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398 lines
10 KiB
Go
398 lines
10 KiB
Go
// written by Daniel Oaks <daniel@danieloaks.net>
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// released under the ISC license
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package ircfmt
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import (
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"regexp"
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"strconv"
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"strings"
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)
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const (
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// raw bytes and strings to do replacing with
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bold string = "\x02"
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colour string = "\x03"
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monospace string = "\x11"
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reverseColour string = "\x16"
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italic string = "\x1d"
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strikethrough string = "\x1e"
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underline string = "\x1f"
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reset string = "\x0f"
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metacharacters = (bold + colour + monospace + reverseColour + italic + strikethrough + underline + reset)
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)
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// ColorCode is a normalized representation of an IRC color code,
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// as per this de facto specification: https://modern.ircdocs.horse/formatting.html#color
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// The zero value of the type represents a default or unset color,
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// whereas ColorCode{true, 0} represents the color white.
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type ColorCode struct {
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IsSet bool
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Value uint8
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}
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// ParseColor converts a string representation of an IRC color code, e.g. "04",
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// into a normalized ColorCode, e.g. ColorCode{true, 4}.
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func ParseColor(str string) (color ColorCode) {
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// "99 - Default Foreground/Background - Not universally supported."
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// normalize 99 to ColorCode{} meaning "unset":
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if code, err := strconv.ParseUint(str, 10, 8); err == nil && code < 99 {
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color.IsSet = true
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color.Value = uint8(code)
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}
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return
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}
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// FormattedSubstring represents a section of an IRC message with associated
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// formatting data.
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type FormattedSubstring struct {
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Content string
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ForegroundColor ColorCode
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BackgroundColor ColorCode
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Bold bool
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Monospace bool
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Strikethrough bool
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Underline bool
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Italic bool
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ReverseColor bool
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}
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// IsFormatted returns whether the section has any formatting flags switched on.
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func (f *FormattedSubstring) IsFormatted() bool {
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// could rely on value receiver but if this is to be a public API,
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// let's make it a pointer receiver
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g := *f
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g.Content = ""
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return g != FormattedSubstring{}
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}
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var (
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// "If there are two ASCII digits available where a <COLOR> is allowed,
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// then two characters MUST always be read for it and displayed as described below."
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// we rely on greedy matching to implement this for both forms:
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// (\x03)00,01
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colorForeBackRe = regexp.MustCompile(`^([0-9]{1,2}),([0-9]{1,2})`)
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// (\x03)00
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colorForeRe = regexp.MustCompile(`^([0-9]{1,2})`)
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)
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// Split takes an IRC message (typically a PRIVMSG or NOTICE final parameter)
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// containing IRC formatting control codes, and splits it into substrings with
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// associated formatting information.
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func Split(raw string) (result []FormattedSubstring) {
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var chunk FormattedSubstring
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for {
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// skip to the next metacharacter, or the end of the string
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if idx := strings.IndexAny(raw, metacharacters); idx != 0 {
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if idx == -1 {
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idx = len(raw)
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}
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chunk.Content = raw[:idx]
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if len(chunk.Content) != 0 {
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result = append(result, chunk)
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}
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raw = raw[idx:]
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}
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if len(raw) == 0 {
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return
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}
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// we're at a metacharacter. by default, all previous formatting carries over
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metacharacter := raw[0]
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raw = raw[1:]
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switch metacharacter {
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case bold[0]:
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chunk.Bold = !chunk.Bold
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case monospace[0]:
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chunk.Monospace = !chunk.Monospace
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case strikethrough[0]:
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chunk.Strikethrough = !chunk.Strikethrough
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case underline[0]:
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chunk.Underline = !chunk.Underline
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case italic[0]:
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chunk.Italic = !chunk.Italic
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case reverseColour[0]:
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chunk.ReverseColor = !chunk.ReverseColor
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case reset[0]:
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chunk = FormattedSubstring{}
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case colour[0]:
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// preferentially match the "\x0399,01" form, then "\x0399";
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// if neither of those matches, then it's a reset
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if matches := colorForeBackRe.FindStringSubmatch(raw); len(matches) != 0 {
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chunk.ForegroundColor = ParseColor(matches[1])
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chunk.BackgroundColor = ParseColor(matches[2])
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raw = raw[len(matches[0]):]
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} else if matches := colorForeRe.FindStringSubmatch(raw); len(matches) != 0 {
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chunk.ForegroundColor = ParseColor(matches[1])
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raw = raw[len(matches[0]):]
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} else {
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chunk.ForegroundColor = ColorCode{}
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chunk.BackgroundColor = ColorCode{}
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}
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default:
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// should be impossible, but just ignore it
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}
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}
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}
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var (
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// valtoescape replaces most of IRC characters with our escapes.
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valtoescape = strings.NewReplacer("$", "$$", colour, "$c", reverseColour, "$v", bold, "$b", italic, "$i", strikethrough, "$s", underline, "$u", monospace, "$m", reset, "$r")
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// escapetoval contains most of our escapes and how they map to real IRC characters.
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// intentionally skips colour, since that's handled elsewhere.
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escapetoval = map[rune]string{
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'$': "$",
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'b': bold,
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'i': italic,
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'v': reverseColour,
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's': strikethrough,
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'u': underline,
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'm': monospace,
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'r': reset,
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}
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// valid colour codes
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numtocolour = map[string]string{
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"99": "default",
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"15": "light grey",
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"14": "grey",
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"13": "pink",
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"12": "light blue",
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"11": "light cyan",
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"10": "cyan",
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"09": "light green",
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"08": "yellow",
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"07": "orange",
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"06": "magenta",
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"05": "brown",
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"04": "red",
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"03": "green",
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"02": "blue",
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"01": "black",
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"00": "white",
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"9": "light green",
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"8": "yellow",
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"7": "orange",
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"6": "magenta",
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"5": "brown",
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"4": "red",
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"3": "green",
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"2": "blue",
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"1": "black",
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"0": "white",
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}
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colourcodesTruncated = map[string]string{
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"white": "0",
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"black": "1",
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"blue": "2",
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"green": "3",
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"red": "4",
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"brown": "5",
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"magenta": "6",
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"orange": "7",
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"yellow": "8",
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"light green": "9",
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"cyan": "10",
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"light cyan": "11",
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"light blue": "12",
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"pink": "13",
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"grey": "14",
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"gray": "14",
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"light grey": "15",
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"light gray": "15",
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"default": "99",
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}
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bracketedExpr = regexp.MustCompile(`^\[.*?\]`)
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colourDigits = regexp.MustCompile(`^[0-9]{1,2}$`)
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)
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// Escape takes a raw IRC string and returns it with our escapes.
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//
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// IE, it turns this: "This is a \x02cool\x02, \x034red\x0f message!"
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// into: "This is a $bcool$b, $c[red]red$r message!"
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func Escape(in string) string {
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// replace all our usual escapes
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in = valtoescape.Replace(in)
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inRunes := []rune(in)
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//var out string
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out := strings.Builder{}
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for 0 < len(inRunes) {
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if 1 < len(inRunes) && inRunes[0] == '$' && inRunes[1] == 'c' {
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// handle colours
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out.WriteString("$c")
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inRunes = inRunes[2:] // strip colour code chars
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if len(inRunes) < 1 || !isDigit(inRunes[0]) {
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out.WriteString("[]")
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continue
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}
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var foreBuffer, backBuffer string
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foreBuffer += string(inRunes[0])
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inRunes = inRunes[1:]
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if 0 < len(inRunes) && isDigit(inRunes[0]) {
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foreBuffer += string(inRunes[0])
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inRunes = inRunes[1:]
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}
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if 1 < len(inRunes) && inRunes[0] == ',' && isDigit(inRunes[1]) {
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backBuffer += string(inRunes[1])
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inRunes = inRunes[2:]
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if 0 < len(inRunes) && isDigit(inRunes[1]) {
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backBuffer += string(inRunes[0])
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inRunes = inRunes[1:]
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}
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}
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foreName, exists := numtocolour[foreBuffer]
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if !exists {
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foreName = foreBuffer
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}
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backName, exists := numtocolour[backBuffer]
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if !exists {
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backName = backBuffer
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}
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out.WriteRune('[')
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out.WriteString(foreName)
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if backName != "" {
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out.WriteRune(',')
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out.WriteString(backName)
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}
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out.WriteRune(']')
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} else {
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// special case for $$c
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if len(inRunes) > 2 && inRunes[0] == '$' && inRunes[1] == '$' && inRunes[2] == 'c' {
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out.WriteRune(inRunes[0])
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out.WriteRune(inRunes[1])
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out.WriteRune(inRunes[2])
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inRunes = inRunes[3:]
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} else {
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out.WriteRune(inRunes[0])
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inRunes = inRunes[1:]
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}
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}
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}
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return out.String()
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}
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func isDigit(r rune) bool {
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return '0' <= r && r <= '9' // don't use unicode.IsDigit, it includes non-ASCII numerals
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}
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// Strip takes a raw IRC string and removes it with all formatting codes removed
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// IE, it turns this: "This is a \x02cool\x02, \x034red\x0f message!"
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// into: "This is a cool, red message!"
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func Strip(in string) string {
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splitChunks := Split(in)
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if len(splitChunks) == 0 {
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return ""
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} else if len(splitChunks) == 1 {
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return splitChunks[0].Content
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} else {
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var buf strings.Builder
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buf.Grow(len(in))
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for _, chunk := range splitChunks {
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buf.WriteString(chunk.Content)
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}
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return buf.String()
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}
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}
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// resolve "light blue" to "12", "12" to "12", "asdf" to "", etc.
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func resolveToColourCode(str string) (result string) {
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str = strings.ToLower(strings.TrimSpace(str))
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if colourDigits.MatchString(str) {
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return str
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}
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return colourcodesTruncated[str]
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}
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// resolve "[light blue, black]" to ("13, "1")
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func resolveToColourCodes(namedColors string) (foreground, background string) {
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// cut off the brackets
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namedColors = strings.TrimPrefix(namedColors, "[")
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namedColors = strings.TrimSuffix(namedColors, "]")
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var foregroundStr, backgroundStr string
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commaIdx := strings.IndexByte(namedColors, ',')
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if commaIdx != -1 {
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foregroundStr = namedColors[:commaIdx]
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backgroundStr = namedColors[commaIdx+1:]
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} else {
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foregroundStr = namedColors
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}
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return resolveToColourCode(foregroundStr), resolveToColourCode(backgroundStr)
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}
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// Unescape takes our escaped string and returns a raw IRC string.
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//
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// IE, it turns this: "This is a $bcool$b, $c[red]red$r message!"
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// into this: "This is a \x02cool\x02, \x034red\x0f message!"
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func Unescape(in string) string {
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var out strings.Builder
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remaining := in
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for len(remaining) != 0 {
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char := remaining[0]
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remaining = remaining[1:]
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if char != '$' || len(remaining) == 0 {
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// not an escape
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out.WriteByte(char)
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continue
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}
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// ingest the next character of the escape
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char = remaining[0]
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remaining = remaining[1:]
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if char == 'c' {
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out.WriteString(colour)
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namedColors := bracketedExpr.FindString(remaining)
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if namedColors == "" {
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// for a non-bracketed color code, output the following characters directly,
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// e.g., `$c1,8` will become `\x031,8`
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continue
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}
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// process bracketed color codes:
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remaining = remaining[len(namedColors):]
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followedByDigit := len(remaining) != 0 && ('0' <= remaining[0] && remaining[0] <= '9')
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foreground, background := resolveToColourCodes(namedColors)
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if foreground != "" {
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if len(foreground) == 1 && background == "" && followedByDigit {
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out.WriteByte('0')
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}
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out.WriteString(foreground)
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if background != "" {
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out.WriteByte(',')
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if len(background) == 1 && followedByDigit {
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out.WriteByte('0')
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}
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out.WriteString(background)
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}
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}
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} else {
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val, exists := escapetoval[rune(char)]
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if exists {
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out.WriteString(val)
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} else {
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// invalid escape, use the raw char
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out.WriteByte(char)
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}
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}
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}
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return out.String()
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}
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