# Convert SVG Path to Relative Commands

Given an SVG Path element, how can I convert all path commands into relative coordinates? For example, convert this path (which includes every command, absolute and relative, interleaved):

``````<path d="M3,7 L13,7 m-10,10 l10,0 V27 H23 v10 h10
C33,43 38,47 43,47 c0,5 5,10 10,10
S63,67 63,67       s-10,10 10,10
Q50,50 73,57       q20,-5 0,-10
T70,40             t0,-15
A5,5 45 1 0 40,20  a5,5 20 0 1 -10,-10
Z" />
``````

into this equivalent path:

``````<path d="m3,7 l10,0 m-10 10 l10,0 v10 h10 v10 h10
c0,6 5,10 10,10    c0,5 5,10 10,10
s10,10 10,10       s-10,10 10,10
q-23,-27 0,-20     q20,-5 0,-10
t-3,-7             t0-15
a5,5 45 1 0 -30,-5 a5,5 20 0 1 -10,-10
z"/>
``````

This question was motivated by this question.

• One way of doing that non programatically (in case it works for you) is by using the service from this website: lea.verou.me/2019/05/… Nov 18, 2021 at 0:28

Snap.SVG has `Snap.path.toRelative()`.

``````var rel = Snap.path.toRelative(abspathstring);
``````

Fiddle

• Worth noting: at least the Snap.SVG version linked here (cdn.jsdelivr.net/snap.svg/0.3.0/snap.svg.js) won't retain the coordinate precision from your input, but round to 3 decimals for all coordinates. Jan 25, 2017 at 19:18

I tweaked Phrogz' `convertToAbsolute` into this `convertToRelative` function:

``````function convertToRelative(path) {
function set(type) {
var args = [].slice.call(arguments, 1)
, rcmd = 'createSVGPathSeg'+ type +'Rel'
, rseg = path[rcmd].apply(path, args);
segs.replaceItem(rseg, i);
}
var dx, dy, x0, y0, x1, y1, x2, y2, segs = path.pathSegList;
for (var x = 0, y = 0, i = 0, len = segs.numberOfItems; i < len; i++) {
var seg = segs.getItem(i)
, c   = seg.pathSegTypeAsLetter;
if (/[MLHVCSQTAZz]/.test(c)) {
if ('x1' in seg) x1 = seg.x1 - x;
if ('x2' in seg) x2 = seg.x2 - x;
if ('y1' in seg) y1 = seg.y1 - y;
if ('y2' in seg) y2 = seg.y2 - y;
if ('x'  in seg) dx = -x + (x = seg.x);
if ('y'  in seg) dy = -y + (y = seg.y);
switch (c) {
case 'M': set('Moveto',dx,dy);                   break;
case 'L': set('Lineto',dx,dy);                   break;
case 'H': set('LinetoHorizontal',dx);            break;
case 'V': set('LinetoVertical',dy);              break;
case 'C': set('CurvetoCubic',dx,dy,x1,y1,x2,y2); break;
case 'S': set('CurvetoCubicSmooth',dx,dy,x2,y2); break;
case 'A': set('Arc',dx,dy,seg.r1,seg.r2,seg.angle,
seg.largeArcFlag,seg.sweepFlag);   break;
case 'Z': case 'z': x = x0; y = y0; break;
}
}
else {
if ('x' in seg) x += seg.x;
if ('y' in seg) y += seg.y;
}
// store the start of a subpath
if (c == 'M' || c == 'm') {
x0 = x;
y0 = y;
}
}
path.setAttribute('d', path.getAttribute('d').replace(/Z/g, 'z'));
}
``````

Used like so with the path from the question:

``````var path = document.querySelector('path');
convertToRelative(path);
console.log(path.getAttribute('d'));
// m 3 7 l 10 0 m -10 10 l 10 0 v 10 h 10 v 10 h 10 c 0 6 5 10 10 10 c 0 5 5 10 10 10 s 10 10 10 10 s -10 10 10 10 q -23 -27 0 -20 q 20 -5 0 -10 t -3 -7 t 0 -15 a 5 5 45 1 0 -30 -5 a 5 5 20 0 1 -10 -10 z
``````

I also made a little phantomjs shell utility svg2rel which transforms all paths in an svg this way (there's a corresponding svg2abs in the same gist, for good measure).

• `pathSegList` is now deprecated: stackoverflow.com/questions/34352624/… Feb 7, 2016 at 0:22
• As this answer no longer is correct after above mentioned API deprecation in Chrome (and other browsers), I'm switching over to the Snap hack - or a similar solution in its elder sibling Rafael: jsbin.com/voxemav Jan 25, 2017 at 18:36

Based on the svg working draft methods `getPathData()` and `setPathData()` I came up with a port of Dmitry Baranovskiy's pathToRelative/Absolute methods used in snap.svg.

`getPathData()` is intended to replace the deprecated `pathSegList` methods but is not yet supported by any major browser.
So you need a polyfill like Jarek Foksa's pathdata polyfill..

### Example usage:

``````let svg = document.querySelector('svg');
let path = svg.querySelector('path');
let pathData = path.getPathData();
// 2nd argument defines optional rounding: -1 == no rounding; 2 == round to 2 decimals
let pathDataRel = pathDataToRelative(pathData, 3);
path.setPathData(pathDataRel);
``````

Example snippet based on Lea Verou's post
"Convert SVG path to all-relative or all-absolute commands" (using snap.svg)

``````/**
* dependancy: Jarek Foks's pathdata polyfill
* cdn: https://cdn.jsdelivr.net/npm/[email protected]/path-data-polyfill.min.js
* github: https://github.com/jarek-foksa/path-data-polyfill
**/

// convert to relative commands
function pathDataToRelative(pathData, decimals = -1) {
let M = pathData[0].values;
let x = M[0],
y = M[1],
mx = x,
my = y;
// loop through commands
for (let i = 1; i < pathData.length; i++) {
let cmd = pathData[i];
let type = cmd.type;
let typeRel = type.toLowerCase();
let values = cmd.values;

// is absolute
if (type != typeRel) {
type = typeRel;
cmd.type = type;
// check current command types
switch (typeRel) {
case "a":
values[5] = +(values[5] - x);
values[6] = +(values[6] - y);
break;
case "v":
values[0] = +(values[0] - y);
break;
case "m":
mx = values[0];
my = values[1];
default:
// other commands
if (values.length) {
for (let v = 0; v < values.length; v++) {
// even value indices are y coordinates
values[v] = values[v] - (v % 2 ? y : x);
}
}
}
}
else {
if (cmd.type == "m") {
mx = values[0] + x;
my = values[1] + y;
}
}
let vLen = values.length;
switch (type) {
case "z":
x = mx;
y = my;
break;
case "h":
x += values[vLen - 1];
break;
case "v":
y += values[vLen - 1];
break;
default:
x += values[vLen - 2];
y += values[vLen - 1];
}

// round coordinates
if (decimals >= 0) {
cmd.values = values.map((val) => {
return +val.toFixed(decimals);
});
}
}
// round M (starting point)
if (decimals >= 0) {
[M[0], M[1]] = [+M[0].toFixed(decimals), +M[1].toFixed(decimals)];
}
return pathData;
}

function pathDataToAbsolute(pathData, decimals = -1) {
let M = pathData[0].values;
let x = M[0],
y = M[1],
mx = x,
my = y;
// loop through commands
for (let i = 1; i < pathData.length; i++) {
let cmd = pathData[i];
let type = cmd.type;
let typeAbs = type.toUpperCase();
let values = cmd.values;

if (type != typeAbs) {
type = typeAbs;
cmd.type = type;
// check current command types
switch (typeAbs) {
case "A":
values[5] = +(values[5] + x);
values[6] = +(values[6] + y);
break;

case "V":
values[0] = +(values[0] + y);
break;

case "H":
values[0] = +(values[0] + x);
break;

case "M":
mx = +values[0] + x;
my = +values[1] + y;

default:
// other commands
if (values.length) {
for (let v = 0; v < values.length; v++) {
// even value indices are y coordinates
values[v] = values[v] + (v % 2 ? y : x);
}
}
}
}
let vLen = values.length;
switch (type) {
case "Z":
x = +mx;
y = +my;
break;
case "H":
x = values[0];
break;
case "V":
y = values[0];
break;
case "M":
mx = values[vLen - 2];
my = values[vLen - 1];

default:
x = values[vLen - 2];
y = values[vLen - 1];
}

// round coordinates
if (decimals >= 0) {
cmd.values = values.map((val) => {
return +val.toFixed(decimals);
});
}
}
// round M (starting point)
if (decimals >= 0) {
[M[0], M[1]] = [+M[0].toFixed(decimals), +M[1].toFixed(decimals)];
}
return pathData;
}

function roundPathData(pathData, decimals = -1) {
if (decimals >= 0) {
pathData.forEach(function (com, c) {
let values = com["values"];
values.forEach(function (val, v) {
pathData[c]["values"][v] = +val.toFixed(decimals);
});
});
}
return pathData;
}

// reverse pathdata
function reversePathData(pathData) {
let M = pathData[0];
let newPathData = [M];
// split subpaths
let subPathDataArr = splitSubpaths(pathData);

subPathDataArr.forEach((subPathData, s) => {
let subPathDataL = subPathData.length;
let closed = subPathData[subPathDataL - 1]["type"] == "Z" ? true : false;
let stripZ = false;

if (!closed) {
subPathData.push({
type: "Z",
values: []
});
subPathDataL++;
closed = true;
stripZ = true;
}

let subM = subPathData[0]["values"];

// insert Lineto if last path segment has created by z
let lastCom = closed
? subPathData[subPathDataL - 2]
: subPathData[subPathDataL - 1];
let lastComL = lastCom["values"].length;
let lastXY = [
lastCom["values"][lastComL - 2],
lastCom["values"][lastComL - 1]
];
let diff = Math.abs(subM[0] - lastXY[0]);

if (diff > 1 && closed) {
subPathData.pop();
subPathData.push({
type: "L",
values: [subM[0], subM[1]]
});
subPathData.push({
type: "Z",
values: []
});
}

subPathData.forEach(function (com, i) {
// reverse index
let subpathDataL = subPathData.length;
let indexR = subpathDataL - 1 - i;
let comR = subPathData[indexR];
let comF = subPathData[i];
let [typeR, valuesR] = [comR["type"], comR["values"]];
let [typeF, valuesF] = [comF["type"], comF["values"]];
if (typeF == "M" && s > 0) {
newPathData.push(comF);
} else if (typeR != "M" && typeR != "Z") {
indexR--;
let prevCom =
i > 0 ? subPathData[indexR] : subPathData[subpathDataL - 1 - i];
let prevVals = prevCom
? prevCom["values"]
? prevCom["values"]
: [0, 0]
: [];
prevVals = prevCom["values"];
let prevValsL = prevVals.length;
let newCoords = [];

if (typeR == "C") {
newCoords = [
valuesR[2],
valuesR[3],
valuesR[0],
valuesR[1],
prevVals[prevValsL - 2],
prevVals[prevValsL - 1]
];

if (!closed) {
let nextVals =
i < subpathDataL - 1 ? subPathData[i + 1]["values"] : lastXY;
let lastCX = i < subpathDataL - 2 ? nextVals[prevValsL - 2] : subM[0];
let lastCY = i < subpathDataL - 2 ? nextVals[prevValsL - 1] : subM[1];
newCoords[4] = lastCX;
newCoords[5] = lastCY;
}
} else {
newCoords = [prevVals[prevValsL - 2], prevVals[prevValsL - 1]];
}
newPathData.push({
type: typeR,
values: newCoords
});
}
});
if (closed) {
newPathData.push({
type: "Z",
values: []
});
}

//fix M
if (diff > 1 && stripZ) {
let firstL = newPathData[1]["values"];
newPathData[1] = {
type: "M",
values: [firstL[0], firstL[1]]
};
newPathData.shift();
newPathData.pop();
}
});
return newPathData;
}

function splitSubpaths(pathData) {
let pathDataL = pathData.length;
let subPathArr = [];
let subPathMindex = [];
pathData.forEach(function (com, i) {
let [type, values] = [com["type"], com["values"]];
if (type == "M") {
subPathMindex.push(i);
}
});
//split segments after M command
subPathMindex.forEach(function (index, i) {
let n = subPathMindex[i + 1];
let thisSeg = pathData.slice(index, n);
subPathArr.push(thisSeg);
});
return subPathArr;
}``````
``````body {
font: 100%/1.5 Helvetica Neue, sans-serif;
margin: 1em;
}

svg {
border: 1px solid #ccc;
max-height: 10em;
}

pre {
display: inline-block;
background: #eee;
margin: 0;
}

section {
flex: 1;
display: flex;
flex-flow: column;
}

textarea {
display: block;
font: inherit;
font-family: Consolas, monospace;
width: 100%;
height: 8em;
margin: 0.1em 0;
resize: vertical;
}

footer {
color: gray;
}

footer a {
color: inherit;
}

@media (min-width: 800px) {
.flex {
display: flex;
width: 100%;
gap: 1em;
}

svg {
max-width: 40vw;
}
}``````
``````<form>
<label>Round coordinates (-1 = no rounding)</label>
<input class="input" type="number" id="precision" min="-1" value="3">
<div class="flex">
<section>
<label>
Your path: <textarea class="input" id="origPathT">M46.8 34.9 L49.5 43.2 Q46.5 44.2 42.9 44.5 Q39.3 44.8 34.1 44.8 L34.1 44.8 Q43.4 49 43.4 58.1 L43.4 58.1 Q43.4 66 38 71 Q32.6 76 23.3 76 L23.3 76 Q19.7 76 16.6 75 L16.6 75 Q15.4 75.8 14.7 77.15 Q14 78.5 14 79.9 L14 79.9 Q14 84.2 20.9 84.2 L20.9 84.2 L29.3 84.2 Q34.6 84.2 38.7 86.1 Q42.8 88 45.05 91.3 Q47.3 94.6 47.3 98.8 L47.3 98.8 Q47.3 106.5 41 110.65 Q34.7 114.8 22.6 114.8 L22.6 114.8 Q14.1 114.8 9.15 113.05 Q4.2 111.3 2.1 107.8 Q0 104.3 0 98.8 L0 98.8 L8.3 98.8 Q8.3 102 9.5 103.85 Q10.7 105.7 13.8 106.65 Q16.9 107.6 22.6 107.6 L22.6 107.6 Q30.9 107.6 34.45 105.55 Q38 103.5 38 99.4 L38 99.4 Q38 95.7 35.2 93.8 Q32.4 91.9 27.4 91.9 L27.4 91.9 L19.1 91.9 Q12.4 91.9 8.95 89.05 Q5.5 86.2 5.5 81.9 L5.5 81.9 Q5.5 79.3 7 76.9 Q8.5 74.5 11.3 72.6 L11.3 72.6 Q6.7 70.2 4.55 66.65 Q2.4 63.1 2.4 58 L2.4 58 Q2.4 52.7 5.05 48.5 Q7.7 44.3 12.35 41.95 Q17 39.6 22.7 39.6 L22.7 39.6 Q28.9 39.7 33.1 39.15 Q37.3 38.6 40.05 37.65 Q42.8 36.7 46.8 34.9 L46.8 34.9 ZM22.7 46.2 Q17.5 46.2 14.65 49.45 Q11.8 52.7 11.8 58 L11.8 58 Q11.8 63.4 14.7 66.65 Q17.6 69.9 22.9 69.9 L22.9 69.9 Q28.3 69.9 31.15 66.75 Q34 63.6 34 57.9 L34 57.9 Q34 46.2 22.7 46.2 L22.7 46.2 Z </textarea></label>
<svg width="100%" height="100%">
<path id="origPath" fill="indianred" d="" />
</svg>
<p id="fileSizeOrig" class="fileSize"></p>

</section>
<section>
<label>
<svg width="100%" height="100%">
<path id="relativePath" fill="yellowgreen" d="" />
</svg>
<p id="fileSizeRel" class="fileSize"></p>

</section>
<section>
<label>
<svg width="100%" height="100%">
<path id="absolutePath" fill="hsl(180,50%,50%)" d="" />
</svg>
<p id="fileSizeAbs" class="fileSize"></p>

</section>
</div>

</form>
<footer>
<p>Convert path commands to relative and absolute coordinates – using <a href="https://github.com/jarek-foksa/path-data-polyfill">path data polyfill by Jarek Foksa.</a></p>
<p>Forked from original codepen: by <a href="https://codepen.io/leaverou/pen/RmwzKv">Lea Verou</a>
</p> Described in this article: <a href="https://lea.verou.me/2019/05/utility-convert-svg-path-to-all-relative-or-all-absolute-commands/">Utility: Convert SVG path to all-relative or all-absolute commands </a></p>
</footer>

<script src="https://cdn.jsdelivr.net/npm/[email protected]/path-data-polyfill.min.js"></script>

<script>
let decimals = parseFloat(precision.value);
let inputs = document.querySelectorAll('.input');
let svgs = document.querySelectorAll('svg');
inputs.forEach(input => {
})
})

decimals = parseFloat(precision.value);
let d = origPathT.value;
origPath.setAttribute('d', d);
let pathData = origPath.getPathData();
let sizeOrig = filesize(d);
fileSizeOrig.textContent = sizeOrig + ' KB';
// relative
let pathDataRel = pathDataToRelative(pathData, decimals);
relativePath.setPathData(pathDataRel);
relPathT.value = relativePath.getAttribute('d');
let sizeRel = filesize(relPathT.value);
fileSizeRel.textContent = sizeRel + ' KB';
// absolute
let pathDataAbs = pathDataToAbsolute(pathData, decimals);
absolutePath.setPathData(pathDataAbs);
absPathT.value = absolutePath.getAttribute('d');
let sizeAbs = filesize(absPathT.value);
fileSizeAbs.textContent = sizeAbs + ' KB';
svgs.forEach(svg => {
})
}
})
let bb = svg.getBBox();
let bbVals = [bb.x, bb.y, bb.width, bb.height].map((val) => {
return +val.toFixed(2);
});
let maxBB = Math.max(...bbVals);
let [x, y, width, height] = bbVals;
svg.setAttribute("viewBox", [x, y, width, height].join(" "));
}
// show file size
function filesize(str) {
let size = new Blob([str]).size / Math.pow(1024, 1);
return +size.toFixed(3);
}
</script>``````

Fortunately there's no shortage of svg libraries or web apps providing a conversion method.