wrap.go - third_party/github.com/kr/text - Git at Google

 package text

 import (
 	"bytes"
 	"math"
 )

 var (
 	nl = []byte{'\n'}
 	sp = []byte{' '}
 )

 const defaultPenalty = 1e5

 // Wrap wraps s into a paragraph of lines of length lim, with minimal
 // raggedness.
 func Wrap(s string, lim int) string {
 	return string(WrapBytes([]byte(s), lim))
 }

 // WrapBytes wraps b into a paragraph of lines of length lim, with minimal
 // raggedness.
 func WrapBytes(b []byte, lim int) []byte {
 	words := bytes.Split(bytes.Replace(bytes.TrimSpace(b), nl, sp, -1), sp)
 	var lines [][]byte
 	for _, line := range WrapWords(words, 1, lim, defaultPenalty) {
 		lines = append(lines, bytes.Join(line, sp))
 	}
 	return bytes.Join(lines, nl)
 }

 // WrapWords is the low-level line-breaking algorithm, useful if you need more
 // control over the details of the text wrapping process. For most uses, either
 // Wrap or WrapBytes will be sufficient and more convenient.
 //
 // WrapWords splits a list of words into lines with minimal "raggedness",
 // treating each byte as one unit, accounting for spc units between adjacent
 // words on each line, and attempting to limit lines to lim units. Raggedness
 // is the total error over all lines, where error is the square of the
 // difference of the length of the line and lim. Too-long lines (which only
 // happen when a single word is longer than lim units) have pen penalty units
 // added to the error.
 func WrapWords(words [][]byte, spc, lim, pen int) [][][]byte {
 	n := len(words)

 	length := make([][]int, n)
 	for i := 0; i < n; i++ {
 		length[i] = make([]int, n)
 		length[i][i] = len(words[i])
 		for j := i + 1; j < n; j++ {
 			length[i][j] = length[i][j-1] + spc + len(words[j])
 		}
 	}

 	nbrk := make([]int, n)
 	cost := make([]int, n)
 	for i := range cost {
 		cost[i] = math.MaxInt32
 	}
 	for i := n - 1; i >= 0; i-- {
 		if length[i][n-1] <= lim {
 			cost[i] = 0
 			nbrk[i] = n
 		} else {
 			for j := i + 1; j < n; j++ {
 				d := lim - length[i][j-1]
 				c := d*d + cost[j]
 				if length[i][j-1] > lim {
 					c += pen // too-long lines get a worse penalty
 				}
 				if c < cost[i] {
 					cost[i] = c
 					nbrk[i] = j
 				}
 			}
 		}
 	}

 	var lines [][][]byte
 	i := 0
 	for i < n {
 		lines = append(lines, words[i:nbrk[i]])
 		i = nbrk[i]
 	}
 	return lines
 }
	package text

	import (
	"bytes"
	"math"
	)

	var (
	nl = []byte{'\n'}
	sp = []byte{' '}
	)

	const defaultPenalty = 1e5

	// Wrap wraps s into a paragraph of lines of length lim, with minimal
	// raggedness.
	func Wrap(s string, lim int) string {
	return string(WrapBytes([]byte(s), lim))
	}

	// WrapBytes wraps b into a paragraph of lines of length lim, with minimal
	// raggedness.
	func WrapBytes(b []byte, lim int) []byte {
	words := bytes.Split(bytes.Replace(bytes.TrimSpace(b), nl, sp, -1), sp)
	var lines [][]byte
	for _, line := range WrapWords(words, 1, lim, defaultPenalty) {
	lines = append(lines, bytes.Join(line, sp))
	}
	return bytes.Join(lines, nl)
	}

	// WrapWords is the low-level line-breaking algorithm, useful if you need more
	// control over the details of the text wrapping process. For most uses, either
	// Wrap or WrapBytes will be sufficient and more convenient.
	//
	// WrapWords splits a list of words into lines with minimal "raggedness",
	// treating each byte as one unit, accounting for spc units between adjacent
	// words on each line, and attempting to limit lines to lim units. Raggedness
	// is the total error over all lines, where error is the square of the
	// difference of the length of the line and lim. Too-long lines (which only
	// happen when a single word is longer than lim units) have pen penalty units
	// added to the error.
	func WrapWords(words [][]byte, spc, lim, pen int) [][][]byte {
	n := len(words)

	length := make([][]int, n)
	for i := 0; i < n; i++ {
	length[i] = make([]int, n)
	length[i][i] = len(words[i])
	for j := i + 1; j < n; j++ {
	length[i][j] = length[i][j-1] + spc + len(words[j])
	}
	}

	nbrk := make([]int, n)
	cost := make([]int, n)
	for i := range cost {
	cost[i] = math.MaxInt32
	}
	for i := n - 1; i >= 0; i-- {
	if length[i][n-1] <= lim {
	cost[i] = 0
	nbrk[i] = n
	} else {
	for j := i + 1; j < n; j++ {
	d := lim - length[i][j-1]
	c := d*d + cost[j]
	if length[i][j-1] > lim {
	c += pen // too-long lines get a worse penalty
	}
	if c < cost[i] {
	cost[i] = c
	nbrk[i] = j
	}
	}
	}
	}

	var lines [][][]byte
	i := 0
	for i < n {
	lines = append(lines, words[i:nbrk[i]])
	i = nbrk[i]
	}
	return lines
	}