VictoriaMetrics/vendor/github.com/mattn/go-runewidth/runewidth.go
2022-09-21 12:03:10 +03:00

359 lines
7.5 KiB
Go

package runewidth
import (
"os"
"strings"
"github.com/rivo/uniseg"
)
//go:generate go run script/generate.go
var (
// EastAsianWidth will be set true if the current locale is CJK
EastAsianWidth bool
// StrictEmojiNeutral should be set false if handle broken fonts
StrictEmojiNeutral bool = true
// DefaultCondition is a condition in current locale
DefaultCondition = &Condition{
EastAsianWidth: false,
StrictEmojiNeutral: true,
}
)
func init() {
handleEnv()
}
func handleEnv() {
env := os.Getenv("RUNEWIDTH_EASTASIAN")
if env == "" {
EastAsianWidth = IsEastAsian()
} else {
EastAsianWidth = env == "1"
}
// update DefaultCondition
if DefaultCondition.EastAsianWidth != EastAsianWidth {
DefaultCondition.EastAsianWidth = EastAsianWidth
if len(DefaultCondition.combinedLut) > 0 {
DefaultCondition.combinedLut = DefaultCondition.combinedLut[:0]
CreateLUT()
}
}
}
type interval struct {
first rune
last rune
}
type table []interval
func inTables(r rune, ts ...table) bool {
for _, t := range ts {
if inTable(r, t) {
return true
}
}
return false
}
func inTable(r rune, t table) bool {
if r < t[0].first {
return false
}
bot := 0
top := len(t) - 1
for top >= bot {
mid := (bot + top) >> 1
switch {
case t[mid].last < r:
bot = mid + 1
case t[mid].first > r:
top = mid - 1
default:
return true
}
}
return false
}
var private = table{
{0x00E000, 0x00F8FF}, {0x0F0000, 0x0FFFFD}, {0x100000, 0x10FFFD},
}
var nonprint = table{
{0x0000, 0x001F}, {0x007F, 0x009F}, {0x00AD, 0x00AD},
{0x070F, 0x070F}, {0x180B, 0x180E}, {0x200B, 0x200F},
{0x2028, 0x202E}, {0x206A, 0x206F}, {0xD800, 0xDFFF},
{0xFEFF, 0xFEFF}, {0xFFF9, 0xFFFB}, {0xFFFE, 0xFFFF},
}
// Condition have flag EastAsianWidth whether the current locale is CJK or not.
type Condition struct {
combinedLut []byte
EastAsianWidth bool
StrictEmojiNeutral bool
}
// NewCondition return new instance of Condition which is current locale.
func NewCondition() *Condition {
return &Condition{
EastAsianWidth: EastAsianWidth,
StrictEmojiNeutral: StrictEmojiNeutral,
}
}
// RuneWidth returns the number of cells in r.
// See http://www.unicode.org/reports/tr11/
func (c *Condition) RuneWidth(r rune) int {
if r < 0 || r > 0x10FFFF {
return 0
}
if len(c.combinedLut) > 0 {
return int(c.combinedLut[r>>1]>>(uint(r&1)*4)) & 3
}
// optimized version, verified by TestRuneWidthChecksums()
if !c.EastAsianWidth {
switch {
case r < 0x20:
return 0
case (r >= 0x7F && r <= 0x9F) || r == 0xAD: // nonprint
return 0
case r < 0x300:
return 1
case inTable(r, narrow):
return 1
case inTables(r, nonprint, combining):
return 0
case inTable(r, doublewidth):
return 2
default:
return 1
}
} else {
switch {
case inTables(r, nonprint, combining):
return 0
case inTable(r, narrow):
return 1
case inTables(r, ambiguous, doublewidth):
return 2
case !c.StrictEmojiNeutral && inTables(r, ambiguous, emoji, narrow):
return 2
default:
return 1
}
}
}
// CreateLUT will create an in-memory lookup table of 557056 bytes for faster operation.
// This should not be called concurrently with other operations on c.
// If options in c is changed, CreateLUT should be called again.
func (c *Condition) CreateLUT() {
const max = 0x110000
lut := c.combinedLut
if len(c.combinedLut) != 0 {
// Remove so we don't use it.
c.combinedLut = nil
} else {
lut = make([]byte, max/2)
}
for i := range lut {
i32 := int32(i * 2)
x0 := c.RuneWidth(i32)
x1 := c.RuneWidth(i32 + 1)
lut[i] = uint8(x0) | uint8(x1)<<4
}
c.combinedLut = lut
}
// StringWidth return width as you can see
func (c *Condition) StringWidth(s string) (width int) {
g := uniseg.NewGraphemes(s)
for g.Next() {
var chWidth int
for _, r := range g.Runes() {
chWidth = c.RuneWidth(r)
if chWidth > 0 {
break // Our best guess at this point is to use the width of the first non-zero-width rune.
}
}
width += chWidth
}
return
}
// Truncate return string truncated with w cells
func (c *Condition) Truncate(s string, w int, tail string) string {
if c.StringWidth(s) <= w {
return s
}
w -= c.StringWidth(tail)
var width int
pos := len(s)
g := uniseg.NewGraphemes(s)
for g.Next() {
var chWidth int
for _, r := range g.Runes() {
chWidth = c.RuneWidth(r)
if chWidth > 0 {
break // See StringWidth() for details.
}
}
if width+chWidth > w {
pos, _ = g.Positions()
break
}
width += chWidth
}
return s[:pos] + tail
}
// TruncateLeft cuts w cells from the beginning of the `s`.
func (c *Condition) TruncateLeft(s string, w int, prefix string) string {
if c.StringWidth(s) <= w {
return prefix
}
var width int
pos := len(s)
g := uniseg.NewGraphemes(s)
for g.Next() {
var chWidth int
for _, r := range g.Runes() {
chWidth = c.RuneWidth(r)
if chWidth > 0 {
break // See StringWidth() for details.
}
}
if width+chWidth > w {
if width < w {
_, pos = g.Positions()
prefix += strings.Repeat(" ", width+chWidth-w)
} else {
pos, _ = g.Positions()
}
break
}
width += chWidth
}
return prefix + s[pos:]
}
// Wrap return string wrapped with w cells
func (c *Condition) Wrap(s string, w int) string {
width := 0
out := ""
for _, r := range s {
cw := c.RuneWidth(r)
if r == '\n' {
out += string(r)
width = 0
continue
} else if width+cw > w {
out += "\n"
width = 0
out += string(r)
width += cw
continue
}
out += string(r)
width += cw
}
return out
}
// FillLeft return string filled in left by spaces in w cells
func (c *Condition) FillLeft(s string, w int) string {
width := c.StringWidth(s)
count := w - width
if count > 0 {
b := make([]byte, count)
for i := range b {
b[i] = ' '
}
return string(b) + s
}
return s
}
// FillRight return string filled in left by spaces in w cells
func (c *Condition) FillRight(s string, w int) string {
width := c.StringWidth(s)
count := w - width
if count > 0 {
b := make([]byte, count)
for i := range b {
b[i] = ' '
}
return s + string(b)
}
return s
}
// RuneWidth returns the number of cells in r.
// See http://www.unicode.org/reports/tr11/
func RuneWidth(r rune) int {
return DefaultCondition.RuneWidth(r)
}
// IsAmbiguousWidth returns whether is ambiguous width or not.
func IsAmbiguousWidth(r rune) bool {
return inTables(r, private, ambiguous)
}
// IsNeutralWidth returns whether is neutral width or not.
func IsNeutralWidth(r rune) bool {
return inTable(r, neutral)
}
// StringWidth return width as you can see
func StringWidth(s string) (width int) {
return DefaultCondition.StringWidth(s)
}
// Truncate return string truncated with w cells
func Truncate(s string, w int, tail string) string {
return DefaultCondition.Truncate(s, w, tail)
}
// TruncateLeft cuts w cells from the beginning of the `s`.
func TruncateLeft(s string, w int, prefix string) string {
return DefaultCondition.TruncateLeft(s, w, prefix)
}
// Wrap return string wrapped with w cells
func Wrap(s string, w int) string {
return DefaultCondition.Wrap(s, w)
}
// FillLeft return string filled in left by spaces in w cells
func FillLeft(s string, w int) string {
return DefaultCondition.FillLeft(s, w)
}
// FillRight return string filled in left by spaces in w cells
func FillRight(s string, w int) string {
return DefaultCondition.FillRight(s, w)
}
// CreateLUT will create an in-memory lookup table of 557055 bytes for faster operation.
// This should not be called concurrently with other operations.
func CreateLUT() {
if len(DefaultCondition.combinedLut) > 0 {
return
}
DefaultCondition.CreateLUT()
}