556c27525e33d01a,
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0x08643ca615f3149f,
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0xd0771faf3cb04714,
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0x30e86f68a37b008d,
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0x3074ebc0488a3adf,
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0x270645ea7a2790bc,
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0x5601a0a8d3763c6a,
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0x2f83071f53f325dd,
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0xb9090f3d42d2d2ea,
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};
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for (seq) |s| {
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var buf0: [8]u8 = undefined;
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var buf1: [7]u8 = undefined;
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std.mem.writeIntLittle(u64, &buf0, s);
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r.fill(&buf1);
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try std.testing.expect(std.mem.eql(u8, buf0[0..7], buf1[0..]));
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}
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}
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