the same technique applies to fasta-redux
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@ -39,199 +39,338 @@
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// OF THE POSSIBILITY OF SUCH DAMAGE.
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// OF THE POSSIBILITY OF SUCH DAMAGE.
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use std::cmp::min;
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use std::cmp::min;
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use std::env;
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use std::io::{self, Write};
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use std::io;
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use std::sync::{Arc, Mutex};
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use std::io::BufWriter;
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use std::thread;
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use std::io::prelude::*;
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const LINE_LEN: usize = 60;
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const LINE_LEN: usize = 60;
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const BLOCK_LINES: usize = 512;
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const BLOCK_THOROUGHPUT: usize = LINE_LEN * BLOCK_LINES;
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const BLOCK_LEN: usize = BLOCK_THOROUGHPUT + BLOCK_LINES;
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const STDIN_BUF: usize = (LINE_LEN + 1) * 1024;
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const LOOKUP_SIZE: usize = 4 * 1024;
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const LOOKUP_SIZE: usize = 4 * 1024;
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const LOOKUP_SCALE: f32 = (LOOKUP_SIZE - 1) as f32;
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const LOOKUP_SCALE: f32 = (LOOKUP_SIZE - 1) as f32;
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// Random number generator constants
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const ALU: &'static [u8] =
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const IM: u32 = 139968;
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b"GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGG\
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const IA: u32 = 3877;
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GAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGA\
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const IC: u32 = 29573;
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CCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAAT\
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ACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCA\
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GCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGG\
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AGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCC\
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AGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAA";
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const ALU: &'static str = "GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTG\
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const IUB: &'static [(u8, f32)] =
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GGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGA\
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&[(b'a', 0.27), (b'c', 0.12), (b'g', 0.12),
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GACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAA\
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(b't', 0.27), (b'B', 0.02), (b'D', 0.02),
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AATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAAT\
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(b'H', 0.02), (b'K', 0.02), (b'M', 0.02),
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CCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAAC\
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(b'N', 0.02), (b'R', 0.02), (b'S', 0.02),
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CCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTG\
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(b'V', 0.02), (b'W', 0.02), (b'Y', 0.02)];
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CACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAA";
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const NULL_AMINO_ACID: AminoAcid = AminoAcid { c: ' ' as u8, p: 0.0 };
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const HOMOSAPIENS: &'static [(u8, f32)] =
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&[(b'a', 0.3029549426680),
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(b'c', 0.1979883004921),
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(b'g', 0.1975473066391),
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(b't', 0.3015094502008)];
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static IUB: [AminoAcid;15] = [
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// We need a specific Rng,
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AminoAcid { c: 'a' as u8, p: 0.27 },
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// so implement this manually
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AminoAcid { c: 'c' as u8, p: 0.12 },
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AminoAcid { c: 'g' as u8, p: 0.12 },
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AminoAcid { c: 't' as u8, p: 0.27 },
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AminoAcid { c: 'B' as u8, p: 0.02 },
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AminoAcid { c: 'D' as u8, p: 0.02 },
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AminoAcid { c: 'H' as u8, p: 0.02 },
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AminoAcid { c: 'K' as u8, p: 0.02 },
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AminoAcid { c: 'M' as u8, p: 0.02 },
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AminoAcid { c: 'N' as u8, p: 0.02 },
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AminoAcid { c: 'R' as u8, p: 0.02 },
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AminoAcid { c: 'S' as u8, p: 0.02 },
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AminoAcid { c: 'V' as u8, p: 0.02 },
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AminoAcid { c: 'W' as u8, p: 0.02 },
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AminoAcid { c: 'Y' as u8, p: 0.02 },
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];
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static HOMO_SAPIENS: [AminoAcid;4] = [
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const MODULUS: u32 = 139968;
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AminoAcid { c: 'a' as u8, p: 0.3029549426680 },
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const MULTIPLIER: u32 = 3877;
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AminoAcid { c: 'c' as u8, p: 0.1979883004921 },
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const ADDITIVE: u32 = 29573;
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AminoAcid { c: 'g' as u8, p: 0.1975473066391 },
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AminoAcid { c: 't' as u8, p: 0.3015094502008 },
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];
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fn sum_and_scale(a: &'static [AminoAcid]) -> Vec<AminoAcid> {
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// Why doesn't rust already have this?
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// Algorithm directly taken from Wikipedia
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fn powmod(mut base: u64, mut exponent: u32, modulus: u64) -> u64 {
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let mut ret = 1;
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base %= modulus;
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while exponent > 0 {
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if exponent & 1 == 1 {
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ret *= base;
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ret %= modulus;
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}
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exponent >>= 1;
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base *= base;
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base %= modulus;
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}
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ret
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}
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// Just a typical LCRNG
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pub struct Rng {
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last: u32
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}
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impl Rng {
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pub fn new() -> Rng {
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Rng { last: 42 }
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}
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pub fn max_value() -> u32 {
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MODULUS - 1
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}
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pub fn normalize(p: f32) -> u32 {
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(p * MODULUS as f32).floor() as u32
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}
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pub fn gen(&mut self) -> u32 {
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self.last = (self.last * MULTIPLIER + ADDITIVE) % MODULUS;
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self.last
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}
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// This allows us to fast-forward the RNG,
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// allowing us to run it in parallel.
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pub fn future(&self, n: u32) -> Rng {
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let a = MULTIPLIER as u64;
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let b = ADDITIVE as u64;
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let m = MODULUS as u64;
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// (a^n - 1) mod (a-1) m
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// x_k = ((a^n x_0 mod m) + --------------------- b) mod m
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// a - 1
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//
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// Since (a - 1) divides (a^n - 1) mod (a-1) m,
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// the subtraction does not overflow and thus can be non-modular.
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//
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let new_seed =
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(powmod(a, n, m) * self.last as u64) % m +
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(powmod(a, n, (a-1) * m) - 1) / (a-1) * b;
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Rng { last: (new_seed % m) as u32 }
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}
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}
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// This will end up keeping track of threads, like
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// in the other multithreaded Rust version, in
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// order to keep writes in order.
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//
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// This is stolen from another multithreaded Rust
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// implementation, although that implementation
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// was not able to parallelize the RNG itself.
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struct BlockSubmitter<W: io::Write> {
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writer: W,
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pub waiting_on: usize,
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}
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impl<W: io::Write> BlockSubmitter<W> {
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fn submit(&mut self, data: &[u8], block_num: usize) -> Option<io::Result<()>> {
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if block_num == self.waiting_on {
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self.waiting_on += 1;
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Some(self.submit_async(data))
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}
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else {
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None
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}
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}
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fn submit_async(&mut self, data: &[u8]) -> io::Result<()> {
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self.writer.write_all(data)
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}
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}
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// For repeating strings as output
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fn fasta_static<W: io::Write>(
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writer: &mut W,
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header: &[u8],
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data: &[u8],
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mut n: usize
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) -> io::Result<()>
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{
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// The aim here is to print a short(ish) string cyclically
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// with line breaks as appropriate.
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//
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// The secret technique is to repeat the string such that
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// any wanted line is a single offset in the string.
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//
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// This technique is stolen from the Haskell version.
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try!(writer.write_all(header));
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// Maximum offset is data.len(),
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// Maximum read len is LINE_LEN
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let stream = data.iter().cloned().cycle();
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let mut extended: Vec<u8> = stream.take(data.len() + LINE_LEN + 1).collect();
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let mut offset = 0;
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while n > 0 {
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let write_len = min(LINE_LEN, n);
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let end = offset + write_len;
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n -= write_len;
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let tmp = extended[end];
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extended[end] = b'\n';
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try!(writer.write_all(&extended[offset..end + 1]));
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extended[end] = tmp;
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offset = end;
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offset %= data.len();
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}
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Ok(())
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}
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// For RNG streams as output
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fn fasta<W: io::Write + Send + 'static>(
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submitter: &Arc<Mutex<BlockSubmitter<W>>>,
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header: &[u8],
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table: &'static [(u8, f32)],
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rng: &mut Rng,
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n: usize
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) -> io::Result<()>
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{
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// Here the lookup table is part of the algorithm and needs the
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// original probabilities (scaled with the LOOKUP_SCALE), because
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// Isaac says so :-)
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fn sum_and_scale(a: &'static [(u8, f32)]) -> Vec<(u8, f32)> {
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let mut p = 0f32;
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let mut p = 0f32;
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let mut result: Vec<AminoAcid> = a.iter().map(|a_i| {
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let mut result: Vec<(u8, f32)> = a.iter().map(|e| {
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p += a_i.p;
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p += e.1;
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AminoAcid { c: a_i.c, p: p * LOOKUP_SCALE }
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(e.0, p * LOOKUP_SCALE)
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}).collect();
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}).collect();
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let result_len = result.len();
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let result_len = result.len();
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result[result_len - 1].p = LOOKUP_SCALE;
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result[result_len - 1].1 = LOOKUP_SCALE;
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result
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result
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}
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#[derive(Copy, Clone)]
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struct AminoAcid {
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c: u8,
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p: f32,
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}
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struct RepeatFasta<'a, W:'a> {
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alu: &'static str,
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out: &'a mut W
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}
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impl<'a, W: Write> RepeatFasta<'a, W> {
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fn new(alu: &'static str, w: &'a mut W) -> RepeatFasta<'a, W> {
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RepeatFasta { alu: alu, out: w }
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}
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}
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fn make(&mut self, n: usize) -> io::Result<()> {
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fn make_lookup(a: &[(u8, f32)]) -> [(u8, f32); LOOKUP_SIZE] {
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let alu_len = self.alu.len();
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let mut lookup = [(0, 0f32); LOOKUP_SIZE];
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let mut buf = vec![0; alu_len + LINE_LEN];
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let alu: &[u8] = self.alu.as_bytes();
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for (slot, val) in buf.iter_mut().zip(alu) {
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*slot = *val;
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}
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let buf_len = buf.len();
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for (slot, val) in buf[alu_len..buf_len].iter_mut().zip(&alu[..LINE_LEN]) {
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*slot = *val;
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}
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let mut pos = 0;
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let mut bytes;
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let mut n = n;
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while n > 0 {
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bytes = min(LINE_LEN, n);
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try!(self.out.write_all(&buf[pos..pos + bytes]));
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try!(self.out.write_all(&[b'\n']));
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pos += bytes;
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if pos > alu_len {
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pos -= alu_len;
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}
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n -= bytes;
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}
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Ok(())
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}
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}
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fn make_lookup(a: &[AminoAcid]) -> [AminoAcid;LOOKUP_SIZE] {
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let mut lookup = [ NULL_AMINO_ACID;LOOKUP_SIZE ];
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let mut j = 0;
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let mut j = 0;
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for (i, slot) in lookup.iter_mut().enumerate() {
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for (i, slot) in lookup.iter_mut().enumerate() {
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while a[j].p < (i as f32) {
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while a[j].1 < (i as f32) {
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j += 1;
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j += 1;
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}
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}
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*slot = a[j];
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*slot = a[j];
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}
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}
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lookup
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lookup
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}
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{
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try!(submitter.lock().unwrap().submit_async(header));
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}
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let lookup_table = Arc::new(make_lookup(&sum_and_scale(table)));
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let thread_count = 4;
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let mut threads = Vec::new();
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for block_num in (0..thread_count) {
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let offset = BLOCK_THOROUGHPUT * block_num;
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let local_submitter = submitter.clone();
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let local_lookup_table = lookup_table.clone();
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let local_rng = rng.future(offset as u32);
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threads.push(thread::spawn(move || {
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gen_block(
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local_submitter,
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local_lookup_table,
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local_rng,
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n.saturating_sub(offset),
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block_num,
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thread_count
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)
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}));
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}
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for thread in threads {
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try!(thread.join().unwrap());
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}
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*rng = rng.future(n as u32);
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Ok(())
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}
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}
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struct RandomFasta<'a, W:'a> {
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// A very optimized writer.
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seed: u32,
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// I have a feeling a simpler version wouldn't slow
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lookup: [AminoAcid;LOOKUP_SIZE],
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// things down too much, though, since the RNG
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out: &'a mut W,
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// is the really heavy hitter.
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fn gen_block<W: io::Write>(
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submitter: Arc<Mutex<BlockSubmitter<W>>>,
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lookup_table: Arc<[(u8, f32)]>,
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mut rng: Rng,
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mut length: usize,
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mut block_num: usize,
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block_stride: usize,
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) -> io::Result<()>
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{
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// Include newlines in block
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length += length / LINE_LEN;
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let block: &mut [u8] = &mut [b'\n'; BLOCK_LEN];
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while length > 0 {
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{
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let gen_into = &mut block[..min(length, BLOCK_LEN)];
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// Write random numbers, skipping newlines
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for (i, byte) in gen_into.iter_mut().enumerate() {
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if (i + 1) % (LINE_LEN + 1) != 0 {
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let p = rng.gen() as f32 * (LOOKUP_SCALE / MODULUS as f32);
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||||||
|
*byte = lookup_table[p as usize..LOOKUP_SIZE].iter().find(
|
||||||
|
|le| le.1 >= p).unwrap().0;
|
||||||
|
}
|
||||||
|
}
|
||||||
|
}
|
||||||
|
|
||||||
|
let write_out = {
|
||||||
|
if length >= BLOCK_LEN { &mut *block }
|
||||||
|
else if length % (LINE_LEN + 1) == 0 { &mut block[..length] }
|
||||||
|
else { &mut block[..length + 1] }
|
||||||
|
};
|
||||||
|
|
||||||
|
*write_out.last_mut().unwrap() = b'\n';
|
||||||
|
loop {
|
||||||
|
// Make sure to release lock before calling `yield_now`
|
||||||
|
let res = { submitter.lock().unwrap().submit(write_out, block_num) };
|
||||||
|
|
||||||
|
match res {
|
||||||
|
Some(result) => { try!(result); break; }
|
||||||
|
None => std::thread::yield_now()
|
||||||
|
}
|
||||||
|
}
|
||||||
|
block_num += block_stride;
|
||||||
|
rng = rng.future((BLOCK_THOROUGHPUT * (block_stride - 1)) as u32);
|
||||||
|
length = length.saturating_sub(BLOCK_LEN * (block_stride - 1));
|
||||||
|
|
||||||
|
length = length.saturating_sub(BLOCK_LEN);
|
||||||
|
}
|
||||||
|
|
||||||
|
Ok(())
|
||||||
}
|
}
|
||||||
|
|
||||||
impl<'a, W: Write> RandomFasta<'a, W> {
|
fn run<W: io::Write + Send + 'static>(writer: W) -> io::Result<()> {
|
||||||
fn new(w: &'a mut W, a: &[AminoAcid]) -> RandomFasta<'a, W> {
|
let n = std::env::args_os().nth(1)
|
||||||
RandomFasta {
|
.and_then(|s| s.into_string().ok())
|
||||||
seed: 42,
|
.and_then(|n| n.parse().ok())
|
||||||
out: w,
|
.unwrap_or(1000);
|
||||||
lookup: make_lookup(a),
|
|
||||||
}
|
|
||||||
}
|
|
||||||
|
|
||||||
fn rng(&mut self, max: f32) -> f32 {
|
let rng = &mut Rng::new();
|
||||||
self.seed = (self.seed * IA + IC) % IM;
|
|
||||||
(max * self.seed as f32) / (IM as f32)
|
|
||||||
}
|
|
||||||
|
|
||||||
fn nextc(&mut self) -> u8 {
|
// Use automatic buffering for the static version...
|
||||||
let r = self.rng(LOOKUP_SCALE);
|
let mut writer = io::BufWriter::with_capacity(STDIN_BUF, writer);
|
||||||
for i in (r as usize..LOOKUP_SIZE) {
|
try!(fasta_static(&mut writer, b">ONE Homo sapiens alu\n", ALU, n * 2));
|
||||||
if self.lookup[i].p >= r {
|
|
||||||
return self.lookup[i].c;
|
|
||||||
}
|
|
||||||
}
|
|
||||||
unreachable!();
|
|
||||||
}
|
|
||||||
|
|
||||||
fn make(&mut self, n: usize) -> io::Result<()> {
|
// ...but the dynamic version does its own buffering already
|
||||||
let lines = n / LINE_LEN;
|
let writer = try!(writer.into_inner());
|
||||||
let chars_left = n % LINE_LEN;
|
let submitter = Arc::new(Mutex::new(BlockSubmitter { writer: writer, waiting_on: 0 }));
|
||||||
let mut buf = [0;LINE_LEN + 1];
|
|
||||||
|
|
||||||
for _ in 0..lines {
|
{ submitter.lock().unwrap().waiting_on = 0; }
|
||||||
for i in 0..LINE_LEN {
|
try!(fasta(&submitter, b">TWO IUB ambiguity codes\n", &IUB, rng, n * 3));
|
||||||
buf[i] = self.nextc();
|
{ submitter.lock().unwrap().waiting_on = 0; }
|
||||||
}
|
try!(fasta(&submitter, b">THREE Homo sapiens frequency\n", &HOMOSAPIENS, rng, n * 5));
|
||||||
buf[LINE_LEN] = '\n' as u8;
|
|
||||||
try!(self.out.write(&buf));
|
Ok(())
|
||||||
}
|
|
||||||
for i in 0..chars_left {
|
|
||||||
buf[i] = self.nextc();
|
|
||||||
}
|
|
||||||
self.out.write_all(&buf[..chars_left])
|
|
||||||
}
|
|
||||||
}
|
}
|
||||||
|
|
||||||
fn main() {
|
fn main() {
|
||||||
let mut args = env::args();
|
run(io::stdout()).unwrap()
|
||||||
let n = if args.len() > 1 {
|
|
||||||
args.nth(1).unwrap().parse::<usize>().unwrap()
|
|
||||||
} else {
|
|
||||||
5
|
|
||||||
};
|
|
||||||
|
|
||||||
let stdout = io::stdout();
|
|
||||||
let mut out = BufWriter::new(stdout.lock());
|
|
||||||
|
|
||||||
out.write_all(b">ONE Homo sapiens alu\n").unwrap();
|
|
||||||
{
|
|
||||||
let mut repeat = RepeatFasta::new(ALU, &mut out);
|
|
||||||
repeat.make(n * 2).unwrap();
|
|
||||||
}
|
|
||||||
|
|
||||||
out.write_all(b">TWO IUB ambiguity codes\n").unwrap();
|
|
||||||
let iub = sum_and_scale(&IUB);
|
|
||||||
let mut random = RandomFasta::new(&mut out, &iub);
|
|
||||||
random.make(n * 3).unwrap();
|
|
||||||
|
|
||||||
random.out.write_all(b">THREE Homo sapiens frequency\n").unwrap();
|
|
||||||
let homo_sapiens = sum_and_scale(&HOMO_SAPIENS);
|
|
||||||
random.lookup = make_lookup(&homo_sapiens);
|
|
||||||
random.make(n * 5).unwrap();
|
|
||||||
|
|
||||||
random.out.write_all(b"\n").unwrap();
|
|
||||||
}
|
}
|
||||||
|
Loading…
Reference in New Issue
Block a user