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mirror of https://github.com/simple-icons/simple-icons.git synced 2024-12-26 01:13:41 +02:00
simple-icons/.svglintrc.js
Eric Cornelissen a4ca74602f
Minor improvements (#4708)
* Remove .travis.yml reference from .gitattributes

* Minor refactoring of .svglintrc.js

- Remove unused variables
- Fix missing semi-colons
- Remove unneeded indentation

* Prevent error in clean command due to missing files

* Fix indentations

* Further improvements to Editorconfig and indentation

* Format YAML files

- Update indentation for array notation
- Normalize use of newlines
2021-01-15 21:47:00 +01:00

480 lines
21 KiB
JavaScript

const fs = require('fs');
const data = require("./_data/simple-icons.json");
const { htmlFriendlyToTitle } = require("./scripts/utils.js");
const svgPath = require("svgpath");
const { svgPathBbox } = require("svg-path-bbox");
const titleRegexp = /(.+) icon$/;
const svgRegexp = /^<svg( [^\s]*=".*"){3}><title>.*<\/title><path d=".*"\/><\/svg>\r?\n?$/;
const negativeZerosRegexp = /-0(?=[^\.]|[\s\d\w]|$)/g;
const iconSize = 24;
const iconFloatPrecision = 3;
const iconMaxFloatPrecision = 5;
const iconTolerance = 0.001;
// set env SI_UPDATE_IGNORE to recreate the ignore file
const updateIgnoreFile = process.env.SI_UPDATE_IGNORE === 'true';
const ignoreFile = "./.svglint-ignored.json";
const iconIgnored = !updateIgnoreFile ? require(ignoreFile) : {};
function sortObjectByKey(obj) {
return Object
.keys(obj)
.sort()
.reduce((r, k) => Object.assign(r, { [k]: obj[k] }), {});
}
function sortObjectByValue(obj) {
return Object
.keys(obj)
.sort((a, b) => ('' + obj[a]).localeCompare(obj[b]))
.reduce((r, k) => Object.assign(r, { [k]: obj[k] }), {});
}
function removeLeadingZeros(number) {
// convert 0.03 to '.03'
return number.toString().replace(/^(-?)(0)(\.?.+)/, '$1$3');
}
/**
* Given three points, returns if the middle one (x2, y2) is collinear
* to the line formed by the two limit points.
**/
function collinear(x1, y1, x2, y2, x3, y3) {
return (x1 * (y2 - y3) + x2 * (y3 - y1) + x3 * (y1 - y2)) === 0;
}
if (updateIgnoreFile) {
process.on('exit', () => {
// ensure object output order is consistent due to async svglint processing
const sorted = sortObjectByKey(iconIgnored)
for (const linterName in sorted) {
sorted[linterName] = sortObjectByValue(sorted[linterName])
}
fs.writeFileSync(
ignoreFile,
JSON.stringify(sorted, null, 2) + '\n',
{flag: 'w'}
);
});
}
function isIgnored(linterName, path) {
return iconIgnored[linterName] && iconIgnored[linterName].hasOwnProperty(path);
}
function ignoreIcon(linterName, path, $) {
if (!iconIgnored[linterName]) {
iconIgnored[linterName] = {};
}
const title = $.find("title").text().replace(/(.*) icon/, '$1');
const iconName = htmlFriendlyToTitle(title);
iconIgnored[linterName][path] = iconName;
}
module.exports = {
rules: {
elm: {
"svg": 1,
"svg > title": 1,
"svg > path": 1,
"*": false,
},
attr: [
{ // ensure that the SVG elm has the appropriate attrs
"role": "img",
"viewBox": `0 0 ${iconSize} ${iconSize}`,
"xmlns": "http://www.w3.org/2000/svg",
"rule::selector": "svg",
"rule::whitelist": true,
},
{ // ensure that the title elm has the appropriate attr
"rule::selector": "svg > title",
"rule::whitelist": true,
},
{ // ensure that the path element only has the 'd' attr (no style, opacity, etc.)
"d": /^[,a-zA-Z0-9\. -]+$/,
"rule::selector": "svg > path",
"rule::whitelist": true,
}
],
custom: [
function(reporter, $, ast) {
reporter.name = "icon-title";
const iconTitleText = $.find("title").text();
if (!titleRegexp.test(iconTitleText)) {
reporter.error("<title> should follow the format \"[ICON_NAME] icon\"");
} else {
const titleMatch = iconTitleText.match(titleRegexp);
// titleMatch = [ "[ICON_NAME] icon", "[ICON_NAME]" ]
const rawIconName = titleMatch[1];
const iconName = htmlFriendlyToTitle(rawIconName);
const icon = data.icons.find(icon => icon.title === iconName);
if (icon === undefined) {
reporter.error(`No icon with title "${iconName}" found in simple-icons.json`);
}
}
},
function(reporter, $, ast) {
reporter.name = "icon-size";
const iconPath = $.find("path").attr("d");
if (!updateIgnoreFile && isIgnored(reporter.name, iconPath)) {
return;
}
const [minX, minY, maxX, maxY] = svgPathBbox(iconPath);
const width = +(maxX - minX).toFixed(iconFloatPrecision);
const height = +(maxY - minY).toFixed(iconFloatPrecision);
if (width === 0 && height === 0) {
reporter.error("Path bounds were reported as 0 x 0; check if the path is valid");
if (updateIgnoreFile) {
ignoreIcon(reporter.name, iconPath, $);
}
} else if (width !== iconSize && height !== iconSize) {
reporter.error(`Size of <path> must be exactly ${iconSize} in one dimension; the size is currently ${width} x ${height}`);
if (updateIgnoreFile) {
ignoreIcon(reporter.name, iconPath, $);
}
}
},
function(reporter, $, ast) {
reporter.name = "icon-precision";
const iconPath = $.find("path").attr("d");
if (!updateIgnoreFile && isIgnored(reporter.name, iconPath)) {
return;
}
const { segments } = svgPath(iconPath);
const segmentParts = segments.flat().filter((num) => (typeof num === 'number'));
const countDecimals = (num) => {
if (num && num % 1) {
let [base, op, trail] = num.toExponential().split(/e([+-])/);
let elen = parseInt(trail, 10);
let idx = base.indexOf('.');
return idx == -1 ? elen : base.length - idx - 1 + (op === '+' ? -elen : elen);
}
return 0;
};
const precisionArray = segmentParts.map(countDecimals);
const precisionMax = precisionArray && precisionArray.length > 0 ?
Math.max(...precisionArray) :
0;
if (precisionMax > iconMaxFloatPrecision) {
reporter.error(`Maximum precision should not be greater than ${iconMaxFloatPrecision}; it is currently ${precisionMax}`);
if (updateIgnoreFile) {
ignoreIcon(reporter.name, iconPath, $);
}
}
},
function(reporter, $, ast) {
reporter.name = "ineffective-segments";
const iconPath = $.find("path").attr("d");
if (!updateIgnoreFile && isIgnored(reporter.name, iconPath)) {
return;
}
const { segments } = svgPath(iconPath);
const { segments: absSegments } = svgPath(iconPath).abs().unshort();
const lowerMovementCommands = ['m', 'l'];
const lowerDirectionCommands = ['h', 'v'];
const lowerCurveCommand = 'c';
const lowerShorthandCurveCommand = 's';
const lowerCurveCommands = [lowerCurveCommand, lowerShorthandCurveCommand];
const upperMovementCommands = ['M', 'L'];
const upperHorDirectionCommand = 'H';
const upperVerDirectionCommand = 'V';
const upperDirectionCommands = [upperHorDirectionCommand, upperVerDirectionCommand];
const upperCurveCommand = 'C';
const upperShorthandCurveCommand = 'S';
const upperCurveCommands = [upperCurveCommand, upperShorthandCurveCommand];
const curveCommands = [...lowerCurveCommands, ...upperCurveCommands];
const commands = [...lowerMovementCommands, ...lowerDirectionCommands, ...upperMovementCommands, ...upperDirectionCommands, ...curveCommands];
const getInvalidSegments = ([command, x1Coord, y1Coord, ...rest], index) => {
if (commands.includes(command)) {
// Relative directions (h or v) having a length of 0
if (lowerDirectionCommands.includes(command) && x1Coord === 0) {
return true;
}
// Relative movement (m or l) having a distance of 0
if (lowerMovementCommands.includes(command) && x1Coord === 0 && y1Coord === 0) {
return true;
}
if (lowerCurveCommands.includes(command) && x1Coord === 0 && y1Coord === 0) {
const [x2Coord, y2Coord] = rest;
if (
// Relative shorthand curve (s) having a control point of 0
command === lowerShorthandCurveCommand ||
// Relative bézier curve (c) having control points of 0
(command === lowerCurveCommand && x2Coord === 0 && y2Coord === 0)
) {
return true;
}
}
if (index > 0) {
let [yPrevCoord, xPrevCoord] = [...absSegments[index - 1]].reverse();
// If the previous command was a direction one, we need to iterate back until we find the missing coordinates
if (upperDirectionCommands.includes(xPrevCoord)) {
xPrevCoord = undefined;
yPrevCoord = undefined;
let idx = index;
while (--idx > 0 && (xPrevCoord === undefined || yPrevCoord === undefined)) {
let [yPrevCoordDeep, xPrevCoordDeep] = [...absSegments[idx]].reverse();
// If the previous command was a horizontal movement, we need to consider the single coordinate as x
if (upperHorDirectionCommand === xPrevCoordDeep) {
xPrevCoordDeep = yPrevCoordDeep;
yPrevCoordDeep = undefined;
}
// If the previous command was a vertical movement, we need to consider the single coordinate as y
if (upperVerDirectionCommand === xPrevCoordDeep) {
xPrevCoordDeep = undefined;
}
if (xPrevCoord === undefined && xPrevCoordDeep !== undefined) {
xPrevCoord = xPrevCoordDeep;
}
if (yPrevCoord === undefined && yPrevCoordDeep !== undefined) {
yPrevCoord = yPrevCoordDeep;
}
}
}
if (upperCurveCommands.includes(command)) {
const [x2Coord, y2Coord, xCoord, yCoord] = rest;
// Absolute shorthand curve (S) having the same coordinate as the previous segment and a control point equal to the ending point
if (upperShorthandCurveCommand === command && x1Coord === xPrevCoord && y1Coord === yPrevCoord && x1Coord === x2Coord && y1Coord === y2Coord) {
return true;
}
// Absolute bézier curve (C) having the same coordinate as the previous segment and last control point equal to the ending point
if (upperCurveCommand === command && x1Coord === xPrevCoord && y1Coord === yPrevCoord && x2Coord === xCoord && y2Coord === yCoord) {
return true;
}
}
return (
// Absolute horizontal direction (H) having the same x coordinate as the previous segment
(upperHorDirectionCommand === command && x1Coord === xPrevCoord) ||
// Absolute vertical direction (V) having the same y coordinate as the previous segment
(upperVerDirectionCommand === command && x1Coord === yPrevCoord) ||
// Absolute movement (M or L) having the same coordinate as the previous segment
(upperMovementCommands.includes(command) && x1Coord === xPrevCoord && y1Coord === yPrevCoord)
);
}
}
};
const invalidSegments = segments.filter(getInvalidSegments);
if (invalidSegments.length) {
invalidSegments.forEach(([command, x1Coord, y1Coord, ...rest]) => {
let readableSegment = `${command}${x1Coord}`,
resolutionTip = 'should be removed';
if (y1Coord !== undefined) {
readableSegment += ` ${y1Coord}`;
}
if (curveCommands.includes(command)) {
const [x2Coord, y2Coord, xCoord, yCoord] = rest;
readableSegment += `, ${x2Coord} ${y2Coord}`;
if (yCoord !== undefined) {
readableSegment += `, ${xCoord} ${yCoord}`;
}
if (command === lowerShorthandCurveCommand && (x2Coord !== 0 || y2Coord !== 0)) {
resolutionTip = `should be "l${removeLeadingZeros(x2Coord)} ${removeLeadingZeros(y2Coord)}" or removed`;
}
if (command === upperShorthandCurveCommand) {
resolutionTip = `should be "L${removeLeadingZeros(x2Coord)} ${removeLeadingZeros(y2Coord)}" or removed`;
}
if (command === lowerCurveCommand && (xCoord !== 0 || yCoord !== 0)) {
resolutionTip = `should be "l${removeLeadingZeros(xCoord)} ${removeLeadingZeros(yCoord)}" or removed`;
}
if (command === upperCurveCommand) {
resolutionTip = `should be "L${removeLeadingZeros(xCoord)} ${removeLeadingZeros(yCoord)}" or removed`;
}
}
reporter.error(`Ineffective segment "${readableSegment}" in path (${resolutionTip}).`);
});
if (updateIgnoreFile) {
ignoreIcon(reporter.name, iconPath, $);
}
}
},
function(reporter, $, ast) {
reporter.name = "collinear-segments";
const iconPath = $.find("path").attr("d");
if (!updateIgnoreFile && isIgnored(reporter.name, iconPath)) {
return;
}
/**
* Extracts collinear coordinates from SVG path straight lines
* (does not extracts collinear coordinates from curves).
**/
const getCollinearSegments = (path) => {
const { segments } = svgPath(path).unarc().unshort(),
collinearSegments = [],
straightLineCommands = 'HhVvLlMm',
zCommands = 'Zz';
let currLine = [],
currAbsCoord = [undefined, undefined],
startPoint,
_inStraightLine = false,
_nextInStraightLine = false,
_resetStartPoint = false;
for (let s = 0; s < segments.length; s++) {
let seg = segments[s],
cmd = seg[0],
nextCmd = s + 1 < segments.length ? segments[s + 1][0] : null;
if ('LM'.includes(cmd)) {
currAbsCoord[0] = seg[1];
currAbsCoord[1] = seg[2];
} else if ('lm'.includes(cmd)) {
currAbsCoord[0] = (!currAbsCoord[0] ? 0 : currAbsCoord[0]) + seg[1];
currAbsCoord[1] = (!currAbsCoord[1] ? 0 : currAbsCoord[1]) + seg[2];
} else if (cmd === 'H') {
currAbsCoord[0] = seg[1];
} else if (cmd === 'h') {
currAbsCoord[0] = (!currAbsCoord[0] ? 0 : currAbsCoord[0]) + seg[1];
} else if (cmd === 'V') {
currAbsCoord[1] = seg[1];
} else if (cmd === 'v') {
currAbsCoord[1] = (!currAbsCoord[1] ? 0 : currAbsCoord[1]) + seg[1];
} else if (cmd === 'C') {
currAbsCoord[0] = seg[5];
currAbsCoord[1] = seg[6];
} else if (cmd === 'c') {
currAbsCoord[0] = (!currAbsCoord[0] ? 0 : currAbsCoord[0]) + seg[5];
currAbsCoord[1] = (!currAbsCoord[1] ? 0 : currAbsCoord[1]) + seg[6];
} else if (cmd === 'Q') {
currAbsCoord[0] = seg[3];
currAbsCoord[1] = seg[4];
} else if (cmd === 'q') {
currAbsCoord[0] = (!currAbsCoord[0] ? 0 : currAbsCoord[0]) + seg[3];
currAbsCoord[1] = (!currAbsCoord[1] ? 0 : currAbsCoord[1]) + seg[4];
} else if (zCommands.includes(cmd)) {
// Overlapping in Z should be handled in another rule
currAbsCoord = [startPoint[0], startPoint[1]];
_resetStartPoint = true;
} else {
throw new Error(`"${cmd}" command not handled`);
}
if (startPoint === undefined) {
startPoint = [currAbsCoord[0], currAbsCoord[1]];
} else if (_resetStartPoint) {
startPoint = undefined;
_resetStartPoint = false;
}
_nextInStraightLine = straightLineCommands.includes(nextCmd);
let _exitingStraightLine = (_inStraightLine && !_nextInStraightLine);
_inStraightLine = straightLineCommands.includes(cmd);
if (_inStraightLine) {
currLine.push([currAbsCoord[0], currAbsCoord[1]]);
} else {
if (_exitingStraightLine) {
if (straightLineCommands.includes(cmd)) {
currLine.push([currAbsCoord[0], currAbsCoord[1]]);
}
// Get collinear coordinates
for (let p = 1; p < currLine.length - 1; p++) {
let _collinearCoord = collinear(currLine[p - 1][0],
currLine[p - 1][1],
currLine[p][0],
currLine[p][1],
currLine[p + 1][0],
currLine[p + 1][1]);
if (_collinearCoord) {
collinearSegments.push(segments[s - currLine.length + p + 1]);
}
}
}
currLine = [];
}
}
return collinearSegments;
}
getCollinearSegments(iconPath).forEach((segment) => {
let segmentString = `${segment[0]}${segment[1]}`;
if ('LlMm'.includes(segment[0])) {
segmentString += ` ${segment[2]}`
}
reporter.error(`Collinear segment "${segmentString}" in path (should be removed)`);
});
},
function(reporter, $, ast) {
reporter.name = "extraneous";
const rawSVG = $.html();
if (!svgRegexp.test(rawSVG)) {
reporter.error("Unexpected character(s), most likely extraneous whitespace, detected in SVG markup");
}
},
function(reporter, $, ast) {
reporter.name = "negative-zeros";
const iconPath = $.find("path").attr("d");
if (!updateIgnoreFile && isIgnored(reporter.name, iconPath)) {
return;
}
// Find negative zeros inside path
const negativeZeroMatches = Array.from(iconPath.matchAll(negativeZerosRegexp));
if (negativeZeroMatches.length) {
// Calculate the index for each match in the file
const pathDStart = '<path d="';
const svgFileHtml = $.html();
const pathDIndex = svgFileHtml.indexOf(pathDStart) + pathDStart.length;
negativeZeroMatches.forEach((match) => {
const negativeZeroFileIndex = match.index + pathDIndex;
const previousChar = svgFileHtml[negativeZeroFileIndex - 1];
const replacement = "0123456789".includes(previousChar) ? " 0" : "0";
reporter.error(`Found "-0" at index ${negativeZeroFileIndex} (should be "${replacement}")`);
})
}
},
function(reporter, $, ast) {
reporter.name = "icon-centered";
const iconPath = $.find("path").attr("d");
if (!updateIgnoreFile && isIgnored(reporter.name, iconPath)) {
return;
}
const [minX, minY, maxX, maxY] = svgPathBbox(iconPath);
const targetCenter = iconSize / 2;
const centerX = +((minX + maxX) / 2).toFixed(iconFloatPrecision);
const devianceX = centerX - targetCenter;
const centerY = +((minY + maxY) / 2).toFixed(iconFloatPrecision);
const devianceY = centerY - targetCenter;
if (
Math.abs(devianceX) > iconTolerance ||
Math.abs(devianceY) > iconTolerance
) {
reporter.error(`<path> must be centered at (${targetCenter}, ${targetCenter}); the center is currently (${centerX}, ${centerY})`);
if (updateIgnoreFile) {
ignoreIcon(reporter.name, iconPath, $);
}
}
}
]
}
};