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When I build it, I got: /home/njubee/work/golang/doc/codewalk/markov.go:124: undefined: time.Nanoseconds time.Nanoseconds() does not exist now, use time.Now().UnixNano() instead R=golang-dev, adg CC=golang-dev https://golang.org/cl/5668044
131 lines
3.8 KiB
Go
131 lines
3.8 KiB
Go
// Copyright 2011 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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/*
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Generating random text: a Markov chain algorithm
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Based on the program presented in the "Design and Implementation" chapter
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of The Practice of Programming (Kernighan and Pike, Addison-Wesley 1999).
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See also Computer Recreations, Scientific American 260, 122 - 125 (1989).
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A Markov chain algorithm generates text by creating a statistical model of
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potential textual suffixes for a given prefix. Consider this text:
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I am not a number! I am a free man!
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Our Markov chain algorithm would arrange this text into this set of prefixes
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and suffixes, or "chain": (This table assumes a prefix length of two words.)
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Prefix Suffix
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"" "" I
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"" I am
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I am a
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I am not
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a free man!
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am a free
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am not a
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a number! I
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number! I am
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not a number!
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To generate text using this table we select an initial prefix ("I am", for
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example), choose one of the suffixes associated with that prefix at random
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with probability determined by the input statistics ("a"),
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and then create a new prefix by removing the first word from the prefix
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and appending the suffix (making the new prefix is "am a"). Repeat this process
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until we can't find any suffixes for the current prefix or we exceed the word
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limit. (The word limit is necessary as the chain table may contain cycles.)
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Our version of this program reads text from standard input, parsing it into a
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Markov chain, and writes generated text to standard output.
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The prefix and output lengths can be specified using the -prefix and -words
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flags on the command-line.
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*/
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package main
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import (
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"bufio"
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"flag"
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"fmt"
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"io"
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"math/rand"
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"os"
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"strings"
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"time"
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)
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// Prefix is a Markov chain prefix of one or more words.
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type Prefix []string
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// String returns the Prefix as a string (for use as a map key).
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func (p Prefix) String() string {
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return strings.Join(p, " ")
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}
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// Shift removes the first word from the Prefix and appends the given word.
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func (p Prefix) Shift(word string) {
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copy(p, p[1:])
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p[len(p)-1] = word
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}
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// Chain contains a map ("chain") of prefixes to a list of suffixes.
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// A prefix is a string of prefixLen words joined with spaces.
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// A suffix is a single word. A prefix can have multiple suffixes.
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type Chain struct {
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chain map[string][]string
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prefixLen int
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}
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// NewChain returns a new Chain with prefixes of prefixLen words.
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func NewChain(prefixLen int) *Chain {
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return &Chain{make(map[string][]string), prefixLen}
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}
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// Build reads text from the provided Reader and
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// parses it into prefixes and suffixes that are stored in Chain.
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func (c *Chain) Build(r io.Reader) {
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br := bufio.NewReader(r)
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p := make(Prefix, c.prefixLen)
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for {
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var s string
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if _, err := fmt.Fscan(br, &s); err != nil {
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break
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}
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key := p.String()
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c.chain[key] = append(c.chain[key], s)
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p.Shift(s)
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}
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}
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// Generate returns a string of at most n words generated from Chain.
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func (c *Chain) Generate(n int) string {
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p := make(Prefix, c.prefixLen)
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var words []string
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for i := 0; i < n; i++ {
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choices := c.chain[p.String()]
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if len(choices) == 0 {
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break
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}
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next := choices[rand.Intn(len(choices))]
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words = append(words, next)
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p.Shift(next)
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}
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return strings.Join(words, " ")
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}
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func main() {
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// Register command-line flags.
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numWords := flag.Int("words", 100, "maximum number of words to print")
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prefixLen := flag.Int("prefix", 2, "prefix length in words")
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flag.Parse() // Parse command-line flags.
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rand.Seed(time.Now().UnixNano()) // Seed the random number generator.
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c := NewChain(*prefixLen) // Initialize a new Chain.
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c.Build(os.Stdin) // Build chains from standard input.
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text := c.Generate(*numWords) // Generate text.
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fmt.Println(text) // Write text to standard output.
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}
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