// xfail-test reading from os::args()[1] - bogus! use std::cast::transmute; use std::from_str::FromStr; use std::libc::{FILE, STDOUT_FILENO, c_int, fdopen, fputc, fputs, fwrite, size_t}; use std::os; use std::uint::min; use std::vec::bytes::copy_memory; use std::vec; static LINE_LEN: uint = 60; static LOOKUP_SIZE: uint = 4 * 1024; static LOOKUP_SCALE: f32 = (LOOKUP_SIZE - 1) as f32; // Random number generator constants static IM: u32 = 139968; static IA: u32 = 3877; static IC: u32 = 29573; static ALU: &'static str = "GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTG\ GGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGA\ GACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAA\ AATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAAT\ CCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAAC\ CCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTG\ CACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAA"; static NULL_AMINO_ACID: AminoAcid = AminoAcid { c: ' ' as u8, p: 0.0 }; static MESSAGE_1: &'static str = ">ONE Homo sapiens alu\n"; static MESSAGE_2: &'static str = ">TWO IUB ambiguity codes\n"; static MESSAGE_3: &'static str = ">THREE Homo sapiens frequency\n"; static IUB: [AminoAcid, ..15] = [ AminoAcid { c: 'a' as u8, p: 0.27 }, AminoAcid { c: 'c' as u8, p: 0.12 }, AminoAcid { c: 'g' as u8, p: 0.12 }, AminoAcid { c: 't' as u8, p: 0.27 }, AminoAcid { c: 'B' as u8, p: 0.02 }, AminoAcid { c: 'D' as u8, p: 0.02 }, AminoAcid { c: 'H' as u8, p: 0.02 }, AminoAcid { c: 'K' as u8, p: 0.02 }, AminoAcid { c: 'M' as u8, p: 0.02 }, AminoAcid { c: 'N' as u8, p: 0.02 }, AminoAcid { c: 'R' as u8, p: 0.02 }, AminoAcid { c: 'S' as u8, p: 0.02 }, AminoAcid { c: 'V' as u8, p: 0.02 }, AminoAcid { c: 'W' as u8, p: 0.02 }, AminoAcid { c: 'Y' as u8, p: 0.02 }, ]; static HOMO_SAPIENS: [AminoAcid, ..4] = [ AminoAcid { c: 'a' as u8, p: 0.3029549426680 }, AminoAcid { c: 'c' as u8, p: 0.1979883004921 }, AminoAcid { c: 'g' as u8, p: 0.1975473066391 }, AminoAcid { c: 't' as u8, p: 0.3015094502008 }, ]; // XXX: Use map(). fn sum_and_scale(a: &'static [AminoAcid]) -> ~[AminoAcid] { let mut result = ~[]; let mut p = 0f32; for a_i in a.iter() { let mut a_i = *a_i; p += a_i.p; a_i.p = p * LOOKUP_SCALE; result.push(a_i); } result[result.len() - 1].p = LOOKUP_SCALE; result } struct AminoAcid { c: u8, p: f32, } struct RepeatFasta { alu: &'static str, stdout: *FILE, } impl RepeatFasta { fn new(stdout: *FILE, alu: &'static str) -> RepeatFasta { RepeatFasta { alu: alu, stdout: stdout, } } fn make(&mut self, n: uint) { unsafe { let stdout = self.stdout; let alu_len = self.alu.len(); let mut buf = vec::from_elem(alu_len + LINE_LEN, 0u8); let alu: &[u8] = self.alu.as_bytes(); copy_memory(buf, alu, alu_len); let buf_len = buf.len(); copy_memory(buf.mut_slice(alu_len, buf_len), alu, LINE_LEN); let mut pos = 0; let mut bytes; let mut n = n; while n > 0 { bytes = min(LINE_LEN, n); fwrite(transmute(&buf[pos]), bytes as size_t, 1, stdout); fputc('\n' as c_int, stdout); pos += bytes; if pos > alu_len { pos -= alu_len; } n -= bytes; } } } } struct RandomFasta { seed: u32, stdout: *FILE, lookup: [AminoAcid, ..LOOKUP_SIZE], } impl RandomFasta { fn new(stdout: *FILE, a: &[AminoAcid]) -> RandomFasta { RandomFasta { seed: 42, stdout: stdout, lookup: RandomFasta::make_lookup(a), } } fn make_lookup(a: &[AminoAcid]) -> [AminoAcid, ..LOOKUP_SIZE] { let mut lookup = [ NULL_AMINO_ACID, ..LOOKUP_SIZE ]; let mut j = 0; for (i, slot) in lookup.mut_iter().enumerate() { while a[j].p < (i as f32) { j += 1; } *slot = a[j]; } lookup } fn rng(&mut self, max: f32) -> f32 { self.seed = (self.seed * IA + IC) % IM; max * (self.seed as f32) / (IM as f32) } fn nextc(&mut self) -> u8 { let r = self.rng(1.0); for a in self.lookup.iter() { if a.p >= r { return a.c; } } 0 } fn make(&mut self, n: uint) { unsafe { let lines = n / LINE_LEN; let chars_left = n % LINE_LEN; let mut buf = [0, ..LINE_LEN + 1]; for _ in range(0, lines) { for i in range(0u, LINE_LEN) { buf[i] = self.nextc(); } buf[LINE_LEN] = '\n' as u8; fwrite(transmute(&buf[0]), LINE_LEN as size_t + 1, 1, self.stdout); } for i in range(0u, chars_left) { buf[i] = self.nextc(); } fwrite(transmute(&buf[0]), chars_left as size_t, 1, self.stdout); } } } #[fixed_stack_segment] fn main() { let n: uint = FromStr::from_str(os::args()[1]).unwrap(); unsafe { let mode = "w"; let stdout = fdopen(STDOUT_FILENO as c_int, transmute(&mode[0])); fputs(transmute(&MESSAGE_1[0]), stdout); let mut repeat = RepeatFasta::new(stdout, ALU); repeat.make(n * 2); fputs(transmute(&MESSAGE_2[0]), stdout); let iub = sum_and_scale(IUB); let mut random = RandomFasta::new(stdout, iub); random.make(n * 3); fputs(transmute(&MESSAGE_3[0]), stdout); let homo_sapiens = sum_and_scale(HOMO_SAPIENS); random.lookup = RandomFasta::make_lookup(homo_sapiens); random.make(n * 5); fputc('\n' as c_int, stdout); } }