ccm/pan-zoom
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Add function for panning programmatically

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Catalin Constantin Mititiuc 2025-06-16 23:25:25 -07:00
parent 3b505f69b4
commit 0e1c2d3919
3 changed files with 78 additions and 46 deletions
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2
index.js
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@ -1,2 +1,2 @@
export { default as pan } from './src/modules/pan.js'; export { default as pan, programmaticPan } from './src/modules/pan.js';
export { default as zoom } from './src/modules/zoom.js'; export { default as zoom } from './src/modules/zoom.js';

73
src/modules/pan.js
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@ -2,11 +2,15 @@ import getComputedTransformMatrix from './utils.js';
const minDistanceThreshold = 5; const minDistanceThreshold = 5;
function mainButtonPressed(e) {
return e.button === 0;
}
function distanceBetween({ x: x1, y: y1 }, { x: x2, y: y2 }) { function distanceBetween({ x: x1, y: y1 }, { x: x2, y: y2 }) {
return Math.sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2); return Math.sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2);
} }
function minDistanceThresholdIsMet(startPt, endPt) { function exceedsMinDistanceThreshhold(startPt, endPt) {
return distanceBetween(startPt, endPt) >= minDistanceThreshold; return distanceBetween(startPt, endPt) >= minDistanceThreshold;
} }
@ -20,45 +24,68 @@ function getTranslateMatrix(startPt, movePt) {
return translateMatrix.translate(movePt.x - startPt.x, movePt.y - startPt.y); return translateMatrix.translate(movePt.x - startPt.x, movePt.y - startPt.y);
} }
export default function (svg, el, e) { function getTransformMatrices(el) {
e.preventDefault(); return {
computed: getComputedTransformMatrix(el),
inverseScreen: el.getScreenCTM().inverse()
};
}
const mtx = getComputedTransformMatrix(el), function clientToSvgPt({ clientX, clientY }, { inverseScreen }, pt = new DOMPoint()) {
inverseScreenCTM = el.getScreenCTM().inverse(); pt.x = clientX;
pt.y = clientY;
return pt.matrixTransform(inverseScreen);
}
let startPt = new DOMPoint(e.clientX, e.clientY), function setPanTransform(el, { computed }, startPt, endPt) {
movePt = new DOMPoint(), el.style.transform = computed.multiply(getTranslateMatrix(startPt, endPt));
isPanning = false; }
export function programmaticPan(el, from, to) {
const matrices = getTransformMatrices(el);
const startPt = clientToSvgPt(from, matrices);
const endPt = clientToSvgPt(to, matrices);
el.style.transition = 'transform 0.5s';
setPanTransform(el, matrices, startPt, endPt);
el.addEventListener('transitionend', () => el.style.transition = '', { once: true });
}
export default function (el) {
let matrices, startPt, movePt, isPanning;
function pointerMove(e) { function pointerMove(e) {
movePt.x = e.clientX; movePt.x = e.clientX;
movePt.y = e.clientY; movePt.y = e.clientY;
if (!isPanning && minDistanceThresholdIsMet(startPt, movePt)) { if (!isPanning && exceedsMinDistanceThreshhold(startPt, movePt)) {
isPanning = true; isPanning = true;
e.target.setPointerCapture(e.pointerId); startPt = clientToSvgPt(e, matrices, startPt);
startPt.x = e.clientX;
startPt.y = e.clientY;
startPt = startPt.matrixTransform(inverseScreenCTM);
stopEventPropagationToChildren(el, 'click'); stopEventPropagationToChildren(el, 'click');
} }
if (isPanning) { if (isPanning) {
movePt.x = e.clientX; movePt = clientToSvgPt(e, matrices, movePt);
movePt.y = e.clientY; setPanTransform(el, matrices, startPt, movePt);
movePt = movePt.matrixTransform(inverseScreenCTM);
el.style.transform = mtx.multiply(getTranslateMatrix(startPt, movePt));
} }
} }
svg.addEventListener('pointermove', pointerMove); return function(e) {
if (!mainButtonPressed(e)) return;
e.preventDefault();
e.target.setPointerCapture(e.pointerId);
svg.addEventListener( isPanning = false;
matrices = getTransformMatrices(el);
startPt = new DOMPoint(e.clientX, e.clientY);
movePt = new DOMPoint();
this.addEventListener('pointermove', pointerMove);
this.addEventListener(
'pointerup', 'pointerup',
() => svg.removeEventListener('pointermove', pointerMove), () => this.removeEventListener('pointermove', pointerMove),
{ once: true } { once: true }
); );
} }
}

39
src/modules/zoom.js
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@ -5,14 +5,17 @@ function zoomIn(deltaY) {
} }
function getScale(e, factor) { function getScale(e, factor) {
return zoomIn(e.deltaY) ? 1 + factor : 1 - factor; const outMult = 1 - factor;
const inMult = 1 + factor / outMult
return zoomIn(e.deltaY) ? inMult : outMult;
} }
function getFocalPointBeforeTransform(el, e, inverseScreenCTM) { function getFocalPointBeforeTransform(el, e, inverseScreenCTM) {
const { x, y, width, height } = el.getBoundingClientRect(), const { x, y, width, height } = el.getBoundingClientRect();
pointer = (new DOMPoint(e.clientX, e.clientY)).matrixTransform(inverseScreenCTM), const pointer = (new DOMPoint(e.clientX, e.clientY)).matrixTransform(inverseScreenCTM);
origin = (new DOMPoint(x, y)).matrixTransform(inverseScreenCTM), const origin = (new DOMPoint(x, y)).matrixTransform(inverseScreenCTM);
terminus = (new DOMPoint(x + width, y + height)).matrixTransform(inverseScreenCTM); const terminus = (new DOMPoint(x + width, y + height)).matrixTransform(inverseScreenCTM);
return { return {
x: pointer.x, x: pointer.x,
@ -25,10 +28,10 @@ function getFocalPointBeforeTransform(el, e, inverseScreenCTM) {
} }
function getFocalPointAfterTransform(el, fpBeforeTrans, inverseScreenCTM) { function getFocalPointAfterTransform(el, fpBeforeTrans, inverseScreenCTM) {
const { x, y, width, height } = el.getBoundingClientRect(), const { x, y, width, height } = el.getBoundingClientRect();
origin = (new DOMPoint(x, y)).matrixTransform(inverseScreenCTM), const origin = (new DOMPoint(x, y)).matrixTransform(inverseScreenCTM);
terminus = (new DOMPoint(x + width, y + height)).matrixTransform(inverseScreenCTM), const terminus = (new DOMPoint(x + width, y + height)).matrixTransform(inverseScreenCTM);
relativeFocalPoint = fpBeforeTrans.relativeToImageSize; const relativeFocalPoint = fpBeforeTrans.relativeToImageSize;
return { return {
x: origin.x + (terminus.x - origin.x) * relativeFocalPoint.x, x: origin.x + (terminus.x - origin.x) * relativeFocalPoint.x,
@ -37,13 +40,13 @@ function getFocalPointAfterTransform(el, fpBeforeTrans, inverseScreenCTM) {
} }
function getTranslateMatrix(el, e, scaleMatrix) { function getTranslateMatrix(el, e, scaleMatrix) {
const inverseScreenCTM = el.getScreenCTM().inverse(), const inverseScreenCTM = el.getScreenCTM().inverse();
fpBeforeTrans = getFocalPointBeforeTransform(el, e, inverseScreenCTM); const fpBeforeTrans = getFocalPointBeforeTransform(el, e, inverseScreenCTM);
el.style.transform = scaleMatrix; el.style.transform = scaleMatrix;
const fpAfterTrans = getFocalPointAfterTransform(el, fpBeforeTrans, inverseScreenCTM), const fpAfterTrans = getFocalPointAfterTransform(el, fpBeforeTrans, inverseScreenCTM);
translateMatrix = new DOMMatrix(); const translateMatrix = new DOMMatrix();
return translateMatrix.translate( return translateMatrix.translate(
fpBeforeTrans.x - fpAfterTrans.x, fpBeforeTrans.x - fpAfterTrans.x,
@ -51,12 +54,14 @@ function getTranslateMatrix(el, e, scaleMatrix) {
); );
} }
export default function (el, e, factor = 0.1) { export default function (el, factor = 0.1) {
return e => {
e.preventDefault(); e.preventDefault();
const mtx = getComputedTransformMatrix(el), const mtx = getComputedTransformMatrix(el);
scale = getScale(e, factor), const scale = getScale(e, factor);
transMtx = getTranslateMatrix(el, e, mtx.scale(scale)); const transMtx = getTranslateMatrix(el, e, mtx.scale(scale));
el.style.transform = mtx.multiply(transMtx).scale(scale); el.style.transform = mtx.multiply(transMtx).scale(scale);
} }
}