This repository has been archived on 2020-11-02. You can view files and clone it, but cannot push or open issues or pull requests.
TripSit_Suite/client/js/helpers/ircmessageparser/parseStyle.js
2020-11-01 22:46:04 +00:00

238 lines
5.8 KiB
JavaScript

"use strict";
// Styling control codes
const BOLD = "\x02";
const COLOR = "\x03";
const HEX_COLOR = "\x04";
const RESET = "\x0f";
const REVERSE = "\x16";
const ITALIC = "\x1d";
const UNDERLINE = "\x1f";
const STRIKETHROUGH = "\x1e";
const MONOSPACE = "\x11";
// Color code matcher, with format `XX,YY` where both `XX` and `YY` are
// integers, `XX` is the text color and `YY` is an optional background color.
const colorRx = /^(\d{1,2})(?:,(\d{1,2}))?/;
// 6-char Hex color code matcher
const hexColorRx = /^([0-9a-f]{6})(?:,([0-9a-f]{6}))?/i;
// Represents all other control codes that to be ignored/filtered from the text
// This regex allows line feed character
const controlCodesRx = /[\u0000-\u0009\u000B-\u001F]/g;
// Converts a given text into an array of objects, each of them representing a
// similarly styled section of the text. Each object carries the `text`, style
// information (`bold`, `textColor`, `bgcolor`, `italic`,
// `underline`, `strikethrough`, `monospace`), and `start`/`end` cursors.
function parseStyle(text) {
const result = [];
let start = 0;
let position = 0;
// At any given time, these carry style information since last time a styling
// control code was met.
let colorCodes,
bold,
textColor,
bgColor,
hexColor,
hexBgColor,
italic,
underline,
strikethrough,
monospace;
const resetStyle = () => {
bold = false;
textColor = undefined;
bgColor = undefined;
hexColor = undefined;
hexBgColor = undefined;
italic = false;
underline = false;
strikethrough = false;
monospace = false;
};
resetStyle();
// When called, this "closes" the current fragment by adding an entry to the
// `result` array using the styling information set last time a control code
// was met.
const emitFragment = () => {
// Uses the text fragment starting from the last control code position up to
// the current position
const textPart = text.slice(start, position);
// Filters out all non-style related control codes present in this text
const processedText = textPart.replace(controlCodesRx, " ");
if (processedText.length) {
// Current fragment starts where the previous one ends, or at 0 if none
const fragmentStart = result.length ? result[result.length - 1].end : 0;
result.push({
bold,
textColor,
bgColor,
hexColor,
hexBgColor,
italic,
underline,
strikethrough,
monospace,
text: processedText,
start: fragmentStart,
end: fragmentStart + processedText.length,
});
}
// Now that a fragment has been "closed", the next one will start after that
start = position + 1;
};
// This loop goes through each character of the given text one by one by
// bumping the `position` cursor. Every time a new special "styling" character
// is met, an object gets created (with `emitFragment()`)information on text
// encountered since the previous styling character.
while (position < text.length) {
switch (text[position]) {
case RESET:
emitFragment();
resetStyle();
break;
// Meeting a BOLD character means that the ongoing text is either going to
// be in bold or that the previous one was in bold and the following one
// must be reset.
// This same behavior applies to COLOR, REVERSE, ITALIC, and UNDERLINE.
case BOLD:
emitFragment();
bold = !bold;
break;
case COLOR:
emitFragment();
// Go one step further to find the corresponding color
colorCodes = text.slice(position + 1).match(colorRx);
if (colorCodes) {
textColor = Number(colorCodes[1]);
if (colorCodes[2]) {
bgColor = Number(colorCodes[2]);
}
// Color code length is > 1, so bump the current position cursor by as
// much (and reset the start cursor for the current text block as well)
position += colorCodes[0].length;
start = position + 1;
} else {
// If no color codes were found, toggles back to no colors (like BOLD).
textColor = undefined;
bgColor = undefined;
}
break;
case HEX_COLOR:
emitFragment();
colorCodes = text.slice(position + 1).match(hexColorRx);
if (colorCodes) {
hexColor = colorCodes[1].toUpperCase();
if (colorCodes[2]) {
hexBgColor = colorCodes[2].toUpperCase();
}
// Color code length is > 1, so bump the current position cursor by as
// much (and reset the start cursor for the current text block as well)
position += colorCodes[0].length;
start = position + 1;
} else {
// If no color codes were found, toggles back to no colors (like BOLD).
hexColor = undefined;
hexBgColor = undefined;
}
break;
case REVERSE: {
emitFragment();
const tmp = bgColor;
bgColor = textColor;
textColor = tmp;
break;
}
case ITALIC:
emitFragment();
italic = !italic;
break;
case UNDERLINE:
emitFragment();
underline = !underline;
break;
case STRIKETHROUGH:
emitFragment();
strikethrough = !strikethrough;
break;
case MONOSPACE:
emitFragment();
monospace = !monospace;
break;
}
// Evaluate the next character at the next iteration
position += 1;
}
// The entire text has been parsed, so we finalize the current text fragment.
emitFragment();
return result;
}
const properties = [
"bold",
"textColor",
"bgColor",
"hexColor",
"hexBgColor",
"italic",
"underline",
"strikethrough",
"monospace",
];
function prepare(text) {
return (
parseStyle(text)
// This optimizes fragments by combining them together when all their values
// for the properties defined above are equal.
.reduce((prev, curr) => {
if (prev.length) {
const lastEntry = prev[prev.length - 1];
if (properties.every((key) => curr[key] === lastEntry[key])) {
lastEntry.text += curr.text;
lastEntry.end += curr.text.length;
return prev;
}
}
return prev.concat([curr]);
}, [])
);
}
export default prepare;