// Copyright 2015 Zack Guo . All rights reserved. // Use of this source code is governed by a MIT license that can // be found in the LICENSE file. package termui import ( "regexp" "strings" tm "github.com/nsf/termbox-go" ) import rw "github.com/mattn/go-runewidth" /* ---------------Port from termbox-go --------------------- */ // Attribute is printable cell's color and style. type Attribute uint16 const ( ColorDefault Attribute = iota ColorBlack ColorRed ColorGreen ColorYellow ColorBlue ColorMagenta ColorCyan ColorWhite ) const NumberofColors = 8 //Have a constant that defines number of colors const ( AttrBold Attribute = 1 << (iota + 9) AttrUnderline AttrReverse ) var ( dot = "…" dotw = rw.StringWidth(dot) ) /* ----------------------- End ----------------------------- */ func toTmAttr(x Attribute) tm.Attribute { return tm.Attribute(x) } func str2runes(s string) []rune { return []rune(s) } // Here for backwards-compatibility. func trimStr2Runes(s string, w int) []rune { return TrimStr2Runes(s, w) } // TrimStr2Runes trims string to w[-1 rune], appends …, and returns the runes // of that string if string is grather then n. If string is small then w, // return the runes. func TrimStr2Runes(s string, w int) []rune { if w <= 0 { return []rune{} } sw := rw.StringWidth(s) if sw > w { return []rune(rw.Truncate(s, w, dot)) } return str2runes(s) } // TrimStrIfAppropriate trim string to "s[:-1] + …" // if string > width otherwise return string func TrimStrIfAppropriate(s string, w int) string { if w <= 0 { return "" } sw := rw.StringWidth(s) if sw > w { return rw.Truncate(s, w, dot) } return s } func strWidth(s string) int { return rw.StringWidth(s) } func charWidth(ch rune) int { return rw.RuneWidth(ch) } var whiteSpaceRegex = regexp.MustCompile(`\s`) // StringToAttribute converts text to a termui attribute. You may specifiy more // then one attribute like that: "BLACK, BOLD, ...". All whitespaces // are ignored. func StringToAttribute(text string) Attribute { text = whiteSpaceRegex.ReplaceAllString(strings.ToLower(text), "") attributes := strings.Split(text, ",") result := Attribute(0) for _, theAttribute := range attributes { var match Attribute switch theAttribute { case "reset", "default": match = ColorDefault case "black": match = ColorBlack case "red": match = ColorRed case "green": match = ColorGreen case "yellow": match = ColorYellow case "blue": match = ColorBlue case "magenta": match = ColorMagenta case "cyan": match = ColorCyan case "white": match = ColorWhite case "bold": match = AttrBold case "underline": match = AttrUnderline case "reverse": match = AttrReverse } result |= match } return result } // TextCells returns a coloured text cells []Cell func TextCells(s string, fg, bg Attribute) []Cell { cs := make([]Cell, 0, len(s)) // sequence := MarkdownTextRendererFactory{}.TextRenderer(s).Render(fg, bg) // runes := []rune(sequence.NormalizedText) runes := str2runes(s) for n := range runes { // point, _ := sequence.PointAt(n, 0, 0) // cs = append(cs, Cell{point.Ch, point.Fg, point.Bg}) cs = append(cs, Cell{runes[n], fg, bg}) } return cs } // Width returns the actual screen space the cell takes (usually 1 or 2). func (c Cell) Width() int { return charWidth(c.Ch) } // Copy return a copy of c func (c Cell) Copy() Cell { return c } // TrimTxCells trims the overflowed text cells sequence. func TrimTxCells(cs []Cell, w int) []Cell { if len(cs) <= w { return cs } return cs[:w] } // DTrimTxCls trims the overflowed text cells sequence and append dots at the end. func DTrimTxCls(cs []Cell, w int) []Cell { l := len(cs) if l <= 0 { return []Cell{} } rt := make([]Cell, 0, w) csw := 0 for i := 0; i < l && csw <= w; i++ { c := cs[i] cw := c.Width() if cw+csw <= w { rt = append(rt, c) } else { rt = append(rt, Cell{'…', c.Fg, c.Bg}) } } return rt }