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go/test/bench/go1/revcomp_test.go
Dave Cheney 166dab6993 test/bench/go1: reduce fasta data size for linux/arm
As discussed on golang-dev, reduce the size of the fasta
dataset to make it possible to run the go1 benchmarks on
small ARM systems.

Also, remove the 25m suffix from fasta data and Revcomp.

linux/arm: pandaboard OMAP4

BenchmarkBinaryTree17          1        70892426000 ns/op
BenchmarkFannkuch11            1        35712066000 ns/op
BenchmarkGobDecode            10         137146000 ns/op           5.60 MB/s
BenchmarkGobEncode            50          64953000 ns/op          11.82 MB/s
BenchmarkGzip          1        5675690000 ns/op           3.42 MB/s
BenchmarkGunzip        1        1207001000 ns/op          16.08 MB/s
BenchmarkJSONEncode            5         860424800 ns/op           2.26 MB/s
BenchmarkJSONDecode            1        3321839000 ns/op           0.58 MB/s
BenchmarkMandelbrot200        50          45893560 ns/op
BenchmarkRevcomp              10         135220300 ns/op          18.80 MB/s
BenchmarkTemplate              1        6385681000 ns/op           0.30 MB/s

R=rsc, minux.ma, dsymonds
CC=golang-dev
https://golang.org/cl/6278048
2012-06-06 07:49:58 +10:00

86 lines
1.8 KiB
Go

// Copyright 2011 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// This benchmark, taken from the shootout, tests array indexing
// and array bounds elimination performance.
package go1
import (
"bufio"
"bytes"
"io/ioutil"
"testing"
)
var revCompTable = [256]uint8{
'A': 'T', 'a': 'T',
'C': 'G', 'c': 'G',
'G': 'C', 'g': 'C',
'T': 'A', 't': 'A',
'U': 'A', 'u': 'A',
'M': 'K', 'm': 'K',
'R': 'Y', 'r': 'Y',
'W': 'W', 'w': 'W',
'S': 'S', 's': 'S',
'Y': 'R', 'y': 'R',
'K': 'M', 'k': 'M',
'V': 'B', 'v': 'B',
'H': 'D', 'h': 'D',
'D': 'H', 'd': 'H',
'B': 'V', 'b': 'V',
'N': 'N', 'n': 'N',
}
func revcomp(data []byte) {
in := bufio.NewReader(bytes.NewBuffer(data))
out := ioutil.Discard
buf := make([]byte, 1024*1024)
line, err := in.ReadSlice('\n')
for err == nil {
out.Write(line)
// Accumulate reversed complement in buf[w:]
nchar := 0
w := len(buf)
for {
line, err = in.ReadSlice('\n')
if err != nil || line[0] == '>' {
break
}
line = line[0 : len(line)-1]
nchar += len(line)
if len(line)+nchar/60+128 >= w {
nbuf := make([]byte, len(buf)*5)
copy(nbuf[len(nbuf)-len(buf):], buf)
w += len(nbuf) - len(buf)
buf = nbuf
}
// This loop is the bottleneck.
for _, c := range line {
w--
buf[w] = revCompTable[c]
}
}
// Copy down to beginning of buffer, inserting newlines.
// The loop left room for the newlines and 128 bytes of padding.
i := 0
for j := w; j < len(buf); j += 60 {
n := copy(buf[i:i+60], buf[j:])
buf[i+n] = '\n'
i += n + 1
}
out.Write(buf[0:i])
}
}
func BenchmarkRevcomp(b *testing.B) {
b.SetBytes(int64(len(fastabytes)))
for i := 0; i < b.N; i++ {
revcomp(fastabytes)
}
}