// Copyright 2018 Developers of the Rand project.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.

#![feature(test)]

extern crate test;
extern crate rand;
extern crate rand_isaac;
extern crate rand_chacha;
extern crate rand_hc;
extern crate rand_pcg;
extern crate rand_xorshift;
extern crate rand_xoshiro;

const RAND_BENCH_N: u64 = 1000;
const BYTES_LEN: usize = 1024;

use std::mem::size_of;
use test::{black_box, Bencher};

use rand::prelude::*;
use rand::rngs::adapter::ReseedingRng;
use rand::rngs::{OsRng, JitterRng, EntropyRng};
use rand_isaac::{IsaacRng, Isaac64Rng};
use rand_chacha::ChaChaRng;
use rand_hc::{Hc128Rng, Hc128Core};
use rand_pcg::{Lcg64Xsh32, Mcg128Xsl64};
use rand_xorshift::XorShiftRng;
use rand_xoshiro::{Xoshiro256StarStar, Xoshiro256Plus, Xoshiro128StarStar,
    Xoshiro128Plus, Xoroshiro128StarStar, Xoroshiro128Plus, SplitMix64,
    Xoroshiro64StarStar, Xoroshiro64Star};

macro_rules! gen_bytes {
    ($fnn:ident, $gen:expr) => {
        #[bench]
        fn $fnn(b: &mut Bencher) {
            let mut rng = $gen;
            let mut buf = [0u8; BYTES_LEN];
            b.iter(|| {
                for _ in 0..RAND_BENCH_N {
                    rng.fill_bytes(&mut buf);
                    black_box(buf);
                }
            });
            b.bytes = BYTES_LEN as u64 * RAND_BENCH_N;
        }
    }
}

gen_bytes!(gen_bytes_xorshift, XorShiftRng::from_entropy());
gen_bytes!(gen_bytes_xoshiro256starstar, Xoshiro256StarStar::from_entropy());
gen_bytes!(gen_bytes_xoshiro256plus, Xoshiro256Plus::from_entropy());
gen_bytes!(gen_bytes_xoshiro128starstar, Xoshiro128StarStar::from_entropy());
gen_bytes!(gen_bytes_xoshiro128plus, Xoshiro128Plus::from_entropy());
gen_bytes!(gen_bytes_xoroshiro128starstar, Xoroshiro128StarStar::from_entropy());
gen_bytes!(gen_bytes_xoroshiro128plus, Xoroshiro128Plus::from_entropy());
gen_bytes!(gen_bytes_xoroshiro64starstar, Xoroshiro64StarStar::from_entropy());
gen_bytes!(gen_bytes_xoroshiro64star, Xoroshiro64Star::from_entropy());
gen_bytes!(gen_bytes_splitmix64, SplitMix64::from_entropy());
gen_bytes!(gen_bytes_lcg64_xsh32, Lcg64Xsh32::from_entropy());
gen_bytes!(gen_bytes_mcg128_xsh64, Mcg128Xsl64::from_entropy());
gen_bytes!(gen_bytes_chacha20, ChaChaRng::from_entropy());
gen_bytes!(gen_bytes_hc128, Hc128Rng::from_entropy());
gen_bytes!(gen_bytes_isaac, IsaacRng::from_entropy());
gen_bytes!(gen_bytes_isaac64, Isaac64Rng::from_entropy());
gen_bytes!(gen_bytes_std, StdRng::from_entropy());
gen_bytes!(gen_bytes_small, SmallRng::from_entropy());
gen_bytes!(gen_bytes_os, OsRng::new().unwrap());

macro_rules! gen_uint {
    ($fnn:ident, $ty:ty, $gen:expr) => {
        #[bench]
        fn $fnn(b: &mut Bencher) {
            let mut rng = $gen;
            b.iter(|| {
                let mut accum: $ty = 0;
                for _ in 0..RAND_BENCH_N {
                    accum = accum.wrapping_add(rng.gen::<$ty>());
                }
                accum
            });
            b.bytes = size_of::<$ty>() as u64 * RAND_BENCH_N;
        }
    }
}

gen_uint!(gen_u32_xorshift, u32, XorShiftRng::from_entropy());
gen_uint!(gen_u32_xoshiro256starstar, u32, Xoshiro256StarStar::from_entropy());
gen_uint!(gen_u32_xoshiro256plus, u32, Xoshiro256Plus::from_entropy());
gen_uint!(gen_u32_xoshiro128starstar, u32, Xoshiro128StarStar::from_entropy());
gen_uint!(gen_u32_xoshiro128plus, u32, Xoshiro128Plus::from_entropy());
gen_uint!(gen_u32_xoroshiro128starstar, u32, Xoroshiro128StarStar::from_entropy());
gen_uint!(gen_u32_xoroshiro128plus, u32, Xoroshiro128Plus::from_entropy());
gen_uint!(gen_u32_xoroshiro64starstar, u32, Xoroshiro64StarStar::from_entropy());
gen_uint!(gen_u32_xoroshiro64star, u32, Xoroshiro64Star::from_entropy());
gen_uint!(gen_u32_splitmix64, u32, SplitMix64::from_entropy());
gen_uint!(gen_u32_lcg64_xsh32, u32, Lcg64Xsh32::from_entropy());
gen_uint!(gen_u32_mcg128_xsh64, u32, Mcg128Xsl64::from_entropy());
gen_uint!(gen_u32_chacha20, u32, ChaChaRng::from_entropy());
gen_uint!(gen_u32_hc128, u32, Hc128Rng::from_entropy());
gen_uint!(gen_u32_isaac, u32, IsaacRng::from_entropy());
gen_uint!(gen_u32_isaac64, u32, Isaac64Rng::from_entropy());
gen_uint!(gen_u32_std, u32, StdRng::from_entropy());
gen_uint!(gen_u32_small, u32, SmallRng::from_entropy());
gen_uint!(gen_u32_os, u32, OsRng::new().unwrap());

gen_uint!(gen_u64_xorshift, u64, XorShiftRng::from_entropy());
gen_uint!(gen_u64_xoshiro256starstar, u64, Xoshiro256StarStar::from_entropy());
gen_uint!(gen_u64_xoshiro256plus, u64, Xoshiro256Plus::from_entropy());
gen_uint!(gen_u64_xoshiro128starstar, u64, Xoshiro128StarStar::from_entropy());
gen_uint!(gen_u64_xoshiro128plus, u64, Xoshiro128Plus::from_entropy());
gen_uint!(gen_u64_xoroshiro128starstar, u64, Xoroshiro128StarStar::from_entropy());
gen_uint!(gen_u64_xoroshiro128plus, u64, Xoroshiro128Plus::from_entropy());
gen_uint!(gen_u64_xoroshiro64starstar, u64, Xoroshiro64StarStar::from_entropy());
gen_uint!(gen_u64_xoroshiro64star, u64, Xoroshiro64Star::from_entropy());
gen_uint!(gen_u64_splitmix64, u64, SplitMix64::from_entropy());
gen_uint!(gen_u64_lcg64_xsh32, u64, Lcg64Xsh32::from_entropy());
gen_uint!(gen_u64_mcg128_xsh64, u64, Mcg128Xsl64::from_entropy());
gen_uint!(gen_u64_chacha20, u64, ChaChaRng::from_entropy());
gen_uint!(gen_u64_hc128, u64, Hc128Rng::from_entropy());
gen_uint!(gen_u64_isaac, u64, IsaacRng::from_entropy());
gen_uint!(gen_u64_isaac64, u64, Isaac64Rng::from_entropy());
gen_uint!(gen_u64_std, u64, StdRng::from_entropy());
gen_uint!(gen_u64_small, u64, SmallRng::from_entropy());
gen_uint!(gen_u64_os, u64, OsRng::new().unwrap());

// Do not test JitterRng like the others by running it RAND_BENCH_N times per,
// measurement, because it is way too slow. Only run it once.
#[bench]
fn gen_u64_jitter(b: &mut Bencher) {
    let mut rng = JitterRng::new().unwrap();
    b.iter(|| {
        rng.gen::<u64>()
    });
    b.bytes = size_of::<u64>() as u64;
}

macro_rules! init_gen {
    ($fnn:ident, $gen:ident) => {
        #[bench]
        fn $fnn(b: &mut Bencher) {
            let mut rng = XorShiftRng::from_entropy();
            b.iter(|| {
                let r2 = $gen::from_rng(&mut rng).unwrap();
                r2
            });
        }
    }
}

init_gen!(init_xorshift, XorShiftRng);
init_gen!(init_xoshiro256starstar, Xoshiro256StarStar);
init_gen!(init_xoshiro256plus, Xoshiro256Plus);
init_gen!(init_xoshiro128starstar, Xoshiro128StarStar);
init_gen!(init_xoshiro128plus, Xoshiro128Plus);
init_gen!(init_xoroshiro128starstar, Xoroshiro128StarStar);
init_gen!(init_xoroshiro128plus, Xoroshiro128Plus);
init_gen!(init_xoroshiro64starstar, Xoroshiro64StarStar);
init_gen!(init_xoroshiro64star, Xoroshiro64Star);
init_gen!(init_splitmix64, SplitMix64);
init_gen!(init_lcg64_xsh32, Lcg64Xsh32);
init_gen!(init_mcg128_xsh64, Mcg128Xsl64);
init_gen!(init_hc128, Hc128Rng);
init_gen!(init_isaac, IsaacRng);
init_gen!(init_isaac64, Isaac64Rng);
init_gen!(init_chacha, ChaChaRng);

#[bench]
fn init_jitter(b: &mut Bencher) {
    b.iter(|| {
        JitterRng::new().unwrap()
    });
}


const RESEEDING_THRESHOLD: u64 = 1024*1024*1024; // something high enough to get
                                                 // deterministic measurements

#[bench]
fn reseeding_hc128_bytes(b: &mut Bencher) {
    let mut rng = ReseedingRng::new(Hc128Core::from_entropy(),
                                    RESEEDING_THRESHOLD,
                                    EntropyRng::new());
    let mut buf = [0u8; BYTES_LEN];
    b.iter(|| {
        for _ in 0..RAND_BENCH_N {
            rng.fill_bytes(&mut buf);
            black_box(buf);
        }
    });
    b.bytes = BYTES_LEN as u64 * RAND_BENCH_N;
}

macro_rules! reseeding_uint {
    ($fnn:ident, $ty:ty) => {
        #[bench]
        fn $fnn(b: &mut Bencher) {
            let mut rng = ReseedingRng::new(Hc128Core::from_entropy(),
                                            RESEEDING_THRESHOLD,
                                            EntropyRng::new());
            b.iter(|| {
                let mut accum: $ty = 0;
                for _ in 0..RAND_BENCH_N {
                    accum = accum.wrapping_add(rng.gen::<$ty>());
                }
                accum
            });
            b.bytes = size_of::<$ty>() as u64 * RAND_BENCH_N;
        }
    }
}

reseeding_uint!(reseeding_hc128_u32, u32);
reseeding_uint!(reseeding_hc128_u64, u64);


macro_rules! threadrng_uint {
    ($fnn:ident, $ty:ty) => {
        #[bench]
        fn $fnn(b: &mut Bencher) {
            let mut rng = thread_rng();
            b.iter(|| {
                let mut accum: $ty = 0;
                for _ in 0..RAND_BENCH_N {
                    accum = accum.wrapping_add(rng.gen::<$ty>());
                }
                accum
            });
            b.bytes = size_of::<$ty>() as u64 * RAND_BENCH_N;
        }
    }
}

threadrng_uint!(thread_rng_u32, u32);
threadrng_uint!(thread_rng_u64, u64);