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authorYang Zhang <yang_zhang@iapcm.ac.cn>2018-12-31 11:00:05 +0800
committerYang Zhang <yang_zhang@iapcm.ac.cn>2018-12-31 11:00:05 +0800
commit7c1df91d539f4be0110d1fe12772e8c690794191 (patch)
treeb69c3b037f3850b73da13ac8a0a8f83fe5805708
parent99bc0c140a5023ff92d523cbdc086df18dca6379 (diff)
downloadgit-bug-7c1df91d539f4be0110d1fe12772e8c690794191.tar.gz
Refactor text.go to improve clearity
-rw-r--r--util/text/text.go214
1 files changed, 124 insertions, 90 deletions
diff --git a/util/text/text.go b/util/text/text.go
index f2a0877e..e7ef4e47 100644
--- a/util/text/text.go
+++ b/util/text/text.go
@@ -15,12 +15,13 @@ func Wrap(text string, lineWidth int) (string, int) {
// Wrap a text for an exact line size with a left padding
// Handle properly terminal color escape code
func WrapLeftPadded(text string, lineWidth int, leftPad int) (string, int) {
- pad := strings.Repeat(" ", leftPad)
var lines []string
nbLine := 0
+ pad := strings.Repeat(" ", leftPad)
// tabs are formatted as 4 spaces
text = strings.Replace(text, "\t", " ", -1)
+ // NOTE: text is first segmented into lines so that softwrapLine can handle.
for _, line := range strings.Split(text, "\n") {
if line == "" || strings.TrimSpace(line) == "" {
lines = append(lines, "")
@@ -42,20 +43,83 @@ func WrapLeftPadded(text string, lineWidth int, leftPad int) (string, int) {
return strings.Join(lines, "\n"), nbLine
}
+// Break a line into several lines so that each line consumes at most
+// 'textWidth' cells. Lines break at groups of white spaces and multibyte
+// chars. Nothing is removed from the original text so that it behaves like a
+// softwrap.
+//
+// Required: The line shall not contain '\n'
+//
+// WRAPPING ALGORITHM: The line is broken into non-breakable chunks, then line
+// breaks ("\n") are inserted between these groups so that the total length
+// between breaks does not exceed the required width. Words that are longer than
+// the textWidth are broen into pieces no longer than textWidth.
+//
+func softwrapLine(line string, textWidth int) string {
+ // NOTE: terminal escapes are stripped out of the line so the algorithm is
+ // simpler. Do not try to mix them in the wrapping algorithm, as it can get
+ // complicated quickly.
+ line1, termEscapes := extractTermEscapes(line)
+
+ chunks := segmentLine(line1)
+ // Reverse the chunk array so we can use it as a stack.
+ for i, j := 0, len(chunks)-1; i < j; i, j = i+1, j-1 {
+ chunks[i], chunks[j] = chunks[j], chunks[i]
+ }
+ var line2 string = ""
+ var width int = 0
+ for len(chunks) > 0 {
+ thisWord := chunks[len(chunks)-1]
+ wl := wordLen(thisWord)
+ if width+wl <= textWidth {
+ line2 += chunks[len(chunks)-1]
+ chunks = chunks[:len(chunks)-1]
+ width += wl
+ if width == textWidth && len(chunks) > 0 {
+ // NOTE: new line begins when current line is full and there are more
+ // chunks to come.
+ line2 += "\n"
+ width = 0
+ }
+ } else if wl > textWidth {
+ left, right := splitWord(chunks[len(chunks)-1], textWidth)
+ line2 += left + "\n"
+ chunks[len(chunks)-1] = right
+ width = 0
+ } else {
+ line2 += "\n"
+ width = 0
+ }
+ }
+
+ line3 := applyTermEscapes(line2, termEscapes)
+ return line3
+}
+
+// EscapeItem: Storage of terminal escapes in a line. 'item' is the actural
+// escape command, and 'pos' is the index in the rune array where the 'item'
+// shall be inserted back. For example, the escape item in "F\x1b33mox" is
+// {"\x1b33m", 1}.
type EscapeItem struct {
item string
pos int
}
-func recordTermEscape(s string) (string, []EscapeItem) {
- var result []EscapeItem
- var newStr string
+// Extract terminal escapes out of a line, returns a new line without terminal
+// escapes and a slice of escape items. The terminal escapes can be inserted
+// back into the new line at rune index 'item.pos' to recover the original line.
+//
+// Required: The line shall not contain "\n"
+//
+func extractTermEscapes(line string) (string, []EscapeItem) {
+ var termEscapes []EscapeItem
+ var line1 string
pos := 0
item := ""
occupiedRuneCount := 0
inEscape := false
- for i, r := range []rune(s) {
+ for i, r := range []rune(line) {
if r == '\x1b' {
pos = i
item = string(r)
@@ -65,35 +129,39 @@ func recordTermEscape(s string) (string, []EscapeItem) {
if inEscape {
item += string(r)
if r == 'm' {
- result = append(result, EscapeItem{item: item, pos: pos - occupiedRuneCount})
+ termEscapes = append(termEscapes, EscapeItem{item, pos - occupiedRuneCount})
occupiedRuneCount += utf8.RuneCountInString(item)
inEscape = false
}
continue
}
- newStr += string(r)
+ line1 += string(r)
}
- return newStr, result
+ return line1, termEscapes
}
-func replayTermEscape(s string, sequence []EscapeItem) string {
- if len(sequence) == 0 {
- return string(s)
+// Apply the extracted terminal escapes to the edited line. The only edit
+// allowed is to insert "\n" like that in softwrapLine. Callers shall ensure
+// this since this function is not able to check it.
+func applyTermEscapes(line string, escapes []EscapeItem) string {
+ if len(escapes) == 0 {
+ return line
}
- // Assume the original string contains no new line and the wrapped only insert
- // new lines. So that we can recover the position where we insert the term
- // escapes.
+
var out string = ""
currPos := 0
currItem := 0
- for _, r := range s {
- if currItem < len(sequence) && currPos == sequence[currItem].pos {
+ for _, r := range line {
+ if currItem < len(escapes) && currPos == escapes[currItem].pos {
+ // NOTE: We avoid terminal escapes at the end of a line by move them one
+ // pass the end of line, so that algorithms who trim right spaces are
+ // happy. But algorithms who trim left spaces are still unhappy.
if r == '\n' {
- out += "\n" + sequence[currItem].item
+ out += "\n" + escapes[currItem].item
} else {
- out += sequence[currItem].item + string(r)
+ out += escapes[currItem].item + string(r)
currPos++
}
currItem++
@@ -108,47 +176,11 @@ func replayTermEscape(s string, sequence []EscapeItem) string {
return out
}
-// Break a line into several lines so that each line consumes at most 'w' cells.
-// Lines break at group of white spaces and multibyte chars. Nothing is removed
-// from the line so that it behaves like a softwrap.
-//
-// Required: The line shall not contain '\n' (so it is a single line).
-//
-// WRAPPING ALGORITHM: The line is broken into non-breakable groups, then line
-// breaks ("\n") is inserted between these groups so that the total length
-// between breaks does not exceed the required width. Words that are longer than
-// the width is broken into several words as `M+M+...+N`.
-func softwrapLine(s string, w int) string {
- newStr, termSeqs := recordTermEscape(s)
-
- const (
- WIDE_CHAR = iota
- INVISIBLE = iota
- SHORT_UNICODE = iota
- SPACE = iota
- VISIBLE_ASCII = iota
- NONE = iota
- )
-
- // In order to simplify the terminal color sequence handling, we first strip
- // them out of the text and record their position, then do the wrap. After
- // that, we insert back these sequences.
- runeType := func(r rune) int {
- rw := runewidth.RuneWidth(r)
- if rw > 1 {
- return WIDE_CHAR
- } else if rw == 0 {
- return INVISIBLE
- } else if r > 127 {
- return SHORT_UNICODE
- } else if r == ' ' {
- return SPACE
- } else {
- return VISIBLE_ASCII
- }
- }
-
+// Segment a line into chunks, where each chunk consists of chars with the same
+// type and is not breakable.
+func segmentLine(s string) []string {
var chunks []string
+
var word string
wordType := NONE
flushWord := func() {
@@ -156,8 +188,9 @@ func softwrapLine(s string, w int) string {
word = ""
wordType = NONE
}
- for _, r := range newStr {
- // A WIDE_CHAR itself constitutes a group.
+
+ for _, r := range s {
+ // A WIDE_CHAR itself constitutes a chunk.
thisType := runeType(r)
if thisType == WIDE_CHAR {
if wordType != NONE {
@@ -166,7 +199,7 @@ func softwrapLine(s string, w int) string {
chunks = append(chunks, string(r))
continue
}
- // Other type of groups starts with a char of that type, and ends with a
+ // Other type of chunks starts with a char of that type, and ends with a
// char with different type or end of string.
if thisType != wordType {
if wordType != NONE {
@@ -182,36 +215,37 @@ func softwrapLine(s string, w int) string {
flushWord()
}
- var line string = ""
- var width int = 0
- // Reverse the chunk array so we can use it as a stack.
- for i, j := 0, len(chunks)-1; i < j; i, j = i+1, j-1 {
- chunks[i], chunks[j] = chunks[j], chunks[i]
- }
- for len(chunks) > 0 {
- thisWord := chunks[len(chunks)-1]
- wl := wordLen(thisWord)
- if width+wl <= w {
- line += chunks[len(chunks)-1]
- chunks = chunks[:len(chunks)-1]
- width += wl
- if width == w && len(chunks) > 0 {
- line += "\n"
- width = 0
- }
- } else if wl > w {
- left, right := splitWord(chunks[len(chunks)-1], w)
- line += left + "\n"
- chunks[len(chunks)-1] = right
- width = 0
- } else {
- line += "\n"
- width = 0
- }
- }
+ return chunks
+}
+
+// Rune categories
+//
+// These categories are so defined that each category forms a non-breakable
+// chunk. It IS NOT the same as unicode code point categories.
+//
+const (
+ NONE = -1
+ WIDE_CHAR = iota
+ INVISIBLE = iota
+ SHORT_UNICODE = iota
+ SPACE = iota
+ VISIBLE_ASCII = iota
+)
- line = replayTermEscape(line, termSeqs)
- return line
+// Determine the category of a rune.
+func runeType(r rune) int {
+ rw := runewidth.RuneWidth(r)
+ if rw > 1 {
+ return WIDE_CHAR
+ } else if rw == 0 {
+ return INVISIBLE
+ } else if r > 127 {
+ return SHORT_UNICODE
+ } else if r == ' ' {
+ return SPACE
+ } else {
+ return VISIBLE_ASCII
+ }
}
// wordLen return the length of a word, while ignoring the terminal escape