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...

41 Commits

Author SHA1 Message Date
Ryan Di e98e2cccb8 lint 2026-04-28 21:21:55 +10:00
Ryan Di 8424d78254 fix(line-snap): prefer bindable targets over external snaps 2026-04-28 21:16:32 +10:00
Ryan Di 8763bebb59 perf(line-snap): reuse scene elements while snapping linear points 2026-04-28 21:07:11 +10:00
Ryan Di 483a225eac refactor(line-snap): rename axis snap helpers 2026-04-28 21:06:46 +10:00
Ryan Di 79e802d9ed perf(snapping): reduce line point snap scanning 2026-04-28 17:06:54 +10:00
Ryan Di 309849925d Revert "refactor(linear): split point snapping helpers"
This reverts commit 702e029755.
2026-04-28 16:22:49 +10:00
Ryan Di 971237c0df Revert "refactor(snapping): clarify linear point reference options"
This reverts commit 79beed3f5c.
2026-04-28 16:22:49 +10:00
Ryan Di 79beed3f5c refactor(snapping): clarify linear point reference options 2026-04-28 16:16:10 +10:00
Ryan Di 702e029755 refactor(linear): split point snapping helpers 2026-04-28 16:14:19 +10:00
Ryan Di 0bbaf34187 refactor(app): centralize line snapline state sync 2026-04-28 16:11:43 +10:00
Ryan Di 18febfeaf2 test(linear): cover line snapping interactions 2026-04-28 16:02:13 +10:00
Ryan Di 53557919dd Merge branch 'master' into ryan-di/line-snapping 2026-04-28 15:52:10 +10:00
Márk Tolmács 2e1a529c67 fix(editor): remove extremely large arrows on restore (#11235)
* fix: Temp fix for elbow arrow at restore

Co-authored-by: Copilot <copilot@github.com>
Signed-off-by: Mark Tolmacs <mark@lazycat.hu>

* fix: Speculative fixes to avoid Infinity

Co-authored-by: Copilot <copilot@github.com>
Signed-off-by: Mark Tolmacs <mark@lazycat.hu>

* validate/remove arrow size after point normalization & move binding repairs back

* validate even simple arrows

* remove x/y check

* remove duplicate constant

---------

Signed-off-by: Mark Tolmacs <mark@lazycat.hu>
Co-authored-by: Copilot <copilot@github.com>
Co-authored-by: dwelle <5153846+dwelle@users.noreply.github.com>
2026-04-25 12:03:50 +02:00
David Luzar b1c6bfcf40 chore(docker): bump node (#11208) 2026-04-20 22:07:00 +02:00
Tom Louveau 1caec99b29 docs: change twitter label by X (#11158)
Co-authored-by: David Luzar <5153846+dwelle@users.noreply.github.com>
2026-04-13 10:30:58 +02:00
Nand Gopal Sharma e18c1dd213 Fix typo in Discord badge URL parameter (#11096) 2026-04-02 10:37:02 +02:00
David Luzar d9e8a33aa4 feat(editor): implement overlap box selection (#11053)
Co-authored-by: Mark Tolmacs <mark@lazycat.hu>
2026-04-01 18:41:11 +02:00
dagecko 4be4cc0ed0 fix: pin 9 actions to commit SHA (#11075) 2026-03-30 16:49:27 +02:00
David Luzar 4a5c9e990c fix(editor): ensure font picker font names are not quoted (#11036) 2026-03-25 17:56:48 +01:00
David Luzar c09e170bdd feat(editor): deselect on esc (#11035)
Co-authored-by: Jawahar <jawahars_16@live.in>
Co-authored-by: Andrew Aquino <dawneraq@gmail.com>
2026-03-25 17:14:24 +01:00
David Luzar c1082923ee feat(editor): support mermaid staate diagrams (#11031) 2026-03-24 20:20:28 +01:00
Kundan 1c292e4936 fix(math): correctly validate second point in isLineSegment (#11007)
Co-authored-by: Mark Tolmacs <mark@lazycat.hu>
2026-03-24 19:01:08 +01:00
Márk Tolmács d6f0f34fe9 fix: Rotated rounded arrow center point (#10962) 2026-03-23 15:54:59 +01:00
Márk Tolmács 75789f620d fix: Other endpoint is not immediately updated on midpoint snap (#10933)
Co-authored-by: dwelle <5153846+dwelle@users.noreply.github.com>
2026-03-23 14:54:44 +00:00
David Luzar a9ca16eb42 chore(packages/excalidraw): export Fonts helper class (#11008) 2026-03-21 22:44:27 +01:00
Márk Tolmács 987173b52f fix: Arrow point index Out-of-Bounds (#10922)
* fix: Make OOB not fatal

Signed-off-by: Mark Tolmacs <mark@lazycat.hu>

* fix: More conservative temp arrow state update

Signed-off-by: Mark Tolmacs <mark@lazycat.hu>

* chore: Capture condition variables in binding restoration failure

Signed-off-by: Mark Tolmacs <mark@lazycat.hu>

---------

Signed-off-by: Mark Tolmacs <mark@lazycat.hu>
2026-03-21 19:26:47 +01:00
David Luzar 81ab857a6f feat(editor): various text related improvements (#10979) 2026-03-19 16:00:58 +01:00
David Luzar e8b4620a96 feat(editor): put caret at pointer coords when clicking on selected text element (#10970) 2026-03-18 19:14:44 +01:00
David Luzar 2b0e4c9623 fix(editor): remove leftover debug code path (#10954) 2026-03-14 13:12:48 +01:00
Ryan Di 60a459b135 refactor: remove points function from snapping and move to linear editor 2025-08-04 18:04:59 +10:00
Ryan Di 7332e76d56 refactor: simplify code 2025-08-04 13:46:33 +10:00
Ryan Di dceaa53b0c fix: do not snap to pointer when creating 2025-08-04 12:33:49 +10:00
Ryan Di 6e968324fb fix snapshots 2025-08-04 12:09:06 +10:00
dwelle 09b18cacec Merge branch 'master' into ryan-di/line-snapping
# Conflicts:
#	packages/element/src/linearElementEditor.ts
#	packages/element/src/snapping.ts
#	packages/excalidraw/components/App.tsx
2025-07-31 22:42:52 +02:00
Ryan Di 0e197ef5c4 fix: do not snap to each other when moving multiple points together 2025-06-26 17:22:42 +10:00
Ryan Di a0f7edadec test: update snapshots 2025-06-24 21:02:48 +10:00
Ryan Di 58c9bb4712 merge: with master 2025-06-24 21:00:06 +10:00
Ryan Di d1c6304d42 test: update snapshots 2025-06-24 20:41:27 +10:00
Ryan Di c1a54455bb feat: add snapping on top of angle locking when both enabled 2025-06-24 18:37:07 +10:00
Ryan Di 07640dd756 feat: extend line snapping to creation 2025-06-16 20:55:27 +10:00
Ryan Di 5403fa8a0d feat: line snapping 2025-06-13 17:50:06 +10:00
73 changed files with 4317 additions and 502 deletions
+1 -1
View File
@@ -1,4 +1,4 @@
FROM node:18-bullseye
FROM node:24-bullseye
# Vite wants to open the browser using `open`, so we
# need to install those utils.
+1 -1
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@@ -11,7 +11,7 @@ jobs:
runs-on: ubuntu-latest
timeout-minutes: 3
steps:
- uses: styfle/cancel-workflow-action@0.6.0
- uses: styfle/cancel-workflow-action@ce177499ccf9fd2aded3b0426c97e5434c2e8a73 # 0.6.0
with:
workflow_id: 400555, 400556, 905313, 1451724, 1710116, 3185001, 3438604
access_token: ${{ secrets.GITHUB_TOKEN }}
+1 -1
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@@ -40,7 +40,7 @@ jobs:
echo ::set-output name=body::$body
- name: Update description with coverage
uses: kt3k/update-pr-description@v1.0.1
uses: kt3k/update-pr-description@1b35a6dcd84d81aa0bc1889610efdcde7f37b0c0 # v1.0.1
with:
pr_body: ${{ steps.getCommentBody.outputs.body }}
pr_title: "chore: Update translations from Crowdin"
+4 -4
View File
@@ -13,16 +13,16 @@ jobs:
- name: Checkout repository
uses: actions/checkout@v3
- name: Login to DockerHub
uses: docker/login-action@v2
uses: docker/login-action@465a07811f14bebb1938fbed4728c6a1ff8901fc # v2
with:
username: ${{ secrets.DOCKER_USERNAME }}
password: ${{ secrets.DOCKER_PASSWORD }}
- name: Set up QEMU
uses: docker/setup-qemu-action@v3
uses: docker/setup-qemu-action@c7c53464625b32c7a7e944ae62b3e17d2b600130 # v3
- name: Set up Docker Buildx
uses: docker/setup-buildx-action@v3
uses: docker/setup-buildx-action@8d2750c68a42422c14e847fe6c8ac0403b4cbd6f # v3
- name: Build and push
uses: docker/build-push-action@v5
uses: docker/build-push-action@ca052bb54ab0790a636c9b5f226502c73d547a25 # v5
with:
context: .
push: true
+1 -1
View File
@@ -11,6 +11,6 @@ jobs:
semantic:
runs-on: ubuntu-latest
steps:
- uses: amannn/action-semantic-pull-request@v5
- uses: amannn/action-semantic-pull-request@e32d7e603df1aa1ba07e981f2a23455dee596825 # v5
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
+1 -1
View File
@@ -20,7 +20,7 @@ jobs:
working-directory: packages/excalidraw
env:
CI: true
- uses: andresz1/size-limit-action@v1
- uses: andresz1/size-limit-action@e7493a72a44b113341c0cf6186ab49c17c4b65c1 # v1
with:
github_token: ${{ secrets.GITHUB_TOKEN }}
build_script: build:esm
+1 -1
View File
@@ -21,6 +21,6 @@ jobs:
run: yarn test:coverage
- name: "Report Coverage"
if: always() # Also generate the report if tests are failing
uses: davelosert/vitest-coverage-report-action@v2
uses: davelosert/vitest-coverage-report-action@2500dafcee7dd64f85ab689c0b83798a8359770e # v2
with:
github-token: ${{ secrets.GITHUB_TOKEN }}
+2 -2
View File
@@ -1,4 +1,4 @@
FROM --platform=${BUILDPLATFORM} node:18 AS build
FROM --platform=${BUILDPLATFORM} node:24 AS build
WORKDIR /opt/node_app
@@ -13,7 +13,7 @@ ARG NODE_ENV=production
RUN npm_config_target_arch=${TARGETARCH} yarn build:app:docker
FROM --platform=${TARGETPLATFORM} nginx:1.27-alpine
FROM nginx:1.27-alpine
COPY --from=build /opt/node_app/excalidraw-app/build /usr/share/nginx/html
+1 -1
View File
@@ -29,7 +29,7 @@
<a href="https://docs.excalidraw.com/docs/introduction/contributing">
<img alt="PRs welcome!" src="https://img.shields.io/badge/PRs-welcome-brightgreen.svg?style=flat" /></a>
<a href="https://discord.gg/UexuTaE">
<img alt="Chat on Discord" src="https://img.shields.io/discord/723672430744174682?color=738ad6&label=Chat%20on%20Discord&logo=discord&logoColor=ffffff&widge=false"/></a>
<img alt="Chat on Discord" src="https://img.shields.io/discord/723672430744174682?color=738ad6&label=Chat%20on%20Discord&logo=discord&logoColor=ffffff&widget=false"/></a>
<a href="https://deepwiki.com/excalidraw/excalidraw">
<img alt="Ask DeepWiki" src="https://deepwiki.com/badge.svg" /></a>
<a href="https://twitter.com/excalidraw">
+2 -2
View File
@@ -97,8 +97,8 @@ const config = {
href: "https://discord.gg/UexuTaE",
},
{
label: "Twitter",
href: "https://twitter.com/excalidraw",
label: "𝕏",
href: "https://x.com/excalidraw",
},
{
label: "Linkedin",
+6 -4
View File
@@ -1943,9 +1943,9 @@ export const calculateFixedPointForElbowArrowBinding = (
return {
fixedPoint: normalizeFixedPoint([
(nonRotatedSnappedGlobalPoint[0] - hoveredElement.x) /
hoveredElement.width,
Math.max(hoveredElement.width, PRECISION),
(nonRotatedSnappedGlobalPoint[1] - hoveredElement.y) /
hoveredElement.height,
Math.max(hoveredElement.height, PRECISION),
]),
};
};
@@ -1976,9 +1976,11 @@ export const calculateFixedPointForNonElbowArrowBinding = (
// Calculate the ratio relative to the element's bounds
const fixedPointX =
(nonRotatedPoint[0] - hoveredElement.x) / hoveredElement.width;
(nonRotatedPoint[0] - hoveredElement.x) /
Math.max(hoveredElement.width, PRECISION);
const fixedPointY =
(nonRotatedPoint[1] - hoveredElement.y) / hoveredElement.height;
(nonRotatedPoint[1] - hoveredElement.y) /
Math.max(hoveredElement.height, PRECISION);
return {
fixedPoint: normalizeFixedPoint([fixedPointX, fixedPointY]),
+24 -4
View File
@@ -680,8 +680,9 @@ export const getMinMaxXYFromCurvePathOps = (
return [minX, minY, maxX, maxY];
};
export const getBoundsFromPoints = (
points: ExcalidrawFreeDrawElement["points"],
export const getBoundsFromPoints = <P extends GlobalPoint | LocalPoint>(
points: readonly P[],
padding: number = 0,
): Bounds => {
let minX = Infinity;
let minY = Infinity;
@@ -695,7 +696,7 @@ export const getBoundsFromPoints = (
maxY = Math.max(maxY, y);
}
return [minX, minY, maxX, maxY];
return [minX - padding, minY - padding, maxX + padding, maxY + padding];
};
const getFreeDrawElementAbsoluteCoords = (
@@ -1261,6 +1262,17 @@ export const pointInsideBounds = <P extends GlobalPoint | LocalPoint>(
): boolean =>
p[0] > bounds[0] && p[0] < bounds[2] && p[1] > bounds[1] && p[1] < bounds[3];
// TODO make pointInsideBounds inclusive and remove this function once we
// test nothing is breaking
export const pointInsideBoundsInclusive = <P extends GlobalPoint | LocalPoint>(
p: P,
bounds: Bounds,
): boolean =>
p[0] >= bounds[0] &&
p[0] <= bounds[2] &&
p[1] >= bounds[1] &&
p[1] <= bounds[3];
export const doBoundsIntersect = (
bounds1: Bounds | null,
bounds2: Bounds | null,
@@ -1275,13 +1287,21 @@ export const doBoundsIntersect = (
return minX1 < maxX2 && maxX1 > minX2 && minY1 < maxY2 && maxY1 > minY2;
};
export const boundsContainBounds = (outerBounds: Bounds, innerBounds: Bounds) =>
[
pointFrom<GlobalPoint>(innerBounds[0], innerBounds[1]),
pointFrom<GlobalPoint>(innerBounds[0], innerBounds[3]),
pointFrom<GlobalPoint>(innerBounds[2], innerBounds[1]),
pointFrom<GlobalPoint>(innerBounds[2], innerBounds[3]),
].every((point) => pointInsideBoundsInclusive(point, outerBounds));
export const elementCenterPoint = (
element: ExcalidrawElement,
elementsMap: ElementsMap,
xOffset: number = 0,
yOffset: number = 0,
) => {
if (isLinearElement(element)) {
if (isLinearElement(element) || isFreeDrawElement(element)) {
const [x1, y1, x2, y2] = getElementAbsoluteCoords(element, elementsMap);
const [x, y] = pointFrom<GlobalPoint>((x1 + x2) / 2, (y1 + y2) / 2);
+39 -17
View File
@@ -154,14 +154,11 @@ export const hitElementItself = ({
// Hit test against the extended, rotated bounding box of the element first
const bounds = getElementBounds(element, elementsMap, true);
const hitBounds = isPointWithinBounds(
pointFrom(bounds[0] - threshold, bounds[1] - threshold),
pointRotateRads(
point,
getCenterForBounds(bounds),
-element.angle as Radians,
),
pointFrom(bounds[2] + threshold, bounds[3] + threshold),
const hitBounds = isPointInRotatedBounds(
point,
bounds,
element.angle,
threshold,
);
// PERF: Bail out early if the point is not even in the
@@ -192,18 +189,32 @@ export const hitElementItself = ({
return result;
};
const isPointInRotatedBounds = (
point: GlobalPoint,
bounds: Bounds,
angle: Radians,
tolerance = 0,
) => {
const adjustedPoint =
angle === 0
? point
: pointRotateRads(point, getCenterForBounds(bounds), -angle as Radians);
return isPointWithinBounds(
pointFrom(bounds[0] - tolerance, bounds[1] - tolerance),
adjustedPoint,
pointFrom(bounds[2] + tolerance, bounds[3] + tolerance),
);
};
export const hitElementBoundingBox = (
point: GlobalPoint,
element: ExcalidrawElement,
elementsMap: ElementsMap,
tolerance = 0,
) => {
let [x1, y1, x2, y2] = getElementBounds(element, elementsMap);
x1 -= tolerance;
y1 -= tolerance;
x2 += tolerance;
y2 += tolerance;
return isPointWithinBounds(pointFrom(x1, y1), point, pointFrom(x2, y2));
const bounds = getElementBounds(element, elementsMap, true);
return isPointInRotatedBounds(point, bounds, element.angle, tolerance);
};
export const hitElementBoundingBoxOnly = (
@@ -465,7 +476,12 @@ export const intersectElementWithLineSegment = (
case "line":
case "freedraw":
case "arrow":
return intersectLinearOrFreeDrawWithLineSegment(element, line, onlyFirst);
return intersectLinearOrFreeDrawWithLineSegment(
element,
line,
elementsMap,
onlyFirst,
);
}
};
@@ -532,11 +548,15 @@ const lineIntersections = (
const intersectLinearOrFreeDrawWithLineSegment = (
element: ExcalidrawLinearElement | ExcalidrawFreeDrawElement,
segment: LineSegment<GlobalPoint>,
elementsMap: ElementsMap,
onlyFirst = false,
): GlobalPoint[] => {
// NOTE: This is the only one which return the decomposed elements
// rotated! This is due to taking advantage of roughjs definitions.
const [lines, curves] = deconstructLinearOrFreeDrawElement(element);
const [lines, curves] = deconstructLinearOrFreeDrawElement(
element,
elementsMap,
);
const intersections: GlobalPoint[] = [];
for (const l of lines) {
@@ -564,7 +584,9 @@ const intersectLinearOrFreeDrawWithLineSegment = (
continue;
}
const hits = curveIntersectLineSegment(c, segment);
const hits = curveIntersectLineSegment(c, segment, {
iterLimit: 10,
});
if (hits.length > 0) {
intersections.push(...hits);
+6 -2
View File
@@ -48,7 +48,7 @@ export const distanceToElement = (
case "line":
case "arrow":
case "freedraw":
return distanceToLinearOrFreeDraElement(element, p);
return distanceToLinearOrFreeDraElement(element, elementsMap, p);
}
};
@@ -133,9 +133,13 @@ const distanceToEllipseElement = (
const distanceToLinearOrFreeDraElement = (
element: ExcalidrawLinearElement | ExcalidrawFreeDrawElement,
elementsMap: ElementsMap,
p: GlobalPoint,
) => {
const [lines, curves] = deconstructLinearOrFreeDrawElement(element);
const [lines, curves] = deconstructLinearOrFreeDrawElement(
element,
elementsMap,
);
return Math.min(
...lines.map((s) => distanceToLineSegment(p, s)),
...curves.map((a) => curvePointDistance(a, p)),
+2 -2
View File
@@ -2124,8 +2124,8 @@ const normalizeArrowElementUpdate = (
offsetY < -MAX_POS ||
offsetY > MAX_POS ||
offsetX + points[points.length - 1][0] < -MAX_POS ||
offsetY + points[points.length - 1][0] > MAX_POS ||
offsetX + points[points.length - 1][1] < -MAX_POS ||
offsetX + points[points.length - 1][0] > MAX_POS ||
offsetY + points[points.length - 1][1] < -MAX_POS ||
offsetY + points[points.length - 1][1] > MAX_POS
) {
console.error(
+11 -9
View File
@@ -1,7 +1,6 @@
import { arrayToMap } from "@excalidraw/common";
import { isPointWithinBounds, pointFrom } from "@excalidraw/math";
import { doLineSegmentsIntersect } from "@excalidraw/utils/bbox";
import { elementsOverlappingBBox } from "@excalidraw/utils/withinBounds";
import type {
AppClassProperties,
@@ -18,6 +17,8 @@ import {
getElementLineSegments,
getCommonBounds,
getElementAbsoluteCoords,
doBoundsIntersect,
getElementBounds,
} from "./bounds";
import { mutateElement } from "./mutateElement";
import { getBoundTextElement, getContainerElement } from "./textElement";
@@ -920,16 +921,17 @@ export const getFrameLikeTitle = (element: ExcalidrawFrameLikeElement) => {
export const getElementsOverlappingFrame = (
elements: readonly ExcalidrawElement[],
frame: ExcalidrawFrameLikeElement,
elementsMap: ElementsMap,
) => {
return (
elementsOverlappingBBox({
elements,
bounds: frame,
type: "overlap",
})
// removes elements who are overlapping, but are in a different frame,
return elements.filter(
(el) =>
// exclude elements which are overlapping, but are in a different frame,
// and thus invisible in target frame
.filter((el) => !el.frameId || el.frameId === frame.id)
(!el.frameId || el.frameId === frame.id) &&
doBoundsIntersect(
getElementBounds(el, elementsMap),
getElementBounds(frame, elementsMap),
),
);
};
+1
View File
@@ -88,6 +88,7 @@ export * from "./selection";
export * from "./shape";
export * from "./showSelectedShapeActions";
export * from "./sizeHelpers";
export * from "./snapping";
export * from "./sortElements";
export * from "./store";
export * from "./textElement";
+382 -106
View File
@@ -7,6 +7,7 @@ import {
type LocalPoint,
pointDistance,
vectorFromPoint,
line,
curveLength,
curvePointAtLength,
} from "@excalidraw/math";
@@ -29,6 +30,9 @@ import {
isPathALoop,
moveArrowAboveBindable,
projectFixedPointOntoDiagonal,
snapLinearElementPoint,
snapToDiscreteAngle,
type SnapLine,
type Store,
} from "@excalidraw/element";
@@ -48,6 +52,7 @@ import {
calculateFixedPointForNonElbowArrowBinding,
getBindingStrategyForDraggingBindingElementEndpoints,
isBindingEnabled,
maxBindingDistance_simple,
snapToMid,
updateBoundPoint,
} from "./binding";
@@ -56,6 +61,7 @@ import {
getElementPointsCoords,
getMinMaxXYFromCurvePathOps,
} from "./bounds";
import { getHoveredElementForBinding } from "./collision";
import { headingIsHorizontal, vectorToHeading } from "./heading";
import { mutateElement } from "./mutateElement";
@@ -294,7 +300,10 @@ export class LinearElementEditor {
scenePointerX: number,
scenePointerY: number,
linearElementEditor: LinearElementEditor,
): Pick<AppState, "suggestedBinding" | "selectedLinearElement"> | null {
): Pick<
AppState,
"suggestedBinding" | "selectedLinearElement" | "snapLines"
> | null {
const elementsMap = app.scene.getNonDeletedElementsMap();
const elements = app.scene.getNonDeletedElements();
const { elementId } = linearElementEditor;
@@ -311,36 +320,26 @@ export class LinearElementEditor {
linearElementEditor.customLineAngle ??
determineCustomLinearAngle(pivotPoint, element.points[idx]);
// Determine if point movement should happen and how much
let deltaX = 0;
let deltaY = 0;
if (shouldRotateWithDiscreteAngle(event)) {
const [width, height] = LinearElementEditor._getShiftLockedDelta(
element,
const { point: newDraggingPointPosition, snapLines } =
LinearElementEditor._getSnappedPointForLinearElement({
app,
event,
elements,
elementsMap,
pivotPoint,
pointFrom(scenePointerX, scenePointerY),
event[KEYS.CTRL_OR_CMD] ? null : app.getEffectiveGridSize(),
element,
pointIndex: idx,
scenePointerX,
scenePointerY,
pointerOffset: linearElementEditor.pointerOffset,
referencePoint: shouldRotateWithDiscreteAngle(event)
? pivotPoint
: null,
selectedPointsIndices: [idx],
customLineAngle,
);
const target = pointFrom<LocalPoint>(
width + pivotPoint[0],
height + pivotPoint[1],
);
});
deltaX = target[0] - point[0];
deltaY = target[1] - point[1];
} else {
const newDraggingPointPosition = LinearElementEditor.createPointAt(
element,
elementsMap,
scenePointerX - linearElementEditor.pointerOffset.x,
scenePointerY - linearElementEditor.pointerOffset.y,
event[KEYS.CTRL_OR_CMD] ? null : app.getEffectiveGridSize(),
);
deltaX = newDraggingPointPosition[0] - point[0];
deltaY = newDraggingPointPosition[1] - point[1];
}
const deltaX = newDraggingPointPosition[0] - point[0];
const deltaY = newDraggingPointPosition[1] - point[1];
// Apply the point movement if needed
let suggestedBinding: AppState["suggestedBinding"] = null;
@@ -398,6 +397,8 @@ export class LinearElementEditor {
// PERF: Avoid state updates if not absolutely necessary
if (
app.state.selectedLinearElement?.customLineAngle === customLineAngle &&
app.state.snapLines.length === 0 &&
snapLines.length === 0 &&
linearElementEditor.initialState.altFocusPoint &&
(!suggestedBinding ||
isShallowEqual(app.state.suggestedBinding ?? [], suggestedBinding))
@@ -436,6 +437,7 @@ export class LinearElementEditor {
return {
selectedLinearElement: newLinearElementEditor,
suggestedBinding,
snapLines,
};
}
@@ -445,7 +447,10 @@ export class LinearElementEditor {
scenePointerX: number,
scenePointerY: number,
linearElementEditor: LinearElementEditor,
): Pick<AppState, "suggestedBinding" | "selectedLinearElement"> | null {
): Pick<
AppState,
"suggestedBinding" | "selectedLinearElement" | "snapLines"
> | null {
const elementsMap = app.scene.getNonDeletedElementsMap();
const elements = app.scene.getNonDeletedElements();
const { elbowed, elementId, initialState } = linearElementEditor;
@@ -476,18 +481,23 @@ export class LinearElementEditor {
});
}
invariant(
lastClickedPoint > -1 &&
selectedPointsIndices.includes(lastClickedPoint) &&
element.points[lastClickedPoint],
`There must be a valid lastClickedPoint in order to drag it. selectedPointsIndices(${JSON.stringify(
selectedPointsIndices,
)}) points(0..${
element.points.length - 1
}) lastClickedPoint(${lastClickedPoint})`,
);
if (
lastClickedPoint < 0 ||
!selectedPointsIndices.includes(lastClickedPoint) ||
!element.points[lastClickedPoint]
) {
console.error(
`There must be a valid lastClickedPoint in order to drag it. selectedPointsIndices(${JSON.stringify(
selectedPointsIndices,
)}) points(0..${
element.points.length - 1
}) lastClickedPoint(${lastClickedPoint})`,
);
// Fall back to the actual last point as a last resort.
lastClickedPoint = element.points.length - 1;
}
// point that's being dragged (out of all selected points)
const draggingPoint = element.points[lastClickedPoint];
// The adjacent point to the one dragged point
const pivotPoint =
@@ -501,35 +511,27 @@ export class LinearElementEditor {
element.points.length - 1,
);
// Determine if point movement should happen and how much
let deltaX = 0;
let deltaY = 0;
if (shouldRotateWithDiscreteAngle(event) && singlePointDragged) {
const [width, height] = LinearElementEditor._getShiftLockedDelta(
element,
const { point: newDraggingPointPosition, snapLines } =
LinearElementEditor._getSnappedPointForLinearElement({
app,
event,
elements,
elementsMap,
pivotPoint,
pointFrom(scenePointerX, scenePointerY),
event[KEYS.CTRL_OR_CMD] ? null : app.getEffectiveGridSize(),
element,
pointIndex: lastClickedPoint,
scenePointerX,
scenePointerY,
pointerOffset: linearElementEditor.pointerOffset,
referencePoint:
shouldRotateWithDiscreteAngle(event) && singlePointDragged
? pivotPoint
: null,
selectedPointsIndices,
customLineAngle,
);
const target = pointFrom<LocalPoint>(
width + pivotPoint[0],
height + pivotPoint[1],
);
deltaX = target[0] - draggingPoint[0];
deltaY = target[1] - draggingPoint[1];
} else {
const newDraggingPointPosition = LinearElementEditor.createPointAt(
element,
elementsMap,
scenePointerX - linearElementEditor.pointerOffset.x,
scenePointerY - linearElementEditor.pointerOffset.y,
event[KEYS.CTRL_OR_CMD] ? null : app.getEffectiveGridSize(),
);
deltaX = newDraggingPointPosition[0] - draggingPoint[0];
deltaY = newDraggingPointPosition[1] - draggingPoint[1];
}
});
const deltaX = newDraggingPointPosition[0] - draggingPoint[0];
const deltaY = newDraggingPointPosition[1] - draggingPoint[1];
// Apply the point movement if needed
let suggestedBinding: AppState["suggestedBinding"] = null;
@@ -668,6 +670,7 @@ export class LinearElementEditor {
return {
selectedLinearElement: newLinearElementEditor,
suggestedBinding,
snapLines,
};
}
@@ -794,6 +797,7 @@ export class LinearElementEditor {
element.points[index + 1],
index,
appState.zoom,
elementsMap,
)
) {
midpoints.push(null);
@@ -803,6 +807,7 @@ export class LinearElementEditor {
const segmentMidPoint = LinearElementEditor.getSegmentMidPoint(
element,
index + 1,
elementsMap,
);
midpoints.push(segmentMidPoint);
index++;
@@ -890,6 +895,7 @@ export class LinearElementEditor {
endPoint: P,
index: number,
zoom: Zoom,
elementsMap: ElementsMap,
) {
if (isElbowArrow(element)) {
if (index >= 0 && index < element.points.length) {
@@ -904,7 +910,10 @@ export class LinearElementEditor {
let distance = pointDistance(startPoint, endPoint);
if (element.points.length > 2 && element.roundness) {
const [lines, curves] = deconstructLinearOrFreeDrawElement(element);
const [lines, curves] = deconstructLinearOrFreeDrawElement(
element,
elementsMap,
);
invariant(
lines.length === 0 && curves.length > 0,
@@ -924,6 +933,7 @@ export class LinearElementEditor {
static getSegmentMidPoint(
element: NonDeleted<ExcalidrawLinearElement>,
index: number,
elementsMap: ElementsMap,
): GlobalPoint {
if (isElbowArrow(element)) {
invariant(
@@ -936,7 +946,10 @@ export class LinearElementEditor {
return pointFrom<GlobalPoint>(element.x + p[0], element.y + p[1]);
}
const [lines, curves] = deconstructLinearOrFreeDrawElement(element);
const [lines, curves] = deconstructLinearOrFreeDrawElement(
element,
elementsMap,
);
invariant(
(lines.length === 0 && curves.length > 0) ||
@@ -1162,7 +1175,10 @@ export class LinearElementEditor {
scenePointerX: number,
scenePointerY: number,
app: AppClassProperties,
): LinearElementEditor | null {
): {
editingLinearElement: LinearElementEditor;
snapLines: readonly SnapLine[];
} | null {
const appState = app.state;
if (!appState.selectedLinearElement?.isEditing) {
return null;
@@ -1171,7 +1187,10 @@ export class LinearElementEditor {
const elementsMap = app.scene.getNonDeletedElementsMap();
const element = LinearElementEditor.getElement(elementId, elementsMap);
if (!element) {
return appState.selectedLinearElement;
return {
editingLinearElement: appState.selectedLinearElement,
snapLines: appState.snapLines,
};
}
const { points } = element;
@@ -1183,36 +1202,37 @@ export class LinearElementEditor {
}
return appState.selectedLinearElement?.lastUncommittedPoint
? {
...appState.selectedLinearElement,
lastUncommittedPoint: null,
editingLinearElement: {
...appState.selectedLinearElement,
lastUncommittedPoint: null,
},
snapLines: [],
}
: appState.selectedLinearElement;
: {
editingLinearElement: appState.selectedLinearElement,
snapLines: [],
};
}
let newPoint: LocalPoint;
if (shouldRotateWithDiscreteAngle(event) && points.length >= 2) {
const anchor = points[points.length - 2];
const [width, height] = LinearElementEditor._getShiftLockedDelta(
element,
const anchor = points[points.length - 2];
const elements = app.scene.getNonDeletedElements();
const { point: newPoint, snapLines } =
LinearElementEditor._getSnappedPointForLinearElement({
app,
event,
elements,
elementsMap,
anchor,
pointFrom(scenePointerX, scenePointerY),
event[KEYS.CTRL_OR_CMD] ? null : app.getEffectiveGridSize(),
);
newPoint = pointFrom(width + anchor[0], height + anchor[1]);
} else {
newPoint = LinearElementEditor.createPointAt(
element,
elementsMap,
scenePointerX - appState.selectedLinearElement.pointerOffset.x,
scenePointerY - appState.selectedLinearElement.pointerOffset.y,
event[KEYS.CTRL_OR_CMD] || isElbowArrow(element)
? null
: app.getEffectiveGridSize(),
);
}
pointIndex: points.length - 1,
scenePointerX,
scenePointerY,
pointerOffset: appState.selectedLinearElement.pointerOffset,
referencePoint:
shouldRotateWithDiscreteAngle(event) && points.length >= 2
? anchor
: null,
selectedPointsIndices: [points.length - 1],
});
if (lastPoint === lastUncommittedPoint) {
LinearElementEditor.movePoints(
@@ -1220,7 +1240,7 @@ export class LinearElementEditor {
app.scene,
new Map([
[
element.points.length - 1,
points.length - 1,
{
point: newPoint,
},
@@ -1230,9 +1250,13 @@ export class LinearElementEditor {
} else {
LinearElementEditor.addPoints(element, app.scene, [newPoint]);
}
return {
...appState.selectedLinearElement,
lastUncommittedPoint: element.points[element.points.length - 1],
editingLinearElement: {
...appState.selectedLinearElement,
lastUncommittedPoint: element.points[element.points.length - 1],
},
snapLines,
};
}
@@ -1258,18 +1282,53 @@ export class LinearElementEditor {
static getPointsGlobalCoordinates(
element: NonDeleted<ExcalidrawLinearElement>,
elementsMap: ElementsMap,
options: {
dragOffset?: { x: number; y: number };
excludePointsIndices?: readonly number[];
} = {},
): GlobalPoint[] {
const { dragOffset, excludePointsIndices } = options;
if (!element.points || element.points.length === 0) {
return [];
}
const [x1, y1, x2, y2] = getElementAbsoluteCoords(element, elementsMap);
const cx = (x1 + x2) / 2;
const cy = (y1 + y2) / 2;
return element.points.map((p) => {
const { x, y } = element;
return pointRotateRads(
pointFrom(x + p[0], y + p[1]),
let elementX = element.x;
let elementY = element.y;
if (dragOffset) {
elementX += dragOffset.x;
elementY += dragOffset.y;
}
const globalPoints: GlobalPoint[] = [];
for (let i = 0; i < element.points.length; i++) {
// Skip the point being edited if specified
if (
excludePointsIndices?.length &&
excludePointsIndices.find((index) => index === i) !== undefined
) {
continue;
}
const p = element.points[i];
const globalX = elementX + p[0];
const globalY = elementY + p[1];
const rotated = pointRotateRads<GlobalPoint>(
pointFrom(globalX, globalY),
pointFrom(cx, cy),
element.angle,
);
});
globalPoints.push(rotated);
}
return globalPoints;
}
static getPointAtIndexGlobalCoordinates(
@@ -1823,6 +1882,222 @@ export class LinearElementEditor {
);
}
private static _getPointPlacementGridSize(
element: NonDeleted<ExcalidrawLinearElement>,
app: AppClassProperties,
event: Pick<KeyboardEvent | PointerEvent, typeof KEYS.CTRL_OR_CMD>,
): NullableGridSize {
return event[KEYS.CTRL_OR_CMD] || isElbowArrow(element)
? null
: app.getEffectiveGridSize();
}
private static _shouldSkipExternalSnapForBindableTarget({
appState,
elements,
elementsMap,
element,
pointIndex,
scenePoint,
selectedPointsIndices,
}: {
appState: AppState;
elements: readonly Ordered<NonDeletedExcalidrawElement>[];
elementsMap: NonDeletedSceneElementsMap;
element: NonDeleted<ExcalidrawLinearElement>;
pointIndex: number;
scenePoint: GlobalPoint;
selectedPointsIndices?: readonly number[];
}) {
if (
isElbowArrow(element) ||
!isBindingElement(element) ||
!isBindingEnabled(appState) ||
selectedPointsIndices?.length !== 1
) {
return false;
}
if (pointIndex !== 0 && pointIndex !== element.points.length - 1) {
return false;
}
return !!getHoveredElementForBinding(
scenePoint,
elements,
elementsMap,
maxBindingDistance_simple(appState.zoom),
);
}
private static _getSnappedPointForLinearElement({
app,
event,
elements,
elementsMap,
element,
pointIndex,
scenePointerX,
scenePointerY,
pointerOffset,
referencePoint,
selectedPointsIndices,
customLineAngle,
}: {
app: AppClassProperties;
event: PointerEvent | React.PointerEvent<HTMLCanvasElement>;
elements: readonly Ordered<NonDeletedExcalidrawElement>[];
elementsMap: NonDeletedSceneElementsMap;
element: NonDeleted<ExcalidrawLinearElement>;
pointIndex: number;
scenePointerX: number;
scenePointerY: number;
pointerOffset: Readonly<{ x: number; y: number }>;
referencePoint?: LocalPoint | null;
selectedPointsIndices?: readonly number[];
customLineAngle?: number | null;
}): {
point: LocalPoint;
snapLines: SnapLine[];
} {
const gridSize = LinearElementEditor._getPointPlacementGridSize(
element,
app,
event,
);
if (referencePoint) {
const referencePointCoords =
LinearElementEditor.getPointGlobalCoordinates(
element,
referencePoint,
elementsMap,
);
const [gridX, gridY] = getGridPoint(
scenePointerX,
scenePointerY,
gridSize,
);
let { width: dxFromReference, height: dyFromReference } =
getLockedLinearCursorAlignSize(
referencePointCoords[0],
referencePointCoords[1],
gridX,
gridY,
customLineAngle ?? undefined,
);
const effectiveGridX = referencePointCoords[0] + dxFromReference;
const effectiveGridY = referencePointCoords[1] + dyFromReference;
let snapLines: SnapLine[] = [];
const shouldSkipExternalSnap =
LinearElementEditor._shouldSkipExternalSnapForBindableTarget({
appState: app.state,
elements,
elementsMap,
element,
pointIndex,
scenePoint: pointFrom<GlobalPoint>(effectiveGridX, effectiveGridY),
selectedPointsIndices,
});
if (!isElbowArrow(element)) {
const { snapOffset, snapLines: nextSnapLines } = snapLinearElementPoint(
elements,
element,
pointFrom<GlobalPoint>(effectiveGridX, effectiveGridY),
app,
event,
elementsMap,
{
includeExternalPoints: !shouldSkipExternalSnap,
includeSelfPoints: true,
selectedPointsIndices,
},
);
snapLines = nextSnapLines;
if (nextSnapLines.length > 0) {
const result = snapToDiscreteAngle(
nextSnapLines,
line(
pointFrom(effectiveGridX, effectiveGridY),
pointFrom(referencePointCoords[0], referencePointCoords[1]),
),
pointFrom(gridX, gridY),
referencePointCoords,
);
if (result.snapLines.length > 0) {
dxFromReference = result.dxFromReference;
dyFromReference = result.dyFromReference;
snapLines = result.snapLines;
} else {
dxFromReference =
effectiveGridX + snapOffset.x - referencePointCoords[0];
dyFromReference =
effectiveGridY + snapOffset.y - referencePointCoords[1];
}
}
}
const [rotatedX, rotatedY] = pointRotateRads(
pointFrom(dxFromReference, dyFromReference),
pointFrom(0, 0),
-element.angle as Radians,
);
return {
point: pointFrom(
referencePoint[0] + rotatedX,
referencePoint[1] + rotatedY,
),
snapLines,
};
}
const originalPointerX = scenePointerX - pointerOffset.x;
const originalPointerY = scenePointerY - pointerOffset.y;
const shouldSkipExternalSnap =
LinearElementEditor._shouldSkipExternalSnapForBindableTarget({
appState: app.state,
elements,
elementsMap,
element,
pointIndex,
scenePoint: pointFrom<GlobalPoint>(originalPointerX, originalPointerY),
selectedPointsIndices,
});
const { snapOffset, snapLines } = snapLinearElementPoint(
elements,
element,
pointFrom(originalPointerX, originalPointerY),
app,
event,
elementsMap,
{
includeExternalPoints: !shouldSkipExternalSnap,
includeSelfPoints: true,
selectedPointsIndices,
},
);
return {
point: LinearElementEditor.createPointAt(
element,
elementsMap,
originalPointerX + snapOffset.x,
originalPointerY + snapOffset.y,
gridSize,
),
snapLines,
};
}
static getBoundTextElementPosition = (
element: ExcalidrawLinearElement,
boundTextElement: ExcalidrawTextElementWithContainer,
@@ -1851,6 +2126,7 @@ export class LinearElementEditor {
const midSegmentMidpoint = LinearElementEditor.getSegmentMidPoint(
element,
index + 1,
elementsMap,
);
x = midSegmentMidpoint[0] - boundTextElement.width / 2;
@@ -2400,7 +2676,7 @@ const pointDraggingUpdates = (
? nextArrow.points[0]
: endBindable
? updateBoundPoint(
element,
nextArrow,
"endBinding",
nextArrow.endBinding,
endBindable,
@@ -2431,7 +2707,7 @@ const pointDraggingUpdates = (
? endLocalPoint
: startBindable
? updateBoundPoint(
element,
nextArrow,
"startBinding",
nextArrow.startBinding,
startBindable,
+280 -38
View File
@@ -1,33 +1,71 @@
import { arrayToMap, isShallowEqual } from "@excalidraw/common";
import { arrayToMap, isShallowEqual, type Bounds } from "@excalidraw/common";
import {
lineSegment,
pointFrom,
pointRotateRads,
type GlobalPoint,
} from "@excalidraw/math";
import type {
AppState,
BoxSelectionMode,
InteractiveCanvasAppState,
} from "@excalidraw/excalidraw/types";
import { getElementAbsoluteCoords, getElementBounds } from "./bounds";
import {
boundsContainBounds,
doBoundsIntersect,
elementCenterPoint,
getElementAbsoluteCoords,
getElementBounds,
pointInsideBounds,
} from "./bounds";
import { intersectElementWithLineSegment } from "./collision";
import { isElementInViewport } from "./sizeHelpers";
import {
isArrowElement,
isBoundToContainer,
isFrameLikeElement,
isFreeDrawElement,
isLinearElement,
isTextElement,
} from "./typeChecks";
import {
elementOverlapsWithFrame,
getContainingFrame,
getFrameChildren,
isElementIntersectingFrame,
} from "./frame";
import { LinearElementEditor } from "./linearElementEditor";
import { selectGroupsForSelectedElements } from "./groups";
import { getBoundTextElement } from "./textElement";
import type {
ElementsMap,
ElementsMapOrArray,
ExcalidrawElement,
ExcalidrawFrameLikeElement,
NonDeleted,
NonDeletedExcalidrawElement,
} from "./types";
const shouldIgnoreElementFromSelection = (
element: NonDeletedExcalidrawElement,
) => element.locked || isBoundToContainer(element);
const excludeElementsFromFrames = <T extends ExcalidrawElement>(
selectedElements: readonly T[],
framesInSelection: Set<ExcalidrawFrameLikeElement["id"]>,
) => {
return selectedElements.filter((element) => {
if (element.frameId && framesInSelection.has(element.frameId)) {
return false;
}
return true;
});
};
/**
* Frames and their containing elements are not to be selected at the same time.
* Given an array of selected elements, if there are frames and their containing elements
@@ -47,55 +85,243 @@ export const excludeElementsInFramesFromSelection = <
}
});
return selectedElements.filter((element) => {
if (element.frameId && framesInSelection.has(element.frameId)) {
return false;
}
return true;
});
return excludeElementsFromFrames(selectedElements, framesInSelection);
};
export const getElementsWithinSelection = (
elements: readonly NonDeletedExcalidrawElement[],
selection: NonDeletedExcalidrawElement,
elementsMap: ElementsMap,
// TODO remove (this flag is effectively unused AFAIK)
excludeElementsInFrames: boolean = true,
) => {
const [selectionX1, selectionY1, selectionX2, selectionY2] =
boxSelectionMode: BoxSelectionMode = "contain",
): NonDeletedExcalidrawElement[] => {
const [selectionStartX, selectionStartY, selectionEndX, selectionEndY] =
getElementAbsoluteCoords(selection, elementsMap);
const selectionX1 = Math.min(selectionStartX, selectionEndX);
const selectionY1 = Math.min(selectionStartY, selectionEndY);
const selectionX2 = Math.max(selectionStartX, selectionEndX);
const selectionY2 = Math.max(selectionStartY, selectionEndY);
const selectionBounds = [
selectionX1,
selectionY1,
selectionX2,
selectionY2,
] as Bounds;
const selectionEdges = [
lineSegment<GlobalPoint>(
pointFrom(selectionX1, selectionY1),
pointFrom(selectionX2, selectionY1),
),
lineSegment<GlobalPoint>(
pointFrom(selectionX2, selectionY1),
pointFrom(selectionX2, selectionY2),
),
lineSegment<GlobalPoint>(
pointFrom(selectionX2, selectionY2),
pointFrom(selectionX1, selectionY2),
),
lineSegment<GlobalPoint>(
pointFrom(selectionX1, selectionY2),
pointFrom(selectionX1, selectionY1),
),
];
let elementsInSelection = elements.filter((element) => {
let [elementX1, elementY1, elementX2, elementY2] = getElementBounds(
element,
elementsMap,
);
const framesInSelection = excludeElementsInFrames
? new Set<NonDeletedExcalidrawElement["id"]>()
: null;
let elementsInSelection: NonDeletedExcalidrawElement[] = [];
const containingFrame = getContainingFrame(element, elementsMap);
if (containingFrame) {
const [fx1, fy1, fx2, fy2] = getElementBounds(
containingFrame,
elementsMap,
);
elementX1 = Math.max(fx1, elementX1);
elementY1 = Math.max(fy1, elementY1);
elementX2 = Math.min(fx2, elementX2);
elementY2 = Math.min(fy2, elementY2);
for (const element of elements) {
if (shouldIgnoreElementFromSelection(element)) {
continue;
}
return (
element.locked === false &&
element.type !== "selection" &&
!isBoundToContainer(element) &&
selectionX1 <= elementX1 &&
selectionY1 <= elementY1 &&
selectionX2 >= elementX2 &&
selectionY2 >= elementY2
);
});
const strokeWidth = element.strokeWidth;
let labelAABB: Bounds | null = null;
let elementAABB = getElementBounds(element, elementsMap);
elementsInSelection = excludeElementsInFrames
? excludeElementsInFramesFromSelection(elementsInSelection)
elementAABB = [
elementAABB[0] - strokeWidth / 2,
elementAABB[1] - strokeWidth / 2,
elementAABB[2] + strokeWidth / 2,
elementAABB[3] + strokeWidth / 2,
] as Bounds;
// Whether the element bounds should include the bound text element bounds
const boundTextElement =
isArrowElement(element) && getBoundTextElement(element, elementsMap);
if (boundTextElement) {
const { x, y } = LinearElementEditor.getBoundTextElementPosition(
element,
boundTextElement,
elementsMap,
);
labelAABB = [
x,
y,
x + boundTextElement.width,
y + boundTextElement.height,
] as Bounds;
}
// Clip element bounds by its containing frame (if any), since only the
// visible (frame-clipped) portion of the element is relevant for selection.
const associatedFrame = getContainingFrame(element, elementsMap);
if (
associatedFrame &&
isElementIntersectingFrame(element, associatedFrame, elementsMap)
) {
const frameAABB = getElementBounds(associatedFrame, elementsMap);
elementAABB = [
Math.max(elementAABB[0], frameAABB[0]),
Math.max(elementAABB[1], frameAABB[1]),
Math.min(elementAABB[2], frameAABB[2]),
Math.min(elementAABB[3], frameAABB[3]),
] as Bounds;
labelAABB = labelAABB
? ([
Math.max(labelAABB[0], frameAABB[0]),
Math.max(labelAABB[1], frameAABB[1]),
Math.min(labelAABB[2], frameAABB[2]),
Math.min(labelAABB[3], frameAABB[3]),
] as Bounds)
: null;
}
const commonAABB = labelAABB
? ([
Math.min(labelAABB[0], elementAABB[0]),
Math.min(labelAABB[1], elementAABB[1]),
Math.max(labelAABB[2], elementAABB[2]),
Math.max(labelAABB[3], elementAABB[3]),
] as Bounds)
: elementAABB;
// ============== Evaluation ==============
// 1. If the selection box WRAPs the element's AABB, then add it to the
// selection and move on, regardless of the selection mode.
//
// PERF: This trick only works with axis-aligned box selection and the
// current convex element shapes!
if (boundsContainBounds(selectionBounds, commonAABB)) {
if (framesInSelection && isFrameLikeElement(element)) {
framesInSelection.add(element.id);
} else {
elementsInSelection.push(element);
continue;
}
}
// 2. Handle the case where the label is overlapped by the selection box
if (
boxSelectionMode === "overlap" &&
labelAABB &&
doBoundsIntersect(selectionBounds, labelAABB)
) {
elementsInSelection.push(element);
continue;
}
// 3. Handle the case where the selection is not wrapping the element, but
// it does intersect the element's outline (non-AABB).
if (
boxSelectionMode === "overlap" &&
doBoundsIntersect(selectionBounds, elementAABB)
) {
let hasIntersection = false;
// Preliminary check potential intersection imprecision
if (isLinearElement(element) || isFreeDrawElement(element)) {
const center = elementCenterPoint(element, elementsMap);
hasIntersection = element.points.some((point) => {
const rotatedPoint = pointRotateRads(
pointFrom<GlobalPoint>(element.x + point[0], element.y + point[1]),
center,
element.angle,
);
return pointInsideBounds(rotatedPoint, selectionBounds);
});
} else {
const nonRotatedElementBounds = getElementBounds(
element,
elementsMap,
true,
);
const center = elementCenterPoint(element, elementsMap);
hasIntersection = [
pointRotateRads(
pointFrom<GlobalPoint>(
(nonRotatedElementBounds[0] + nonRotatedElementBounds[2]) / 2,
nonRotatedElementBounds[1],
),
center,
element.angle,
),
pointRotateRads(
pointFrom<GlobalPoint>(
nonRotatedElementBounds[2],
(nonRotatedElementBounds[1] + nonRotatedElementBounds[3]) / 2,
),
center,
element.angle,
),
pointRotateRads(
pointFrom<GlobalPoint>(
(nonRotatedElementBounds[0] + nonRotatedElementBounds[2]) / 2,
nonRotatedElementBounds[3],
),
center,
element.angle,
),
pointRotateRads(
pointFrom<GlobalPoint>(
nonRotatedElementBounds[0],
(nonRotatedElementBounds[1] + nonRotatedElementBounds[3]) / 2,
),
center,
element.angle,
),
].some((point) => {
return pointInsideBounds(
pointRotateRads(point, center, element.angle),
selectionBounds,
);
});
}
if (!hasIntersection) {
hasIntersection = selectionEdges.some(
(selectionEdge) =>
intersectElementWithLineSegment(
element,
elementsMap,
selectionEdge,
strokeWidth / 2,
true, // Stop at first hit for better performance
).length > 0,
);
}
if (hasIntersection) {
if (framesInSelection && isFrameLikeElement(element)) {
framesInSelection.add(element.id);
}
elementsInSelection.push(element);
continue;
}
}
// 4. We don't need to handle when the selection is inside the element
// as it is separately handled in App.
}
elementsInSelection = framesInSelection
? excludeElementsFromFrames(elementsInSelection, framesInSelection)
: elementsInSelection;
elementsInSelection = elementsInSelection.filter((element) => {
@@ -288,3 +514,19 @@ export const getSelectionStateForElements = (
),
};
};
/**
* Returns editing or single-selected text element, if any.
*/
export const getActiveTextElement = (
selectedElements: readonly NonDeleted<ExcalidrawElement>[],
appState: Pick<AppState, "editingTextElement">,
) => {
const activeTextElement =
appState.editingTextElement ||
(selectedElements.length === 1 &&
isTextElement(selectedElements[0]) &&
selectedElements[0]);
return activeTextElement || null;
};
+7 -16
View File
@@ -57,8 +57,8 @@ import { headingForPointIsHorizontal } from "./heading";
import { canChangeRoundness } from "./comparisons";
import {
elementCenterPoint,
getArrowheadPoints,
getCenterForBounds,
getDiamondPoints,
getElementAbsoluteCoords,
} from "./bounds";
@@ -583,7 +583,11 @@ const getArrowheadShapes = (
export const generateLinearCollisionShape = (
element: ExcalidrawLinearElement | ExcalidrawFreeDrawElement,
) => {
elementsMap: ElementsMap,
): {
op: string;
data: number[];
}[] => {
const generator = new RoughGenerator();
const options: Options = {
seed: element.seed,
@@ -592,20 +596,7 @@ export const generateLinearCollisionShape = (
roughness: 0,
preserveVertices: true,
};
const center = getCenterForBounds(
// Need a non-rotated center point
element.points.reduce(
(acc, point) => {
return [
Math.min(element.x + point[0], acc[0]),
Math.min(element.y + point[1], acc[1]),
Math.max(element.x + point[0], acc[2]),
Math.max(element.y + point[1], acc[3]),
];
},
[Infinity, Infinity, -Infinity, -Infinity],
),
);
const center = elementCenterPoint(element, elementsMap);
switch (element.type) {
case "line":
@@ -1,4 +1,8 @@
import {
isCloseTo,
line,
linesIntersectAt,
pointDistance,
pointFrom,
pointRotateRads,
rangeInclusive,
@@ -13,7 +17,7 @@ import {
getDraggedElementsBounds,
getElementAbsoluteCoords,
} from "@excalidraw/element";
import { isBoundToContainer } from "@excalidraw/element";
import { isBoundToContainer, isElbowArrow } from "@excalidraw/element";
import { getMaximumGroups } from "@excalidraw/element";
@@ -29,14 +33,18 @@ import type { MaybeTransformHandleType } from "@excalidraw/element";
import type {
ElementsMap,
ExcalidrawElement,
ExcalidrawLinearElement,
NonDeletedExcalidrawElement,
NonDeleted,
} from "@excalidraw/element/types";
import type {
AppClassProperties,
AppState,
KeyboardModifiersObject,
} from "./types";
} from "@excalidraw/excalidraw/types";
import { LinearElementEditor } from "./linearElementEditor";
const SNAP_DISTANCE = 8;
@@ -122,6 +130,11 @@ export type SnapLine = PointSnapLine | GapSnapLine | PointerSnapLine;
export class SnapCache {
private static referenceSnapPoints: GlobalPoint[] | null = null;
private static linearElementAxisSnapTargets: {
editingElementId: ExcalidrawElement["id"];
snapTargets: GlobalPoint[];
} | null = null;
private static visibleGaps: {
verticalGaps: Gap[];
horizontalGaps: Gap[];
@@ -135,6 +148,27 @@ export class SnapCache {
return SnapCache.referenceSnapPoints;
};
public static setLinearElementAxisSnapTargets = (
editingElementId: ExcalidrawElement["id"],
snapTargets: GlobalPoint[] | null,
) => {
SnapCache.linearElementAxisSnapTargets = snapTargets
? {
editingElementId,
snapTargets,
}
: null;
};
public static getLinearElementAxisSnapTargets = (
editingElementId: ExcalidrawElement["id"],
) => {
return SnapCache.linearElementAxisSnapTargets?.editingElementId ===
editingElementId
? SnapCache.linearElementAxisSnapTargets.snapTargets
: null;
};
public static setVisibleGaps = (
gaps: {
verticalGaps: Gap[];
@@ -150,6 +184,7 @@ export class SnapCache {
public static destroy = () => {
SnapCache.referenceSnapPoints = null;
SnapCache.linearElementAxisSnapTargets = null;
SnapCache.visibleGaps = null;
};
}
@@ -235,6 +270,19 @@ export const getElementsCorners = (
const halfHeight = (y2 - y1) / 2;
if (
(element.type === "line" || element.type === "arrow") &&
!boundingBoxCorners
) {
// For linear elements, use actual points instead of bounding box
const linearPoints = LinearElementEditor.getPointsGlobalCoordinates(
element as NonDeleted<ExcalidrawLinearElement>,
elementsMap,
{
dragOffset,
},
);
result = linearPoints;
} else if (
(element.type === "diamond" || element.type === "ellipse") &&
!boundingBoxCorners
) {
@@ -633,6 +681,227 @@ export const getReferenceSnapPoints = (
.flatMap((elementGroup) => getElementsCorners(elementGroup, elementsMap));
};
const getExternalAxisSnapTargets = (
elements: readonly NonDeletedExcalidrawElement[],
editingElement: ExcalidrawLinearElement,
appState: AppState,
elementsMap: ElementsMap,
) => {
const cachedAxisSnapTargets = SnapCache.getLinearElementAxisSnapTargets(
editingElement.id,
);
const externalAxisSnapTargets =
cachedAxisSnapTargets ??
getReferenceSnapPoints(elements, [editingElement], appState, elementsMap);
if (!cachedAxisSnapTargets) {
SnapCache.setLinearElementAxisSnapTargets(
editingElement.id,
externalAxisSnapTargets,
);
}
return externalAxisSnapTargets;
};
const getOwnAxisSnapTargets = (
editingElement: ExcalidrawLinearElement,
elementsMap: ElementsMap,
selectedPointsIndices?: readonly number[],
) => {
return LinearElementEditor.getPointsGlobalCoordinates(
editingElement as NonDeleted<ExcalidrawLinearElement>,
elementsMap,
{
excludePointsIndices: selectedPointsIndices,
},
);
};
export const getAxisSnapTargets = (
elements: readonly NonDeletedExcalidrawElement[],
editingElement: ExcalidrawLinearElement,
appState: AppState,
elementsMap: ElementsMap,
options: {
includeSelfPoints?: boolean;
selectedPointsIndices?: readonly number[];
} = {},
) => {
const externalAxisSnapTargets = getExternalAxisSnapTargets(
elements,
editingElement,
appState,
elementsMap,
);
if (!options.includeSelfPoints) {
return externalAxisSnapTargets;
}
return externalAxisSnapTargets.concat(
getOwnAxisSnapTargets(
editingElement,
elementsMap,
options.selectedPointsIndices,
),
);
};
const collectNearestAxisSnapCandidates = (
axisSnapTargets: readonly GlobalPoint[],
pointerPosition: GlobalPoint,
nearestSnapsX: Snaps,
nearestSnapsY: Snaps,
minOffset: Vector2D,
) => {
for (const snapTarget of axisSnapTargets) {
const offsetX = snapTarget[0] - pointerPosition[0];
const offsetY = snapTarget[1] - pointerPosition[1];
const absOffsetX = Math.abs(offsetX);
const absOffsetY = Math.abs(offsetY);
if (absOffsetX > minOffset.x && absOffsetY > minOffset.y) {
continue;
}
if (absOffsetX <= minOffset.x) {
if (absOffsetX < minOffset.x) {
nearestSnapsX.length = 0;
}
nearestSnapsX.push({
type: "point",
points: [pointerPosition, snapTarget],
offset: offsetX,
});
minOffset.x = absOffsetX;
}
if (absOffsetY <= minOffset.y) {
if (absOffsetY < minOffset.y) {
nearestSnapsY.length = 0;
}
nearestSnapsY.push({
type: "point",
points: [pointerPosition, snapTarget],
offset: offsetY,
});
minOffset.y = absOffsetY;
}
}
};
export const snapLinearElementPoint = (
elements: readonly NonDeletedExcalidrawElement[],
editingElement: ExcalidrawLinearElement,
pointerPosition: GlobalPoint,
app: AppClassProperties,
event: KeyboardModifiersObject,
elementsMap: ElementsMap,
options: {
includeExternalPoints?: boolean;
includeSelfPoints?: boolean;
selectedPointsIndices?: readonly number[];
} = {},
) => {
if (
!isSnappingEnabled({ app, event, selectedElements: [editingElement] }) ||
isElbowArrow(editingElement)
) {
return {
snapOffset: { x: 0, y: 0 },
snapLines: [],
};
}
const snapDistance = getSnapDistance(app.state.zoom.value);
const minOffset = {
x: snapDistance,
y: snapDistance,
};
const nearestSnapsX: Snaps = [];
const nearestSnapsY: Snaps = [];
if (options.includeExternalPoints !== false) {
collectNearestAxisSnapCandidates(
getExternalAxisSnapTargets(
elements,
editingElement,
app.state,
elementsMap,
),
pointerPosition,
nearestSnapsX,
nearestSnapsY,
minOffset,
);
}
if (options.includeSelfPoints) {
collectNearestAxisSnapCandidates(
getOwnAxisSnapTargets(
editingElement,
elementsMap,
options.selectedPointsIndices,
),
pointerPosition,
nearestSnapsX,
nearestSnapsY,
minOffset,
);
}
const snapOffset = {
x: nearestSnapsX[0]?.offset ?? 0,
y: nearestSnapsY[0]?.offset ?? 0,
};
// Create snap lines using the snapped position (fixed position)
let pointSnapLines: SnapLine[] = [];
if (snapOffset.x !== 0 || snapOffset.y !== 0) {
const snappedPosition = pointFrom<GlobalPoint>(
pointerPosition[0] + snapOffset.x,
pointerPosition[1] + snapOffset.y,
);
const snappedSnapsX = nearestSnapsX
.filter(
(snap): snap is PointSnap =>
snap.type === "point" && isCloseTo(snap.offset, snapOffset.x, 0.01),
)
.map((snap) => ({
type: "point" as const,
points: [snappedPosition, snap.points[1]] as [GlobalPoint, GlobalPoint],
offset: 0,
}));
const snappedSnapsY = nearestSnapsY
.filter(
(snap): snap is PointSnap =>
snap.type === "point" && isCloseTo(snap.offset, snapOffset.y, 0.01),
)
.map((snap) => ({
type: "point" as const,
points: [snappedPosition, snap.points[1]] as [GlobalPoint, GlobalPoint],
offset: 0,
}));
pointSnapLines = createPointSnapLines(snappedSnapsX, snappedSnapsY);
}
return {
snapOffset,
snapLines: pointSnapLines,
};
};
const getPointSnaps = (
selectedElements: ExcalidrawElement[],
selectionSnapPoints: GlobalPoint[],
@@ -1412,3 +1681,79 @@ export const isActiveToolNonLinearSnappable = (
activeToolType === TOOL_TYPE.text
);
};
/**
* Snaps to discrete angle rotation logic.
* This function handles the common pattern of finding intersections between
* angle lines and snap lines, and updating the snap lines accordingly.
*
* @param snapLines - The original snap lines from snapping
* @param angleLine - The line representing the discrete angle constraint
* @param gridPosition - The grid position (original pointer position)
* @param referencePosition - The reference position (usually the start point)
* @returns Object containing updated snap lines and position deltas
*/
export const snapToDiscreteAngle = (
snapLines: SnapLine[],
angleLine: [GlobalPoint, GlobalPoint],
gridPosition: GlobalPoint,
referencePosition: GlobalPoint,
): {
snapLines: SnapLine[];
dxFromReference: number;
dyFromReference: number;
} => {
if (snapLines.length === 0) {
return {
snapLines: [],
dxFromReference: gridPosition[0] - referencePosition[0],
dyFromReference: gridPosition[1] - referencePosition[1],
};
}
const firstSnapLine = snapLines[0];
if (firstSnapLine.type === "points" && firstSnapLine.points.length > 1) {
const snapLine = line(firstSnapLine.points[0], firstSnapLine.points[1]);
const intersection = linesIntersectAt<GlobalPoint>(
line(angleLine[0], angleLine[1]),
snapLine,
);
if (intersection) {
const dxFromReference = intersection[0] - referencePosition[0];
const dyFromReference = intersection[1] - referencePosition[1];
const furthestPoint = firstSnapLine.points.reduce(
(furthest, point) => {
const distance = pointDistance(intersection, point);
if (distance > furthest.distance) {
return { point, distance };
}
return furthest;
},
{
point: firstSnapLine.points[0],
distance: pointDistance(intersection, firstSnapLine.points[0]),
},
);
const updatedSnapLine: PointSnapLine = {
type: "points",
points: [furthestPoint.point, intersection],
};
return {
snapLines: [updatedSnapLine],
dxFromReference,
dyFromReference,
};
}
}
// If no intersection found, return original snap lines with grid position
return {
snapLines,
dxFromReference: gridPosition[0] - referencePosition[0],
dyFromReference: gridPosition[1] - referencePosition[1],
};
};
+3 -1
View File
@@ -347,6 +347,7 @@ export const getContainerCenter = (
midSegmentMidpoint = LinearElementEditor.getSegmentMidPoint(
container,
index + 1,
elementsMap,
);
}
return { x: midSegmentMidpoint[0], y: midSegmentMidpoint[1] };
@@ -441,7 +442,8 @@ const VALID_CONTAINER_TYPES = new Set([
export const isValidTextContainer = (element: {
type: ExcalidrawElementType;
}) => VALID_CONTAINER_TYPES.has(element.type);
}): element is ExcalidrawTextContainer =>
VALID_CONTAINER_TYPES.has(element.type);
export const computeContainerDimensionForBoundText = (
dimension: number,
+207 -37
View File
@@ -4,6 +4,22 @@ import { charWidth, getLineWidth } from "./textMeasurements";
import type { FontString } from "./types";
/**
* This module approximates browser-like soft wrapping for Excalidraw text.
*
* The flow is:
* 1. `parseTokens()` splits a hard line into breakable tokens using a unicode-aware regex.
* 2. `getWrappedTextLines()` reflows each hard line into one or more visual lines and
* records where each visual line came from in the source text.
* 3. `wrapLine()` assembles tokens into lines, and `wrapWord()` handles a single token
* that is wider than the available width.
* 4. `trimLine()` / `trimLineEndAtSoftBreak()` mirror browser behavior around trailing
* whitespace so the rendered text stays consistent with what users see on canvas.
*
* Mostly, you'll want to use wrapText(). getWrappedTextLines() is for callers
* that need metadata such as mapping visual lines back to `originalText`
* for caret placement or future editor features.
*/
let cachedCjkRegex: RegExp | undefined;
let cachedLineBreakRegex: RegExp | undefined;
let cachedEmojiRegex: RegExp | undefined;
@@ -358,6 +374,10 @@ const Break = {
/**
* Breaks the line into the tokens based on the found line break opporutnities.
*
* Note: tokenization normalizes to NFC first so decomposed graphemes are treated as
* their composed variants for wrapping. Any code that needs exact source offsets should
* keep in mind that this assumes the input text is already NFC-normalized.
*/
export const parseTokens = (line: string) => {
const breakLineRegex = getLineBreakRegex();
@@ -370,56 +390,120 @@ export const parseTokens = (line: string) => {
/**
* Wraps the original text into the lines based on the given width.
*
* This is a convenience adapter over `getWrappedTextLines()` for call sites
* that only need the rendered wrapped string and not the source offsets.
*/
export const wrapText = (
text: string,
font: FontString,
maxWidth: number,
): string => {
return getWrappedTextLines(text, font, maxWidth)
.map((line) => line.text)
.join("\n");
};
/**
* A single rendered visual line produced from the original text.
*
* `start` and `end` are end-exclusive code-unit offsets into the original text, and do
* not include synthetic soft line breaks inserted by this module. If trailing whitespace
* was trimmed away at a wrap boundary, `end` points to the last rendered character.
*/
export type WrappedTextLine = {
text: string;
start: number;
end: number;
};
/**
* Splits only on existing hard line breaks and preserves original offsets.
*/
const getHardLineBreaks = (text: string): WrappedTextLine[] => {
let offset = 0;
return text.split("\n").map((line) => {
const start = offset;
const end = start + line.length;
offset = end + 1;
return {
text: line,
start,
end,
};
});
};
/**
* Returns the rendered visual lines together with their source offsets.
*
* This is the source-of-truth wrapping pipeline for callers that need more than the
* final wrapped string, for example caret placement or future editor/rich-text mapping.
*/
export const getWrappedTextLines = (
text: string,
font: FontString,
maxWidth: number,
): WrappedTextLine[] => {
// if maxWidth is not finite or NaN which can happen in case of bugs in
// computation, we need to make sure we don't continue as we'll end up
// in an infinite loop
if (!Number.isFinite(maxWidth) || maxWidth < 0) {
return text;
return getHardLineBreaks(text);
}
const lines: Array<string> = [];
const originalLines = text.split("\n");
const lines: WrappedTextLine[] = [];
let offset = 0;
for (const originalLine of originalLines) {
const currentLineWidth = getLineWidth(originalLine, font);
for (const originalLine of text.split("\n")) {
const originalLineWidth = getLineWidth(originalLine, font);
if (currentLineWidth <= maxWidth) {
lines.push(originalLine);
continue;
if (originalLineWidth <= maxWidth) {
lines.push({
text: originalLine,
start: offset,
end: offset + originalLine.length,
});
} else {
lines.push(...wrapLine(originalLine, font, maxWidth, offset));
}
const wrappedLine = wrapLine(originalLine, font, maxWidth);
lines.push(...wrappedLine);
offset += originalLine.length + 1;
}
return lines.join("\n");
return lines;
};
/**
* Wraps the original line into the lines based on the given width.
* Wraps a single hard line into one or more visual lines.
*
* The line-local offsets are tracked in original-text code units so
* we can map the visual line back to the source.
*/
const wrapLine = (
line: string,
font: FontString,
maxWidth: number,
): string[] => {
const lines: Array<string> = [];
lineStart: number,
): WrappedTextLine[] => {
const lines: WrappedTextLine[] = [];
const tokens = parseTokens(line);
const tokenIterator = tokens[Symbol.iterator]();
let currentLine = "";
let currentLineStart = lineStart;
let currentLineEnd = lineStart;
let currentLineWidth = 0;
// Tracks the next token's code-unit position in the original source string.
let tokenOffset = lineStart;
let tokenIndex = 0;
let iterator = tokenIterator.next();
while (!iterator.done) {
const token = iterator.value;
while (tokenIndex < tokens.length) {
const token = tokens[tokenIndex];
const tokenStart = tokenOffset;
const tokenEnd = tokenStart + token.length;
const testLine = currentLine + token;
// cache single codepoint whitespace, CJK or emoji width calc. as kerning should not apply here
@@ -429,37 +513,59 @@ const wrapLine = (
// build up the current line, skipping length check for possibly trailing whitespaces
if (/\s/.test(token) || testLineWidth <= maxWidth) {
if (!currentLine) {
currentLineStart = tokenStart;
}
currentLine = testLine;
currentLineEnd = tokenEnd;
currentLineWidth = testLineWidth;
iterator = tokenIterator.next();
tokenOffset = tokenEnd;
tokenIndex++;
continue;
}
// current line is empty => just the token (word) is longer than `maxWidth` and needs to be wrapped
if (!currentLine) {
const wrappedWord = wrapWord(token, font, maxWidth);
const trailingLine = wrappedWord[wrappedWord.length - 1] ?? "";
const wrappedWord = wrapWord(token, font, maxWidth, tokenStart);
const trailingLine = wrappedWord[wrappedWord.length - 1] ?? {
text: "",
start: tokenStart,
end: tokenStart,
};
const precedingLines = wrappedWord.slice(0, -1);
lines.push(...precedingLines);
// trailing line of the wrapped word might still be joined with next token/s
currentLine = trailingLine;
currentLineWidth = getLineWidth(trailingLine, font);
iterator = tokenIterator.next();
currentLine = trailingLine.text;
currentLineStart = trailingLine.start;
currentLineEnd = trailingLine.end;
currentLineWidth = getLineWidth(trailingLine.text, font);
tokenOffset = tokenEnd;
tokenIndex++;
} else {
// push & reset, but don't iterate on the next token, as we didn't use it yet!
lines.push(currentLine.trimEnd());
lines.push(
trimLineEndAtSoftBreak(currentLine, currentLineStart, currentLineEnd),
);
// purposefully not iterating and not setting `currentLine` to `token`, so that we could use a simple !currentLine check above
currentLine = "";
currentLineStart = tokenStart;
currentLineEnd = tokenStart;
currentLineWidth = 0;
}
}
// iterator done, push the trailing line if exists
if (currentLine) {
const trailingLine = trimLine(currentLine, font, maxWidth);
const trailingLine = trimLine(
currentLine,
currentLineStart,
currentLineEnd,
font,
maxWidth,
);
lines.push(trailingLine);
}
@@ -467,59 +573,100 @@ const wrapLine = (
};
/**
* Wraps the word into the lines based on the given width.
* Wraps a single word that could not be placed on an empty line as-is.
*/
const wrapWord = (
word: string,
font: FontString,
maxWidth: number,
): Array<string> => {
wordStart: number,
): WrappedTextLine[] => {
// multi-codepoint emojis are already broken apart and shouldn't be broken further
if (getEmojiRegex().test(word)) {
return [word];
return [
{
text: word,
start: wordStart,
end: wordStart + word.length,
},
];
}
satisfiesWordInvariant(word);
const lines: Array<string> = [];
const lines: WrappedTextLine[] = [];
const chars = Array.from(word);
let currentLine = "";
let currentLineStart = wordStart;
let currentLineEnd = wordStart;
let currentLineWidth = 0;
let offset = wordStart;
for (const char of chars) {
const charStart = offset;
const charEnd = charStart + char.length;
const _charWidth = charWidth.calculate(char, font);
const testLineWidth = currentLineWidth + _charWidth;
if (testLineWidth <= maxWidth) {
if (!currentLine) {
currentLineStart = charStart;
}
currentLine = currentLine + char;
currentLineEnd = charEnd;
currentLineWidth = testLineWidth;
offset = charEnd;
continue;
}
if (currentLine) {
lines.push(currentLine);
lines.push({
text: currentLine,
start: currentLineStart,
end: currentLineEnd,
});
}
currentLine = char;
currentLineStart = charStart;
currentLineEnd = charEnd;
currentLineWidth = _charWidth;
offset = charEnd;
}
if (currentLine) {
lines.push(currentLine);
lines.push({
text: currentLine,
start: currentLineStart,
end: currentLineEnd,
});
}
return lines;
};
/**
* Similarly to browsers, does not trim all trailing whitespaces, but only those exceeding the `maxWidth`.
* Trims trailing whitespace that is exceeding the `maxWidth`.
*
* Used for the trailing visual line of a hard line, where some trailing
* whitespace may still be visible if it fits into the available width.
*/
const trimLine = (line: string, font: FontString, maxWidth: number) => {
const trimLine = (
line: string,
start: number,
end: number,
font: FontString,
maxWidth: number,
): WrappedTextLine => {
const shouldTrimWhitespaces = getLineWidth(line, font) > maxWidth;
if (!shouldTrimWhitespaces) {
return line;
return {
text: line,
start,
end,
};
}
// defensively default to `trimeEnd` in case the regex does not match
@@ -543,7 +690,30 @@ const trimLine = (line: string, font: FontString, maxWidth: number) => {
trimmedLineWidth = testLineWidth;
}
return trimmedLine;
return {
text: trimmedLine,
start,
end: end - (line.length - trimmedLine.length),
};
};
/**
* Used for internal soft-wrap boundaries, where trailing whitespace should not
* survive into the rendered line even though it still exists in the original
* text.
*/
const trimLineEndAtSoftBreak = (
line: string,
start: number,
end: number,
): WrappedTextLine => {
const trimmedLine = line.trimEnd();
return {
text: trimmedLine,
start,
end: end - (line.length - trimmedLine.length),
};
};
/**
+2 -4
View File
@@ -124,6 +124,7 @@ const setElementShapesCacheEntry = <T extends ExcalidrawElement>(
*/
export function deconstructLinearOrFreeDrawElement(
element: ExcalidrawLinearElement | ExcalidrawFreeDrawElement,
elementsMap: ElementsMap,
): [LineSegment<GlobalPoint>[], Curve<GlobalPoint>[]] {
const cachedShape = getElementShapesCacheEntry(element, 0);
@@ -131,10 +132,7 @@ export function deconstructLinearOrFreeDrawElement(
return cachedShape;
}
const ops = generateLinearCollisionShape(element) as {
op: string;
data: number[];
}[];
const ops = generateLinearCollisionShape(element, elementsMap);
const lines = [];
const curves = [];
+3 -1
View File
@@ -1,4 +1,4 @@
import { arrayToMap } from "@excalidraw/common";
import { arrayToMap, reseed } from "@excalidraw/common";
import { type GlobalPoint, type LocalPoint, pointFrom } from "@excalidraw/math";
import { Excalidraw } from "@excalidraw/excalidraw";
import { API } from "@excalidraw/excalidraw/tests/helpers/api";
@@ -12,6 +12,7 @@ import { hitElementItself } from "../src/collision";
describe("check rotated elements can be hit:", () => {
beforeEach(async () => {
localStorage.clear();
reseed(7);
await render(<Excalidraw handleKeyboardGlobally={true} />);
});
@@ -56,6 +57,7 @@ describe("hitElementItself cache", () => {
});
localStorage.clear();
reseed(7);
await render(<Excalidraw handleKeyboardGlobally={true} />);
});
@@ -155,6 +155,24 @@ describe("Test Linear Elements", () => {
});
};
const dragMove = (startPoint: GlobalPoint, endPoint: GlobalPoint) => {
fireEvent.pointerDown(interactiveCanvas, {
clientX: startPoint[0],
clientY: startPoint[1],
});
fireEvent.pointerMove(interactiveCanvas, {
clientX: endPoint[0],
clientY: endPoint[1],
});
};
const dragEnd = (endPoint: GlobalPoint) => {
fireEvent.pointerUp(interactiveCanvas, {
clientX: endPoint[0],
clientY: endPoint[1],
});
};
const deletePoint = (point: GlobalPoint) => {
fireEvent.pointerDown(interactiveCanvas, {
clientX: point[0],
@@ -258,6 +276,73 @@ describe("Test Linear Elements", () => {
expect(h.state.selectedLinearElement?.elementId).toEqual(h.elements[0].id);
});
it("shows snap lines and snaps the endpoint when creating a line", () => {
const rect = API.createElement({
type: "rectangle",
x: 100,
y: 100,
width: 40,
height: 40,
});
API.setElements([rect]);
API.setAppState({ objectsSnapModeEnabled: true });
UI.clickTool("line");
const startPoint = pointFrom<GlobalPoint>(20, 20);
const pointerNearCorner = pointFrom<GlobalPoint>(95, 95);
dragMove(startPoint, pointerNearCorner);
expect(h.state.snapLines.length).toBeGreaterThan(0);
dragEnd(pointerNearCorner);
const line = h.elements.find(
(element): element is ExcalidrawLinearElement => element.type === "line",
);
expect(line).toBeDefined();
const endpoint = LinearElementEditor.getPointGlobalCoordinates(
line!,
line!.points[line!.points.length - 1],
h.app.scene.getNonDeletedElementsMap(),
);
expect(endpoint).toEqual(pointFrom<GlobalPoint>(100, 100));
});
it("prefers binding over external snaps when creating an arrow endpoint", () => {
const rect = API.createElement({
type: "rectangle",
x: 100,
y: 100,
width: 40,
height: 40,
});
API.setElements([rect]);
API.setAppState({ objectsSnapModeEnabled: true });
UI.clickTool("arrow");
const startPoint = pointFrom<GlobalPoint>(20, 20);
const pointerNearBindable = pointFrom<GlobalPoint>(96, 118);
dragMove(startPoint, pointerNearBindable);
expect(h.state.suggestedBinding?.element.id).toBe(rect.id);
expect(h.state.snapLines).toEqual([]);
dragEnd(pointerNearBindable);
const arrow = h.elements.find(
(element): element is ExcalidrawLinearElement => element.type === "arrow",
);
expect(arrow?.endBinding?.elementId).toBe(rect.id);
});
it("should enter line editor via enter (line)", () => {
createTwoPointerLinearElement("line");
expect(h.state.selectedLinearElement?.isEditing).toBe(false);
@@ -401,6 +486,77 @@ describe("Test Linear Elements", () => {
`);
});
it("shows snap lines when dragging a point to another line point axis", () => {
const line = API.createElement({
type: "line",
x: 20,
y: 20,
width: 100,
height: 50,
roughness: 0,
points: [
pointFrom<LocalPoint>(0, 0),
pointFrom<LocalPoint>(50, 50),
pointFrom<LocalPoint>(100, 0),
],
});
API.setElements([line]);
API.setAppState({ objectsSnapModeEnabled: true });
enterLineEditingMode(line);
const middlePoint = pointFrom<GlobalPoint>(70, 70);
const pointerNearEndPointX = pointFrom<GlobalPoint>(117, 65);
dragMove(middlePoint, pointerNearEndPointX);
expect(h.state.snapLines.length).toBeGreaterThan(0);
dragEnd(pointerNearEndPointX);
expect(API.getElement(line).points[1]).toEqual(
pointFrom<LocalPoint>(100, 45),
);
});
it("prefers binding over external snaps when dragging an existing arrow endpoint", () => {
const rect = API.createElement({
type: "rectangle",
x: 100,
y: 100,
width: 40,
height: 40,
});
const arrow = API.createElement({
type: "arrow",
x: 20,
y: 20,
width: 40,
height: 0,
points: [pointFrom<LocalPoint>(0, 0), pointFrom<LocalPoint>(40, 0)],
});
API.setElements([rect, arrow]);
API.setAppState({ objectsSnapModeEnabled: true });
enterLineEditingMode(arrow);
const endPoint = LinearElementEditor.getPointGlobalCoordinates(
arrow,
arrow.points[arrow.points.length - 1],
h.app.scene.getNonDeletedElementsMap(),
);
const pointerNearBindable = pointFrom<GlobalPoint>(96, 118);
dragMove(endPoint, pointerNearBindable);
expect(h.state.suggestedBinding?.element.id).toBe(rect.id);
expect(h.state.snapLines).toEqual([]);
dragEnd(pointerNearBindable);
expect(API.getElement(arrow).endBinding?.elementId).toBe(rect.id);
});
it("should update the midpoints when element roundness changed", async () => {
createThreePointerLinearElement("line");
+70 -1
View File
@@ -1,4 +1,8 @@
import { wrapText, parseTokens } from "../src/textWrapping";
import {
getWrappedTextLines,
parseTokens,
wrapText,
} from "../src/textWrapping";
import type { FontString } from "../src/types";
@@ -102,6 +106,71 @@ describe("Test wrapText", () => {
expect(res2).toBe(`\tA)\none\ntab\n- two\ntabs\n- 8\nspace\ns`);
});
it("should retain original text offsets for wrapped lines", () => {
expect(getWrappedTextLines("Hello World!", font, 60)).toEqual([
{
text: "Hello",
start: 0,
end: 5,
},
{
text: "World!",
start: 6,
end: 12,
},
]);
});
it("should exclude whitespace trimmed away at soft-wrap boundaries from line offsets", () => {
expect(getWrappedTextLines(" Hello World", font, 90)).toEqual([
{
text: " Hello",
start: 0,
end: 7,
},
{
text: "World",
start: 9,
end: 14,
},
]);
});
it("should retain offsets when wrapping a single long token", () => {
expect(getWrappedTextLines("Excalidraw", font, 50)).toEqual([
{
text: "Excal",
start: 0,
end: 5,
},
{
text: "idraw",
start: 5,
end: 10,
},
]);
});
it("should preserve empty hard lines in metadata", () => {
expect(getWrappedTextLines("A\n\nB", font, 100)).toEqual([
{
text: "A",
start: 0,
end: 1,
},
{
text: "",
start: 2,
end: 2,
},
{
text: "B",
start: 3,
end: 4,
},
]);
});
describe("When text is CJK", () => {
it("should break each CJK character when width is very small", () => {
// "안녕하세요" (Hangul) + "こんにちは世界" (Hiragana, Kanji) + "コンニチハ" (Katakana) + "你好" (Han) = "Hello Hello World Hello Hi"
@@ -0,0 +1,145 @@
import {
getElementsInGroup,
isSomeElementSelected,
makeNextSelectedElementIds,
selectGroupsForSelectedElements,
} from "@excalidraw/element";
import { CaptureUpdateAction } from "@excalidraw/element";
import { KEYS, isWritableElement, updateActiveTool } from "@excalidraw/common";
import type { GroupId } from "@excalidraw/element/types";
import { register } from "./register";
import type { AppClassProperties, AppState } from "../types";
const getNextActiveTool = (
appState: Readonly<AppState>,
app: AppClassProperties,
) => {
if (appState.activeTool.type === "eraser") {
return updateActiveTool(appState, {
...(appState.activeTool.lastActiveTool || {
type: app.state.preferredSelectionTool.type,
}),
lastActiveToolBeforeEraser: null,
});
}
return updateActiveTool(appState, {
type: app.state.preferredSelectionTool.type,
});
};
const getParentEditingGroupId = (
appState: Readonly<AppState>,
app: AppClassProperties,
selectedElementIds: AppState["selectedElementIds"],
): GroupId | null => {
if (!appState.editingGroupId) {
return null;
}
const nonDeletedElements = app.scene.getNonDeletedElements();
const selectedElements = app.scene.getSelectedElements({
selectedElementIds,
elements: nonDeletedElements,
});
const candidateElements = selectedElements.length
? selectedElements
: getElementsInGroup(nonDeletedElements, appState.editingGroupId);
for (const element of candidateElements) {
const editingGroupIndex = element.groupIds.indexOf(appState.editingGroupId);
if (editingGroupIndex !== -1 && element.groupIds[editingGroupIndex + 1]) {
return element.groupIds[editingGroupIndex + 1] as GroupId;
}
}
return null;
};
export const actionDeselect = register({
name: "deselect",
label: "",
trackEvent: false,
perform: (_elements, appState, _, app) => {
const activeTool = getNextActiveTool(appState, app);
if (appState.editingGroupId) {
const nonDeletedElements = app.scene.getNonDeletedElements();
const selectedElementIds =
Object.keys(appState.selectedElementIds).length > 0
? appState.selectedElementIds
: getElementsInGroup(
nonDeletedElements,
appState.editingGroupId,
).reduce((acc, element) => {
acc[element.id] = true;
return acc;
}, {} as Record<string, true>);
return {
appState: {
...appState,
...selectGroupsForSelectedElements(
{
editingGroupId: getParentEditingGroupId(
appState,
app,
selectedElementIds,
),
selectedElementIds,
},
nonDeletedElements,
appState,
app,
),
activeEmbeddable: null,
activeTool,
selectedLinearElement: null,
selectionElement: null,
showHyperlinkPopup: false,
suggestedBinding: null,
},
captureUpdate: CaptureUpdateAction.IMMEDIATELY,
};
}
return {
appState: {
...appState,
activeEmbeddable: null,
activeTool,
editingGroupId: null,
selectedElementIds: makeNextSelectedElementIds({}, appState),
selectedGroupIds: {},
selectedLinearElement: null,
selectionElement: null,
showHyperlinkPopup: false,
suggestedBinding: null,
},
captureUpdate: CaptureUpdateAction.IMMEDIATELY,
};
},
keyTest: (event, appState, _, app) => {
if (event.key !== KEYS.ESCAPE) {
return false;
}
if (isWritableElement(event.target)) {
return false;
}
return (
!appState.newElement &&
appState.multiElement === null &&
!appState.selectedLinearElement?.isEditing &&
(appState.activeEmbeddable !== null ||
appState.activeTool.type !== app.state.preferredSelectionTool.type ||
!!appState.editingGroupId ||
!!appState.selectedLinearElement ||
isSomeElementSelected(app.scene.getNonDeletedElements(), appState))
);
},
});
@@ -348,9 +348,7 @@ export const actionFinalize = register<FormData>({
};
},
keyTest: (event, appState) =>
(event.key === KEYS.ESCAPE &&
(appState.selectedLinearElement?.isEditing ||
(!appState.newElement && appState.multiElement === null))) ||
(event.key === KEYS.ESCAPE && appState.selectedLinearElement?.isEditing) ||
((event.key === KEYS.ESCAPE || event.key === KEYS.ENTER) &&
appState.multiElement !== null),
PanelComponent: ({ appState, updateData, data }) => (
@@ -191,7 +191,7 @@ export const getFormValue = function <T extends Primitive>(
elements: readonly ExcalidrawElement[],
app: AppClassProperties,
getAttribute: (element: ExcalidrawElement) => T,
isRelevantElement: true | ((element: ExcalidrawElement) => boolean),
elementPredicate: true | ((element: ExcalidrawElement) => boolean),
defaultValue: T | ((isSomeElementSelected: boolean) => T),
): T {
const editingTextElement = app.state.editingTextElement;
@@ -209,9 +209,9 @@ export const getFormValue = function <T extends Primitive>(
if (hasSelection) {
const selectedElements = app.scene.getSelectedElements(app.state);
const targetElements =
isRelevantElement === true
elementPredicate === true
? selectedElements
: selectedElements.filter((el) => isRelevantElement(el));
: selectedElements.filter((el) => elementPredicate(el));
ret =
reduceToCommonValue(targetElements, getAttribute) ??
@@ -730,9 +730,28 @@ export const actionChangeOpacity = register<ExcalidrawElement["opacity"]>({
captureUpdate: CaptureUpdateAction.IMMEDIATELY,
};
},
PanelComponent: ({ app, updateData }) => (
<Range updateData={updateData} app={app} testId="opacity" />
),
PanelComponent: ({ elements, appState, app, updateData }) => {
const opacity = getFormValue(
elements,
app,
(element) => element.opacity,
true,
(hasSelection) => (hasSelection ? null : appState.currentItemOpacity),
);
return (
<Range
label={t("labels.opacity")}
value={opacity ?? appState.currentItemOpacity}
hasCommonValue={opacity !== null}
onChange={updateData}
min={0}
max={100}
step={10}
testId="opacity"
/>
);
},
});
export const actionChangeFontSize = register<ExcalidrawTextElement["fontSize"]>(
@@ -1,24 +1,24 @@
import { getFontString } from "@excalidraw/common";
import { newElementWith } from "@excalidraw/element";
import { isExcalidrawElement, newElementWith } from "@excalidraw/element";
import { measureText } from "@excalidraw/element";
import { isTextElement } from "@excalidraw/element";
import { CaptureUpdateAction } from "@excalidraw/element";
import type { ExcalidrawElement } from "@excalidraw/element/types";
import { getSelectedElements } from "../scene";
import { register } from "./register";
import type { AppClassProperties } from "../types";
export const actionTextAutoResize = register({
name: "autoResize",
label: "labels.autoResize",
icon: null,
trackEvent: { category: "element" },
predicate: (elements, appState, _: unknown, app: AppClassProperties) => {
predicate: (elements, appState, _: unknown) => {
const selectedElements = getSelectedElements(elements, appState);
return (
selectedElements.length === 1 &&
@@ -26,13 +26,18 @@ export const actionTextAutoResize = register({
!selectedElements[0].autoResize
);
},
perform: (elements, appState, _, app) => {
perform: (elements, appState, targetElement) => {
const selectedElements = getSelectedElements(elements, appState);
const targetTextElement =
isExcalidrawElement(targetElement) && isTextElement(targetElement)
? targetElement
: (selectedElements[0] as ExcalidrawElement | undefined);
return {
appState,
elements: elements.map((element) => {
if (element.id === selectedElements[0].id && isTextElement(element)) {
if (element.id === targetTextElement?.id && isTextElement(element)) {
const metrics = measureText(
element.originalText,
getFontString(element),
+1
View File
@@ -34,6 +34,7 @@ export {
export { actionSetEmbeddableAsActiveTool } from "./actionEmbeddable";
export { actionFinalize } from "./actionFinalize";
export { actionDeselect } from "./actionDeselect";
export {
actionChangeProjectName,
+1
View File
@@ -114,6 +114,7 @@ export type ActionName =
| "distributeVertically"
| "flipHorizontal"
| "flipVertical"
| "deselect"
| "viewMode"
| "exportWithDarkMode"
| "toggleTheme"
+2
View File
@@ -128,6 +128,7 @@ export const getDefaultAppState = (): Omit<
lockedMultiSelections: {},
activeLockedId: null,
bindMode: "orbit",
boxSelectionMode: "contain",
};
};
@@ -193,6 +194,7 @@ const APP_STATE_STORAGE_CONF = (<
gridModeEnabled: { browser: true, export: true, server: true },
height: { browser: false, export: false, server: false },
isBindingEnabled: { browser: true, export: false, server: false },
boxSelectionMode: { browser: true, export: false, server: false },
bindingPreference: { browser: true, export: false, server: false },
isMidpointSnappingEnabled: { browser: true, export: false, server: false },
defaultSidebarDockedPreference: {
+435 -92
View File
@@ -27,6 +27,7 @@ import {
KEYS,
APP_NAME,
CURSOR_TYPE,
DEFAULT_TRANSFORM_HANDLE_SPACING,
DEFAULT_MAX_IMAGE_WIDTH_OR_HEIGHT,
DEFAULT_VERTICAL_ALIGN,
DRAGGING_THRESHOLD,
@@ -238,6 +239,16 @@ import {
hitElementBoundingBox,
isLineElement,
isSimpleArrow,
isGridModeEnabled,
SnapCache,
isActiveToolNonLinearSnappable,
getSnapLinesAtPointer,
isSnappingEnabled,
getReferenceSnapPoints,
getVisibleGaps,
snapDraggedElements,
snapNewElement,
snapResizingElements,
StoreDelta,
type ApplyToOptions,
positionElementsOnGrid,
@@ -257,6 +268,7 @@ import {
handleFocusPointPointerUp,
maybeHandleArrowPointlikeDrag,
getUncroppedWidthAndHeight,
getActiveTextElement,
} from "@excalidraw/element";
import type { GlobalPoint, LocalPoint, Radians } from "@excalidraw/math";
@@ -394,18 +406,6 @@ import {
import { Fonts } from "../fonts";
import { editorJotaiStore, type WritableAtom } from "../editor-jotai";
import { ImageSceneDataError } from "../errors";
import {
getSnapLinesAtPointer,
snapDraggedElements,
isActiveToolNonLinearSnappable,
snapNewElement,
snapResizingElements,
isSnappingEnabled,
getVisibleGaps,
getReferenceSnapPoints,
SnapCache,
isGridModeEnabled,
} from "../snapping";
import { Renderer } from "../scene/Renderer";
import {
setEraserCursor,
@@ -416,6 +416,7 @@ import {
import { ElementCanvasButtons } from "../components/ElementCanvasButtons";
import { LaserTrails } from "../laser-trails";
import { withBatchedUpdates, withBatchedUpdatesThrottled } from "../reactUtils";
import { isPointHittingTextAutoResizeHandle } from "../textAutoResizeHandle";
import { textWysiwyg } from "../wysiwyg/textWysiwyg";
import { isOverScrollBars } from "../scene/scrollbars";
@@ -684,9 +685,15 @@ class App extends React.Component<AppProps, AppState> {
lastPointerDownEvent: React.PointerEvent<HTMLElement> | null = null;
lastPointerUpEvent: React.PointerEvent<HTMLElement> | PointerEvent | null =
null;
// TODO this is a hack and we should ideally unify touch and pointer events
// and implement our own double click handling end-to-end (currently we're
// using a mix of native browser for click events and manual for touch -
// and browser doubleClick sucks to begin with)
lastPointerUpIsDoubleClick: boolean = false;
lastPointerMoveEvent: PointerEvent | null = null;
/** current frame pointer cords */
lastPointerMoveCoords: { x: number; y: number } | null = null;
private lastCompletedCanvasClicks: { x: number; y: number }[] = [];
/** previous frame pointer coords */
previousPointerMoveCoords: { x: number; y: number } | null = null;
lastViewportPosition = { x: 0, y: 0 };
@@ -776,6 +783,29 @@ class App extends React.Component<AppProps, AppState> {
return api;
}
private withStableSnapLines<T extends { snapLines: AppState["snapLines"] }>(
state: T,
): T {
const snapLines = updateStable(this.state.snapLines, state.snapLines);
return snapLines === state.snapLines
? state
: {
...state,
snapLines,
};
}
private shouldUpdateSelectedLinearElementState(
selectedLinearElement: AppState["selectedLinearElement"],
snapLines: AppState["snapLines"],
) {
return (
selectedLinearElement !== this.state.selectedLinearElement ||
snapLines !== this.state.snapLines
);
}
constructor(props: AppProps) {
super(props);
const defaultAppState = getDefaultAppState();
@@ -1248,6 +1278,26 @@ class App extends React.Component<AppProps, AppState> {
) as NullableGridSize;
};
private getTextCreationGridPoint = (x: number, y: number) => {
const effectiveGridSize = this.getEffectiveGridSize();
if (effectiveGridSize === null) {
return null;
}
const getTextCreationGridCoordinate = (coordinate: number) => {
const topLeftGridPoint =
Math.floor(coordinate / effectiveGridSize) * effectiveGridSize;
return topLeftGridPoint;
};
return {
x: getTextCreationGridCoordinate(x),
y: getTextCreationGridCoordinate(y),
};
};
private getHTMLIFrameElement(
element: ExcalidrawIframeLikeElement,
): HTMLIFrameElement | undefined {
@@ -1438,6 +1488,21 @@ class App extends React.Component<AppProps, AppState> {
return true;
}
private isDoubleClick = (
lastPointerEvent:
| PointerEvent
| React.PointerEvent<HTMLElement>
| undefined
| null,
currentPointerEvent: PointerEvent | React.PointerEvent<HTMLElement>,
) => {
return (
lastPointerEvent != null &&
currentPointerEvent.timeStamp - lastPointerEvent.timeStamp <=
TAP_TWICE_TIMEOUT
);
};
private isIframeLikeElementCenter(
el: ExcalidrawIframeLikeElement | null,
event: React.PointerEvent<HTMLElement> | PointerEvent,
@@ -2321,6 +2386,7 @@ class App extends React.Component<AppProps, AppState> {
}
handleCanvasRef={this.handleInteractiveCanvasRef}
onContextMenu={this.handleCanvasContextMenu}
onClick={this.handleCanvasClick}
onPointerMove={this.handleCanvasPointerMove}
onPointerUp={this.handleCanvasPointerUp}
onPointerCancel={this.removePointer}
@@ -2480,6 +2546,7 @@ class App extends React.Component<AppProps, AppState> {
const magicFrameChildren = getElementsOverlappingFrame(
this.scene.getNonDeletedElements(),
magicFrame,
this.scene.getNonDeletedElementsMap(),
).filter((el) => !isMagicFrameElement(el));
if (!magicFrameChildren.length) {
@@ -3574,10 +3641,14 @@ class App extends React.Component<AppProps, AppState> {
this.lassoTrail.endPath();
this.deselectElements();
// @ts-ignore
this.handleCanvasDoubleClick({
clientX: touch.clientX,
clientY: touch.clientY,
type: "touch",
altKey: false,
ctrlKey: false,
metaKey: false,
shiftKey: false,
});
}
didTapTwice = false;
@@ -5617,8 +5688,14 @@ class App extends React.Component<AppProps, AppState> {
element: ExcalidrawTextElement,
{
isExistingElement = false,
initialCaretSceneCoords = null,
}: {
isExistingElement?: boolean;
/**
* supply null if no caret positioning is desired, and instead
* text should be auto-selected
*/
initialCaretSceneCoords?: { x: number; y: number } | null;
},
) {
const elementsMap = this.scene.getElementsMapIncludingDeleted();
@@ -5671,13 +5748,13 @@ class App extends React.Component<AppProps, AppState> {
const isDeleted = !nextOriginalText.trim();
updateElement(nextOriginalText, isDeleted);
// select the created text element only if submitting via keyboard
// (when submitting via click it should act as signal to deselect)
if (!isDeleted && viaKeyboard) {
const elementIdToSelect = element.containerId
? element.containerId
: element.id;
// keyboard-submit keeps focus on the edited object. For bound text, keep
// the container selected even if the text becomes empty and is deleted.
const elementIdToSelect = viaKeyboard
? element.containerId || (!isDeleted ? element.id : null)
: null;
if (elementIdToSelect) {
// needed to ensure state is updated before "finalize" action
// that's invoked on keyboard-submit as well
// TODO either move this into finalize as well, or handle all state
@@ -5721,6 +5798,7 @@ class App extends React.Component<AppProps, AppState> {
element,
excalidrawContainer: this.excalidrawContainerRef.current,
app: this,
initialCaretSceneCoords,
// when text is selected, it's hard (at least on iOS) to re-position the
// caret (i.e. deselect). There's not much use for always selecting
// the text on edit anyway (and users can select-all from contextmenu
@@ -5744,6 +5822,68 @@ class App extends React.Component<AppProps, AppState> {
});
}
private getSelectedTextElement(
container?: ExcalidrawTextContainer | null,
): NonDeleted<ExcalidrawTextElement> | null {
const selectedElements = this.scene.getSelectedElements(this.state);
if (selectedElements.length !== 1) {
return null;
}
const selectedElement = selectedElements[0]!;
if (isTextElement(selectedElement)) {
return selectedElement;
}
if (!container) {
return null;
}
return getBoundTextElement(
selectedElement,
this.scene.getNonDeletedElementsMap(),
);
}
private getSelectedTextEditingContainerAtPosition(
hitElement: NonDeletedExcalidrawElement | null,
sceneCoords: { x: number; y: number },
): ExcalidrawTextContainer | null | undefined {
const selectedElements = this.scene.getSelectedElements(this.state);
if (
selectedElements.length !== 1 ||
!hitElement ||
hitElement.id !== selectedElements[0]!.id
) {
return null;
}
const selectedElement = selectedElements[0]!;
if (isTextElement(selectedElement)) {
return null;
}
if (!isValidTextContainer(selectedElement)) {
return undefined;
}
const textElement = this.getSelectedTextElement(selectedElement);
const hitTextElement = this.getTextElementAtPosition(
sceneCoords.x,
sceneCoords.y,
);
if (!textElement || hitTextElement?.id !== textElement.id) {
return undefined;
}
return selectedElement;
}
private getTextElementAtPosition(
x: number,
y: number,
@@ -5757,6 +5897,58 @@ class App extends React.Component<AppProps, AppState> {
return null;
}
private isHittingTextAutoResizeHandle = (
selectedElements: NonDeleted<ExcalidrawElement>[],
point: Readonly<{ x: number; y: number }>,
): boolean => {
const activeTextElement = getActiveTextElement(
selectedElements,
this.state,
);
if (
activeTextElement &&
!activeTextElement.isDeleted &&
!activeTextElement.autoResize &&
isPointHittingTextAutoResizeHandle(
point,
activeTextElement,
this.state.zoom.value,
this.editorInterface.formFactor,
)
) {
return true;
}
return false;
};
private handleTextAutoResizeHandlePointerDown = (
selectedElements: NonDeleted<ExcalidrawElement>[],
point: Readonly<{ x: number; y: number }>,
) => {
const activeTextElement = getActiveTextElement(
selectedElements,
this.state,
);
if (
!activeTextElement ||
!this.isHittingTextAutoResizeHandle(selectedElements, point)
) {
return false;
}
this.actionManager.executeAction(
actionTextAutoResize,
"ui",
// we need to pass down the element since it may already be deselected
// due to the pointerdown
activeTextElement,
);
this.resetCursor();
return true;
};
// NOTE: Hot path for hit testing, so avoid unnecessary computations
private getElementAtPosition(
x: number,
@@ -5969,6 +6161,7 @@ class App extends React.Component<AppProps, AppState> {
insertAtParentCenter = true,
container,
autoEdit = true,
initialCaretSceneCoords,
}: {
/** X position to insert text at */
sceneX: number;
@@ -5978,6 +6171,7 @@ class App extends React.Component<AppProps, AppState> {
insertAtParentCenter?: boolean;
container?: ExcalidrawTextContainer | null;
autoEdit?: boolean;
initialCaretSceneCoords?: { x: number; y: number };
}) => {
let shouldBindToContainer = false;
@@ -5998,24 +6192,9 @@ class App extends React.Component<AppProps, AppState> {
shouldBindToContainer = true;
}
}
let existingTextElement: NonDeleted<ExcalidrawTextElement> | null = null;
const selectedElements = this.scene.getSelectedElements(this.state);
if (selectedElements.length === 1) {
if (isTextElement(selectedElements[0])) {
existingTextElement = selectedElements[0];
} else if (container) {
existingTextElement = getBoundTextElement(
selectedElements[0],
this.scene.getNonDeletedElementsMap(),
);
} else {
existingTextElement = this.getTextElementAtPosition(sceneX, sceneY);
}
} else {
existingTextElement = this.getTextElementAtPosition(sceneX, sceneY);
}
const existingTextElement =
this.getSelectedTextElement(container) ||
this.getTextElementAtPosition(sceneX, sceneY);
const fontFamily =
existingTextElement?.fontFamily || this.state.currentItemFontFamily;
@@ -6062,11 +6241,32 @@ class App extends React.Component<AppProps, AppState> {
y: sceneY,
});
const textCreationGridPoint = this.getTextCreationGridPoint(sceneX, sceneY);
const newTextElementPosition = parentCenterPosition
? {
x: parentCenterPosition.elementCenterX,
y: parentCenterPosition.elementCenterY,
}
: !existingTextElement
? {
x: textCreationGridPoint?.x ?? sceneX,
y:
textCreationGridPoint === null
? // Free text starts from a point cursor, so center the first line box on it.
sceneY - getLineHeightInPx(fontSize, lineHeight) / 2
: textCreationGridPoint.y,
}
: {
x: sceneX,
y: sceneY,
};
const element =
existingTextElement ||
newTextElement({
x: parentCenterPosition ? parentCenterPosition.elementCenterX : sceneX,
y: parentCenterPosition ? parentCenterPosition.elementCenterY : sceneY,
x: newTextElementPosition.x,
y: newTextElementPosition.y,
strokeColor: this.state.currentItemStrokeColor,
backgroundColor: this.state.currentItemBackgroundColor,
fillStyle: this.state.currentItemFillStyle,
@@ -6116,6 +6316,9 @@ class App extends React.Component<AppProps, AppState> {
if (autoEdit || existingTextElement || container) {
this.handleTextWysiwyg(element, {
isExistingElement: !!existingTextElement,
initialCaretSceneCoords: existingTextElement
? initialCaretSceneCoords
: null,
});
} else {
this.setState({
@@ -6141,9 +6344,48 @@ class App extends React.Component<AppProps, AppState> {
}
};
private shouldHandleBrowserCanvasDoubleClick = (type: string) => {
// TODO remove this once we consolidate double-click logic and handle
// ourselves for all event types together
if (type === "touch") {
return true;
}
if (this.lastCompletedCanvasClicks.length === 0) {
return true;
}
if (this.lastCompletedCanvasClicks.length < 2) {
return false;
}
const [firstClick, secondClick] = this.lastCompletedCanvasClicks;
return (
pointDistance(
pointFrom(firstClick.x, firstClick.y),
pointFrom(secondClick.x, secondClick.y),
) <= DOUBLE_TAP_POSITION_THRESHOLD
);
};
private handleCanvasDoubleClick = (
event: React.MouseEvent<HTMLCanvasElement>,
event: Pick<
React.MouseEvent<HTMLCanvasElement>,
| "type"
| "clientX"
| "clientY"
| "altKey"
| "ctrlKey"
| "metaKey"
| "shiftKey"
>,
) => {
if (
this.state.editingTextElement ||
!this.shouldHandleBrowserCanvasDoubleClick(event.type)
) {
return;
}
// case: double-clicking with arrow/line tool selected would both create
// text and enter multiElement mode
if (this.state.multiElement) {
@@ -6331,6 +6573,21 @@ class App extends React.Component<AppProps, AppState> {
}
};
private handleCanvasClick = (event: React.MouseEvent<HTMLCanvasElement>) => {
if (event.button !== POINTER_BUTTON.MAIN) {
this.lastCompletedCanvasClicks = [];
return;
}
this.lastCompletedCanvasClicks = [
...this.lastCompletedCanvasClicks.slice(-1),
{
x: event.clientX,
y: event.clientY,
},
];
};
private getElementLinkAtPosition = (
scenePointer: Readonly<{ x: number; y: number }>,
hitElementMightBeLocked: NonDeletedExcalidrawElement | null,
@@ -6550,7 +6807,10 @@ class App extends React.Component<AppProps, AppState> {
if (
!this.state.newElement &&
isActiveToolNonLinearSnappable(this.state.activeTool.type)
(isActiveToolNonLinearSnappable(this.state.activeTool.type) ||
((this.state.activeTool.type === "line" ||
this.state.activeTool.type === "arrow") &&
this.state.currentItemArrowType !== ARROW_TYPE.elbow))
) {
const { originOffset, snapLines } = getSnapLinesAtPointer(
this.scene.getNonDeletedElements(),
@@ -6599,7 +6859,7 @@ class App extends React.Component<AppProps, AppState> {
this.state.selectedLinearElement?.isEditing &&
!this.state.selectedLinearElement.isDragging
) {
const editingLinearElement = this.state.newElement
const result = this.state.newElement
? null
: LinearElementEditor.handlePointerMoveInEditMode(
event,
@@ -6608,18 +6868,33 @@ class App extends React.Component<AppProps, AppState> {
this,
);
if (
editingLinearElement &&
editingLinearElement !== this.state.selectedLinearElement
) {
// Since we are reading from previous state which is not possible with
// automatic batching in React 18 hence using flush sync to synchronously
// update the state. Check https://github.com/excalidraw/excalidraw/pull/5508 for more details.
flushSync(() => {
this.setState({
selectedLinearElement: editingLinearElement,
});
if (result) {
const { editingLinearElement, snapLines } = result;
const nextState = this.withStableSnapLines({
selectedLinearElement: editingLinearElement,
snapLines,
});
if (
editingLinearElement &&
this.shouldUpdateSelectedLinearElementState(
nextState.selectedLinearElement,
nextState.snapLines,
)
) {
// Since we are reading from previous state which is not possible with
// automatic batching in React 18 hence using flush sync to synchronously
// update the state. Check https://github.com/excalidraw/excalidraw/pull/5508 for more details.
flushSync(() => {
this.setState(nextState);
});
}
if (
editingLinearElement.lastUncommittedPoint == null &&
this.state.suggestedBinding
) {
this.setState({ suggestedBinding: null });
}
}
}
@@ -6761,27 +7036,23 @@ class App extends React.Component<AppProps, AppState> {
},
{ informMutation: false, isDragging: false },
);
const newLastIdx = multiElement.points.length - 1;
this.setState({
selectedLinearElement: {
...selectedLinearElement,
selectedPointsIndices:
selectedLinearElement.selectedPointsIndices?.includes(
multiElement.points.length,
)
? [
...selectedLinearElement.selectedPointsIndices.filter(
(idx) =>
idx !== multiElement.points.length &&
idx !== multiElement.points.length - 1,
selectedPointsIndices: selectedLinearElement.selectedPointsIndices
? [
...new Set(
selectedLinearElement.selectedPointsIndices.map((idx) =>
Math.min(idx, newLastIdx),
),
multiElement.points.length - 1,
]
: selectedLinearElement.selectedPointsIndices,
lastCommittedPoint:
multiElement.points[multiElement.points.length - 1],
),
]
: selectedLinearElement.selectedPointsIndices,
lastCommittedPoint: multiElement.points[newLastIdx],
initialState: {
...selectedLinearElement.initialState,
lastClickedPoint: multiElement.points.length - 1,
lastClickedPoint: newLastIdx,
},
},
});
@@ -6867,6 +7138,12 @@ class App extends React.Component<AppProps, AppState> {
const elements = this.scene.getNonDeletedElements();
const selectedElements = this.scene.getSelectedElements(this.state);
if (this.isHittingTextAutoResizeHandle(selectedElements, scenePointer)) {
setCursor(this.interactiveCanvas, CURSOR_TYPE.POINTER);
return;
}
if (
selectedElements.length === 1 &&
!isOverScrollBar &&
@@ -7003,6 +7280,14 @@ class App extends React.Component<AppProps, AppState> {
this.interactiveCanvas,
isTextElement(hitElement) ? CURSOR_TYPE.TEXT : CURSOR_TYPE.CROSSHAIR,
);
} else if (
!event[KEYS.CTRL_OR_CMD] &&
this.isHittingCommonBoundingBoxOfSelectedElements(
scenePointer,
selectedElements,
)
) {
setCursor(this.interactiveCanvas, CURSOR_TYPE.MOVE);
} else if (this.state.viewModeEnabled) {
setCursor(this.interactiveCanvas, CURSOR_TYPE.GRAB);
} else if (this.state.openDialog?.name === "elementLinkSelector") {
@@ -7011,7 +7296,9 @@ class App extends React.Component<AppProps, AppState> {
setCursor(this.interactiveCanvas, CURSOR_TYPE.AUTO);
} else if (
// if using cmd/ctrl, we're not dragging
!event[KEYS.CTRL_OR_CMD]
!event[KEYS.CTRL_OR_CMD] &&
// editing text -> don't show move cursor when hovering over its bbox
hitElement?.id !== this.state.editingTextElement?.id
) {
if (
(hitElement ||
@@ -7232,6 +7519,8 @@ class App extends React.Component<AppProps, AppState> {
private handleCanvasPointerDown = (
event: React.PointerEvent<HTMLElement>,
) => {
const selectedElements = this.scene.getSelectedElements(this.state);
// If Ctrl is not held, ensure isBindingEnabled reflects the user preference.
if (!event.ctrlKey) {
const preferenceEnabled = this.state.bindingPreference === "enabled";
@@ -7455,6 +7744,15 @@ class App extends React.Component<AppProps, AppState> {
selectedElementsAreBeingDragged: false,
});
if (
this.handleTextAutoResizeHandlePointerDown(
selectedElements,
pointerDownState.origin,
)
) {
return;
}
if (this.handleDraggingScrollBar(event, pointerDownState)) {
return;
}
@@ -7481,17 +7779,24 @@ class App extends React.Component<AppProps, AppState> {
const hitSelectedElement =
pointerDownState.hit.element &&
this.isASelectedElement(pointerDownState.hit.element);
const shouldForceLassoReselect =
event.altKey &&
event[KEYS.CTRL_OR_CMD] &&
!pointerDownState.resize.handleType;
const shouldStartLassoSelection =
shouldForceLassoReselect ||
(!pointerDownState.hit.hasHitCommonBoundingBoxOfSelectedElements &&
!pointerDownState.resize.handleType &&
!hitSelectedElement);
if (
!pointerDownState.hit.hasHitCommonBoundingBoxOfSelectedElements &&
!pointerDownState.resize.handleType &&
!hitSelectedElement
) {
this.lassoTrail.startPath(
pointerDownState.origin.x,
pointerDownState.origin.y,
event.shiftKey,
);
if (shouldStartLassoSelection) {
if (!this.lassoTrail.hasCurrentTrail) {
this.lassoTrail.startPath(
pointerDownState.origin.x,
pointerDownState.origin.y,
event.shiftKey,
);
}
// block dragging after lasso selection on PCs until the next pointer down
// (on mobile or tablet, we want to allow user to drag immediately)
@@ -7680,6 +7985,10 @@ class App extends React.Component<AppProps, AppState> {
}
this.removePointer(event);
this.lastPointerUpIsDoubleClick = this.isDoubleClick(
this.lastPointerUpEvent,
event,
);
this.lastPointerUpEvent = event;
if (!event.ctrlKey) {
@@ -8476,12 +8785,14 @@ class App extends React.Component<AppProps, AppState> {
DEFAULT_COLLISION_THRESHOLD / this.state.zoom.value,
1,
);
const boundsPadding =
(DEFAULT_TRANSFORM_HANDLE_SPACING * 2) / this.state.zoom.value;
const [x1, y1, x2, y2] = getCommonBounds(selectedElements);
return (
point.x > x1 - threshold &&
point.x < x2 + threshold &&
point.y > y1 - threshold &&
point.y < y2 + threshold
point.x > x1 - boundsPadding - threshold &&
point.x < x2 + boundsPadding + threshold &&
point.y > y1 - boundsPadding - threshold &&
point.y < y2 + boundsPadding + threshold
);
}
@@ -8516,6 +8827,7 @@ class App extends React.Component<AppProps, AppState> {
insertAtParentCenter: !event.altKey,
container,
autoEdit: false,
initialCaretSceneCoords: { x: sceneX, y: sceneY },
});
resetCursor(this.interactiveCanvas);
@@ -9440,25 +9752,27 @@ class App extends React.Component<AppProps, AppState> {
pointerDownState.lastCoords.x = pointerCoords.x;
pointerDownState.lastCoords.y = pointerCoords.y;
pointerDownState.drag.hasOccurred = true;
const nextState = this.withStableSnapLines(newState);
// NOTE: Optimize setState calls because it
// affects history and performance
if (
newState.suggestedBinding !== this.state.suggestedBinding ||
nextState.suggestedBinding !== this.state.suggestedBinding ||
!isShallowEqual(
newState.selectedLinearElement?.selectedPointsIndices ?? [],
nextState.selectedLinearElement?.selectedPointsIndices ?? [],
this.state.selectedLinearElement?.selectedPointsIndices ?? [],
) ||
newState.selectedLinearElement?.hoverPointIndex !==
nextState.selectedLinearElement?.hoverPointIndex !==
this.state.selectedLinearElement?.hoverPointIndex ||
newState.selectedLinearElement?.customLineAngle !==
nextState.selectedLinearElement?.customLineAngle !==
this.state.selectedLinearElement?.customLineAngle ||
this.state.selectedLinearElement.isDragging !==
newState.selectedLinearElement?.isDragging ||
nextState.selectedLinearElement?.isDragging ||
this.state.selectedLinearElement?.initialState?.altFocusPoint !==
newState.selectedLinearElement?.initialState?.altFocusPoint
nextState.selectedLinearElement?.initialState?.altFocusPoint ||
nextState.snapLines !== this.state.snapLines
) {
this.setState(newState);
this.setState(nextState);
}
return;
@@ -10013,6 +10327,7 @@ class App extends React.Component<AppProps, AppState> {
this.state.selectionElement,
this.scene.getNonDeletedElementsMap(),
false,
this.state.boxSelectionMode,
)
: [];
@@ -10146,8 +10461,7 @@ class App extends React.Component<AppProps, AppState> {
this.lassoTrail.endPath();
this.previousPointerMoveCoords = null;
SnapCache.setReferenceSnapPoints(null);
SnapCache.setVisibleGaps(null);
SnapCache.destroy();
this.savePointer(childEvent.clientX, childEvent.clientY, "up");
@@ -11001,6 +11315,35 @@ class App extends React.Component<AppProps, AppState> {
return;
}
const selectedTextEditingContainer =
this.getSelectedTextEditingContainerAtPosition(hitElement, sceneCoords);
if (
activeTool.type === this.state.preferredSelectionTool.type &&
!this.state.editingTextElement &&
!pointerDownState.drag.hasOccurred &&
!pointerDownState.hit.wasAddedToSelection &&
!childEvent.shiftKey &&
!childEvent[KEYS.CTRL_OR_CMD] &&
!childEvent.altKey &&
childEvent.pointerType !== "touch" &&
hitElement &&
((isTextElement(hitElement) &&
this.state.selectedElementIds[hitElement.id] &&
this.scene.getSelectedElements(this.state).length === 1) ||
selectedTextEditingContainer)
) {
this.startTextEditing({
sceneX: sceneCoords.x,
sceneY: sceneCoords.y,
container: selectedTextEditingContainer,
initialCaretSceneCoords: this.lastPointerUpIsDoubleClick
? undefined
: sceneCoords,
});
return;
}
if (!activeTool.locked && activeTool.type !== "freedraw" && newElement) {
this.setState((prevState) => ({
selectedElementIds: makeNextSelectedElementIds(
@@ -46,6 +46,7 @@ import {
import { fontPickerKeyHandler } from "./keyboardNavHandlers";
import type { JSX } from "react";
import type { ExcalidrawFontFace } from "../../fonts/ExcalidrawFontFace";
export interface FontDescriptor {
value: number;
@@ -86,6 +87,15 @@ const getFontFamilyIcon = (fontFamily: FontFamilyValues): JSX.Element => {
}
};
const getFontFamilyLabel = (
fontFamily: FontFamilyValues,
fontFaces: ExcalidrawFontFace[],
) =>
// prefer our config as the browser resolved names may be wrapped in quotes and such
Object.entries(FONT_FAMILY).find(([, id]) => id === fontFamily)?.[0] ??
fontFaces[0]?.fontFace?.family ??
"Unknown";
export const FontPickerList = React.memo(
({
selectedFontFamily,
@@ -114,7 +124,7 @@ export const FontPickerList = React.memo(
const fontDescriptor = {
value: familyId,
icon: getFontFamilyIcon(familyId),
text: fontFaces[0]?.fontFace?.family ?? "Unknown",
text: getFontFamilyLabel(familyId, fontFaces),
};
if (metadata.deprecated) {
@@ -3,6 +3,7 @@ import { CANVAS_SEARCH_TAB, DEFAULT_SIDEBAR } from "@excalidraw/common";
import {
isFlowchartNodeElement,
isImageElement,
isGridModeEnabled,
isLinearElement,
isLineElement,
isTextBindableContainer,
@@ -16,7 +17,6 @@ import type { EditorInterface } from "@excalidraw/common";
import { t } from "../i18n";
import { getShortcutKey } from "../shortcut";
import { isEraserActive } from "../appState";
import { isGridModeEnabled } from "../snapping";
import "./HintViewer.scss";
@@ -26,13 +26,16 @@
background: var(--RadioGroup-background);
border: 1px solid var(--RadioGroup-border);
gap: 2px;
&__choice {
position: relative;
display: flex;
align-items: center;
justify-content: center;
width: 32px;
min-width: 20px;
height: 24px;
padding: 0 0.375rem;
color: var(--RadioGroup-choice-color-off);
background: var(--RadioGroup-choice-background-off);
+37 -33
View File
@@ -1,74 +1,78 @@
import React, { useEffect } from "react";
import { t } from "../i18n";
import "./Range.scss";
import type { AppClassProperties } from "../types";
export type RangeProps = {
updateData: (value: number) => void;
app: AppClassProperties;
label: React.ReactNode;
value: number;
onChange: (value: number) => void;
min?: number;
max?: number;
step?: number;
minLabel?: React.ReactNode;
hasCommonValue?: boolean;
testId?: string;
};
export const Range = ({ updateData, app, testId }: RangeProps) => {
export const Range = ({
label,
value,
onChange,
min = 0,
max = 100,
step = 10,
minLabel = min,
hasCommonValue = true,
testId,
}: RangeProps) => {
const rangeRef = React.useRef<HTMLInputElement>(null);
const valueRef = React.useRef<HTMLDivElement>(null);
const selectedElements = app.scene.getSelectedElements(app.state);
let hasCommonOpacity = true;
const firstElement = selectedElements.at(0);
const leastCommonOpacity = selectedElements.reduce((acc, element) => {
if (acc != null && acc !== element.opacity) {
hasCommonOpacity = false;
}
if (acc == null || acc > element.opacity) {
return element.opacity;
}
return acc;
}, firstElement?.opacity ?? null);
const value = leastCommonOpacity ?? app.state.currentItemOpacity;
useEffect(() => {
if (rangeRef.current && valueRef.current) {
const rangeElement = rangeRef.current;
const valueElement = valueRef.current;
const inputWidth = rangeElement.offsetWidth;
const thumbWidth = 15; // 15 is the width of the thumb
const thumbWidth =
parseFloat(
getComputedStyle(rangeElement).getPropertyValue(
"--slider-thumb-size",
),
) || 16;
const progress = ((value - min) / (max - min || 1)) * 100;
const position =
(value / 100) * (inputWidth - thumbWidth) + thumbWidth / 2;
(progress / 100) * (inputWidth - thumbWidth) + thumbWidth / 2;
valueElement.style.left = `${position}px`;
rangeElement.style.background = `linear-gradient(to right, var(--color-slider-track) 0%, var(--color-slider-track) ${value}%, var(--button-bg) ${value}%, var(--button-bg) 100%)`;
rangeElement.style.background = `linear-gradient(to right, var(--color-slider-track) 0%, var(--color-slider-track) ${progress}%, var(--button-bg) ${progress}%, var(--button-bg) 100%)`;
}
}, [value]);
}, [max, min, value]);
return (
<label className="control-label">
{t("labels.opacity")}
{label}
<div className="range-wrapper">
<input
style={{
["--color-slider-track" as string]: hasCommonOpacity
["--color-slider-track" as string]: hasCommonValue
? undefined
: "var(--button-bg)",
}}
ref={rangeRef}
type="range"
min="0"
max="100"
step="10"
min={min}
max={max}
step={step}
onChange={(event) => {
updateData(+event.target.value);
onChange(+event.target.value);
}}
value={value}
className="range-input"
data-testid={testId}
/>
<div className="value-bubble" ref={valueRef}>
{value !== 0 ? value : null}
{value !== min ? value : null}
</div>
<div className="zero-label">0</div>
<div className="zero-label">{minLabel}</div>
</div>
</label>
);
@@ -12,10 +12,11 @@ import { frameAndChildrenSelectedTogether } from "@excalidraw/element";
import { elementsAreInSameGroup } from "@excalidraw/element";
import { isGridModeEnabled } from "@excalidraw/element";
import type { NonDeletedExcalidrawElement } from "@excalidraw/element/types";
import { t } from "../../i18n";
import { isGridModeEnabled } from "../../snapping";
import { useExcalidrawAppState, useExcalidrawSetAppState } from "../App";
import { Island } from "../Island";
import { CloseIcon } from "../icons";
@@ -361,12 +361,10 @@ describe("stats for a non-generic element", () => {
mouse.clickAt(20, 30);
const editor = await getTextEditor();
updateTextEditor(editor, "Hello!");
act(() => {
editor.blur();
});
Keyboard.exitTextEditor(editor);
const text = h.elements[0] as ExcalidrawTextElement;
mouse.clickOn(text);
API.setSelectedElements([text]);
elementStats = stats?.querySelector("#elementStats");
@@ -752,7 +750,7 @@ describe("frame resizing behavior", () => {
x: 0,
y: 0,
width: 100,
height: 100,
height: 103,
});
// Create a rectangle outside the frame
@@ -54,6 +54,7 @@ type InteractiveCanvasProps = {
DOMAttributes<HTMLCanvasElement | HTMLDivElement>["onContextMenu"],
undefined
>;
onClick: Exclude<DOMAttributes<HTMLCanvasElement>["onClick"], undefined>;
onPointerMove: Exclude<
DOMAttributes<HTMLCanvasElement>["onPointerMove"],
undefined
@@ -213,6 +214,7 @@ const InteractiveCanvas = (props: InteractiveCanvasProps) => {
height={props.appState.height * props.scale}
ref={props.handleCanvasRef}
onContextMenu={props.onContextMenu}
onClick={props.onClick}
onPointerMove={props.onPointerMove}
onPointerUp={props.onPointerUp}
onPointerCancel={props.onPointerCancel}
@@ -2,7 +2,7 @@
.excalidraw {
.dropdown-menu {
max-width: 16rem;
max-width: 20rem;
z-index: 1;
&--placement-top {
@@ -1,4 +1,5 @@
import { useEditorInterface } from "../App";
import { Ellipsify } from "../Ellipsify";
import { RadioGroup } from "../RadioGroup";
type Props<T> = {
@@ -12,6 +13,7 @@ type Props<T> = {
onChange: (value: T) => void;
children: React.ReactNode;
name: string;
icon?: React.ReactNode;
};
const DropdownMenuItemContentRadio = <T,>({
@@ -21,13 +23,17 @@ const DropdownMenuItemContentRadio = <T,>({
choices,
children,
name,
icon,
}: Props<T>) => {
const editorInterface = useEditorInterface();
return (
<>
<div className="dropdown-menu-item-base dropdown-menu-item-bare">
<label className="dropdown-menu-item__text">{children}</label>
{icon && <div className="dropdown-menu-item__icon">{icon}</div>}
<label className="dropdown-menu-item__text">
<Ellipsify>{children}</Ellipsify>
</label>
<RadioGroup
name={name}
value={value}
@@ -39,7 +39,13 @@ import DropdownMenuItemCheckbox from "../dropdownMenu/DropdownMenuItemCheckbox";
import DropdownMenuItemContentRadio from "../dropdownMenu/DropdownMenuItemContentRadio";
import DropdownMenuItemLink from "../dropdownMenu/DropdownMenuItemLink";
import DropdownMenuSub from "../dropdownMenu/DropdownMenuSub";
import { GithubIcon, DiscordIcon, XBrandIcon, settingsIcon } from "../icons";
import {
GithubIcon,
DiscordIcon,
XBrandIcon,
settingsIcon,
emptyIcon,
} from "../icons";
import {
boltIcon,
DeviceDesktopIcon,
@@ -427,6 +433,39 @@ const PreferencesToggleToolLockItem = () => {
);
};
const PreferencesBoxSelectionModeItem = () => {
const { t } = useI18n();
const appState = useUIAppState();
const setAppState = useExcalidrawSetAppState();
return (
<DropdownMenuItemContentRadio<"contain" | "overlap">
name="boxSelectionMode"
icon={emptyIcon}
value={appState.boxSelectionMode}
onChange={(value) => {
setAppState({
boxSelectionMode: value,
});
}}
choices={[
{
value: "contain",
label: t("labels.boxSelectionContain"),
ariaLabel: t("labels.boxSelectionContain"),
},
{
value: "overlap",
label: t("labels.boxSelectionOverlap"),
ariaLabel: t("labels.boxSelectionOverlap"),
},
]}
>
{t("labels.boxSelectionMode")}
</DropdownMenuItemContentRadio>
);
};
const PreferencesToggleSnapModeItem = () => {
const { t } = useI18n();
const actionManager = useExcalidrawActionManager();
@@ -568,6 +607,7 @@ export const Preferences = ({
<DropdownMenuSub.Content className="excalidraw-main-menu-preferences-submenu">
{children || (
<>
<PreferencesBoxSelectionModeItem />
<PreferencesToggleToolLockItem />
<PreferencesToggleSnapModeItem />
<PreferencesToggleGridModeItem />
@@ -585,6 +625,7 @@ export const Preferences = ({
};
Preferences.ToggleToolLock = PreferencesToggleToolLockItem;
Preferences.BoxSelectionMode = PreferencesBoxSelectionModeItem;
Preferences.ToggleSnapMode = PreferencesToggleSnapModeItem;
Preferences.ToggleArrowBinding = PreferencesToggleArrowBindingItem;
Preferences.ToggleMidpointSnapping = PreferencesToggleMidpointSnappingItem;
+7 -1
View File
@@ -6,6 +6,7 @@ import {
MIME_TYPES,
cloneJSON,
SVG_DOCUMENT_PREAMBLE,
arrayToMap,
} from "@excalidraw/common";
import { getNonDeletedElements } from "@excalidraw/element";
@@ -49,6 +50,7 @@ export const prepareElementsForExport = (
exportSelectionOnly: boolean,
) => {
elements = getNonDeletedElements(elements);
const elementsMap = arrayToMap(elements);
const isExportingSelection =
exportSelectionOnly &&
@@ -71,7 +73,11 @@ export const prepareElementsForExport = (
isFrameLikeElement(exportedElements[0])
) {
exportingFrame = exportedElements[0];
exportedElements = getElementsOverlappingFrame(elements, exportingFrame);
exportedElements = getElementsOverlappingFrame(
elements,
exportingFrame,
elementsMap,
);
} else if (exportedElements.length > 1) {
exportedElements = getSelectedElements(
elements,
-4
View File
@@ -20,10 +20,6 @@ export const resaveAsImageWithScene = async (
) => {
const fileHandleType = getFileHandleType(fileHandle);
if (Math.random() < 1) {
throw new Error("OLALALALA");
}
if (!isImageFileHandleType(fileHandleType)) {
throw new Error(
"fileHandle should exist and should be of type svg or png when resaving",
+50 -7
View File
@@ -96,6 +96,8 @@ type RestoredAppState = Omit<
"offsetTop" | "offsetLeft" | "width" | "height"
>;
const MAX_ARROW_PX = 75_000;
export const AllowedExcalidrawActiveTools: Record<
AppState["activeTool"]["type"],
boolean
@@ -251,7 +253,9 @@ const repairBinding = <T extends ExcalidrawArrowElement>(
};
}
console.error(`could not repair binding for element`);
console.error(
`Could not repair binding for element "${boundElement?.id}" out of (${elementsMap?.size}) elements`,
);
} catch (error) {
console.error("Error repairing binding:", error);
}
@@ -465,8 +469,8 @@ export const restoreElement = (
element.endArrowhead === undefined
? "arrow"
: normalizeArrowhead(element.endArrowhead);
const x: number | undefined = element.x;
const y: number | undefined = element.y;
const x = element.x as number | undefined;
const y = element.y as number | undefined;
const points: readonly LocalPoint[] | undefined = // migrate old arrow model to new one
!Array.isArray(element.points) || element.points.length < 2
? [pointFrom(0, 0), pointFrom(element.width, element.height)]
@@ -491,8 +495,8 @@ export const restoreElement = (
startArrowhead,
endArrowhead,
points,
x,
y,
x: x ?? 0,
y: y ?? 0,
elbowed: (element as ExcalidrawArrowElement).elbowed,
...getSizeFromPoints(points),
};
@@ -511,12 +515,44 @@ export const restoreElement = (
})
: restoreElementWithProperties(element as ExcalidrawArrowElement, base);
return {
const normalizedRestoredElement = {
...restoredElement,
...LinearElementEditor.getNormalizeElementPointsAndCoords(
restoredElement,
),
};
// Last resort fix for extremely large arrows
if (
normalizedRestoredElement.width > MAX_ARROW_PX ||
normalizedRestoredElement.height > MAX_ARROW_PX
) {
console.error(
`Removing extremely large arrow ${
normalizedRestoredElement.id
} (type: ${
isElbowArrow(normalizedRestoredElement) ? "elbow" : "simple"
}, width: ${normalizedRestoredElement.width}, height: ${
normalizedRestoredElement.height
}, x: ${normalizedRestoredElement.x}, y: ${
normalizedRestoredElement.y
})`,
);
return {
...normalizedRestoredElement,
x: 0,
y: 0,
width: 100,
height: 100,
points: [
pointFrom<LocalPoint>(0, 0),
pointFrom<LocalPoint>(100, 100),
],
isDeleted: true,
};
}
return normalizedRestoredElement;
}
// generic elements
@@ -664,6 +700,7 @@ export const restoreElements = <T extends ExcalidrawElement>(
const existingElementsMap = existingElements
? arrayToMap(existingElements)
: null;
const restoredElements = syncInvalidIndices(
(targetElements || []).reduce((elements, element) => {
// filtering out selection, which is legacy, no longer kept in elements,
@@ -760,7 +797,7 @@ export const restoreElements = <T extends ExcalidrawElement>(
}
}
// NOTE (mtolmacs): Temporary fix for extremely large arrows
// NOTE (mtolmacs): Temporary fix for invalid/self-bound elbow arrows
// Need to iterate again so we have attached text nodes in elementsMap
return restoredElements.map((element) => {
if (
@@ -934,6 +971,12 @@ export const restoreAppState = (
: defaultValue;
}
const boxSelectionMode =
appState.boxSelectionMode ?? localAppState?.boxSelectionMode;
if (boxSelectionMode !== undefined) {
nextAppState.boxSelectionMode = boxSelectionMode;
}
return {
...nextAppState,
cursorButton: localAppState?.cursorButton || "up",
+2
View File
@@ -382,6 +382,8 @@ export { DiagramToCodePlugin } from "./components/DiagramToCodePlugin/DiagramToC
export { getDataURL } from "./data/blob";
export { isElementLink } from "@excalidraw/element";
export { Fonts } from "./fonts/Fonts";
export { setCustomTextMetricsProvider } from "@excalidraw/element";
export { CommandPalette } from "./components/CommandPalette/CommandPalette";
+4 -1
View File
@@ -185,6 +185,9 @@
"shapeSwitch": "Switch shape",
"preferences": "Preferences",
"preferences_toolLock": "Tool lock",
"boxSelectionMode": "Select on",
"boxSelectionContain": "Wrap",
"boxSelectionOverlap": "Overlap",
"arrowBinding": "Arrow binding",
"midpointSnapping": "Snap to midpoints"
},
@@ -661,7 +664,7 @@
"placeholder": {
"title": "Let's design your diagram",
"description": "Describe the diagram you want to create, and we'll generate it for you.",
"hint": "At the moment we know Flowchart, Sequence, Class, and Entity Relationship diagrams."
"hint": "At the moment we know Flowchart, Sequence, Class, State, and Entity Relationship diagrams."
},
"preview": "Preview",
"insert": "Insert",
+1 -1
View File
@@ -88,7 +88,7 @@
"@excalidraw/element": "0.18.0",
"@excalidraw/laser-pointer": "1.3.1",
"@excalidraw/math": "0.18.0",
"@excalidraw/mermaid-to-excalidraw": "2.1.1",
"@excalidraw/mermaid-to-excalidraw": "2.2.2",
"@excalidraw/random-username": "1.1.0",
"browser-fs-access": "0.38.0",
"canvas-roundrect-polyfill": "0.0.1",
@@ -41,6 +41,7 @@ import {
maxBindingDistance_simple,
isTextElement,
LinearElementEditor,
getActiveTextElement,
} from "@excalidraw/element";
import { renderSelectionElement } from "@excalidraw/element";
@@ -58,6 +59,8 @@ import {
isFocusPointVisible,
} from "@excalidraw/element";
import type { EditorInterface } from "@excalidraw/common";
import type {
TransformHandles,
TransformHandleType,
@@ -86,6 +89,10 @@ import {
} from "../scene/scrollbars";
import { getClientColor, renderRemoteCursors } from "../clients";
import {
getTextAutoResizeHandle,
getTextBoxPadding,
} from "../textAutoResizeHandle";
import {
bootstrapCanvas,
@@ -1149,6 +1156,7 @@ const renderLinearPointHandles = (
points[idx],
idx,
appState.zoom,
elementsMap,
)
) {
renderSingleLinearPoint(
@@ -1489,21 +1497,58 @@ const renderTextBox = (
selectionColor: InteractiveCanvasRenderConfig["selectionColor"],
) => {
context.save();
const padding = (DEFAULT_TRANSFORM_HANDLE_SPACING * 2) / appState.zoom.value;
const padding = getTextBoxPadding(appState.zoom.value);
const width = text.width + padding * 2;
const height = text.height + padding * 2;
const cx = text.x + width / 2;
const cy = text.y + height / 2;
const shiftX = -(width / 2 + padding);
const shiftY = -(height / 2 + padding);
const cx = text.x + text.width / 2;
const cy = text.y + text.height / 2;
const shiftX = -(text.width / 2 + padding);
const shiftY = -(text.height / 2 + padding);
context.translate(cx + appState.scrollX, cy + appState.scrollY);
context.rotate(text.angle);
context.lineWidth = 1 / appState.zoom.value;
context.strokeStyle = selectionColor;
context.globalAlpha = 0.5;
context.setLineDash([6 / appState.zoom.value, 4 / appState.zoom.value]);
context.strokeRect(shiftX, shiftY, width, height);
context.restore();
};
const renderResetAutoResizeHandle = (
text: NonDeleted<ExcalidrawTextElement>,
context: CanvasRenderingContext2D,
appState: InteractiveCanvasAppState,
selectionColor: InteractiveCanvasRenderConfig["selectionColor"],
formFactor: EditorInterface["formFactor"],
) => {
const autoResizeHandle = getTextAutoResizeHandle(
text,
appState.zoom.value,
formFactor,
);
if (!autoResizeHandle) {
return;
}
context.save();
context.globalAlpha = 0.5;
context.lineWidth = 1.5 / appState.zoom.value;
context.lineCap = "round";
context.strokeStyle = selectionColor;
context.beginPath();
context.moveTo(
autoResizeHandle.start[0] + appState.scrollX,
autoResizeHandle.start[1] + appState.scrollY,
);
context.lineTo(
autoResizeHandle.end[0] + appState.scrollX,
autoResizeHandle.end[1] + appState.scrollY,
);
context.stroke();
context.restore();
};
const _renderInteractiveScene = ({
app,
canvas,
@@ -1584,10 +1629,19 @@ const _renderInteractiveScene = ({
}
}
if (
appState.editingTextElement &&
isTextElement(appState.editingTextElement)
) {
const activeTextElement = getActiveTextElement(selectedElements, appState);
if (activeTextElement && !activeTextElement.autoResize) {
renderResetAutoResizeHandle(
activeTextElement,
context,
appState,
renderConfig.selectionColor,
editorInterface.formFactor,
);
}
if (appState.editingTextElement) {
const textElement = allElementsMap.get(appState.editingTextElement.id) as
| ExcalidrawTextElement
| undefined;
+2 -1
View File
@@ -2,7 +2,8 @@ import { pointFrom, type GlobalPoint, type LocalPoint } from "@excalidraw/math";
import { THEME } from "@excalidraw/common";
import type { PointSnapLine, PointerSnapLine } from "../snapping";
import type { PointSnapLine, PointerSnapLine } from "@excalidraw/element";
import type { InteractiveCanvasAppState } from "../types";
const SNAP_COLOR_LIGHT = "#ff6b6b";
+5 -1
View File
@@ -157,7 +157,11 @@ const prepareElementsForRender = ({
let nextElements: readonly ExcalidrawElement[];
if (exportingFrame) {
nextElements = getElementsOverlappingFrame(elements, exportingFrame);
nextElements = getElementsOverlappingFrame(
elements,
exportingFrame,
arrayToMap(elements),
);
} else if (frameRendering.enabled && frameRendering.name) {
nextElements = addFrameLabelsAsTextElements(elements, {
exportWithDarkMode,
@@ -13,6 +13,7 @@ exports[`contextMenu element > right-clicking on a group should select whole gro
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": {
"items": [
@@ -1086,6 +1087,7 @@ exports[`contextMenu element > selecting 'Add to library' in context menu adds e
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -1300,6 +1302,7 @@ exports[`contextMenu element > selecting 'Bring forward' in context menu brings
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -1631,6 +1634,7 @@ exports[`contextMenu element > selecting 'Bring to front' in context menu brings
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -1962,6 +1966,7 @@ exports[`contextMenu element > selecting 'Copy styles' in context menu copies st
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -2176,6 +2181,7 @@ exports[`contextMenu element > selecting 'Delete' in context menu deletes elemen
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -2417,6 +2423,7 @@ exports[`contextMenu element > selecting 'Duplicate' in context menu duplicates
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -2715,6 +2722,7 @@ exports[`contextMenu element > selecting 'Group selection' in context menu group
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -3087,6 +3095,7 @@ exports[`contextMenu element > selecting 'Paste styles' in context menu pastes s
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -3580,6 +3589,7 @@ exports[`contextMenu element > selecting 'Send backward' in context menu sends e
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -3903,6 +3913,7 @@ exports[`contextMenu element > selecting 'Send to back' in context menu sends el
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -4226,6 +4237,7 @@ exports[`contextMenu element > selecting 'Ungroup selection' in context menu ung
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -4358,7 +4370,7 @@ exports[`contextMenu element > selecting 'Ungroup selection' in context menu ung
"type": "rectangle",
"updated": 1,
"version": 5,
"versionNonce": 760410951,
"versionNonce": 1006504105,
"width": 20,
"x": -10,
"y": 0,
@@ -4383,14 +4395,14 @@ exports[`contextMenu element > selecting 'Ungroup selection' in context menu ung
"opacity": 100,
"roughness": 1,
"roundness": null,
"seed": 238820263,
"seed": 400692809,
"strokeColor": "#1e1e1e",
"strokeStyle": "solid",
"strokeWidth": 2,
"type": "rectangle",
"updated": 1,
"version": 5,
"versionNonce": 1006504105,
"versionNonce": 289600103,
"width": 20,
"x": 20,
"y": 30,
@@ -4637,6 +4649,7 @@ exports[`contextMenu element > shows 'Group selection' in context menu for multi
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": {
"items": [
@@ -5854,6 +5867,7 @@ exports[`contextMenu element > shows 'Ungroup selection' in context menu for gro
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": {
"items": [
@@ -6864,7 +6878,7 @@ exports[`contextMenu element > shows 'Ungroup selection' in context menu for gro
"type": "rectangle",
"updated": 1,
"version": 4,
"versionNonce": 747212839,
"versionNonce": 1723083209,
"width": 10,
"x": -10,
"y": 0,
@@ -6891,14 +6905,14 @@ exports[`contextMenu element > shows 'Ungroup selection' in context menu for gro
"opacity": 100,
"roughness": 1,
"roundness": null,
"seed": 238820263,
"seed": 400692809,
"strokeColor": "#1e1e1e",
"strokeStyle": "solid",
"strokeWidth": 2,
"type": "rectangle",
"updated": 1,
"version": 4,
"versionNonce": 1723083209,
"versionNonce": 760410951,
"width": 10,
"x": 12,
"y": 0,
@@ -7122,6 +7136,7 @@ exports[`contextMenu element > shows context menu for canvas > [end of test] app
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": {
"items": [
@@ -7811,6 +7826,7 @@ exports[`contextMenu element > shows context menu for element > [end of test] ap
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": {
"items": [
@@ -8802,6 +8818,7 @@ exports[`contextMenu element > shows context menu for element > [end of test] ap
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": {
"items": [
File diff suppressed because it is too large Load Diff
@@ -13,6 +13,7 @@ exports[`given element A and group of elements B and given both are selected whe
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -439,6 +440,7 @@ exports[`given element A and group of elements B and given both are selected whe
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -855,6 +857,7 @@ exports[`regression tests > Cmd/Ctrl-click exclusively select element under poin
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -1421,6 +1424,7 @@ exports[`regression tests > Drags selected element when hitting only bounding bo
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -1628,6 +1632,7 @@ exports[`regression tests > adjusts z order when grouping > [end of test] appSta
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -2012,6 +2017,7 @@ exports[`regression tests > alt-drag duplicates an element > [end of test] appSt
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -2257,6 +2263,7 @@ exports[`regression tests > arrow keys > [end of test] appState 1`] = `
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -2437,6 +2444,7 @@ exports[`regression tests > can drag element that covers another element, while
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -2762,6 +2770,7 @@ exports[`regression tests > change the properties of a shape > [end of test] app
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -3017,6 +3026,7 @@ exports[`regression tests > click on an element and drag it > [dragged] appState
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -3258,6 +3268,7 @@ exports[`regression tests > click on an element and drag it > [end of test] appS
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -3494,6 +3505,7 @@ exports[`regression tests > click to select a shape > [end of test] appState 1`]
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -3752,6 +3764,7 @@ exports[`regression tests > click-drag to select a group > [end of test] appStat
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -4066,6 +4079,7 @@ exports[`regression tests > deleting last but one element in editing group shoul
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -4502,6 +4516,7 @@ exports[`regression tests > deselects group of selected elements on pointer down
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -4785,6 +4800,7 @@ exports[`regression tests > deselects group of selected elements on pointer up w
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -5061,6 +5077,7 @@ exports[`regression tests > deselects selected element on pointer down when poin
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -5269,6 +5286,7 @@ exports[`regression tests > deselects selected element, on pointer up, when clic
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -5469,6 +5487,7 @@ exports[`regression tests > double click to edit a group > [end of test] appStat
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -5862,6 +5881,7 @@ exports[`regression tests > drags selected elements from point inside common bou
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -6159,6 +6179,7 @@ exports[`regression tests > draw every type of shape > [end of test] appState 1`
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -6947,6 +6968,7 @@ exports[`regression tests > given a group of selected elements with an element t
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -7281,6 +7303,7 @@ exports[`regression tests > given a selected element A and a not selected elemen
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -7560,6 +7583,7 @@ exports[`regression tests > given selected element A with lower z-index than uns
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -7795,6 +7819,7 @@ exports[`regression tests > given selected element A with lower z-index than uns
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -8035,6 +8060,7 @@ exports[`regression tests > key 2 selects rectangle tool > [end of test] appStat
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -8215,6 +8241,7 @@ exports[`regression tests > key 3 selects diamond tool > [end of test] appState
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -8395,6 +8422,7 @@ exports[`regression tests > key 4 selects ellipse tool > [end of test] appState
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -8575,6 +8603,7 @@ exports[`regression tests > key 5 selects arrow tool > [end of test] appState 1`
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -8636,7 +8665,14 @@ exports[`regression tests > key 5 selects arrow tool > [end of test] appState 1`
"openMenu": null,
"openPopup": null,
"openSidebar": null,
"originSnapOffset": null,
"originSnapOffset": {
"x": 0,
"y": 0,
},
"pasteDialog": {
"data": null,
"shown": false,
},
"penDetected": false,
"penMode": false,
"preferredSelectionTool": {
@@ -8807,6 +8843,7 @@ exports[`regression tests > key 6 selects line tool > [end of test] appState 1`]
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -9037,6 +9074,7 @@ exports[`regression tests > key 7 selects freedraw tool > [end of test] appState
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -9229,6 +9267,7 @@ exports[`regression tests > key a selects arrow tool > [end of test] appState 1`
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -9290,7 +9329,14 @@ exports[`regression tests > key a selects arrow tool > [end of test] appState 1`
"openMenu": null,
"openPopup": null,
"openSidebar": null,
"originSnapOffset": null,
"originSnapOffset": {
"x": 0,
"y": 0,
},
"pasteDialog": {
"data": null,
"shown": false,
},
"penDetected": false,
"penMode": false,
"preferredSelectionTool": {
@@ -9461,6 +9507,7 @@ exports[`regression tests > key d selects diamond tool > [end of test] appState
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -9641,6 +9688,7 @@ exports[`regression tests > key l selects line tool > [end of test] appState 1`]
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -9871,6 +9919,7 @@ exports[`regression tests > key o selects ellipse tool > [end of test] appState
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -10051,6 +10100,7 @@ exports[`regression tests > key p selects freedraw tool > [end of test] appState
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -10243,6 +10293,7 @@ exports[`regression tests > key r selects rectangle tool > [end of test] appStat
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -10423,6 +10474,7 @@ exports[`regression tests > make a group and duplicate it > [end of test] appSta
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -10954,6 +11006,7 @@ exports[`regression tests > noop interaction after undo shouldn't create history
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -11234,6 +11287,7 @@ exports[`regression tests > pinch-to-zoom works > [end of test] appState 1`] = `
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -11357,6 +11411,7 @@ exports[`regression tests > shift click on selected element should deselect it o
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -11557,6 +11612,7 @@ exports[`regression tests > shift-click to multiselect, then drag > [end of test
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -11876,6 +11932,7 @@ exports[`regression tests > should group elements and ungroup them > [end of tes
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -12305,6 +12362,7 @@ exports[`regression tests > single-clicking on a subgroup of a selected group sh
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -12945,6 +13003,7 @@ exports[`regression tests > spacebar + drag scrolls the canvas > [end of test] a
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -13071,6 +13130,7 @@ exports[`regression tests > supports nested groups > [end of test] appState 1`]
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -13702,6 +13762,7 @@ exports[`regression tests > switches from group of selected elements to another
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -14041,6 +14102,7 @@ exports[`regression tests > switches selected element on pointer down > [end of
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -14305,6 +14367,7 @@ exports[`regression tests > two-finger scroll works > [end of test] appState 1`]
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -14428,6 +14491,7 @@ exports[`regression tests > undo/redo drawing an element > [end of test] appStat
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -14792,6 +14856,7 @@ exports[`regression tests > updates fontSize & fontFamily appState > [end of tes
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
@@ -14915,6 +14980,7 @@ exports[`regression tests > zoom hotkeys > [end of test] appState 1`] = `
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
+12 -2
View File
@@ -4,6 +4,7 @@ import {
elementCenterPoint,
getCommonBounds,
getElementPointsCoords,
getLineHeightInPx,
} from "@excalidraw/element";
import { cropElement } from "@excalidraw/element";
import {
@@ -20,7 +21,7 @@ import {
isTextElement,
isFrameLikeElement,
} from "@excalidraw/element";
import { KEYS, arrayToMap } from "@excalidraw/common";
import { KEYS, arrayToMap, getLineHeight } from "@excalidraw/common";
import type { GlobalPoint, LocalPoint, Radians } from "@excalidraw/math";
@@ -516,8 +517,17 @@ export class UI {
UI.clickTool(type);
if (type === "text") {
const clickY = h.state.gridModeEnabled
? y
: y +
getLineHeightInPx(
h.state.currentItemFontSize,
getLineHeight(h.state.currentItemFontFamily),
) /
2;
mouse.reset();
mouse.click(x, y);
mouse.click(x, clickY);
} else if ((type === "line" || type === "arrow") && points.length > 2) {
points.forEach((point) => {
mouse.reset();
+77 -1
View File
@@ -314,7 +314,7 @@ describe("history", () => {
expect.objectContaining({ id: rect2.id, isDeleted: true }),
]);
mouse.downAt(0, 0);
mouse.downAt(-10, -10);
mouse.moveTo(25, 25);
mouse.moveTo(50, 50);
mouse.upAt(50, 50);
@@ -2971,6 +2971,82 @@ describe("history", () => {
expect(h.state.editingGroupId).toBeNull();
});
// TODO mark with "noncritical" tag once we migrate to vitest 4
it.skip("should support undo and redo when escape unwinds nested group editing", async () => {
const rectA = API.createElement({
type: "rectangle",
groupIds: ["inner", "outer"],
x: 0,
});
const rectB = API.createElement({
type: "rectangle",
groupIds: ["outer"],
x: 100,
});
const rectC = API.createElement({
type: "rectangle",
groupIds: ["inner", "outer"],
x: 200,
});
API.setElements([rectA, rectB, rectC]);
mouse.select(rectA);
mouse.doubleClickOn(rectA);
mouse.doubleClickOn(rectA);
assertSelectedElements([rectA]);
expect(h.state.editingGroupId).toBe("inner");
expect(API.getUndoStack().length).toBe(3);
expect(API.getRedoStack().length).toBe(0);
Keyboard.keyPress(KEYS.ESCAPE);
assertSelectedElements([rectA, rectC]);
expect(h.state.editingGroupId).toBe("outer");
expect(API.getUndoStack().length).toBe(4);
expect(API.getRedoStack().length).toBe(0);
Keyboard.keyPress(KEYS.ESCAPE);
assertSelectedElements([rectA, rectB, rectC]);
expect(h.state.editingGroupId).toBeNull();
expect(h.state.selectedGroupIds).toEqual({ outer: true });
expect(API.getUndoStack().length).toBe(5);
expect(API.getRedoStack().length).toBe(0);
Keyboard.keyPress(KEYS.ESCAPE);
expect(API.getSelectedElements()).toEqual([]);
expect(h.state.editingGroupId).toBeNull();
expect(h.state.selectedGroupIds).toEqual({});
expect(API.getUndoStack().length).toBe(6);
expect(API.getRedoStack().length).toBe(0);
Keyboard.undo();
assertSelectedElements([rectA, rectB, rectC]);
expect(h.state.editingGroupId).toBeNull();
expect(h.state.selectedGroupIds).toEqual({ outer: true });
Keyboard.undo();
assertSelectedElements([rectA, rectC]);
expect(h.state.editingGroupId).toBe("outer");
Keyboard.undo();
assertSelectedElements([rectA]);
expect(h.state.editingGroupId).toBe("inner");
Keyboard.redo();
assertSelectedElements([rectA, rectC]);
expect(h.state.editingGroupId).toBe("outer");
Keyboard.redo();
assertSelectedElements([rectA, rectB, rectC]);
expect(h.state.editingGroupId).toBeNull();
expect(h.state.selectedGroupIds).toEqual({ outer: true });
Keyboard.redo();
expect(API.getSelectedElements()).toEqual([]);
expect(h.state.editingGroupId).toBeNull();
expect(h.state.selectedGroupIds).toEqual({});
});
it("should iterate through the history when selected or editing linear element was remotely deleted", async () => {
// create three point arrow
UI.clickTool("arrow");
@@ -468,7 +468,7 @@ describe("regression tests", () => {
mouse.reset();
mouse.down();
mouse.move(-1000, -1000);
mouse.restorePosition(...end);
mouse.restorePosition(end[0] + 3, end[1] + 3);
mouse.up();
expect(h.elements.length).toBe(3);
@@ -519,7 +519,7 @@ describe("regression tests", () => {
mouse.reset();
mouse.down();
mouse.move(-1000, -1000);
mouse.restorePosition(...end);
mouse.restorePosition(end[0] + 3, end[1] + 3);
mouse.up();
for (const element of h.elements) {
@@ -537,7 +537,7 @@ describe("regression tests", () => {
mouse.moveTo(-10, -10); // the NW resizing handle is at [0, 0], so moving further
mouse.down();
mouse.move(-1000, -1000);
mouse.restorePosition(...end);
mouse.restorePosition(end[0] + 3, end[1] + 3);
mouse.up();
Keyboard.withModifierKeys({ ctrl: true, shift: true }, () => {
+568 -6
View File
@@ -1,7 +1,9 @@
import React from "react";
import { vi } from "vitest";
import { KEYS, reseed } from "@excalidraw/common";
import { KEYS, ROUNDNESS, reseed } from "@excalidraw/common";
import { getElementBounds, getElementLineSegments } from "@excalidraw/element";
import { pointFrom, pointRotateRads, type LocalPoint } from "@excalidraw/math";
import { SHAPES } from "../components/shapes";
@@ -12,6 +14,7 @@ import * as StaticScene from "../renderer/staticScene";
import { API } from "./helpers/api";
import { Keyboard, Pointer, UI } from "./helpers/ui";
import {
act,
render,
fireEvent,
mockBoundingClientRect,
@@ -39,6 +42,19 @@ const { h } = window;
const mouse = new Pointer("mouse");
const getOutlineBounds = (element: ReturnType<typeof API.createElement>) => {
const sceneElement = API.getElement(element);
const elementsMap = h.scene.getNonDeletedElementsMap();
const points = getElementLineSegments(sceneElement, elementsMap).flat();
return [
Math.min(...points.map((point) => point[0])),
Math.min(...points.map((point) => point[1])),
Math.max(...points.map((point) => point[0])),
Math.max(...points.map((point) => point[1])),
] as const;
};
describe("box-selection", () => {
beforeEach(async () => {
await render(<Excalidraw />);
@@ -108,6 +124,497 @@ describe("box-selection", () => {
assertSelectedElements([]);
});
it("should not select an element when the selection box only partially overlaps it", () => {
const rect1 = API.createElement({
type: "rectangle",
x: 0,
y: 0,
width: 50,
height: 50,
backgroundColor: "red",
fillStyle: "solid",
});
API.setElements([rect1]);
mouse.downAt(25, -20);
mouse.move(-1000, -1000);
mouse.moveTo(75, 70);
mouse.up();
assertSelectedElements([]);
});
});
describe("lasso reselection", () => {
beforeEach(async () => {
await render(<Excalidraw />);
});
it("should allow ctrl+alt lasso reselection when starting inside the active common bounds", () => {
const rectA = API.createElement({
type: "rectangle",
x: 0,
y: 0,
width: 100,
height: 100,
backgroundColor: "red",
fillStyle: "solid",
});
const rectB = API.createElement({
type: "rectangle",
x: 220,
y: 0,
width: 100,
height: 100,
backgroundColor: "blue",
fillStyle: "solid",
});
API.setElements([rectA, rectB]);
mouse.select([rectA, rectB]);
act(() => {
h.app.setActiveTool({ type: "lasso" });
});
Keyboard.withModifierKeys({ ctrl: true, alt: true }, () => {
mouse.downAt(110, 50);
mouse.moveTo(50, -20);
expect(h.app.lassoTrail.hasCurrentTrail).toBe(true);
mouse.moveTo(-20, 50);
mouse.moveTo(50, 120);
mouse.moveTo(110, 50);
mouse.up();
});
assertSelectedElements([rectA.id]);
});
});
describe("box-selection overlap mode", () => {
const boxSelect = (
startX: number,
startY: number,
endX: number,
endY: number,
) => {
mouse.downAt(startX, startY);
mouse.move(-1000, -1000);
mouse.moveTo(endX, endY);
mouse.up();
};
const boxSelectTopLeftAabbCorner = (
element: ReturnType<typeof API.createElement>,
) => {
const sceneElement = API.getElement(element);
const elementsMap = h.scene.getNonDeletedElementsMap();
const [x1, y1] = getElementBounds(sceneElement, elementsMap);
boxSelect(x1 + 2, y1 + 2, x1 + 12, y1 + 12);
};
const boxSelectTopRightAabbCorner = (
element: ReturnType<typeof API.createElement>,
) => {
const sceneElement = API.getElement(element);
const elementsMap = h.scene.getNonDeletedElementsMap();
const [, y1, x2] = getElementBounds(sceneElement, elementsMap);
boxSelect(x2 - 12, y1 + 2, x2 - 2, y1 + 12);
};
const boxSelectTopLeftRotatedLocalBoundsCorner = (
element: ReturnType<typeof API.createElement>,
) => {
const sceneElement = API.getElement(element);
const elementsMap = h.scene.getNonDeletedElementsMap();
const [x1, y1, x2, y2] = getElementBounds(sceneElement, elementsMap, true);
const center = pointFrom((x1 + x2) / 2, (y1 + y2) / 2);
const [cornerX, cornerY] = pointRotateRads(
pointFrom(x1, y1),
center,
sceneElement.angle,
);
boxSelect(cornerX - 4, cornerY - 4, cornerX + 4, cornerY + 4);
};
beforeEach(async () => {
await render(
<Excalidraw
initialData={{ appState: { boxSelectionMode: "overlap" } }}
/>,
);
});
it("should select an element when the selection box partially overlaps it", () => {
const rect1 = API.createElement({
type: "rectangle",
x: 0,
y: 0,
width: 50,
height: 50,
backgroundColor: "red",
fillStyle: "solid",
});
API.setElements([rect1]);
boxSelect(25, -20, 75, 70);
assertSelectedElements([rect1.id]);
});
it("should not select a transparent rectangle when the selection box stays inside it", () => {
const rect1 = API.createElement({
type: "rectangle",
x: 0,
y: 0,
width: 100,
height: 100,
backgroundColor: "transparent",
fillStyle: "solid",
});
API.setElements([rect1]);
boxSelect(25, 25, 75, 75);
assertSelectedElements([]);
});
it("should select a transparent rectangle when the selection box crosses its outline", () => {
const rect1 = API.createElement({
type: "rectangle",
x: 0,
y: 0,
width: 100,
height: 100,
backgroundColor: "transparent",
fillStyle: "solid",
});
API.setElements([rect1]);
boxSelect(25, 25, 125, 75);
assertSelectedElements([rect1.id]);
});
it("should not select a rotated transparent rectangle when the selection box stays inside it", () => {
const rect1 = API.createElement({
type: "rectangle",
x: 0,
y: 0,
width: 100,
height: 100,
angle: Math.PI / 4,
backgroundColor: "transparent",
fillStyle: "solid",
});
API.setElements([rect1]);
boxSelect(40, 40, 60, 60);
assertSelectedElements([]);
});
it("should select a rotated rounded rectangle when the selection box contains its outline but not its bounds", () => {
const rect = API.createElement({
type: "rectangle",
x: 0,
y: 0,
width: 100,
height: 180,
angle: Math.PI / 6,
backgroundColor: "transparent",
fillStyle: "solid",
roundness: { type: ROUNDNESS.ADAPTIVE_RADIUS },
roughness: 0,
});
API.setElements([rect]);
const sceneRect = API.getElement(rect);
const elementsMap = h.scene.getNonDeletedElementsMap();
const [boundsX1, boundsY1, boundsX2, boundsY2] = getElementBounds(
sceneRect,
elementsMap,
);
const [outlineX1, outlineY1, outlineX2, outlineY2] = getOutlineBounds(rect);
expect(outlineX1).toBeGreaterThan(boundsX1 - 1);
expect(outlineY1).toBeGreaterThan(boundsY1 - 1);
expect(outlineX2).toBeLessThan(boundsX2 + 1);
expect(outlineY2).toBeLessThan(boundsY2 + 1);
boxSelect(
outlineX1 - (outlineX1 - boundsX1) / 2,
outlineY1 - (outlineY1 - boundsY1) / 2,
outlineX2 + (boundsX2 - outlineX2) / 2,
outlineY2 + (boundsY2 - outlineY2) / 2,
);
assertSelectedElements([rect.id]);
});
it("should not select a filled rotated rectangle when the selection box only overlaps its axis-aligned bounds", () => {
const rect = API.createElement({
type: "rectangle",
x: 0,
y: 0,
width: 100,
height: 100,
angle: Math.PI / 4,
backgroundColor: "red",
fillStyle: "solid",
});
API.setElements([rect]);
boxSelectTopLeftAabbCorner(rect);
assertSelectedElements([]);
});
it("should not select a filled ellipse when the selection box only overlaps its bounds corner", () => {
const ellipse = API.createElement({
type: "ellipse",
x: 0,
y: 0,
width: 100,
height: 100,
backgroundColor: "red",
fillStyle: "solid",
});
API.setElements([ellipse]);
boxSelectTopRightAabbCorner(ellipse);
assertSelectedElements([]);
});
it("should not select a filled diamond when the selection box only overlaps its bounds corner", () => {
const diamond = API.createElement({
type: "diamond",
x: 0,
y: 0,
width: 100,
height: 100,
backgroundColor: "red",
fillStyle: "solid",
});
API.setElements([diamond]);
boxSelectTopRightAabbCorner(diamond);
assertSelectedElements([]);
});
it("should not select a filled rotated ellipse when the selection box only overlaps its axis-aligned bounds", () => {
const ellipse = API.createElement({
type: "ellipse",
x: 0,
y: 0,
width: 100,
height: 100,
angle: Math.PI / 4,
backgroundColor: "red",
fillStyle: "solid",
});
API.setElements([ellipse]);
boxSelectTopLeftRotatedLocalBoundsCorner(ellipse);
assertSelectedElements([]);
});
it("should not select a filled rotated diamond when the selection box only overlaps its rotated local bounds", () => {
const diamond = API.createElement({
type: "diamond",
x: 0,
y: 0,
width: 100,
height: 100,
angle: Math.PI / 4,
backgroundColor: "red",
fillStyle: "solid",
});
API.setElements([diamond]);
boxSelectTopLeftRotatedLocalBoundsCorner(diamond);
assertSelectedElements([]);
});
it("should not select rotated text when the selection box only overlaps its axis-aligned bounds", () => {
const text = API.createElement({
type: "text",
x: 0,
y: 0,
width: 100,
height: 100,
angle: Math.PI / 4,
text: "test",
});
API.setElements([text]);
boxSelect(-18, -18, -8, -8);
assertSelectedElements([]);
});
it("should not select rotated image when the selection box only overlaps its axis-aligned bounds", () => {
const image = API.createElement({
type: "image",
x: 0,
y: 0,
width: 100,
height: 100,
angle: Math.PI / 4,
fileId: "file_A",
status: "saved",
});
API.setElements([image]);
boxSelect(-18, -18, -8, -8);
assertSelectedElements([]);
});
it("should deselect a selected rotated rectangle when clicking in the empty corner of its axis-aligned bounds", () => {
const rect = API.createElement({
type: "rectangle",
x: 0,
y: 0,
width: 100,
height: 100,
angle: Math.PI / 4,
backgroundColor: "red",
fillStyle: "solid",
});
API.setElements([rect]);
mouse.clickAt(50, 50);
assertSelectedElements([rect.id]);
const sceneRect = API.getElement(rect);
const elementsMap = h.scene.getNonDeletedElementsMap();
const [x1, y1] = getElementBounds(sceneRect, elementsMap);
mouse.clickAt(x1 + 2, y1 + 2);
assertSelectedElements([]);
});
it("should not select a line when the selection box only overlaps its bounds", () => {
const line = API.createElement({
type: "line",
x: 0,
y: 0,
width: 100,
height: 100,
backgroundColor: "transparent",
points: [pointFrom<LocalPoint>(0, 0), pointFrom<LocalPoint>(100, 100)],
});
API.setElements([line]);
boxSelect(20, 50, 30, 60);
assertSelectedElements([]);
});
it("should not click-select rotated freedraw in the corner of its axis-aligned bounds", () => {
const freedraw = API.createElement({
type: "freedraw",
x: 0,
y: 0,
width: 100,
height: 100,
angle: Math.PI / 4,
backgroundColor: "transparent",
points: [
pointFrom<LocalPoint>(0, 0),
pointFrom<LocalPoint>(100, 0),
pointFrom<LocalPoint>(100, 100),
pointFrom<LocalPoint>(0, 100),
pointFrom<LocalPoint>(0, 0),
],
});
API.setElements([freedraw]);
const sceneFreedraw = API.getElement(freedraw);
const elementsMap = h.scene.getNonDeletedElementsMap();
const [x1, y1] = getElementBounds(sceneFreedraw, elementsMap);
mouse.clickAt(x1 + 2, y1 + 2);
assertSelectedElements([]);
});
it("should not select a freedraw when the selection box only overlaps its bounds", () => {
const freedraw = API.createElement({
type: "freedraw",
x: 0,
y: 0,
width: 100,
height: 100,
backgroundColor: "transparent",
points: [
pointFrom<LocalPoint>(0, 0),
pointFrom<LocalPoint>(50, 50),
pointFrom<LocalPoint>(100, 100),
],
});
API.setElements([freedraw]);
boxSelect(20, 50, 30, 60);
assertSelectedElements([]);
});
it("should not select a transparent framed element when the selection box stays inside its clipped bounds", () => {
const frame = API.createElement({
type: "frame",
x: 0,
y: 0,
width: 100,
height: 100,
backgroundColor: "transparent",
fillStyle: "solid",
});
const rect1 = API.createElement({
type: "rectangle",
x: 50,
y: 10,
width: 100,
height: 80,
frameId: frame.id,
backgroundColor: "transparent",
fillStyle: "solid",
});
API.setElements([frame, rect1]);
boxSelect(60, 20, 90, 60);
assertSelectedElements([]);
});
});
describe("inner box-selection", () => {
@@ -326,7 +833,7 @@ describe("select single element on the scene", () => {
fireEvent.pointerUp(canvas);
expect(renderInteractiveScene).toHaveBeenCalledTimes(8);
expect(renderStaticScene).toHaveBeenCalledTimes(6);
expect(renderStaticScene).toHaveBeenCalledTimes(7);
expect(h.state.selectionElement).toBeNull();
expect(h.elements.length).toEqual(1);
expect(h.state.selectedElementIds[h.elements[0].id]).toBeTruthy();
@@ -359,7 +866,7 @@ describe("select single element on the scene", () => {
fireEvent.pointerUp(canvas);
expect(renderInteractiveScene).toHaveBeenCalledTimes(8);
expect(renderStaticScene).toHaveBeenCalledTimes(6);
expect(renderStaticScene).toHaveBeenCalledTimes(7);
expect(h.state.selectionElement).toBeNull();
expect(h.elements.length).toEqual(1);
expect(h.state.selectedElementIds[h.elements[0].id]).toBeTruthy();
@@ -392,7 +899,7 @@ describe("select single element on the scene", () => {
fireEvent.pointerUp(canvas);
expect(renderInteractiveScene).toHaveBeenCalledTimes(8);
expect(renderStaticScene).toHaveBeenCalledTimes(6);
expect(renderStaticScene).toHaveBeenCalledTimes(7);
expect(h.state.selectionElement).toBeNull();
expect(h.elements.length).toEqual(1);
expect(h.state.selectedElementIds[h.elements[0].id]).toBeTruthy();
@@ -438,7 +945,7 @@ describe("select single element on the scene", () => {
fireEvent.pointerUp(canvas);
expect(renderInteractiveScene).toHaveBeenCalledTimes(10);
expect(renderStaticScene).toHaveBeenCalledTimes(8);
expect(renderStaticScene).toHaveBeenCalledTimes(9);
expect(h.state.selectionElement).toBeNull();
expect(h.elements.length).toEqual(1);
expect(h.state.selectedElementIds[h.elements[0].id]).toBeTruthy();
@@ -483,7 +990,7 @@ describe("select single element on the scene", () => {
fireEvent.pointerUp(canvas);
expect(renderInteractiveScene).toHaveBeenCalledTimes(10);
expect(renderStaticScene).toHaveBeenCalledTimes(8);
expect(renderStaticScene).toHaveBeenCalledTimes(9);
expect(h.state.selectionElement).toBeNull();
expect(h.elements.length).toEqual(1);
expect(h.state.selectedElementIds[h.elements[0].id]).toBeTruthy();
@@ -558,3 +1065,58 @@ describe("selectedElementIds stability", () => {
expect(h.state.selectedElementIds).toBe(selectedElementIds_2);
});
});
describe("deselecting", () => {
beforeEach(async () => {
await render(<Excalidraw handleKeyboardGlobally={true} />);
});
it("esc unwinds nested group editing before deselecting", () => {
const rectA = API.createElement({
type: "rectangle",
x: 0,
y: 0,
groupIds: ["inner", "outer"],
});
const rectB = API.createElement({
type: "rectangle",
x: 100,
y: 0,
groupIds: ["outer"],
});
const rectC = API.createElement({
type: "rectangle",
x: 200,
y: 0,
groupIds: ["inner", "outer"],
});
API.setElements([rectA, rectB, rectC]);
mouse.select(rectA);
assertSelectedElements(rectA, rectB, rectC);
expect(h.state.editingGroupId).toBeNull();
mouse.doubleClickOn(rectA);
assertSelectedElements(rectA, rectC);
expect(h.state.editingGroupId).toBe("outer");
mouse.doubleClickOn(rectA);
assertSelectedElements(rectA);
expect(h.state.editingGroupId).toBe("inner");
Keyboard.keyPress(KEYS.ESCAPE);
assertSelectedElements(rectA, rectC);
expect(h.state.editingGroupId).toBe("outer");
Keyboard.keyPress(KEYS.ESCAPE);
assertSelectedElements(rectA, rectB, rectC);
expect(h.state.editingGroupId).toBeNull();
expect(h.state.selectedGroupIds).toEqual({ outer: true });
Keyboard.keyPress(KEYS.ESCAPE);
expect(API.getSelectedElements()).toEqual([]);
expect(h.state.editingGroupId).toBeNull();
expect(h.state.selectedGroupIds).toEqual({});
});
});
@@ -0,0 +1,88 @@
import { DEFAULT_TRANSFORM_HANDLE_SPACING } from "@excalidraw/common";
import {
pointFrom,
pointRotateRads,
type GlobalPoint,
type Radians,
} from "@excalidraw/math";
import type { EditorInterface } from "@excalidraw/common";
import type { ExcalidrawTextElement } from "@excalidraw/element/types";
const TEXT_AUTO_RESIZE_HANDLE_GAP = 12;
const TEXT_AUTO_RESIZE_HANDLE_LENGTH = 16;
const TEXT_AUTO_RESIZE_HANDLE_HITBOX_WIDTH = 10;
const TEXT_AUTO_RESIZE_HANDLE_HITBOX_HEIGHT =
TEXT_AUTO_RESIZE_HANDLE_LENGTH + 2;
const MAX_HANDLE_HEIGHT_RATIO = 0.8;
export const getTextBoxPadding = (zoomValue: number) =>
(DEFAULT_TRANSFORM_HANDLE_SPACING * 2) / zoomValue;
export const getTextAutoResizeHandle = (
textElement: ExcalidrawTextElement,
zoomValue: number,
formFactor: EditorInterface["formFactor"],
) => {
if (
formFactor !== "desktop" ||
TEXT_AUTO_RESIZE_HANDLE_LENGTH >
textElement.height * zoomValue * MAX_HANDLE_HEIGHT_RATIO
) {
return null;
}
const padding = getTextBoxPadding(zoomValue);
const gap = TEXT_AUTO_RESIZE_HANDLE_GAP / zoomValue;
const length = TEXT_AUTO_RESIZE_HANDLE_LENGTH / zoomValue;
const center = pointFrom(
textElement.x + textElement.width / 2,
textElement.y + textElement.height / 2,
);
const handleCenter = pointRotateRads(
pointFrom(center[0] + textElement.width / 2 + padding + gap, center[1]),
center,
textElement.angle,
);
return {
center: handleCenter,
start: pointRotateRads(
pointFrom(handleCenter[0], handleCenter[1] - length / 2),
handleCenter,
textElement.angle,
) as GlobalPoint,
end: pointRotateRads(
pointFrom(handleCenter[0], handleCenter[1] + length / 2),
handleCenter,
textElement.angle,
) as GlobalPoint,
hitboxWidth: TEXT_AUTO_RESIZE_HANDLE_HITBOX_WIDTH / zoomValue,
hitboxHeight: TEXT_AUTO_RESIZE_HANDLE_HITBOX_HEIGHT / zoomValue,
};
};
export const isPointHittingTextAutoResizeHandle = (
point: Readonly<{ x: number; y: number }>,
textElement: ExcalidrawTextElement,
zoomValue: number,
formFactor: EditorInterface["formFactor"],
) => {
const handle = getTextAutoResizeHandle(textElement, zoomValue, formFactor);
if (!handle) {
return false;
}
const unrotatedPoint = pointRotateRads(
pointFrom(point.x, point.y),
handle.center,
-textElement.angle as Radians,
);
return (
Math.abs(unrotatedPoint[0] - handle.center[0]) <= handle.hitboxWidth / 2 &&
Math.abs(unrotatedPoint[1] - handle.center[1]) <= handle.hitboxHeight / 2
);
};
+10 -5
View File
@@ -10,6 +10,8 @@ import type { LinearElementEditor } from "@excalidraw/element";
import type { MaybeTransformHandleType } from "@excalidraw/element";
import type { SnapLine } from "@excalidraw/element";
import type {
PointerType,
ExcalidrawLinearElement,
@@ -32,6 +34,7 @@ import type {
OrderedExcalidrawElement,
ExcalidrawNonSelectionElement,
BindMode,
ExcalidrawTextElement,
} from "@excalidraw/element/types";
import type {
@@ -54,7 +57,6 @@ import type { ClipboardData } from "./clipboard";
import type App from "./components/App";
import type Library from "./data/library";
import type { ContextMenuItems } from "./components/ContextMenu";
import type { SnapLine } from "./snapping";
import type { ImportedDataState } from "./data/types";
import type { Language } from "./i18n";
@@ -268,6 +270,8 @@ export type ObservedElementsAppState = {
activeLockedId: AppState["activeLockedId"];
};
export type BoxSelectionMode = "contain" | "overlap";
export interface AppState {
contextMenu: {
items: ContextMenuItems;
@@ -306,6 +310,8 @@ export interface AppState {
* `bindingPreference` and keyboard modifiers (ctrl/alt)
*/
isBindingEnabled: boolean;
/** user box selection preference; defaults to "contain" when unset */
boxSelectionMode: BoxSelectionMode;
/** user arrow binding preference */
bindingPreference: "enabled" | "disabled";
/** user preference whether arrow snap to midpoints while binding */
@@ -327,7 +333,7 @@ export interface AppState {
/**
* set when a new text is created or when an existing text is being edited
*/
editingTextElement: NonDeletedExcalidrawElement | null;
editingTextElement: ExcalidrawTextElement | null;
activeTool: {
/**
* indicates a previous tool we should revert back to if we deselect the
@@ -876,9 +882,8 @@ export type PointerDownState = Readonly<{
// by default same as PointerDownState.origin. On alt-duplication, reset
// to current pointer position at time of duplication.
origin: { x: number; y: number };
// Whether to block drag after lasso selection
// this is meant to be used to block dragging after lasso selection on PCs
// until the next pointer down
// explicit flag for specific scenarios such as:
// - after lasso selection until the next pointer down
blockDragging: boolean;
};
// We need to have these in the state so that we can unsubscribe them
@@ -1,7 +1,10 @@
import { queryByText } from "@testing-library/react";
import { pointFrom } from "@excalidraw/math";
import { getOriginalContainerHeightFromCache } from "@excalidraw/element";
import {
getLineHeightInPx,
getOriginalContainerHeightFromCache,
} from "@excalidraw/element";
import {
CODES,
@@ -42,6 +45,28 @@ unmountComponent();
const tab = " ";
const mouse = new Pointer("mouse");
const exitTextEditorAndAssertSelection = async ({
editor,
selectedIds,
nextText,
}: {
editor: HTMLTextAreaElement;
selectedIds: string[];
nextText?: string;
}) => {
if (nextText !== undefined) {
updateTextEditor(editor, nextText);
}
Keyboard.exitTextEditor(editor);
expect(await getTextEditor({ waitForEditor: false })).toBe(null);
expect(window.h.state.editingTextElement).toBeNull();
expect(API.getSelectedElements().map((element) => element.id)).toEqual(
selectedIds,
);
};
describe("textWysiwyg", () => {
describe("start text editing", () => {
const { h } = window;
@@ -210,6 +235,42 @@ describe("textWysiwyg", () => {
expect(h.elements.length).toBe(1);
});
it("should vertically center newly created text on the cursor when clicked with text tool", async () => {
API.setAppState({
currentItemFontFamily: FONT_FAMILY.Cascadia,
currentItemFontSize: 40,
});
UI.clickTool("text");
mouse.clickAt(120, 80);
const editor = await getTextEditor();
const text = h.elements[0] as ExcalidrawTextElement;
const lineHeightPx = getLineHeightInPx(text.fontSize, text.lineHeight);
expect(editor).not.toBe(null);
expect(text.y + lineHeightPx / 2).toBe(80);
});
it("should snap newly created text top-left to the current grid cell when clicked with text tool in grid mode", async () => {
API.setAppState({
currentItemFontFamily: FONT_FAMILY.Cascadia,
currentItemFontSize: 40,
gridModeEnabled: true,
gridSize: 24,
});
UI.clickTool("text");
mouse.clickAt(113, 86);
const editor = await getTextEditor();
const text = h.elements[0] as ExcalidrawTextElement;
expect(editor).not.toBe(null);
expect(text.x).toBe(96);
expect(text.y).toBe(72);
});
it("should edit text under cursor when double-clicked with selection tool", async () => {
const text = API.createElement({
type: "text",
@@ -232,6 +293,94 @@ describe("textWysiwyg", () => {
expect(h.elements.length).toBe(1);
});
it("should reselect text after exiting wysiwyg with escape", async () => {
const text = API.createElement({
type: "text",
text: "ola",
x: 60,
y: 0,
width: 100,
height: 100,
});
API.setElements([text]);
API.setSelectedElements([text]);
UI.clickTool("selection");
Keyboard.keyPress(KEYS.ENTER);
const editor = await getTextEditor();
expect(editor).not.toBe(null);
expect(h.state.editingTextElement?.id).toBe(text.id);
await exitTextEditorAndAssertSelection({
editor,
selectedIds: [text.id],
});
});
it("should edit selected bound text on single click", async () => {
const container = API.createElement({
type: "rectangle",
width: 160,
height: 70,
boundElements: [],
});
const text = API.createElement({
type: "text",
text: "Hello World!",
x: container.x + 20,
y: container.y + 20,
width: 120,
height: 25,
containerId: container.id,
});
API.setElements([container, text]);
API.updateElement(container, {
boundElements: [{ type: "text", id: text.id }],
});
API.setSelectedElements([container]);
UI.clickTool("selection");
mouse.clickAt(text.x + 26, text.y + 10);
const editor = await getTextEditor();
expect(editor).not.toBe(null);
});
it("should not edit selected bound text container when only the container was single-clicked", async () => {
const container = API.createElement({
type: "rectangle",
width: 160,
height: 70,
boundElements: [],
});
const text = API.createElement({
type: "text",
text: "Hello World!",
x: container.x + 20,
y: container.y + 20,
width: 120,
height: 25,
containerId: container.id,
});
API.setElements([container, text]);
API.updateElement(container, {
boundElements: [{ type: "text", id: text.id }],
});
API.setSelectedElements([container]);
UI.clickTool("selection");
mouse.clickAt(container.x + 5, container.y + 10);
expect(h.state.editingTextElement).toBe(null);
expect(await getTextEditor({ waitForEditor: false })).toBe(null);
});
// FIXME too flaky. No one knows why.
it.skip("should bump the version of a labeled arrow when the label is updated", async () => {
const arrow = UI.createElement("arrow", {
@@ -1205,6 +1354,40 @@ describe("textWysiwyg", () => {
);
});
it.each([
{
label: "container",
createElements: () => API.createTextContainer(),
},
{
label: "arrow",
createElements: () => API.createLabeledArrow(),
},
])(
"should reselect $label after deleting bound text with escape",
async ({ createElements }) => {
const [selectedElement, text] = createElements();
API.setElements([selectedElement, text]);
API.setSelectedElements([selectedElement]);
Keyboard.keyPress(KEYS.ENTER);
const editor = await getTextEditor();
await exitTextEditorAndAssertSelection({
editor,
nextText: "",
selectedIds: [selectedElement.id],
});
expect(selectedElement.boundElements).toStrictEqual([]);
expect(h.elements[1]).toEqual(
expect.objectContaining({
isDeleted: true,
}),
);
},
);
it("should restore original container height and clear cache once text is unbind", async () => {
const container = API.createElement({
type: "rectangle",
@@ -1511,7 +1694,7 @@ describe("textWysiwyg", () => {
version: 2,
width: 610,
x: 15,
y: 25,
y: 12.5,
}),
);
expect(h.elements[2] as ExcalidrawTextElement).toEqual(
+203 -2
View File
@@ -10,7 +10,9 @@ import {
isTestEnv,
MIME_TYPES,
applyDarkModeFilter,
isRTL,
} from "@excalidraw/common";
import { pointFrom, pointRotateRads, type Radians } from "@excalidraw/math";
import {
getTextFromElements,
@@ -33,8 +35,11 @@ import {
getBoundTextElement,
} from "@excalidraw/element";
import { getTextWidth } from "@excalidraw/element";
import { getLineHeightInPx } from "@excalidraw/element";
import { getLineWidth } from "@excalidraw/element";
import { normalizeText } from "@excalidraw/element";
import { wrapText } from "@excalidraw/element";
import { getWrappedTextLines } from "@excalidraw/element";
import {
isArrowElement,
isBoundToContainer,
@@ -91,6 +96,103 @@ const getTransform = (
return `translate(${translateX}px, ${translateY}px) scale(${zoom.value}) rotate(${degree}deg)`;
};
const getLineDirection = (text: string, offset: number) => {
const hardLineStart = text.lastIndexOf("\n", Math.max(0, offset - 1)) + 1;
const hardLineEnd = text.indexOf("\n", offset);
const hardLineText = text.slice(
hardLineStart,
hardLineEnd === -1 ? text.length : hardLineEnd,
);
return isRTL(hardLineText) ? "rtl" : "ltr";
};
const getCaretBoundaryOffsets = (text: string) => {
const offsets = [0];
let offset = 0;
for (const char of Array.from(text)) {
offset += char.length;
offsets.push(offset);
}
return offsets;
};
const getLineCaretOffsetFromNativeLayout = ({
text,
font,
lineHeightPx,
direction,
targetX,
}: {
text: string;
font: ReturnType<typeof getFontString>;
lineHeightPx: number;
direction: "ltr" | "rtl";
targetX: number;
}) => {
if (!text || !document.body || typeof document.createRange !== "function") {
return null;
}
const offsets = getCaretBoundaryOffsets(text);
const mirror = document.createElement("div");
const textNode = document.createTextNode(text);
const range = document.createRange();
const positions: number[] = [];
mirror.dir = direction;
Object.assign(mirror.style, {
position: "fixed",
top: "0",
left: "0",
margin: 0,
padding: 0,
border: 0,
opacity: "0",
pointerEvents: "none",
whiteSpace: "pre",
font,
lineHeight: `${lineHeightPx}px`,
});
mirror.append(textNode);
document.body.append(mirror);
try {
for (const offset of offsets) {
range.setStart(textNode, offset);
range.setEnd(textNode, offset);
const caretRect = range.getBoundingClientRect();
if (!Number.isFinite(caretRect.left)) {
return null;
}
positions.push(caretRect.left);
}
} catch {
return null;
} finally {
mirror.remove();
}
const leftEdge = Math.min(...positions);
let closestOffset = offsets[0];
let closestDistance = Infinity;
for (let index = 0; index < offsets.length; index++) {
const distance = Math.abs(positions[index] - leftEdge - targetX);
if (distance < closestDistance) {
closestDistance = distance;
closestOffset = offsets[index];
}
}
return closestOffset;
};
type SubmitHandler = () => void;
export const textWysiwyg = ({
@@ -103,6 +205,7 @@ export const textWysiwyg = ({
excalidrawContainer,
app,
autoSelect = true,
initialCaretSceneCoords = null,
}: {
id: ExcalidrawElement["id"];
/**
@@ -119,7 +222,19 @@ export const textWysiwyg = ({
excalidrawContainer: HTMLDivElement | null;
app: App;
autoSelect?: boolean;
initialCaretSceneCoords?: { x: number; y: number } | null;
}): SubmitHandler => {
let currentTextLayout: {
angle: Radians;
font: ReturnType<typeof getFontString>;
height: number;
lineHeightPx: number;
textAlign: ExcalidrawTextElement["textAlign"];
width: number;
x: number;
y: number;
} | null = null;
const textPropertiesUpdated = (
updatedTextElement: ExcalidrawTextElement,
editable: HTMLTextAreaElement,
@@ -254,6 +369,7 @@ export const textWysiwyg = ({
height *= 1.05;
const font = getFontString(updatedTextElement);
const angle = getTextElementAngle(updatedTextElement, container);
// Make sure text editor height doesn't go beyond viewport
const editorMaxHeight =
@@ -269,7 +385,7 @@ export const textWysiwyg = ({
transform: getTransform(
width,
height,
getTextElementAngle(updatedTextElement, container),
angle,
appState,
maxWidth,
editorMaxHeight,
@@ -283,6 +399,19 @@ export const textWysiwyg = ({
opacity: updatedTextElement.opacity / 100,
maxHeight: `${editorMaxHeight}px`,
});
currentTextLayout = {
angle: angle as Radians,
font,
height: updatedTextElement.height,
lineHeightPx: getLineHeightInPx(
updatedTextElement.fontSize,
updatedTextElement.lineHeight,
),
textAlign,
width: updatedTextElement.width,
x: coordX,
y: coordY,
};
editable.scrollTop = 0;
// For some reason updating font attribute doesn't set font family
// hence updating font family explicitly for test environment
@@ -333,6 +462,71 @@ export const textWysiwyg = ({
editable.value = element.originalText;
updateWysiwygStyle();
const getCaretIndexFromInitialSceneCoords = () => {
if (!initialCaretSceneCoords || !currentTextLayout) {
return null;
}
const layout = currentTextLayout;
const center = pointFrom(
layout.x + layout.width / 2,
layout.y + layout.height / 2,
);
const [unrotatedX, unrotatedY] = pointRotateRads(
pointFrom(initialCaretSceneCoords.x, initialCaretSceneCoords.y),
center,
-layout.angle as Radians,
);
const localX = unrotatedX - layout.x;
const localY = unrotatedY - layout.y;
const lines = getWrappedTextLines(
editable.value,
layout.font,
whiteSpace === "pre-wrap" ? layout.width : Infinity,
);
const lineIndex = Math.max(
0,
Math.min(lines.length - 1, Math.floor(localY / layout.lineHeightPx)),
);
const line = lines[lineIndex];
const direction = getLineDirection(editable.value, line.start);
const lineWidth = getLineWidth(line.text, layout.font);
const lineStartX =
layout.textAlign === "center"
? (layout.width - lineWidth) / 2
: layout.textAlign === "right"
? layout.width - lineWidth
: 0;
const relativeX = localX - lineStartX;
if (!line.text) {
return line.start;
}
const lineCaretOffset = getLineCaretOffsetFromNativeLayout({
text: line.text,
font: layout.font,
lineHeightPx: layout.lineHeightPx,
direction,
targetX: relativeX,
});
return line.start + (lineCaretOffset || 0);
};
let pendingInitialSelection = (() => {
const caretIndex = getCaretIndexFromInitialSceneCoords();
if (caretIndex === null) {
return null;
}
return {
start: caretIndex,
end: caretIndex,
};
})();
if (onChange) {
editable.onpaste = async (event) => {
// we need to synchronously get the MIME types so we can preventDefault()
@@ -696,6 +890,13 @@ export const textWysiwyg = ({
// Otherwise, re-enable submit on blur and refocus the editor.
editable.onblur = handleSubmit;
editable.focus();
if (pendingInitialSelection) {
editable.setSelectionRange(
pendingInitialSelection.start,
pendingInitialSelection.end,
);
pendingInitialSelection = null;
}
});
};
@@ -786,7 +987,7 @@ export const textWysiwyg = ({
let isDestroyed = false;
if (autoSelect) {
if (autoSelect && !pendingInitialSelection) {
// select on init (focusing is done separately inside the bindBlurEvent()
// because we need it to happen *after* the blur event from `pointerdown`)
editable.select();
-2
View File
@@ -1,5 +1,3 @@
export const PRECISION = 10e-5;
// Legendre-Gauss abscissae (x values) and weights for n=24
// Refeerence: https://pomax.github.io/bezierinfo/legendre-gauss.html
export const LegendreGaussN24TValues = [
+39 -5
View File
@@ -137,8 +137,17 @@ const calculate = <Point extends GlobalPoint | LocalPoint>(
[t0, s0]: [number, number],
l: LineSegment<Point>,
c: Curve<Point>,
tolerance: number = 1e-2,
iterLimit: number = 4,
) => {
const solution = solveWithAnalyticalJacobian(c, l, t0, s0, 1e-2, 4);
const solution = solveWithAnalyticalJacobian(
c,
l,
t0,
s0,
tolerance,
iterLimit,
);
if (!solution) {
return null;
@@ -158,18 +167,43 @@ const calculate = <Point extends GlobalPoint | LocalPoint>(
*/
export function curveIntersectLineSegment<
Point extends GlobalPoint | LocalPoint,
>(c: Curve<Point>, l: LineSegment<Point>): Point[] {
let solution = calculate(initial_guesses[0], l, c);
>(
c: Curve<Point>,
l: LineSegment<Point>,
opts?: {
tolerance?: number;
iterLimit?: number;
},
): Point[] {
let solution = calculate(
initial_guesses[0],
l,
c,
opts?.tolerance,
opts?.iterLimit,
);
if (solution) {
return [solution];
}
solution = calculate(initial_guesses[1], l, c);
solution = calculate(
initial_guesses[1],
l,
c,
opts?.tolerance,
opts?.iterLimit,
);
if (solution) {
return [solution];
}
solution = calculate(initial_guesses[2], l, c);
solution = calculate(
initial_guesses[2],
l,
c,
opts?.tolerance,
opts?.iterLimit,
);
if (solution) {
return [solution];
}
+7 -2
View File
@@ -123,10 +123,15 @@ export function pointsEqual<Point extends GlobalPoint | LocalPoint>(
* @returns The rotated point
*/
export function pointRotateRads<Point extends GlobalPoint | LocalPoint>(
[x, y]: Point,
[cx, cy]: Point,
point: Point,
center: Point,
angle: Radians,
): Point {
if (!angle) {
return point;
}
const [x, y] = point;
const [cx, cy] = center;
return pointFrom(
(x - cx) * Math.cos(angle) - (y - cy) * Math.sin(angle) + cx,
(x - cx) * Math.sin(angle) + (y - cy) * Math.cos(angle) + cy,
+1 -1
View File
@@ -40,7 +40,7 @@ export const isLineSegment = <Point extends GlobalPoint | LocalPoint>(
Array.isArray(segment) &&
segment.length === 2 &&
isPoint(segment[0]) &&
isPoint(segment[0]);
isPoint(segment[1]);
/**
* Return the coordinates resulting from rotating the given line about an origin by an angle in radians
+25 -1
View File
@@ -1,5 +1,9 @@
import { pointFrom } from "../src/point";
import { lineSegment, lineSegmentIntersectionPoints } from "../src/segment";
import {
lineSegment,
lineSegmentIntersectionPoints,
isLineSegment,
} from "../src/segment";
describe("line-segment intersections", () => {
it("should correctly detect intersection", () => {
@@ -19,3 +23,23 @@ describe("line-segment intersections", () => {
).toEqual(null);
});
});
describe("isLineSegment validation", () => {
it("should return true for a valid segment", () => {
expect(
isLineSegment([
[0, 0],
[1, 1],
]),
).toBe(true);
});
it("should return false if second element is not a point", () => {
const invalidSegment = [[0, 0], "not-a-point"] as any;
expect(isLineSegment(invalidSegment)).toBe(false);
});
it("should return false for wrong length", () => {
expect(isLineSegment([[0, 0]])).toBe(false);
});
});
@@ -13,6 +13,7 @@ exports[`exportToSvg > with default arguments 1`] = `
},
"bindMode": "orbit",
"bindingPreference": "enabled",
"boxSelectionMode": "contain",
"collaborators": Map {},
"contextMenu": null,
"croppingElementId": null,
+7
View File
@@ -90,6 +90,13 @@ module.exports.woff2BrowserPlugin = () => {
type="font/woff2"
crossorigin="anonymous"
/>
<link
rel="preload"
href="${OSS_FONTS_CDN}fonts/Assistant/Assistant-SemiBold.woff2"
as="font"
type="font/woff2"
crossorigin="anonymous"
/>
<link
rel="preload"
href="${OSS_FONTS_CDN}fonts/ComicShanns/ComicShanns-Regular-279a7b317d12eb88de06167bd672b4b4.woff2"
+4 -4
View File
@@ -1531,10 +1531,10 @@
resolved "https://registry.yarnpkg.com/@excalidraw/markdown-to-text/-/markdown-to-text-0.1.2.tgz#1703705e7da608cf478f17bfe96fb295f55a23eb"
integrity sha512-1nDXBNAojfi3oSFwJswKREkFm5wrSjqay81QlyRv2pkITG/XYB5v+oChENVBQLcxQwX4IUATWvXM5BcaNhPiIg==
"@excalidraw/mermaid-to-excalidraw@2.1.0":
version "2.1.0"
resolved "https://registry.yarnpkg.com/@excalidraw/mermaid-to-excalidraw/-/mermaid-to-excalidraw-2.1.0.tgz#a5b9cf87c3185558cda7f9687d87b9937f452358"
integrity sha512-RMd+c2b7WzzUjhERMpKwp8PhF2/XlHDjr/zK+Gxfp8K9sVlafPYJ5OEa/GkN6edi2rBUXRfW+41WdO6L56b6Kw==
"@excalidraw/mermaid-to-excalidraw@2.2.2":
version "2.2.2"
resolved "https://registry.yarnpkg.com/@excalidraw/mermaid-to-excalidraw/-/mermaid-to-excalidraw-2.2.2.tgz#ee6b597a0d95b9a76f7ae41ce0e3733a9b96e4a0"
integrity sha512-5VKQq5CdRocC82vOIUpQ5ufJOVV9FpBTdHGA+ULqazeIVV+cr299877omQCibsdS3Bpitz2fsnTwnIXEmLVDSg==
dependencies:
"@excalidraw/markdown-to-text" "0.1.2"
"@mermaid-js/parser" "^0.6.3"