Compare commits

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65 Commits

Author SHA1 Message Date
Mark Tolmacs 2ed78d4895 fix: Improve rendering stability 2025-09-05 12:58:22 +02:00
Mark Tolmacs 5ba2798306 Iterating on arrows 2025-08-26 14:55:40 +02:00
Mark Tolmacs b8aae34e32 Fixes and handling 2025-08-25 14:46:07 +02:00
Mark Tolmacs 6317ac16ee Working screenshot diff 2025-08-25 11:20:38 +02:00
Mark Tolmacs 9ad75b8375 Direct function generation 2025-08-25 10:42:47 +02:00
Mark Tolmacs 4c9ad1a22f Implementation of one test 2025-08-20 17:53:20 +02:00
Mark Tolmacs 023895b49b Can generate and play back 2025-08-20 15:17:49 +02:00
Mark Tolmacs eb37be953a Install playwright 2025-08-20 15:17:35 +02:00
Ryan Di b4903a7eab feat: drag, resize, and rotate after selecting in lasso (#9732)
* feat: drag, resize, and rotate after selecting in lasso

* alternative ux: drag with lasso right away

* fix: lasso dragging should snap too

* fix: alt+cmd getting stuck

* test: snapshots

* alternatvie: keep lasso drag to only mobile

* alternative: drag after selection on PCs

* improve mobile dection

* add mobile lasso icon

* add default selection tool

* render according to default selection tool

* return to default selection tool after deletion

* reset to default tool after clearing out the canvas

* return to default tool after eraser toggle

* if default lasso, close lasso toggle

* finalize to default selection tool

* toggle between laser and default selection

* return to default selection tool after creation

* double click to add text when using default selection tool

* set to default selection tool after unlocking tool

* paste to center on touch screen

* switch to default selection tool after pasting

* lint

* fix tests

* show welcome screen when using default selection tool

* fix tests

* fix snapshots

* fix context menu not opening

* prevent potential displacement issue

* prevent element jumping during lasso selection

* fix dragging on mobile

* use same selection icon

* fix alt+cmd lasso getting cut off

* fix: shortcut handling

* lint

---------

Co-authored-by: dwelle <5153846+dwelle@users.noreply.github.com>
2025-08-20 00:03:02 +02:00
zsviczian c6f8ef9ad2 fix: Scene deleted after pica image resize failure (#9879)
Revert change in private updateImageCache
2025-08-18 11:45:05 +02:00
Marcel Mraz 2535d73054 feat: apply deltas API (#9869) 2025-08-15 15:25:56 +02:00
David Luzar dda3affcb0 fix: do not strip invisible elements from array (#9844) 2025-08-12 11:56:11 +02:00
Marcel Mraz 54c148f390 fix: text restore & deletion issues (#9853) 2025-08-12 09:27:04 +02:00
zsviczian cc8e490c75 fix: do not auto-add elements to locked frame (#9851)
* Do not return locked frames when filtering for top level frame

* lint

* lint

* lint
2025-08-11 11:52:44 +02:00
Marcel Mraz 9036812b6d fix: editing linear element (#9839) 2025-08-08 09:30:11 +02:00
Marcel Mraz df25de7e68 feat: fix delta apply to issues (#9830) 2025-08-07 15:38:58 +02:00
David Luzar a3763648fe chore: update title (#9814)
* chore: update title

* update meta tag

* lint
2025-08-01 17:17:42 +02:00
Ryan Di 178eca5828 fix: add frame clipping to new element canvas (#9794)
* fix: add frame clipping to new element canvas

* cleanup save/restore

---------

Co-authored-by: dwelle <5153846+dwelle@users.noreply.github.com>
2025-07-31 12:10:59 +00:00
Ryan Di cb33de25f4 feat: allow a frame to snap to its children (#9795) 2025-07-31 13:58:29 +02:00
Omar Brikaa 37ad85cbaf fix: Fix the root cause of flushSync flickering (#9791)
* More reliable width and height change detection

* Put the dimensions useEffect before the scene render one, just in case
2025-07-27 23:52:07 +02:00
Márk Tolmács d6a934ed19 chore: Remove editingLinearElement (#9771)
Co-authored-by: dwelle <5153846+dwelle@users.noreply.github.com>
2025-07-24 17:02:21 +02:00
Omar Brikaa 416da62138 fix: multiple line editor bugs (#9760)
Co-authored-by: Mark Tolmacs <mark@lazycat.hu>
2025-07-24 09:11:04 +02:00
Omar Brikaa f38f381989 fix: Remove flushSync from alt-lasso and elbow dragging (#9734)
* Remove lasso flushSync

* Remove selectedLinearElement flushSync

* Early return
2025-07-23 23:39:16 +02:00
Ryan Di e5e07260c6 fix: improve line creation ux on touch screens (#9740)
* fix: awkward point adding and removing on touch device

* feat: move finalize to next to last point

* feat: on touch screen, click would create a default line/arrow

* fix: make default adaptive to zoom

* fix: increase padding to avoid cutoffs

* refactor: simplify

* fix: only use bigger padding when needed

* center arrow horizontally on pointer

* increase min drag distance before we start 2-point-arrow-drag-creating

* do not render 0-width arrow while creating

* dead code

* fix tests

* fix: remove redundant code

* do not enter line editor on creation

---------

Co-authored-by: dwelle <5153846+dwelle@users.noreply.github.com>
2025-07-23 18:49:56 +10:00
Christopher Tangonan 8492b144b0 test: added test file for distribute (#9754) 2025-07-17 19:52:16 +02:00
Marcel Mraz e46f038132 feat: expose applyTo options, don't commit empty text element (#9744)
* Expose applyTo options, skip re-draw for empty text

* Don't commit empty text elements
2025-07-17 15:22:32 +02:00
David Luzar 678dff25ed fix: ellipsify MainMenu and CommandPalette items (#9743)
* fix: ellipsify MainMenu and CommandPalette items

* fix lint
2025-07-15 12:59:55 +02:00
Christopher Tangonan 0cfa53b764 fix: aligning and distributing elements and nested groups while editing a group (#9721) 2025-07-15 12:43:42 +02:00
David Luzar cde46793f8 feat: support timestamps for youtube video emebds (#9737) 2025-07-13 19:19:10 +02:00
Aakansha Doshi 2d127f8c22 docs: fix broken update scene button example in docs (#9726)
fix: update scene example in docs
2025-07-08 19:29:44 +05:30
Soham Kulkarni 4eadb891f8 fix(toast): prevent toast from re-rendering and resetting timeout Fixes #9714 (#9715)
* Update App.tsx

* fix: lint

---------

Co-authored-by: Ryan Di <ryan.weihao.di@gmail.com>
2025-07-03 17:07:26 +10:00
Marcel Mraz 258605d1d5 chore: release multiple packages (#9698) 2025-06-30 12:19:15 +02:00
Márk Tolmács c141500400 chore: Relocate visualdebug so ESLint doesn't complain (#9668) 2025-06-18 14:45:51 +02:00
Márk Tolmács 8e27de2cdc fix: Frame dimensions change by stats don't include new elements (#9568) 2025-06-16 14:07:03 +02:00
Márk Tolmács 0a19c93509 fix: Bindings at partially overlapping binding areas (#9536) 2025-06-16 12:30:59 +02:00
Márk Tolmács 958597dfaa chore: Refactor doBoundsIntersect (#9657) 2025-06-16 12:30:42 +02:00
Marcel Mraz 058918f8e5 feat: capture images after they initialize (#9643)
Co-authored-by: dwelle <5153846+dwelle@users.noreply.github.com>
2025-06-15 23:43:14 +02:00
Spawn 3f194918e6 feat: add mulitplatform Docker image support (#9594) 2025-06-15 20:11:37 +02:00
Ryan Di 93c92d13e9 feat: wrap texts from stats panel (#9552) 2025-06-14 13:05:24 +02:00
zsviczian 84e96e9393 fix: move doBoundsIntersect from element/src/bounds.ts to common/math/src/utils.ts (#9650)
move doBoundsIntersect to math/utils

Co-authored-by: dwelle <5153846+dwelle@users.noreply.github.com>
2025-06-14 11:01:30 +00:00
zsviczian 320af405e9 fix: move elementCenterPoint from common/src/utils.ts to element/src/bounds.ts (#9647)
move elementCenterPoint from utils to bounds.ts
2025-06-14 12:49:22 +02:00
Marcel Mraz 60512f13d5 Fix broken history when eleemnt in update scene are optional 2025-06-14 12:29:58 +02:00
Márk Tolmács f0458cc216 fix: Mid-point for rounded linears are not precisely centered (#9544) 2025-06-12 21:08:37 +02:00
Márk Tolmács 9f3fdf5505 fix: Test hook usage in production code (#9645) 2025-06-12 10:39:50 +02:00
Márk Tolmács f42e1ab64e perf: Improve elbow arrow indirect binding logic (#9624) 2025-06-11 19:15:48 +02:00
Ashwin Temkar 18808481fd fix: set cursor to auto when not hovering a point on linear element (#9642)
* fix: set cursor to auto when not hovering a point on linear element #9628

* Simplify hover test for cursor

* Add back comment

* Fix test for hit testing

---------

Co-authored-by: Mark Tolmacs <mark@lazycat.hu>
2025-06-11 16:52:02 +02:00
Marcel Mraz a7b64f02b3 fix: remove image preview on image insertion (#9626)
Co-authored-by: dwelle <5153846+dwelle@users.noreply.github.com>
2025-06-10 21:31:11 +02:00
Marcel Mraz 0d4abd1ddc fix: add history capture for paste and drop of images and embeds (#9605) 2025-06-10 14:28:16 +02:00
Sachintha Lakmin 9e77373c81 fix: add generic font family fallbacks before Segoe UI Emoji to fix glyph rendering on windows (#9425) 2025-06-10 13:43:39 +02:00
Marcel Mraz d108053351 feat: various delta improvements (#9571) 2025-06-09 09:55:35 +02:00
David Luzar d4e85a9480 feat: use enter to edit line points & update hints (#9630)
feat: use enter to edit line points & update hints
2025-06-07 18:05:20 +02:00
David Luzar 08cd4c4f9a test: improve getTextEditor test helper (#9629)
* test: improve getTextEditor test helper

* fix test
2025-06-07 17:45:37 +02:00
cheapster 469caadb87 fix: prevent double-click to edit/create text scenarios on line (#9597)
* fix : double click on line enables line editor

* fix : prevent double-click to edit/create text
when inside line editor

* refactor: use lineCheck instead of arrowCheck in
doubleClick handler to align with updated logic

* fix: replace negative arrowCheck with lineCheck in
dbl click handler and fix double-click bind text
test in linearElementEditor tests

* clean up test

* simplify check

* add tests

* prevent text editing on dblclick when inside arrow editor

---------

Co-authored-by: dwelle <5153846+dwelle@users.noreply.github.com>
2025-06-07 17:08:35 +02:00
Márk Tolmács ca1a4f25e7 feat: Precise hit testing (#9488) 2025-06-07 12:56:32 +02:00
Sujal Gupta 56c05b3099 fix: prevent search menu from opening when dialog is open (#9279) 2025-06-03 15:53:00 +02:00
Aarav Dayal 6c0ff7fc5c docs: added the correct CSS import for nextjs dynamic first import integration example (#9584)
Added the correct CSS import for nextjs dynamic first import integration example

This is with reference to [this](https://github.com/excalidraw/excalidraw/issues/9562)
2025-05-29 22:03:20 +02:00
Muhammad Khuzaima Umair 7cad3645a0 perf: Simplify normalizeRadians function (#9572)
Co-authored-by: Mark Tolmacs <mark@lazycat.hu>
2025-05-28 15:58:42 +02:00
Márk Tolmács 5921ebc416 fix: Regression in long press context menu closure (#9588) 2025-05-28 13:38:47 +02:00
Márk Tolmács 864353be5f feat: Try to preserve line angle on SHIFT+drag (#9570) 2025-05-27 12:39:45 +02:00
cheapster db2911c6c4 fix: ghost point issue when moving a shape after dragging a point in the line editor (#9530)
fix: ghost point issue when moving a shape after
dragging a point in the line editor
2025-05-26 21:34:41 +02:00
David Luzar fc3e062074 feat: do not break polygon on point delete inside line editor (#9580)
* feat: do not break polygon on point delete inside line editor

* fix: polygon point highlighting when selected point == 0
2025-05-26 16:51:47 +02:00
zsviczian 87c87a9fb1 feat: line polygons (#9477)
* Loop Lock/Unlock

* fixed condition. 4 line points are required for the action to be available

* extracted updateLoopLock to improve readability. Removed unnecessary SVG attributes

* lint + added loopLock to restore.ts

* added  loopLock to newElement, updated test snapshots

* lint

* dislocate enpoint when breaking the loop.

* change icon & turn into a state style button

* POC: auto-transform to polygon on bg set

* keep polygon icon constant

* do not split points on de-polygonizing & highlight overlapping points

* rewrite color picker to support no (mixed) colors & fix focus handling

* refactor

* tweak point rendering inside line editor

* do not disable polygon when creating new points via alt

* auto-enable polygon when aligning start/end points

* TBD: remove bg color when disabling polygon

* TBD: only show polygon button for enabled polygons

* fix polygon behavior when adding/removing/moving points within line editor

* convert to polygon when creating line

* labels tweak

* add to command palette

* loopLock -> polygon

* restore `polygon` state on type conversions

* update snapshots

* naming

* break polygon on restore/finalize if invalid & prevent creation

* snapshots

* fix: merge issue and forgotten debug

* snaps

* do not merge points for 3-point lines

---------

Co-authored-by: dwelle <5153846+dwelle@users.noreply.github.com>
2025-05-26 11:14:55 +02:00
Márk Tolmács 4dc205537c feat: Call actionFinalize at the end of arrow creation and drag (#9453)
* First iter

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

* Restore binding

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

* More actionFinalize

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

* Additional fixes

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

* New elbow arrow is removed if  too small

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

* Remove very small arrows

* Still allow loops

* Restore tests

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

* Update history snapshot

* More history snapshot updates

* keep invisible 2-point lines/freedraw elements

---------

Signed-off-by: Mark Tolmacs <mark@lazycat.hu>
Co-authored-by: dwelle <5153846+dwelle@users.noreply.github.com>
2025-05-25 22:28:24 +02:00
David Luzar cc571c4681 chore: init CLAUDE.md (#9563)
* chore: init CLAUDE.md

* Add Copilot instructions

* update gitignore

* simplify

---------

Co-authored-by: Mark Tolmacs <mark@lazycat.hu>
2025-05-25 21:23:40 +02:00
Marcel Mraz 14d512f321 Fix import.meta.env.MODE being undefined in host apps 2025-05-22 15:25:48 +02:00
178 changed files with 12943 additions and 7214 deletions
+2
View File
@@ -1,3 +1,5 @@
MODE="development"
VITE_APP_BACKEND_V2_GET_URL=https://json-dev.excalidraw.com/api/v2/ VITE_APP_BACKEND_V2_GET_URL=https://json-dev.excalidraw.com/api/v2/
VITE_APP_BACKEND_V2_POST_URL=https://json-dev.excalidraw.com/api/v2/post/ VITE_APP_BACKEND_V2_POST_URL=https://json-dev.excalidraw.com/api/v2/post/
+2
View File
@@ -1,3 +1,5 @@
MODE="production"
VITE_APP_BACKEND_V2_GET_URL=https://json.excalidraw.com/api/v2/ VITE_APP_BACKEND_V2_GET_URL=https://json.excalidraw.com/api/v2/
VITE_APP_BACKEND_V2_POST_URL=https://json.excalidraw.com/api/v2/post/ VITE_APP_BACKEND_V2_POST_URL=https://json.excalidraw.com/api/v2/post/
+45
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@@ -0,0 +1,45 @@
# Project coding standards
## Generic Communication Guidelines
- Be succint and be aware that expansive generative AI answers are costly and slow
- Avoid providing explanations, trying to teach unless asked for, your chat partner is an expert
- Stop apologising if corrected, just provide the correct information or code
- Prefer code unless asked for explanation
- Stop summarizing what you've changed after modifications unless asked for
## TypeScript Guidelines
- Use TypeScript for all new code
- Where possible, prefer implementations without allocation
- When there is an option, opt for more performant solutions and trade RAM usage for less CPU cycles
- Prefer immutable data (const, readonly)
- Use optional chaining (?.) and nullish coalescing (??) operators
## React Guidelines
- Use functional components with hooks
- Follow the React hooks rules (no conditional hooks)
- Keep components small and focused
- Use CSS modules for component styling
## Naming Conventions
- Use PascalCase for component names, interfaces, and type aliases
- Use camelCase for variables, functions, and methods
- Use ALL_CAPS for constants
## Error Handling
- Use try/catch blocks for async operations
- Implement proper error boundaries in React components
- Always log errors with contextual information
## Testing
- Always attempt to fix #problems
- Always offer to run `yarn test:app` in the project root after modifications are complete and attempt fixing the issues reported
## Types
- Always include `packages/math/src/types.ts` in the context when your write math related code and always use the Point type instead of { x, y}
+1 -1
View File
@@ -24,4 +24,4 @@ jobs:
- name: Auto release - name: Auto release
run: | run: |
yarn add @actions/core -W yarn add @actions/core -W
yarn autorelease yarn release --tag=next --non-interactive
-55
View File
@@ -1,55 +0,0 @@
name: Auto release excalidraw preview
on:
issue_comment:
types: [created, edited]
jobs:
Auto-release-excalidraw-preview:
name: Auto release preview
if: github.event.comment.body == '@excalibot trigger release' && github.event.issue.pull_request
runs-on: ubuntu-latest
steps:
- name: React to release comment
uses: peter-evans/create-or-update-comment@v1
with:
token: ${{ secrets.PUSH_TRANSLATIONS_COVERAGE_PAT }}
comment-id: ${{ github.event.comment.id }}
reactions: "+1"
- name: Get PR SHA
id: sha
uses: actions/github-script@v4
with:
result-encoding: string
script: |
const { owner, repo, number } = context.issue;
const pr = await github.pulls.get({
owner,
repo,
pull_number: number,
});
return pr.data.head.sha
- uses: actions/checkout@v2
with:
ref: ${{ steps.sha.outputs.result }}
fetch-depth: 2
- name: Setup Node.js 18.x
uses: actions/setup-node@v2
with:
node-version: 18.x
- name: Set up publish access
run: |
npm config set //registry.npmjs.org/:_authToken ${NPM_TOKEN}
env:
NPM_TOKEN: ${{ secrets.NPM_TOKEN }}
- name: Auto release preview
id: "autorelease"
run: |
yarn add @actions/core -W
yarn autorelease preview ${{ github.event.issue.number }}
- name: Post comment post release
if: always()
uses: peter-evans/create-or-update-comment@v1
with:
token: ${{ secrets.PUSH_TRANSLATIONS_COVERAGE_PAT }}
issue-number: ${{ github.event.issue.number }}
body: "@${{ github.event.comment.user.login }} ${{ steps.autorelease.outputs.result }}"
+27
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@@ -0,0 +1,27 @@
name: Playwright Tests
on:
push:
branches: [ main, master ]
pull_request:
branches: [ main, master ]
jobs:
test:
timeout-minutes: 60
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- uses: actions/setup-node@v4
with:
node-version: lts/*
- name: Install dependencies
run: npm install -g yarn && yarn
- name: Install Playwright Browsers
run: yarn playwright install --with-deps
- name: Run Playwright tests
run: yarn playwright test
- uses: actions/upload-artifact@v4
if: ${{ !cancelled() }}
with:
name: playwright-report
path: playwright-report/
retention-days: 30
+6 -1
View File
@@ -17,9 +17,14 @@ jobs:
with: with:
username: ${{ secrets.DOCKER_USERNAME }} username: ${{ secrets.DOCKER_USERNAME }}
password: ${{ secrets.DOCKER_PASSWORD }} password: ${{ secrets.DOCKER_PASSWORD }}
- name: Set up QEMU
uses: docker/setup-qemu-action@v3
- name: Set up Docker Buildx
uses: docker/setup-buildx-action@v3
- name: Build and push - name: Build and push
uses: docker/build-push-action@v3 uses: docker/build-push-action@v5
with: with:
context: . context: .
push: true push: true
tags: excalidraw/excalidraw:latest tags: excalidraw/excalidraw:latest
platforms: linux/amd64, linux/arm64, linux/arm/v7
+7
View File
@@ -26,3 +26,10 @@ coverage
dev-dist dev-dist
html html
meta*.json meta*.json
.claude
# Playwright
/test-results/
/playwright-report/
/blob-report/
/playwright/.cache/
+34
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@@ -0,0 +1,34 @@
# CLAUDE.md
## Project Structure
Excalidraw is a **monorepo** with a clear separation between the core library and the application:
- **`packages/excalidraw/`** - Main React component library published to npm as `@excalidraw/excalidraw`
- **`excalidraw-app/`** - Full-featured web application (excalidraw.com) that uses the library
- **`packages/`** - Core packages: `@excalidraw/common`, `@excalidraw/element`, `@excalidraw/math`, `@excalidraw/utils`
- **`examples/`** - Integration examples (NextJS, browser script)
## Development Workflow
1. **Package Development**: Work in `packages/*` for editor features
2. **App Development**: Work in `excalidraw-app/` for app-specific features
3. **Testing**: Always run `yarn test:update` before committing
4. **Type Safety**: Use `yarn test:typecheck` to verify TypeScript
## Development Commands
```bash
yarn test:typecheck # TypeScript type checking
yarn test:update # Run all tests (with snapshot updates)
yarn fix # Auto-fix formatting and linting issues
```
## Architecture Notes
### Package System
- Uses Yarn workspaces for monorepo management
- Internal packages use path aliases (see `vitest.config.mts`)
- Build system uses esbuild for packages, Vite for the app
- TypeScript throughout with strict configuration
+5 -4
View File
@@ -1,4 +1,4 @@
FROM node:18 AS build FROM --platform=${BUILDPLATFORM} node:18 AS build
WORKDIR /opt/node_app WORKDIR /opt/node_app
@@ -6,13 +6,14 @@ COPY . .
# do not ignore optional dependencies: # do not ignore optional dependencies:
# Error: Cannot find module @rollup/rollup-linux-x64-gnu # Error: Cannot find module @rollup/rollup-linux-x64-gnu
RUN yarn --network-timeout 600000 RUN --mount=type=cache,target=/root/.cache/yarn \
npm_config_target_arch=${TARGETARCH} yarn --network-timeout 600000
ARG NODE_ENV=production ARG NODE_ENV=production
RUN yarn build:app:docker RUN npm_config_target_arch=${TARGETARCH} yarn build:app:docker
FROM nginx:1.27-alpine FROM --platform=${TARGETPLATFORM} nginx:1.27-alpine
COPY --from=build /opt/node_app/excalidraw-app/build /usr/share/nginx/html COPY --from=build /opt/node_app/excalidraw-app/build /usr/share/nginx/html
@@ -363,13 +363,7 @@ This API has the below signature. It sets the `tool` passed in param as the acti
```ts ```ts
( (
tool: ( tool: (
| ( | { type: ToolType }
| { type: Exclude<ToolType, "image"> }
| {
type: Extract<ToolType, "image">;
insertOnCanvasDirectly?: boolean;
}
)
| { type: "custom"; customType: string } | { type: "custom"; customType: string }
) & { locked?: boolean }, ) & { locked?: boolean },
) => {}; ) => {};
@@ -377,7 +371,7 @@ This API has the below signature. It sets the `tool` passed in param as the acti
| Name | Type | Default | Description | | Name | Type | Default | Description |
| --- | --- | --- | --- | | --- | --- | --- | --- |
| `type` | [ToolType](https://github.com/excalidraw/excalidraw/blob/master/packages/excalidraw/types.ts#L91) | `selection` | The tool type which should be set as active tool. When setting `image` as active tool, the insertion onto canvas when using image tool is disabled by default, so you can enable it by setting `insertOnCanvasDirectly` to `true` | | `type` | [ToolType](https://github.com/excalidraw/excalidraw/blob/master/packages/excalidraw/types.ts#L91) | `selection` | The tool type which should be set as active tool |
| `locked` | `boolean` | `false` | Indicates whether the the active tool should be locked. It behaves the same way when using the `lock` tool in the editor interface | | `locked` | `boolean` | `false` | Indicates whether the the active tool should be locked. It behaves the same way when using the `lock` tool in the editor interface |
## setCursor ## setCursor
@@ -28,32 +28,12 @@ To start the example app using the `@excalidraw/excalidraw` package, follow the
## Releasing ## Releasing
### Create a test release
You can create a test release by posting the below comment in your pull request:
```bash
@excalibot trigger release
```
Once the version is released `@excalibot` will post a comment with the release version.
### Creating a production release ### Creating a production release
To release the next stable version follow the below steps: To release the next stable version follow the below steps:
```bash ```bash
yarn prerelease:excalidraw yarn release --tag=latest --version=0.19.0
``` ```
You need to pass the `version` for which you want to create the release. This will make the changes needed before making the release like updating `package.json`, `changelog` and more. You will need to pass the `latest` tag with `version` for which you want to create the release. This will make the changes needed before publishing the packages into NPM, like updating dependencies of all `@excalidraw/*` packages, generating new entries in `CHANGELOG.md` and more.
The next step is to run the `release` script:
```bash
yarn release:excalidraw
```
This will publish the package.
Right now there are two steps to create a production release but once this works fine these scripts will be combined and more automation will be done.
@@ -38,6 +38,8 @@ If you want to only import `Excalidraw` component you can do :point_down:
```jsx showLineNumbers ```jsx showLineNumbers
import dynamic from "next/dynamic"; import dynamic from "next/dynamic";
import "@excalidraw/excalidraw/index.css";
const Excalidraw = dynamic( const Excalidraw = dynamic(
async () => (await import("@excalidraw/excalidraw")).Excalidraw, async () => (await import("@excalidraw/excalidraw")).Excalidraw,
{ {
@@ -33,6 +33,7 @@ const ExcalidrawScope = {
initialData, initialData,
useI18n: ExcalidrawComp.useI18n, useI18n: ExcalidrawComp.useI18n,
convertToExcalidrawElements: ExcalidrawComp.convertToExcalidrawElements, convertToExcalidrawElements: ExcalidrawComp.convertToExcalidrawElements,
CaptureUpdateAction: ExcalidrawComp.CaptureUpdateAction,
}; };
export default ExcalidrawScope; export default ExcalidrawScope;
+2 -1
View File
@@ -3,7 +3,8 @@
"version": "0.1.0", "version": "0.1.0",
"private": true, "private": true,
"scripts": { "scripts": {
"build:workspace": "yarn workspace @excalidraw/excalidraw run build:esm && yarn copy:assets", "build:packages": "yarn --cwd ../../ build:packages",
"build:workspace": "yarn build:packages && yarn copy:assets",
"copy:assets": "cp -r ../../packages/excalidraw/dist/prod/fonts ./public", "copy:assets": "cp -r ../../packages/excalidraw/dist/prod/fonts ./public",
"dev": "yarn build:workspace && next dev -p 3005", "dev": "yarn build:workspace && next dev -p 3005",
"build": "yarn build:workspace && next build", "build": "yarn build:workspace && next build",
+1 -1
View File
@@ -17,6 +17,6 @@
"build": "vite build", "build": "vite build",
"preview": "vite preview --port 5002", "preview": "vite preview --port 5002",
"build:preview": "yarn build && yarn preview", "build:preview": "yarn build && yarn preview",
"build:package": "yarn workspace @excalidraw/excalidraw run build:esm" "build:packages": "yarn --cwd ../../ build:packages"
} }
} }
+1 -1
View File
@@ -1,5 +1,5 @@
{ {
"outputDirectory": "dist", "outputDirectory": "dist",
"installCommand": "yarn install", "installCommand": "yarn install",
"buildCommand": "yarn build:package && yarn build" "buildCommand": "yarn build:packages && yarn build"
} }
+1
View File
@@ -74,6 +74,7 @@ import type {
import type { ResolutionType } from "@excalidraw/common/utility-types"; import type { ResolutionType } from "@excalidraw/common/utility-types";
import type { ResolvablePromise } from "@excalidraw/common/utils"; import type { ResolvablePromise } from "@excalidraw/common/utils";
import "./record";
import CustomStats from "./CustomStats"; import CustomStats from "./CustomStats";
import { import {
Provider, Provider,
+25 -33
View File
@@ -9,7 +9,7 @@ import {
} from "@excalidraw/excalidraw/renderer/helpers"; } from "@excalidraw/excalidraw/renderer/helpers";
import { type AppState } from "@excalidraw/excalidraw/types"; import { type AppState } from "@excalidraw/excalidraw/types";
import { throttleRAF } from "@excalidraw/common"; import { throttleRAF } from "@excalidraw/common";
import { useCallback, useImperativeHandle, useRef } from "react"; import { useCallback } from "react";
import { import {
isLineSegment, isLineSegment,
@@ -18,10 +18,12 @@ import {
} from "@excalidraw/math"; } from "@excalidraw/math";
import { isCurve } from "@excalidraw/math/curve"; import { isCurve } from "@excalidraw/math/curve";
import type { DebugElement } from "@excalidraw/excalidraw/visualdebug"; import React from "react";
import type { Curve } from "@excalidraw/math"; import type { Curve } from "@excalidraw/math";
import type { DebugElement } from "@excalidraw/utils/visualdebug";
import { STORAGE_KEYS } from "../app_constants"; import { STORAGE_KEYS } from "../app_constants";
const renderLine = ( const renderLine = (
@@ -113,10 +115,6 @@ const _debugRenderer = (
scale, scale,
); );
if (appState.height !== canvas.height || appState.width !== canvas.width) {
refresh();
}
const context = bootstrapCanvas({ const context = bootstrapCanvas({
canvas, canvas,
scale, scale,
@@ -314,35 +312,29 @@ export const DebugFooter = ({ onChange }: { onChange: () => void }) => {
interface DebugCanvasProps { interface DebugCanvasProps {
appState: AppState; appState: AppState;
scale: number; scale: number;
ref?: React.Ref<HTMLCanvasElement>;
} }
const DebugCanvas = ({ appState, scale, ref }: DebugCanvasProps) => { const DebugCanvas = React.forwardRef<HTMLCanvasElement, DebugCanvasProps>(
const { width, height } = appState; ({ appState, scale }, ref) => {
const { width, height } = appState;
const canvasRef = useRef<HTMLCanvasElement>(null); return (
useImperativeHandle<HTMLCanvasElement | null, HTMLCanvasElement | null>( <canvas
ref, style={{
() => canvasRef.current, width,
[canvasRef], height,
); position: "absolute",
zIndex: 2,
return ( pointerEvents: "none",
<canvas }}
style={{ width={width * scale}
width, height={height * scale}
height, ref={ref}
position: "absolute", >
zIndex: 2, Debug Canvas
pointerEvents: "none", </canvas>
}} );
width={width * scale} },
height={height * scale} );
ref={canvasRef}
>
Debug Canvas
</canvas>
);
};
export default DebugCanvas; export default DebugCanvas;
+3 -1
View File
@@ -259,7 +259,9 @@ export const loadFromFirebase = async (
} }
const storedScene = docSnap.data() as FirebaseStoredScene; const storedScene = docSnap.data() as FirebaseStoredScene;
const elements = getSyncableElements( const elements = getSyncableElements(
restoreElements(await decryptElements(storedScene, roomKey), null), restoreElements(await decryptElements(storedScene, roomKey), null, {
deleteInvisibleElements: true,
}),
); );
if (socket) { if (socket) {
+6 -1
View File
@@ -258,11 +258,16 @@ export const loadScene = async (
await importFromBackend(id, privateKey), await importFromBackend(id, privateKey),
localDataState?.appState, localDataState?.appState,
localDataState?.elements, localDataState?.elements,
{ repairBindings: true, refreshDimensions: false }, {
repairBindings: true,
refreshDimensions: false,
deleteInvisibleElements: true,
},
); );
} else { } else {
data = restore(localDataState || null, null, null, { data = restore(localDataState || null, null, null, {
repairBindings: true, repairBindings: true,
deleteInvisibleElements: true,
}); });
} }
+4 -2
View File
@@ -2,7 +2,9 @@
<html lang="en"> <html lang="en">
<head> <head>
<meta charset="utf-8" /> <meta charset="utf-8" />
<title>Excalidraw | Hand-drawn look & feel • Collaborative • Secure</title> <title>
Free, collaborative whiteboard • Hand-drawn look & feel | Excalidraw
</title>
<meta <meta
name="viewport" name="viewport"
content="width=device-width, initial-scale=1, maximum-scale=1, user-scalable=no, viewport-fit=cover, shrink-to-fit=no" content="width=device-width, initial-scale=1, maximum-scale=1, user-scalable=no, viewport-fit=cover, shrink-to-fit=no"
@@ -14,7 +16,7 @@
<!-- Primary Meta Tags --> <!-- Primary Meta Tags -->
<meta <meta
name="title" name="title"
content="Excalidraw — Collaborative whiteboarding made easy" content="Free, collaborative whiteboard • Hand-drawn look & feel | Excalidraw"
/> />
<meta <meta
name="description" name="description"
+1
View File
@@ -46,6 +46,7 @@
"build:version": "node ../scripts/build-version.js", "build:version": "node ../scripts/build-version.js",
"build": "yarn build:app && yarn build:version", "build": "yarn build:app && yarn build:version",
"start": "yarn && vite", "start": "yarn && vite",
"start:test": "yarn && vite --mode test",
"start:production": "yarn build && yarn serve", "start:production": "yarn build && yarn serve",
"serve": "npx http-server build -a localhost -p 5001 -o", "serve": "npx http-server build -a localhost -p 5001 -o",
"build:preview": "yarn build && vite preview --port 5000" "build:preview": "yarn build && vite preview --port 5000"
+270
View File
@@ -0,0 +1,270 @@
import { isDevEnv } from "@excalidraw/common";
declare global {
interface Window {
record: typeof Record;
}
}
export class Record {
private static recording: boolean = false;
private static events: string = "";
private static timestamp: number = 0;
public static get isRecording() {
return Record.recording;
}
private static header() {
Record.events += " await page.addInitScript(() => {\n";
Record.events += " Math.random = () => 0.42;\n\n";
// Capture LocalStorage, which is essential to re-establish state
for (let i = 0; i < localStorage.length; i++) {
const key = localStorage.key(i);
if (key != null) {
const value = JSON.stringify(localStorage.getItem(key));
Record.events += ` localStorage.getItem("${key}");\n`;
Record.events += ` localStorage.setItem("${key}", ${value});\n`;
}
}
Record.events += " });\n";
Record.events += ` await page.setViewportSize({ width: ${window.innerWidth}, height: ${window.innerHeight} });\n`;
Record.events += ` await page.goto("http://localhost:3000");\n`;
Record.events += ` await page.waitForLoadState("load");\n`;
}
public static restart() {
if (!Record.recording) {
Record.start();
return;
}
Record.events += `});\n\n`;
Record.events += `test("${
Date.now() + Math.floor(Math.random() * Date.now()).toString(36)
}", async ({ page }) => {\n`;
Record.header();
}
public static start() {
Record.recording = true;
// Record header
this.header();
// Set up the events
Record.timestamp = performance.now();
window.addEventListener("mousemove", this.onMouseMove);
window.addEventListener("mousedown", this.onMouseDown);
window.addEventListener("mouseup", this.onMouseUp);
window.addEventListener("keydown", this.onKeyDown);
window.addEventListener("keyup", this.onKeyUp);
}
public static stop() {
window.removeEventListener("mousemove", this.onMouseMove);
window.removeEventListener("mousedown", this.onMouseDown);
window.removeEventListener("mouseup", this.onMouseUp);
window.removeEventListener("keydown", this.onKeyDown);
window.removeEventListener("keyup", this.onKeyUp);
Record.recording = false;
}
/// Displays a window as an absolutely positioned DIV with the generated
/// events within <pre> tags as formatted JSON, so it can be copied easily.
public static showGeneratedEvents() {
if (Record.recording) {
Record.stop();
}
const div = document.createElement("div");
div.style.position = "absolute";
div.style.top = "10px";
div.style.right = "10px";
div.style.left = "10px";
div.style.height = "60vh";
div.style.backgroundColor = "gray";
div.style.padding = "10px";
div.style.zIndex = "10000";
const pre = document.createElement("pre");
let textContent = `import { expect, test } from "@playwright/test";\n\n`;
textContent += `test("${
Date.now() + Math.floor(Math.random() * Date.now()).toString(36)
}", async ({ page }) => {\n`;
textContent += Record.events;
textContent += `});\n`;
pre.textContent = textContent;
//pre.textContent = Record.events;
pre.style.marginTop = "18px";
pre.style.maxHeight = "60vh";
pre.style.overflow = "auto";
div.appendChild(pre);
const copyBtn = document.createElement("button");
copyBtn.textContent = "Copy";
copyBtn.title = "Copy generated events to clipboard";
copyBtn.setAttribute("aria-label", "Copy generated events to clipboard");
copyBtn.style.position = "absolute";
copyBtn.style.top = "4px";
copyBtn.style.left = "4px";
copyBtn.style.border = "none";
copyBtn.style.background = "transparent";
copyBtn.style.fontSize = "12px";
copyBtn.style.lineHeight = "1";
copyBtn.style.cursor = "pointer";
copyBtn.style.padding = "4px 8px";
copyBtn.addEventListener("click", async () => {
const text = pre.textContent ?? "";
try {
if (navigator.clipboard && navigator.clipboard.writeText) {
await navigator.clipboard.writeText(text);
} else {
const ta = document.createElement("textarea");
ta.value = text;
document.body.appendChild(ta);
ta.select();
document.execCommand("copy");
document.body.removeChild(ta);
}
const orig = copyBtn.textContent;
copyBtn.textContent = "Copied";
setTimeout(() => (copyBtn.textContent = orig), 1000);
} catch {}
});
div.appendChild(copyBtn);
const closeBtn = document.createElement("button");
closeBtn.textContent = "×";
closeBtn.title = "Close";
closeBtn.style.position = "absolute";
closeBtn.style.top = "4px";
closeBtn.style.right = "4px";
closeBtn.style.border = "none";
closeBtn.style.background = "transparent";
closeBtn.style.fontSize = "18px";
closeBtn.style.lineHeight = "1";
closeBtn.style.cursor = "pointer";
closeBtn.addEventListener("click", () => {
// remove the dialog from DOM
if (div.parentNode) {
div.parentNode.removeChild(div);
}
});
div.appendChild(closeBtn);
document.body.appendChild(div);
}
private static onMouseMove(event: MouseEvent) {
if (
event.clientX < 0 ||
event.clientX > window.innerWidth ||
event.clientY < 0 ||
event.clientY > window.innerHeight
) {
return;
}
const now = event.timeStamp || performance.now();
const delay = now - Record.timestamp;
Record.timestamp = now;
if (delay > 0) {
Record.events += ` await page.waitForTimeout(${delay});\n`;
}
Record.events += ` await page.mouse.move(${event.clientX}, ${event.clientY});\n`;
}
private static onMouseDown(event: MouseEvent) {
const now = event.timeStamp || performance.now();
const delay = now - Record.timestamp;
Record.timestamp = now;
if (delay > 0) {
Record.events += ` await page.waitForTimeout(${delay});\n`;
}
const button =
event.button === 0 ? "left" : event.button === 1 ? "middle" : "right";
Record.events += ` await page.mouse.down({ button: "${button}" });\n`;
}
private static onMouseUp(event: MouseEvent) {
const now = event.timeStamp || performance.now();
const delay = now - Record.timestamp;
Record.timestamp = now;
if (delay > 0) {
Record.events += ` await page.waitForTimeout(${delay});\n`;
}
const button =
event.button === 0 ? "left" : event.button === 1 ? "middle" : "right";
Record.events += ` await page.mouse.up({ button: "${button}" });\n`;
Record.events += " await expect(page).toHaveScreenshot({\n";
Record.events += " maxDiffPixels: 100,\n";
Record.events += " maxDiffPixelRatio: 0.01,\n";
Record.events += " });\n";
}
private static onKeyDown(event: KeyboardEvent) {
// Only record if the recording key is not pressed
if (event.key !== "F2") {
const now = event.timeStamp || performance.now();
const delay = now - Record.timestamp;
Record.timestamp = now;
if (delay > 0) {
Record.events += ` await page.waitForTimeout(${delay});\n`;
}
Record.events += ` await page.keyboard.down("${event.key}");\n`;
}
}
private static onKeyUp(event: KeyboardEvent) {
// Only record if the recording key is not pressed
if (event.key !== "F2") {
const now = event.timeStamp || performance.now();
const delay = now - Record.timestamp;
Record.timestamp = now;
if (delay > 0) {
Record.events += ` await page.waitForTimeout(${delay});\n`;
}
Record.events += ` await page.keyboard.up("${event.key}");\n`;
Record.events += " await expect(page).toHaveScreenshot({\n";
Record.events += " maxDiffPixels: 100,\n";
Record.events += " maxDiffPixelRatio: 0.01,\n";
Record.events += " });\n";
}
}
}
if (isDevEnv()) {
window.record = Record;
window.addEventListener("keyup", (event) => {
if (event.key === "F2") {
if (Record.isRecording) {
if (event.ctrlKey) {
console.info("Stopping Playwright recording");
Record.stop();
} else {
Record.restart();
}
} else {
console.info("Starting Playwright recording");
Record.start();
}
} else if (event.key === "Enter" && event.ctrlKey) {
Record.showGeneratedEvents();
}
});
}
+1 -74
View File
@@ -205,6 +205,7 @@ describe("collaboration", () => {
// with explicit undo (as addition) we expect our item to be restored from the snapshot! // with explicit undo (as addition) we expect our item to be restored from the snapshot!
await waitFor(() => { await waitFor(() => {
expect(API.getUndoStack().length).toBe(1); expect(API.getUndoStack().length).toBe(1);
expect(API.getRedoStack().length).toBe(1);
expect(API.getSnapshot()).toEqual([ expect(API.getSnapshot()).toEqual([
expect.objectContaining(rect1Props), expect.objectContaining(rect1Props),
expect.objectContaining({ ...rect2Props, isDeleted: false }), expect.objectContaining({ ...rect2Props, isDeleted: false }),
@@ -247,79 +248,5 @@ describe("collaboration", () => {
expect.objectContaining({ ...rect2Props, isDeleted: true }), expect.objectContaining({ ...rect2Props, isDeleted: true }),
]); ]);
}); });
act(() => h.app.actionManager.executeAction(undoAction));
// simulate local update
API.updateScene({
elements: syncInvalidIndices([
h.elements[0],
newElementWith(h.elements[1], { x: 100 }),
]),
captureUpdate: CaptureUpdateAction.IMMEDIATELY,
});
await waitFor(() => {
expect(API.getUndoStack().length).toBe(2);
expect(API.getRedoStack().length).toBe(0);
expect(API.getSnapshot()).toEqual([
expect.objectContaining(rect1Props),
expect.objectContaining({ ...rect2Props, isDeleted: false, x: 100 }),
]);
expect(h.elements).toEqual([
expect.objectContaining(rect1Props),
expect.objectContaining({ ...rect2Props, isDeleted: false, x: 100 }),
]);
});
act(() => h.app.actionManager.executeAction(undoAction));
// we expect to iterate the stack to the first visible change
await waitFor(() => {
expect(API.getUndoStack().length).toBe(1);
expect(API.getRedoStack().length).toBe(1);
expect(API.getSnapshot()).toEqual([
expect.objectContaining(rect1Props),
expect.objectContaining({ ...rect2Props, isDeleted: false, x: 0 }),
]);
expect(h.elements).toEqual([
expect.objectContaining(rect1Props),
expect.objectContaining({ ...rect2Props, isDeleted: false, x: 0 }),
]);
});
// simulate force deleting the element remotely
API.updateScene({
elements: syncInvalidIndices([rect1]),
captureUpdate: CaptureUpdateAction.NEVER,
});
// snapshot was correctly updated and marked the element as deleted
await waitFor(() => {
expect(API.getUndoStack().length).toBe(1);
expect(API.getRedoStack().length).toBe(1);
expect(API.getSnapshot()).toEqual([
expect.objectContaining(rect1Props),
expect.objectContaining({ ...rect2Props, isDeleted: true, x: 0 }),
]);
expect(h.elements).toEqual([expect.objectContaining(rect1Props)]);
});
act(() => h.app.actionManager.executeAction(redoAction));
// with explicit redo (as update) we again restored the element from the snapshot!
await waitFor(() => {
expect(API.getUndoStack().length).toBe(2);
expect(API.getRedoStack().length).toBe(0);
expect(API.getSnapshot()).toEqual([
expect.objectContaining({ id: "A", isDeleted: false }),
expect.objectContaining({ id: "B", isDeleted: true, x: 100 }),
]);
expect(h.history.isRedoStackEmpty).toBeTruthy();
expect(h.elements).toEqual([
expect.objectContaining({ id: "A", isDeleted: false }),
expect.objectContaining({ id: "B", isDeleted: true, x: 100 }),
]);
});
}); });
}); });
@@ -0,0 +1,716 @@
import { expect, test } from "@playwright/test";
test("17562123239901g67cqde", async ({ page }) => {
await page.addInitScript(() => {
Math.random = () => 0.42;
localStorage.getItem("i18nextLng");
localStorage.setItem("i18nextLng", "en");
localStorage.getItem("excalidraw-collab");
localStorage.setItem("excalidraw-collab", '{"username":""}');
localStorage.getItem("excalidraw-debug");
localStorage.setItem("excalidraw-debug", '{"enabled":true}');
localStorage.getItem("excalidraw-theme");
localStorage.setItem("excalidraw-theme", "dark");
localStorage.getItem("version-files");
localStorage.setItem("version-files", "1756212319038");
localStorage.getItem("version-dataState");
localStorage.setItem("version-dataState", "1756212319038");
localStorage.getItem("excalidraw-state");
localStorage.setItem(
"excalidraw-state",
'{"showWelcomeScreen":true,"theme":"dark","currentChartType":"bar","currentItemBackgroundColor":"#a5d8ff","currentItemEndArrowhead":"arrow","currentItemFillStyle":"solid","currentItemFontFamily":5,"currentItemFontSize":20,"currentItemOpacity":100,"currentItemRoughness":2,"currentItemStartArrowhead":null,"currentItemStrokeColor":"#1e1e1e","currentItemRoundness":"round","currentItemArrowType":"round","currentItemStrokeStyle":"solid","currentItemStrokeWidth":2,"currentItemTextAlign":"left","cursorButton":"up","editingGroupId":null,"activeTool":{"type":"arrow","customType":null,"locked":false,"fromSelection":false,"lastActiveTool":null},"penMode":false,"penDetected":false,"exportBackground":true,"exportScale":1,"exportEmbedScene":false,"exportWithDarkMode":false,"gridSize":20,"gridStep":5,"gridModeEnabled":false,"defaultSidebarDockedPreference":false,"lastPointerDownWith":"mouse","name":"Untitled-2025-07-28-1603","openMenu":null,"openSidebar":null,"previousSelectedElementIds":{},"scrolledOutside":false,"scrollX":688.1079394457738,"scrollY":349.585883261872,"selectedElementIds":{},"selectedGroupIds":{},"shouldCacheIgnoreZoom":false,"stats":{"open":true,"panels":3},"viewBackgroundColor":"#ffffff","zenModeEnabled":false,"zoom":{"value":1.331666},"selectedLinearElement":null,"objectsSnapModeEnabled":false,"lockedMultiSelections":{}}',
);
localStorage.getItem("excalidraw");
localStorage.setItem(
"excalidraw",
'[{"id":"hJuTw4QcwTsFtadNNnkLj","type":"rectangle","x":-100,"y":-100,"width":200,"height":200,"angle":0,"strokeColor":"#1e1e1e","backgroundColor":"#a5d8ff","fillStyle":"solid","strokeWidth":2,"strokeStyle":"solid","roughness":1,"opacity":100,"groupIds":[],"frameId":null,"index":"a1","roundness":{"type":3},"seed":43277494,"version":839,"versionNonce":1923298088,"isDeleted":false,"boundElements":[{"id":"0xSZCPMN8RzKiJOpvGaKB","type":"arrow"}],"updated":1756212298830,"link":null,"locked":false},{"id":"qXw5KqKvAjHRr5uwPi9B-","type":"rectangle","x":-523.1841597523046,"y":-129.52451989693097,"width":200,"height":200,"angle":0,"strokeColor":"#1e1e1e","backgroundColor":"#a5d8ff","fillStyle":"solid","strokeWidth":2,"strokeStyle":"solid","roughness":1,"opacity":100,"groupIds":[],"frameId":null,"index":"a2","roundness":{"type":3},"seed":392633439,"version":963,"versionNonce":210394408,"isDeleted":false,"boundElements":[{"id":"0xSZCPMN8RzKiJOpvGaKB","type":"arrow"}],"updated":1756212298830,"link":null,"locked":false}]',
);
});
await page.setViewportSize({ width: 1280, height: 1001 });
await page.goto("http://localhost:3000");
await page.waitForLoadState("load");
await page.waitForTimeout(3.599999999627471);
await page.mouse.move(425, 390);
await page.waitForTimeout(9.900000000372529);
await page.mouse.move(424, 390);
await page.waitForTimeout(51.09999999962747);
await page.mouse.move(423, 390);
await page.waitForTimeout(1);
await page.mouse.move(423, 392);
await page.waitForTimeout(1);
await page.mouse.move(422, 392);
await page.waitForTimeout(2);
await page.mouse.move(420, 393);
await page.waitForTimeout(1);
await page.mouse.move(420, 395);
await page.waitForTimeout(1);
await page.mouse.move(418, 395);
await page.waitForTimeout(6);
await page.mouse.move(417, 396);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(416, 396);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(416, 397);
await page.waitForTimeout(1);
await page.mouse.move(414, 397);
await page.waitForTimeout(1);
await page.mouse.move(414, 399);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(413, 399);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(413, 401);
await page.waitForTimeout(1);
await page.mouse.move(413, 402);
await page.waitForTimeout(3);
await page.mouse.move(411, 402);
await page.waitForTimeout(3);
await page.mouse.move(411, 403);
await page.waitForTimeout(32);
await page.mouse.move(412, 403);
await page.waitForTimeout(3);
await page.mouse.move(412, 403);
await page.waitForTimeout(4);
await page.mouse.move(412, 402);
await page.waitForTimeout(1);
await page.mouse.move(413, 402);
await page.waitForTimeout(0.900000000372529);
await page.mouse.move(413, 400);
await page.waitForTimeout(1.099999999627471);
await page.mouse.move(415, 400);
await page.waitForTimeout(7);
await page.mouse.move(416, 400);
await page.waitForTimeout(71);
await page.mouse.move(417, 400);
await page.waitForTimeout(450);
await page.mouse.move(417, 399);
await page.waitForTimeout(6);
await page.mouse.move(418, 399);
await page.waitForTimeout(6.1000000005587935);
await page.mouse.move(419, 399);
await page.mouse.down({ button: "left" });
await page.waitForTimeout(11.899999999441206);
await page.mouse.move(420, 399);
await page.waitForTimeout(69);
await page.mouse.move(421, 399);
await page.waitForTimeout(13);
await page.mouse.move(422, 399);
await page.waitForTimeout(7.1000000005587935);
await page.mouse.move(423, 399);
await page.waitForTimeout(5.3999999994412065);
await page.mouse.move(425, 399);
await page.waitForTimeout(0.5);
await page.mouse.move(427, 401);
await page.waitForTimeout(4);
await page.mouse.move(428, 401);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(428, 403);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(430, 403);
await page.waitForTimeout(1);
await page.mouse.move(432, 403);
await page.waitForTimeout(1);
await page.mouse.move(432, 404);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(433, 404);
await page.waitForTimeout(1.8999999994412065);
await page.mouse.move(434, 404);
await page.waitForTimeout(1);
await page.mouse.move(436, 406);
await page.waitForTimeout(3);
await page.mouse.move(437, 406);
await page.waitForTimeout(2);
await page.mouse.move(438, 407);
await page.waitForTimeout(1);
await page.mouse.move(440, 407);
await page.waitForTimeout(1);
await page.mouse.move(442, 407);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(443, 409);
await page.waitForTimeout(1);
await page.mouse.move(445, 409);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(447, 411);
await page.waitForTimeout(1);
await page.mouse.move(451, 411);
await page.waitForTimeout(1);
await page.mouse.move(455, 411);
await page.waitForTimeout(1);
await page.mouse.move(457, 413);
await page.waitForTimeout(1);
await page.mouse.move(459, 413);
await page.waitForTimeout(1);
await page.mouse.move(461, 415);
await page.waitForTimeout(1);
await page.mouse.move(463, 417);
await page.waitForTimeout(1);
await page.mouse.move(467, 419);
await page.waitForTimeout(1);
await page.mouse.move(469, 419);
await page.waitForTimeout(1);
await page.mouse.move(471, 420);
await page.waitForTimeout(1);
await page.mouse.move(473, 424);
await page.waitForTimeout(1);
await page.mouse.move(477, 424);
await page.waitForTimeout(1);
await page.mouse.move(477, 426);
await page.waitForTimeout(1);
await page.mouse.move(478, 426);
await page.waitForTimeout(1);
await page.mouse.move(482, 428);
await page.waitForTimeout(1);
await page.mouse.move(484, 430);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(486, 430);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(488, 430);
await page.waitForTimeout(1);
await page.mouse.move(488, 432);
await page.waitForTimeout(1);
await page.mouse.move(489, 432);
await page.waitForTimeout(1);
await page.mouse.move(491, 432);
await page.waitForTimeout(1);
await page.mouse.move(493, 434);
await page.waitForTimeout(1);
await page.mouse.move(495, 434);
await page.waitForTimeout(1);
await page.mouse.move(499, 436);
await page.waitForTimeout(1);
await page.mouse.move(501, 436);
await page.waitForTimeout(1);
await page.mouse.move(502, 436);
await page.waitForTimeout(1);
await page.mouse.move(504, 438);
await page.waitForTimeout(1);
await page.mouse.move(506, 440);
await page.waitForTimeout(1);
await page.mouse.move(508, 440);
await page.waitForTimeout(1);
await page.mouse.move(510, 442);
await page.waitForTimeout(1);
await page.mouse.move(512, 444);
await page.waitForTimeout(1);
await page.mouse.move(514, 444);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(514, 445);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(515, 445);
await page.waitForTimeout(1);
await page.mouse.move(517, 445);
await page.waitForTimeout(1);
await page.mouse.move(517, 447);
await page.waitForTimeout(1);
await page.mouse.move(519, 448);
await page.waitForTimeout(1);
await page.mouse.move(521, 448);
await page.waitForTimeout(1);
await page.mouse.move(522, 450);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(524, 450);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(525, 450);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(527, 450);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(529, 450);
await page.waitForTimeout(1);
await page.mouse.move(530, 450);
await page.waitForTimeout(3);
await page.mouse.move(532, 450);
await page.waitForTimeout(2);
await page.mouse.move(533, 451);
await page.waitForTimeout(6);
await page.mouse.move(534, 451);
await page.waitForTimeout(3.1000000005587935);
await page.mouse.move(535, 451);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(535, 453);
await page.waitForTimeout(1);
await page.mouse.move(537, 453);
await page.waitForTimeout(1);
await page.mouse.move(538, 453);
await page.waitForTimeout(3);
await page.mouse.move(540, 453);
await page.waitForTimeout(1);
await page.mouse.move(540, 454);
await page.waitForTimeout(2);
await page.mouse.move(541, 454);
await page.waitForTimeout(2);
await page.mouse.move(542, 454);
await page.waitForTimeout(2);
await page.mouse.move(543, 454);
await page.waitForTimeout(3);
await page.mouse.move(544, 454);
await page.waitForTimeout(1);
await page.mouse.move(544, 455);
await page.waitForTimeout(1);
await page.mouse.move(546, 455);
await page.waitForTimeout(2);
await page.mouse.move(547, 455);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(548, 455);
await page.waitForTimeout(2);
await page.mouse.move(549, 455);
await page.waitForTimeout(1.8999999994412065);
await page.mouse.move(551, 455);
await page.waitForTimeout(1);
await page.mouse.move(552, 455);
await page.waitForTimeout(1);
await page.mouse.move(554, 455);
await page.waitForTimeout(1);
await page.mouse.move(555, 455);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(557, 455);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(559, 457);
await page.waitForTimeout(2);
await page.mouse.move(560, 457);
await page.waitForTimeout(1);
await page.mouse.move(562, 459);
await page.waitForTimeout(1);
await page.mouse.move(564, 459);
await page.waitForTimeout(1);
await page.mouse.move(566, 459);
await page.waitForTimeout(1);
await page.mouse.move(567, 459);
await page.waitForTimeout(1);
await page.mouse.move(569, 459);
await page.waitForTimeout(1);
await page.mouse.move(570, 459);
await page.waitForTimeout(3);
await page.mouse.move(574, 460);
await page.waitForTimeout(3);
await page.mouse.move(575, 460);
await page.waitForTimeout(1);
await page.mouse.move(575, 462);
await page.waitForTimeout(1);
await page.mouse.move(577, 464);
await page.waitForTimeout(1);
await page.mouse.move(578, 464);
await page.waitForTimeout(1);
await page.mouse.move(580, 464);
await page.waitForTimeout(1);
await page.mouse.move(582, 465);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(584, 465);
await page.waitForTimeout(1.8999999994412065);
await page.mouse.move(585, 465);
await page.waitForTimeout(3);
await page.mouse.move(586, 465);
await page.waitForTimeout(1);
await page.mouse.move(588, 467);
await page.waitForTimeout(1);
await page.mouse.move(590, 467);
await page.waitForTimeout(2);
await page.mouse.move(591, 467);
await page.waitForTimeout(3);
await page.mouse.move(591, 468);
await page.waitForTimeout(2);
await page.mouse.move(594, 468);
await page.waitForTimeout(1);
await page.mouse.move(595, 468);
await page.waitForTimeout(1);
await page.mouse.move(597, 468);
await page.waitForTimeout(2.7000000001862645);
await page.mouse.move(601, 470);
await page.waitForTimeout(1.400000000372529);
await page.mouse.move(602, 470);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(603, 470);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(605, 470);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(607, 470);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(608, 470);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(610, 470);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(612, 470);
await page.waitForTimeout(2.8999999994412065);
await page.mouse.move(613, 470);
await page.waitForTimeout(1.2000000001862645);
await page.mouse.move(613, 471);
await page.waitForTimeout(1.7999999998137355);
await page.mouse.move(614, 471);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(616, 473);
await page.waitForTimeout(1);
await page.mouse.move(618, 473);
await page.waitForTimeout(1.8999999994412065);
await page.mouse.move(621, 473);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(623, 473);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(625, 473);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(626, 473);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(628, 473);
await page.waitForTimeout(2);
await page.mouse.move(629, 473);
await page.waitForTimeout(1);
await page.mouse.move(631, 473);
await page.waitForTimeout(1);
await page.mouse.move(634, 475);
await page.waitForTimeout(2);
await page.mouse.move(636, 475);
await page.waitForTimeout(1);
await page.mouse.move(638, 475);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(639, 475);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(640, 475);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(642, 475);
await page.waitForTimeout(1.8999999994412065);
await page.mouse.move(644, 475);
await page.waitForTimeout(1);
await page.mouse.move(647, 475);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(649, 475);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(650, 475);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(652, 475);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(653, 475);
await page.waitForTimeout(1);
await page.mouse.move(655, 475);
await page.waitForTimeout(2);
await page.mouse.move(656, 476);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(658, 476);
await page.waitForTimeout(2);
await page.mouse.move(659, 476);
await page.waitForTimeout(1.8999999994412065);
await page.mouse.move(660, 476);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(662, 476);
await page.waitForTimeout(2);
await page.mouse.move(663, 476);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(664, 476);
await page.waitForTimeout(1);
await page.mouse.move(666, 474);
await page.waitForTimeout(1);
await page.mouse.move(668, 474);
await page.waitForTimeout(1);
await page.mouse.move(670, 474);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(671, 474);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(673, 476);
await page.waitForTimeout(3);
await page.mouse.move(675, 476);
await page.waitForTimeout(1);
await page.mouse.move(678, 476);
await page.waitForTimeout(1);
await page.mouse.move(680, 476);
await page.waitForTimeout(1);
await page.mouse.move(682, 476);
await page.waitForTimeout(4);
await page.mouse.move(683, 476);
await page.waitForTimeout(1);
await page.mouse.move(684, 476);
await page.waitForTimeout(1);
await page.mouse.move(686, 476);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(690, 476);
await page.waitForTimeout(1);
await page.mouse.move(694, 478);
await page.waitForTimeout(1);
await page.mouse.move(696, 478);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(698, 478);
await page.waitForTimeout(1);
await page.mouse.move(699, 478);
await page.waitForTimeout(1);
await page.mouse.move(703, 478);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(705, 478);
await page.waitForTimeout(1);
await page.mouse.move(707, 478);
await page.waitForTimeout(2);
await page.mouse.move(708, 478);
await page.waitForTimeout(1.8999999994412065);
await page.mouse.move(711, 478);
await page.waitForTimeout(1);
await page.mouse.move(713, 478);
await page.waitForTimeout(1);
await page.mouse.move(714, 478);
await page.waitForTimeout(1);
await page.mouse.move(716, 478);
await page.waitForTimeout(2);
await page.mouse.move(717, 478);
await page.waitForTimeout(1);
await page.mouse.move(719, 478);
await page.waitForTimeout(2);
await page.mouse.move(722, 478);
await page.waitForTimeout(1);
await page.mouse.move(724, 478);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(725, 478);
await page.waitForTimeout(1.8999999994412065);
await page.mouse.move(726, 478);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(727, 478);
await page.waitForTimeout(3);
await page.mouse.move(733, 480);
await page.waitForTimeout(2.8999999994412065);
await page.mouse.move(734, 480);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(735, 480);
await page.waitForTimeout(1);
await page.mouse.move(737, 480);
await page.waitForTimeout(1);
await page.mouse.move(739, 480);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(740, 480);
await page.waitForTimeout(1);
await page.mouse.move(742, 480);
await page.waitForTimeout(1);
await page.mouse.move(744, 480);
await page.waitForTimeout(1);
await page.mouse.move(744, 482);
await page.waitForTimeout(1);
await page.mouse.move(745, 482);
await page.waitForTimeout(2);
await page.mouse.move(747, 482);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(748, 482);
await page.waitForTimeout(4);
await page.mouse.move(749, 482);
await page.waitForTimeout(3);
await page.mouse.move(751, 482);
await page.waitForTimeout(1);
await page.mouse.move(753, 482);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(755, 482);
await page.waitForTimeout(1);
await page.mouse.move(758, 482);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(760, 482);
await page.waitForTimeout(6);
await page.mouse.move(761, 483);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(763, 484);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(765, 484);
await page.waitForTimeout(2.8999999994412065);
await page.mouse.move(766, 485);
await page.waitForTimeout(2);
await page.mouse.move(767, 485);
await page.waitForTimeout(11);
await page.mouse.move(768, 485);
await page.waitForTimeout(12.100000000558794);
await page.mouse.move(769, 485);
await page.waitForTimeout(51.89999999944121);
await page.mouse.move(770, 485);
await page.waitForTimeout(9);
await page.mouse.move(771, 485);
await page.waitForTimeout(3.1000000005587935);
await page.mouse.move(772, 485);
await page.waitForTimeout(5);
await page.mouse.move(773, 485);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(774, 485);
await page.waitForTimeout(2);
await page.mouse.move(776, 487);
await page.waitForTimeout(4);
await page.mouse.move(777, 487);
await page.waitForTimeout(4.1000000005587935);
await page.mouse.move(778, 487);
await page.waitForTimeout(1.8999999994412065);
await page.mouse.move(779, 487);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(780, 488);
await page.waitForTimeout(2.8999999994412065);
await page.mouse.move(781, 488);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(782, 488);
await page.waitForTimeout(1.8999999994412065);
await page.mouse.move(784, 488);
await page.waitForTimeout(3);
await page.mouse.move(785, 488);
await page.waitForTimeout(1);
await page.mouse.move(786, 488);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(788, 488);
await page.waitForTimeout(8.899999999441206);
await page.mouse.move(789, 488);
await page.waitForTimeout(3);
await page.mouse.move(790, 488);
await page.waitForTimeout(5);
await page.mouse.move(791, 488);
await page.waitForTimeout(4);
await page.mouse.move(792, 488);
await page.waitForTimeout(6.1000000005587935);
await page.mouse.move(793, 488);
await page.waitForTimeout(3.8999999994412065);
await page.mouse.move(793, 489);
await page.waitForTimeout(6);
await page.mouse.move(794, 489);
await page.waitForTimeout(4.1000000005587935);
await page.mouse.move(795, 489);
await page.waitForTimeout(7.599999999627471);
await page.mouse.move(796, 489);
await page.waitForTimeout(3.400000000372529);
await page.mouse.move(797, 489);
await page.waitForTimeout(3);
await page.mouse.move(798, 489);
await page.waitForTimeout(3);
await page.mouse.move(799, 489);
await page.waitForTimeout(2);
await page.mouse.move(800, 489);
await page.waitForTimeout(3);
await page.mouse.move(801, 489);
await page.waitForTimeout(2);
await page.mouse.move(802, 489);
await page.waitForTimeout(1.8999999994412065);
await page.mouse.move(803, 489);
await page.waitForTimeout(3);
await page.mouse.move(804, 489);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(805, 489);
await page.waitForTimeout(5.8999999994412065);
await page.mouse.move(806, 490);
await page.waitForTimeout(3);
await page.mouse.move(807, 490);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(809, 490);
await page.waitForTimeout(1);
await page.mouse.move(810, 490);
await page.waitForTimeout(1);
await page.mouse.move(812, 490);
await page.waitForTimeout(1.8999999994412065);
await page.mouse.move(813, 490);
await page.waitForTimeout(1);
await page.mouse.move(815, 490);
await page.waitForTimeout(2);
await page.mouse.move(816, 492);
await page.waitForTimeout(1);
await page.mouse.move(818, 492);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(819, 492);
await page.waitForTimeout(1);
await page.mouse.move(820, 492);
await page.waitForTimeout(1);
await page.mouse.move(822, 492);
await page.waitForTimeout(2);
await page.mouse.move(823, 492);
await page.waitForTimeout(3);
await page.mouse.move(825, 492);
await page.waitForTimeout(2.8999999994412065);
await page.mouse.move(826, 492);
await page.waitForTimeout(1.1000000005587935);
await page.mouse.move(827, 492);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(828, 492);
await page.waitForTimeout(3);
await page.mouse.move(830, 492);
await page.waitForTimeout(3);
await page.mouse.move(831, 492);
await page.waitForTimeout(2.1000000005587935);
await page.mouse.move(832, 492);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(833, 493);
await page.waitForTimeout(6.1000000005587935);
await page.mouse.move(835, 493);
await page.waitForTimeout(1);
await page.mouse.move(836, 493);
await page.waitForTimeout(1);
await page.mouse.move(838, 493);
await page.waitForTimeout(0.8999999994412065);
await page.mouse.move(839, 493);
await page.waitForTimeout(4.1000000005587935);
await page.mouse.move(841, 493);
await page.waitForTimeout(2);
await page.mouse.move(842, 493);
await page.waitForTimeout(3.8999999994412065);
await page.mouse.move(843, 493);
await page.waitForTimeout(2);
await page.mouse.move(843, 492);
await page.waitForTimeout(4.1000000005587935);
await page.mouse.move(844, 492);
await page.waitForTimeout(4);
await page.mouse.move(844, 493);
await page.waitForTimeout(1);
await page.mouse.move(845, 493);
await page.waitForTimeout(3);
await page.mouse.move(846, 493);
await page.waitForTimeout(4);
await page.mouse.move(847, 494);
await page.waitForTimeout(24.899999999441206);
await page.mouse.move(847, 495);
await page.waitForTimeout(29.100000000558794);
await page.mouse.move(848, 495);
await page.waitForTimeout(297.8999999994412);
await page.mouse.move(848, 495);
await page.waitForTimeout(5.7000000001862645);
await page.mouse.up({ button: "left" });
await expect(page).toHaveScreenshot({
maxDiffPixels: 100,
maxDiffPixelRatio: 0.01,
});
await page.waitForTimeout(11.299999999813735);
await page.mouse.move(847, 495);
await page.waitForTimeout(199.1000000005588);
await page.mouse.move(847, 495);
await page.waitForTimeout(249.29999999981374);
await page.mouse.move(846, 495);
await page.waitForTimeout(5.7000000001862645);
await page.mouse.move(846, 496);
await page.waitForTimeout(6);
await page.mouse.move(845, 496);
await page.waitForTimeout(1);
await page.mouse.move(845, 497);
await page.waitForTimeout(9);
await page.mouse.move(845, 498);
await page.waitForTimeout(3.8999999994412065);
await page.mouse.move(844, 498);
await page.waitForTimeout(1);
await page.mouse.move(844, 500);
await page.waitForTimeout(8);
await page.mouse.move(844, 501);
await page.waitForTimeout(3.1000000005587935);
await page.mouse.move(843, 501);
await page.waitForTimeout(137);
await page.mouse.move(844, 501);
await page.waitForTimeout(68.09999999962747);
await page.mouse.move(845, 501);
await page.waitForTimeout(7.7999999998137355);
await page.mouse.move(845, 500);
await page.waitForTimeout(1);
await page.mouse.move(846, 500);
await page.waitForTimeout(4);
await page.mouse.move(847, 500);
await page.waitForTimeout(2);
await page.mouse.move(848, 500);
await page.waitForTimeout(3.1000000005587935);
await page.mouse.move(849, 500);
await page.waitForTimeout(3);
await page.mouse.move(850, 500);
await page.waitForTimeout(5);
await page.mouse.move(851, 500);
await page.waitForTimeout(2);
await page.mouse.move(852, 499);
await page.waitForTimeout(3);
await page.mouse.move(854, 499);
await page.waitForTimeout(5);
await page.mouse.move(855, 499);
await page.waitForTimeout(3);
await page.mouse.move(856, 499);
await page.waitForTimeout(6);
await page.mouse.move(857, 499);
await page.waitForTimeout(12);
await page.mouse.move(858, 499);
await page.waitForTimeout(24);
await page.mouse.move(858, 498);
await page.waitForTimeout(4);
await page.mouse.move(858, 498);
await page.waitForTimeout(59.200000000186265);
await page.keyboard.down("Control");
});
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+13 -5
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@@ -11,9 +11,11 @@
"@babel/preset-env": "7.26.9", "@babel/preset-env": "7.26.9",
"@excalidraw/eslint-config": "1.0.3", "@excalidraw/eslint-config": "1.0.3",
"@excalidraw/prettier-config": "1.0.2", "@excalidraw/prettier-config": "1.0.2",
"@playwright/test": "1.55.0",
"@types/chai": "4.3.0", "@types/chai": "4.3.0",
"@types/jest": "27.4.0", "@types/jest": "27.4.0",
"@types/lodash.throttle": "4.1.7", "@types/lodash.throttle": "4.1.7",
"@types/node": "24.3.0",
"@types/react": "19.0.10", "@types/react": "19.0.10",
"@types/react-dom": "19.0.4", "@types/react-dom": "19.0.4",
"@types/socket.io-client": "3.0.0", "@types/socket.io-client": "3.0.0",
@@ -52,13 +54,18 @@
"build-node": "node ./scripts/build-node.js", "build-node": "node ./scripts/build-node.js",
"build:app:docker": "yarn --cwd ./excalidraw-app build:app:docker", "build:app:docker": "yarn --cwd ./excalidraw-app build:app:docker",
"build:app": "yarn --cwd ./excalidraw-app build:app", "build:app": "yarn --cwd ./excalidraw-app build:app",
"build:package": "yarn --cwd ./packages/excalidraw build:esm", "build:common": "yarn --cwd ./packages/common build:esm",
"build:element": "yarn --cwd ./packages/element build:esm",
"build:excalidraw": "yarn --cwd ./packages/excalidraw build:esm",
"build:math": "yarn --cwd ./packages/math build:esm",
"build:packages": "yarn build:common && yarn build:math && yarn build:element && yarn build:excalidraw",
"build:version": "yarn --cwd ./excalidraw-app build:version", "build:version": "yarn --cwd ./excalidraw-app build:version",
"build": "yarn --cwd ./excalidraw-app build", "build": "yarn --cwd ./excalidraw-app build",
"build:preview": "yarn --cwd ./excalidraw-app build:preview", "build:preview": "yarn --cwd ./excalidraw-app build:preview",
"start": "yarn --cwd ./excalidraw-app start", "start": "yarn --cwd ./excalidraw-app start",
"start:production": "yarn --cwd ./excalidraw-app start:production", "start:production": "yarn --cwd ./excalidraw-app start:production",
"start:example": "yarn build:package && yarn --cwd ./examples/with-script-in-browser start", "start:test": "yarn --cwd ./excalidraw-app start:test",
"start:example": "yarn build:packages && yarn --cwd ./examples/with-script-in-browser start",
"test:all": "yarn test:typecheck && yarn test:code && yarn test:other && yarn test:app --watch=false", "test:all": "yarn test:typecheck && yarn test:code && yarn test:other && yarn test:app --watch=false",
"test:app": "vitest", "test:app": "vitest",
"test:code": "eslint --max-warnings=0 --ext .js,.ts,.tsx .", "test:code": "eslint --max-warnings=0 --ext .js,.ts,.tsx .",
@@ -76,9 +83,10 @@
"locales-coverage:description": "node scripts/locales-coverage-description.js", "locales-coverage:description": "node scripts/locales-coverage-description.js",
"prepare": "husky install", "prepare": "husky install",
"prettier": "prettier \"**/*.{css,scss,json,md,html,yml}\" --ignore-path=.eslintignore", "prettier": "prettier \"**/*.{css,scss,json,md,html,yml}\" --ignore-path=.eslintignore",
"autorelease": "node scripts/autorelease.js", "release": "node scripts/release.js",
"prerelease:excalidraw": "node scripts/prerelease.js", "release:test": "node scripts/release.js --tag=test",
"release:excalidraw": "node scripts/release.js", "release:next": "node scripts/release.js --tag=next",
"release:latest": "node scripts/release.js --tag=latest",
"rm:build": "rimraf --glob excalidraw-app/build excalidraw-app/dist excalidraw-app/dev-dist packages/*/dist packages/*/build examples/*/build examples/*/dist", "rm:build": "rimraf --glob excalidraw-app/build excalidraw-app/dist excalidraw-app/dev-dist packages/*/dist packages/*/build examples/*/build examples/*/dist",
"rm:node_modules": "rimraf --glob node_modules excalidraw-app/node_modules packages/*/node_modules", "rm:node_modules": "rimraf --glob node_modules excalidraw-app/node_modules packages/*/node_modules",
"clean-install": "yarn rm:node_modules && yarn install" "clean-install": "yarn rm:node_modules && yarn install"
+5 -2
View File
@@ -1,6 +1,6 @@
{ {
"name": "@excalidraw/common", "name": "@excalidraw/common",
"version": "0.1.0", "version": "0.18.0",
"type": "module", "type": "module",
"types": "./dist/types/common/src/index.d.ts", "types": "./dist/types/common/src/index.d.ts",
"main": "./dist/prod/index.js", "main": "./dist/prod/index.js",
@@ -13,7 +13,10 @@
"default": "./dist/prod/index.js" "default": "./dist/prod/index.js"
}, },
"./*": { "./*": {
"types": "./dist/types/common/src/*.d.ts" "types": "./dist/types/common/src/*.d.ts",
"development": "./dist/dev/index.js",
"production": "./dist/prod/index.js",
"default": "./dist/prod/index.js"
} }
}, },
"files": [ "files": [
+50 -3
View File
@@ -18,13 +18,22 @@ export const isChrome = navigator.userAgent.indexOf("Chrome") !== -1;
export const isSafari = export const isSafari =
!isChrome && navigator.userAgent.indexOf("Safari") !== -1; !isChrome && navigator.userAgent.indexOf("Safari") !== -1;
export const isIOS = export const isIOS =
/iPad|iPhone/.test(navigator.platform) || /iPad|iPhone/i.test(navigator.platform) ||
// iPadOS 13+ // iPadOS 13+
(navigator.userAgent.includes("Mac") && "ontouchend" in document); (navigator.userAgent.includes("Mac") && "ontouchend" in document);
// keeping function so it can be mocked in test // keeping function so it can be mocked in test
export const isBrave = () => export const isBrave = () =>
(navigator as any).brave?.isBrave?.name === "isBrave"; (navigator as any).brave?.isBrave?.name === "isBrave";
export const isMobile =
isIOS ||
/android|webos|ipod|blackberry|iemobile|opera mini/i.test(
navigator.userAgent.toLowerCase(),
) ||
/android|ios|ipod|blackberry|windows phone/i.test(
navigator.platform.toLowerCase(),
);
export const supportsResizeObserver = export const supportsResizeObserver =
typeof window !== "undefined" && "ResizeObserver" in window; typeof window !== "undefined" && "ResizeObserver" in window;
@@ -36,6 +45,7 @@ export const APP_NAME = "Excalidraw";
// (happens a lot with fast clicks with the text tool) // (happens a lot with fast clicks with the text tool)
export const TEXT_AUTOWRAP_THRESHOLD = 36; // px export const TEXT_AUTOWRAP_THRESHOLD = 36; // px
export const DRAGGING_THRESHOLD = 10; // px export const DRAGGING_THRESHOLD = 10; // px
export const MINIMUM_ARROW_SIZE = 20; // px
export const LINE_CONFIRM_THRESHOLD = 8; // px export const LINE_CONFIRM_THRESHOLD = 8; // px
export const ELEMENT_SHIFT_TRANSLATE_AMOUNT = 5; export const ELEMENT_SHIFT_TRANSLATE_AMOUNT = 5;
export const ELEMENT_TRANSLATE_AMOUNT = 1; export const ELEMENT_TRANSLATE_AMOUNT = 1;
@@ -147,19 +157,49 @@ export const FONT_FAMILY = {
Assistant: 10, Assistant: 10,
}; };
// Segoe UI Emoji fails to properly fallback for some glyphs: ∞, ∫, ≠
// so we need to have generic font fallback before it
export const SANS_SERIF_GENERIC_FONT = "sans-serif";
export const MONOSPACE_GENERIC_FONT = "monospace";
export const FONT_FAMILY_GENERIC_FALLBACKS = {
[SANS_SERIF_GENERIC_FONT]: 998,
[MONOSPACE_GENERIC_FONT]: 999,
};
export const FONT_FAMILY_FALLBACKS = { export const FONT_FAMILY_FALLBACKS = {
[CJK_HAND_DRAWN_FALLBACK_FONT]: 100, [CJK_HAND_DRAWN_FALLBACK_FONT]: 100,
...FONT_FAMILY_GENERIC_FALLBACKS,
[WINDOWS_EMOJI_FALLBACK_FONT]: 1000, [WINDOWS_EMOJI_FALLBACK_FONT]: 1000,
}; };
export function getGenericFontFamilyFallback(
fontFamily: number,
): keyof typeof FONT_FAMILY_GENERIC_FALLBACKS {
switch (fontFamily) {
case FONT_FAMILY.Cascadia:
case FONT_FAMILY["Comic Shanns"]:
return MONOSPACE_GENERIC_FONT;
default:
return SANS_SERIF_GENERIC_FONT;
}
}
export const getFontFamilyFallbacks = ( export const getFontFamilyFallbacks = (
fontFamily: number, fontFamily: number,
): Array<keyof typeof FONT_FAMILY_FALLBACKS> => { ): Array<keyof typeof FONT_FAMILY_FALLBACKS> => {
const genericFallbackFont = getGenericFontFamilyFallback(fontFamily);
switch (fontFamily) { switch (fontFamily) {
case FONT_FAMILY.Excalifont: case FONT_FAMILY.Excalifont:
return [CJK_HAND_DRAWN_FALLBACK_FONT, WINDOWS_EMOJI_FALLBACK_FONT]; return [
CJK_HAND_DRAWN_FALLBACK_FONT,
genericFallbackFont,
WINDOWS_EMOJI_FALLBACK_FONT,
];
default: default:
return [WINDOWS_EMOJI_FALLBACK_FONT]; return [genericFallbackFont, WINDOWS_EMOJI_FALLBACK_FONT];
} }
}; };
@@ -477,3 +517,10 @@ export enum UserIdleState {
AWAY = "away", AWAY = "away",
IDLE = "idle", IDLE = "idle",
} }
/**
* distance at which we merge points instead of adding a new merge-point
* when converting a line to a polygon (merge currently means overlaping
* the start and end points)
*/
export const LINE_POLYGON_POINT_MERGE_DISTANCE = 20;
+3 -19
View File
@@ -1,10 +1,9 @@
import { average, pointFrom, type GlobalPoint } from "@excalidraw/math"; import { average } from "@excalidraw/math";
import type { import type {
ExcalidrawBindableElement, ExcalidrawBindableElement,
FontFamilyValues, FontFamilyValues,
FontString, FontString,
ExcalidrawElement,
} from "@excalidraw/element/types"; } from "@excalidraw/element/types";
import type { import type {
@@ -101,7 +100,6 @@ export const getFontFamilyString = ({
}) => { }) => {
for (const [fontFamilyString, id] of Object.entries(FONT_FAMILY)) { for (const [fontFamilyString, id] of Object.entries(FONT_FAMILY)) {
if (id === fontFamily) { if (id === fontFamily) {
// TODO: we should fallback first to generic family names first
return `${fontFamilyString}${getFontFamilyFallbacks(id) return `${fontFamilyString}${getFontFamilyFallbacks(id)
.map((x) => `, ${x}`) .map((x) => `, ${x}`)
.join("")}`; .join("")}`;
@@ -712,8 +710,8 @@ export const arrayToObject = <T>(
array: readonly T[], array: readonly T[],
groupBy?: (value: T) => string | number, groupBy?: (value: T) => string | number,
) => ) =>
array.reduce((acc, value) => { array.reduce((acc, value, idx) => {
acc[groupBy ? groupBy(value) : String(value)] = value; acc[groupBy ? groupBy(value) : idx] = value;
return acc; return acc;
}, {} as { [key: string]: T }); }, {} as { [key: string]: T });
@@ -1238,20 +1236,6 @@ export const escapeDoubleQuotes = (str: string) => {
export const castArray = <T>(value: T | T[]): T[] => export const castArray = <T>(value: T | T[]): T[] =>
Array.isArray(value) ? value : [value]; Array.isArray(value) ? value : [value];
export const elementCenterPoint = (
element: ExcalidrawElement,
xOffset: number = 0,
yOffset: number = 0,
) => {
const { x, y, width, height } = element;
const centerXPoint = x + width / 2 + xOffset;
const centerYPoint = y + height / 2 + yOffset;
return pointFrom<GlobalPoint>(centerXPoint, centerYPoint);
};
/** hack for Array.isArray type guard not working with readonly value[] */ /** hack for Array.isArray type guard not working with readonly value[] */
export const isReadonlyArray = (value?: any): value is readonly any[] => { export const isReadonlyArray = (value?: any): value is readonly any[] => {
return Array.isArray(value); return Array.isArray(value);
+9 -2
View File
@@ -1,6 +1,6 @@
{ {
"name": "@excalidraw/element", "name": "@excalidraw/element",
"version": "0.1.0", "version": "0.18.0",
"type": "module", "type": "module",
"types": "./dist/types/element/src/index.d.ts", "types": "./dist/types/element/src/index.d.ts",
"main": "./dist/prod/index.js", "main": "./dist/prod/index.js",
@@ -13,7 +13,10 @@
"default": "./dist/prod/index.js" "default": "./dist/prod/index.js"
}, },
"./*": { "./*": {
"types": "./dist/types/element/src/*.d.ts" "types": "./dist/types/element/src/*.d.ts",
"development": "./dist/dev/index.js",
"production": "./dist/prod/index.js",
"default": "./dist/prod/index.js"
} }
}, },
"files": [ "files": [
@@ -52,5 +55,9 @@
"scripts": { "scripts": {
"gen:types": "rimraf types && tsc", "gen:types": "rimraf types && tsc",
"build:esm": "rimraf dist && node ../../scripts/buildBase.js && yarn gen:types" "build:esm": "rimraf dist && node ../../scripts/buildBase.js && yarn gen:types"
},
"dependencies": {
"@excalidraw/common": "0.18.0",
"@excalidraw/math": "0.18.0"
} }
} }
+16 -4
View File
@@ -164,9 +164,14 @@ export class Scene {
return this.frames; return this.frames;
} }
constructor(elements: ElementsMapOrArray | null = null) { constructor(
elements: ElementsMapOrArray | null = null,
options?: {
skipValidation?: true;
},
) {
if (elements) { if (elements) {
this.replaceAllElements(elements); this.replaceAllElements(elements, options);
} }
} }
@@ -263,12 +268,19 @@ export class Scene {
return didChange; return didChange;
} }
replaceAllElements(nextElements: ElementsMapOrArray) { replaceAllElements(
nextElements: ElementsMapOrArray,
options?: {
skipValidation?: true;
},
) {
// we do trust the insertion order on the map, though maybe we shouldn't and should prefer order defined by fractional indices // we do trust the insertion order on the map, though maybe we shouldn't and should prefer order defined by fractional indices
const _nextElements = toArray(nextElements); const _nextElements = toArray(nextElements);
const nextFrameLikes: ExcalidrawFrameLikeElement[] = []; const nextFrameLikes: ExcalidrawFrameLikeElement[] = [];
validateIndicesThrottled(_nextElements); if (!options?.skipValidation) {
validateIndicesThrottled(_nextElements);
}
this.elements = syncInvalidIndices(_nextElements); this.elements = syncInvalidIndices(_nextElements);
this.elementsMap.clear(); this.elementsMap.clear();
-95
View File
@@ -1,95 +0,0 @@
import { RoughGenerator } from "roughjs/bin/generator";
import { COLOR_PALETTE } from "@excalidraw/common";
import type {
AppState,
EmbedsValidationStatus,
} from "@excalidraw/excalidraw/types";
import type {
ElementShape,
ElementShapes,
} from "@excalidraw/excalidraw/scene/types";
import { _generateElementShape } from "./Shape";
import { elementWithCanvasCache } from "./renderElement";
import type { ExcalidrawElement, ExcalidrawSelectionElement } from "./types";
import type { Drawable } from "roughjs/bin/core";
export class ShapeCache {
private static rg = new RoughGenerator();
private static cache = new WeakMap<ExcalidrawElement, ElementShape>();
/**
* Retrieves shape from cache if available. Use this only if shape
* is optional and you have a fallback in case it's not cached.
*/
public static get = <T extends ExcalidrawElement>(element: T) => {
return ShapeCache.cache.get(
element,
) as T["type"] extends keyof ElementShapes
? ElementShapes[T["type"]] | undefined
: ElementShape | undefined;
};
public static set = <T extends ExcalidrawElement>(
element: T,
shape: T["type"] extends keyof ElementShapes
? ElementShapes[T["type"]]
: Drawable,
) => ShapeCache.cache.set(element, shape);
public static delete = (element: ExcalidrawElement) =>
ShapeCache.cache.delete(element);
public static destroy = () => {
ShapeCache.cache = new WeakMap();
};
/**
* Generates & caches shape for element if not already cached, otherwise
* returns cached shape.
*/
public static generateElementShape = <
T extends Exclude<ExcalidrawElement, ExcalidrawSelectionElement>,
>(
element: T,
renderConfig: {
isExporting: boolean;
canvasBackgroundColor: AppState["viewBackgroundColor"];
embedsValidationStatus: EmbedsValidationStatus;
} | null,
) => {
// when exporting, always regenerated to guarantee the latest shape
const cachedShape = renderConfig?.isExporting
? undefined
: ShapeCache.get(element);
// `null` indicates no rc shape applicable for this element type,
// but it's considered a valid cache value (= do not regenerate)
if (cachedShape !== undefined) {
return cachedShape;
}
elementWithCanvasCache.delete(element);
const shape = _generateElementShape(
element,
ShapeCache.rg,
renderConfig || {
isExporting: false,
canvasBackgroundColor: COLOR_PALETTE.white,
embedsValidationStatus: null,
},
) as T["type"] extends keyof ElementShapes
? ElementShapes[T["type"]]
: Drawable | null;
ShapeCache.cache.set(element, shape);
return shape;
};
}
+7 -4
View File
@@ -1,6 +1,8 @@
import type { AppState } from "@excalidraw/excalidraw/types";
import { updateBoundElements } from "./binding"; import { updateBoundElements } from "./binding";
import { getCommonBoundingBox } from "./bounds"; import { getCommonBoundingBox } from "./bounds";
import { getMaximumGroups } from "./groups"; import { getSelectedElementsByGroup } from "./groups";
import type { Scene } from "./Scene"; import type { Scene } from "./Scene";
@@ -16,11 +18,12 @@ export const alignElements = (
selectedElements: ExcalidrawElement[], selectedElements: ExcalidrawElement[],
alignment: Alignment, alignment: Alignment,
scene: Scene, scene: Scene,
appState: Readonly<AppState>,
): ExcalidrawElement[] => { ): ExcalidrawElement[] => {
const elementsMap = scene.getNonDeletedElementsMap(); const groups: ExcalidrawElement[][] = getSelectedElementsByGroup(
const groups: ExcalidrawElement[][] = getMaximumGroups(
selectedElements, selectedElements,
elementsMap, scene.getNonDeletedElementsMap(),
appState,
); );
const selectionBoundingBox = getCommonBoundingBox(selectedElements); const selectionBoundingBox = getCommonBoundingBox(selectedElements);
+186 -130
View File
@@ -6,7 +6,6 @@ import {
invariant, invariant,
isDevEnv, isDevEnv,
isTestEnv, isTestEnv,
elementCenterPoint,
} from "@excalidraw/common"; } from "@excalidraw/common";
import { import {
@@ -27,8 +26,6 @@ import {
PRECISION, PRECISION,
} from "@excalidraw/math"; } from "@excalidraw/math";
import { isPointOnShape } from "@excalidraw/utils/collision";
import type { LocalPoint, Radians } from "@excalidraw/math"; import type { LocalPoint, Radians } from "@excalidraw/math";
import type { AppState } from "@excalidraw/excalidraw/types"; import type { AppState } from "@excalidraw/excalidraw/types";
@@ -36,12 +33,12 @@ import type { AppState } from "@excalidraw/excalidraw/types";
import type { MapEntry, Mutable } from "@excalidraw/common/utility-types"; import type { MapEntry, Mutable } from "@excalidraw/common/utility-types";
import { import {
doBoundsIntersect,
getCenterForBounds, getCenterForBounds,
getElementBounds, getElementBounds,
doBoundsIntersect,
} from "./bounds"; } from "./bounds";
import { intersectElementWithLineSegment } from "./collision"; import { intersectElementWithLineSegment } from "./collision";
import { distanceToBindableElement } from "./distance"; import { distanceToElement } from "./distance";
import { import {
headingForPointFromElement, headingForPointFromElement,
headingIsHorizontal, headingIsHorizontal,
@@ -63,7 +60,7 @@ import {
isTextElement, isTextElement,
} from "./typeChecks"; } from "./typeChecks";
import { aabbForElement, getElementShape, pointInsideBounds } from "./shapes"; import { aabbForElement, elementCenterPoint } from "./bounds";
import { updateElbowArrowPoints } from "./elbowArrow"; import { updateElbowArrowPoints } from "./elbowArrow";
import type { Scene } from "./Scene"; import type { Scene } from "./Scene";
@@ -109,7 +106,6 @@ export const isBindingEnabled = (appState: AppState): boolean => {
export const FIXED_BINDING_DISTANCE = 5; export const FIXED_BINDING_DISTANCE = 5;
export const BINDING_HIGHLIGHT_THICKNESS = 10; export const BINDING_HIGHLIGHT_THICKNESS = 10;
export const BINDING_HIGHLIGHT_OFFSET = 4;
const getNonDeletedElements = ( const getNonDeletedElements = (
scene: Scene, scene: Scene,
@@ -131,6 +127,7 @@ export const bindOrUnbindLinearElement = (
endBindingElement: ExcalidrawBindableElement | null | "keep", endBindingElement: ExcalidrawBindableElement | null | "keep",
scene: Scene, scene: Scene,
): void => { ): void => {
const elementsMap = scene.getNonDeletedElementsMap();
const boundToElementIds: Set<ExcalidrawBindableElement["id"]> = new Set(); const boundToElementIds: Set<ExcalidrawBindableElement["id"]> = new Set();
const unboundFromElementIds: Set<ExcalidrawBindableElement["id"]> = new Set(); const unboundFromElementIds: Set<ExcalidrawBindableElement["id"]> = new Set();
bindOrUnbindLinearElementEdge( bindOrUnbindLinearElementEdge(
@@ -141,6 +138,7 @@ export const bindOrUnbindLinearElement = (
boundToElementIds, boundToElementIds,
unboundFromElementIds, unboundFromElementIds,
scene, scene,
elementsMap,
); );
bindOrUnbindLinearElementEdge( bindOrUnbindLinearElementEdge(
linearElement, linearElement,
@@ -150,6 +148,7 @@ export const bindOrUnbindLinearElement = (
boundToElementIds, boundToElementIds,
unboundFromElementIds, unboundFromElementIds,
scene, scene,
elementsMap,
); );
const onlyUnbound = Array.from(unboundFromElementIds).filter( const onlyUnbound = Array.from(unboundFromElementIds).filter(
@@ -176,6 +175,7 @@ const bindOrUnbindLinearElementEdge = (
// Is mutated // Is mutated
unboundFromElementIds: Set<ExcalidrawBindableElement["id"]>, unboundFromElementIds: Set<ExcalidrawBindableElement["id"]>,
scene: Scene, scene: Scene,
elementsMap: ElementsMap,
): void => { ): void => {
// "keep" is for method chaining convenience, a "no-op", so just bail out // "keep" is for method chaining convenience, a "no-op", so just bail out
if (bindableElement === "keep") { if (bindableElement === "keep") {
@@ -216,43 +216,29 @@ const bindOrUnbindLinearElementEdge = (
} }
}; };
const getOriginalBindingIfStillCloseOfLinearElementEdge = (
linearElement: NonDeleted<ExcalidrawLinearElement>,
edge: "start" | "end",
elementsMap: NonDeletedSceneElementsMap,
zoom?: AppState["zoom"],
): NonDeleted<ExcalidrawElement> | null => {
const coors = getLinearElementEdgeCoors(linearElement, edge, elementsMap);
const elementId =
edge === "start"
? linearElement.startBinding?.elementId
: linearElement.endBinding?.elementId;
if (elementId) {
const element = elementsMap.get(elementId);
if (
isBindableElement(element) &&
bindingBorderTest(element, coors, elementsMap, zoom)
) {
return element;
}
}
return null;
};
const getOriginalBindingsIfStillCloseToArrowEnds = ( const getOriginalBindingsIfStillCloseToArrowEnds = (
linearElement: NonDeleted<ExcalidrawLinearElement>, linearElement: NonDeleted<ExcalidrawLinearElement>,
elementsMap: NonDeletedSceneElementsMap, elementsMap: NonDeletedSceneElementsMap,
zoom?: AppState["zoom"], zoom?: AppState["zoom"],
): (NonDeleted<ExcalidrawElement> | null)[] => ): (NonDeleted<ExcalidrawElement> | null)[] =>
["start", "end"].map((edge) => (["start", "end"] as const).map((edge) => {
getOriginalBindingIfStillCloseOfLinearElementEdge( const coors = getLinearElementEdgeCoors(linearElement, edge, elementsMap);
linearElement, const elementId =
edge as "start" | "end", edge === "start"
elementsMap, ? linearElement.startBinding?.elementId
zoom, : linearElement.endBinding?.elementId;
), if (elementId) {
); const element = elementsMap.get(elementId);
if (
isBindableElement(element) &&
bindingBorderTest(element, coors, elementsMap, zoom)
) {
return element;
}
}
return null;
});
const getBindingStrategyForDraggingArrowEndpoints = ( const getBindingStrategyForDraggingArrowEndpoints = (
selectedElement: NonDeleted<ExcalidrawLinearElement>, selectedElement: NonDeleted<ExcalidrawLinearElement>,
@@ -268,7 +254,7 @@ const getBindingStrategyForDraggingArrowEndpoints = (
const endDragged = draggingPoints.findIndex((i) => i === endIdx) > -1; const endDragged = draggingPoints.findIndex((i) => i === endIdx) > -1;
const start = startDragged const start = startDragged
? isBindingEnabled ? isBindingEnabled
? getElligibleElementForBindingElement( ? getEligibleElementForBindingElement(
selectedElement, selectedElement,
"start", "start",
elementsMap, elementsMap,
@@ -279,7 +265,7 @@ const getBindingStrategyForDraggingArrowEndpoints = (
: "keep"; : "keep";
const end = endDragged const end = endDragged
? isBindingEnabled ? isBindingEnabled
? getElligibleElementForBindingElement( ? getEligibleElementForBindingElement(
selectedElement, selectedElement,
"end", "end",
elementsMap, elementsMap,
@@ -311,7 +297,7 @@ const getBindingStrategyForDraggingArrowOrJoints = (
); );
const start = startIsClose const start = startIsClose
? isBindingEnabled ? isBindingEnabled
? getElligibleElementForBindingElement( ? getEligibleElementForBindingElement(
selectedElement, selectedElement,
"start", "start",
elementsMap, elementsMap,
@@ -322,7 +308,7 @@ const getBindingStrategyForDraggingArrowOrJoints = (
: null; : null;
const end = endIsClose const end = endIsClose
? isBindingEnabled ? isBindingEnabled
? getElligibleElementForBindingElement( ? getEligibleElementForBindingElement(
selectedElement, selectedElement,
"end", "end",
elementsMap, elementsMap,
@@ -398,6 +384,48 @@ export const getSuggestedBindingsForArrows = (
); );
}; };
export const maybeSuggestBindingsForLinearElementAtCoords = (
linearElement: NonDeleted<ExcalidrawLinearElement>,
/** scene coords */
pointerCoords: {
x: number;
y: number;
}[],
scene: Scene,
zoom: AppState["zoom"],
// During line creation the start binding hasn't been written yet
// into `linearElement`
oppositeBindingBoundElement?: ExcalidrawBindableElement | null,
): ExcalidrawBindableElement[] =>
Array.from(
pointerCoords.reduce(
(acc: Set<NonDeleted<ExcalidrawBindableElement>>, coords) => {
const hoveredBindableElement = getHoveredElementForBinding(
coords,
scene.getNonDeletedElements(),
scene.getNonDeletedElementsMap(),
zoom,
isElbowArrow(linearElement),
isElbowArrow(linearElement),
);
if (
hoveredBindableElement != null &&
!isLinearElementSimpleAndAlreadyBound(
linearElement,
oppositeBindingBoundElement?.id,
hoveredBindableElement,
)
) {
acc.add(hoveredBindableElement);
}
return acc;
},
new Set() as Set<NonDeleted<ExcalidrawBindableElement>>,
),
);
export const maybeBindLinearElement = ( export const maybeBindLinearElement = (
linearElement: NonDeleted<ExcalidrawLinearElement>, linearElement: NonDeleted<ExcalidrawLinearElement>,
appState: AppState, appState: AppState,
@@ -441,22 +469,13 @@ export const maybeBindLinearElement = (
const normalizePointBinding = ( const normalizePointBinding = (
binding: { focus: number; gap: number }, binding: { focus: number; gap: number },
hoveredElement: ExcalidrawBindableElement, hoveredElement: ExcalidrawBindableElement,
) => { ) => ({
let gap = binding.gap; ...binding,
const maxGap = maxBindingGap( gap: Math.min(
hoveredElement, binding.gap,
hoveredElement.width, maxBindingGap(hoveredElement, hoveredElement.width, hoveredElement.height),
hoveredElement.height, ),
); });
if (gap > maxGap) {
gap = BINDING_HIGHLIGHT_THICKNESS + BINDING_HIGHLIGHT_OFFSET;
}
return {
...binding,
gap,
};
};
export const bindLinearElement = ( export const bindLinearElement = (
linearElement: NonDeleted<ExcalidrawLinearElement>, linearElement: NonDeleted<ExcalidrawLinearElement>,
@@ -488,6 +507,7 @@ export const bindLinearElement = (
linearElement, linearElement,
hoveredElement, hoveredElement,
startOrEnd, startOrEnd,
scene.getNonDeletedElementsMap(),
), ),
}; };
} }
@@ -535,7 +555,7 @@ export const isLinearElementSimpleAndAlreadyBound = (
const isLinearElementSimple = ( const isLinearElementSimple = (
linearElement: NonDeleted<ExcalidrawLinearElement>, linearElement: NonDeleted<ExcalidrawLinearElement>,
): boolean => linearElement.points.length < 3; ): boolean => linearElement.points.length < 3 && !isElbowArrow(linearElement);
const unbindLinearElement = ( const unbindLinearElement = (
linearElement: NonDeleted<ExcalidrawLinearElement>, linearElement: NonDeleted<ExcalidrawLinearElement>,
@@ -703,8 +723,13 @@ const calculateFocusAndGap = (
); );
return { return {
focus: determineFocusDistance(hoveredElement, adjacentPoint, edgePoint), focus: determineFocusDistance(
gap: Math.max(1, distanceToBindableElement(hoveredElement, edgePoint)), hoveredElement,
elementsMap,
adjacentPoint,
edgePoint,
),
gap: Math.max(1, distanceToElement(hoveredElement, elementsMap, edgePoint)),
}; };
}; };
@@ -874,6 +899,7 @@ export const getHeadingForElbowArrowSnap = (
bindableElement: ExcalidrawBindableElement | undefined | null, bindableElement: ExcalidrawBindableElement | undefined | null,
aabb: Bounds | undefined | null, aabb: Bounds | undefined | null,
origPoint: GlobalPoint, origPoint: GlobalPoint,
elementsMap: ElementsMap,
zoom?: AppState["zoom"], zoom?: AppState["zoom"],
): Heading => { ): Heading => {
const otherPointHeading = vectorToHeading(vectorFromPoint(otherPoint, p)); const otherPointHeading = vectorToHeading(vectorFromPoint(otherPoint, p));
@@ -882,11 +908,16 @@ export const getHeadingForElbowArrowSnap = (
return otherPointHeading; return otherPointHeading;
} }
const distance = getDistanceForBinding(origPoint, bindableElement, zoom); const distance = getDistanceForBinding(
origPoint,
bindableElement,
elementsMap,
zoom,
);
if (!distance) { if (!distance) {
return vectorToHeading( return vectorToHeading(
vectorFromPoint(p, elementCenterPoint(bindableElement)), vectorFromPoint(p, elementCenterPoint(bindableElement, elementsMap)),
); );
} }
@@ -896,9 +927,10 @@ export const getHeadingForElbowArrowSnap = (
const getDistanceForBinding = ( const getDistanceForBinding = (
point: Readonly<GlobalPoint>, point: Readonly<GlobalPoint>,
bindableElement: ExcalidrawBindableElement, bindableElement: ExcalidrawBindableElement,
elementsMap: ElementsMap,
zoom?: AppState["zoom"], zoom?: AppState["zoom"],
) => { ) => {
const distance = distanceToBindableElement(bindableElement, point); const distance = distanceToElement(bindableElement, elementsMap, point);
const bindDistance = maxBindingGap( const bindDistance = maxBindingGap(
bindableElement, bindableElement,
bindableElement.width, bindableElement.width,
@@ -913,12 +945,13 @@ export const bindPointToSnapToElementOutline = (
arrow: ExcalidrawElbowArrowElement, arrow: ExcalidrawElbowArrowElement,
bindableElement: ExcalidrawBindableElement, bindableElement: ExcalidrawBindableElement,
startOrEnd: "start" | "end", startOrEnd: "start" | "end",
elementsMap: ElementsMap,
): GlobalPoint => { ): GlobalPoint => {
if (isDevEnv() || isTestEnv()) { if (isDevEnv() || isTestEnv()) {
invariant(arrow.points.length > 1, "Arrow should have at least 2 points"); invariant(arrow.points.length > 1, "Arrow should have at least 2 points");
} }
const aabb = aabbForElement(bindableElement); const aabb = aabbForElement(bindableElement, elementsMap);
const localP = const localP =
arrow.points[startOrEnd === "start" ? 0 : arrow.points.length - 1]; arrow.points[startOrEnd === "start" ? 0 : arrow.points.length - 1];
const globalP = pointFrom<GlobalPoint>( const globalP = pointFrom<GlobalPoint>(
@@ -926,7 +959,7 @@ export const bindPointToSnapToElementOutline = (
arrow.y + localP[1], arrow.y + localP[1],
); );
const edgePoint = isRectanguloidElement(bindableElement) const edgePoint = isRectanguloidElement(bindableElement)
? avoidRectangularCorner(bindableElement, globalP) ? avoidRectangularCorner(bindableElement, elementsMap, globalP)
: globalP; : globalP;
const elbowed = isElbowArrow(arrow); const elbowed = isElbowArrow(arrow);
const center = getCenterForBounds(aabb); const center = getCenterForBounds(aabb);
@@ -945,26 +978,31 @@ export const bindPointToSnapToElementOutline = (
const isHorizontal = headingIsHorizontal( const isHorizontal = headingIsHorizontal(
headingForPointFromElement(bindableElement, aabb, globalP), headingForPointFromElement(bindableElement, aabb, globalP),
); );
const snapPoint = snapToMid(bindableElement, elementsMap, edgePoint);
const otherPoint = pointFrom<GlobalPoint>( const otherPoint = pointFrom<GlobalPoint>(
isHorizontal ? center[0] : edgePoint[0], isHorizontal ? center[0] : snapPoint[0],
!isHorizontal ? center[1] : edgePoint[1], !isHorizontal ? center[1] : snapPoint[1],
);
const intersector = lineSegment(
otherPoint,
pointFromVector(
vectorScale(
vectorNormalize(vectorFromPoint(snapPoint, otherPoint)),
Math.max(bindableElement.width, bindableElement.height) * 2,
),
otherPoint,
),
); );
intersection = intersectElementWithLineSegment( intersection = intersectElementWithLineSegment(
bindableElement, bindableElement,
lineSegment( elementsMap,
otherPoint, intersector,
pointFromVector( FIXED_BINDING_DISTANCE,
vectorScale( ).sort(pointDistanceSq)[0];
vectorNormalize(vectorFromPoint(edgePoint, otherPoint)),
Math.max(bindableElement.width, bindableElement.height) * 2,
),
otherPoint,
),
),
)[0];
} else { } else {
intersection = intersectElementWithLineSegment( intersection = intersectElementWithLineSegment(
bindableElement, bindableElement,
elementsMap,
lineSegment( lineSegment(
adjacentPoint, adjacentPoint,
pointFromVector( pointFromVector(
@@ -991,31 +1029,15 @@ export const bindPointToSnapToElementOutline = (
return edgePoint; return edgePoint;
} }
if (elbowed) { return elbowed ? intersection : edgePoint;
const scalar =
pointDistanceSq(edgePoint, center) -
pointDistanceSq(intersection, center) >
0
? FIXED_BINDING_DISTANCE
: -FIXED_BINDING_DISTANCE;
return pointFromVector(
vectorScale(
vectorNormalize(vectorFromPoint(edgePoint, intersection)),
scalar,
),
intersection,
);
}
return edgePoint;
}; };
export const avoidRectangularCorner = ( export const avoidRectangularCorner = (
element: ExcalidrawBindableElement, element: ExcalidrawBindableElement,
elementsMap: ElementsMap,
p: GlobalPoint, p: GlobalPoint,
): GlobalPoint => { ): GlobalPoint => {
const center = elementCenterPoint(element); const center = elementCenterPoint(element, elementsMap);
const nonRotatedPoint = pointRotateRads(p, center, -element.angle as Radians); const nonRotatedPoint = pointRotateRads(p, center, -element.angle as Radians);
if (nonRotatedPoint[0] < element.x && nonRotatedPoint[1] < element.y) { if (nonRotatedPoint[0] < element.x && nonRotatedPoint[1] < element.y) {
@@ -1108,35 +1130,34 @@ export const avoidRectangularCorner = (
export const snapToMid = ( export const snapToMid = (
element: ExcalidrawBindableElement, element: ExcalidrawBindableElement,
elementsMap: ElementsMap,
p: GlobalPoint, p: GlobalPoint,
tolerance: number = 0.05, tolerance: number = 0.05,
): GlobalPoint => { ): GlobalPoint => {
const { x, y, width, height, angle } = element; const { x, y, width, height, angle } = element;
const center = elementCenterPoint(element, elementsMap, -0.1, -0.1);
const center = elementCenterPoint(element, -0.1, -0.1);
const nonRotated = pointRotateRads(p, center, -angle as Radians); const nonRotated = pointRotateRads(p, center, -angle as Radians);
// snap-to-center point is adaptive to element size, but we don't want to go // snap-to-center point is adaptive to element size, but we don't want to go
// above and below certain px distance // above and below certain px distance
const verticalThrehsold = clamp(tolerance * height, 5, 80); const verticalThreshold = clamp(tolerance * height, 5, 80);
const horizontalThrehsold = clamp(tolerance * width, 5, 80); const horizontalThreshold = clamp(tolerance * width, 5, 80);
if ( if (
nonRotated[0] <= x + width / 2 && nonRotated[0] <= x + width / 2 &&
nonRotated[1] > center[1] - verticalThrehsold && nonRotated[1] > center[1] - verticalThreshold &&
nonRotated[1] < center[1] + verticalThrehsold nonRotated[1] < center[1] + verticalThreshold
) { ) {
// LEFT // LEFT
return pointRotateRads( return pointRotateRads<GlobalPoint>(
pointFrom(x - FIXED_BINDING_DISTANCE, center[1]), pointFrom(x - FIXED_BINDING_DISTANCE, center[1]),
center, center,
angle, angle,
); );
} else if ( } else if (
nonRotated[1] <= y + height / 2 && nonRotated[1] <= y + height / 2 &&
nonRotated[0] > center[0] - horizontalThrehsold && nonRotated[0] > center[0] - horizontalThreshold &&
nonRotated[0] < center[0] + horizontalThrehsold nonRotated[0] < center[0] + horizontalThreshold
) { ) {
// TOP // TOP
return pointRotateRads( return pointRotateRads(
@@ -1146,8 +1167,8 @@ export const snapToMid = (
); );
} else if ( } else if (
nonRotated[0] >= x + width / 2 && nonRotated[0] >= x + width / 2 &&
nonRotated[1] > center[1] - verticalThrehsold && nonRotated[1] > center[1] - verticalThreshold &&
nonRotated[1] < center[1] + verticalThrehsold nonRotated[1] < center[1] + verticalThreshold
) { ) {
// RIGHT // RIGHT
return pointRotateRads( return pointRotateRads(
@@ -1157,8 +1178,8 @@ export const snapToMid = (
); );
} else if ( } else if (
nonRotated[1] >= y + height / 2 && nonRotated[1] >= y + height / 2 &&
nonRotated[0] > center[0] - horizontalThrehsold && nonRotated[0] > center[0] - horizontalThreshold &&
nonRotated[0] < center[0] + horizontalThrehsold nonRotated[0] < center[0] + horizontalThreshold
) { ) {
// DOWN // DOWN
return pointRotateRads( return pointRotateRads(
@@ -1167,7 +1188,7 @@ export const snapToMid = (
angle, angle,
); );
} else if (element.type === "diamond") { } else if (element.type === "diamond") {
const distance = FIXED_BINDING_DISTANCE - 1; const distance = FIXED_BINDING_DISTANCE;
const topLeft = pointFrom<GlobalPoint>( const topLeft = pointFrom<GlobalPoint>(
x + width / 4 - distance, x + width / 4 - distance,
y + height / 4 - distance, y + height / 4 - distance,
@@ -1184,27 +1205,28 @@ export const snapToMid = (
x + (3 * width) / 4 + distance, x + (3 * width) / 4 + distance,
y + (3 * height) / 4 + distance, y + (3 * height) / 4 + distance,
); );
if ( if (
pointDistance(topLeft, nonRotated) < pointDistance(topLeft, nonRotated) <
Math.max(horizontalThrehsold, verticalThrehsold) Math.max(horizontalThreshold, verticalThreshold)
) { ) {
return pointRotateRads(topLeft, center, angle); return pointRotateRads(topLeft, center, angle);
} }
if ( if (
pointDistance(topRight, nonRotated) < pointDistance(topRight, nonRotated) <
Math.max(horizontalThrehsold, verticalThrehsold) Math.max(horizontalThreshold, verticalThreshold)
) { ) {
return pointRotateRads(topRight, center, angle); return pointRotateRads(topRight, center, angle);
} }
if ( if (
pointDistance(bottomLeft, nonRotated) < pointDistance(bottomLeft, nonRotated) <
Math.max(horizontalThrehsold, verticalThrehsold) Math.max(horizontalThreshold, verticalThreshold)
) { ) {
return pointRotateRads(bottomLeft, center, angle); return pointRotateRads(bottomLeft, center, angle);
} }
if ( if (
pointDistance(bottomRight, nonRotated) < pointDistance(bottomRight, nonRotated) <
Math.max(horizontalThrehsold, verticalThrehsold) Math.max(horizontalThreshold, verticalThreshold)
) { ) {
return pointRotateRads(bottomRight, center, angle); return pointRotateRads(bottomRight, center, angle);
} }
@@ -1239,8 +1261,9 @@ const updateBoundPoint = (
linearElement, linearElement,
bindableElement, bindableElement,
startOrEnd === "startBinding" ? "start" : "end", startOrEnd === "startBinding" ? "start" : "end",
elementsMap,
).fixedPoint; ).fixedPoint;
const globalMidPoint = elementCenterPoint(bindableElement); const globalMidPoint = elementCenterPoint(bindableElement, elementsMap);
const global = pointFrom<GlobalPoint>( const global = pointFrom<GlobalPoint>(
bindableElement.x + fixedPoint[0] * bindableElement.width, bindableElement.x + fixedPoint[0] * bindableElement.width,
bindableElement.y + fixedPoint[1] * bindableElement.height, bindableElement.y + fixedPoint[1] * bindableElement.height,
@@ -1266,6 +1289,7 @@ const updateBoundPoint = (
); );
const focusPointAbsolute = determineFocusPoint( const focusPointAbsolute = determineFocusPoint(
bindableElement, bindableElement,
elementsMap,
binding.focus, binding.focus,
adjacentPoint, adjacentPoint,
); );
@@ -1284,7 +1308,7 @@ const updateBoundPoint = (
elementsMap, elementsMap,
); );
const center = elementCenterPoint(bindableElement); const center = elementCenterPoint(bindableElement, elementsMap);
const interceptorLength = const interceptorLength =
pointDistance(adjacentPoint, edgePointAbsolute) + pointDistance(adjacentPoint, edgePointAbsolute) +
pointDistance(adjacentPoint, center) + pointDistance(adjacentPoint, center) +
@@ -1292,6 +1316,7 @@ const updateBoundPoint = (
const intersections = [ const intersections = [
...intersectElementWithLineSegment( ...intersectElementWithLineSegment(
bindableElement, bindableElement,
elementsMap,
lineSegment<GlobalPoint>( lineSegment<GlobalPoint>(
adjacentPoint, adjacentPoint,
pointFromVector( pointFromVector(
@@ -1342,6 +1367,7 @@ export const calculateFixedPointForElbowArrowBinding = (
linearElement: NonDeleted<ExcalidrawElbowArrowElement>, linearElement: NonDeleted<ExcalidrawElbowArrowElement>,
hoveredElement: ExcalidrawBindableElement, hoveredElement: ExcalidrawBindableElement,
startOrEnd: "start" | "end", startOrEnd: "start" | "end",
elementsMap: ElementsMap,
): { fixedPoint: FixedPoint } => { ): { fixedPoint: FixedPoint } => {
const bounds = [ const bounds = [
hoveredElement.x, hoveredElement.x,
@@ -1353,6 +1379,7 @@ export const calculateFixedPointForElbowArrowBinding = (
linearElement, linearElement,
hoveredElement, hoveredElement,
startOrEnd, startOrEnd,
elementsMap,
); );
const globalMidPoint = pointFrom( const globalMidPoint = pointFrom(
bounds[0] + (bounds[2] - bounds[0]) / 2, bounds[0] + (bounds[2] - bounds[0]) / 2,
@@ -1396,7 +1423,7 @@ const maybeCalculateNewGapWhenScaling = (
return { ...currentBinding, gap: newGap }; return { ...currentBinding, gap: newGap };
}; };
const getElligibleElementForBindingElement = ( const getEligibleElementForBindingElement = (
linearElement: NonDeleted<ExcalidrawLinearElement>, linearElement: NonDeleted<ExcalidrawLinearElement>,
startOrEnd: "start" | "end", startOrEnd: "start" | "end",
elementsMap: NonDeletedSceneElementsMap, elementsMap: NonDeletedSceneElementsMap,
@@ -1548,14 +1575,38 @@ export const bindingBorderTest = (
zoom?: AppState["zoom"], zoom?: AppState["zoom"],
fullShape?: boolean, fullShape?: boolean,
): boolean => { ): boolean => {
const p = pointFrom<GlobalPoint>(x, y);
const threshold = maxBindingGap(element, element.width, element.height, zoom); const threshold = maxBindingGap(element, element.width, element.height, zoom);
const shouldTestInside =
// disable fullshape snapping for frame elements so we
// can bind to frame children
(fullShape || !isBindingFallthroughEnabled(element)) &&
!isFrameLikeElement(element);
const shape = getElementShape(element, elementsMap); // PERF: Run a cheap test to see if the binding element
return ( // is even close to the element
isPointOnShape(pointFrom(x, y), shape, threshold) || const bounds = [
(fullShape === true && x - threshold,
pointInsideBounds(pointFrom(x, y), aabbForElement(element))) y - threshold,
x + threshold,
y + threshold,
] as Bounds;
const elementBounds = getElementBounds(element, elementsMap);
if (!doBoundsIntersect(bounds, elementBounds)) {
return false;
}
// Do the intersection test against the element since it's close enough
const intersections = intersectElementWithLineSegment(
element,
elementsMap,
lineSegment(elementCenterPoint(element, elementsMap), p),
); );
const distance = distanceToElement(element, elementsMap, p);
return shouldTestInside
? intersections.length === 0 || distance <= threshold
: intersections.length > 0 && distance <= threshold;
}; };
export const maxBindingGap = ( export const maxBindingGap = (
@@ -1575,7 +1626,7 @@ export const maxBindingGap = (
// bigger bindable boundary for bigger elements // bigger bindable boundary for bigger elements
Math.min(0.25 * smallerDimension, 32), Math.min(0.25 * smallerDimension, 32),
// keep in sync with the zoomed highlight // keep in sync with the zoomed highlight
BINDING_HIGHLIGHT_THICKNESS / zoomValue + BINDING_HIGHLIGHT_OFFSET, BINDING_HIGHLIGHT_THICKNESS / zoomValue + FIXED_BINDING_DISTANCE,
); );
}; };
@@ -1586,12 +1637,13 @@ export const maxBindingGap = (
// of the element. // of the element.
const determineFocusDistance = ( const determineFocusDistance = (
element: ExcalidrawBindableElement, element: ExcalidrawBindableElement,
elementsMap: ElementsMap,
// Point on the line, in absolute coordinates // Point on the line, in absolute coordinates
a: GlobalPoint, a: GlobalPoint,
// Another point on the line, in absolute coordinates (closer to element) // Another point on the line, in absolute coordinates (closer to element)
b: GlobalPoint, b: GlobalPoint,
): number => { ): number => {
const center = elementCenterPoint(element); const center = elementCenterPoint(element, elementsMap);
if (pointsEqual(a, b)) { if (pointsEqual(a, b)) {
return 0; return 0;
@@ -1716,12 +1768,13 @@ const determineFocusDistance = (
const determineFocusPoint = ( const determineFocusPoint = (
element: ExcalidrawBindableElement, element: ExcalidrawBindableElement,
elementsMap: ElementsMap,
// The oriented, relative distance from the center of `element` of the // The oriented, relative distance from the center of `element` of the
// returned focusPoint // returned focusPoint
focus: number, focus: number,
adjacentPoint: GlobalPoint, adjacentPoint: GlobalPoint,
): GlobalPoint => { ): GlobalPoint => {
const center = elementCenterPoint(element); const center = elementCenterPoint(element, elementsMap);
if (focus === 0) { if (focus === 0) {
return center; return center;
@@ -2144,6 +2197,7 @@ export class BindableElement {
export const getGlobalFixedPointForBindableElement = ( export const getGlobalFixedPointForBindableElement = (
fixedPointRatio: [number, number], fixedPointRatio: [number, number],
element: ExcalidrawBindableElement, element: ExcalidrawBindableElement,
elementsMap: ElementsMap,
): GlobalPoint => { ): GlobalPoint => {
const [fixedX, fixedY] = normalizeFixedPoint(fixedPointRatio); const [fixedX, fixedY] = normalizeFixedPoint(fixedPointRatio);
@@ -2152,7 +2206,7 @@ export const getGlobalFixedPointForBindableElement = (
element.x + element.width * fixedX, element.x + element.width * fixedX,
element.y + element.height * fixedY, element.y + element.height * fixedY,
), ),
elementCenterPoint(element), elementCenterPoint(element, elementsMap),
element.angle, element.angle,
); );
}; };
@@ -2176,6 +2230,7 @@ export const getGlobalFixedPoints = (
? getGlobalFixedPointForBindableElement( ? getGlobalFixedPointForBindableElement(
arrow.startBinding.fixedPoint, arrow.startBinding.fixedPoint,
startElement as ExcalidrawBindableElement, startElement as ExcalidrawBindableElement,
elementsMap,
) )
: pointFrom<GlobalPoint>( : pointFrom<GlobalPoint>(
arrow.x + arrow.points[0][0], arrow.x + arrow.points[0][0],
@@ -2186,6 +2241,7 @@ export const getGlobalFixedPoints = (
? getGlobalFixedPointForBindableElement( ? getGlobalFixedPointForBindableElement(
arrow.endBinding.fixedPoint, arrow.endBinding.fixedPoint,
endElement as ExcalidrawBindableElement, endElement as ExcalidrawBindableElement,
elementsMap,
) )
: pointFrom<GlobalPoint>( : pointFrom<GlobalPoint>(
arrow.x + arrow.points[arrow.points.length - 1][0], arrow.x + arrow.points[arrow.points.length - 1][0],
+115 -7
View File
@@ -33,8 +33,8 @@ import type { AppState } from "@excalidraw/excalidraw/types";
import type { Mutable } from "@excalidraw/common/utility-types"; import type { Mutable } from "@excalidraw/common/utility-types";
import { generateRoughOptions } from "./Shape"; import { generateRoughOptions } from "./shape";
import { ShapeCache } from "./ShapeCache"; import { ShapeCache } from "./shape";
import { LinearElementEditor } from "./linearElementEditor"; import { LinearElementEditor } from "./linearElementEditor";
import { getBoundTextElement, getContainerElement } from "./textElement"; import { getBoundTextElement, getContainerElement } from "./textElement";
import { import {
@@ -45,7 +45,7 @@ import {
isTextElement, isTextElement,
} from "./typeChecks"; } from "./typeChecks";
import { getElementShape } from "./shapes"; import { getElementShape } from "./shape";
import { import {
deconstructDiamondElement, deconstructDiamondElement,
@@ -102,9 +102,23 @@ export class ElementBounds {
version: ExcalidrawElement["version"]; version: ExcalidrawElement["version"];
} }
>(); >();
private static nonRotatedBoundsCache = new WeakMap<
ExcalidrawElement,
{
bounds: Bounds;
version: ExcalidrawElement["version"];
}
>();
static getBounds(element: ExcalidrawElement, elementsMap: ElementsMap) { static getBounds(
const cachedBounds = ElementBounds.boundsCache.get(element); element: ExcalidrawElement,
elementsMap: ElementsMap,
nonRotated: boolean = false,
) {
const cachedBounds =
nonRotated && element.angle !== 0
? ElementBounds.nonRotatedBoundsCache.get(element)
: ElementBounds.boundsCache.get(element);
if ( if (
cachedBounds?.version && cachedBounds?.version &&
@@ -115,6 +129,23 @@ export class ElementBounds {
) { ) {
return cachedBounds.bounds; return cachedBounds.bounds;
} }
if (nonRotated && element.angle !== 0) {
const nonRotatedBounds = ElementBounds.calculateBounds(
{
...element,
angle: 0 as Radians,
},
elementsMap,
);
ElementBounds.nonRotatedBoundsCache.set(element, {
version: element.version,
bounds: nonRotatedBounds,
});
return nonRotatedBounds;
}
const bounds = ElementBounds.calculateBounds(element, elementsMap); const bounds = ElementBounds.calculateBounds(element, elementsMap);
ElementBounds.boundsCache.set(element, { ElementBounds.boundsCache.set(element, {
@@ -553,7 +584,7 @@ const solveQuadratic = (
return [s1, s2]; return [s1, s2];
}; };
const getCubicBezierCurveBound = ( export const getCubicBezierCurveBound = (
p0: GlobalPoint, p0: GlobalPoint,
p1: GlobalPoint, p1: GlobalPoint,
p2: GlobalPoint, p2: GlobalPoint,
@@ -939,8 +970,9 @@ const getLinearElementRotatedBounds = (
export const getElementBounds = ( export const getElementBounds = (
element: ExcalidrawElement, element: ExcalidrawElement,
elementsMap: ElementsMap, elementsMap: ElementsMap,
nonRotated: boolean = false,
): Bounds => { ): Bounds => {
return ElementBounds.getBounds(element, elementsMap); return ElementBounds.getBounds(element, elementsMap, nonRotated);
}; };
export const getCommonBounds = ( export const getCommonBounds = (
@@ -1133,6 +1165,71 @@ export const getCenterForBounds = (bounds: Bounds): GlobalPoint =>
bounds[1] + (bounds[3] - bounds[1]) / 2, bounds[1] + (bounds[3] - bounds[1]) / 2,
); );
/**
* Get the axis-aligned bounding box for a given element
*/
export const aabbForElement = (
element: Readonly<ExcalidrawElement>,
elementsMap: ElementsMap,
offset?: [number, number, number, number],
) => {
const bbox = {
minX: element.x,
minY: element.y,
maxX: element.x + element.width,
maxY: element.y + element.height,
midX: element.x + element.width / 2,
midY: element.y + element.height / 2,
};
const center = elementCenterPoint(element, elementsMap);
const [topLeftX, topLeftY] = pointRotateRads(
pointFrom(bbox.minX, bbox.minY),
center,
element.angle,
);
const [topRightX, topRightY] = pointRotateRads(
pointFrom(bbox.maxX, bbox.minY),
center,
element.angle,
);
const [bottomRightX, bottomRightY] = pointRotateRads(
pointFrom(bbox.maxX, bbox.maxY),
center,
element.angle,
);
const [bottomLeftX, bottomLeftY] = pointRotateRads(
pointFrom(bbox.minX, bbox.maxY),
center,
element.angle,
);
const bounds = [
Math.min(topLeftX, topRightX, bottomRightX, bottomLeftX),
Math.min(topLeftY, topRightY, bottomRightY, bottomLeftY),
Math.max(topLeftX, topRightX, bottomRightX, bottomLeftX),
Math.max(topLeftY, topRightY, bottomRightY, bottomLeftY),
] as Bounds;
if (offset) {
const [topOffset, rightOffset, downOffset, leftOffset] = offset;
return [
bounds[0] - leftOffset,
bounds[1] - topOffset,
bounds[2] + rightOffset,
bounds[3] + downOffset,
] as Bounds;
}
return bounds;
};
export const pointInsideBounds = <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 = ( export const doBoundsIntersect = (
bounds1: Bounds | null, bounds1: Bounds | null,
bounds2: Bounds | null, bounds2: Bounds | null,
@@ -1146,3 +1243,14 @@ export const doBoundsIntersect = (
return minX1 < maxX2 && maxX1 > minX2 && minY1 < maxY2 && maxY1 > minY2; return minX1 < maxX2 && maxX1 > minX2 && minY1 < maxY2 && maxY1 > minY2;
}; };
export const elementCenterPoint = (
element: ExcalidrawElement,
elementsMap: ElementsMap,
xOffset: number = 0,
yOffset: number = 0,
) => {
const [x, y] = getCenterForBounds(getElementBounds(element, elementsMap));
return pointFrom<GlobalPoint>(x + xOffset, y + yOffset);
};
+377 -129
View File
@@ -1,52 +1,68 @@
import { isTransparent, elementCenterPoint } from "@excalidraw/common"; import { isTransparent } from "@excalidraw/common";
import { import {
curveIntersectLineSegment, curveIntersectLineSegment,
isPointWithinBounds, isPointWithinBounds,
line,
lineSegment, lineSegment,
lineSegmentIntersectionPoints, lineSegmentIntersectionPoints,
pointFrom, pointFrom,
pointFromVector,
pointRotateRads, pointRotateRads,
pointsEqual, pointsEqual,
vectorFromPoint,
vectorNormalize,
vectorScale,
} from "@excalidraw/math"; } from "@excalidraw/math";
import { import {
ellipse, ellipse,
ellipseLineIntersectionPoints, ellipseSegmentInterceptPoints,
} from "@excalidraw/math/ellipse"; } from "@excalidraw/math/ellipse";
import { isPointInShape, isPointOnShape } from "@excalidraw/utils/collision";
import { type GeometricShape, getPolygonShape } from "@excalidraw/utils/shape";
import type { import type {
Curve,
GlobalPoint, GlobalPoint,
LineSegment, LineSegment,
LocalPoint,
Polygon,
Radians, Radians,
} from "@excalidraw/math"; } from "@excalidraw/math";
import type { FrameNameBounds } from "@excalidraw/excalidraw/types"; import type { FrameNameBounds } from "@excalidraw/excalidraw/types";
import { getBoundTextShape, isPathALoop } from "./shapes"; import { isPathALoop } from "./utils";
import { getElementBounds } from "./bounds"; import {
type Bounds,
doBoundsIntersect,
elementCenterPoint,
getCenterForBounds,
getCubicBezierCurveBound,
getElementBounds,
} from "./bounds";
import { import {
hasBoundTextElement, hasBoundTextElement,
isFreeDrawElement,
isIframeLikeElement, isIframeLikeElement,
isImageElement, isImageElement,
isLinearElement,
isTextElement, isTextElement,
} from "./typeChecks"; } from "./typeChecks";
import { import {
deconstructDiamondElement, deconstructDiamondElement,
deconstructLinearOrFreeDrawElement,
deconstructRectanguloidElement, deconstructRectanguloidElement,
} from "./utils"; } from "./utils";
import { getBoundTextElement } from "./textElement";
import { LinearElementEditor } from "./linearElementEditor";
import { distanceToElement } from "./distance";
import type { import type {
ElementsMap, ElementsMap,
ExcalidrawDiamondElement, ExcalidrawDiamondElement,
ExcalidrawElement, ExcalidrawElement,
ExcalidrawEllipseElement, ExcalidrawEllipseElement,
ExcalidrawRectangleElement, ExcalidrawFreeDrawElement,
ExcalidrawLinearElement,
ExcalidrawRectanguloidElement, ExcalidrawRectanguloidElement,
} from "./types"; } from "./types";
@@ -72,45 +88,64 @@ export const shouldTestInside = (element: ExcalidrawElement) => {
return isDraggableFromInside || isImageElement(element); return isDraggableFromInside || isImageElement(element);
}; };
export type HitTestArgs<Point extends GlobalPoint | LocalPoint> = { export type HitTestArgs = {
x: number; point: GlobalPoint;
y: number;
element: ExcalidrawElement; element: ExcalidrawElement;
shape: GeometricShape<Point>; threshold: number;
threshold?: number; elementsMap: ElementsMap;
frameNameBound?: FrameNameBounds | null; frameNameBound?: FrameNameBounds | null;
}; };
export const hitElementItself = <Point extends GlobalPoint | LocalPoint>({ export const hitElementItself = ({
x, point,
y,
element, element,
shape, threshold,
threshold = 10, elementsMap,
frameNameBound = null, frameNameBound = null,
}: HitTestArgs<Point>) => { }: HitTestArgs) => {
let hit = shouldTestInside(element) // Hit test against a frame's name
? // Since `inShape` tests STRICTLY againt the insides of a shape const hitFrameName = frameNameBound
// we would need `onShape` as well to include the "borders" ? isPointWithinBounds(
isPointInShape(pointFrom(x, y), shape) || pointFrom(frameNameBound.x - threshold, frameNameBound.y - threshold),
isPointOnShape(pointFrom(x, y), shape, threshold) point,
: isPointOnShape(pointFrom(x, y), shape, threshold); pointFrom(
frameNameBound.x + frameNameBound.width + threshold,
frameNameBound.y + frameNameBound.height + threshold,
),
)
: false;
// hit test against a frame's name // Hit test against the extended, rotated bounding box of the element first
if (!hit && frameNameBound) { const bounds = getElementBounds(element, elementsMap, true);
hit = isPointInShape(pointFrom(x, y), { const hitBounds = isPointWithinBounds(
type: "polygon", pointFrom(bounds[0] - threshold, bounds[1] - threshold),
data: getPolygonShape(frameNameBound as ExcalidrawRectangleElement) pointRotateRads(
.data as Polygon<Point>, point,
}); getCenterForBounds(bounds),
-element.angle as Radians,
),
pointFrom(bounds[2] + threshold, bounds[3] + threshold),
);
// PERF: Bail out early if the point is not even in the
// rotated bounding box or not hitting the frame name (saves 99%)
if (!hitBounds && !hitFrameName) {
return false;
} }
return hit; // Do the precise (and relatively costly) hit test
const hitElement = shouldTestInside(element)
? // Since `inShape` tests STRICTLY againt the insides of a shape
// we would need `onShape` as well to include the "borders"
isPointInElement(point, element, elementsMap) ||
isPointOnElementOutline(point, element, elementsMap, threshold)
: isPointOnElementOutline(point, element, elementsMap, threshold);
return hitElement || hitFrameName;
}; };
export const hitElementBoundingBox = ( export const hitElementBoundingBox = (
x: number, point: GlobalPoint,
y: number,
element: ExcalidrawElement, element: ExcalidrawElement,
elementsMap: ElementsMap, elementsMap: ElementsMap,
tolerance = 0, tolerance = 0,
@@ -120,37 +155,42 @@ export const hitElementBoundingBox = (
y1 -= tolerance; y1 -= tolerance;
x2 += tolerance; x2 += tolerance;
y2 += tolerance; y2 += tolerance;
return isPointWithinBounds( return isPointWithinBounds(pointFrom(x1, y1), point, pointFrom(x2, y2));
pointFrom(x1, y1),
pointFrom(x, y),
pointFrom(x2, y2),
);
}; };
export const hitElementBoundingBoxOnly = < export const hitElementBoundingBoxOnly = (
Point extends GlobalPoint | LocalPoint, hitArgs: HitTestArgs,
>(
hitArgs: HitTestArgs<Point>,
elementsMap: ElementsMap, elementsMap: ElementsMap,
) => { ) =>
return ( !hitElementItself(hitArgs) &&
!hitElementItself(hitArgs) && // bound text is considered part of the element (even if it's outside the bounding box)
// bound text is considered part of the element (even if it's outside the bounding box) !hitElementBoundText(hitArgs.point, hitArgs.element, elementsMap) &&
!hitElementBoundText( hitElementBoundingBox(hitArgs.point, hitArgs.element, elementsMap);
hitArgs.x,
hitArgs.y,
getBoundTextShape(hitArgs.element, elementsMap),
) &&
hitElementBoundingBox(hitArgs.x, hitArgs.y, hitArgs.element, elementsMap)
);
};
export const hitElementBoundText = <Point extends GlobalPoint | LocalPoint>( export const hitElementBoundText = (
x: number, point: GlobalPoint,
y: number, element: ExcalidrawElement,
textShape: GeometricShape<Point> | null, elementsMap: ElementsMap,
): boolean => { ): boolean => {
return !!textShape && isPointInShape(pointFrom(x, y), textShape); const boundTextElementCandidate = getBoundTextElement(element, elementsMap);
if (!boundTextElementCandidate) {
return false;
}
const boundTextElement = isLinearElement(element)
? {
...boundTextElementCandidate,
// arrow's bound text accurate position is not stored in the element's property
// but rather calculated and returned from the following static method
...LinearElementEditor.getBoundTextElementPosition(
element,
boundTextElementCandidate,
elementsMap,
),
}
: boundTextElementCandidate;
return isPointInElement(point, boundTextElement, elementsMap);
}; };
/** /**
@@ -163,9 +203,26 @@ export const hitElementBoundText = <Point extends GlobalPoint | LocalPoint>(
*/ */
export const intersectElementWithLineSegment = ( export const intersectElementWithLineSegment = (
element: ExcalidrawElement, element: ExcalidrawElement,
elementsMap: ElementsMap,
line: LineSegment<GlobalPoint>, line: LineSegment<GlobalPoint>,
offset: number = 0, offset: number = 0,
onlyFirst = false,
): GlobalPoint[] => { ): GlobalPoint[] => {
// First check if the line intersects the element's axis-aligned bounding box
// as it is much faster than checking intersection against the element's shape
const intersectorBounds = [
Math.min(line[0][0] - offset, line[1][0] - offset),
Math.min(line[0][1] - offset, line[1][1] - offset),
Math.max(line[0][0] + offset, line[1][0] + offset),
Math.max(line[0][1] + offset, line[1][1] + offset),
] as Bounds;
const elementBounds = getElementBounds(element, elementsMap);
if (!doBoundsIntersect(intersectorBounds, elementBounds)) {
return [];
}
// Do the actual intersection test against the element's shape
switch (element.type) { switch (element.type) {
case "rectangle": case "rectangle":
case "image": case "image":
@@ -173,67 +230,196 @@ export const intersectElementWithLineSegment = (
case "iframe": case "iframe":
case "embeddable": case "embeddable":
case "frame": case "frame":
case "selection":
case "magicframe": case "magicframe":
return intersectRectanguloidWithLineSegment(element, line, offset); return intersectRectanguloidWithLineSegment(
element,
elementsMap,
line,
offset,
onlyFirst,
);
case "diamond": case "diamond":
return intersectDiamondWithLineSegment(element, line, offset); return intersectDiamondWithLineSegment(
element,
elementsMap,
line,
offset,
onlyFirst,
);
case "ellipse": case "ellipse":
return intersectEllipseWithLineSegment(element, line, offset); return intersectEllipseWithLineSegment(
default: element,
throw new Error(`Unimplemented element type '${element.type}'`); elementsMap,
line,
offset,
);
case "line":
case "freedraw":
case "arrow":
return intersectLinearOrFreeDrawWithLineSegment(element, line, onlyFirst);
} }
}; };
const curveIntersections = (
curves: Curve<GlobalPoint>[],
segment: LineSegment<GlobalPoint>,
intersections: GlobalPoint[],
center: GlobalPoint,
angle: Radians,
onlyFirst = false,
) => {
for (const c of curves) {
// Optimize by doing a cheap bounding box check first
const b1 = getCubicBezierCurveBound(c[0], c[1], c[2], c[3]);
const b2 = [
Math.min(segment[0][0], segment[1][0]),
Math.min(segment[0][1], segment[1][1]),
Math.max(segment[0][0], segment[1][0]),
Math.max(segment[0][1], segment[1][1]),
] as Bounds;
if (!doBoundsIntersect(b1, b2)) {
continue;
}
const hits = curveIntersectLineSegment(c, segment);
if (hits.length > 0) {
for (const j of hits) {
intersections.push(pointRotateRads(j, center, angle));
}
if (onlyFirst) {
return intersections;
}
}
}
return intersections;
};
const lineIntersections = (
lines: LineSegment<GlobalPoint>[],
segment: LineSegment<GlobalPoint>,
intersections: GlobalPoint[],
center: GlobalPoint,
angle: Radians,
onlyFirst = false,
) => {
for (const l of lines) {
const intersection = lineSegmentIntersectionPoints(l, segment);
if (intersection) {
intersections.push(pointRotateRads(intersection, center, angle));
if (onlyFirst) {
return intersections;
}
}
}
return intersections;
};
const intersectLinearOrFreeDrawWithLineSegment = (
element: ExcalidrawLinearElement | ExcalidrawFreeDrawElement,
segment: LineSegment<GlobalPoint>,
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 intersections: GlobalPoint[] = [];
for (const l of lines) {
const intersection = lineSegmentIntersectionPoints(l, segment);
if (intersection) {
intersections.push(intersection);
if (onlyFirst) {
return intersections;
}
}
}
for (const c of curves) {
// Optimize by doing a cheap bounding box check first
const b1 = getCubicBezierCurveBound(c[0], c[1], c[2], c[3]);
const b2 = [
Math.min(segment[0][0], segment[1][0]),
Math.min(segment[0][1], segment[1][1]),
Math.max(segment[0][0], segment[1][0]),
Math.max(segment[0][1], segment[1][1]),
] as Bounds;
if (!doBoundsIntersect(b1, b2)) {
continue;
}
const hits = curveIntersectLineSegment(c, segment);
if (hits.length > 0) {
intersections.push(...hits);
if (onlyFirst) {
return intersections;
}
}
}
return intersections;
};
const intersectRectanguloidWithLineSegment = ( const intersectRectanguloidWithLineSegment = (
element: ExcalidrawRectanguloidElement, element: ExcalidrawRectanguloidElement,
l: LineSegment<GlobalPoint>, elementsMap: ElementsMap,
segment: LineSegment<GlobalPoint>,
offset: number = 0, offset: number = 0,
onlyFirst = false,
): GlobalPoint[] => { ): GlobalPoint[] => {
const center = elementCenterPoint(element); const center = elementCenterPoint(element, elementsMap);
// To emulate a rotated rectangle we rotate the point in the inverse angle // To emulate a rotated rectangle we rotate the point in the inverse angle
// instead. It's all the same distance-wise. // instead. It's all the same distance-wise.
const rotatedA = pointRotateRads<GlobalPoint>( const rotatedA = pointRotateRads<GlobalPoint>(
l[0], segment[0],
center, center,
-element.angle as Radians, -element.angle as Radians,
); );
const rotatedB = pointRotateRads<GlobalPoint>( const rotatedB = pointRotateRads<GlobalPoint>(
l[1], segment[1],
center, center,
-element.angle as Radians, -element.angle as Radians,
); );
const rotatedIntersector = lineSegment(rotatedA, rotatedB);
// Get the element's building components we can test against // Get the element's building components we can test against
const [sides, corners] = deconstructRectanguloidElement(element, offset); const [sides, corners] = deconstructRectanguloidElement(element, offset);
return ( const intersections: GlobalPoint[] = [];
// Test intersection against the sides, keep only the valid
// intersection points and rotate them back to scene space lineIntersections(
sides sides,
.map((s) => rotatedIntersector,
lineSegmentIntersectionPoints( intersections,
lineSegment<GlobalPoint>(rotatedA, rotatedB), center,
s, element.angle,
), onlyFirst,
)
.filter((x) => x != null)
.map((j) => pointRotateRads<GlobalPoint>(j!, center, element.angle))
// Test intersection against the corners which are cubic bezier curves,
// keep only the valid intersection points and rotate them back to scene
// space
.concat(
corners
.flatMap((t) =>
curveIntersectLineSegment(t, lineSegment(rotatedA, rotatedB)),
)
.filter((i) => i != null)
.map((j) => pointRotateRads(j, center, element.angle)),
)
// Remove duplicates
.filter(
(p, idx, points) => points.findIndex((d) => pointsEqual(p, d)) === idx,
)
); );
if (onlyFirst && intersections.length > 0) {
return intersections;
}
curveIntersections(
corners,
rotatedIntersector,
intersections,
center,
element.angle,
onlyFirst,
);
return intersections;
}; };
/** /**
@@ -245,43 +431,45 @@ const intersectRectanguloidWithLineSegment = (
*/ */
const intersectDiamondWithLineSegment = ( const intersectDiamondWithLineSegment = (
element: ExcalidrawDiamondElement, element: ExcalidrawDiamondElement,
elementsMap: ElementsMap,
l: LineSegment<GlobalPoint>, l: LineSegment<GlobalPoint>,
offset: number = 0, offset: number = 0,
onlyFirst = false,
): GlobalPoint[] => { ): GlobalPoint[] => {
const center = elementCenterPoint(element); const center = elementCenterPoint(element, elementsMap);
// Rotate the point to the inverse direction to simulate the rotated diamond // Rotate the point to the inverse direction to simulate the rotated diamond
// points. It's all the same distance-wise. // points. It's all the same distance-wise.
const rotatedA = pointRotateRads(l[0], center, -element.angle as Radians); const rotatedA = pointRotateRads(l[0], center, -element.angle as Radians);
const rotatedB = pointRotateRads(l[1], center, -element.angle as Radians); const rotatedB = pointRotateRads(l[1], center, -element.angle as Radians);
const rotatedIntersector = lineSegment(rotatedA, rotatedB);
const [sides, curves] = deconstructDiamondElement(element, offset); const [sides, corners] = deconstructDiamondElement(element, offset);
const intersections: GlobalPoint[] = [];
return ( lineIntersections(
sides sides,
.map((s) => rotatedIntersector,
lineSegmentIntersectionPoints( intersections,
lineSegment<GlobalPoint>(rotatedA, rotatedB), center,
s, element.angle,
), onlyFirst,
)
.filter((p): p is GlobalPoint => p != null)
// Rotate back intersection points
.map((p) => pointRotateRads<GlobalPoint>(p!, center, element.angle))
.concat(
curves
.flatMap((p) =>
curveIntersectLineSegment(p, lineSegment(rotatedA, rotatedB)),
)
.filter((p) => p != null)
// Rotate back intersection points
.map((p) => pointRotateRads(p, center, element.angle)),
)
// Remove duplicates
.filter(
(p, idx, points) => points.findIndex((d) => pointsEqual(p, d)) === idx,
)
); );
if (onlyFirst && intersections.length > 0) {
return intersections;
}
curveIntersections(
corners,
rotatedIntersector,
intersections,
center,
element.angle,
onlyFirst,
);
return intersections;
}; };
/** /**
@@ -293,16 +481,76 @@ const intersectDiamondWithLineSegment = (
*/ */
const intersectEllipseWithLineSegment = ( const intersectEllipseWithLineSegment = (
element: ExcalidrawEllipseElement, element: ExcalidrawEllipseElement,
elementsMap: ElementsMap,
l: LineSegment<GlobalPoint>, l: LineSegment<GlobalPoint>,
offset: number = 0, offset: number = 0,
): GlobalPoint[] => { ): GlobalPoint[] => {
const center = elementCenterPoint(element); const center = elementCenterPoint(element, elementsMap);
const rotatedA = pointRotateRads(l[0], center, -element.angle as Radians); const rotatedA = pointRotateRads(l[0], center, -element.angle as Radians);
const rotatedB = pointRotateRads(l[1], center, -element.angle as Radians); const rotatedB = pointRotateRads(l[1], center, -element.angle as Radians);
return ellipseLineIntersectionPoints( return ellipseSegmentInterceptPoints(
ellipse(center, element.width / 2 + offset, element.height / 2 + offset), ellipse(center, element.width / 2 + offset, element.height / 2 + offset),
line(rotatedA, rotatedB), lineSegment(rotatedA, rotatedB),
).map((p) => pointRotateRads(p, center, element.angle)); ).map((p) => pointRotateRads(p, center, element.angle));
}; };
/**
* Check if the given point is considered on the given shape's border
*
* @param point
* @param element
* @param tolerance
* @returns
*/
const isPointOnElementOutline = (
point: GlobalPoint,
element: ExcalidrawElement,
elementsMap: ElementsMap,
tolerance = 1,
) => distanceToElement(element, elementsMap, point) <= tolerance;
/**
* Check if the given point is considered inside the element's border
*
* @param point
* @param element
* @returns
*/
export const isPointInElement = (
point: GlobalPoint,
element: ExcalidrawElement,
elementsMap: ElementsMap,
) => {
if (
(isLinearElement(element) || isFreeDrawElement(element)) &&
!isPathALoop(element.points)
) {
// There isn't any "inside" for a non-looping path
return false;
}
const [x1, y1, x2, y2] = getElementBounds(element, elementsMap);
if (!isPointWithinBounds(pointFrom(x1, y1), point, pointFrom(x2, y2))) {
return false;
}
const center = pointFrom<GlobalPoint>((x1 + x2) / 2, (y1 + y2) / 2);
const otherPoint = pointFromVector(
vectorScale(
vectorNormalize(vectorFromPoint(point, center, 0.1)),
Math.max(element.width, element.height) * 2,
),
center,
);
const intersector = lineSegment(point, otherPoint);
const intersections = intersectElementWithLineSegment(
element,
elementsMap,
intersector,
).filter((p, pos, arr) => arr.findIndex((q) => pointsEqual(q, p)) === pos);
return intersections.length % 2 === 1;
};
+3 -3
View File
@@ -14,9 +14,8 @@ import {
} from "@excalidraw/math"; } from "@excalidraw/math";
import { type Point } from "points-on-curve"; import { type Point } from "points-on-curve";
import { elementCenterPoint } from "@excalidraw/common";
import { import {
elementCenterPoint,
getElementAbsoluteCoords, getElementAbsoluteCoords,
getResizedElementAbsoluteCoords, getResizedElementAbsoluteCoords,
} from "./bounds"; } from "./bounds";
@@ -34,6 +33,7 @@ export const MINIMAL_CROP_SIZE = 10;
export const cropElement = ( export const cropElement = (
element: ExcalidrawImageElement, element: ExcalidrawImageElement,
elementsMap: ElementsMap,
transformHandle: TransformHandleType, transformHandle: TransformHandleType,
naturalWidth: number, naturalWidth: number,
naturalHeight: number, naturalHeight: number,
@@ -63,7 +63,7 @@ export const cropElement = (
const rotatedPointer = pointRotateRads( const rotatedPointer = pointRotateRads(
pointFrom(pointerX, pointerY), pointFrom(pointerX, pointerY),
elementCenterPoint(element), elementCenterPoint(element, elementsMap),
-element.angle as Radians, -element.angle as Radians,
); );
File diff suppressed because it is too large Load Diff
+35 -11
View File
@@ -6,27 +6,33 @@ import {
import { ellipse, ellipseDistanceFromPoint } from "@excalidraw/math/ellipse"; import { ellipse, ellipseDistanceFromPoint } from "@excalidraw/math/ellipse";
import { elementCenterPoint } from "@excalidraw/common";
import type { GlobalPoint, Radians } from "@excalidraw/math"; import type { GlobalPoint, Radians } from "@excalidraw/math";
import { import {
deconstructDiamondElement, deconstructDiamondElement,
deconstructLinearOrFreeDrawElement,
deconstructRectanguloidElement, deconstructRectanguloidElement,
} from "./utils"; } from "./utils";
import { elementCenterPoint } from "./bounds";
import type { import type {
ExcalidrawBindableElement, ElementsMap,
ExcalidrawDiamondElement, ExcalidrawDiamondElement,
ExcalidrawElement,
ExcalidrawEllipseElement, ExcalidrawEllipseElement,
ExcalidrawFreeDrawElement,
ExcalidrawLinearElement,
ExcalidrawRectanguloidElement, ExcalidrawRectanguloidElement,
} from "./types"; } from "./types";
export const distanceToBindableElement = ( export const distanceToElement = (
element: ExcalidrawBindableElement, element: ExcalidrawElement,
elementsMap: ElementsMap,
p: GlobalPoint, p: GlobalPoint,
): number => { ): number => {
switch (element.type) { switch (element.type) {
case "selection":
case "rectangle": case "rectangle":
case "image": case "image":
case "text": case "text":
@@ -34,11 +40,15 @@ export const distanceToBindableElement = (
case "embeddable": case "embeddable":
case "frame": case "frame":
case "magicframe": case "magicframe":
return distanceToRectanguloidElement(element, p); return distanceToRectanguloidElement(element, elementsMap, p);
case "diamond": case "diamond":
return distanceToDiamondElement(element, p); return distanceToDiamondElement(element, elementsMap, p);
case "ellipse": case "ellipse":
return distanceToEllipseElement(element, p); return distanceToEllipseElement(element, elementsMap, p);
case "line":
case "arrow":
case "freedraw":
return distanceToLinearOrFreeDraElement(element, p);
} }
}; };
@@ -52,9 +62,10 @@ export const distanceToBindableElement = (
*/ */
const distanceToRectanguloidElement = ( const distanceToRectanguloidElement = (
element: ExcalidrawRectanguloidElement, element: ExcalidrawRectanguloidElement,
elementsMap: ElementsMap,
p: GlobalPoint, p: GlobalPoint,
) => { ) => {
const center = elementCenterPoint(element); const center = elementCenterPoint(element, elementsMap);
// To emulate a rotated rectangle we rotate the point in the inverse angle // To emulate a rotated rectangle we rotate the point in the inverse angle
// instead. It's all the same distance-wise. // instead. It's all the same distance-wise.
const rotatedPoint = pointRotateRads(p, center, -element.angle as Radians); const rotatedPoint = pointRotateRads(p, center, -element.angle as Radians);
@@ -80,9 +91,10 @@ const distanceToRectanguloidElement = (
*/ */
const distanceToDiamondElement = ( const distanceToDiamondElement = (
element: ExcalidrawDiamondElement, element: ExcalidrawDiamondElement,
elementsMap: ElementsMap,
p: GlobalPoint, p: GlobalPoint,
): number => { ): number => {
const center = elementCenterPoint(element); const center = elementCenterPoint(element, elementsMap);
// Rotate the point to the inverse direction to simulate the rotated diamond // Rotate the point to the inverse direction to simulate the rotated diamond
// points. It's all the same distance-wise. // points. It's all the same distance-wise.
@@ -108,12 +120,24 @@ const distanceToDiamondElement = (
*/ */
const distanceToEllipseElement = ( const distanceToEllipseElement = (
element: ExcalidrawEllipseElement, element: ExcalidrawEllipseElement,
elementsMap: ElementsMap,
p: GlobalPoint, p: GlobalPoint,
): number => { ): number => {
const center = elementCenterPoint(element); const center = elementCenterPoint(element, elementsMap);
return ellipseDistanceFromPoint( return ellipseDistanceFromPoint(
// Instead of rotating the ellipse, rotate the point to the inverse angle // Instead of rotating the ellipse, rotate the point to the inverse angle
pointRotateRads(p, center, -element.angle as Radians), pointRotateRads(p, center, -element.angle as Radians),
ellipse(center, element.width / 2, element.height / 2), ellipse(center, element.width / 2, element.height / 2),
); );
}; };
const distanceToLinearOrFreeDraElement = (
element: ExcalidrawLinearElement | ExcalidrawFreeDrawElement,
p: GlobalPoint,
) => {
const [lines, curves] = deconstructLinearOrFreeDrawElement(element);
return Math.min(
...lines.map((s) => distanceToLineSegment(p, s)),
...curves.map((a) => curvePointDistance(a, p)),
);
};
+9 -2
View File
@@ -1,7 +1,9 @@
import type { AppState } from "@excalidraw/excalidraw/types";
import { getCommonBoundingBox } from "./bounds"; import { getCommonBoundingBox } from "./bounds";
import { newElementWith } from "./mutateElement"; import { newElementWith } from "./mutateElement";
import { getMaximumGroups } from "./groups"; import { getSelectedElementsByGroup } from "./groups";
import type { ElementsMap, ExcalidrawElement } from "./types"; import type { ElementsMap, ExcalidrawElement } from "./types";
@@ -14,6 +16,7 @@ export const distributeElements = (
selectedElements: ExcalidrawElement[], selectedElements: ExcalidrawElement[],
elementsMap: ElementsMap, elementsMap: ElementsMap,
distribution: Distribution, distribution: Distribution,
appState: Readonly<AppState>,
): ExcalidrawElement[] => { ): ExcalidrawElement[] => {
const [start, mid, end, extent] = const [start, mid, end, extent] =
distribution.axis === "x" distribution.axis === "x"
@@ -21,7 +24,11 @@ export const distributeElements = (
: (["minY", "midY", "maxY", "height"] as const); : (["minY", "midY", "maxY", "height"] as const);
const bounds = getCommonBoundingBox(selectedElements); const bounds = getCommonBoundingBox(selectedElements);
const groups = getMaximumGroups(selectedElements, elementsMap) const groups = getSelectedElementsByGroup(
selectedElements,
elementsMap,
appState,
)
.map((group) => [group, getCommonBoundingBox(group)] as const) .map((group) => [group, getCommonBoundingBox(group)] as const)
.sort((a, b) => a[1][mid] - b[1][mid]); .sort((a, b) => a[1][mid] - b[1][mid]);
+23 -63
View File
@@ -20,6 +20,7 @@ import {
tupleToCoors, tupleToCoors,
getSizeFromPoints, getSizeFromPoints,
isDevEnv, isDevEnv,
arrayToMap,
} from "@excalidraw/common"; } from "@excalidraw/common";
import type { AppState } from "@excalidraw/excalidraw/types"; import type { AppState } from "@excalidraw/excalidraw/types";
@@ -29,10 +30,9 @@ import {
FIXED_BINDING_DISTANCE, FIXED_BINDING_DISTANCE,
getHeadingForElbowArrowSnap, getHeadingForElbowArrowSnap,
getGlobalFixedPointForBindableElement, getGlobalFixedPointForBindableElement,
snapToMid,
getHoveredElementForBinding, getHoveredElementForBinding,
} from "./binding"; } from "./binding";
import { distanceToBindableElement } from "./distance"; import { distanceToElement } from "./distance";
import { import {
compareHeading, compareHeading,
flipHeading, flipHeading,
@@ -52,7 +52,7 @@ import {
type NonDeletedSceneElementsMap, type NonDeletedSceneElementsMap,
} from "./types"; } from "./types";
import { aabbForElement, pointInsideBounds } from "./shapes"; import { aabbForElement, pointInsideBounds } from "./bounds";
import type { Bounds } from "./bounds"; import type { Bounds } from "./bounds";
import type { Heading } from "./heading"; import type { Heading } from "./heading";
@@ -898,50 +898,6 @@ export const updateElbowArrowPoints = (
return { points: updates.points ?? arrow.points }; return { points: updates.points ?? arrow.points };
} }
// NOTE (mtolmacs): This is a temporary check to ensure that the incoming elbow
// arrow size is valid. This check will be removed once the issue is identified
if (
arrow.x < -MAX_POS ||
arrow.x > MAX_POS ||
arrow.y < -MAX_POS ||
arrow.y > MAX_POS ||
arrow.x + (updates?.points?.[updates?.points?.length - 1]?.[0] ?? 0) <
-MAX_POS ||
arrow.x + (updates?.points?.[updates?.points?.length - 1]?.[0] ?? 0) >
MAX_POS ||
arrow.y + (updates?.points?.[updates?.points?.length - 1]?.[1] ?? 0) <
-MAX_POS ||
arrow.y + (updates?.points?.[updates?.points?.length - 1]?.[1] ?? 0) >
MAX_POS ||
arrow.x + (arrow?.points?.[arrow?.points?.length - 1]?.[0] ?? 0) <
-MAX_POS ||
arrow.x + (arrow?.points?.[arrow?.points?.length - 1]?.[0] ?? 0) >
MAX_POS ||
arrow.y + (arrow?.points?.[arrow?.points?.length - 1]?.[1] ?? 0) <
-MAX_POS ||
arrow.y + (arrow?.points?.[arrow?.points?.length - 1]?.[1] ?? 0) > MAX_POS
) {
console.error(
"Elbow arrow (or update) is outside reasonable bounds (> 1e6)",
{
arrow,
updates,
},
);
}
// @ts-ignore See above note
arrow.x = clamp(arrow.x, -MAX_POS, MAX_POS);
// @ts-ignore See above note
arrow.y = clamp(arrow.y, -MAX_POS, MAX_POS);
if (updates.points) {
updates.points = updates.points.map(([x, y]) =>
pointFrom<LocalPoint>(
clamp(x, -MAX_POS, MAX_POS),
clamp(y, -MAX_POS, MAX_POS),
),
);
}
if (!import.meta.env.PROD) { if (!import.meta.env.PROD) {
invariant( invariant(
!updates.points || updates.points.length >= 2, !updates.points || updates.points.length >= 2,
@@ -1273,6 +1229,7 @@ const getElbowArrowData = (
arrow.startBinding?.fixedPoint, arrow.startBinding?.fixedPoint,
origStartGlobalPoint, origStartGlobalPoint,
hoveredStartElement, hoveredStartElement,
elementsMap,
options?.isDragging, options?.isDragging,
); );
const endGlobalPoint = getGlobalPoint( const endGlobalPoint = getGlobalPoint(
@@ -1286,6 +1243,7 @@ const getElbowArrowData = (
arrow.endBinding?.fixedPoint, arrow.endBinding?.fixedPoint,
origEndGlobalPoint, origEndGlobalPoint,
hoveredEndElement, hoveredEndElement,
elementsMap,
options?.isDragging, options?.isDragging,
); );
const startHeading = getBindPointHeading( const startHeading = getBindPointHeading(
@@ -1293,12 +1251,14 @@ const getElbowArrowData = (
endGlobalPoint, endGlobalPoint,
hoveredStartElement, hoveredStartElement,
origStartGlobalPoint, origStartGlobalPoint,
elementsMap,
); );
const endHeading = getBindPointHeading( const endHeading = getBindPointHeading(
endGlobalPoint, endGlobalPoint,
startGlobalPoint, startGlobalPoint,
hoveredEndElement, hoveredEndElement,
origEndGlobalPoint, origEndGlobalPoint,
elementsMap,
); );
const startPointBounds = [ const startPointBounds = [
startGlobalPoint[0] - 2, startGlobalPoint[0] - 2,
@@ -1315,6 +1275,7 @@ const getElbowArrowData = (
const startElementBounds = hoveredStartElement const startElementBounds = hoveredStartElement
? aabbForElement( ? aabbForElement(
hoveredStartElement, hoveredStartElement,
elementsMap,
offsetFromHeading( offsetFromHeading(
startHeading, startHeading,
arrow.startArrowhead arrow.startArrowhead
@@ -1327,6 +1288,7 @@ const getElbowArrowData = (
const endElementBounds = hoveredEndElement const endElementBounds = hoveredEndElement
? aabbForElement( ? aabbForElement(
hoveredEndElement, hoveredEndElement,
elementsMap,
offsetFromHeading( offsetFromHeading(
endHeading, endHeading,
arrow.endArrowhead arrow.endArrowhead
@@ -1342,6 +1304,7 @@ const getElbowArrowData = (
hoveredEndElement hoveredEndElement
? aabbForElement( ? aabbForElement(
hoveredEndElement, hoveredEndElement,
elementsMap,
offsetFromHeading(endHeading, BASE_PADDING, BASE_PADDING), offsetFromHeading(endHeading, BASE_PADDING, BASE_PADDING),
) )
: endPointBounds, : endPointBounds,
@@ -1351,6 +1314,7 @@ const getElbowArrowData = (
hoveredStartElement hoveredStartElement
? aabbForElement( ? aabbForElement(
hoveredStartElement, hoveredStartElement,
elementsMap,
offsetFromHeading(startHeading, BASE_PADDING, BASE_PADDING), offsetFromHeading(startHeading, BASE_PADDING, BASE_PADDING),
) )
: startPointBounds, : startPointBounds,
@@ -1397,8 +1361,8 @@ const getElbowArrowData = (
BASE_PADDING, BASE_PADDING,
), ),
boundsOverlap, boundsOverlap,
hoveredStartElement && aabbForElement(hoveredStartElement), hoveredStartElement && aabbForElement(hoveredStartElement, elementsMap),
hoveredEndElement && aabbForElement(hoveredEndElement), hoveredEndElement && aabbForElement(hoveredEndElement, elementsMap),
); );
const startDonglePosition = getDonglePosition( const startDonglePosition = getDonglePosition(
dynamicAABBs[0], dynamicAABBs[0],
@@ -2229,35 +2193,28 @@ const getGlobalPoint = (
fixedPointRatio: [number, number] | undefined | null, fixedPointRatio: [number, number] | undefined | null,
initialPoint: GlobalPoint, initialPoint: GlobalPoint,
element?: ExcalidrawBindableElement | null, element?: ExcalidrawBindableElement | null,
elementsMap?: ElementsMap,
isDragging?: boolean, isDragging?: boolean,
): GlobalPoint => { ): GlobalPoint => {
if (isDragging) { if (isDragging) {
if (element) { if (element && elementsMap) {
const snapPoint = bindPointToSnapToElementOutline( return bindPointToSnapToElementOutline(
arrow, arrow,
element, element,
startOrEnd, startOrEnd,
elementsMap,
); );
return snapToMid(element, snapPoint);
} }
return initialPoint; return initialPoint;
} }
if (element) { if (element) {
const fixedGlobalPoint = getGlobalFixedPointForBindableElement( return getGlobalFixedPointForBindableElement(
fixedPointRatio || [0, 0], fixedPointRatio || [0, 0],
element, element,
elementsMap ?? arrayToMap([element]),
); );
// NOTE: Resize scales the binding position point too, so we need to update it
return Math.abs(
distanceToBindableElement(element, fixedGlobalPoint) -
FIXED_BINDING_DISTANCE,
) > 0.01
? bindPointToSnapToElementOutline(arrow, element, startOrEnd)
: fixedGlobalPoint;
} }
return initialPoint; return initialPoint;
@@ -2268,6 +2225,7 @@ const getBindPointHeading = (
otherPoint: GlobalPoint, otherPoint: GlobalPoint,
hoveredElement: ExcalidrawBindableElement | null | undefined, hoveredElement: ExcalidrawBindableElement | null | undefined,
origPoint: GlobalPoint, origPoint: GlobalPoint,
elementsMap: ElementsMap,
): Heading => ): Heading =>
getHeadingForElbowArrowSnap( getHeadingForElbowArrowSnap(
p, p,
@@ -2276,7 +2234,8 @@ const getBindPointHeading = (
hoveredElement && hoveredElement &&
aabbForElement( aabbForElement(
hoveredElement, hoveredElement,
Array(4).fill(distanceToBindableElement(hoveredElement, p)) as [ elementsMap,
Array(4).fill(distanceToElement(hoveredElement, elementsMap, p)) as [
number, number,
number, number,
number, number,
@@ -2284,6 +2243,7 @@ const getBindPointHeading = (
], ],
), ),
origPoint, origPoint,
elementsMap,
); );
const getHoveredElement = ( const getHoveredElement = (
+32 -2
View File
@@ -23,7 +23,7 @@ type IframeDataWithSandbox = MarkRequired<IframeData, "sandbox">;
const embeddedLinkCache = new Map<string, IframeDataWithSandbox>(); const embeddedLinkCache = new Map<string, IframeDataWithSandbox>();
const RE_YOUTUBE = const RE_YOUTUBE =
/^(?:http(?:s)?:\/\/)?(?:www\.)?youtu(?:be\.com|\.be)\/(embed\/|watch\?v=|shorts\/|playlist\?list=|embed\/videoseries\?list=)?([a-zA-Z0-9_-]+)(?:\?t=|&t=|\?start=|&start=)?([a-zA-Z0-9_-]+)?[^\s]*$/; /^(?:http(?:s)?:\/\/)?(?:www\.)?youtu(?:be\.com|\.be)\/(embed\/|watch\?v=|shorts\/|playlist\?list=|embed\/videoseries\?list=)?([a-zA-Z0-9_-]+)/;
const RE_VIMEO = const RE_VIMEO =
/^(?:http(?:s)?:\/\/)?(?:(?:w){3}\.)?(?:player\.)?vimeo\.com\/(?:video\/)?([^?\s]+)(?:\?.*)?$/; /^(?:http(?:s)?:\/\/)?(?:(?:w){3}\.)?(?:player\.)?vimeo\.com\/(?:video\/)?([^?\s]+)(?:\?.*)?$/;
@@ -56,6 +56,35 @@ const RE_REDDIT =
const RE_REDDIT_EMBED = const RE_REDDIT_EMBED =
/^<blockquote[\s\S]*?\shref=["'](https?:\/\/(?:www\.)?reddit\.com\/[^"']*)/i; /^<blockquote[\s\S]*?\shref=["'](https?:\/\/(?:www\.)?reddit\.com\/[^"']*)/i;
const parseYouTubeTimestamp = (url: string): number => {
let timeParam: string | null | undefined;
try {
const urlObj = new URL(url.startsWith("http") ? url : `https://${url}`);
timeParam =
urlObj.searchParams.get("t") || urlObj.searchParams.get("start");
} catch (error) {
const timeMatch = url.match(/[?&#](?:t|start)=([^&#\s]+)/);
timeParam = timeMatch?.[1];
}
if (!timeParam) {
return 0;
}
if (/^\d+$/.test(timeParam)) {
return parseInt(timeParam, 10);
}
const timeMatch = timeParam.match(/^(?:(\d+)h)?(?:(\d+)m)?(?:(\d+)s)?$/);
if (!timeMatch) {
return 0;
}
const [, hours = "0", minutes = "0", seconds = "0"] = timeMatch;
return parseInt(hours) * 3600 + parseInt(minutes) * 60 + parseInt(seconds);
};
const ALLOWED_DOMAINS = new Set([ const ALLOWED_DOMAINS = new Set([
"youtube.com", "youtube.com",
"youtu.be", "youtu.be",
@@ -113,7 +142,8 @@ export const getEmbedLink = (
let aspectRatio = { w: 560, h: 840 }; let aspectRatio = { w: 560, h: 840 };
const ytLink = link.match(RE_YOUTUBE); const ytLink = link.match(RE_YOUTUBE);
if (ytLink?.[2]) { if (ytLink?.[2]) {
const time = ytLink[3] ? `&start=${ytLink[3]}` : ``; const startTime = parseYouTubeTimestamp(originalLink);
const time = startTime > 0 ? `&start=${startTime}` : ``;
const isPortrait = link.includes("shorts"); const isPortrait = link.includes("shorts");
type = "video"; type = "video";
switch (ytLink[1]) { switch (ytLink[1]) {
+6 -5
View File
@@ -21,7 +21,7 @@ import {
import { LinearElementEditor } from "./linearElementEditor"; import { LinearElementEditor } from "./linearElementEditor";
import { mutateElement } from "./mutateElement"; import { mutateElement } from "./mutateElement";
import { newArrowElement, newElement } from "./newElement"; import { newArrowElement, newElement } from "./newElement";
import { aabbForElement } from "./shapes"; import { aabbForElement } from "./bounds";
import { elementsAreInFrameBounds, elementOverlapsWithFrame } from "./frame"; import { elementsAreInFrameBounds, elementOverlapsWithFrame } from "./frame";
import { import {
isBindableElement, isBindableElement,
@@ -95,10 +95,11 @@ const getNodeRelatives = (
type === "predecessors" ? el.points[el.points.length - 1] : [0, 0] type === "predecessors" ? el.points[el.points.length - 1] : [0, 0]
) as Readonly<LocalPoint>; ) as Readonly<LocalPoint>;
const heading = headingForPointFromElement(node, aabbForElement(node), [ const heading = headingForPointFromElement(
edgePoint[0] + el.x, node,
edgePoint[1] + el.y, aabbForElement(node, elementsMap),
] as Readonly<GlobalPoint>); [edgePoint[0] + el.x, edgePoint[1] + el.y] as Readonly<GlobalPoint>,
);
acc.push({ acc.push({
relative, relative,
+35 -9
View File
@@ -2,7 +2,7 @@ import { generateNKeysBetween } from "fractional-indexing";
import { arrayToMap } from "@excalidraw/common"; import { arrayToMap } from "@excalidraw/common";
import { mutateElement } from "./mutateElement"; import { mutateElement, newElementWith } from "./mutateElement";
import { getBoundTextElement } from "./textElement"; import { getBoundTextElement } from "./textElement";
import { hasBoundTextElement } from "./typeChecks"; import { hasBoundTextElement } from "./typeChecks";
@@ -11,6 +11,7 @@ import type {
ExcalidrawElement, ExcalidrawElement,
FractionalIndex, FractionalIndex,
OrderedExcalidrawElement, OrderedExcalidrawElement,
SceneElementsMap,
} from "./types"; } from "./types";
export class InvalidFractionalIndexError extends Error { export class InvalidFractionalIndexError extends Error {
@@ -161,9 +162,15 @@ export const syncMovedIndices = (
// try generatating indices, throws on invalid movedElements // try generatating indices, throws on invalid movedElements
const elementsUpdates = generateIndices(elements, indicesGroups); const elementsUpdates = generateIndices(elements, indicesGroups);
const elementsCandidates = elements.map((x) => const elementsCandidates = elements.map((x) => {
elementsUpdates.has(x) ? { ...x, ...elementsUpdates.get(x) } : x, const elementUpdates = elementsUpdates.get(x);
);
if (elementUpdates) {
return { ...x, index: elementUpdates.index };
}
return x;
});
// ensure next indices are valid before mutation, throws on invalid ones // ensure next indices are valid before mutation, throws on invalid ones
validateFractionalIndices( validateFractionalIndices(
@@ -177,8 +184,8 @@ export const syncMovedIndices = (
); );
// split mutation so we don't end up in an incosistent state // split mutation so we don't end up in an incosistent state
for (const [element, update] of elementsUpdates) { for (const [element, { index }] of elementsUpdates) {
mutateElement(element, elementsMap, update); mutateElement(element, elementsMap, { index });
} }
} catch (e) { } catch (e) {
// fallback to default sync // fallback to default sync
@@ -189,7 +196,7 @@ export const syncMovedIndices = (
}; };
/** /**
* Synchronizes all invalid fractional indices with the array order by mutating passed elements. * Synchronizes all invalid fractional indices within the array order by mutating elements in the passed array.
* *
* WARN: in edge cases it could modify the elements which were not moved, as it's impossible to guess the actually moved elements from the elements array itself. * WARN: in edge cases it could modify the elements which were not moved, as it's impossible to guess the actually moved elements from the elements array itself.
*/ */
@@ -200,13 +207,32 @@ export const syncInvalidIndices = (
const indicesGroups = getInvalidIndicesGroups(elements); const indicesGroups = getInvalidIndicesGroups(elements);
const elementsUpdates = generateIndices(elements, indicesGroups); const elementsUpdates = generateIndices(elements, indicesGroups);
for (const [element, update] of elementsUpdates) { for (const [element, { index }] of elementsUpdates) {
mutateElement(element, elementsMap, update); mutateElement(element, elementsMap, { index });
} }
return elements as OrderedExcalidrawElement[]; return elements as OrderedExcalidrawElement[];
}; };
/**
* Synchronizes all invalid fractional indices within the array order by creating new instances of elements with corrected indices.
*
* WARN: in edge cases it could modify the elements which were not moved, as it's impossible to guess the actually moved elements from the elements array itself.
*/
export const syncInvalidIndicesImmutable = (
elements: readonly ExcalidrawElement[],
): SceneElementsMap | undefined => {
const syncedElements = arrayToMap(elements);
const indicesGroups = getInvalidIndicesGroups(elements);
const elementsUpdates = generateIndices(elements, indicesGroups);
for (const [element, { index }] of elementsUpdates) {
syncedElements.set(element.id, newElementWith(element, { index }));
}
return syncedElements as SceneElementsMap;
};
/** /**
* Get contiguous groups of indices of passed moved elements. * Get contiguous groups of indices of passed moved elements.
* *
+77
View File
@@ -7,6 +7,8 @@ import type { Mutable } from "@excalidraw/common/utility-types";
import { getBoundTextElement } from "./textElement"; import { getBoundTextElement } from "./textElement";
import { isBoundToContainer } from "./typeChecks";
import { makeNextSelectedElementIds, getSelectedElements } from "./selection"; import { makeNextSelectedElementIds, getSelectedElements } from "./selection";
import type { import type {
@@ -402,3 +404,78 @@ export const getNewGroupIdsForDuplication = (
return copy; return copy;
}; };
// given a list of selected elements, return the element grouped by their immediate group selected state
// in the case if only one group is selected and all elements selected are within the group, it will respect group hierarchy in accordance to their nested grouping order
export const getSelectedElementsByGroup = (
selectedElements: ExcalidrawElement[],
elementsMap: ElementsMap,
appState: Readonly<AppState>,
): ExcalidrawElement[][] => {
const selectedGroupIds = getSelectedGroupIds(appState);
const unboundElements = selectedElements.filter(
(element) => !isBoundToContainer(element),
);
const groups: Map<string, ExcalidrawElement[]> = new Map();
const elements: Map<string, ExcalidrawElement[]> = new Map();
// helper function to add an element to the elements map
const addToElementsMap = (element: ExcalidrawElement) => {
// elements
const currentElementMembers = elements.get(element.id) || [];
const boundTextElement = getBoundTextElement(element, elementsMap);
if (boundTextElement) {
currentElementMembers.push(boundTextElement);
}
elements.set(element.id, [...currentElementMembers, element]);
};
// helper function to add an element to the groups map
const addToGroupsMap = (element: ExcalidrawElement, groupId: string) => {
// groups
const currentGroupMembers = groups.get(groupId) || [];
const boundTextElement = getBoundTextElement(element, elementsMap);
if (boundTextElement) {
currentGroupMembers.push(boundTextElement);
}
groups.set(groupId, [...currentGroupMembers, element]);
};
// helper function to handle the case where a single group is selected
// and all elements selected are within the group, it will respect group hierarchy in accordance to
// their nested grouping order
const handleSingleSelectedGroupCase = (
element: ExcalidrawElement,
selectedGroupId: GroupId,
) => {
const indexOfSelectedGroupId = element.groupIds.indexOf(selectedGroupId, 0);
const nestedGroupCount = element.groupIds.slice(
0,
indexOfSelectedGroupId,
).length;
return nestedGroupCount > 0
? addToGroupsMap(element, element.groupIds[indexOfSelectedGroupId - 1])
: addToElementsMap(element);
};
const isAllInSameGroup = selectedElements.every((element) =>
isSelectedViaGroup(appState, element),
);
unboundElements.forEach((element) => {
const selectedGroupId = getSelectedGroupIdForElement(
element,
appState.selectedGroupIds,
);
if (!selectedGroupId) {
addToElementsMap(element);
} else if (selectedGroupIds.length === 1 && isAllInSameGroup) {
handleSingleSelectedGroupCase(element, selectedGroupId);
} else {
addToGroupsMap(element, selectedGroupId);
}
});
return Array.from(groups.values()).concat(Array.from(elements.values()));
};
+1 -3
View File
@@ -102,9 +102,7 @@ export * from "./resizeElements";
export * from "./resizeTest"; export * from "./resizeTest";
export * from "./Scene"; export * from "./Scene";
export * from "./selection"; export * from "./selection";
export * from "./Shape"; export * from "./shape";
export * from "./ShapeCache";
export * from "./shapes";
export * from "./showSelectedShapeActions"; export * from "./showSelectedShapeActions";
export * from "./sizeHelpers"; export * from "./sizeHelpers";
export * from "./sortElements"; export * from "./sortElements";
+290 -178
View File
@@ -7,6 +7,8 @@ import {
type LocalPoint, type LocalPoint,
pointDistance, pointDistance,
vectorFromPoint, vectorFromPoint,
curveLength,
curvePointAtLength,
} from "@excalidraw/math"; } from "@excalidraw/math";
import { getCurvePathOps } from "@excalidraw/utils/shape"; import { getCurvePathOps } from "@excalidraw/utils/shape";
@@ -18,9 +20,14 @@ import {
getGridPoint, getGridPoint,
invariant, invariant,
tupleToCoors, tupleToCoors,
viewportCoordsToSceneCoords,
} from "@excalidraw/common"; } from "@excalidraw/common";
import type { Store } from "@excalidraw/element"; import {
deconstructLinearOrFreeDrawElement,
isPathALoop,
type Store,
} from "@excalidraw/element";
import type { Radians } from "@excalidraw/math"; import type { Radians } from "@excalidraw/math";
@@ -39,6 +46,7 @@ import {
bindOrUnbindLinearElement, bindOrUnbindLinearElement,
getHoveredElementForBinding, getHoveredElementForBinding,
isBindingEnabled, isBindingEnabled,
maybeSuggestBindingsForLinearElementAtCoords,
} from "./binding"; } from "./binding";
import { import {
getElementAbsoluteCoords, getElementAbsoluteCoords,
@@ -55,18 +63,12 @@ import {
isFixedPointBinding, isFixedPointBinding,
} from "./typeChecks"; } from "./typeChecks";
import { ShapeCache } from "./ShapeCache"; import { ShapeCache, toggleLinePolygonState } from "./shape";
import {
isPathALoop,
getBezierCurveLength,
getControlPointsForBezierCurve,
mapIntervalToBezierT,
getBezierXY,
} from "./shapes";
import { getLockedLinearCursorAlignSize } from "./sizeHelpers"; import { getLockedLinearCursorAlignSize } from "./sizeHelpers";
import { isLineElement } from "./typeChecks";
import type { Scene } from "./Scene"; import type { Scene } from "./Scene";
import type { Bounds } from "./bounds"; import type { Bounds } from "./bounds";
@@ -85,6 +87,35 @@ import type {
PointsPositionUpdates, PointsPositionUpdates,
} from "./types"; } from "./types";
/**
* Normalizes line points so that the start point is at [0,0]. This is
* expected in various parts of the codebase.
*
* Also returns the offsets - [0,0] if no normalization needed.
*
* @private
*/
const getNormalizedPoints = ({
points,
}: {
points: ExcalidrawLinearElement["points"];
}): {
points: LocalPoint[];
offsetX: number;
offsetY: number;
} => {
const offsetX = points[0][0];
const offsetY = points[0][1];
return {
points: points.map((p) => {
return pointFrom(p[0] - offsetX, p[1] - offsetY);
}),
offsetX,
offsetY,
};
};
export class LinearElementEditor { export class LinearElementEditor {
public readonly elementId: ExcalidrawElement["id"] & { public readonly elementId: ExcalidrawElement["id"] & {
_brand: "excalidrawLinearElementId"; _brand: "excalidrawLinearElementId";
@@ -117,17 +148,24 @@ export class LinearElementEditor {
public readonly hoverPointIndex: number; public readonly hoverPointIndex: number;
public readonly segmentMidPointHoveredCoords: GlobalPoint | null; public readonly segmentMidPointHoveredCoords: GlobalPoint | null;
public readonly elbowed: boolean; public readonly elbowed: boolean;
public readonly customLineAngle: number | null;
public readonly isEditing: boolean;
constructor( constructor(
element: NonDeleted<ExcalidrawLinearElement>, element: NonDeleted<ExcalidrawLinearElement>,
elementsMap: ElementsMap, elementsMap: ElementsMap,
isEditing: boolean = false,
) { ) {
this.elementId = element.id as string & { this.elementId = element.id as string & {
_brand: "excalidrawLinearElementId"; _brand: "excalidrawLinearElementId";
}; };
if (!pointsEqual(element.points[0], pointFrom(0, 0))) { if (!pointsEqual(element.points[0], pointFrom(0, 0))) {
console.error("Linear element is not normalized", Error().stack); console.error("Linear element is not normalized", Error().stack);
LinearElementEditor.normalizePoints(element, elementsMap); mutateElement(
element,
elementsMap,
LinearElementEditor.getNormalizeElementPointsAndCoords(element),
);
} }
this.selectedPointsIndices = null; this.selectedPointsIndices = null;
this.lastUncommittedPoint = null; this.lastUncommittedPoint = null;
@@ -150,6 +188,8 @@ export class LinearElementEditor {
this.hoverPointIndex = -1; this.hoverPointIndex = -1;
this.segmentMidPointHoveredCoords = null; this.segmentMidPointHoveredCoords = null;
this.elbowed = isElbowArrow(element) && element.elbowed; this.elbowed = isElbowArrow(element) && element.elbowed;
this.customLineAngle = null;
this.isEditing = isEditing;
} }
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
@@ -157,6 +197,7 @@ export class LinearElementEditor {
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
static POINT_HANDLE_SIZE = 10; static POINT_HANDLE_SIZE = 10;
/** /**
* @param id the `elementId` from the instance of this class (so that we can * @param id the `elementId` from the instance of this class (so that we can
* statically guarantee this method returns an ExcalidrawLinearElement) * statically guarantee this method returns an ExcalidrawLinearElement)
@@ -178,11 +219,14 @@ export class LinearElementEditor {
setState: React.Component<any, AppState>["setState"], setState: React.Component<any, AppState>["setState"],
elementsMap: NonDeletedSceneElementsMap, elementsMap: NonDeletedSceneElementsMap,
) { ) {
if (!appState.editingLinearElement || !appState.selectionElement) { if (
!appState.selectedLinearElement?.isEditing ||
!appState.selectionElement
) {
return false; return false;
} }
const { editingLinearElement } = appState; const { selectedLinearElement } = appState;
const { selectedPointsIndices, elementId } = editingLinearElement; const { selectedPointsIndices, elementId } = selectedLinearElement;
const element = LinearElementEditor.getElement(elementId, elementsMap); const element = LinearElementEditor.getElement(elementId, elementsMap);
if (!element) { if (!element) {
@@ -223,8 +267,8 @@ export class LinearElementEditor {
}); });
setState({ setState({
editingLinearElement: { selectedLinearElement: {
...editingLinearElement, ...selectedLinearElement,
selectedPointsIndices: nextSelectedPoints.length selectedPointsIndices: nextSelectedPoints.length
? nextSelectedPoints ? nextSelectedPoints
: null, : null,
@@ -240,19 +284,15 @@ export class LinearElementEditor {
app: AppClassProperties, app: AppClassProperties,
scenePointerX: number, scenePointerX: number,
scenePointerY: number, scenePointerY: number,
maybeSuggestBinding: (
element: NonDeleted<ExcalidrawLinearElement>,
pointSceneCoords: { x: number; y: number }[],
) => void,
linearElementEditor: LinearElementEditor, linearElementEditor: LinearElementEditor,
scene: Scene, ): Pick<AppState, keyof AppState> | null {
): LinearElementEditor | null {
if (!linearElementEditor) { if (!linearElementEditor) {
return null; return null;
} }
const { elementId } = linearElementEditor; const { elementId } = linearElementEditor;
const elementsMap = scene.getNonDeletedElementsMap(); const elementsMap = app.scene.getNonDeletedElementsMap();
const element = LinearElementEditor.getElement(elementId, elementsMap); const element = LinearElementEditor.getElement(elementId, elementsMap);
let customLineAngle = linearElementEditor.customLineAngle;
if (!element) { if (!element) {
return null; return null;
} }
@@ -293,6 +333,12 @@ export class LinearElementEditor {
const selectedIndex = selectedPointsIndices[0]; const selectedIndex = selectedPointsIndices[0];
const referencePoint = const referencePoint =
element.points[selectedIndex === 0 ? 1 : selectedIndex - 1]; element.points[selectedIndex === 0 ? 1 : selectedIndex - 1];
customLineAngle =
linearElementEditor.customLineAngle ??
Math.atan2(
element.points[selectedIndex][1] - referencePoint[1],
element.points[selectedIndex][0] - referencePoint[0],
);
const [width, height] = LinearElementEditor._getShiftLockedDelta( const [width, height] = LinearElementEditor._getShiftLockedDelta(
element, element,
@@ -300,11 +346,12 @@ export class LinearElementEditor {
referencePoint, referencePoint,
pointFrom(scenePointerX, scenePointerY), pointFrom(scenePointerX, scenePointerY),
event[KEYS.CTRL_OR_CMD] ? null : app.getEffectiveGridSize(), event[KEYS.CTRL_OR_CMD] ? null : app.getEffectiveGridSize(),
customLineAngle,
); );
LinearElementEditor.movePoints( LinearElementEditor.movePoints(
element, element,
scene, app.scene,
new Map([ new Map([
[ [
selectedIndex, selectedIndex,
@@ -332,7 +379,7 @@ export class LinearElementEditor {
LinearElementEditor.movePoints( LinearElementEditor.movePoints(
element, element,
scene, app.scene,
new Map( new Map(
selectedPointsIndices.map((pointIndex) => { selectedPointsIndices.map((pointIndex) => {
const newPointPosition: LocalPoint = const newPointPosition: LocalPoint =
@@ -364,46 +411,59 @@ export class LinearElementEditor {
const boundTextElement = getBoundTextElement(element, elementsMap); const boundTextElement = getBoundTextElement(element, elementsMap);
if (boundTextElement) { if (boundTextElement) {
handleBindTextResize(element, scene, false); handleBindTextResize(element, app.scene, false);
} }
// suggest bindings for first and last point if selected // suggest bindings for first and last point if selected
let suggestedBindings: ExcalidrawBindableElement[] = [];
if (isBindingElement(element, false)) { if (isBindingElement(element, false)) {
const firstSelectedIndex = selectedPointsIndices[0] === 0;
const lastSelectedIndex =
selectedPointsIndices[selectedPointsIndices.length - 1] ===
element.points.length - 1;
const coords: { x: number; y: number }[] = []; const coords: { x: number; y: number }[] = [];
const firstSelectedIndex = selectedPointsIndices[0]; if (!firstSelectedIndex !== !lastSelectedIndex) {
if (firstSelectedIndex === 0) { coords.push({ x: scenePointerX, y: scenePointerY });
coords.push( } else {
tupleToCoors( if (firstSelectedIndex) {
LinearElementEditor.getPointGlobalCoordinates( coords.push(
element, tupleToCoors(
element.points[0], LinearElementEditor.getPointGlobalCoordinates(
elementsMap, element,
element.points[0],
elementsMap,
),
), ),
), );
); }
}
const lastSelectedIndex = if (lastSelectedIndex) {
selectedPointsIndices[selectedPointsIndices.length - 1]; coords.push(
if (lastSelectedIndex === element.points.length - 1) { tupleToCoors(
coords.push( LinearElementEditor.getPointGlobalCoordinates(
tupleToCoors( element,
LinearElementEditor.getPointGlobalCoordinates( element.points[
element, selectedPointsIndices[selectedPointsIndices.length - 1]
element.points[lastSelectedIndex], ],
elementsMap, elementsMap,
),
), ),
), );
); }
} }
if (coords.length) { if (coords.length) {
maybeSuggestBinding(element, coords); suggestedBindings = maybeSuggestBindingsForLinearElementAtCoords(
element,
coords,
app.scene,
app.state.zoom,
);
} }
} }
return { const newLinearElementEditor = {
...linearElementEditor, ...linearElementEditor,
selectedPointsIndices, selectedPointsIndices,
segmentMidPointHoveredCoords: segmentMidPointHoveredCoords:
@@ -421,6 +481,13 @@ export class LinearElementEditor {
? lastClickedPoint ? lastClickedPoint
: -1, : -1,
isDragging: true, isDragging: true,
customLineAngle,
};
return {
...app.state,
selectedLinearElement: newLinearElementEditor,
suggestedBindings,
}; };
} }
@@ -435,6 +502,7 @@ export class LinearElementEditor {
): LinearElementEditor { ): LinearElementEditor {
const elementsMap = scene.getNonDeletedElementsMap(); const elementsMap = scene.getNonDeletedElementsMap();
const elements = scene.getNonDeletedElements(); const elements = scene.getNonDeletedElements();
const pointerCoords = viewportCoordsToSceneCoords(event, appState);
const { elementId, selectedPointsIndices, isDragging, pointerDownState } = const { elementId, selectedPointsIndices, isDragging, pointerDownState } =
editingLinearElement; editingLinearElement;
@@ -459,6 +527,18 @@ export class LinearElementEditor {
selectedPoint === element.points.length - 1 selectedPoint === element.points.length - 1
) { ) {
if (isPathALoop(element.points, appState.zoom.value)) { if (isPathALoop(element.points, appState.zoom.value)) {
if (isLineElement(element)) {
scene.mutateElement(
element,
{
...toggleLinePolygonState(element, true),
},
{
informMutation: false,
isDragging: false,
},
);
}
LinearElementEditor.movePoints( LinearElementEditor.movePoints(
element, element,
scene, scene,
@@ -478,13 +558,15 @@ export class LinearElementEditor {
const bindingElement = isBindingEnabled(appState) const bindingElement = isBindingEnabled(appState)
? getHoveredElementForBinding( ? getHoveredElementForBinding(
tupleToCoors( (selectedPointsIndices?.length ?? 0) > 1
LinearElementEditor.getPointAtIndexGlobalCoordinates( ? tupleToCoors(
element, LinearElementEditor.getPointAtIndexGlobalCoordinates(
selectedPoint!, element,
elementsMap, selectedPoint!,
), elementsMap,
), ),
)
: pointerCoords,
elements, elements,
elementsMap, elementsMap,
appState.zoom, appState.zoom,
@@ -503,6 +585,8 @@ export class LinearElementEditor {
return { return {
...editingLinearElement, ...editingLinearElement,
...bindings, ...bindings,
segmentMidPointHoveredCoords: null,
hoverPointIndex: -1,
// if clicking without previously dragging a point(s), and not holding // if clicking without previously dragging a point(s), and not holding
// shift, deselect all points except the one clicked. If holding shift, // shift, deselect all points except the one clicked. If holding shift,
// toggle the point. // toggle the point.
@@ -524,6 +608,7 @@ export class LinearElementEditor {
: selectedPointsIndices, : selectedPointsIndices,
isDragging: false, isDragging: false,
pointerOffset: { x: 0, y: 0 }, pointerOffset: { x: 0, y: 0 },
customLineAngle: null,
}; };
} }
@@ -537,7 +622,7 @@ export class LinearElementEditor {
// Since its not needed outside editor unless 2 pointer lines or bound text // Since its not needed outside editor unless 2 pointer lines or bound text
if ( if (
!isElbowArrow(element) && !isElbowArrow(element) &&
!appState.editingLinearElement && !appState.selectedLinearElement?.isEditing &&
element.points.length > 2 && element.points.length > 2 &&
!boundText !boundText
) { ) {
@@ -567,10 +652,7 @@ export class LinearElementEditor {
} }
const segmentMidPoint = LinearElementEditor.getSegmentMidPoint( const segmentMidPoint = LinearElementEditor.getSegmentMidPoint(
element, element,
points[index],
points[index + 1],
index + 1, index + 1,
elementsMap,
); );
midpoints.push(segmentMidPoint); midpoints.push(segmentMidPoint);
index++; index++;
@@ -606,7 +688,7 @@ export class LinearElementEditor {
); );
if ( if (
points.length >= 3 && points.length >= 3 &&
!appState.editingLinearElement && !appState.selectedLinearElement?.isEditing &&
!isElbowArrow(element) !isElbowArrow(element)
) { ) {
return null; return null;
@@ -672,7 +754,18 @@ export class LinearElementEditor {
let distance = pointDistance(startPoint, endPoint); let distance = pointDistance(startPoint, endPoint);
if (element.points.length > 2 && element.roundness) { if (element.points.length > 2 && element.roundness) {
distance = getBezierCurveLength(element, endPoint); const [lines, curves] = deconstructLinearOrFreeDrawElement(element);
invariant(
lines.length === 0 && curves.length > 0,
"Only linears built out of curves are supported",
);
invariant(
lines.length + curves.length >= index,
"Invalid segment index while calculating mid point",
);
distance = curveLength<GlobalPoint>(curves[index]);
} }
return distance * zoom.value < LinearElementEditor.POINT_HANDLE_SIZE * 4; return distance * zoom.value < LinearElementEditor.POINT_HANDLE_SIZE * 4;
@@ -680,39 +773,42 @@ export class LinearElementEditor {
static getSegmentMidPoint( static getSegmentMidPoint(
element: NonDeleted<ExcalidrawLinearElement>, element: NonDeleted<ExcalidrawLinearElement>,
startPoint: GlobalPoint, index: number,
endPoint: GlobalPoint,
endPointIndex: number,
elementsMap: ElementsMap,
): GlobalPoint { ): GlobalPoint {
let segmentMidPoint = pointCenter(startPoint, endPoint); if (isElbowArrow(element)) {
if (element.points.length > 2 && element.roundness) { invariant(
const controlPoints = getControlPointsForBezierCurve( element.points.length >= index,
element, "Invalid segment index while calculating elbow arrow mid point",
element.points[endPointIndex],
); );
if (controlPoints) {
const t = mapIntervalToBezierT(
element,
element.points[endPointIndex],
0.5,
);
segmentMidPoint = LinearElementEditor.getPointGlobalCoordinates( const p = pointCenter(element.points[index - 1], element.points[index]);
element,
getBezierXY( return pointFrom<GlobalPoint>(element.x + p[0], element.y + p[1]);
controlPoints[0],
controlPoints[1],
controlPoints[2],
controlPoints[3],
t,
),
elementsMap,
);
}
} }
return segmentMidPoint; const [lines, curves] = deconstructLinearOrFreeDrawElement(element);
invariant(
(lines.length === 0 && curves.length > 0) ||
(lines.length > 0 && curves.length === 0),
"Only linears built out of either segments or curves are supported",
);
invariant(
lines.length + curves.length >= index,
"Invalid segment index while calculating mid point",
);
if (lines.length) {
const segment = lines[index - 1];
return pointCenter(segment[0], segment[1]);
}
if (curves.length) {
const segment = curves[index - 1];
return curvePointAtLength(segment, 0.5);
}
invariant(false, "Invalid segment type while calculating mid point");
} }
static getSegmentMidPointIndex( static getSegmentMidPointIndex(
@@ -789,7 +885,7 @@ export class LinearElementEditor {
segmentMidpoint, segmentMidpoint,
elementsMap, elementsMap,
); );
} else if (event.altKey && appState.editingLinearElement) { } else if (event.altKey && appState.selectedLinearElement?.isEditing) {
if (linearElementEditor.lastUncommittedPoint == null) { if (linearElementEditor.lastUncommittedPoint == null) {
scene.mutateElement(element, { scene.mutateElement(element, {
points: [ points: [
@@ -931,14 +1027,14 @@ export class LinearElementEditor {
app: AppClassProperties, app: AppClassProperties,
): LinearElementEditor | null { ): LinearElementEditor | null {
const appState = app.state; const appState = app.state;
if (!appState.editingLinearElement) { if (!appState.selectedLinearElement?.isEditing) {
return null; return null;
} }
const { elementId, lastUncommittedPoint } = appState.editingLinearElement; const { elementId, lastUncommittedPoint } = appState.selectedLinearElement;
const elementsMap = app.scene.getNonDeletedElementsMap(); const elementsMap = app.scene.getNonDeletedElementsMap();
const element = LinearElementEditor.getElement(elementId, elementsMap); const element = LinearElementEditor.getElement(elementId, elementsMap);
if (!element) { if (!element) {
return appState.editingLinearElement; return appState.selectedLinearElement;
} }
const { points } = element; const { points } = element;
@@ -946,14 +1042,14 @@ export class LinearElementEditor {
if (!event.altKey) { if (!event.altKey) {
if (lastPoint === lastUncommittedPoint) { if (lastPoint === lastUncommittedPoint) {
LinearElementEditor.deletePoints(element, app.scene, [ LinearElementEditor.deletePoints(element, app, [points.length - 1]);
points.length - 1,
]);
} }
return { return appState.selectedLinearElement?.lastUncommittedPoint
...appState.editingLinearElement, ? {
lastUncommittedPoint: null, ...appState.selectedLinearElement,
}; lastUncommittedPoint: null,
}
: appState.selectedLinearElement;
} }
let newPoint: LocalPoint; let newPoint: LocalPoint;
@@ -977,8 +1073,8 @@ export class LinearElementEditor {
newPoint = LinearElementEditor.createPointAt( newPoint = LinearElementEditor.createPointAt(
element, element,
elementsMap, elementsMap,
scenePointerX - appState.editingLinearElement.pointerOffset.x, scenePointerX - appState.selectedLinearElement.pointerOffset.x,
scenePointerY - appState.editingLinearElement.pointerOffset.y, scenePointerY - appState.selectedLinearElement.pointerOffset.y,
event[KEYS.CTRL_OR_CMD] || isElbowArrow(element) event[KEYS.CTRL_OR_CMD] || isElbowArrow(element)
? null ? null
: app.getEffectiveGridSize(), : app.getEffectiveGridSize(),
@@ -999,10 +1095,10 @@ export class LinearElementEditor {
]), ]),
); );
} else { } else {
LinearElementEditor.addPoints(element, app.scene, [{ point: newPoint }]); LinearElementEditor.addPoints(element, app.scene, [newPoint]);
} }
return { return {
...appState.editingLinearElement, ...appState.selectedLinearElement,
lastUncommittedPoint: element.points[element.points.length - 1], lastUncommittedPoint: element.points[element.points.length - 1],
}; };
} }
@@ -1142,48 +1238,31 @@ export class LinearElementEditor {
/** /**
* Normalizes line points so that the start point is at [0,0]. This is * Normalizes line points so that the start point is at [0,0]. This is
* expected in various parts of the codebase. Also returns new x/y to account * expected in various parts of the codebase.
* for the potential normalization. *
* Also returns normalized x and y coords to account for the normalization
* of the points.
*/ */
static getNormalizedPoints(element: ExcalidrawLinearElement): { static getNormalizeElementPointsAndCoords(element: ExcalidrawLinearElement) {
points: LocalPoint[]; const { points, offsetX, offsetY } = getNormalizedPoints(element);
x: number;
y: number;
} {
const { points } = element;
const offsetX = points[0][0];
const offsetY = points[0][1];
return { return {
points: points.map((p) => { points,
return pointFrom(p[0] - offsetX, p[1] - offsetY);
}),
x: element.x + offsetX, x: element.x + offsetX,
y: element.y + offsetY, y: element.y + offsetY,
}; };
} }
// element-mutating methods // element-mutating methods
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
static normalizePoints(
element: NonDeleted<ExcalidrawLinearElement>,
elementsMap: ElementsMap,
) {
mutateElement(
element,
elementsMap,
LinearElementEditor.getNormalizedPoints(element),
);
}
static duplicateSelectedPoints(appState: AppState, scene: Scene): AppState { static duplicateSelectedPoints(appState: AppState, scene: Scene): AppState {
invariant( invariant(
appState.editingLinearElement, appState.selectedLinearElement?.isEditing,
"Not currently editing a linear element", "Not currently editing a linear element",
); );
const elementsMap = scene.getNonDeletedElementsMap(); const elementsMap = scene.getNonDeletedElementsMap();
const { selectedPointsIndices, elementId } = appState.editingLinearElement; const { selectedPointsIndices, elementId } = appState.selectedLinearElement;
const element = LinearElementEditor.getElement(elementId, elementsMap); const element = LinearElementEditor.getElement(elementId, elementsMap);
invariant( invariant(
@@ -1245,8 +1324,8 @@ export class LinearElementEditor {
return { return {
...appState, ...appState,
editingLinearElement: { selectedLinearElement: {
...appState.editingLinearElement, ...appState.selectedLinearElement,
selectedPointsIndices: nextSelectedIndices, selectedPointsIndices: nextSelectedIndices,
}, },
}; };
@@ -1254,41 +1333,43 @@ export class LinearElementEditor {
static deletePoints( static deletePoints(
element: NonDeleted<ExcalidrawLinearElement>, element: NonDeleted<ExcalidrawLinearElement>,
scene: Scene, app: AppClassProperties,
pointIndices: readonly number[], pointIndices: readonly number[],
) { ) {
let offsetX = 0; const isUncommittedPoint =
let offsetY = 0; app.state.selectedLinearElement?.isEditing &&
app.state.selectedLinearElement?.lastUncommittedPoint ===
element.points[element.points.length - 1];
const isDeletingOriginPoint = pointIndices.includes(0); const nextPoints = element.points.filter((_, idx) => {
return !pointIndices.includes(idx);
});
// if deleting first point, make the next to be [0,0] and recalculate const isPolygon = isLineElement(element) && element.polygon;
// positions of the rest with respect to it
if (isDeletingOriginPoint) { // keep polygon intact if deleting start/end point or uncommitted point
const firstNonDeletedPoint = element.points.find((point, idx) => { if (
return !pointIndices.includes(idx); isPolygon &&
}); (isUncommittedPoint ||
if (firstNonDeletedPoint) { pointIndices.includes(0) ||
offsetX = firstNonDeletedPoint[0]; pointIndices.includes(element.points.length - 1))
offsetY = firstNonDeletedPoint[1]; ) {
} nextPoints[0] = pointFrom(
nextPoints[nextPoints.length - 1][0],
nextPoints[nextPoints.length - 1][1],
);
} }
const nextPoints = element.points.reduce((acc: LocalPoint[], p, idx) => { const {
if (!pointIndices.includes(idx)) { points: normalizedPoints,
acc.push( offsetX,
!acc.length offsetY,
? pointFrom(0, 0) } = getNormalizedPoints({ points: nextPoints });
: pointFrom(p[0] - offsetX, p[1] - offsetY),
);
}
return acc;
}, []);
LinearElementEditor._updatePoints( LinearElementEditor._updatePoints(
element, element,
scene, app.scene,
nextPoints, normalizedPoints,
offsetX, offsetX,
offsetY, offsetY,
); );
@@ -1297,16 +1378,27 @@ export class LinearElementEditor {
static addPoints( static addPoints(
element: NonDeleted<ExcalidrawLinearElement>, element: NonDeleted<ExcalidrawLinearElement>,
scene: Scene, scene: Scene,
targetPoints: { point: LocalPoint }[], addedPoints: LocalPoint[],
) { ) {
const offsetX = 0; const nextPoints = [...element.points, ...addedPoints];
const offsetY = 0;
if (isLineElement(element) && element.polygon) {
nextPoints[0] = pointFrom(
nextPoints[nextPoints.length - 1][0],
nextPoints[nextPoints.length - 1][1],
);
}
const {
points: normalizedPoints,
offsetX,
offsetY,
} = getNormalizedPoints({ points: nextPoints });
const nextPoints = [...element.points, ...targetPoints.map((x) => x.point)];
LinearElementEditor._updatePoints( LinearElementEditor._updatePoints(
element, element,
scene, scene,
nextPoints, normalizedPoints,
offsetX, offsetX,
offsetY, offsetY,
); );
@@ -1323,17 +1415,37 @@ export class LinearElementEditor {
) { ) {
const { points } = element; const { points } = element;
// if polygon, move start and end points together
if (isLineElement(element) && element.polygon) {
const firstPointUpdate = pointUpdates.get(0);
const lastPointUpdate = pointUpdates.get(points.length - 1);
if (firstPointUpdate) {
pointUpdates.set(points.length - 1, {
point: pointFrom(
firstPointUpdate.point[0],
firstPointUpdate.point[1],
),
isDragging: firstPointUpdate.isDragging,
});
} else if (lastPointUpdate) {
pointUpdates.set(0, {
point: pointFrom(lastPointUpdate.point[0], lastPointUpdate.point[1]),
isDragging: lastPointUpdate.isDragging,
});
}
}
// in case we're moving start point, instead of modifying its position // in case we're moving start point, instead of modifying its position
// which would break the invariant of it being at [0,0], we move // which would break the invariant of it being at [0,0], we move
// all the other points in the opposite direction by delta to // all the other points in the opposite direction by delta to
// offset it. We do the same with actual element.x/y position, so // offset it. We do the same with actual element.x/y position, so
// this hacks are completely transparent to the user. // this hacks are completely transparent to the user.
const [deltaX, deltaY] =
const updatedOriginPoint =
pointUpdates.get(0)?.point ?? pointFrom<LocalPoint>(0, 0); pointUpdates.get(0)?.point ?? pointFrom<LocalPoint>(0, 0);
const [offsetX, offsetY] = pointFrom<LocalPoint>(
deltaX - points[0][0], const [offsetX, offsetY] = updatedOriginPoint;
deltaY - points[0][1],
);
const nextPoints = isElbowArrow(element) const nextPoints = isElbowArrow(element)
? [ ? [
@@ -1400,7 +1512,7 @@ export class LinearElementEditor {
pointFrom(pointerCoords.x, pointerCoords.y), pointFrom(pointerCoords.x, pointerCoords.y),
); );
if ( if (
!appState.editingLinearElement && !appState.selectedLinearElement?.isEditing &&
dist < DRAGGING_THRESHOLD / appState.zoom.value dist < DRAGGING_THRESHOLD / appState.zoom.value
) { ) {
return false; return false;
@@ -1503,6 +1615,7 @@ export class LinearElementEditor {
isDragging: options?.isDragging ?? false, isDragging: options?.isDragging ?? false,
}); });
} else { } else {
// TODO do we need to get precise coords here just to calc centers?
const nextCoords = getElementPointsCoords(element, nextPoints); const nextCoords = getElementPointsCoords(element, nextPoints);
const prevCoords = getElementPointsCoords(element, element.points); const prevCoords = getElementPointsCoords(element, element.points);
const nextCenterX = (nextCoords[0] + nextCoords[2]) / 2; const nextCenterX = (nextCoords[0] + nextCoords[2]) / 2;
@@ -1511,7 +1624,7 @@ export class LinearElementEditor {
const prevCenterY = (prevCoords[1] + prevCoords[3]) / 2; const prevCenterY = (prevCoords[1] + prevCoords[3]) / 2;
const dX = prevCenterX - nextCenterX; const dX = prevCenterX - nextCenterX;
const dY = prevCenterY - nextCenterY; const dY = prevCenterY - nextCenterY;
const rotated = pointRotateRads( const rotatedOffset = pointRotateRads(
pointFrom(offsetX, offsetY), pointFrom(offsetX, offsetY),
pointFrom(dX, dY), pointFrom(dX, dY),
element.angle, element.angle,
@@ -1519,8 +1632,8 @@ export class LinearElementEditor {
scene.mutateElement(element, { scene.mutateElement(element, {
...otherUpdates, ...otherUpdates,
points: nextPoints, points: nextPoints,
x: element.x + rotated[0], x: element.x + rotatedOffset[0],
y: element.y + rotated[1], y: element.y + rotatedOffset[1],
}); });
} }
} }
@@ -1531,6 +1644,7 @@ export class LinearElementEditor {
referencePoint: LocalPoint, referencePoint: LocalPoint,
scenePointer: GlobalPoint, scenePointer: GlobalPoint,
gridSize: NullableGridSize, gridSize: NullableGridSize,
customLineAngle?: number,
) { ) {
const referencePointCoords = LinearElementEditor.getPointGlobalCoordinates( const referencePointCoords = LinearElementEditor.getPointGlobalCoordinates(
element, element,
@@ -1556,6 +1670,7 @@ export class LinearElementEditor {
referencePointCoords[1], referencePointCoords[1],
gridX, gridX,
gridY, gridY,
customLineAngle,
); );
return pointRotateRads( return pointRotateRads(
@@ -1592,10 +1707,7 @@ export class LinearElementEditor {
const index = element.points.length / 2 - 1; const index = element.points.length / 2 - 1;
const midSegmentMidpoint = LinearElementEditor.getSegmentMidPoint( const midSegmentMidpoint = LinearElementEditor.getSegmentMidPoint(
element, element,
points[index],
points[index + 1],
index + 1, index + 1,
elementsMap,
); );
x = midSegmentMidpoint[0] - boundTextElement.width / 2; x = midSegmentMidpoint[0] - boundTextElement.width / 2;
+6 -6
View File
@@ -8,7 +8,7 @@ import type { Radians } from "@excalidraw/math";
import type { Mutable } from "@excalidraw/common/utility-types"; import type { Mutable } from "@excalidraw/common/utility-types";
import { ShapeCache } from "./ShapeCache"; import { ShapeCache } from "./shape";
import { updateElbowArrowPoints } from "./elbowArrow"; import { updateElbowArrowPoints } from "./elbowArrow";
@@ -23,7 +23,7 @@ import type {
export type ElementUpdate<TElement extends ExcalidrawElement> = Omit< export type ElementUpdate<TElement extends ExcalidrawElement> = Omit<
Partial<TElement>, Partial<TElement>,
"id" | "version" | "versionNonce" | "updated" "id" | "updated"
>; >;
/** /**
@@ -137,8 +137,8 @@ export const mutateElement = <TElement extends Mutable<ExcalidrawElement>>(
ShapeCache.delete(element); ShapeCache.delete(element);
} }
element.version++; element.version = updates.version ?? element.version + 1;
element.versionNonce = randomInteger(); element.versionNonce = updates.versionNonce ?? randomInteger();
element.updated = getUpdatedTimestamp(); element.updated = getUpdatedTimestamp();
return element; return element;
@@ -172,9 +172,9 @@ export const newElementWith = <TElement extends ExcalidrawElement>(
return { return {
...element, ...element,
...updates, ...updates,
version: updates.version ?? element.version + 1,
versionNonce: updates.versionNonce ?? randomInteger(),
updated: getUpdatedTimestamp(), updated: getUpdatedTimestamp(),
version: element.version + 1,
versionNonce: randomInteger(),
}; };
}; };
+16 -1
View File
@@ -25,6 +25,8 @@ import { getBoundTextMaxWidth } from "./textElement";
import { normalizeText, measureText } from "./textMeasurements"; import { normalizeText, measureText } from "./textMeasurements";
import { wrapText } from "./textWrapping"; import { wrapText } from "./textWrapping";
import { isLineElement } from "./typeChecks";
import type { import type {
ExcalidrawElement, ExcalidrawElement,
ExcalidrawImageElement, ExcalidrawImageElement,
@@ -45,6 +47,7 @@ import type {
ElementsMap, ElementsMap,
ExcalidrawArrowElement, ExcalidrawArrowElement,
ExcalidrawElbowArrowElement, ExcalidrawElbowArrowElement,
ExcalidrawLineElement,
} from "./types"; } from "./types";
export type ElementConstructorOpts = MarkOptional< export type ElementConstructorOpts = MarkOptional<
@@ -457,9 +460,10 @@ export const newLinearElement = (
opts: { opts: {
type: ExcalidrawLinearElement["type"]; type: ExcalidrawLinearElement["type"];
points?: ExcalidrawLinearElement["points"]; points?: ExcalidrawLinearElement["points"];
polygon?: ExcalidrawLineElement["polygon"];
} & ElementConstructorOpts, } & ElementConstructorOpts,
): NonDeleted<ExcalidrawLinearElement> => { ): NonDeleted<ExcalidrawLinearElement> => {
return { const element = {
..._newElementBase<ExcalidrawLinearElement>(opts.type, opts), ..._newElementBase<ExcalidrawLinearElement>(opts.type, opts),
points: opts.points || [], points: opts.points || [],
lastCommittedPoint: null, lastCommittedPoint: null,
@@ -468,6 +472,17 @@ export const newLinearElement = (
startArrowhead: null, startArrowhead: null,
endArrowhead: null, endArrowhead: null,
}; };
if (isLineElement(element)) {
const lineElement: NonDeleted<ExcalidrawLineElement> = {
...element,
polygon: opts.polygon ?? false,
};
return lineElement;
}
return element;
}; };
export const newArrowElement = <T extends boolean>( export const newArrowElement = <T extends boolean>(
+7 -2
View File
@@ -54,9 +54,9 @@ import {
isImageElement, isImageElement,
} from "./typeChecks"; } from "./typeChecks";
import { getContainingFrame } from "./frame"; import { getContainingFrame } from "./frame";
import { getCornerRadius } from "./shapes"; import { getCornerRadius } from "./utils";
import { ShapeCache } from "./ShapeCache"; import { ShapeCache } from "./shape";
import type { import type {
ExcalidrawElement, ExcalidrawElement,
@@ -106,6 +106,11 @@ const getCanvasPadding = (element: ExcalidrawElement) => {
return element.strokeWidth * 12; return element.strokeWidth * 12;
case "text": case "text":
return element.fontSize / 2; return element.fontSize / 2;
case "arrow":
if (element.endArrowhead || element.endArrowhead) {
return 40;
}
return 20;
default: default:
return 20; return 20;
} }
+56 -191
View File
@@ -2,7 +2,6 @@ import {
pointCenter, pointCenter,
normalizeRadians, normalizeRadians,
pointFrom, pointFrom,
pointFromPair,
pointRotateRads, pointRotateRads,
type Radians, type Radians,
type LocalPoint, type LocalPoint,
@@ -104,18 +103,6 @@ export const transformElements = (
); );
updateBoundElements(element, scene); updateBoundElements(element, scene);
} }
} else if (isTextElement(element) && transformHandleType) {
resizeSingleTextElement(
originalElements,
element,
scene,
transformHandleType,
shouldResizeFromCenter,
pointerX,
pointerY,
);
updateBoundElements(element, scene);
return true;
} else if (transformHandleType) { } else if (transformHandleType) {
const elementId = selectedElements[0].id; const elementId = selectedElements[0].id;
const latestElement = elementsMap.get(elementId); const latestElement = elementsMap.get(elementId);
@@ -150,6 +137,9 @@ export const transformElements = (
); );
} }
} }
if (isTextElement(element)) {
updateBoundElements(element, scene);
}
return true; return true;
} else if (selectedElements.length > 1) { } else if (selectedElements.length > 1) {
if (transformHandleType === "rotation") { if (transformHandleType === "rotation") {
@@ -282,151 +272,50 @@ export const measureFontSizeFromWidth = (
}; };
}; };
const resizeSingleTextElement = ( export const resizeSingleTextElement = (
originalElements: PointerDownState["originalElements"], origElement: NonDeleted<ExcalidrawTextElement>,
element: NonDeleted<ExcalidrawTextElement>, element: NonDeleted<ExcalidrawTextElement>,
scene: Scene, scene: Scene,
transformHandleType: TransformHandleDirection, transformHandleType: TransformHandleDirection,
shouldResizeFromCenter: boolean, shouldResizeFromCenter: boolean,
pointerX: number, nextWidth: number,
pointerY: number, nextHeight: number,
) => { ) => {
const elementsMap = scene.getNonDeletedElementsMap(); const elementsMap = scene.getNonDeletedElementsMap();
const [x1, y1, x2, y2, cx, cy] = getElementAbsoluteCoords(
element,
elementsMap,
);
// rotation pointer with reverse angle
const [rotatedX, rotatedY] = pointRotateRads(
pointFrom(pointerX, pointerY),
pointFrom(cx, cy),
-element.angle as Radians,
);
let scaleX = 0;
let scaleY = 0;
if (transformHandleType !== "e" && transformHandleType !== "w") { const metricsWidth = element.width * (nextHeight / element.height);
if (transformHandleType.includes("e")) {
scaleX = (rotatedX - x1) / (x2 - x1); const metrics = measureFontSizeFromWidth(element, elementsMap, metricsWidth);
} if (metrics === null) {
if (transformHandleType.includes("w")) { return;
scaleX = (x2 - rotatedX) / (x2 - x1);
}
if (transformHandleType.includes("n")) {
scaleY = (y2 - rotatedY) / (y2 - y1);
}
if (transformHandleType.includes("s")) {
scaleY = (rotatedY - y1) / (y2 - y1);
}
} }
const scale = Math.max(scaleX, scaleY); if (transformHandleType.includes("n") || transformHandleType.includes("s")) {
const previousOrigin = pointFrom<GlobalPoint>(origElement.x, origElement.y);
if (scale > 0) { const newOrigin = getResizedOrigin(
const nextWidth = element.width * scale; previousOrigin,
const nextHeight = element.height * scale; origElement.width,
const metrics = measureFontSizeFromWidth(element, elementsMap, nextWidth); origElement.height,
if (metrics === null) { metricsWidth,
return; nextHeight,
} origElement.angle,
transformHandleType,
const startTopLeft = [x1, y1]; false,
const startBottomRight = [x2, y2]; shouldResizeFromCenter,
const startCenter = [cx, cy];
let newTopLeft = pointFrom<GlobalPoint>(x1, y1);
if (["n", "w", "nw"].includes(transformHandleType)) {
newTopLeft = pointFrom<GlobalPoint>(
startBottomRight[0] - Math.abs(nextWidth),
startBottomRight[1] - Math.abs(nextHeight),
);
}
if (transformHandleType === "ne") {
const bottomLeft = [startTopLeft[0], startBottomRight[1]];
newTopLeft = pointFrom<GlobalPoint>(
bottomLeft[0],
bottomLeft[1] - Math.abs(nextHeight),
);
}
if (transformHandleType === "sw") {
const topRight = [startBottomRight[0], startTopLeft[1]];
newTopLeft = pointFrom<GlobalPoint>(
topRight[0] - Math.abs(nextWidth),
topRight[1],
);
}
if (["s", "n"].includes(transformHandleType)) {
newTopLeft[0] = startCenter[0] - nextWidth / 2;
}
if (["e", "w"].includes(transformHandleType)) {
newTopLeft[1] = startCenter[1] - nextHeight / 2;
}
if (shouldResizeFromCenter) {
newTopLeft[0] = startCenter[0] - Math.abs(nextWidth) / 2;
newTopLeft[1] = startCenter[1] - Math.abs(nextHeight) / 2;
}
const angle = element.angle;
const rotatedTopLeft = pointRotateRads(
newTopLeft,
pointFrom(cx, cy),
angle,
); );
const newCenter = pointFrom<GlobalPoint>(
newTopLeft[0] + Math.abs(nextWidth) / 2,
newTopLeft[1] + Math.abs(nextHeight) / 2,
);
const rotatedNewCenter = pointRotateRads(
newCenter,
pointFrom(cx, cy),
angle,
);
newTopLeft = pointRotateRads(
rotatedTopLeft,
rotatedNewCenter,
-angle as Radians,
);
const [nextX, nextY] = newTopLeft;
scene.mutateElement(element, { scene.mutateElement(element, {
fontSize: metrics.size, fontSize: metrics.size,
width: nextWidth, width: metricsWidth,
height: nextHeight, height: nextHeight,
x: nextX, x: newOrigin.x,
y: nextY, y: newOrigin.y,
}); });
return;
} }
if (transformHandleType === "e" || transformHandleType === "w") { if (transformHandleType === "e" || transformHandleType === "w") {
const stateAtResizeStart = originalElements.get(element.id)!;
const [x1, y1, x2, y2] = getResizedElementAbsoluteCoords(
stateAtResizeStart,
stateAtResizeStart.width,
stateAtResizeStart.height,
true,
);
const startTopLeft = pointFrom<GlobalPoint>(x1, y1);
const startBottomRight = pointFrom<GlobalPoint>(x2, y2);
const startCenter = pointCenter(startTopLeft, startBottomRight);
const rotatedPointer = pointRotateRads(
pointFrom(pointerX, pointerY),
startCenter,
-stateAtResizeStart.angle as Radians,
);
const [esx1, , esx2] = getResizedElementAbsoluteCoords(
element,
element.width,
element.height,
true,
);
const boundsCurrentWidth = esx2 - esx1;
const atStartBoundsWidth = startBottomRight[0] - startTopLeft[0];
const minWidth = getMinTextElementWidth( const minWidth = getMinTextElementWidth(
getFontString({ getFontString({
fontSize: element.fontSize, fontSize: element.fontSize,
@@ -435,17 +324,7 @@ const resizeSingleTextElement = (
element.lineHeight, element.lineHeight,
); );
let scaleX = atStartBoundsWidth / boundsCurrentWidth; const newWidth = Math.max(minWidth, nextWidth);
if (transformHandleType.includes("e")) {
scaleX = (rotatedPointer[0] - startTopLeft[0]) / boundsCurrentWidth;
}
if (transformHandleType.includes("w")) {
scaleX = (startBottomRight[0] - rotatedPointer[0]) / boundsCurrentWidth;
}
const newWidth =
element.width * scaleX < minWidth ? minWidth : element.width * scaleX;
const text = wrapText( const text = wrapText(
element.originalText, element.originalText,
@@ -458,49 +337,27 @@ const resizeSingleTextElement = (
element.lineHeight, element.lineHeight,
); );
const eleNewHeight = metrics.height; const newHeight = metrics.height;
const [newBoundsX1, newBoundsY1, newBoundsX2, newBoundsY2] = const previousOrigin = pointFrom<GlobalPoint>(origElement.x, origElement.y);
getResizedElementAbsoluteCoords(
stateAtResizeStart,
newWidth,
eleNewHeight,
true,
);
const newBoundsWidth = newBoundsX2 - newBoundsX1;
const newBoundsHeight = newBoundsY2 - newBoundsY1;
let newTopLeft = [...startTopLeft] as [number, number]; const newOrigin = getResizedOrigin(
if (["n", "w", "nw"].includes(transformHandleType)) { previousOrigin,
newTopLeft = [ origElement.width,
startBottomRight[0] - Math.abs(newBoundsWidth), origElement.height,
startTopLeft[1], newWidth,
]; newHeight,
} element.angle,
transformHandleType,
// adjust topLeft to new rotation point false,
const angle = stateAtResizeStart.angle; shouldResizeFromCenter,
const rotatedTopLeft = pointRotateRads(
pointFromPair(newTopLeft),
startCenter,
angle,
);
const newCenter = pointFrom(
newTopLeft[0] + Math.abs(newBoundsWidth) / 2,
newTopLeft[1] + Math.abs(newBoundsHeight) / 2,
);
const rotatedNewCenter = pointRotateRads(newCenter, startCenter, angle);
newTopLeft = pointRotateRads(
rotatedTopLeft,
rotatedNewCenter,
-angle as Radians,
); );
const resizedElement: Partial<ExcalidrawTextElement> = { const resizedElement: Partial<ExcalidrawTextElement> = {
width: Math.abs(newWidth), width: Math.abs(newWidth),
height: Math.abs(metrics.height), height: Math.abs(metrics.height),
x: newTopLeft[0], x: newOrigin.x,
y: newTopLeft[1], y: newOrigin.y,
text, text,
autoResize: false, autoResize: false,
}; };
@@ -821,6 +678,18 @@ export const resizeSingleElement = (
shouldInformMutation?: boolean; shouldInformMutation?: boolean;
} = {}, } = {},
) => { ) => {
if (isTextElement(latestElement) && isTextElement(origElement)) {
return resizeSingleTextElement(
origElement,
latestElement,
scene,
handleDirection,
shouldResizeFromCenter,
nextWidth,
nextHeight,
);
}
let boundTextFont: { fontSize?: number } = {}; let boundTextFont: { fontSize?: number } = {};
const elementsMap = scene.getNonDeletedElementsMap(); const elementsMap = scene.getNonDeletedElementsMap();
const boundTextElement = getBoundTextElement(latestElement, elementsMap); const boundTextElement = getBoundTextElement(latestElement, elementsMap);
@@ -1518,11 +1387,7 @@ export const resizeMultipleElements = (
} of elementsAndUpdates) { } of elementsAndUpdates) {
const { width, height, angle } = update; const { width, height, angle } = update;
scene.mutateElement(element, update, { scene.mutateElement(element, update);
informMutation: true,
// needed for the fixed binding point udpate to take effect
isDragging: true,
});
updateBoundElements(element, scene, { updateBoundElements(element, scene, {
simultaneouslyUpdated: elementsToUpdate, simultaneouslyUpdated: elementsToUpdate,
@@ -1,26 +1,66 @@
import { simplify } from "points-on-curve"; import { simplify } from "points-on-curve";
import { pointFrom, pointDistance, type LocalPoint } from "@excalidraw/math"; import {
import { ROUGHNESS, isTransparent, assertNever } from "@excalidraw/common"; type GeometricShape,
getClosedCurveShape,
getCurveShape,
getEllipseShape,
getFreedrawShape,
getPolygonShape,
} from "@excalidraw/utils/shape";
import {
pointFrom,
pointDistance,
type LocalPoint,
pointRotateRads,
} from "@excalidraw/math";
import {
ROUGHNESS,
isTransparent,
assertNever,
COLOR_PALETTE,
LINE_POLYGON_POINT_MERGE_DISTANCE,
isTestEnv,
} from "@excalidraw/common";
import { RoughGenerator } from "roughjs/bin/generator";
import type { GlobalPoint } from "@excalidraw/math";
import type { Mutable } from "@excalidraw/common/utility-types"; import type { Mutable } from "@excalidraw/common/utility-types";
import type { EmbedsValidationStatus } from "@excalidraw/excalidraw/types"; import type {
import type { ElementShapes } from "@excalidraw/excalidraw/scene/types"; AppState,
EmbedsValidationStatus,
} from "@excalidraw/excalidraw/types";
import type {
ElementShape,
ElementShapes,
} from "@excalidraw/excalidraw/scene/types";
import { elementWithCanvasCache } from "./renderElement";
import { import {
canBecomePolygon,
isElbowArrow, isElbowArrow,
isEmbeddableElement, isEmbeddableElement,
isIframeElement, isIframeElement,
isIframeLikeElement, isIframeLikeElement,
isLinearElement, isLinearElement,
} from "./typeChecks"; } from "./typeChecks";
import { getCornerRadius, isPathALoop } from "./shapes"; import { getCornerRadius, isPathALoop } from "./utils";
import { headingForPointIsHorizontal } from "./heading"; import { headingForPointIsHorizontal } from "./heading";
import { canChangeRoundness } from "./comparisons"; import { canChangeRoundness } from "./comparisons";
import { generateFreeDrawShape } from "./renderElement"; import { generateFreeDrawShape } from "./renderElement";
import { getArrowheadPoints, getDiamondPoints } from "./bounds"; import {
getArrowheadPoints,
getCenterForBounds,
getDiamondPoints,
getElementAbsoluteCoords,
} from "./bounds";
import { shouldTestInside } from "./collision";
import type { import type {
ExcalidrawElement, ExcalidrawElement,
@@ -28,12 +68,89 @@ import type {
ExcalidrawSelectionElement, ExcalidrawSelectionElement,
ExcalidrawLinearElement, ExcalidrawLinearElement,
Arrowhead, Arrowhead,
ExcalidrawFreeDrawElement,
ElementsMap,
ExcalidrawLineElement,
} from "./types"; } from "./types";
import type { Drawable, Options } from "roughjs/bin/core"; import type { Drawable, Options } from "roughjs/bin/core";
import type { RoughGenerator } from "roughjs/bin/generator";
import type { Point as RoughPoint } from "roughjs/bin/geometry"; import type { Point as RoughPoint } from "roughjs/bin/geometry";
export class ShapeCache {
private static rg = new RoughGenerator();
private static cache = new WeakMap<ExcalidrawElement, ElementShape>();
/**
* Retrieves shape from cache if available. Use this only if shape
* is optional and you have a fallback in case it's not cached.
*/
public static get = <T extends ExcalidrawElement>(element: T) => {
return ShapeCache.cache.get(
element,
) as T["type"] extends keyof ElementShapes
? ElementShapes[T["type"]] | undefined
: ElementShape | undefined;
};
public static set = <T extends ExcalidrawElement>(
element: T,
shape: T["type"] extends keyof ElementShapes
? ElementShapes[T["type"]]
: Drawable,
) => ShapeCache.cache.set(element, shape);
public static delete = (element: ExcalidrawElement) =>
ShapeCache.cache.delete(element);
public static destroy = () => {
ShapeCache.cache = new WeakMap();
};
/**
* Generates & caches shape for element if not already cached, otherwise
* returns cached shape.
*/
public static generateElementShape = <
T extends Exclude<ExcalidrawElement, ExcalidrawSelectionElement>,
>(
element: T,
renderConfig: {
isExporting: boolean;
canvasBackgroundColor: AppState["viewBackgroundColor"];
embedsValidationStatus: EmbedsValidationStatus;
} | null,
) => {
// when exporting, always regenerated to guarantee the latest shape
const cachedShape = renderConfig?.isExporting
? undefined
: ShapeCache.get(element);
// `null` indicates no rc shape applicable for this element type,
// but it's considered a valid cache value (= do not regenerate)
if (cachedShape !== undefined) {
return cachedShape;
}
elementWithCanvasCache.delete(element);
const shape = generateElementShape(
element,
ShapeCache.rg,
renderConfig || {
isExporting: false,
canvasBackgroundColor: COLOR_PALETTE.white,
embedsValidationStatus: null,
},
) as T["type"] extends keyof ElementShapes
? ElementShapes[T["type"]]
: Drawable | null;
ShapeCache.cache.set(element, shape);
return shape;
};
}
const getDashArrayDashed = (strokeWidth: number) => [8, 8 + strokeWidth]; const getDashArrayDashed = (strokeWidth: number) => [8, 8 + strokeWidth];
const getDashArrayDotted = (strokeWidth: number) => [1.5, 6 + strokeWidth]; const getDashArrayDotted = (strokeWidth: number) => [1.5, 6 + strokeWidth];
@@ -66,7 +183,7 @@ export const generateRoughOptions = (
continuousPath = false, continuousPath = false,
): Options => { ): Options => {
const options: Options = { const options: Options = {
seed: element.seed, seed: isTestEnv() ? 1 : element.seed,
strokeLineDash: strokeLineDash:
element.strokeStyle === "dashed" element.strokeStyle === "dashed"
? getDashArrayDashed(element.strokeWidth) ? getDashArrayDashed(element.strokeWidth)
@@ -303,6 +420,182 @@ const getArrowheadShapes = (
} }
}; };
export const generateLinearCollisionShape = (
element: ExcalidrawLinearElement | ExcalidrawFreeDrawElement,
) => {
const generator = new RoughGenerator();
const options: Options = {
seed: element.seed,
disableMultiStroke: true,
disableMultiStrokeFill: true,
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],
),
);
switch (element.type) {
case "line":
case "arrow": {
// points array can be empty in the beginning, so it is important to add
// initial position to it
const points = element.points.length
? element.points
: [pointFrom<LocalPoint>(0, 0)];
if (isElbowArrow(element)) {
return generator.path(generateElbowArrowShape(points, 16), options)
.sets[0].ops;
} else if (!element.roundness) {
return points.map((point, idx) => {
const p = pointRotateRads(
pointFrom<GlobalPoint>(element.x + point[0], element.y + point[1]),
center,
element.angle,
);
return {
op: idx === 0 ? "move" : "lineTo",
data: pointFrom<LocalPoint>(p[0] - element.x, p[1] - element.y),
};
});
}
return generator
.curve(points as unknown as RoughPoint[], options)
.sets[0].ops.slice(0, element.points.length)
.map((op, i) => {
if (i === 0) {
const p = pointRotateRads<GlobalPoint>(
pointFrom<GlobalPoint>(
element.x + op.data[0],
element.y + op.data[1],
),
center,
element.angle,
);
return {
op: "move",
data: pointFrom<LocalPoint>(p[0] - element.x, p[1] - element.y),
};
}
return {
op: "bcurveTo",
data: [
pointRotateRads(
pointFrom<GlobalPoint>(
element.x + op.data[0],
element.y + op.data[1],
),
center,
element.angle,
),
pointRotateRads(
pointFrom<GlobalPoint>(
element.x + op.data[2],
element.y + op.data[3],
),
center,
element.angle,
),
pointRotateRads(
pointFrom<GlobalPoint>(
element.x + op.data[4],
element.y + op.data[5],
),
center,
element.angle,
),
]
.map((p) =>
pointFrom<LocalPoint>(p[0] - element.x, p[1] - element.y),
)
.flat(),
};
});
}
case "freedraw": {
if (element.points.length < 2) {
return [];
}
const simplifiedPoints = simplify(
element.points as Mutable<LocalPoint[]>,
0.75,
);
return generator
.curve(simplifiedPoints as [number, number][], options)
.sets[0].ops.slice(0, element.points.length)
.map((op, i) => {
if (i === 0) {
const p = pointRotateRads<GlobalPoint>(
pointFrom<GlobalPoint>(
element.x + op.data[0],
element.y + op.data[1],
),
center,
element.angle,
);
return {
op: "move",
data: pointFrom<LocalPoint>(p[0] - element.x, p[1] - element.y),
};
}
return {
op: "bcurveTo",
data: [
pointRotateRads(
pointFrom<GlobalPoint>(
element.x + op.data[0],
element.y + op.data[1],
),
center,
element.angle,
),
pointRotateRads(
pointFrom<GlobalPoint>(
element.x + op.data[2],
element.y + op.data[3],
),
center,
element.angle,
),
pointRotateRads(
pointFrom<GlobalPoint>(
element.x + op.data[4],
element.y + op.data[5],
),
center,
element.angle,
),
]
.map((p) =>
pointFrom<LocalPoint>(p[0] - element.x, p[1] - element.y),
)
.flat(),
};
});
}
}
};
/** /**
* Generates the roughjs shape for given element. * Generates the roughjs shape for given element.
* *
@@ -310,7 +603,7 @@ const getArrowheadShapes = (
* *
* @private * @private
*/ */
export const _generateElementShape = ( const generateElementShape = (
element: Exclude<NonDeletedExcalidrawElement, ExcalidrawSelectionElement>, element: Exclude<NonDeletedExcalidrawElement, ExcalidrawSelectionElement>,
generator: RoughGenerator, generator: RoughGenerator,
{ {
@@ -611,3 +904,103 @@ const generateElbowArrowShape = (
return d.join(" "); return d.join(" ");
}; };
/**
* get the pure geometric shape of an excalidraw elementw
* which is then used for hit detection
*/
export const getElementShape = <Point extends GlobalPoint | LocalPoint>(
element: ExcalidrawElement,
elementsMap: ElementsMap,
): GeometricShape<Point> => {
switch (element.type) {
case "rectangle":
case "diamond":
case "frame":
case "magicframe":
case "embeddable":
case "image":
case "iframe":
case "text":
case "selection":
return getPolygonShape(element);
case "arrow":
case "line": {
const roughShape =
ShapeCache.get(element)?.[0] ??
ShapeCache.generateElementShape(element, null)[0];
const [, , , , cx, cy] = getElementAbsoluteCoords(element, elementsMap);
return shouldTestInside(element)
? getClosedCurveShape<Point>(
element,
roughShape,
pointFrom<Point>(element.x, element.y),
element.angle,
pointFrom(cx, cy),
)
: getCurveShape<Point>(
roughShape,
pointFrom<Point>(element.x, element.y),
element.angle,
pointFrom(cx, cy),
);
}
case "ellipse":
return getEllipseShape(element);
case "freedraw": {
const [, , , , cx, cy] = getElementAbsoluteCoords(element, elementsMap);
return getFreedrawShape(
element,
pointFrom(cx, cy),
shouldTestInside(element),
);
}
}
};
export const toggleLinePolygonState = (
element: ExcalidrawLineElement,
nextPolygonState: boolean,
): {
polygon: ExcalidrawLineElement["polygon"];
points: ExcalidrawLineElement["points"];
} | null => {
const updatedPoints = [...element.points];
if (nextPolygonState) {
if (!canBecomePolygon(element.points)) {
return null;
}
const firstPoint = updatedPoints[0];
const lastPoint = updatedPoints[updatedPoints.length - 1];
const distance = Math.hypot(
firstPoint[0] - lastPoint[0],
firstPoint[1] - lastPoint[1],
);
if (
distance > LINE_POLYGON_POINT_MERGE_DISTANCE ||
updatedPoints.length < 4
) {
updatedPoints.push(pointFrom(firstPoint[0], firstPoint[1]));
} else {
updatedPoints[updatedPoints.length - 1] = pointFrom(
firstPoint[0],
firstPoint[1],
);
}
}
// TODO: satisfies ElementUpdate<ExcalidrawLineElement>
const ret = {
polygon: nextPolygonState,
points: updatedPoints,
};
return ret;
};
-398
View File
@@ -1,398 +0,0 @@
import {
DEFAULT_ADAPTIVE_RADIUS,
DEFAULT_PROPORTIONAL_RADIUS,
LINE_CONFIRM_THRESHOLD,
ROUNDNESS,
invariant,
elementCenterPoint,
} from "@excalidraw/common";
import {
isPoint,
pointFrom,
pointDistance,
pointFromPair,
pointRotateRads,
pointsEqual,
type GlobalPoint,
type LocalPoint,
} from "@excalidraw/math";
import {
getClosedCurveShape,
getCurvePathOps,
getCurveShape,
getEllipseShape,
getFreedrawShape,
getPolygonShape,
type GeometricShape,
} from "@excalidraw/utils/shape";
import type { NormalizedZoomValue, Zoom } from "@excalidraw/excalidraw/types";
import { shouldTestInside } from "./collision";
import { LinearElementEditor } from "./linearElementEditor";
import { getBoundTextElement } from "./textElement";
import { ShapeCache } from "./ShapeCache";
import { getElementAbsoluteCoords, type Bounds } from "./bounds";
import type {
ElementsMap,
ExcalidrawElement,
ExcalidrawLinearElement,
NonDeleted,
} from "./types";
/**
* get the pure geometric shape of an excalidraw elementw
* which is then used for hit detection
*/
export const getElementShape = <Point extends GlobalPoint | LocalPoint>(
element: ExcalidrawElement,
elementsMap: ElementsMap,
): GeometricShape<Point> => {
switch (element.type) {
case "rectangle":
case "diamond":
case "frame":
case "magicframe":
case "embeddable":
case "image":
case "iframe":
case "text":
case "selection":
return getPolygonShape(element);
case "arrow":
case "line": {
const roughShape =
ShapeCache.get(element)?.[0] ??
ShapeCache.generateElementShape(element, null)[0];
const [, , , , cx, cy] = getElementAbsoluteCoords(element, elementsMap);
return shouldTestInside(element)
? getClosedCurveShape<Point>(
element,
roughShape,
pointFrom<Point>(element.x, element.y),
element.angle,
pointFrom(cx, cy),
)
: getCurveShape<Point>(
roughShape,
pointFrom<Point>(element.x, element.y),
element.angle,
pointFrom(cx, cy),
);
}
case "ellipse":
return getEllipseShape(element);
case "freedraw": {
const [, , , , cx, cy] = getElementAbsoluteCoords(element, elementsMap);
return getFreedrawShape(
element,
pointFrom(cx, cy),
shouldTestInside(element),
);
}
}
};
export const getBoundTextShape = <Point extends GlobalPoint | LocalPoint>(
element: ExcalidrawElement,
elementsMap: ElementsMap,
): GeometricShape<Point> | null => {
const boundTextElement = getBoundTextElement(element, elementsMap);
if (boundTextElement) {
if (element.type === "arrow") {
return getElementShape(
{
...boundTextElement,
// arrow's bound text accurate position is not stored in the element's property
// but rather calculated and returned from the following static method
...LinearElementEditor.getBoundTextElementPosition(
element,
boundTextElement,
elementsMap,
),
},
elementsMap,
);
}
return getElementShape(boundTextElement, elementsMap);
}
return null;
};
export const getControlPointsForBezierCurve = <
P extends GlobalPoint | LocalPoint,
>(
element: NonDeleted<ExcalidrawLinearElement>,
endPoint: P,
) => {
const shape = ShapeCache.generateElementShape(element, null);
if (!shape) {
return null;
}
const ops = getCurvePathOps(shape[0]);
let currentP = pointFrom<P>(0, 0);
let index = 0;
let minDistance = Infinity;
let controlPoints: P[] | null = null;
while (index < ops.length) {
const { op, data } = ops[index];
if (op === "move") {
invariant(
isPoint(data),
"The returned ops is not compatible with a point",
);
currentP = pointFromPair(data);
}
if (op === "bcurveTo") {
const p0 = currentP;
const p1 = pointFrom<P>(data[0], data[1]);
const p2 = pointFrom<P>(data[2], data[3]);
const p3 = pointFrom<P>(data[4], data[5]);
const distance = pointDistance(p3, endPoint);
if (distance < minDistance) {
minDistance = distance;
controlPoints = [p0, p1, p2, p3];
}
currentP = p3;
}
index++;
}
return controlPoints;
};
export const getBezierXY = <P extends GlobalPoint | LocalPoint>(
p0: P,
p1: P,
p2: P,
p3: P,
t: number,
): P => {
const equation = (t: number, idx: number) =>
Math.pow(1 - t, 3) * p3[idx] +
3 * t * Math.pow(1 - t, 2) * p2[idx] +
3 * Math.pow(t, 2) * (1 - t) * p1[idx] +
p0[idx] * Math.pow(t, 3);
const tx = equation(t, 0);
const ty = equation(t, 1);
return pointFrom(tx, ty);
};
const getPointsInBezierCurve = <P extends GlobalPoint | LocalPoint>(
element: NonDeleted<ExcalidrawLinearElement>,
endPoint: P,
) => {
const controlPoints: P[] = getControlPointsForBezierCurve(element, endPoint)!;
if (!controlPoints) {
return [];
}
const pointsOnCurve: P[] = [];
let t = 1;
// Take 20 points on curve for better accuracy
while (t > 0) {
const p = getBezierXY(
controlPoints[0],
controlPoints[1],
controlPoints[2],
controlPoints[3],
t,
);
pointsOnCurve.push(pointFrom(p[0], p[1]));
t -= 0.05;
}
if (pointsOnCurve.length) {
if (pointsEqual(pointsOnCurve.at(-1)!, endPoint)) {
pointsOnCurve.push(pointFrom(endPoint[0], endPoint[1]));
}
}
return pointsOnCurve;
};
const getBezierCurveArcLengths = <P extends GlobalPoint | LocalPoint>(
element: NonDeleted<ExcalidrawLinearElement>,
endPoint: P,
) => {
const arcLengths: number[] = [];
arcLengths[0] = 0;
const points = getPointsInBezierCurve(element, endPoint);
let index = 0;
let distance = 0;
while (index < points.length - 1) {
const segmentDistance = pointDistance(points[index], points[index + 1]);
distance += segmentDistance;
arcLengths.push(distance);
index++;
}
return arcLengths;
};
export const getBezierCurveLength = <P extends GlobalPoint | LocalPoint>(
element: NonDeleted<ExcalidrawLinearElement>,
endPoint: P,
) => {
const arcLengths = getBezierCurveArcLengths(element, endPoint);
return arcLengths.at(-1) as number;
};
// This maps interval to actual interval t on the curve so that when t = 0.5, its actually the point at 50% of the length
export const mapIntervalToBezierT = <P extends GlobalPoint | LocalPoint>(
element: NonDeleted<ExcalidrawLinearElement>,
endPoint: P,
interval: number, // The interval between 0 to 1 for which you want to find the point on the curve,
) => {
const arcLengths = getBezierCurveArcLengths(element, endPoint);
const pointsCount = arcLengths.length - 1;
const curveLength = arcLengths.at(-1) as number;
const targetLength = interval * curveLength;
let low = 0;
let high = pointsCount;
let index = 0;
// Doing a binary search to find the largest length that is less than the target length
while (low < high) {
index = Math.floor(low + (high - low) / 2);
if (arcLengths[index] < targetLength) {
low = index + 1;
} else {
high = index;
}
}
if (arcLengths[index] > targetLength) {
index--;
}
if (arcLengths[index] === targetLength) {
return index / pointsCount;
}
return (
1 -
(index +
(targetLength - arcLengths[index]) /
(arcLengths[index + 1] - arcLengths[index])) /
pointsCount
);
};
/**
* Get the axis-aligned bounding box for a given element
*/
export const aabbForElement = (
element: Readonly<ExcalidrawElement>,
offset?: [number, number, number, number],
) => {
const bbox = {
minX: element.x,
minY: element.y,
maxX: element.x + element.width,
maxY: element.y + element.height,
midX: element.x + element.width / 2,
midY: element.y + element.height / 2,
};
const center = elementCenterPoint(element);
const [topLeftX, topLeftY] = pointRotateRads(
pointFrom(bbox.minX, bbox.minY),
center,
element.angle,
);
const [topRightX, topRightY] = pointRotateRads(
pointFrom(bbox.maxX, bbox.minY),
center,
element.angle,
);
const [bottomRightX, bottomRightY] = pointRotateRads(
pointFrom(bbox.maxX, bbox.maxY),
center,
element.angle,
);
const [bottomLeftX, bottomLeftY] = pointRotateRads(
pointFrom(bbox.minX, bbox.maxY),
center,
element.angle,
);
const bounds = [
Math.min(topLeftX, topRightX, bottomRightX, bottomLeftX),
Math.min(topLeftY, topRightY, bottomRightY, bottomLeftY),
Math.max(topLeftX, topRightX, bottomRightX, bottomLeftX),
Math.max(topLeftY, topRightY, bottomRightY, bottomLeftY),
] as Bounds;
if (offset) {
const [topOffset, rightOffset, downOffset, leftOffset] = offset;
return [
bounds[0] - leftOffset,
bounds[1] - topOffset,
bounds[2] + rightOffset,
bounds[3] + downOffset,
] as Bounds;
}
return bounds;
};
export const pointInsideBounds = <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 aabbsOverlapping = (a: Bounds, b: Bounds) =>
pointInsideBounds(pointFrom(a[0], a[1]), b) ||
pointInsideBounds(pointFrom(a[2], a[1]), b) ||
pointInsideBounds(pointFrom(a[2], a[3]), b) ||
pointInsideBounds(pointFrom(a[0], a[3]), b) ||
pointInsideBounds(pointFrom(b[0], b[1]), a) ||
pointInsideBounds(pointFrom(b[2], b[1]), a) ||
pointInsideBounds(pointFrom(b[2], b[3]), a) ||
pointInsideBounds(pointFrom(b[0], b[3]), a);
export const getCornerRadius = (x: number, element: ExcalidrawElement) => {
if (
element.roundness?.type === ROUNDNESS.PROPORTIONAL_RADIUS ||
element.roundness?.type === ROUNDNESS.LEGACY
) {
return x * DEFAULT_PROPORTIONAL_RADIUS;
}
if (element.roundness?.type === ROUNDNESS.ADAPTIVE_RADIUS) {
const fixedRadiusSize = element.roundness?.value ?? DEFAULT_ADAPTIVE_RADIUS;
const CUTOFF_SIZE = fixedRadiusSize / DEFAULT_PROPORTIONAL_RADIUS;
if (x <= CUTOFF_SIZE) {
return x * DEFAULT_PROPORTIONAL_RADIUS;
}
return fixedRadiusSize;
}
return 0;
};
// Checks if the first and last point are close enough
// to be considered a loop
export const isPathALoop = (
points: ExcalidrawLinearElement["points"],
/** supply if you want the loop detection to account for current zoom */
zoomValue: Zoom["value"] = 1 as NormalizedZoomValue,
): boolean => {
if (points.length >= 3) {
const [first, last] = [points[0], points[points.length - 1]];
const distance = pointDistance(first, last);
// Adjusting LINE_CONFIRM_THRESHOLD to current zoom so that when zoomed in
// really close we make the threshold smaller, and vice versa.
return distance <= LINE_CONFIRM_THRESHOLD / zoomValue;
}
return false;
};
+58 -5
View File
@@ -2,14 +2,28 @@ import {
SHIFT_LOCKING_ANGLE, SHIFT_LOCKING_ANGLE,
viewportCoordsToSceneCoords, viewportCoordsToSceneCoords,
} from "@excalidraw/common"; } from "@excalidraw/common";
import {
normalizeRadians,
radiansBetweenAngles,
radiansDifference,
type Radians,
} from "@excalidraw/math";
import { pointsEqual } from "@excalidraw/math";
import type { AppState, Offsets, Zoom } from "@excalidraw/excalidraw/types"; import type { AppState, Offsets, Zoom } from "@excalidraw/excalidraw/types";
import { getCommonBounds, getElementBounds } from "./bounds"; import { getCommonBounds, getElementBounds } from "./bounds";
import { isFreeDrawElement, isLinearElement } from "./typeChecks"; import {
isArrowElement,
isFreeDrawElement,
isLinearElement,
} from "./typeChecks";
import type { ElementsMap, ExcalidrawElement } from "./types"; import type { ElementsMap, ExcalidrawElement } from "./types";
export const INVISIBLY_SMALL_ELEMENT_SIZE = 0.1;
// TODO: remove invisible elements consistently actions, so that invisible elements are not recorded by the store, exported, broadcasted or persisted // TODO: remove invisible elements consistently actions, so that invisible elements are not recorded by the store, exported, broadcasted or persisted
// - perhaps could be as part of a standalone 'cleanup' action, in addition to 'finalize' // - perhaps could be as part of a standalone 'cleanup' action, in addition to 'finalize'
// - could also be part of `_clearElements` // - could also be part of `_clearElements`
@@ -17,8 +31,18 @@ export const isInvisiblySmallElement = (
element: ExcalidrawElement, element: ExcalidrawElement,
): boolean => { ): boolean => {
if (isLinearElement(element) || isFreeDrawElement(element)) { if (isLinearElement(element) || isFreeDrawElement(element)) {
return element.points.length < 2; return (
element.points.length < 2 ||
(element.points.length === 2 &&
isArrowElement(element) &&
pointsEqual(
element.points[0],
element.points[element.points.length - 1],
INVISIBLY_SMALL_ELEMENT_SIZE,
))
);
} }
return element.width === 0 && element.height === 0; return element.width === 0 && element.height === 0;
}; };
@@ -134,13 +158,42 @@ export const getLockedLinearCursorAlignSize = (
originY: number, originY: number,
x: number, x: number,
y: number, y: number,
customAngle?: number,
) => { ) => {
let width = x - originX; let width = x - originX;
let height = y - originY; let height = y - originY;
const lockedAngle = const angle = Math.atan2(height, width) as Radians;
Math.round(Math.atan(height / width) / SHIFT_LOCKING_ANGLE) * let lockedAngle = (Math.round(angle / SHIFT_LOCKING_ANGLE) *
SHIFT_LOCKING_ANGLE; SHIFT_LOCKING_ANGLE) as Radians;
if (customAngle) {
// If custom angle is provided, we check if the angle is close to the
// custom angle, snap to that if close engough, otherwise snap to the
// higher or lower angle depending on the current angle vs custom angle.
const lower = (Math.floor(customAngle / SHIFT_LOCKING_ANGLE) *
SHIFT_LOCKING_ANGLE) as Radians;
if (
radiansBetweenAngles(
angle,
lower,
(lower + SHIFT_LOCKING_ANGLE) as Radians,
)
) {
if (
radiansDifference(angle, customAngle as Radians) <
SHIFT_LOCKING_ANGLE / 6
) {
lockedAngle = customAngle as Radians;
} else if (
normalizeRadians(angle) > normalizeRadians(customAngle as Radians)
) {
lockedAngle = (lower + SHIFT_LOCKING_ANGLE) as Radians;
} else {
lockedAngle = lower;
}
}
}
if (lockedAngle === 0) { if (lockedAngle === 0) {
height = 0; height = 0;
+116 -51
View File
@@ -19,9 +19,21 @@ import { newElementWith } from "./mutateElement";
import { ElementsDelta, AppStateDelta, Delta } from "./delta"; import { ElementsDelta, AppStateDelta, Delta } from "./delta";
import { hashElementsVersion, hashString } from "./index"; import {
syncInvalidIndicesImmutable,
hashElementsVersion,
hashString,
isInitializedImageElement,
isImageElement,
} from "./index";
import type { OrderedExcalidrawElement, SceneElementsMap } from "./types"; import type { ApplyToOptions } from "./delta";
import type {
ExcalidrawElement,
OrderedExcalidrawElement,
SceneElementsMap,
} from "./types";
export const CaptureUpdateAction = { export const CaptureUpdateAction = {
/** /**
@@ -64,8 +76,9 @@ type MicroActionsQueue = (() => void)[];
* Store which captures the observed changes and emits them as `StoreIncrement` events. * Store which captures the observed changes and emits them as `StoreIncrement` events.
*/ */
export class Store { export class Store {
// internally used by history // for internal use by history
public readonly onDurableIncrementEmitter = new Emitter<[DurableIncrement]>(); public readonly onDurableIncrementEmitter = new Emitter<[DurableIncrement]>();
// for public use as part of onIncrement API
public readonly onStoreIncrementEmitter = new Emitter< public readonly onStoreIncrementEmitter = new Emitter<
[DurableIncrement | EphemeralIncrement] [DurableIncrement | EphemeralIncrement]
>(); >();
@@ -105,7 +118,7 @@ export class Store {
params: params:
| { | {
action: CaptureUpdateActionType; action: CaptureUpdateActionType;
elements: SceneElementsMap | undefined; elements: readonly ExcalidrawElement[] | undefined;
appState: AppState | ObservedAppState | undefined; appState: AppState | ObservedAppState | undefined;
} }
| { | {
@@ -129,13 +142,21 @@ export class Store {
} else { } else {
// immediately create an immutable change of the scheduled updates, // immediately create an immutable change of the scheduled updates,
// compared to the current state, so that they won't mutate later on during batching // compared to the current state, so that they won't mutate later on during batching
// also, we have to compare against the current state,
// as comparing against the snapshot might include yet uncomitted changes (i.e. async freedraw / text / image, etc.)
const currentSnapshot = StoreSnapshot.create( const currentSnapshot = StoreSnapshot.create(
this.app.scene.getElementsMapIncludingDeleted(), this.app.scene.getElementsMapIncludingDeleted(),
this.app.state, this.app.state,
); );
const scheduledSnapshot = currentSnapshot.maybeClone( const scheduledSnapshot = currentSnapshot.maybeClone(
action, action,
params.elements, // let's sync invalid indices first, so that we could detect this change
// also have the synced elements immutable, so that we don't mutate elements,
// that are already in the scene, otherwise we wouldn't see any change
params.elements
? syncInvalidIndicesImmutable(params.elements)
: undefined,
params.appState, params.appState,
); );
@@ -213,22 +234,12 @@ export class Store {
// using the same instance, since in history we have a check against `HistoryEntry`, so that we don't re-record the same delta again // using the same instance, since in history we have a check against `HistoryEntry`, so that we don't re-record the same delta again
storeDelta = delta; storeDelta = delta;
} else { } else {
// calculate the deltas based on the previous and next snapshot storeDelta = StoreDelta.calculate(prevSnapshot, snapshot);
const elementsDelta = snapshot.metadata.didElementsChange
? ElementsDelta.calculate(prevSnapshot.elements, snapshot.elements)
: ElementsDelta.empty();
const appStateDelta = snapshot.metadata.didAppStateChange
? AppStateDelta.calculate(prevSnapshot.appState, snapshot.appState)
: AppStateDelta.empty();
storeDelta = StoreDelta.create(elementsDelta, appStateDelta);
} }
if (!storeDelta.isEmpty()) { if (!storeDelta.isEmpty()) {
const increment = new DurableIncrement(storeChange, storeDelta); const increment = new DurableIncrement(storeChange, storeDelta);
// Notify listeners with the increment
this.onDurableIncrementEmitter.trigger(increment); this.onDurableIncrementEmitter.trigger(increment);
this.onStoreIncrementEmitter.trigger(increment); this.onStoreIncrementEmitter.trigger(increment);
} }
@@ -505,6 +516,24 @@ export class StoreDelta {
return new this(opts.id, elements, appState); return new this(opts.id, elements, appState);
} }
/**
* Calculate the delta between the previous and next snapshot.
*/
public static calculate(
prevSnapshot: StoreSnapshot,
nextSnapshot: StoreSnapshot,
) {
const elementsDelta = nextSnapshot.metadata.didElementsChange
? ElementsDelta.calculate(prevSnapshot.elements, nextSnapshot.elements)
: ElementsDelta.empty();
const appStateDelta = nextSnapshot.metadata.didAppStateChange
? AppStateDelta.calculate(prevSnapshot.appState, nextSnapshot.appState)
: AppStateDelta.empty();
return this.create(elementsDelta, appStateDelta);
}
/** /**
* Restore a store delta instance from a DTO. * Restore a store delta instance from a DTO.
*/ */
@@ -523,38 +552,35 @@ export class StoreDelta {
public static load({ public static load({
id, id,
elements: { added, removed, updated }, elements: { added, removed, updated },
appState: { delta: appStateDelta },
}: DTO<StoreDelta>) { }: DTO<StoreDelta>) {
const elements = ElementsDelta.create(added, removed, updated, { const elements = ElementsDelta.create(added, removed, updated);
shouldRedistribute: false, const appState = AppStateDelta.create(appStateDelta);
});
return new this(id, elements, AppStateDelta.empty()); return new this(id, elements, appState);
}
/**
* Squash the passed deltas into the aggregated delta instance.
*/
public static squash(...deltas: StoreDelta[]) {
const aggregatedDelta = StoreDelta.empty();
for (const delta of deltas) {
aggregatedDelta.elements.squash(delta.elements);
aggregatedDelta.appState.squash(delta.appState);
}
return aggregatedDelta;
} }
/** /**
* Inverse store delta, creates new instance of `StoreDelta`. * Inverse store delta, creates new instance of `StoreDelta`.
*/ */
public static inverse(delta: StoreDelta): StoreDelta { public static inverse(delta: StoreDelta) {
return this.create(delta.elements.inverse(), delta.appState.inverse()); return this.create(delta.elements.inverse(), delta.appState.inverse());
} }
/**
* Apply latest (remote) changes to the delta, creates new instance of `StoreDelta`.
*/
public static applyLatestChanges(
delta: StoreDelta,
elements: SceneElementsMap,
modifierOptions: "deleted" | "inserted",
): StoreDelta {
return this.create(
delta.elements.applyLatestChanges(elements, modifierOptions),
delta.appState,
{
id: delta.id,
},
);
}
/** /**
* Apply the delta to the passed elements and appState, does not modify the snapshot. * Apply the delta to the passed elements and appState, does not modify the snapshot.
*/ */
@@ -562,11 +588,12 @@ export class StoreDelta {
delta: StoreDelta, delta: StoreDelta,
elements: SceneElementsMap, elements: SceneElementsMap,
appState: AppState, appState: AppState,
prevSnapshot: StoreSnapshot = StoreSnapshot.empty(), options?: ApplyToOptions,
): [SceneElementsMap, AppState, boolean] { ): [SceneElementsMap, AppState, boolean] {
const [nextElements, elementsContainVisibleChange] = delta.elements.applyTo( const [nextElements, elementsContainVisibleChange] = delta.elements.applyTo(
elements, elements,
prevSnapshot.elements, StoreSnapshot.empty().elements,
options,
); );
const [nextAppState, appStateContainsVisibleChange] = const [nextAppState, appStateContainsVisibleChange] =
@@ -578,6 +605,32 @@ export class StoreDelta {
return [nextElements, nextAppState, appliedVisibleChanges]; return [nextElements, nextAppState, appliedVisibleChanges];
} }
/**
* Apply latest (remote) changes to the delta, creates new instance of `StoreDelta`.
*/
public static applyLatestChanges(
delta: StoreDelta,
prevElements: SceneElementsMap,
nextElements: SceneElementsMap,
modifierOptions?: "deleted" | "inserted",
): StoreDelta {
return this.create(
delta.elements.applyLatestChanges(
prevElements,
nextElements,
modifierOptions,
),
delta.appState,
{
id: delta.id,
},
);
}
public static empty() {
return StoreDelta.create(ElementsDelta.empty(), AppStateDelta.empty());
}
public isEmpty() { public isEmpty() {
return this.elements.isEmpty() && this.appState.isEmpty(); return this.elements.isEmpty() && this.appState.isEmpty();
} }
@@ -687,11 +740,10 @@ export class StoreSnapshot {
nextElements.set(id, changedElement); nextElements.set(id, changedElement);
} }
const nextAppState = Object.assign( const nextAppState = getObservedAppState({
{}, ...this.appState,
this.appState, ...change.appState,
change.appState, });
) as ObservedAppState;
return StoreSnapshot.create(nextElements, nextAppState, { return StoreSnapshot.create(nextElements, nextAppState, {
// by default we assume that change is different from what we have in the snapshot // by default we assume that change is different from what we have in the snapshot
@@ -847,7 +899,7 @@ export class StoreSnapshot {
} }
/** /**
* Detect if there any changed elements. * Detect if there are any changed elements.
*/ */
private detectChangedElements( private detectChangedElements(
nextElements: SceneElementsMap, nextElements: SceneElementsMap,
@@ -882,6 +934,14 @@ export class StoreSnapshot {
!prevElement || // element was added !prevElement || // element was added
prevElement.version < nextElement.version // element was updated prevElement.version < nextElement.version // element was updated
) { ) {
if (
isImageElement(nextElement) &&
!isInitializedImageElement(nextElement)
) {
// ignore any updates on uninitialized image elements
continue;
}
changedElements.set(nextElement.id, nextElement); changedElements.set(nextElement.id, nextElement);
} }
} }
@@ -936,26 +996,31 @@ const getDefaultObservedAppState = (): ObservedAppState => {
viewBackgroundColor: COLOR_PALETTE.white, viewBackgroundColor: COLOR_PALETTE.white,
selectedElementIds: {}, selectedElementIds: {},
selectedGroupIds: {}, selectedGroupIds: {},
editingLinearElementId: null, selectedLinearElement: null,
selectedLinearElementId: null,
croppingElementId: null, croppingElementId: null,
activeLockedId: null, activeLockedId: null,
lockedMultiSelections: {}, lockedMultiSelections: {},
}; };
}; };
export const getObservedAppState = (appState: AppState): ObservedAppState => { export const getObservedAppState = (
appState: AppState | ObservedAppState,
): ObservedAppState => {
const observedAppState = { const observedAppState = {
name: appState.name, name: appState.name,
editingGroupId: appState.editingGroupId, editingGroupId: appState.editingGroupId,
viewBackgroundColor: appState.viewBackgroundColor, viewBackgroundColor: appState.viewBackgroundColor,
selectedElementIds: appState.selectedElementIds, selectedElementIds: appState.selectedElementIds,
selectedGroupIds: appState.selectedGroupIds, selectedGroupIds: appState.selectedGroupIds,
editingLinearElementId: appState.editingLinearElement?.elementId || null,
selectedLinearElementId: appState.selectedLinearElement?.elementId || null,
croppingElementId: appState.croppingElementId, croppingElementId: appState.croppingElementId,
activeLockedId: appState.activeLockedId, activeLockedId: appState.activeLockedId,
lockedMultiSelections: appState.lockedMultiSelections, lockedMultiSelections: appState.lockedMultiSelections,
selectedLinearElement: appState.selectedLinearElement
? {
elementId: appState.selectedLinearElement.elementId,
isEditing: !!appState.selectedLinearElement.isEditing,
}
: null,
}; };
Reflect.defineProperty(observedAppState, hiddenObservedAppStateProp, { Reflect.defineProperty(observedAppState, hiddenObservedAppStateProp, {
-3
View File
@@ -326,10 +326,7 @@ export const getContainerCenter = (
if (!midSegmentMidpoint) { if (!midSegmentMidpoint) {
midSegmentMidpoint = LinearElementEditor.getSegmentMidPoint( midSegmentMidpoint = LinearElementEditor.getSegmentMidPoint(
container, container,
points[index],
points[index + 1],
index + 1, index + 1,
elementsMap,
); );
} }
return { x: midSegmentMidpoint[0], y: midSegmentMidpoint[1] }; return { x: midSegmentMidpoint[0], y: midSegmentMidpoint[1] };
+1 -1
View File
@@ -330,7 +330,7 @@ export const shouldShowBoundingBox = (
elements: readonly NonDeletedExcalidrawElement[], elements: readonly NonDeletedExcalidrawElement[],
appState: InteractiveCanvasAppState, appState: InteractiveCanvasAppState,
) => { ) => {
if (appState.editingLinearElement) { if (appState.selectedLinearElement?.isEditing) {
return false; return false;
} }
if (elements.length > 1) { if (elements.length > 1) {
+41
View File
@@ -1,5 +1,7 @@
import { ROUNDNESS, assertNever } from "@excalidraw/common"; import { ROUNDNESS, assertNever } from "@excalidraw/common";
import { pointsEqual } from "@excalidraw/math";
import type { ElementOrToolType } from "@excalidraw/excalidraw/types"; import type { ElementOrToolType } from "@excalidraw/excalidraw/types";
import type { MarkNonNullable } from "@excalidraw/common/utility-types"; import type { MarkNonNullable } from "@excalidraw/common/utility-types";
@@ -25,6 +27,7 @@ import type {
ExcalidrawMagicFrameElement, ExcalidrawMagicFrameElement,
ExcalidrawArrowElement, ExcalidrawArrowElement,
ExcalidrawElbowArrowElement, ExcalidrawElbowArrowElement,
ExcalidrawLineElement,
PointBinding, PointBinding,
FixedPointBinding, FixedPointBinding,
ExcalidrawFlowchartNodeElement, ExcalidrawFlowchartNodeElement,
@@ -108,6 +111,12 @@ export const isLinearElement = (
return element != null && isLinearElementType(element.type); return element != null && isLinearElementType(element.type);
}; };
export const isLineElement = (
element?: ExcalidrawElement | null,
): element is ExcalidrawLineElement => {
return element != null && element.type === "line";
};
export const isArrowElement = ( export const isArrowElement = (
element?: ExcalidrawElement | null, element?: ExcalidrawElement | null,
): element is ExcalidrawArrowElement => { ): element is ExcalidrawArrowElement => {
@@ -120,6 +129,15 @@ export const isElbowArrow = (
return isArrowElement(element) && element.elbowed; return isArrowElement(element) && element.elbowed;
}; };
/**
* sharp or curved arrow, but not elbow
*/
export const isSimpleArrow = (
element?: ExcalidrawElement,
): element is ExcalidrawArrowElement => {
return isArrowElement(element) && !element.elbowed;
};
export const isSharpArrow = ( export const isSharpArrow = (
element?: ExcalidrawElement, element?: ExcalidrawElement,
): element is ExcalidrawArrowElement => { ): element is ExcalidrawArrowElement => {
@@ -372,3 +390,26 @@ export const getLinearElementSubType = (
} }
return "line"; return "line";
}; };
/**
* Checks if current element points meet all the conditions for polygon=true
* (this isn't a element type check, for that use isLineElement).
*
* If you want to check if points *can* be turned into a polygon, use
* canBecomePolygon(points).
*/
export const isValidPolygon = (
points: ExcalidrawLineElement["points"],
): boolean => {
return points.length > 3 && pointsEqual(points[0], points[points.length - 1]);
};
export const canBecomePolygon = (
points: ExcalidrawLineElement["points"],
): boolean => {
return (
points.length > 3 ||
// 3-point polygons can't have all points in a single line
(points.length === 3 && !pointsEqual(points[0], points[points.length - 1]))
);
};
+12 -3
View File
@@ -195,7 +195,8 @@ export type ExcalidrawRectanguloidElement =
| ExcalidrawFreeDrawElement | ExcalidrawFreeDrawElement
| ExcalidrawIframeLikeElement | ExcalidrawIframeLikeElement
| ExcalidrawFrameLikeElement | ExcalidrawFrameLikeElement
| ExcalidrawEmbeddableElement; | ExcalidrawEmbeddableElement
| ExcalidrawSelectionElement;
/** /**
* ExcalidrawElement should be JSON serializable and (eventually) contain * ExcalidrawElement should be JSON serializable and (eventually) contain
@@ -296,8 +297,10 @@ export type FixedPointBinding = Merge<
} }
>; >;
type Index = number;
export type PointsPositionUpdates = Map< export type PointsPositionUpdates = Map<
number, Index,
{ point: LocalPoint; isDragging?: boolean } { point: LocalPoint; isDragging?: boolean }
>; >;
@@ -326,10 +329,16 @@ export type ExcalidrawLinearElement = _ExcalidrawElementBase &
endArrowhead: Arrowhead | null; endArrowhead: Arrowhead | null;
}>; }>;
export type ExcalidrawLineElement = ExcalidrawLinearElement &
Readonly<{
type: "line";
polygon: boolean;
}>;
export type FixedSegment = { export type FixedSegment = {
start: LocalPoint; start: LocalPoint;
end: LocalPoint; end: LocalPoint;
index: number; index: Index;
}; };
export type ExcalidrawArrowElement = ExcalidrawLinearElement & export type ExcalidrawArrowElement = ExcalidrawLinearElement &
+373 -245
View File
@@ -1,259 +1,346 @@
import {
DEFAULT_ADAPTIVE_RADIUS,
DEFAULT_PROPORTIONAL_RADIUS,
LINE_CONFIRM_THRESHOLD,
ROUNDNESS,
} from "@excalidraw/common";
import { import {
curve, curve,
curveCatmullRomCubicApproxPoints,
curveOffsetPoints,
lineSegment, lineSegment,
pointDistance,
pointFrom, pointFrom,
pointFromVector, pointFromArray,
rectangle, rectangle,
vectorFromPoint,
vectorNormalize,
vectorScale,
type GlobalPoint, type GlobalPoint,
} from "@excalidraw/math"; } from "@excalidraw/math";
import { elementCenterPoint } from "@excalidraw/common"; import type { Curve, LineSegment, LocalPoint } from "@excalidraw/math";
import type { Curve, LineSegment } from "@excalidraw/math"; import type { NormalizedZoomValue, Zoom } from "@excalidraw/excalidraw/types";
import { getCornerRadius } from "./shapes";
import { getDiamondPoints } from "./bounds"; import { getDiamondPoints } from "./bounds";
import { generateLinearCollisionShape } from "./shape";
import type { import type {
ExcalidrawDiamondElement, ExcalidrawDiamondElement,
ExcalidrawElement,
ExcalidrawFreeDrawElement,
ExcalidrawLinearElement,
ExcalidrawRectanguloidElement, ExcalidrawRectanguloidElement,
} from "./types"; } from "./types";
type ElementShape = [LineSegment<GlobalPoint>[], Curve<GlobalPoint>[]];
const ElementShapesCache = new WeakMap<
ExcalidrawElement,
{ version: ExcalidrawElement["version"]; shapes: Map<number, ElementShape> }
>();
const getElementShapesCacheEntry = <T extends ExcalidrawElement>(
element: T,
offset: number,
): ElementShape | undefined => {
const record = ElementShapesCache.get(element);
if (!record) {
return undefined;
}
const { version, shapes } = record;
if (version !== element.version) {
ElementShapesCache.delete(element);
return undefined;
}
return shapes.get(offset);
};
const setElementShapesCacheEntry = <T extends ExcalidrawElement>(
element: T,
shape: ElementShape,
offset: number,
) => {
const record = ElementShapesCache.get(element);
if (!record) {
ElementShapesCache.set(element, {
version: element.version,
shapes: new Map([[offset, shape]]),
});
return;
}
const { version, shapes } = record;
if (version !== element.version) {
ElementShapesCache.set(element, {
version: element.version,
shapes: new Map([[offset, shape]]),
});
return;
}
shapes.set(offset, shape);
};
/**
* Returns the **rotated** components of freedraw, line or arrow elements.
*
* @param element The linear element to deconstruct
* @returns The rotated in components.
*/
export function deconstructLinearOrFreeDrawElement(
element: ExcalidrawLinearElement | ExcalidrawFreeDrawElement,
): [LineSegment<GlobalPoint>[], Curve<GlobalPoint>[]] {
const cachedShape = getElementShapesCacheEntry(element, 0);
if (cachedShape) {
return cachedShape;
}
const ops = generateLinearCollisionShape(element) as {
op: string;
data: number[];
}[];
const lines = [];
const curves = [];
for (let idx = 0; idx < ops.length; idx += 1) {
const op = ops[idx];
const prevPoint =
ops[idx - 1] && pointFromArray<LocalPoint>(ops[idx - 1].data.slice(-2));
switch (op.op) {
case "move":
continue;
case "lineTo":
if (!prevPoint) {
throw new Error("prevPoint is undefined");
}
lines.push(
lineSegment<GlobalPoint>(
pointFrom<GlobalPoint>(
element.x + prevPoint[0],
element.y + prevPoint[1],
),
pointFrom<GlobalPoint>(
element.x + op.data[0],
element.y + op.data[1],
),
),
);
continue;
case "bcurveTo":
if (!prevPoint) {
throw new Error("prevPoint is undefined");
}
curves.push(
curve<GlobalPoint>(
pointFrom<GlobalPoint>(
element.x + prevPoint[0],
element.y + prevPoint[1],
),
pointFrom<GlobalPoint>(
element.x + op.data[0],
element.y + op.data[1],
),
pointFrom<GlobalPoint>(
element.x + op.data[2],
element.y + op.data[3],
),
pointFrom<GlobalPoint>(
element.x + op.data[4],
element.y + op.data[5],
),
),
);
continue;
default: {
console.error("Unknown op type", op.op);
}
}
}
const shape = [lines, curves] as ElementShape;
setElementShapesCacheEntry(element, shape, 0);
return shape;
}
/** /**
* Get the building components of a rectanguloid element in the form of * Get the building components of a rectanguloid element in the form of
* line segments and curves. * line segments and curves **unrotated**.
* *
* @param element Target rectanguloid element * @param element Target rectanguloid element
* @param offset Optional offset to expand the rectanguloid shape * @param offset Optional offset to expand the rectanguloid shape
* @returns Tuple of line segments (0) and curves (1) * @returns Tuple of **unrotated** line segments (0) and curves (1)
*/ */
export function deconstructRectanguloidElement( export function deconstructRectanguloidElement(
element: ExcalidrawRectanguloidElement, element: ExcalidrawRectanguloidElement,
offset: number = 0, offset: number = 0,
): [LineSegment<GlobalPoint>[], Curve<GlobalPoint>[]] { ): [LineSegment<GlobalPoint>[], Curve<GlobalPoint>[]] {
const roundness = getCornerRadius( const cachedShape = getElementShapesCacheEntry(element, offset);
if (cachedShape) {
return cachedShape;
}
let radius = getCornerRadius(
Math.min(element.width, element.height), Math.min(element.width, element.height),
element, element,
); );
if (roundness <= 0) { if (radius === 0) {
const r = rectangle( radius = 0.01;
pointFrom(element.x - offset, element.y - offset),
pointFrom(
element.x + element.width + offset,
element.y + element.height + offset,
),
);
const top = lineSegment<GlobalPoint>(
pointFrom<GlobalPoint>(r[0][0] + roundness, r[0][1]),
pointFrom<GlobalPoint>(r[1][0] - roundness, r[0][1]),
);
const right = lineSegment<GlobalPoint>(
pointFrom<GlobalPoint>(r[1][0], r[0][1] + roundness),
pointFrom<GlobalPoint>(r[1][0], r[1][1] - roundness),
);
const bottom = lineSegment<GlobalPoint>(
pointFrom<GlobalPoint>(r[0][0] + roundness, r[1][1]),
pointFrom<GlobalPoint>(r[1][0] - roundness, r[1][1]),
);
const left = lineSegment<GlobalPoint>(
pointFrom<GlobalPoint>(r[0][0], r[1][1] - roundness),
pointFrom<GlobalPoint>(r[0][0], r[0][1] + roundness),
);
const sides = [top, right, bottom, left];
return [sides, []];
} }
const center = elementCenterPoint(element);
const r = rectangle( const r = rectangle(
pointFrom(element.x, element.y), pointFrom(element.x, element.y),
pointFrom(element.x + element.width, element.y + element.height), pointFrom(element.x + element.width, element.y + element.height),
); );
const top = lineSegment<GlobalPoint>( const top = lineSegment<GlobalPoint>(
pointFrom<GlobalPoint>(r[0][0] + roundness, r[0][1]), pointFrom<GlobalPoint>(r[0][0] + radius, r[0][1]),
pointFrom<GlobalPoint>(r[1][0] - roundness, r[0][1]), pointFrom<GlobalPoint>(r[1][0] - radius, r[0][1]),
); );
const right = lineSegment<GlobalPoint>( const right = lineSegment<GlobalPoint>(
pointFrom<GlobalPoint>(r[1][0], r[0][1] + roundness), pointFrom<GlobalPoint>(r[1][0], r[0][1] + radius),
pointFrom<GlobalPoint>(r[1][0], r[1][1] - roundness), pointFrom<GlobalPoint>(r[1][0], r[1][1] - radius),
); );
const bottom = lineSegment<GlobalPoint>( const bottom = lineSegment<GlobalPoint>(
pointFrom<GlobalPoint>(r[0][0] + roundness, r[1][1]), pointFrom<GlobalPoint>(r[0][0] + radius, r[1][1]),
pointFrom<GlobalPoint>(r[1][0] - roundness, r[1][1]), pointFrom<GlobalPoint>(r[1][0] - radius, r[1][1]),
); );
const left = lineSegment<GlobalPoint>( const left = lineSegment<GlobalPoint>(
pointFrom<GlobalPoint>(r[0][0], r[1][1] - roundness), pointFrom<GlobalPoint>(r[0][0], r[1][1] - radius),
pointFrom<GlobalPoint>(r[0][0], r[0][1] + roundness), pointFrom<GlobalPoint>(r[0][0], r[0][1] + radius),
); );
const offsets = [ const baseCorners = [
vectorScale(
vectorNormalize(
vectorFromPoint(pointFrom(r[0][0] - offset, r[0][1] - offset), center),
),
offset,
), // TOP LEFT
vectorScale(
vectorNormalize(
vectorFromPoint(pointFrom(r[1][0] + offset, r[0][1] - offset), center),
),
offset,
), //TOP RIGHT
vectorScale(
vectorNormalize(
vectorFromPoint(pointFrom(r[1][0] + offset, r[1][1] + offset), center),
),
offset,
), // BOTTOM RIGHT
vectorScale(
vectorNormalize(
vectorFromPoint(pointFrom(r[0][0] - offset, r[1][1] + offset), center),
),
offset,
), // BOTTOM LEFT
];
const corners = [
curve( curve(
pointFromVector(offsets[0], left[1]), left[1],
pointFromVector( pointFrom<GlobalPoint>(
offsets[0], left[1][0] + (2 / 3) * (r[0][0] - left[1][0]),
pointFrom<GlobalPoint>( left[1][1] + (2 / 3) * (r[0][1] - left[1][1]),
left[1][0] + (2 / 3) * (r[0][0] - left[1][0]),
left[1][1] + (2 / 3) * (r[0][1] - left[1][1]),
),
), ),
pointFromVector( pointFrom<GlobalPoint>(
offsets[0], top[0][0] + (2 / 3) * (r[0][0] - top[0][0]),
pointFrom<GlobalPoint>( top[0][1] + (2 / 3) * (r[0][1] - top[0][1]),
top[0][0] + (2 / 3) * (r[0][0] - top[0][0]),
top[0][1] + (2 / 3) * (r[0][1] - top[0][1]),
),
), ),
pointFromVector(offsets[0], top[0]), top[0],
), // TOP LEFT ), // TOP LEFT
curve( curve(
pointFromVector(offsets[1], top[1]), top[1],
pointFromVector( pointFrom<GlobalPoint>(
offsets[1], top[1][0] + (2 / 3) * (r[1][0] - top[1][0]),
pointFrom<GlobalPoint>( top[1][1] + (2 / 3) * (r[0][1] - top[1][1]),
top[1][0] + (2 / 3) * (r[1][0] - top[1][0]),
top[1][1] + (2 / 3) * (r[0][1] - top[1][1]),
),
), ),
pointFromVector( pointFrom<GlobalPoint>(
offsets[1], right[0][0] + (2 / 3) * (r[1][0] - right[0][0]),
pointFrom<GlobalPoint>( right[0][1] + (2 / 3) * (r[0][1] - right[0][1]),
right[0][0] + (2 / 3) * (r[1][0] - right[0][0]),
right[0][1] + (2 / 3) * (r[0][1] - right[0][1]),
),
), ),
pointFromVector(offsets[1], right[0]), right[0],
), // TOP RIGHT ), // TOP RIGHT
curve( curve(
pointFromVector(offsets[2], right[1]), right[1],
pointFromVector( pointFrom<GlobalPoint>(
offsets[2], right[1][0] + (2 / 3) * (r[1][0] - right[1][0]),
pointFrom<GlobalPoint>( right[1][1] + (2 / 3) * (r[1][1] - right[1][1]),
right[1][0] + (2 / 3) * (r[1][0] - right[1][0]),
right[1][1] + (2 / 3) * (r[1][1] - right[1][1]),
),
), ),
pointFromVector( pointFrom<GlobalPoint>(
offsets[2], bottom[1][0] + (2 / 3) * (r[1][0] - bottom[1][0]),
pointFrom<GlobalPoint>( bottom[1][1] + (2 / 3) * (r[1][1] - bottom[1][1]),
bottom[1][0] + (2 / 3) * (r[1][0] - bottom[1][0]),
bottom[1][1] + (2 / 3) * (r[1][1] - bottom[1][1]),
),
), ),
pointFromVector(offsets[2], bottom[1]), bottom[1],
), // BOTTOM RIGHT ), // BOTTOM RIGHT
curve( curve(
pointFromVector(offsets[3], bottom[0]), bottom[0],
pointFromVector( pointFrom<GlobalPoint>(
offsets[3], bottom[0][0] + (2 / 3) * (r[0][0] - bottom[0][0]),
pointFrom<GlobalPoint>( bottom[0][1] + (2 / 3) * (r[1][1] - bottom[0][1]),
bottom[0][0] + (2 / 3) * (r[0][0] - bottom[0][0]),
bottom[0][1] + (2 / 3) * (r[1][1] - bottom[0][1]),
),
), ),
pointFromVector( pointFrom<GlobalPoint>(
offsets[3], left[0][0] + (2 / 3) * (r[0][0] - left[0][0]),
pointFrom<GlobalPoint>( left[0][1] + (2 / 3) * (r[1][1] - left[0][1]),
left[0][0] + (2 / 3) * (r[0][0] - left[0][0]),
left[0][1] + (2 / 3) * (r[1][1] - left[0][1]),
),
), ),
pointFromVector(offsets[3], left[0]), left[0],
), // BOTTOM LEFT ), // BOTTOM LEFT
]; ];
const sides = [ const corners =
lineSegment<GlobalPoint>(corners[0][3], corners[1][0]), offset > 0
lineSegment<GlobalPoint>(corners[1][3], corners[2][0]), ? baseCorners.map(
lineSegment<GlobalPoint>(corners[2][3], corners[3][0]), (corner) =>
lineSegment<GlobalPoint>(corners[3][3], corners[0][0]), curveCatmullRomCubicApproxPoints(
]; curveOffsetPoints(corner, offset),
)!,
)
: [
[baseCorners[0]],
[baseCorners[1]],
[baseCorners[2]],
[baseCorners[3]],
];
return [sides, corners]; const sides = [
lineSegment<GlobalPoint>(
corners[0][corners[0].length - 1][3],
corners[1][0][0],
),
lineSegment<GlobalPoint>(
corners[1][corners[1].length - 1][3],
corners[2][0][0],
),
lineSegment<GlobalPoint>(
corners[2][corners[2].length - 1][3],
corners[3][0][0],
),
lineSegment<GlobalPoint>(
corners[3][corners[3].length - 1][3],
corners[0][0][0],
),
];
const shape = [sides, corners.flat()] as ElementShape;
setElementShapesCacheEntry(element, shape, offset);
return shape;
} }
/** /**
* Get the building components of a diamond element in the form of * Get the **unrotated** building components of a diamond element
* line segments and curves as a tuple, in this order. * in the form of line segments and curves as a tuple, in this order.
* *
* @param element The element to deconstruct * @param element The element to deconstruct
* @param offset An optional offset * @param offset An optional offset
* @returns Tuple of line segments (0) and curves (1) * @returns Tuple of line **unrotated** segments (0) and curves (1)
*/ */
export function deconstructDiamondElement( export function deconstructDiamondElement(
element: ExcalidrawDiamondElement, element: ExcalidrawDiamondElement,
offset: number = 0, offset: number = 0,
): [LineSegment<GlobalPoint>[], Curve<GlobalPoint>[]] { ): [LineSegment<GlobalPoint>[], Curve<GlobalPoint>[]] {
const [topX, topY, rightX, rightY, bottomX, bottomY, leftX, leftY] = const cachedShape = getElementShapesCacheEntry(element, offset);
getDiamondPoints(element);
const verticalRadius = getCornerRadius(Math.abs(topX - leftX), element);
const horizontalRadius = getCornerRadius(Math.abs(rightY - topY), element);
if (element.roundness?.type == null) { if (cachedShape) {
const [top, right, bottom, left]: GlobalPoint[] = [ return cachedShape;
pointFrom(element.x + topX, element.y + topY - offset),
pointFrom(element.x + rightX + offset, element.y + rightY),
pointFrom(element.x + bottomX, element.y + bottomY + offset),
pointFrom(element.x + leftX - offset, element.y + leftY),
];
// Create the line segment parts of the diamond
// NOTE: Horizontal and vertical seems to be flipped here
const topRight = lineSegment<GlobalPoint>(
pointFrom(top[0] + verticalRadius, top[1] + horizontalRadius),
pointFrom(right[0] - verticalRadius, right[1] - horizontalRadius),
);
const bottomRight = lineSegment<GlobalPoint>(
pointFrom(right[0] - verticalRadius, right[1] + horizontalRadius),
pointFrom(bottom[0] + verticalRadius, bottom[1] - horizontalRadius),
);
const bottomLeft = lineSegment<GlobalPoint>(
pointFrom(bottom[0] - verticalRadius, bottom[1] - horizontalRadius),
pointFrom(left[0] + verticalRadius, left[1] + horizontalRadius),
);
const topLeft = lineSegment<GlobalPoint>(
pointFrom(left[0] + verticalRadius, left[1] - horizontalRadius),
pointFrom(top[0] - verticalRadius, top[1] + horizontalRadius),
);
return [[topRight, bottomRight, bottomLeft, topLeft], []];
} }
const center = elementCenterPoint(element); const [topX, topY, rightX, rightY, bottomX, bottomY, leftX, leftY] =
getDiamondPoints(element);
const verticalRadius = element.roundness
? getCornerRadius(Math.abs(topX - leftX), element)
: (topX - leftX) * 0.01;
const horizontalRadius = element.roundness
? getCornerRadius(Math.abs(rightY - topY), element)
: (rightY - topY) * 0.01;
const [top, right, bottom, left]: GlobalPoint[] = [ const [top, right, bottom, left]: GlobalPoint[] = [
pointFrom(element.x + topX, element.y + topY), pointFrom(element.x + topX, element.y + topY),
@@ -262,94 +349,135 @@ export function deconstructDiamondElement(
pointFrom(element.x + leftX, element.y + leftY), pointFrom(element.x + leftX, element.y + leftY),
]; ];
const offsets = [ const baseCorners = [
vectorScale(vectorNormalize(vectorFromPoint(right, center)), offset), // RIGHT
vectorScale(vectorNormalize(vectorFromPoint(bottom, center)), offset), // BOTTOM
vectorScale(vectorNormalize(vectorFromPoint(left, center)), offset), // LEFT
vectorScale(vectorNormalize(vectorFromPoint(top, center)), offset), // TOP
];
const corners = [
curve( curve(
pointFromVector( pointFrom<GlobalPoint>(
offsets[0], right[0] - verticalRadius,
pointFrom<GlobalPoint>( right[1] - horizontalRadius,
right[0] - verticalRadius,
right[1] - horizontalRadius,
),
), ),
pointFromVector(offsets[0], right), right,
pointFromVector(offsets[0], right), right,
pointFromVector( pointFrom<GlobalPoint>(
offsets[0], right[0] - verticalRadius,
pointFrom<GlobalPoint>( right[1] + horizontalRadius,
right[0] - verticalRadius,
right[1] + horizontalRadius,
),
), ),
), // RIGHT ), // RIGHT
curve( curve(
pointFromVector( pointFrom<GlobalPoint>(
offsets[1], bottom[0] + verticalRadius,
pointFrom<GlobalPoint>( bottom[1] - horizontalRadius,
bottom[0] + verticalRadius,
bottom[1] - horizontalRadius,
),
), ),
pointFromVector(offsets[1], bottom), bottom,
pointFromVector(offsets[1], bottom), bottom,
pointFromVector( pointFrom<GlobalPoint>(
offsets[1], bottom[0] - verticalRadius,
pointFrom<GlobalPoint>( bottom[1] - horizontalRadius,
bottom[0] - verticalRadius,
bottom[1] - horizontalRadius,
),
), ),
), // BOTTOM ), // BOTTOM
curve( curve(
pointFromVector( pointFrom<GlobalPoint>(
offsets[2], left[0] + verticalRadius,
pointFrom<GlobalPoint>( left[1] + horizontalRadius,
left[0] + verticalRadius,
left[1] + horizontalRadius,
),
), ),
pointFromVector(offsets[2], left), left,
pointFromVector(offsets[2], left), left,
pointFromVector( pointFrom<GlobalPoint>(
offsets[2], left[0] + verticalRadius,
pointFrom<GlobalPoint>( left[1] - horizontalRadius,
left[0] + verticalRadius,
left[1] - horizontalRadius,
),
), ),
), // LEFT ), // LEFT
curve( curve(
pointFromVector( pointFrom<GlobalPoint>(
offsets[3], top[0] - verticalRadius,
pointFrom<GlobalPoint>( top[1] + horizontalRadius,
top[0] - verticalRadius,
top[1] + horizontalRadius,
),
), ),
pointFromVector(offsets[3], top), top,
pointFromVector(offsets[3], top), top,
pointFromVector( pointFrom<GlobalPoint>(
offsets[3], top[0] + verticalRadius,
pointFrom<GlobalPoint>( top[1] + horizontalRadius,
top[0] + verticalRadius,
top[1] + horizontalRadius,
),
), ),
), // TOP ), // TOP
]; ];
const corners =
offset > 0
? baseCorners.map(
(corner) =>
curveCatmullRomCubicApproxPoints(
curveOffsetPoints(corner, offset),
)!,
)
: [
[baseCorners[0]],
[baseCorners[1]],
[baseCorners[2]],
[baseCorners[3]],
];
const sides = [ const sides = [
lineSegment<GlobalPoint>(corners[0][3], corners[1][0]), lineSegment<GlobalPoint>(
lineSegment<GlobalPoint>(corners[1][3], corners[2][0]), corners[0][corners[0].length - 1][3],
lineSegment<GlobalPoint>(corners[2][3], corners[3][0]), corners[1][0][0],
lineSegment<GlobalPoint>(corners[3][3], corners[0][0]), ),
lineSegment<GlobalPoint>(
corners[1][corners[1].length - 1][3],
corners[2][0][0],
),
lineSegment<GlobalPoint>(
corners[2][corners[2].length - 1][3],
corners[3][0][0],
),
lineSegment<GlobalPoint>(
corners[3][corners[3].length - 1][3],
corners[0][0][0],
),
]; ];
return [sides, corners]; const shape = [sides, corners.flat()] as ElementShape;
setElementShapesCacheEntry(element, shape, offset);
return shape;
} }
// Checks if the first and last point are close enough
// to be considered a loop
export const isPathALoop = (
points: ExcalidrawLinearElement["points"],
/** supply if you want the loop detection to account for current zoom */
zoomValue: Zoom["value"] = 1 as NormalizedZoomValue,
): boolean => {
if (points.length >= 3) {
const [first, last] = [points[0], points[points.length - 1]];
const distance = pointDistance(first, last);
// Adjusting LINE_CONFIRM_THRESHOLD to current zoom so that when zoomed in
// really close we make the threshold smaller, and vice versa.
return distance <= LINE_CONFIRM_THRESHOLD / zoomValue;
}
return false;
};
export const getCornerRadius = (x: number, element: ExcalidrawElement) => {
if (
element.roundness?.type === ROUNDNESS.PROPORTIONAL_RADIUS ||
element.roundness?.type === ROUNDNESS.LEGACY
) {
return x * DEFAULT_PROPORTIONAL_RADIUS;
}
if (element.roundness?.type === ROUNDNESS.ADAPTIVE_RADIUS) {
const fixedRadiusSize = element.roundness?.value ?? DEFAULT_ADAPTIVE_RADIUS;
const CUTOFF_SIZE = fixedRadiusSize / DEFAULT_PROPORTIONAL_RADIUS;
if (x <= CUTOFF_SIZE) {
return x * DEFAULT_PROPORTIONAL_RADIUS;
}
return fixedRadiusSize;
}
return 0;
};
@@ -17,7 +17,7 @@ exports[`Test Linear Elements > Test bound text element > should match styles fo
class="excalidraw-wysiwyg" class="excalidraw-wysiwyg"
data-type="wysiwyg" data-type="wysiwyg"
dir="auto" dir="auto"
style="position: absolute; display: inline-block; min-height: 1em; backface-visibility: hidden; margin: 0px; padding: 0px; border: 0px; outline: 0; resize: none; background: transparent; overflow: hidden; z-index: var(--zIndex-wysiwyg); word-break: break-word; white-space: pre-wrap; overflow-wrap: break-word; box-sizing: content-box; width: 10.5px; height: 26.25px; left: 35px; top: 7.5px; transform: translate(0px, 0px) scale(1) rotate(0deg); text-align: center; vertical-align: middle; color: rgb(30, 30, 30); opacity: 1; filter: var(--theme-filter); max-height: 992.5px; font: Emoji 20px 20px; line-height: 1.25; font-family: Excalifont, Xiaolai, Segoe UI Emoji;" style="position: absolute; display: inline-block; min-height: 1em; backface-visibility: hidden; margin: 0px; padding: 0px; border: 0px; outline: 0; resize: none; background: transparent; overflow: hidden; z-index: var(--zIndex-wysiwyg); word-break: break-word; white-space: pre-wrap; overflow-wrap: break-word; box-sizing: content-box; width: 10.5px; height: 26.25px; left: 35px; top: 7.5px; transform: translate(0px, 0px) scale(1) rotate(0deg); text-align: center; vertical-align: middle; color: rgb(30, 30, 30); opacity: 1; filter: var(--theme-filter); max-height: 992.5px; font: Emoji 20px 20px; line-height: 1.25; font-family: Excalifont, Xiaolai, sans-serif, Segoe UI Emoji;"
tabindex="0" tabindex="0"
wrap="off" wrap="off"
/> />
+430 -2
View File
@@ -35,6 +35,7 @@ const createAndSelectTwoRectangles = () => {
// The second rectangle is already reselected because it was the last element created // The second rectangle is already reselected because it was the last element created
mouse.reset(); mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => { Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click(); mouse.click();
}); });
}; };
@@ -52,6 +53,7 @@ const createAndSelectTwoRectanglesWithDifferentSizes = () => {
// The second rectangle is already reselected because it was the last element created // The second rectangle is already reselected because it was the last element created
mouse.reset(); mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => { Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click(); mouse.click();
}); });
}; };
@@ -202,6 +204,7 @@ describe("aligning", () => {
// The second rectangle is already reselected because it was the last element created // The second rectangle is already reselected because it was the last element created
mouse.reset(); mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => { Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click(); mouse.click();
}); });
@@ -215,6 +218,7 @@ describe("aligning", () => {
// Add the created group to the current selection // Add the created group to the current selection
mouse.restorePosition(0, 0); mouse.restorePosition(0, 0);
Keyboard.withModifierKeys({ shift: true }, () => { Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click(); mouse.click();
}); });
}; };
@@ -316,6 +320,7 @@ describe("aligning", () => {
// The second rectangle is already selected because it was the last element created // The second rectangle is already selected because it was the last element created
mouse.reset(); mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => { Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click(); mouse.click();
}); });
@@ -330,7 +335,7 @@ describe("aligning", () => {
mouse.down(); mouse.down();
mouse.up(100, 100); mouse.up(100, 100);
mouse.restorePosition(200, 200); mouse.restorePosition(210, 200);
Keyboard.withModifierKeys({ shift: true }, () => { Keyboard.withModifierKeys({ shift: true }, () => {
mouse.click(); mouse.click();
}); });
@@ -341,6 +346,7 @@ describe("aligning", () => {
// The second group is already selected because it was the last group created // The second group is already selected because it was the last group created
mouse.reset(); mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => { Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click(); mouse.click();
}); });
}; };
@@ -454,6 +460,7 @@ describe("aligning", () => {
// The second rectangle is already reselected because it was the last element created // The second rectangle is already reselected because it was the last element created
mouse.reset(); mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => { Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click(); mouse.click();
}); });
@@ -466,7 +473,7 @@ describe("aligning", () => {
mouse.up(100, 100); mouse.up(100, 100);
// Add group to current selection // Add group to current selection
mouse.restorePosition(0, 0); mouse.restorePosition(10, 0);
Keyboard.withModifierKeys({ shift: true }, () => { Keyboard.withModifierKeys({ shift: true }, () => {
mouse.click(); mouse.click();
}); });
@@ -482,6 +489,7 @@ describe("aligning", () => {
// Select the nested group, the rectangle is already selected // Select the nested group, the rectangle is already selected
mouse.reset(); mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => { Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click(); mouse.click();
}); });
}; };
@@ -581,4 +589,424 @@ describe("aligning", () => {
expect(API.getSelectedElements()[2].x).toEqual(250); expect(API.getSelectedElements()[2].x).toEqual(250);
expect(API.getSelectedElements()[3].x).toEqual(150); expect(API.getSelectedElements()[3].x).toEqual(150);
}); });
const createGroupAndSelectInEditGroupMode = () => {
UI.clickTool("rectangle");
mouse.down();
mouse.up(100, 100);
UI.clickTool("rectangle");
mouse.down(0, 0);
mouse.up(100, 100);
// select the first element.
// The second rectangle is already reselected because it was the last element created
mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click();
});
API.executeAction(actionGroup);
mouse.reset();
mouse.moveTo(10, 0);
mouse.doubleClick();
Keyboard.withModifierKeys({ shift: true }, () => {
mouse.click();
mouse.moveTo(100, 100);
mouse.click();
});
};
it("aligns elements within a group while in group edit mode correctly to the top", () => {
createGroupAndSelectInEditGroupMode();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
API.executeAction(actionAlignTop);
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(0);
});
it("aligns elements within a group while in group edit mode correctly to the bottom", () => {
createGroupAndSelectInEditGroupMode();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
API.executeAction(actionAlignBottom);
expect(API.getSelectedElements()[0].y).toEqual(100);
expect(API.getSelectedElements()[1].y).toEqual(100);
});
it("aligns elements within a group while in group edit mode correctly to the left", () => {
createGroupAndSelectInEditGroupMode();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
API.executeAction(actionAlignLeft);
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(0);
});
it("aligns elements within a group while in group edit mode correctly to the right", () => {
createGroupAndSelectInEditGroupMode();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
API.executeAction(actionAlignRight);
expect(API.getSelectedElements()[0].x).toEqual(100);
expect(API.getSelectedElements()[1].x).toEqual(100);
});
it("aligns elements within a group while in group edit mode correctly to the vertical center", () => {
createGroupAndSelectInEditGroupMode();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
API.executeAction(actionAlignVerticallyCentered);
expect(API.getSelectedElements()[0].y).toEqual(50);
expect(API.getSelectedElements()[1].y).toEqual(50);
});
it("aligns elements within a group while in group edit mode correctly to the horizontal center", () => {
createGroupAndSelectInEditGroupMode();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
API.executeAction(actionAlignHorizontallyCentered);
expect(API.getSelectedElements()[0].x).toEqual(50);
expect(API.getSelectedElements()[1].x).toEqual(50);
});
const createNestedGroupAndSelectInEditGroupMode = () => {
UI.clickTool("rectangle");
mouse.down();
mouse.up(100, 100);
UI.clickTool("rectangle");
mouse.down(0, 0);
mouse.up(100, 100);
// Select the first element.
// The second rectangle is already reselected because it was the last element created
mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click();
});
API.executeAction(actionGroup);
mouse.reset();
mouse.moveTo(200, 200);
// create third element
UI.clickTool("rectangle");
mouse.down(0, 0);
mouse.up(100, 100);
// third element is already selected, select the initial group and group together
mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click();
});
API.executeAction(actionGroup);
// double click to enter edit mode
mouse.doubleClick();
// select nested group and other element within the group
Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(200, 200);
mouse.click();
});
};
it("aligns element and nested group while in group edit mode correctly to the top", () => {
createNestedGroupAndSelectInEditGroupMode();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
expect(API.getSelectedElements()[2].y).toEqual(200);
API.executeAction(actionAlignTop);
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
expect(API.getSelectedElements()[2].y).toEqual(0);
});
it("aligns element and nested group while in group edit mode correctly to the bottom", () => {
createNestedGroupAndSelectInEditGroupMode();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
expect(API.getSelectedElements()[2].y).toEqual(200);
API.executeAction(actionAlignBottom);
expect(API.getSelectedElements()[0].y).toEqual(100);
expect(API.getSelectedElements()[1].y).toEqual(200);
expect(API.getSelectedElements()[2].y).toEqual(200);
});
it("aligns element and nested group while in group edit mode correctly to the left", () => {
createNestedGroupAndSelectInEditGroupMode();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
expect(API.getSelectedElements()[2].x).toEqual(200);
API.executeAction(actionAlignLeft);
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
expect(API.getSelectedElements()[2].x).toEqual(0);
});
it("aligns element and nested group while in group edit mode correctly to the right", () => {
createNestedGroupAndSelectInEditGroupMode();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
expect(API.getSelectedElements()[2].x).toEqual(200);
API.executeAction(actionAlignRight);
expect(API.getSelectedElements()[0].x).toEqual(100);
expect(API.getSelectedElements()[1].x).toEqual(200);
expect(API.getSelectedElements()[2].x).toEqual(200);
});
it("aligns element and nested group while in group edit mode correctly to the vertical center", () => {
createNestedGroupAndSelectInEditGroupMode();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
expect(API.getSelectedElements()[2].y).toEqual(200);
API.executeAction(actionAlignVerticallyCentered);
expect(API.getSelectedElements()[0].y).toEqual(50);
expect(API.getSelectedElements()[1].y).toEqual(150);
expect(API.getSelectedElements()[2].y).toEqual(100);
});
it("aligns elements and nested group within a group while in group edit mode correctly to the horizontal center", () => {
createNestedGroupAndSelectInEditGroupMode();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
expect(API.getSelectedElements()[2].x).toEqual(200);
API.executeAction(actionAlignHorizontallyCentered);
expect(API.getSelectedElements()[0].x).toEqual(50);
expect(API.getSelectedElements()[1].x).toEqual(150);
expect(API.getSelectedElements()[2].x).toEqual(100);
});
const createAndSelectSingleGroup = () => {
UI.clickTool("rectangle");
mouse.down();
mouse.up(100, 100);
UI.clickTool("rectangle");
mouse.down(0, 0);
mouse.up(100, 100);
// Select the first element.
// The second rectangle is already reselected because it was the last element created
mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click();
});
API.executeAction(actionGroup);
};
it("aligns elements within a single-selected group correctly to the top", () => {
createAndSelectSingleGroup();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
API.executeAction(actionAlignTop);
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(0);
});
it("aligns elements within a single-selected group correctly to the bottom", () => {
createAndSelectSingleGroup();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
API.executeAction(actionAlignBottom);
expect(API.getSelectedElements()[0].y).toEqual(100);
expect(API.getSelectedElements()[1].y).toEqual(100);
});
it("aligns elements within a single-selected group correctly to the left", () => {
createAndSelectSingleGroup();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
API.executeAction(actionAlignLeft);
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(0);
});
it("aligns elements within a single-selected group correctly to the right", () => {
createAndSelectSingleGroup();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
API.executeAction(actionAlignRight);
expect(API.getSelectedElements()[0].x).toEqual(100);
expect(API.getSelectedElements()[1].x).toEqual(100);
});
it("aligns elements within a single-selected group correctly to the vertical center", () => {
createAndSelectSingleGroup();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
API.executeAction(actionAlignVerticallyCentered);
expect(API.getSelectedElements()[0].y).toEqual(50);
expect(API.getSelectedElements()[1].y).toEqual(50);
});
it("aligns elements within a single-selected group correctly to the horizontal center", () => {
createAndSelectSingleGroup();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
API.executeAction(actionAlignHorizontallyCentered);
expect(API.getSelectedElements()[0].x).toEqual(50);
expect(API.getSelectedElements()[1].x).toEqual(50);
});
const createAndSelectSingleGroupWithNestedGroup = () => {
UI.clickTool("rectangle");
mouse.down();
mouse.up(100, 100);
UI.clickTool("rectangle");
mouse.down(0, 0);
mouse.up(100, 100);
// Select the first element.
// The second rectangle is already reselected because it was the last element created
mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click();
});
API.executeAction(actionGroup);
mouse.reset();
UI.clickTool("rectangle");
mouse.down(200, 200);
mouse.up(100, 100);
// Add group to current selection
mouse.restorePosition(10, 0);
Keyboard.withModifierKeys({ shift: true }, () => {
mouse.click();
});
// Create the nested group
API.executeAction(actionGroup);
};
it("aligns elements within a single-selected group containing a nested group correctly to the top", () => {
createAndSelectSingleGroupWithNestedGroup();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
expect(API.getSelectedElements()[2].y).toEqual(200);
API.executeAction(actionAlignTop);
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
expect(API.getSelectedElements()[2].y).toEqual(0);
});
it("aligns elements within a single-selected group containing a nested group correctly to the bottom", () => {
createAndSelectSingleGroupWithNestedGroup();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
expect(API.getSelectedElements()[2].y).toEqual(200);
API.executeAction(actionAlignBottom);
expect(API.getSelectedElements()[0].y).toEqual(100);
expect(API.getSelectedElements()[1].y).toEqual(200);
expect(API.getSelectedElements()[2].y).toEqual(200);
});
it("aligns elements within a single-selected group containing a nested group correctly to the left", () => {
createAndSelectSingleGroupWithNestedGroup();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
expect(API.getSelectedElements()[2].x).toEqual(200);
API.executeAction(actionAlignLeft);
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
expect(API.getSelectedElements()[2].x).toEqual(0);
});
it("aligns elements within a single-selected group containing a nested group correctly to the right", () => {
createAndSelectSingleGroupWithNestedGroup();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
expect(API.getSelectedElements()[2].x).toEqual(200);
API.executeAction(actionAlignRight);
expect(API.getSelectedElements()[0].x).toEqual(100);
expect(API.getSelectedElements()[1].x).toEqual(200);
expect(API.getSelectedElements()[2].x).toEqual(200);
});
it("aligns elements within a single-selected group containing a nested group correctly to the vertical center", () => {
createAndSelectSingleGroupWithNestedGroup();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(100);
expect(API.getSelectedElements()[2].y).toEqual(200);
API.executeAction(actionAlignVerticallyCentered);
expect(API.getSelectedElements()[0].y).toEqual(50);
expect(API.getSelectedElements()[1].y).toEqual(150);
expect(API.getSelectedElements()[2].y).toEqual(100);
});
it("aligns elements within a single-selected group containing a nested group correctly to the horizontal center", () => {
createAndSelectSingleGroupWithNestedGroup();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(100);
expect(API.getSelectedElements()[2].x).toEqual(200);
API.executeAction(actionAlignHorizontallyCentered);
expect(API.getSelectedElements()[0].x).toEqual(50);
expect(API.getSelectedElements()[1].x).toEqual(150);
expect(API.getSelectedElements()[2].x).toEqual(100);
});
}); });
+12 -18
View File
@@ -11,6 +11,10 @@ import { UI, Pointer, Keyboard } from "@excalidraw/excalidraw/tests/helpers/ui";
import { fireEvent, render } from "@excalidraw/excalidraw/tests/test-utils"; import { fireEvent, render } from "@excalidraw/excalidraw/tests/test-utils";
import { getTransformHandles } from "../src/transformHandles"; import { getTransformHandles } from "../src/transformHandles";
import {
getTextEditor,
TEXT_EDITOR_SELECTOR,
} from "../../excalidraw/tests/queries/dom";
const { h } = window; const { h } = window;
@@ -151,10 +155,10 @@ describe("element binding", () => {
// NOTE this mouse down/up + await needs to be done in order to repro // NOTE this mouse down/up + await needs to be done in order to repro
// the issue, due to https://github.com/excalidraw/excalidraw/blob/46bff3daceb602accf60c40a84610797260fca94/src/components/App.tsx#L740 // the issue, due to https://github.com/excalidraw/excalidraw/blob/46bff3daceb602accf60c40a84610797260fca94/src/components/App.tsx#L740
mouse.reset(); mouse.reset();
expect(h.state.editingLinearElement).not.toBe(null); expect(h.state.selectedLinearElement?.isEditing).toBe(true);
mouse.down(0, 0); mouse.down(0, 0);
await new Promise((r) => setTimeout(r, 100)); await new Promise((r) => setTimeout(r, 100));
expect(h.state.editingLinearElement).toBe(null); expect(h.state.selectedLinearElement?.isEditing).toBe(false);
expect(API.getSelectedElement().type).toBe("rectangle"); expect(API.getSelectedElement().type).toBe("rectangle");
mouse.up(); mouse.up();
expect(API.getSelectedElement().type).toBe("rectangle"); expect(API.getSelectedElement().type).toBe("rectangle");
@@ -172,12 +176,12 @@ describe("element binding", () => {
const arrow = UI.createElement("arrow", { const arrow = UI.createElement("arrow", {
x: 0, x: 0,
y: 0, y: 0,
size: 50, size: 49,
}); });
expect(arrow.endBinding).toBe(null); expect(arrow.endBinding).toBe(null);
mouse.downAt(50, 50); mouse.downAt(49, 49);
mouse.moveTo(51, 0); mouse.moveTo(51, 0);
mouse.up(0, 0); mouse.up(0, 0);
@@ -244,18 +248,12 @@ describe("element binding", () => {
mouse.clickAt(text.x + 50, text.y + 50); mouse.clickAt(text.x + 50, text.y + 50);
const editor = document.querySelector( const editor = await getTextEditor();
".excalidraw-textEditorContainer > textarea",
) as HTMLTextAreaElement;
expect(editor).not.toBe(null);
fireEvent.change(editor, { target: { value: "" } }); fireEvent.change(editor, { target: { value: "" } });
fireEvent.keyDown(editor, { key: KEYS.ESCAPE }); fireEvent.keyDown(editor, { key: KEYS.ESCAPE });
expect( expect(document.querySelector(TEXT_EDITOR_SELECTOR)).toBe(null);
document.querySelector(".excalidraw-textEditorContainer > textarea"),
).toBe(null);
expect(arrow.endBinding).toBe(null); expect(arrow.endBinding).toBe(null);
}); });
@@ -285,18 +283,14 @@ describe("element binding", () => {
UI.clickTool("text"); UI.clickTool("text");
mouse.clickAt(text.x + 50, text.y + 50); mouse.clickAt(text.x + 50, text.y + 50);
const editor = document.querySelector( const editor = await getTextEditor();
".excalidraw-textEditorContainer > textarea",
) as HTMLTextAreaElement;
expect(editor).not.toBe(null); expect(editor).not.toBe(null);
fireEvent.change(editor, { target: { value: "asdasdasdasdas" } }); fireEvent.change(editor, { target: { value: "asdasdasdasdas" } });
fireEvent.keyDown(editor, { key: KEYS.ESCAPE }); fireEvent.keyDown(editor, { key: KEYS.ESCAPE });
expect( expect(document.querySelector(TEXT_EDITOR_SELECTOR)).toBe(null);
document.querySelector(".excalidraw-textEditorContainer > textarea"),
).toBe(null);
expect(arrow.endBinding?.elementId).toBe(text.id); expect(arrow.endBinding?.elementId).toBe(text.id);
}); });
+38
View File
@@ -0,0 +1,38 @@
import { type GlobalPoint, type LocalPoint, pointFrom } from "@excalidraw/math";
import { Excalidraw } from "@excalidraw/excalidraw";
import { UI } from "@excalidraw/excalidraw/tests/helpers/ui";
import "@excalidraw/utils/test-utils";
import { render } from "@excalidraw/excalidraw/tests/test-utils";
import { hitElementItself } from "../src/collision";
describe("check rotated elements can be hit:", () => {
beforeEach(async () => {
localStorage.clear();
await render(<Excalidraw handleKeyboardGlobally={true} />);
});
it("arrow", () => {
UI.createElement("arrow", {
x: 0,
y: 0,
width: 124,
height: 302,
angle: 1.8700426423973724,
points: [
[0, 0],
[120, -198],
[-4, -302],
] as LocalPoint[],
});
//const p = [120, -211];
//const p = [0, 13];
const hit = hitElementItself({
point: pointFrom<GlobalPoint>(88, -68),
element: window.h.elements[0],
threshold: 10,
elementsMap: window.h.scene.getNonDeletedElementsMap(),
});
expect(hit).toBe(true);
});
});
+417 -10
View File
@@ -1,13 +1,328 @@
import { API } from "@excalidraw/excalidraw/tests/helpers/api";
import type { ObservedAppState } from "@excalidraw/excalidraw/types"; import type { ObservedAppState } from "@excalidraw/excalidraw/types";
import type { LinearElementEditor } from "@excalidraw/element"; import type { LinearElementEditor } from "@excalidraw/element";
import type { SceneElementsMap } from "@excalidraw/element/types";
import { AppStateDelta } from "../src/delta"; import { AppStateDelta, Delta, ElementsDelta } from "../src/delta";
describe("ElementsDelta", () => {
describe("elements delta calculation", () => {
it("should not create removed delta when element gets removed but was already deleted", () => {
const element = API.createElement({
type: "rectangle",
x: 100,
y: 100,
isDeleted: true,
});
const prevElements = new Map([[element.id, element]]);
const nextElements = new Map();
const delta = ElementsDelta.calculate(prevElements, nextElements);
expect(delta.isEmpty()).toBeTruthy();
});
it("should not create added delta when adding element as already deleted", () => {
const element = API.createElement({
type: "rectangle",
x: 100,
y: 100,
isDeleted: true,
});
const prevElements = new Map();
const nextElements = new Map([[element.id, element]]);
const delta = ElementsDelta.calculate(prevElements, nextElements);
expect(delta.isEmpty()).toBeTruthy();
});
it("should not create updated delta when there is only version and versionNonce change", () => {
const baseElement = API.createElement({
type: "rectangle",
x: 100,
y: 100,
strokeColor: "#000000",
backgroundColor: "#ffffff",
});
const modifiedElement = {
...baseElement,
version: baseElement.version + 1,
versionNonce: baseElement.versionNonce + 1,
};
// Create maps for the delta calculation
const prevElements = new Map([[baseElement.id, baseElement]]);
const nextElements = new Map([[modifiedElement.id, modifiedElement]]);
// Calculate the delta
const delta = ElementsDelta.calculate(
prevElements as SceneElementsMap,
nextElements as SceneElementsMap,
);
expect(delta.isEmpty()).toBeTruthy();
});
});
describe("squash", () => {
it("should not squash when second delta is empty", () => {
const updatedDelta = Delta.create(
{ x: 100, version: 1, versionNonce: 1 },
{ x: 200, version: 2, versionNonce: 2 },
);
const elementsDelta1 = ElementsDelta.create(
{},
{},
{ id1: updatedDelta },
);
const elementsDelta2 = ElementsDelta.empty();
const elementsDelta = elementsDelta1.squash(elementsDelta2);
expect(elementsDelta.isEmpty()).toBeFalsy();
expect(elementsDelta).toBe(elementsDelta1);
expect(elementsDelta.updated.id1).toBe(updatedDelta);
});
it("should squash mutually exclusive delta types", () => {
const addedDelta = Delta.create(
{ x: 100, version: 1, versionNonce: 1, isDeleted: true },
{ x: 200, version: 2, versionNonce: 2, isDeleted: false },
);
const removedDelta = Delta.create(
{ x: 100, version: 1, versionNonce: 1, isDeleted: false },
{ x: 200, version: 2, versionNonce: 2, isDeleted: true },
);
const updatedDelta = Delta.create(
{ x: 100, version: 1, versionNonce: 1 },
{ x: 200, version: 2, versionNonce: 2 },
);
const elementsDelta1 = ElementsDelta.create(
{ id1: addedDelta },
{ id2: removedDelta },
{},
);
const elementsDelta2 = ElementsDelta.create(
{},
{},
{ id3: updatedDelta },
);
const elementsDelta = elementsDelta1.squash(elementsDelta2);
expect(elementsDelta.isEmpty()).toBeFalsy();
expect(elementsDelta).toBe(elementsDelta1);
expect(elementsDelta.added.id1).toBe(addedDelta);
expect(elementsDelta.removed.id2).toBe(removedDelta);
expect(elementsDelta.updated.id3).toBe(updatedDelta);
});
it("should squash the same delta types", () => {
const elementsDelta1 = ElementsDelta.create(
{
id1: Delta.create(
{ x: 100, version: 1, versionNonce: 1, isDeleted: true },
{ x: 200, version: 2, versionNonce: 2, isDeleted: false },
),
},
{
id2: Delta.create(
{ x: 100, version: 1, versionNonce: 1, isDeleted: false },
{ x: 200, version: 2, versionNonce: 2, isDeleted: true },
),
},
{
id3: Delta.create(
{ x: 100, version: 1, versionNonce: 1 },
{ x: 200, version: 2, versionNonce: 2 },
),
},
);
const elementsDelta2 = ElementsDelta.create(
{
id1: Delta.create(
{ y: 100, version: 2, versionNonce: 2, isDeleted: true },
{ y: 200, version: 3, versionNonce: 3, isDeleted: false },
),
},
{
id2: Delta.create(
{ y: 100, version: 2, versionNonce: 2, isDeleted: false },
{ y: 200, version: 3, versionNonce: 3, isDeleted: true },
),
},
{
id3: Delta.create(
{ y: 100, version: 2, versionNonce: 2 },
{ y: 200, version: 3, versionNonce: 3 },
),
},
);
const elementsDelta = elementsDelta1.squash(elementsDelta2);
expect(elementsDelta.isEmpty()).toBeFalsy();
expect(elementsDelta).toBe(elementsDelta1);
expect(elementsDelta.added.id1).toEqual(
Delta.create(
{ x: 100, y: 100, version: 2, versionNonce: 2, isDeleted: true },
{ x: 200, y: 200, version: 3, versionNonce: 3, isDeleted: false },
),
);
expect(elementsDelta.removed.id2).toEqual(
Delta.create(
{ x: 100, y: 100, version: 2, versionNonce: 2, isDeleted: false },
{ x: 200, y: 200, version: 3, versionNonce: 3, isDeleted: true },
),
);
expect(elementsDelta.updated.id3).toEqual(
Delta.create(
{ x: 100, y: 100, version: 2, versionNonce: 2 },
{ x: 200, y: 200, version: 3, versionNonce: 3 },
),
);
});
it("should squash different delta types ", () => {
// id1: added -> updated => added
// id2: removed -> added => added
// id3: updated -> removed => removed
const elementsDelta1 = ElementsDelta.create(
{
id1: Delta.create(
{ x: 100, version: 1, versionNonce: 1, isDeleted: true },
{ x: 101, version: 2, versionNonce: 2, isDeleted: false },
),
},
{
id2: Delta.create(
{ x: 200, version: 1, versionNonce: 1, isDeleted: false },
{ x: 201, version: 2, versionNonce: 2, isDeleted: true },
),
},
{
id3: Delta.create(
{ x: 300, version: 1, versionNonce: 1 },
{ x: 301, version: 2, versionNonce: 2 },
),
},
);
const elementsDelta2 = ElementsDelta.create(
{
id2: Delta.create(
{ y: 200, version: 2, versionNonce: 2, isDeleted: true },
{ y: 201, version: 3, versionNonce: 3, isDeleted: false },
),
},
{
id3: Delta.create(
{ y: 300, version: 2, versionNonce: 2, isDeleted: false },
{ y: 301, version: 3, versionNonce: 3, isDeleted: true },
),
},
{
id1: Delta.create(
{ y: 100, version: 2, versionNonce: 2 },
{ y: 101, version: 3, versionNonce: 3 },
),
},
);
const elementsDelta = elementsDelta1.squash(elementsDelta2);
expect(elementsDelta.isEmpty()).toBeFalsy();
expect(elementsDelta).toBe(elementsDelta1);
expect(elementsDelta.added).toEqual({
id1: Delta.create(
{ x: 100, y: 100, version: 2, versionNonce: 2, isDeleted: true },
{ x: 101, y: 101, version: 3, versionNonce: 3, isDeleted: false },
),
id2: Delta.create(
{ x: 200, y: 200, version: 2, versionNonce: 2, isDeleted: true },
{ x: 201, y: 201, version: 3, versionNonce: 3, isDeleted: false },
),
});
expect(elementsDelta.removed).toEqual({
id3: Delta.create(
{ x: 300, y: 300, version: 2, versionNonce: 2, isDeleted: false },
{ x: 301, y: 301, version: 3, versionNonce: 3, isDeleted: true },
),
});
expect(elementsDelta.updated).toEqual({});
});
it("should squash bound elements", () => {
const elementsDelta1 = ElementsDelta.create(
{},
{},
{
id1: Delta.create(
{
version: 1,
versionNonce: 1,
boundElements: [{ id: "t1", type: "text" }],
},
{
version: 2,
versionNonce: 2,
boundElements: [{ id: "t2", type: "text" }],
},
),
},
);
const elementsDelta2 = ElementsDelta.create(
{},
{},
{
id1: Delta.create(
{
version: 2,
versionNonce: 2,
boundElements: [{ id: "a1", type: "arrow" }],
},
{
version: 3,
versionNonce: 3,
boundElements: [{ id: "a2", type: "arrow" }],
},
),
},
);
const elementsDelta = elementsDelta1.squash(elementsDelta2);
expect(elementsDelta.updated.id1.deleted.boundElements).toEqual([
{ id: "t1", type: "text" },
{ id: "a1", type: "arrow" },
]);
expect(elementsDelta.updated.id1.inserted.boundElements).toEqual([
{ id: "t2", type: "text" },
{ id: "a2", type: "arrow" },
]);
});
});
});
describe("AppStateDelta", () => { describe("AppStateDelta", () => {
describe("ensure stable delta properties order", () => { describe("ensure stable delta properties order", () => {
it("should maintain stable order for root properties", () => { it("should maintain stable order for root properties", () => {
const name = "untitled scene"; const name = "untitled scene";
const selectedLinearElementId = "id1" as LinearElementEditor["elementId"]; const selectedLinearElement = {
elementId: "id1" as LinearElementEditor["elementId"],
isEditing: false,
};
const commonAppState = { const commonAppState = {
viewBackgroundColor: "#ffffff", viewBackgroundColor: "#ffffff",
@@ -16,6 +331,7 @@ describe("AppStateDelta", () => {
editingGroupId: null, editingGroupId: null,
croppingElementId: null, croppingElementId: null,
editingLinearElementId: null, editingLinearElementId: null,
selectedLinearElementIsEditing: null,
lockedMultiSelections: {}, lockedMultiSelections: {},
activeLockedId: null, activeLockedId: null,
}; };
@@ -23,23 +339,23 @@ describe("AppStateDelta", () => {
const prevAppState1: ObservedAppState = { const prevAppState1: ObservedAppState = {
...commonAppState, ...commonAppState,
name: "", name: "",
selectedLinearElementId: null, selectedLinearElement: null,
}; };
const nextAppState1: ObservedAppState = { const nextAppState1: ObservedAppState = {
...commonAppState, ...commonAppState,
name, name,
selectedLinearElementId, selectedLinearElement,
}; };
const prevAppState2: ObservedAppState = { const prevAppState2: ObservedAppState = {
selectedLinearElementId: null, selectedLinearElement: null,
name: "", name: "",
...commonAppState, ...commonAppState,
}; };
const nextAppState2: ObservedAppState = { const nextAppState2: ObservedAppState = {
selectedLinearElementId, selectedLinearElement,
name, name,
...commonAppState, ...commonAppState,
}; };
@@ -57,8 +373,7 @@ describe("AppStateDelta", () => {
selectedGroupIds: {}, selectedGroupIds: {},
editingGroupId: null, editingGroupId: null,
croppingElementId: null, croppingElementId: null,
selectedLinearElementId: null, selectedLinearElement: null,
editingLinearElementId: null,
activeLockedId: null, activeLockedId: null,
lockedMultiSelections: {}, lockedMultiSelections: {},
}; };
@@ -104,8 +419,7 @@ describe("AppStateDelta", () => {
selectedElementIds: {}, selectedElementIds: {},
editingGroupId: null, editingGroupId: null,
croppingElementId: null, croppingElementId: null,
selectedLinearElementId: null, selectedLinearElement: null,
editingLinearElementId: null,
activeLockedId: null, activeLockedId: null,
lockedMultiSelections: {}, lockedMultiSelections: {},
}; };
@@ -146,4 +460,97 @@ describe("AppStateDelta", () => {
expect(JSON.stringify(delta1)).toBe(JSON.stringify(delta2)); expect(JSON.stringify(delta1)).toBe(JSON.stringify(delta2));
}); });
}); });
describe("squash", () => {
it("should not squash when second delta is empty", () => {
const delta = Delta.create(
{ name: "untitled scene" },
{ name: "titled scene" },
);
const appStateDelta1 = AppStateDelta.create(delta);
const appStateDelta2 = AppStateDelta.empty();
const appStateDelta = appStateDelta1.squash(appStateDelta2);
expect(appStateDelta.isEmpty()).toBeFalsy();
expect(appStateDelta).toBe(appStateDelta1);
expect(appStateDelta.delta).toBe(delta);
});
it("should squash exclusive properties", () => {
const delta1 = Delta.create(
{ name: "untitled scene" },
{ name: "titled scene" },
);
const delta2 = Delta.create(
{ viewBackgroundColor: "#ffffff" },
{ viewBackgroundColor: "#000000" },
);
const appStateDelta1 = AppStateDelta.create(delta1);
const appStateDelta2 = AppStateDelta.create(delta2);
const appStateDelta = appStateDelta1.squash(appStateDelta2);
expect(appStateDelta.isEmpty()).toBeFalsy();
expect(appStateDelta).toBe(appStateDelta1);
expect(appStateDelta.delta).toEqual(
Delta.create(
{ name: "untitled scene", viewBackgroundColor: "#ffffff" },
{ name: "titled scene", viewBackgroundColor: "#000000" },
),
);
});
it("should squash selectedElementIds, selectedGroupIds and lockedMultiSelections", () => {
const delta1 = Delta.create<Partial<ObservedAppState>>(
{
name: "untitled scene",
selectedElementIds: { id1: true },
selectedGroupIds: {},
lockedMultiSelections: { g1: true },
},
{
name: "titled scene",
selectedElementIds: { id2: true },
selectedGroupIds: { g1: true },
lockedMultiSelections: {},
},
);
const delta2 = Delta.create<Partial<ObservedAppState>>(
{
selectedElementIds: { id3: true },
selectedGroupIds: { g1: true },
lockedMultiSelections: {},
},
{
selectedElementIds: { id2: true },
selectedGroupIds: { g2: true, g3: true },
lockedMultiSelections: { g3: true },
},
);
const appStateDelta1 = AppStateDelta.create(delta1);
const appStateDelta2 = AppStateDelta.create(delta2);
const appStateDelta = appStateDelta1.squash(appStateDelta2);
expect(appStateDelta.isEmpty()).toBeFalsy();
expect(appStateDelta).toBe(appStateDelta1);
expect(appStateDelta.delta).toEqual(
Delta.create<Partial<ObservedAppState>>(
{
name: "untitled scene",
selectedElementIds: { id1: true, id3: true },
selectedGroupIds: { g1: true },
lockedMultiSelections: { g1: true },
},
{
name: "titled scene",
selectedElementIds: { id2: true },
selectedGroupIds: { g1: true, g2: true, g3: true },
lockedMultiSelections: { g3: true },
},
),
);
});
});
}); });
+128
View File
@@ -0,0 +1,128 @@
import {
distributeHorizontally,
distributeVertically,
} from "@excalidraw/excalidraw/actions";
import { defaultLang, setLanguage } from "@excalidraw/excalidraw/i18n";
import { Excalidraw } from "@excalidraw/excalidraw";
import { API } from "@excalidraw/excalidraw/tests/helpers/api";
import { UI, Pointer, Keyboard } from "@excalidraw/excalidraw/tests/helpers/ui";
import {
act,
unmountComponent,
render,
} from "@excalidraw/excalidraw/tests/test-utils";
const mouse = new Pointer("mouse");
// Scenario: three rectangles that will be distributed with gaps
const createAndSelectThreeRectanglesWithGap = () => {
UI.clickTool("rectangle");
mouse.down();
mouse.up(100, 100);
mouse.reset();
UI.clickTool("rectangle");
mouse.down(10, 10);
mouse.up(100, 100);
mouse.reset();
UI.clickTool("rectangle");
mouse.down(300, 300);
mouse.up(100, 100);
mouse.reset();
// Last rectangle is selected by default
Keyboard.withModifierKeys({ shift: true }, () => {
mouse.click(0, 10);
mouse.click(10, 0);
});
};
// Scenario: three rectangles that will be distributed by their centers
const createAndSelectThreeRectanglesWithoutGap = () => {
UI.clickTool("rectangle");
mouse.down();
mouse.up(100, 100);
mouse.reset();
UI.clickTool("rectangle");
mouse.down(10, 10);
mouse.up(200, 200);
mouse.reset();
UI.clickTool("rectangle");
mouse.down(200, 200);
mouse.up(100, 100);
mouse.reset();
// Last rectangle is selected by default
Keyboard.withModifierKeys({ shift: true }, () => {
mouse.click(0, 10);
mouse.click(10, 0);
});
};
describe("distributing", () => {
beforeEach(async () => {
unmountComponent();
mouse.reset();
await act(() => {
return setLanguage(defaultLang);
});
await render(<Excalidraw handleKeyboardGlobally={true} />);
});
it("should distribute selected elements horizontally", async () => {
createAndSelectThreeRectanglesWithGap();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(10);
expect(API.getSelectedElements()[2].x).toEqual(300);
API.executeAction(distributeHorizontally);
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(150);
expect(API.getSelectedElements()[2].x).toEqual(300);
});
it("should distribute selected elements vertically", async () => {
createAndSelectThreeRectanglesWithGap();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(10);
expect(API.getSelectedElements()[2].y).toEqual(300);
API.executeAction(distributeVertically);
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(150);
expect(API.getSelectedElements()[2].y).toEqual(300);
});
it("should distribute selected elements horizontally based on their centers", async () => {
createAndSelectThreeRectanglesWithoutGap();
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(10);
expect(API.getSelectedElements()[2].x).toEqual(200);
API.executeAction(distributeHorizontally);
expect(API.getSelectedElements()[0].x).toEqual(0);
expect(API.getSelectedElements()[1].x).toEqual(50);
expect(API.getSelectedElements()[2].x).toEqual(200);
});
it("should distribute selected elements vertically with based on their centers", async () => {
createAndSelectThreeRectanglesWithoutGap();
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(10);
expect(API.getSelectedElements()[2].y).toEqual(200);
API.executeAction(distributeVertically);
expect(API.getSelectedElements()[0].y).toEqual(0);
expect(API.getSelectedElements()[1].y).toEqual(50);
expect(API.getSelectedElements()[2].y).toEqual(200);
});
});
@@ -505,8 +505,6 @@ describe("group-related duplication", () => {
mouse.up(frame.x + frame.width + 50, frame.y + frame.height + 50); mouse.up(frame.x + frame.width + 50, frame.y + frame.height + 50);
}); });
// console.log(h.elements);
assertElements(h.elements, [ assertElements(h.elements, [
{ id: frame.id }, { id: frame.id },
{ id: rectangle1.id, frameId: frame.id }, { id: rectangle1.id, frameId: frame.id },
+153
View File
@@ -0,0 +1,153 @@
import { getEmbedLink } from "../src/embeddable";
describe("YouTube timestamp parsing", () => {
it("should parse YouTube URLs with timestamp in seconds", () => {
const testCases = [
{
url: "https://www.youtube.com/watch?v=dQw4w9WgXcQ&t=90",
expectedStart: 90,
},
{
url: "https://youtu.be/dQw4w9WgXcQ?t=120",
expectedStart: 120,
},
{
url: "https://www.youtube.com/watch?v=dQw4w9WgXcQ&start=150",
expectedStart: 150,
},
];
testCases.forEach(({ url, expectedStart }) => {
const result = getEmbedLink(url);
expect(result).toBeTruthy();
expect(result?.type).toBe("video");
if (result?.type === "video" || result?.type === "generic") {
expect(result.link).toContain(`start=${expectedStart}`);
}
});
});
it("should parse YouTube URLs with timestamp in time format", () => {
const testCases = [
{
url: "https://www.youtube.com/watch?v=dQw4w9WgXcQ&t=1m30s",
expectedStart: 90, // 1*60 + 30
},
{
url: "https://youtu.be/dQw4w9WgXcQ?t=2m45s",
expectedStart: 165, // 2*60 + 45
},
{
url: "https://www.youtube.com/watch?v=dQw4w9WgXcQ&t=1h2m3s",
expectedStart: 3723, // 1*3600 + 2*60 + 3
},
{
url: "https://www.youtube.com/watch?v=dQw4w9WgXcQ&t=45s",
expectedStart: 45,
},
{
url: "https://www.youtube.com/watch?v=dQw4w9WgXcQ&t=5m",
expectedStart: 300, // 5*60
},
{
url: "https://www.youtube.com/watch?v=dQw4w9WgXcQ&t=2h",
expectedStart: 7200, // 2*3600
},
];
testCases.forEach(({ url, expectedStart }) => {
const result = getEmbedLink(url);
expect(result).toBeTruthy();
expect(result?.type).toBe("video");
if (result?.type === "video" || result?.type === "generic") {
expect(result.link).toContain(`start=${expectedStart}`);
}
});
});
it("should handle YouTube URLs without timestamps", () => {
const testCases = [
"https://www.youtube.com/watch?v=dQw4w9WgXcQ",
"https://youtu.be/dQw4w9WgXcQ",
"https://www.youtube.com/embed/dQw4w9WgXcQ",
];
testCases.forEach((url) => {
const result = getEmbedLink(url);
expect(result).toBeTruthy();
expect(result?.type).toBe("video");
if (result?.type === "video" || result?.type === "generic") {
expect(result.link).not.toContain("start=");
}
});
});
it("should handle YouTube shorts URLs with timestamps", () => {
const url = "https://www.youtube.com/shorts/dQw4w9WgXcQ?t=30";
const result = getEmbedLink(url);
expect(result).toBeTruthy();
expect(result?.type).toBe("video");
if (result?.type === "video" || result?.type === "generic") {
expect(result.link).toContain("start=30");
}
// Shorts should have portrait aspect ratio
expect(result?.intrinsicSize).toEqual({ w: 315, h: 560 });
});
it("should handle playlist URLs with timestamps", () => {
const url =
"https://www.youtube.com/playlist?list=PLrAXtmRdnEQy1KbG5lbfgQ0-PKQY6FKYZ&t=60";
const result = getEmbedLink(url);
expect(result).toBeTruthy();
expect(result?.type).toBe("video");
if (result?.type === "video" || result?.type === "generic") {
expect(result.link).toContain("start=60");
expect(result.link).toContain("list=PLrAXtmRdnEQy1KbG5lbfgQ0-PKQY6FKYZ");
}
});
it("should handle malformed or edge case timestamps", () => {
const testCases = [
{
url: "https://www.youtube.com/watch?v=dQw4w9WgXcQ&t=abc",
expectedStart: 0, // Invalid timestamp should default to 0
},
{
url: "https://www.youtube.com/watch?v=dQw4w9WgXcQ&t=",
expectedStart: 0, // Empty timestamp should default to 0
},
{
url: "https://www.youtube.com/watch?v=dQw4w9WgXcQ&t=0",
expectedStart: 0, // Zero timestamp should be handled
},
];
testCases.forEach(({ url, expectedStart }) => {
const result = getEmbedLink(url);
expect(result).toBeTruthy();
expect(result?.type).toBe("video");
if (result?.type === "video" || result?.type === "generic") {
if (expectedStart === 0) {
expect(result.link).not.toContain("start=");
} else {
expect(result.link).toContain(`start=${expectedStart}`);
}
}
});
});
it("should preserve other URL parameters", () => {
const url =
"https://www.youtube.com/watch?v=dQw4w9WgXcQ&t=90&feature=youtu.be&list=PLtest";
const result = getEmbedLink(url);
expect(result).toBeTruthy();
expect(result?.type).toBe("video");
if (result?.type === "video" || result?.type === "generic") {
expect(result.link).toContain("start=90");
expect(result.link).toContain("enablejsapi=1");
}
});
});
@@ -1,6 +1,5 @@
import { pointCenter, pointFrom } from "@excalidraw/math"; import { pointCenter, pointFrom } from "@excalidraw/math";
import { act, queryByTestId, queryByText } from "@testing-library/react"; import { act, queryByTestId, queryByText } from "@testing-library/react";
import React from "react";
import { vi } from "vitest"; import { vi } from "vitest";
import { import {
@@ -33,6 +32,11 @@ import { getBoundTextElementPosition, getBoundTextMaxWidth } from "../src";
import { LinearElementEditor } from "../src"; import { LinearElementEditor } from "../src";
import { newArrowElement } from "../src"; import { newArrowElement } from "../src";
import {
getTextEditor,
TEXT_EDITOR_SELECTOR,
} from "../../excalidraw/tests/queries/dom";
import type { import type {
ExcalidrawElement, ExcalidrawElement,
ExcalidrawLinearElement, ExcalidrawLinearElement,
@@ -132,7 +136,8 @@ describe("Test Linear Elements", () => {
Keyboard.withModifierKeys({ ctrl: true }, () => { Keyboard.withModifierKeys({ ctrl: true }, () => {
Keyboard.keyPress(KEYS.ENTER); Keyboard.keyPress(KEYS.ENTER);
}); });
expect(h.state.editingLinearElement?.elementId).toEqual(line.id); expect(h.state.selectedLinearElement?.isEditing).toBe(true);
expect(h.state.selectedLinearElement?.elementId).toEqual(line.id);
}; };
const drag = (startPoint: GlobalPoint, endPoint: GlobalPoint) => { const drag = (startPoint: GlobalPoint, endPoint: GlobalPoint) => {
@@ -249,17 +254,99 @@ describe("Test Linear Elements", () => {
}); });
fireEvent.click(queryByText(contextMenu as HTMLElement, "Edit line")!); fireEvent.click(queryByText(contextMenu as HTMLElement, "Edit line")!);
expect(h.state.editingLinearElement?.elementId).toEqual(h.elements[0].id); expect(h.state.selectedLinearElement?.isEditing).toBe(true);
expect(h.state.selectedLinearElement?.elementId).toEqual(h.elements[0].id);
}); });
it("should enter line editor when using double clicked with ctrl key", () => { it("should enter line editor via enter (line)", () => {
createTwoPointerLinearElement("line"); createTwoPointerLinearElement("line");
expect(h.state.editingLinearElement?.elementId).toBeUndefined(); expect(h.state.selectedLinearElement?.isEditing).toBe(false);
mouse.clickAt(midpoint[0], midpoint[1]);
Keyboard.keyPress(KEYS.ENTER);
expect(h.state.selectedLinearElement?.isEditing).toBe(true);
expect(h.state.selectedLinearElement?.elementId).toEqual(h.elements[0].id);
});
// ctrl+enter alias (to align with arrows)
it("should enter line editor via ctrl+enter (line)", () => {
createTwoPointerLinearElement("line");
expect(h.state.selectedLinearElement?.isEditing).toBe(false);
mouse.clickAt(midpoint[0], midpoint[1]);
Keyboard.withModifierKeys({ ctrl: true }, () => {
Keyboard.keyPress(KEYS.ENTER);
});
expect(h.state.selectedLinearElement?.isEditing).toBe(true);
expect(h.state.selectedLinearElement?.elementId).toEqual(h.elements[0].id);
});
it("should enter line editor via ctrl+enter (arrow)", () => {
createTwoPointerLinearElement("arrow");
expect(h.state.selectedLinearElement?.isEditing).toBe(false);
mouse.clickAt(midpoint[0], midpoint[1]);
Keyboard.withModifierKeys({ ctrl: true }, () => {
Keyboard.keyPress(KEYS.ENTER);
});
expect(h.state.selectedLinearElement?.isEditing).toBe(true);
expect(h.state.selectedLinearElement?.elementId).toEqual(h.elements[0].id);
});
it("should enter line editor on ctrl+dblclick (simple arrow)", () => {
createTwoPointerLinearElement("arrow");
expect(h.state.selectedLinearElement?.isEditing).toBe(false);
Keyboard.withModifierKeys({ ctrl: true }, () => { Keyboard.withModifierKeys({ ctrl: true }, () => {
mouse.doubleClick(); mouse.doubleClick();
}); });
expect(h.state.editingLinearElement?.elementId).toEqual(h.elements[0].id); expect(h.state.selectedLinearElement?.isEditing).toBe(true);
expect(h.state.selectedLinearElement?.elementId).toEqual(h.elements[0].id);
});
it("should enter line editor on ctrl+dblclick (line)", () => {
createTwoPointerLinearElement("line");
expect(h.state.selectedLinearElement?.isEditing).toBe(false);
Keyboard.withModifierKeys({ ctrl: true }, () => {
mouse.doubleClick();
});
expect(h.state.selectedLinearElement?.isEditing).toBe(true);
expect(h.state.selectedLinearElement?.elementId).toEqual(h.elements[0].id);
});
it("should enter line editor on dblclick (line)", () => {
createTwoPointerLinearElement("line");
expect(h.state.selectedLinearElement?.isEditing).toBe(false);
mouse.doubleClick();
expect(h.state.selectedLinearElement?.isEditing).toBe(true);
expect(h.state.selectedLinearElement?.elementId).toEqual(h.elements[0].id);
});
it("should not enter line editor on dblclick (arrow)", async () => {
createTwoPointerLinearElement("arrow");
expect(h.state.selectedLinearElement?.isEditing).toBe(false);
mouse.doubleClick();
expect(h.state.selectedLinearElement).toBe(null);
await getTextEditor();
});
it("shouldn't create text element on double click in line editor (arrow)", async () => {
createTwoPointerLinearElement("arrow");
const arrow = h.elements[0] as ExcalidrawLinearElement;
enterLineEditingMode(arrow);
expect(h.state.selectedLinearElement?.isEditing).toBe(true);
expect(h.state.selectedLinearElement?.elementId).toEqual(arrow.id);
mouse.doubleClick();
expect(h.state.selectedLinearElement?.isEditing).toBe(true);
expect(h.state.selectedLinearElement?.elementId).toEqual(arrow.id);
expect(h.elements.length).toEqual(1);
expect(document.querySelector(TEXT_EDITOR_SELECTOR)).toBe(null);
}); });
describe("Inside editor", () => { describe("Inside editor", () => {
@@ -290,7 +377,7 @@ describe("Test Linear Elements", () => {
// drag line from midpoint // drag line from midpoint
drag(midpoint, pointFrom(midpoint[0] + delta, midpoint[1] + delta)); drag(midpoint, pointFrom(midpoint[0] + delta, midpoint[1] + delta));
expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot( expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot(
`12`, `11`,
); );
expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`6`); expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`6`);
@@ -346,12 +433,12 @@ describe("Test Linear Elements", () => {
expect(midPointsWithRoundEdge).toMatchInlineSnapshot(` expect(midPointsWithRoundEdge).toMatchInlineSnapshot(`
[ [
[ [
"55.96978", "54.27552",
"47.44233", "46.16120",
], ],
[ [
"76.08587", "76.95494",
"43.29417", "44.56052",
], ],
] ]
`); `);
@@ -392,7 +479,7 @@ describe("Test Linear Elements", () => {
drag(startPoint, endPoint); drag(startPoint, endPoint);
expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot( expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot(
`12`, `11`,
); );
expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`7`); expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`7`);
@@ -411,12 +498,12 @@ describe("Test Linear Elements", () => {
expect(newMidPoints).toMatchInlineSnapshot(` expect(newMidPoints).toMatchInlineSnapshot(`
[ [
[ [
"105.96978", "104.27552",
"67.44233", "66.16120",
], ],
[ [
"126.08587", "126.95494",
"63.29417", "64.56052",
], ],
] ]
`); `);
@@ -460,7 +547,7 @@ describe("Test Linear Elements", () => {
); );
expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot( expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot(
`16`, `14`,
); );
expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`7`); expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`7`);
@@ -511,7 +598,7 @@ describe("Test Linear Elements", () => {
drag(hitCoords, pointFrom(hitCoords[0] - delta, hitCoords[1] - delta)); drag(hitCoords, pointFrom(hitCoords[0] - delta, hitCoords[1] - delta));
expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot( expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot(
`12`, `11`,
); );
expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`6`); expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`6`);
@@ -552,7 +639,7 @@ describe("Test Linear Elements", () => {
drag(hitCoords, pointFrom(hitCoords[0] + delta, hitCoords[1] + delta)); drag(hitCoords, pointFrom(hitCoords[0] + delta, hitCoords[1] + delta));
expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot( expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot(
`12`, `11`,
); );
expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`6`); expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`6`);
@@ -600,7 +687,7 @@ describe("Test Linear Elements", () => {
deletePoint(points[2]); deletePoint(points[2]);
expect(line.points.length).toEqual(3); expect(line.points.length).toEqual(3);
expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot( expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot(
`18`, `17`,
); );
expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`7`); expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`7`);
@@ -658,7 +745,7 @@ describe("Test Linear Elements", () => {
), ),
); );
expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot( expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot(
`16`, `14`,
); );
expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`7`); expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`7`);
expect(line.points.length).toEqual(5); expect(line.points.length).toEqual(5);
@@ -727,12 +814,12 @@ describe("Test Linear Elements", () => {
expect(newMidPoints).toMatchInlineSnapshot(` expect(newMidPoints).toMatchInlineSnapshot(`
[ [
[ [
"31.88408", "29.28349",
"23.13276", "20.91105",
], ],
[ [
"77.74793", "78.86048",
"44.57841", "46.12277",
], ],
] ]
`); `);
@@ -756,7 +843,7 @@ describe("Test Linear Elements", () => {
drag(hitCoords, pointFrom(hitCoords[0] + delta, hitCoords[1] + delta)); drag(hitCoords, pointFrom(hitCoords[0] + delta, hitCoords[1] + delta));
expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot( expect(renderInteractiveScene.mock.calls.length).toMatchInlineSnapshot(
`12`, `11`,
); );
expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`6`); expect(renderStaticScene.mock.calls.length).toMatchInlineSnapshot(`6`);
@@ -816,12 +903,12 @@ describe("Test Linear Elements", () => {
expect(newMidPoints).toMatchInlineSnapshot(` expect(newMidPoints).toMatchInlineSnapshot(`
[ [
[ [
"55.96978", "54.27552",
"47.44233", "46.16120",
], ],
[ [
"76.08587", "76.95494",
"43.29417", "44.56052",
], ],
] ]
`); `);
@@ -983,19 +1070,17 @@ describe("Test Linear Elements", () => {
); );
expect(position).toMatchInlineSnapshot(` expect(position).toMatchInlineSnapshot(`
{ {
"x": "85.82202", "x": "86.17305",
"y": "75.63461", "y": "76.11251",
} }
`); `);
}); });
}); });
it("should match styles for text editor", () => { it("should match styles for text editor", async () => {
createTwoPointerLinearElement("arrow"); createTwoPointerLinearElement("arrow");
Keyboard.keyPress(KEYS.ENTER); Keyboard.keyPress(KEYS.ENTER);
const editor = document.querySelector( const editor = await getTextEditor();
".excalidraw-textEditorContainer > textarea",
) as HTMLTextAreaElement;
expect(editor).toMatchSnapshot(); expect(editor).toMatchSnapshot();
}); });
@@ -1012,9 +1097,7 @@ describe("Test Linear Elements", () => {
expect(text.type).toBe("text"); expect(text.type).toBe("text");
expect(text.containerId).toBe(arrow.id); expect(text.containerId).toBe(arrow.id);
mouse.down(); mouse.down();
const editor = document.querySelector( const editor = await getTextEditor();
".excalidraw-textEditorContainer > textarea",
) as HTMLTextAreaElement;
fireEvent.change(editor, { fireEvent.change(editor, {
target: { value: DEFAULT_TEXT }, target: { value: DEFAULT_TEXT },
@@ -1042,9 +1125,7 @@ describe("Test Linear Elements", () => {
const textElement = h.elements[1] as ExcalidrawTextElementWithContainer; const textElement = h.elements[1] as ExcalidrawTextElementWithContainer;
expect(textElement.type).toBe("text"); expect(textElement.type).toBe("text");
expect(textElement.containerId).toBe(arrow.id); expect(textElement.containerId).toBe(arrow.id);
const editor = document.querySelector( const editor = await getTextEditor();
".excalidraw-textEditorContainer > textarea",
) as HTMLTextAreaElement;
fireEvent.change(editor, { fireEvent.change(editor, {
target: { value: DEFAULT_TEXT }, target: { value: DEFAULT_TEXT },
@@ -1063,13 +1144,7 @@ describe("Test Linear Elements", () => {
expect(h.elements.length).toBe(1); expect(h.elements.length).toBe(1);
mouse.doubleClickAt(line.x, line.y); mouse.doubleClickAt(line.x, line.y);
expect(h.elements.length).toBe(1);
expect(h.elements.length).toBe(2);
const text = h.elements[1] as ExcalidrawTextElementWithContainer;
expect(text.type).toBe("text");
expect(text.containerId).toBeNull();
expect(line.boundElements).toBeNull();
}); });
// TODO fix #7029 and rewrite this test // TODO fix #7029 and rewrite this test
@@ -1234,9 +1309,7 @@ describe("Test Linear Elements", () => {
mouse.select(arrow); mouse.select(arrow);
Keyboard.keyPress(KEYS.ENTER); Keyboard.keyPress(KEYS.ENTER);
const editor = document.querySelector( const editor = await getTextEditor();
".excalidraw-textEditorContainer > textarea",
) as HTMLTextAreaElement;
fireEvent.change(editor, { target: { value: DEFAULT_TEXT } }); fireEvent.change(editor, { target: { value: DEFAULT_TEXT } });
Keyboard.exitTextEditor(editor); Keyboard.exitTextEditor(editor);
@@ -1262,7 +1335,7 @@ describe("Test Linear Elements", () => {
mouse.downAt(rect.x, rect.y); mouse.downAt(rect.x, rect.y);
mouse.moveTo(200, 0); mouse.moveTo(200, 0);
mouse.upAt(200, 0); mouse.upAt(200, 0);
expect(arrow.width).toBeCloseTo(204, 0); expect(arrow.width).toBeCloseTo(200, 0);
expect(rect.x).toBe(200); expect(rect.x).toBe(200);
expect(rect.y).toBe(0); expect(rect.y).toBe(0);
expect(handleBindTextResizeSpy).toHaveBeenCalledWith( expect(handleBindTextResizeSpy).toHaveBeenCalledWith(
@@ -1411,5 +1484,55 @@ describe("Test Linear Elements", () => {
expect(line.points[line.points.length - 1][0]).toBe(20); expect(line.points[line.points.length - 1][0]).toBe(20);
expect(line.points[line.points.length - 1][1]).toBe(-20); expect(line.points[line.points.length - 1][1]).toBe(-20);
}); });
it("should preserve original angle when dragging endpoint with SHIFT key", () => {
createTwoPointerLinearElement("line");
const line = h.elements[0] as ExcalidrawLinearElement;
enterLineEditingMode(line);
const elementsMap = arrayToMap(h.elements);
const points = LinearElementEditor.getPointsGlobalCoordinates(
line,
elementsMap,
);
// Calculate original angle between first and last point
const originalAngle = Math.atan2(
points[1][1] - points[0][1],
points[1][0] - points[0][0],
);
// Drag the second point (endpoint) with SHIFT key pressed
const startPoint = pointFrom<GlobalPoint>(points[1][0], points[1][1]);
const endPoint = pointFrom<GlobalPoint>(
startPoint[0] + 4,
startPoint[1] + 4,
);
// Perform drag with SHIFT key modifier
Keyboard.withModifierKeys({ shift: true }, () => {
mouse.downAt(startPoint[0], startPoint[1]);
mouse.moveTo(endPoint[0], endPoint[1]);
mouse.upAt(endPoint[0], endPoint[1]);
});
// Get updated points after drag
const updatedPoints = LinearElementEditor.getPointsGlobalCoordinates(
line,
elementsMap,
);
// Calculate new angle
const newAngle = Math.atan2(
updatedPoints[1][1] - updatedPoints[0][1],
updatedPoints[1][0] - updatedPoints[0][0],
);
// The angle should be preserved (within a small tolerance for floating point precision)
const angleDifference = Math.abs(newAngle - originalAngle);
const tolerance = 0.01; // Small tolerance for floating point precision
expect(angleDifference).toBeLessThan(tolerance);
});
}); });
}); });
+6 -6
View File
@@ -510,12 +510,12 @@ describe("arrow element", () => {
h.state, h.state,
)[0] as ExcalidrawElbowArrowElement; )[0] as ExcalidrawElbowArrowElement;
expect(arrow.startBinding?.fixedPoint?.[0]).toBeCloseTo(1); expect(arrow.startBinding?.fixedPoint?.[0]).toBeCloseTo(1.05);
expect(arrow.startBinding?.fixedPoint?.[1]).toBeCloseTo(0.75); expect(arrow.startBinding?.fixedPoint?.[1]).toBeCloseTo(0.75);
UI.resize(rectangle, "se", [-200, -150]); UI.resize(rectangle, "se", [-200, -150]);
expect(arrow.startBinding?.fixedPoint?.[0]).toBeCloseTo(1); expect(arrow.startBinding?.fixedPoint?.[0]).toBeCloseTo(1.05);
expect(arrow.startBinding?.fixedPoint?.[1]).toBeCloseTo(0.75); expect(arrow.startBinding?.fixedPoint?.[1]).toBeCloseTo(0.75);
}); });
@@ -538,11 +538,11 @@ describe("arrow element", () => {
h.state, h.state,
)[0] as ExcalidrawElbowArrowElement; )[0] as ExcalidrawElbowArrowElement;
expect(arrow.startBinding?.fixedPoint?.[0]).toBeCloseTo(1); expect(arrow.startBinding?.fixedPoint?.[0]).toBeCloseTo(1.05);
expect(arrow.startBinding?.fixedPoint?.[1]).toBeCloseTo(0.75); expect(arrow.startBinding?.fixedPoint?.[1]).toBeCloseTo(0.75);
UI.resize([rectangle, arrow], "nw", [300, 350]); UI.resize([rectangle, arrow], "nw", [300, 350]);
expect(arrow.startBinding?.fixedPoint?.[0]).toBeCloseTo(0); expect(arrow.startBinding?.fixedPoint?.[0]).toBeCloseTo(-0.05);
expect(arrow.startBinding?.fixedPoint?.[1]).toBeCloseTo(0.25); expect(arrow.startBinding?.fixedPoint?.[1]).toBeCloseTo(0.25);
}); });
}); });
@@ -819,7 +819,7 @@ describe("image element", () => {
UI.resize(image, "ne", [40, 0]); UI.resize(image, "ne", [40, 0]);
expect(arrow.width + arrow.endBinding!.gap).toBeCloseTo(31, 0); expect(arrow.width + arrow.endBinding!.gap).toBeCloseTo(30, 0);
const imageWidth = image.width; const imageWidth = image.width;
const scale = 20 / image.height; const scale = 20 / image.height;
@@ -1033,7 +1033,7 @@ describe("multiple selection", () => {
expect(leftBoundArrow.x).toBeCloseTo(-110); expect(leftBoundArrow.x).toBeCloseTo(-110);
expect(leftBoundArrow.y).toBeCloseTo(50); expect(leftBoundArrow.y).toBeCloseTo(50);
expect(leftBoundArrow.width).toBeCloseTo(143, 0); expect(leftBoundArrow.width).toBeCloseTo(140, 0);
expect(leftBoundArrow.height).toBeCloseTo(7, 0); expect(leftBoundArrow.height).toBeCloseTo(7, 0);
expect(leftBoundArrow.angle).toEqual(0); expect(leftBoundArrow.angle).toEqual(0);
expect(leftBoundArrow.startBinding).toBeNull(); expect(leftBoundArrow.startBinding).toBeNull();
@@ -1,7 +1,5 @@
import { vi } from "vitest"; import { vi } from "vitest";
import * as constants from "@excalidraw/common";
import { getPerfectElementSize } from "../src/sizeHelpers"; import { getPerfectElementSize } from "../src/sizeHelpers";
const EPSILON_DIGITS = 3; const EPSILON_DIGITS = 3;
@@ -57,13 +55,4 @@ describe("getPerfectElementSize", () => {
expect(width).toBeCloseTo(0, EPSILON_DIGITS); expect(width).toBeCloseTo(0, EPSILON_DIGITS);
expect(height).toBeCloseTo(0, EPSILON_DIGITS); expect(height).toBeCloseTo(0, EPSILON_DIGITS);
}); });
describe("should respond to SHIFT_LOCKING_ANGLE constant", () => {
it("should have only 2 locking angles per section if SHIFT_LOCKING_ANGLE = 45 deg (Math.PI/4)", () => {
(constants as any).SHIFT_LOCKING_ANGLE = Math.PI / 4;
const { height, width } = getPerfectElementSize("arrow", 120, 185);
expect(width).toBeCloseTo(120, EPSILON_DIGITS);
expect(height).toBeCloseTo(120, EPSILON_DIGITS);
});
});
}); });
+13 -2
View File
@@ -10,6 +10,8 @@ import { alignElements } from "@excalidraw/element";
import { CaptureUpdateAction } from "@excalidraw/element"; import { CaptureUpdateAction } from "@excalidraw/element";
import { getSelectedElementsByGroup } from "@excalidraw/element";
import type { ExcalidrawElement } from "@excalidraw/element/types"; import type { ExcalidrawElement } from "@excalidraw/element/types";
import type { Alignment } from "@excalidraw/element"; import type { Alignment } from "@excalidraw/element";
@@ -38,7 +40,11 @@ export const alignActionsPredicate = (
) => { ) => {
const selectedElements = app.scene.getSelectedElements(appState); const selectedElements = app.scene.getSelectedElements(appState);
return ( return (
selectedElements.length > 1 && getSelectedElementsByGroup(
selectedElements,
app.scene.getNonDeletedElementsMap(),
appState as Readonly<AppState>,
).length > 1 &&
// TODO enable aligning frames when implemented properly // TODO enable aligning frames when implemented properly
!selectedElements.some((el) => isFrameLikeElement(el)) !selectedElements.some((el) => isFrameLikeElement(el))
); );
@@ -52,7 +58,12 @@ const alignSelectedElements = (
) => { ) => {
const selectedElements = app.scene.getSelectedElements(appState); const selectedElements = app.scene.getSelectedElements(appState);
const updatedElements = alignElements(selectedElements, alignment, app.scene); const updatedElements = alignElements(
selectedElements,
alignment,
app.scene,
appState,
);
const updatedElementsMap = arrayToMap(updatedElements); const updatedElementsMap = arrayToMap(updatedElements);
+6 -3
View File
@@ -121,7 +121,7 @@ export const actionClearCanvas = register({
pasteDialog: appState.pasteDialog, pasteDialog: appState.pasteDialog,
activeTool: activeTool:
appState.activeTool.type === "image" appState.activeTool.type === "image"
? { ...appState.activeTool, type: "selection" } ? { ...appState.activeTool, type: app.defaultSelectionTool }
: appState.activeTool, : appState.activeTool,
}, },
captureUpdate: CaptureUpdateAction.IMMEDIATELY, captureUpdate: CaptureUpdateAction.IMMEDIATELY,
@@ -494,13 +494,13 @@ export const actionToggleEraserTool = register({
name: "toggleEraserTool", name: "toggleEraserTool",
label: "toolBar.eraser", label: "toolBar.eraser",
trackEvent: { category: "toolbar" }, trackEvent: { category: "toolbar" },
perform: (elements, appState) => { perform: (elements, appState, _, app) => {
let activeTool: AppState["activeTool"]; let activeTool: AppState["activeTool"];
if (isEraserActive(appState)) { if (isEraserActive(appState)) {
activeTool = updateActiveTool(appState, { activeTool = updateActiveTool(appState, {
...(appState.activeTool.lastActiveTool || { ...(appState.activeTool.lastActiveTool || {
type: "selection", type: app.defaultSelectionTool,
}), }),
lastActiveToolBeforeEraser: null, lastActiveToolBeforeEraser: null,
}); });
@@ -530,6 +530,9 @@ export const actionToggleLassoTool = register({
label: "toolBar.lasso", label: "toolBar.lasso",
icon: LassoIcon, icon: LassoIcon,
trackEvent: { category: "toolbar" }, trackEvent: { category: "toolbar" },
predicate: (elements, appState, props, app) => {
return app.defaultSelectionTool !== "lasso";
},
perform: (elements, appState, _, app) => { perform: (elements, appState, _, app) => {
let activeTool: AppState["activeTool"]; let activeTool: AppState["activeTool"];
@@ -205,16 +205,19 @@ export const actionDeleteSelected = register({
icon: TrashIcon, icon: TrashIcon,
trackEvent: { category: "element", action: "delete" }, trackEvent: { category: "element", action: "delete" },
perform: (elements, appState, formData, app) => { perform: (elements, appState, formData, app) => {
if (appState.editingLinearElement) { if (appState.selectedLinearElement?.isEditing) {
const { const {
elementId, elementId,
selectedPointsIndices, selectedPointsIndices,
startBindingElement, startBindingElement,
endBindingElement, endBindingElement,
} = appState.editingLinearElement; } = appState.selectedLinearElement;
const elementsMap = app.scene.getNonDeletedElementsMap(); const elementsMap = app.scene.getNonDeletedElementsMap();
const element = LinearElementEditor.getElement(elementId, elementsMap); const linearElement = LinearElementEditor.getElement(
if (!element) { elementId,
elementsMap,
);
if (!linearElement) {
return false; return false;
} }
// case: no point selected → do nothing, as deleting the whole element // case: no point selected → do nothing, as deleting the whole element
@@ -225,10 +228,10 @@ export const actionDeleteSelected = register({
return false; return false;
} }
// case: deleting last remaining point // case: deleting all points
if (element.points.length < 2) { if (selectedPointsIndices.length >= linearElement.points.length) {
const nextElements = elements.map((el) => { const nextElements = elements.map((el) => {
if (el.id === element.id) { if (el.id === linearElement.id) {
return newElementWith(el, { isDeleted: true }); return newElementWith(el, { isDeleted: true });
} }
return el; return el;
@@ -239,7 +242,7 @@ export const actionDeleteSelected = register({
elements: nextElements, elements: nextElements,
appState: { appState: {
...nextAppState, ...nextAppState,
editingLinearElement: null, selectedLinearElement: null,
}, },
captureUpdate: CaptureUpdateAction.IMMEDIATELY, captureUpdate: CaptureUpdateAction.IMMEDIATELY,
}; };
@@ -252,15 +255,15 @@ export const actionDeleteSelected = register({
? null ? null
: startBindingElement, : startBindingElement,
endBindingElement: selectedPointsIndices?.includes( endBindingElement: selectedPointsIndices?.includes(
element.points.length - 1, linearElement.points.length - 1,
) )
? null ? null
: endBindingElement, : endBindingElement,
}; };
LinearElementEditor.deletePoints( LinearElementEditor.deletePoints(
element, linearElement,
app.scene, app,
selectedPointsIndices, selectedPointsIndices,
); );
@@ -268,8 +271,8 @@ export const actionDeleteSelected = register({
elements, elements,
appState: { appState: {
...appState, ...appState,
editingLinearElement: { selectedLinearElement: {
...appState.editingLinearElement, ...appState.selectedLinearElement,
...binding, ...binding,
selectedPointsIndices: selectedPointsIndices:
selectedPointsIndices?.[0] > 0 selectedPointsIndices?.[0] > 0
@@ -295,7 +298,9 @@ export const actionDeleteSelected = register({
elements: nextElements, elements: nextElements,
appState: { appState: {
...nextAppState, ...nextAppState,
activeTool: updateActiveTool(appState, { type: "selection" }), activeTool: updateActiveTool(appState, {
type: app.defaultSelectionTool,
}),
multiElement: null, multiElement: null,
activeEmbeddable: null, activeEmbeddable: null,
selectedLinearElement: null, selectedLinearElement: null,
@@ -10,6 +10,8 @@ import { distributeElements } from "@excalidraw/element";
import { CaptureUpdateAction } from "@excalidraw/element"; import { CaptureUpdateAction } from "@excalidraw/element";
import { getSelectedElementsByGroup } from "@excalidraw/element";
import type { ExcalidrawElement } from "@excalidraw/element/types"; import type { ExcalidrawElement } from "@excalidraw/element/types";
import type { Distribution } from "@excalidraw/element"; import type { Distribution } from "@excalidraw/element";
@@ -31,7 +33,11 @@ import type { AppClassProperties, AppState } from "../types";
const enableActionGroup = (appState: AppState, app: AppClassProperties) => { const enableActionGroup = (appState: AppState, app: AppClassProperties) => {
const selectedElements = app.scene.getSelectedElements(appState); const selectedElements = app.scene.getSelectedElements(appState);
return ( return (
selectedElements.length > 1 && getSelectedElementsByGroup(
selectedElements,
app.scene.getNonDeletedElementsMap(),
appState as Readonly<AppState>,
).length > 2 &&
// TODO enable distributing frames when implemented properly // TODO enable distributing frames when implemented properly
!selectedElements.some((el) => isFrameLikeElement(el)) !selectedElements.some((el) => isFrameLikeElement(el))
); );
@@ -49,6 +55,7 @@ const distributeSelectedElements = (
selectedElements, selectedElements,
app.scene.getNonDeletedElementsMap(), app.scene.getNonDeletedElementsMap(),
distribution, distribution,
appState,
); );
const updatedElementsMap = arrayToMap(updatedElements); const updatedElementsMap = arrayToMap(updatedElements);
@@ -39,7 +39,7 @@ export const actionDuplicateSelection = register({
} }
// duplicate selected point(s) if editing a line // duplicate selected point(s) if editing a line
if (appState.editingLinearElement) { if (appState.selectedLinearElement?.isEditing) {
// TODO: Invariants should be checked here instead of duplicateSelectedPoints() // TODO: Invariants should be checked here instead of duplicateSelectedPoints()
try { try {
const newAppState = LinearElementEditor.duplicateSelectedPoints( const newAppState = LinearElementEditor.duplicateSelectedPoints(
+179 -79
View File
@@ -3,18 +3,40 @@ import { pointFrom } from "@excalidraw/math";
import { import {
maybeBindLinearElement, maybeBindLinearElement,
bindOrUnbindLinearElement, bindOrUnbindLinearElement,
isBindingEnabled,
} from "@excalidraw/element/binding";
import {
isValidPolygon,
LinearElementEditor,
newElementWith,
} from "@excalidraw/element"; } from "@excalidraw/element";
import { LinearElementEditor } from "@excalidraw/element";
import { isBindingElement, isLinearElement } from "@excalidraw/element"; import {
isBindingElement,
isFreeDrawElement,
isLinearElement,
isLineElement,
} from "@excalidraw/element";
import { KEYS, arrayToMap, updateActiveTool } from "@excalidraw/common"; import {
KEYS,
arrayToMap,
tupleToCoors,
updateActiveTool,
} from "@excalidraw/common";
import { isPathALoop } from "@excalidraw/element"; import { isPathALoop } from "@excalidraw/element";
import { isInvisiblySmallElement } from "@excalidraw/element"; import { isInvisiblySmallElement } from "@excalidraw/element";
import { CaptureUpdateAction } from "@excalidraw/element"; import { CaptureUpdateAction } from "@excalidraw/element";
import type { LocalPoint } from "@excalidraw/math";
import type {
ExcalidrawElement,
ExcalidrawLinearElement,
NonDeleted,
} from "@excalidraw/element/types";
import { t } from "../i18n"; import { t } from "../i18n";
import { resetCursor } from "../cursor"; import { resetCursor } from "../cursor";
import { done } from "../components/icons"; import { done } from "../components/icons";
@@ -28,14 +50,64 @@ export const actionFinalize = register({
name: "finalize", name: "finalize",
label: "", label: "",
trackEvent: false, trackEvent: false,
perform: (elements, appState, _, app) => { perform: (elements, appState, data, app) => {
const { interactiveCanvas, focusContainer, scene } = app; const { interactiveCanvas, focusContainer, scene } = app;
const { event, sceneCoords } =
(data as {
event?: PointerEvent;
sceneCoords?: { x: number; y: number };
}) ?? {};
const elementsMap = scene.getNonDeletedElementsMap(); const elementsMap = scene.getNonDeletedElementsMap();
if (appState.editingLinearElement) { if (event && appState.selectedLinearElement) {
const linearElementEditor = LinearElementEditor.handlePointerUp(
event,
appState.selectedLinearElement,
appState,
app.scene,
);
const { startBindingElement, endBindingElement } = linearElementEditor;
const element = app.scene.getElement(linearElementEditor.elementId);
if (isBindingElement(element)) {
bindOrUnbindLinearElement(
element,
startBindingElement,
endBindingElement,
app.scene,
);
}
if (linearElementEditor !== appState.selectedLinearElement) {
let newElements = elements;
if (element && isInvisiblySmallElement(element)) {
// TODO: #7348 in theory this gets recorded by the store, so the invisible elements could be restored by the undo/redo, which might be not what we would want
newElements = newElements.map((el) => {
if (el.id === element.id) {
return newElementWith(el, {
isDeleted: true,
});
}
return el;
});
}
return {
elements: newElements,
appState: {
selectedLinearElement: {
...linearElementEditor,
selectedPointsIndices: null,
},
suggestedBindings: [],
},
captureUpdate: CaptureUpdateAction.IMMEDIATELY,
};
}
}
if (appState.selectedLinearElement?.isEditing) {
const { elementId, startBindingElement, endBindingElement } = const { elementId, startBindingElement, endBindingElement } =
appState.editingLinearElement; appState.selectedLinearElement;
const element = LinearElementEditor.getElement(elementId, elementsMap); const element = LinearElementEditor.getElement(elementId, elementsMap);
if (element) { if (element) {
@@ -47,15 +119,30 @@ export const actionFinalize = register({
scene, scene,
); );
} }
if (isLineElement(element) && !isValidPolygon(element.points)) {
scene.mutateElement(element, {
polygon: false,
});
}
return { return {
elements: elements:
element.points.length < 2 || isInvisiblySmallElement(element) element.points.length < 2 || isInvisiblySmallElement(element)
? elements.filter((el) => el.id !== element.id) ? elements.map((el) => {
if (el.id === element.id) {
return newElementWith(el, { isDeleted: true });
}
return el;
})
: undefined, : undefined,
appState: { appState: {
...appState, ...appState,
cursorButton: "up", cursorButton: "up",
editingLinearElement: null, selectedLinearElement: new LinearElementEditor(
element,
arrayToMap(elementsMap),
false, // exit editing mode
),
}, },
captureUpdate: CaptureUpdateAction.IMMEDIATELY, captureUpdate: CaptureUpdateAction.IMMEDIATELY,
}; };
@@ -64,91 +151,108 @@ export const actionFinalize = register({
let newElements = elements; let newElements = elements;
const pendingImageElement =
appState.pendingImageElementId &&
scene.getElement(appState.pendingImageElementId);
if (pendingImageElement) {
scene.mutateElement(
pendingImageElement,
{ isDeleted: true },
{ informMutation: false, isDragging: false },
);
}
if (window.document.activeElement instanceof HTMLElement) { if (window.document.activeElement instanceof HTMLElement) {
focusContainer(); focusContainer();
} }
const multiPointElement = appState.multiElement let element: NonDeleted<ExcalidrawElement> | null = null;
? appState.multiElement if (appState.multiElement) {
: appState.newElement?.type === "freedraw" element = appState.multiElement;
? appState.newElement } else if (
: null; appState.newElement?.type === "freedraw" ||
isBindingElement(appState.newElement)
) {
element = appState.newElement;
} else if (Object.keys(appState.selectedElementIds).length === 1) {
const candidate = elementsMap.get(
Object.keys(appState.selectedElementIds)[0],
) as NonDeleted<ExcalidrawLinearElement> | undefined;
if (candidate) {
element = candidate;
}
}
if (multiPointElement) { if (element) {
// pen and mouse have hover // pen and mouse have hover
if ( if (appState.multiElement && element.type !== "freedraw") {
multiPointElement.type !== "freedraw" && const { points, lastCommittedPoint } = element;
appState.lastPointerDownWith !== "touch"
) {
const { points, lastCommittedPoint } = multiPointElement;
if ( if (
!lastCommittedPoint || !lastCommittedPoint ||
points[points.length - 1] !== lastCommittedPoint points[points.length - 1] !== lastCommittedPoint
) { ) {
scene.mutateElement(multiPointElement, { scene.mutateElement(element, {
points: multiPointElement.points.slice(0, -1), points: element.points.slice(0, -1),
}); });
} }
} }
if (isInvisiblySmallElement(multiPointElement)) { if (element && isInvisiblySmallElement(element)) {
// TODO: #7348 in theory this gets recorded by the store, so the invisible elements could be restored by the undo/redo, which might be not what we would want // TODO: #7348 in theory this gets recorded by the store, so the invisible elements could be restored by the undo/redo, which might be not what we would want
newElements = newElements.filter( newElements = newElements.map((el) => {
(el) => el.id !== multiPointElement.id, if (el.id === element?.id) {
); return newElementWith(el, { isDeleted: true });
}
return el;
});
} }
// If the multi point line closes the loop, if (isLinearElement(element) || isFreeDrawElement(element)) {
// set the last point to first point. // If the multi point line closes the loop,
// This ensures that loop remains closed at different scales. // set the last point to first point.
const isLoop = isPathALoop(multiPointElement.points, appState.zoom.value); // This ensures that loop remains closed at different scales.
if ( const isLoop = isPathALoop(element.points, appState.zoom.value);
multiPointElement.type === "line" ||
multiPointElement.type === "freedraw" if (isLoop && (isLineElement(element) || isFreeDrawElement(element))) {
) { const linePoints = element.points;
if (isLoop) {
const linePoints = multiPointElement.points;
const firstPoint = linePoints[0]; const firstPoint = linePoints[0];
scene.mutateElement(multiPointElement, { const points: LocalPoint[] = linePoints.map((p, index) =>
points: linePoints.map((p, index) => index === linePoints.length - 1
index === linePoints.length - 1 ? pointFrom(firstPoint[0], firstPoint[1])
? pointFrom(firstPoint[0], firstPoint[1]) : p,
: p, );
), if (isLineElement(element)) {
scene.mutateElement(element, {
points,
polygon: true,
});
} else {
scene.mutateElement(element, {
points,
});
}
}
if (isLineElement(element) && !isValidPolygon(element.points)) {
scene.mutateElement(element, {
polygon: false,
}); });
} }
}
if ( if (
isBindingElement(multiPointElement) && isBindingElement(element) &&
!isLoop && !isLoop &&
multiPointElement.points.length > 1 element.points.length > 1 &&
) { isBindingEnabled(appState)
const [x, y] = LinearElementEditor.getPointAtIndexGlobalCoordinates( ) {
multiPointElement, const coords =
-1, sceneCoords ??
arrayToMap(elements), tupleToCoors(
); LinearElementEditor.getPointAtIndexGlobalCoordinates(
maybeBindLinearElement(multiPointElement, appState, { x, y }, scene); element,
-1,
arrayToMap(elements),
),
);
maybeBindLinearElement(element, appState, coords, scene);
}
} }
} }
if ( if (
(!appState.activeTool.locked && (!appState.activeTool.locked &&
appState.activeTool.type !== "freedraw") || appState.activeTool.type !== "freedraw") ||
!multiPointElement !element
) { ) {
resetCursor(interactiveCanvas); resetCursor(interactiveCanvas);
} }
@@ -157,13 +261,13 @@ export const actionFinalize = register({
if (appState.activeTool.type === "eraser") { if (appState.activeTool.type === "eraser") {
activeTool = updateActiveTool(appState, { activeTool = updateActiveTool(appState, {
...(appState.activeTool.lastActiveTool || { ...(appState.activeTool.lastActiveTool || {
type: "selection", type: app.defaultSelectionTool,
}), }),
lastActiveToolBeforeEraser: null, lastActiveToolBeforeEraser: null,
}); });
} else { } else {
activeTool = updateActiveTool(appState, { activeTool = updateActiveTool(appState, {
type: "selection", type: app.defaultSelectionTool,
}); });
} }
@@ -175,7 +279,7 @@ export const actionFinalize = register({
activeTool: activeTool:
(appState.activeTool.locked || (appState.activeTool.locked ||
appState.activeTool.type === "freedraw") && appState.activeTool.type === "freedraw") &&
multiPointElement element
? appState.activeTool ? appState.activeTool
: activeTool, : activeTool,
activeEmbeddable: null, activeEmbeddable: null,
@@ -186,23 +290,19 @@ export const actionFinalize = register({
startBoundElement: null, startBoundElement: null,
suggestedBindings: [], suggestedBindings: [],
selectedElementIds: selectedElementIds:
multiPointElement && element &&
!appState.activeTool.locked && !appState.activeTool.locked &&
appState.activeTool.type !== "freedraw" appState.activeTool.type !== "freedraw"
? { ? {
...appState.selectedElementIds, ...appState.selectedElementIds,
[multiPointElement.id]: true, [element.id]: true,
} }
: appState.selectedElementIds, : appState.selectedElementIds,
// To select the linear element when user has finished mutipoint editing // To select the linear element when user has finished mutipoint editing
selectedLinearElement: selectedLinearElement:
multiPointElement && isLinearElement(multiPointElement) element && isLinearElement(element)
? new LinearElementEditor( ? new LinearElementEditor(element, arrayToMap(newElements))
multiPointElement,
arrayToMap(newElements),
)
: appState.selectedLinearElement, : appState.selectedLinearElement,
pendingImageElementId: null,
}, },
// TODO: #7348 we should not capture everything, but if we don't, it leads to incosistencies -> revisit // TODO: #7348 we should not capture everything, but if we don't, it leads to incosistencies -> revisit
captureUpdate: CaptureUpdateAction.IMMEDIATELY, captureUpdate: CaptureUpdateAction.IMMEDIATELY,
@@ -210,7 +310,7 @@ export const actionFinalize = register({
}, },
keyTest: (event, appState) => keyTest: (event, appState) =>
(event.key === KEYS.ESCAPE && (event.key === KEYS.ESCAPE &&
(appState.editingLinearElement !== null || (appState.selectedLinearElement?.isEditing ||
(!appState.newElement && appState.multiElement === null))) || (!appState.newElement && appState.multiElement === null))) ||
((event.key === KEYS.ESCAPE || event.key === KEYS.ENTER) && ((event.key === KEYS.ESCAPE || event.key === KEYS.ENTER) &&
appState.multiElement !== null), appState.multiElement !== null),
@@ -1,19 +1,29 @@
import { LinearElementEditor } from "@excalidraw/element"; import {
isElbowArrow,
isLinearElement,
isLineElement,
} from "@excalidraw/element";
import { arrayToMap, invariant } from "@excalidraw/common";
import { isElbowArrow, isLinearElement } from "@excalidraw/element"; import {
toggleLinePolygonState,
CaptureUpdateAction,
} from "@excalidraw/element";
import { arrayToMap } from "@excalidraw/common"; import type {
ExcalidrawLinearElement,
import { CaptureUpdateAction } from "@excalidraw/element"; ExcalidrawLineElement,
} from "@excalidraw/element/types";
import type { ExcalidrawLinearElement } from "@excalidraw/element/types";
import { DEFAULT_CATEGORIES } from "../components/CommandPalette/CommandPalette"; import { DEFAULT_CATEGORIES } from "../components/CommandPalette/CommandPalette";
import { ToolButton } from "../components/ToolButton"; import { ToolButton } from "../components/ToolButton";
import { lineEditorIcon } from "../components/icons"; import { lineEditorIcon, polygonIcon } from "../components/icons";
import { t } from "../i18n"; import { t } from "../i18n";
import { ButtonIcon } from "../components/ButtonIcon";
import { newElementWith } from "../../element/src/mutateElement";
import { register } from "./register"; import { register } from "./register";
export const actionToggleLinearEditor = register({ export const actionToggleLinearEditor = register({
@@ -35,7 +45,7 @@ export const actionToggleLinearEditor = register({
predicate: (elements, appState, _, app) => { predicate: (elements, appState, _, app) => {
const selectedElements = app.scene.getSelectedElements(appState); const selectedElements = app.scene.getSelectedElements(appState);
if ( if (
!appState.editingLinearElement && !appState.selectedLinearElement?.isEditing &&
selectedElements.length === 1 && selectedElements.length === 1 &&
isLinearElement(selectedElements[0]) && isLinearElement(selectedElements[0]) &&
!isElbowArrow(selectedElements[0]) !isElbowArrow(selectedElements[0])
@@ -50,14 +60,25 @@ export const actionToggleLinearEditor = register({
includeBoundTextElement: true, includeBoundTextElement: true,
})[0] as ExcalidrawLinearElement; })[0] as ExcalidrawLinearElement;
const editingLinearElement = invariant(selectedElement, "No selected element found");
appState.editingLinearElement?.elementId === selectedElement.id invariant(
? null appState.selectedLinearElement,
: new LinearElementEditor(selectedElement, arrayToMap(elements)); "No selected linear element found",
);
invariant(
selectedElement.id === appState.selectedLinearElement.elementId,
"Selected element ID and linear editor elementId does not match",
);
const selectedLinearElement = {
...appState.selectedLinearElement,
isEditing: !appState.selectedLinearElement.isEditing,
};
return { return {
appState: { appState: {
...appState, ...appState,
editingLinearElement, selectedLinearElement,
}, },
captureUpdate: CaptureUpdateAction.IMMEDIATELY, captureUpdate: CaptureUpdateAction.IMMEDIATELY,
}; };
@@ -83,3 +104,110 @@ export const actionToggleLinearEditor = register({
); );
}, },
}); });
export const actionTogglePolygon = register({
name: "togglePolygon",
category: DEFAULT_CATEGORIES.elements,
icon: polygonIcon,
keywords: ["loop"],
label: (elements, appState, app) => {
const selectedElements = app.scene.getSelectedElements({
selectedElementIds: appState.selectedElementIds,
});
const allPolygons = !selectedElements.some(
(element) => !isLineElement(element) || !element.polygon,
);
return allPolygons
? "labels.polygon.breakPolygon"
: "labels.polygon.convertToPolygon";
},
trackEvent: {
category: "element",
},
predicate: (elements, appState, _, app) => {
const selectedElements = app.scene.getSelectedElements({
selectedElementIds: appState.selectedElementIds,
});
return (
selectedElements.length > 0 &&
selectedElements.every(
(element) => isLineElement(element) && element.points.length >= 4,
)
);
},
perform(elements, appState, _, app) {
const selectedElements = app.scene.getSelectedElements(appState);
if (selectedElements.some((element) => !isLineElement(element))) {
return false;
}
const targetElements = selectedElements as ExcalidrawLineElement[];
// if one element not a polygon, convert all to polygon
const nextPolygonState = targetElements.some((element) => !element.polygon);
const targetElementsMap = arrayToMap(targetElements);
return {
elements: elements.map((element) => {
if (!targetElementsMap.has(element.id) || !isLineElement(element)) {
return element;
}
return newElementWith(element, {
backgroundColor: nextPolygonState
? element.backgroundColor
: "transparent",
...toggleLinePolygonState(element, nextPolygonState),
});
}),
appState,
captureUpdate: CaptureUpdateAction.IMMEDIATELY,
};
},
PanelComponent: ({ appState, updateData, app }) => {
const selectedElements = app.scene.getSelectedElements({
selectedElementIds: appState.selectedElementIds,
});
if (
selectedElements.length === 0 ||
selectedElements.some(
(element) =>
!isLineElement(element) ||
// only show polygon button if every selected element is already
// a polygon, effectively showing this button only to allow for
// disabling the polygon state
!element.polygon ||
element.points.length < 3,
)
) {
return null;
}
const allPolygon = selectedElements.every(
(element) => isLineElement(element) && element.polygon,
);
const label = t(
allPolygon
? "labels.polygon.breakPolygon"
: "labels.polygon.convertToPolygon",
);
return (
<ButtonIcon
icon={polygonIcon}
title={label}
aria-label={label}
active={allPolygon}
onClick={() => updateData(null)}
style={{ marginLeft: "auto" }}
/>
);
},
});
@@ -18,18 +18,16 @@ import {
arrayToMap, arrayToMap,
getFontFamilyString, getFontFamilyString,
getShortcutKey, getShortcutKey,
tupleToCoors,
getLineHeight, getLineHeight,
isTransparent,
reduceToCommonValue, reduceToCommonValue,
} from "@excalidraw/common"; } from "@excalidraw/common";
import { getNonDeletedElements } from "@excalidraw/element"; import { canBecomePolygon, getNonDeletedElements } from "@excalidraw/element";
import { import {
bindLinearElement, bindLinearElement,
bindPointToSnapToElementOutline,
calculateFixedPointForElbowArrowBinding, calculateFixedPointForElbowArrowBinding,
getHoveredElementForBinding,
updateBoundElements, updateBoundElements,
} from "@excalidraw/element"; } from "@excalidraw/element";
@@ -47,15 +45,18 @@ import {
isBoundToContainer, isBoundToContainer,
isElbowArrow, isElbowArrow,
isLinearElement, isLinearElement,
isLineElement,
isTextElement, isTextElement,
isUsingAdaptiveRadius, isUsingAdaptiveRadius,
} from "@excalidraw/element"; } from "@excalidraw/element";
import { hasStrokeColor } from "@excalidraw/element"; import { hasStrokeColor } from "@excalidraw/element";
import { updateElbowArrowPoints } from "@excalidraw/element"; import {
updateElbowArrowPoints,
import { CaptureUpdateAction } from "@excalidraw/element"; CaptureUpdateAction,
toggleLinePolygonState,
} from "@excalidraw/element";
import type { LocalPoint } from "@excalidraw/math"; import type { LocalPoint } from "@excalidraw/math";
@@ -349,22 +350,52 @@ export const actionChangeBackgroundColor = register({
name: "changeBackgroundColor", name: "changeBackgroundColor",
label: "labels.changeBackground", label: "labels.changeBackground",
trackEvent: false, trackEvent: false,
perform: (elements, appState, value) => { perform: (elements, appState, value, app) => {
return { if (!value.currentItemBackgroundColor) {
...(value.currentItemBackgroundColor && { return {
elements: changeProperty(elements, appState, (el) => appState: {
newElementWith(el, { ...appState,
...value,
},
captureUpdate: CaptureUpdateAction.EVENTUALLY,
};
}
let nextElements;
const selectedElements = app.scene.getSelectedElements(appState);
const shouldEnablePolygon =
!isTransparent(value.currentItemBackgroundColor) &&
selectedElements.every(
(el) => isLineElement(el) && canBecomePolygon(el.points),
);
if (shouldEnablePolygon) {
const selectedElementsMap = arrayToMap(selectedElements);
nextElements = elements.map((el) => {
if (selectedElementsMap.has(el.id) && isLineElement(el)) {
return newElementWith(el, {
backgroundColor: value.currentItemBackgroundColor, backgroundColor: value.currentItemBackgroundColor,
}), ...toggleLinePolygonState(el, true),
), });
}), }
return el;
});
} else {
nextElements = changeProperty(elements, appState, (el) =>
newElementWith(el, {
backgroundColor: value.currentItemBackgroundColor,
}),
);
}
return {
elements: nextElements,
appState: { appState: {
...appState, ...appState,
...value, ...value,
}, },
captureUpdate: !!value.currentItemBackgroundColor captureUpdate: CaptureUpdateAction.IMMEDIATELY,
? CaptureUpdateAction.IMMEDIATELY
: CaptureUpdateAction.EVENTUALLY,
}; };
}, },
PanelComponent: ({ elements, appState, updateData, app }) => ( PanelComponent: ({ elements, appState, updateData, app }) => (
@@ -1373,7 +1404,7 @@ export const actionChangeRoundness = register({
captureUpdate: CaptureUpdateAction.IMMEDIATELY, captureUpdate: CaptureUpdateAction.IMMEDIATELY,
}; };
}, },
PanelComponent: ({ elements, appState, updateData, app }) => { PanelComponent: ({ elements, appState, updateData, app, renderAction }) => {
const targetElements = getTargetElements( const targetElements = getTargetElements(
getNonDeletedElements(elements), getNonDeletedElements(elements),
appState, appState,
@@ -1417,6 +1448,7 @@ export const actionChangeRoundness = register({
)} )}
onChange={(value) => updateData(value)} onChange={(value) => updateData(value)}
/> />
{renderAction("togglePolygon")}
</div> </div>
</fieldset> </fieldset>
); );
@@ -1626,63 +1658,16 @@ export const actionChangeArrowType = register({
-1, -1,
elementsMap, elementsMap,
); );
const startHoveredElement = const startElement =
!newElement.startBinding && newElement.startBinding &&
getHoveredElementForBinding( (elementsMap.get(
tupleToCoors(startGlobalPoint), newElement.startBinding.elementId,
elements, ) as ExcalidrawBindableElement);
elementsMap, const endElement =
appState.zoom, newElement.endBinding &&
false, (elementsMap.get(
true, newElement.endBinding.elementId,
); ) as ExcalidrawBindableElement);
const endHoveredElement =
!newElement.endBinding &&
getHoveredElementForBinding(
tupleToCoors(endGlobalPoint),
elements,
elementsMap,
appState.zoom,
false,
true,
);
const startElement = startHoveredElement
? startHoveredElement
: newElement.startBinding &&
(elementsMap.get(
newElement.startBinding.elementId,
) as ExcalidrawBindableElement);
const endElement = endHoveredElement
? endHoveredElement
: newElement.endBinding &&
(elementsMap.get(
newElement.endBinding.elementId,
) as ExcalidrawBindableElement);
const finalStartPoint = startHoveredElement
? bindPointToSnapToElementOutline(
newElement,
startHoveredElement,
"start",
)
: startGlobalPoint;
const finalEndPoint = endHoveredElement
? bindPointToSnapToElementOutline(
newElement,
endHoveredElement,
"end",
)
: endGlobalPoint;
startHoveredElement &&
bindLinearElement(
newElement,
startHoveredElement,
"start",
app.scene,
);
endHoveredElement &&
bindLinearElement(newElement, endHoveredElement, "end", app.scene);
const startBinding = const startBinding =
startElement && newElement.startBinding startElement && newElement.startBinding
@@ -1693,6 +1678,7 @@ export const actionChangeArrowType = register({
newElement, newElement,
startElement, startElement,
"start", "start",
elementsMap,
), ),
} }
: null; : null;
@@ -1705,6 +1691,7 @@ export const actionChangeArrowType = register({
newElement, newElement,
endElement, endElement,
"end", "end",
elementsMap,
), ),
} }
: null; : null;
@@ -1714,7 +1701,7 @@ export const actionChangeArrowType = register({
startBinding, startBinding,
endBinding, endBinding,
...updateElbowArrowPoints(newElement, elementsMap, { ...updateElbowArrowPoints(newElement, elementsMap, {
points: [finalStartPoint, finalEndPoint].map( points: [startGlobalPoint, endGlobalPoint].map(
(p): LocalPoint => (p): LocalPoint =>
pointFrom(p[0] - newElement.x, p[1] - newElement.y), pointFrom(p[0] - newElement.x, p[1] - newElement.y),
), ),
@@ -21,7 +21,7 @@ export const actionSelectAll = register({
trackEvent: { category: "canvas" }, trackEvent: { category: "canvas" },
viewMode: false, viewMode: false,
perform: (elements, appState, value, app) => { perform: (elements, appState, value, app) => {
if (appState.editingLinearElement) { if (appState.selectedLinearElement?.isEditing) {
return false; return false;
} }
@@ -25,6 +25,10 @@ export const actionToggleSearchMenu = register({
predicate: (appState) => appState.gridModeEnabled, predicate: (appState) => appState.gridModeEnabled,
}, },
perform(elements, appState, _, app) { perform(elements, appState, _, app) {
if (appState.openDialog) {
return false;
}
if ( if (
appState.openSidebar?.name === DEFAULT_SIDEBAR.name && appState.openSidebar?.name === DEFAULT_SIDEBAR.name &&
appState.openSidebar.tab === CANVAS_SEARCH_TAB appState.openSidebar.tab === CANVAS_SEARCH_TAB
+1
View File
@@ -179,6 +179,7 @@ export class ActionManager {
appProps={this.app.props} appProps={this.app.props}
app={this.app} app={this.app}
data={data} data={data}
renderAction={this.renderAction}
/> />
); );
} }
+6 -1
View File
@@ -142,7 +142,8 @@ export type ActionName =
| "cropEditor" | "cropEditor"
| "wrapSelectionInFrame" | "wrapSelectionInFrame"
| "toggleLassoTool" | "toggleLassoTool"
| "toggleShapeSwitch"; | "toggleShapeSwitch"
| "togglePolygon";
export type PanelComponentProps = { export type PanelComponentProps = {
elements: readonly ExcalidrawElement[]; elements: readonly ExcalidrawElement[];
@@ -151,6 +152,10 @@ export type PanelComponentProps = {
appProps: ExcalidrawProps; appProps: ExcalidrawProps;
data?: Record<string, any>; data?: Record<string, any>;
app: AppClassProperties; app: AppClassProperties;
renderAction: (
name: ActionName,
data?: PanelComponentProps["data"],
) => React.JSX.Element | null;
}; };
export interface Action { export interface Action {
+2 -5
View File
@@ -10,6 +10,7 @@ import {
STATS_PANELS, STATS_PANELS,
THEME, THEME,
DEFAULT_GRID_STEP, DEFAULT_GRID_STEP,
isTestEnv,
} from "@excalidraw/common"; } from "@excalidraw/common";
import type { AppState, NormalizedZoomValue } from "./types"; import type { AppState, NormalizedZoomValue } from "./types";
@@ -36,7 +37,7 @@ export const getDefaultAppState = (): Omit<
currentItemRoughness: DEFAULT_ELEMENT_PROPS.roughness, currentItemRoughness: DEFAULT_ELEMENT_PROPS.roughness,
currentItemStartArrowhead: null, currentItemStartArrowhead: null,
currentItemStrokeColor: DEFAULT_ELEMENT_PROPS.strokeColor, currentItemStrokeColor: DEFAULT_ELEMENT_PROPS.strokeColor,
currentItemRoundness: "round", currentItemRoundness: isTestEnv() ? "sharp" : "round",
currentItemArrowType: ARROW_TYPE.round, currentItemArrowType: ARROW_TYPE.round,
currentItemStrokeStyle: DEFAULT_ELEMENT_PROPS.strokeStyle, currentItemStrokeStyle: DEFAULT_ELEMENT_PROPS.strokeStyle,
currentItemStrokeWidth: DEFAULT_ELEMENT_PROPS.strokeWidth, currentItemStrokeWidth: DEFAULT_ELEMENT_PROPS.strokeWidth,
@@ -47,7 +48,6 @@ export const getDefaultAppState = (): Omit<
newElement: null, newElement: null,
editingTextElement: null, editingTextElement: null,
editingGroupId: null, editingGroupId: null,
editingLinearElement: null,
activeTool: { activeTool: {
type: "selection", type: "selection",
customType: null, customType: null,
@@ -108,7 +108,6 @@ export const getDefaultAppState = (): Omit<
value: 1 as NormalizedZoomValue, value: 1 as NormalizedZoomValue,
}, },
viewModeEnabled: false, viewModeEnabled: false,
pendingImageElementId: null,
showHyperlinkPopup: false, showHyperlinkPopup: false,
selectedLinearElement: null, selectedLinearElement: null,
snapLines: [], snapLines: [],
@@ -175,7 +174,6 @@ const APP_STATE_STORAGE_CONF = (<
newElement: { browser: false, export: false, server: false }, newElement: { browser: false, export: false, server: false },
editingTextElement: { browser: false, export: false, server: false }, editingTextElement: { browser: false, export: false, server: false },
editingGroupId: { browser: true, export: false, server: false }, editingGroupId: { browser: true, export: false, server: false },
editingLinearElement: { browser: false, export: false, server: false },
activeTool: { browser: true, export: false, server: false }, activeTool: { browser: true, export: false, server: false },
penMode: { browser: true, export: false, server: false }, penMode: { browser: true, export: false, server: false },
penDetected: { browser: true, export: false, server: false }, penDetected: { browser: true, export: false, server: false },
@@ -237,7 +235,6 @@ const APP_STATE_STORAGE_CONF = (<
zenModeEnabled: { browser: true, export: false, server: false }, zenModeEnabled: { browser: true, export: false, server: false },
zoom: { browser: true, export: false, server: false }, zoom: { browser: true, export: false, server: false },
viewModeEnabled: { browser: false, export: false, server: false }, viewModeEnabled: { browser: false, export: false, server: false },
pendingImageElementId: { browser: false, export: false, server: false },
showHyperlinkPopup: { browser: false, export: false, server: false }, showHyperlinkPopup: { browser: false, export: false, server: false },
selectedLinearElement: { browser: true, export: false, server: false }, selectedLinearElement: { browser: true, export: false, server: false },
snapLines: { browser: false, export: false, server: false }, snapLines: { browser: false, export: false, server: false },
+73 -78
View File
@@ -46,7 +46,7 @@ import {
hasStrokeWidth, hasStrokeWidth,
} from "../scene"; } from "../scene";
import { SHAPES } from "./shapes"; import { getToolbarTools } from "./shapes";
import "./Actions.scss"; import "./Actions.scss";
@@ -140,7 +140,7 @@ export const SelectedShapeActions = ({
targetElements.length === 1 || isSingleElementBoundContainer; targetElements.length === 1 || isSingleElementBoundContainer;
const showLineEditorAction = const showLineEditorAction =
!appState.editingLinearElement && !appState.selectedLinearElement?.isEditing &&
targetElements.length === 1 && targetElements.length === 1 &&
isLinearElement(targetElements[0]) && isLinearElement(targetElements[0]) &&
!isElbowArrow(targetElements[0]); !isElbowArrow(targetElements[0]);
@@ -295,7 +295,8 @@ export const ShapesSwitcher = ({
const frameToolSelected = activeTool.type === "frame"; const frameToolSelected = activeTool.type === "frame";
const laserToolSelected = activeTool.type === "laser"; const laserToolSelected = activeTool.type === "laser";
const lassoToolSelected = activeTool.type === "lasso"; const lassoToolSelected =
activeTool.type === "lasso" && app.defaultSelectionTool !== "lasso";
const embeddableToolSelected = activeTool.type === "embeddable"; const embeddableToolSelected = activeTool.type === "embeddable";
@@ -303,64 +304,68 @@ export const ShapesSwitcher = ({
return ( return (
<> <>
{SHAPES.map(({ value, icon, key, numericKey, fillable }, index) => { {getToolbarTools(app).map(
if ( ({ value, icon, key, numericKey, fillable }, index) => {
UIOptions.tools?.[ if (
value as Extract<typeof value, keyof AppProps["UIOptions"]["tools"]> UIOptions.tools?.[
] === false value as Extract<
) { typeof value,
return null; keyof AppProps["UIOptions"]["tools"]
} >
] === false
) {
return null;
}
const label = t(`toolBar.${value}`); const label = t(`toolBar.${value}`);
const letter = const letter =
key && capitalizeString(typeof key === "string" ? key : key[0]); key && capitalizeString(typeof key === "string" ? key : key[0]);
const shortcut = letter const shortcut = letter
? `${letter} ${t("helpDialog.or")} ${numericKey}` ? `${letter} ${t("helpDialog.or")} ${numericKey}`
: `${numericKey}`; : `${numericKey}`;
return ( return (
<ToolButton <ToolButton
className={clsx("Shape", { fillable })} className={clsx("Shape", { fillable })}
key={value} key={value}
type="radio" type="radio"
icon={icon} icon={icon}
checked={activeTool.type === value} checked={activeTool.type === value}
name="editor-current-shape" name="editor-current-shape"
title={`${capitalizeString(label)}${shortcut}`} title={`${capitalizeString(label)}${shortcut}`}
keyBindingLabel={numericKey || letter} keyBindingLabel={numericKey || letter}
aria-label={capitalizeString(label)} aria-label={capitalizeString(label)}
aria-keyshortcuts={shortcut} aria-keyshortcuts={shortcut}
data-testid={`toolbar-${value}`} data-testid={`toolbar-${value}`}
onPointerDown={({ pointerType }) => { onPointerDown={({ pointerType }) => {
if (!appState.penDetected && pointerType === "pen") { if (!appState.penDetected && pointerType === "pen") {
app.togglePenMode(true); app.togglePenMode(true);
}
if (value === "selection") {
if (appState.activeTool.type === "selection") {
app.setActiveTool({ type: "lasso" });
} else {
app.setActiveTool({ type: "selection" });
} }
}
}} if (value === "selection") {
onChange={({ pointerType }) => { if (appState.activeTool.type === "selection") {
if (appState.activeTool.type !== value) { app.setActiveTool({ type: "lasso" });
trackEvent("toolbar", value, "ui"); } else {
} app.setActiveTool({ type: "selection" });
if (value === "image") { }
app.setActiveTool({ }
type: value, }}
insertOnCanvasDirectly: pointerType !== "mouse", onChange={({ pointerType }) => {
}); if (appState.activeTool.type !== value) {
} else { trackEvent("toolbar", value, "ui");
app.setActiveTool({ type: value }); }
} if (value === "image") {
}} app.setActiveTool({
/> type: value,
); });
})} } else {
app.setActiveTool({ type: value });
}
}}
/>
);
},
)}
<div className="App-toolbar__divider" /> <div className="App-toolbar__divider" />
<DropdownMenu open={isExtraToolsMenuOpen}> <DropdownMenu open={isExtraToolsMenuOpen}>
@@ -419,14 +424,16 @@ export const ShapesSwitcher = ({
> >
{t("toolBar.laser")} {t("toolBar.laser")}
</DropdownMenu.Item> </DropdownMenu.Item>
<DropdownMenu.Item {app.defaultSelectionTool !== "lasso" && (
onSelect={() => app.setActiveTool({ type: "lasso" })} <DropdownMenu.Item
icon={LassoIcon} onSelect={() => app.setActiveTool({ type: "lasso" })}
data-testid="toolbar-lasso" icon={LassoIcon}
selected={lassoToolSelected} data-testid="toolbar-lasso"
> selected={lassoToolSelected}
{t("toolBar.lasso")} >
</DropdownMenu.Item> {t("toolBar.lasso")}
</DropdownMenu.Item>
)}
<div style={{ margin: "6px 0", fontSize: 14, fontWeight: 600 }}> <div style={{ margin: "6px 0", fontSize: 14, fontWeight: 600 }}>
Generate Generate
</div> </div>
@@ -506,15 +513,3 @@ export const ExitZenModeAction = ({
{t("buttons.exitZenMode")} {t("buttons.exitZenMode")}
</button> </button>
); );
export const FinalizeAction = ({
renderAction,
className,
}: {
renderAction: ActionManager["renderAction"];
className?: string;
}) => (
<div className={`finalize-button ${className}`}>
{renderAction("finalize", { size: "small" })}
</div>
);
File diff suppressed because it is too large Load Diff
@@ -15,6 +15,7 @@ interface ButtonIconProps {
/** include standalone style (could interfere with parent styles) */ /** include standalone style (could interfere with parent styles) */
standalone?: boolean; standalone?: boolean;
onClick: (event: React.MouseEvent<HTMLButtonElement, MouseEvent>) => void; onClick: (event: React.MouseEvent<HTMLButtonElement, MouseEvent>) => void;
style?: React.CSSProperties;
} }
export const ButtonIcon = forwardRef<HTMLButtonElement, ButtonIconProps>( export const ButtonIcon = forwardRef<HTMLButtonElement, ButtonIconProps>(
@@ -30,6 +31,7 @@ export const ButtonIcon = forwardRef<HTMLButtonElement, ButtonIconProps>(
data-testid={testId} data-testid={testId}
className={clsx(className, { standalone, active })} className={clsx(className, { standalone, active })}
onClick={onClick} onClick={onClick}
style={props.style}
> >
{icon} {icon}
</button> </button>
@@ -108,6 +108,7 @@ $verticalBreakpoint: 861px;
display: flex; display: flex;
align-items: center; align-items: center;
gap: 0.25rem; gap: 0.25rem;
overflow: hidden;
} }
} }
@@ -59,6 +59,8 @@ import { useStableCallback } from "../../hooks/useStableCallback";
import { activeConfirmDialogAtom } from "../ActiveConfirmDialog"; import { activeConfirmDialogAtom } from "../ActiveConfirmDialog";
import { useStable } from "../../hooks/useStable"; import { useStable } from "../../hooks/useStable";
import { Ellipsify } from "../Ellipsify";
import * as defaultItems from "./defaultCommandPaletteItems"; import * as defaultItems from "./defaultCommandPaletteItems";
import "./CommandPalette.scss"; import "./CommandPalette.scss";
@@ -293,6 +295,7 @@ function CommandPaletteInner({
actionManager.actions.decreaseFontSize, actionManager.actions.decreaseFontSize,
actionManager.actions.toggleLinearEditor, actionManager.actions.toggleLinearEditor,
actionManager.actions.cropEditor, actionManager.actions.cropEditor,
actionManager.actions.togglePolygon,
actionLink, actionLink,
actionCopyElementLink, actionCopyElementLink,
actionLinkToElement, actionLinkToElement,
@@ -502,7 +505,6 @@ function CommandPaletteInner({
if (value === "image") { if (value === "image") {
app.setActiveTool({ app.setActiveTool({
type: value, type: value,
insertOnCanvasDirectly: event.type === EVENT.KEYDOWN,
}); });
} else { } else {
app.setActiveTool({ type: value }); app.setActiveTool({ type: value });
@@ -964,7 +966,7 @@ const CommandItem = ({
} }
/> />
)} )}
{command.label} <Ellipsify>{command.label}</Ellipsify>
</div> </div>
{showShortcut && command.shortcut && ( {showShortcut && command.shortcut && (
<CommandShortcutHint shortcut={command.shortcut} /> <CommandShortcutHint shortcut={command.shortcut} />
@@ -0,0 +1,18 @@
export const Ellipsify = ({
children,
...rest
}: { children: React.ReactNode } & React.HTMLAttributes<HTMLSpanElement>) => {
return (
<span
{...rest}
style={{
textOverflow: "ellipsis",
overflow: "hidden",
whiteSpace: "nowrap",
...rest.style,
}}
>
{children}
</span>
);
};
@@ -4,6 +4,7 @@ import {
isFlowchartNodeElement, isFlowchartNodeElement,
isImageElement, isImageElement,
isLinearElement, isLinearElement,
isLineElement,
isTextBindableContainer, isTextBindableContainer,
isTextElement, isTextElement,
} from "@excalidraw/element"; } from "@excalidraw/element";
@@ -73,10 +74,6 @@ const getHints = ({
return t("hints.embeddable"); return t("hints.embeddable");
} }
if (appState.activeTool.type === "image" && appState.pendingImageElementId) {
return t("hints.placeImage");
}
const selectedElements = app.scene.getSelectedElements(appState); const selectedElements = app.scene.getSelectedElements(appState);
if ( if (
@@ -118,7 +115,7 @@ const getHints = ({
appState.selectionElement && appState.selectionElement &&
!selectedElements.length && !selectedElements.length &&
!appState.editingTextElement && !appState.editingTextElement &&
!appState.editingLinearElement !appState.selectedLinearElement?.isEditing
) { ) {
return [t("hints.deepBoxSelect")]; return [t("hints.deepBoxSelect")];
} }
@@ -133,12 +130,14 @@ const getHints = ({
if (selectedElements.length === 1) { if (selectedElements.length === 1) {
if (isLinearElement(selectedElements[0])) { if (isLinearElement(selectedElements[0])) {
if (appState.editingLinearElement) { if (appState.selectedLinearElement?.isEditing) {
return appState.editingLinearElement.selectedPointsIndices return appState.selectedLinearElement.selectedPointsIndices
? t("hints.lineEditor_pointSelected") ? t("hints.lineEditor_pointSelected")
: t("hints.lineEditor_nothingSelected"); : t("hints.lineEditor_nothingSelected");
} }
return t("hints.lineEditor_info"); return isLineElement(selectedElements[0])
? t("hints.lineEditor_line_info")
: t("hints.lineEditor_info");
} }
if ( if (
!appState.newElement && !appState.newElement &&
@@ -7,6 +7,7 @@ export const InlineIcon = ({ icon }: { icon: React.ReactNode }) => {
display: "inline-block", display: "inline-block",
lineHeight: 0, lineHeight: 0,
verticalAlign: "middle", verticalAlign: "middle",
flex: "0 0 auto",
}} }}
> >
{icon} {icon}
@@ -297,6 +297,10 @@ export const SearchMenu = () => {
event.preventDefault(); event.preventDefault();
event.stopPropagation(); event.stopPropagation();
if (app.state.openDialog) {
return;
}
if (!searchInputRef.current?.matches(":focus")) { if (!searchInputRef.current?.matches(":focus")) {
if (app.state.openDialog) { if (app.state.openDialog) {
setAppState({ setAppState({
@@ -7,6 +7,9 @@ import {
} from "@excalidraw/element"; } from "@excalidraw/element";
import { resizeSingleElement } from "@excalidraw/element"; import { resizeSingleElement } from "@excalidraw/element";
import { isImageElement } from "@excalidraw/element"; import { isImageElement } from "@excalidraw/element";
import { isFrameLikeElement } from "@excalidraw/element";
import { getElementsInResizingFrame } from "@excalidraw/element";
import { replaceAllElementsInFrame } from "@excalidraw/element";
import type { ExcalidrawElement } from "@excalidraw/element/types"; import type { ExcalidrawElement } from "@excalidraw/element/types";
@@ -15,7 +18,10 @@ import type { Scene } from "@excalidraw/element";
import DragInput from "./DragInput"; import DragInput from "./DragInput";
import { getStepSizedValue, isPropertyEditable } from "./utils"; import { getStepSizedValue, isPropertyEditable } from "./utils";
import type { DragInputCallbackType } from "./DragInput"; import type {
DragFinishedCallbackType,
DragInputCallbackType,
} from "./DragInput";
import type { AppState } from "../../types"; import type { AppState } from "../../types";
interface DimensionDragInputProps { interface DimensionDragInputProps {
@@ -43,6 +49,8 @@ const handleDimensionChange: DragInputCallbackType<
originalAppState, originalAppState,
instantChange, instantChange,
scene, scene,
app,
setAppState,
}) => { }) => {
const elementsMap = scene.getNonDeletedElementsMap(); const elementsMap = scene.getNonDeletedElementsMap();
const origElement = originalElements[0]; const origElement = originalElements[0];
@@ -153,6 +161,7 @@ const handleDimensionChange: DragInputCallbackType<
return; return;
} }
// User types in a value to stats then presses Enter
if (nextValue !== undefined) { if (nextValue !== undefined) {
const nextWidth = Math.max( const nextWidth = Math.max(
property === "width" property === "width"
@@ -184,52 +193,123 @@ const handleDimensionChange: DragInputCallbackType<
}, },
); );
// Handle frame membership update for resized frames
if (isFrameLikeElement(latestElement)) {
const nextElementsInFrame = getElementsInResizingFrame(
scene.getElementsIncludingDeleted(),
latestElement,
originalAppState,
scene.getNonDeletedElementsMap(),
);
const updatedElements = replaceAllElementsInFrame(
scene.getElementsIncludingDeleted(),
nextElementsInFrame,
latestElement,
app,
);
scene.replaceAllElements(updatedElements);
}
return; return;
} }
const changeInWidth = property === "width" ? accumulatedChange : 0;
const changeInHeight = property === "height" ? accumulatedChange : 0;
let nextWidth = Math.max(0, origElement.width + changeInWidth); // Stats slider is dragged
if (property === "width") { {
if (shouldChangeByStepSize) { const changeInWidth = property === "width" ? accumulatedChange : 0;
nextWidth = getStepSizedValue(nextWidth, STEP_SIZE); const changeInHeight = property === "height" ? accumulatedChange : 0;
} else {
nextWidth = Math.round(nextWidth);
}
}
let nextHeight = Math.max(0, origElement.height + changeInHeight); let nextWidth = Math.max(0, origElement.width + changeInWidth);
if (property === "height") {
if (shouldChangeByStepSize) {
nextHeight = getStepSizedValue(nextHeight, STEP_SIZE);
} else {
nextHeight = Math.round(nextHeight);
}
}
if (keepAspectRatio) {
if (property === "width") { if (property === "width") {
nextHeight = Math.round((nextWidth / aspectRatio) * 100) / 100; if (shouldChangeByStepSize) {
} else { nextWidth = getStepSizedValue(nextWidth, STEP_SIZE);
nextWidth = Math.round(nextHeight * aspectRatio * 100) / 100; } else {
nextWidth = Math.round(nextWidth);
}
}
let nextHeight = Math.max(0, origElement.height + changeInHeight);
if (property === "height") {
if (shouldChangeByStepSize) {
nextHeight = getStepSizedValue(nextHeight, STEP_SIZE);
} else {
nextHeight = Math.round(nextHeight);
}
}
if (keepAspectRatio) {
if (property === "width") {
nextHeight = Math.round((nextWidth / aspectRatio) * 100) / 100;
} else {
nextWidth = Math.round(nextHeight * aspectRatio * 100) / 100;
}
}
nextHeight = Math.max(MIN_WIDTH_OR_HEIGHT, nextHeight);
nextWidth = Math.max(MIN_WIDTH_OR_HEIGHT, nextWidth);
resizeSingleElement(
nextWidth,
nextHeight,
latestElement,
origElement,
originalElementsMap,
scene,
property === "width" ? "e" : "s",
{
shouldMaintainAspectRatio: keepAspectRatio,
},
);
// Handle highlighting frame element candidates
if (isFrameLikeElement(latestElement)) {
const nextElementsInFrame = getElementsInResizingFrame(
scene.getElementsIncludingDeleted(),
latestElement,
originalAppState,
scene.getNonDeletedElementsMap(),
);
setAppState({
elementsToHighlight: nextElementsInFrame,
});
} }
} }
}
};
nextHeight = Math.max(MIN_WIDTH_OR_HEIGHT, nextHeight); const handleDragFinished: DragFinishedCallbackType = ({
nextWidth = Math.max(MIN_WIDTH_OR_HEIGHT, nextWidth); setAppState,
app,
originalElements,
originalAppState,
}) => {
const elementsMap = app.scene.getNonDeletedElementsMap();
const origElement = originalElements?.[0];
const latestElement = origElement && elementsMap.get(origElement.id);
resizeSingleElement( // Handle frame membership update for resized frames
nextWidth, if (latestElement && isFrameLikeElement(latestElement)) {
nextHeight, const nextElementsInFrame = getElementsInResizingFrame(
app.scene.getElementsIncludingDeleted(),
latestElement, latestElement,
origElement, originalAppState,
originalElementsMap, app.scene.getNonDeletedElementsMap(),
scene,
property === "width" ? "e" : "s",
{
shouldMaintainAspectRatio: keepAspectRatio,
},
); );
const updatedElements = replaceAllElementsInFrame(
app.scene.getElementsIncludingDeleted(),
nextElementsInFrame,
latestElement,
app,
);
app.scene.replaceAllElements(updatedElements);
setAppState({
elementsToHighlight: null,
});
} }
}; };
@@ -269,6 +349,7 @@ const DimensionDragInput = ({
scene={scene} scene={scene}
appState={appState} appState={appState}
property={property} property={property}
dragFinishedCallback={handleDragFinished}
/> />
); );
}; };
@@ -11,7 +11,7 @@ import type { ElementsMap, ExcalidrawElement } from "@excalidraw/element/types";
import type { Scene } from "@excalidraw/element"; import type { Scene } from "@excalidraw/element";
import { useApp } from "../App"; import { useApp, useExcalidrawSetAppState } from "../App";
import { InlineIcon } from "../InlineIcon"; import { InlineIcon } from "../InlineIcon";
import { SMALLEST_DELTA } from "./utils"; import { SMALLEST_DELTA } from "./utils";
@@ -36,6 +36,15 @@ export type DragInputCallbackType<
property: P; property: P;
originalAppState: AppState; originalAppState: AppState;
setInputValue: (value: number) => void; setInputValue: (value: number) => void;
app: ReturnType<typeof useApp>;
setAppState: ReturnType<typeof useExcalidrawSetAppState>;
}) => void;
export type DragFinishedCallbackType<E = ExcalidrawElement> = (props: {
app: ReturnType<typeof useApp>;
setAppState: ReturnType<typeof useExcalidrawSetAppState>;
originalElements: readonly E[] | null;
originalAppState: AppState;
}) => void; }) => void;
interface StatsDragInputProps< interface StatsDragInputProps<
@@ -54,6 +63,7 @@ interface StatsDragInputProps<
appState: AppState; appState: AppState;
/** how many px you need to drag to get 1 unit change */ /** how many px you need to drag to get 1 unit change */
sensitivity?: number; sensitivity?: number;
dragFinishedCallback?: DragFinishedCallbackType;
} }
const StatsDragInput = < const StatsDragInput = <
@@ -71,8 +81,10 @@ const StatsDragInput = <
scene, scene,
appState, appState,
sensitivity = 1, sensitivity = 1,
dragFinishedCallback,
}: StatsDragInputProps<T, E>) => { }: StatsDragInputProps<T, E>) => {
const app = useApp(); const app = useApp();
const setAppState = useExcalidrawSetAppState();
const inputRef = useRef<HTMLInputElement>(null); const inputRef = useRef<HTMLInputElement>(null);
const labelRef = useRef<HTMLDivElement>(null); const labelRef = useRef<HTMLDivElement>(null);
@@ -137,6 +149,8 @@ const StatsDragInput = <
property, property,
originalAppState: appState, originalAppState: appState,
setInputValue: (value) => setInputValue(String(value)), setInputValue: (value) => setInputValue(String(value)),
app,
setAppState,
}); });
app.syncActionResult({ app.syncActionResult({
captureUpdate: CaptureUpdateAction.IMMEDIATELY, captureUpdate: CaptureUpdateAction.IMMEDIATELY,
@@ -263,6 +277,8 @@ const StatsDragInput = <
scene, scene,
originalAppState, originalAppState,
setInputValue: (value) => setInputValue(String(value)), setInputValue: (value) => setInputValue(String(value)),
app,
setAppState,
}); });
stepChange = 0; stepChange = 0;
@@ -287,6 +303,14 @@ const StatsDragInput = <
captureUpdate: CaptureUpdateAction.IMMEDIATELY, captureUpdate: CaptureUpdateAction.IMMEDIATELY,
}); });
// Notify implementors
dragFinishedCallback?.({
app,
setAppState,
originalElements,
originalAppState,
});
lastPointer = null; lastPointer = null;
accumulatedChange = 0; accumulatedChange = 0;
stepChange = 0; stepChange = 0;
@@ -2,7 +2,12 @@ import { pointFrom, type GlobalPoint } from "@excalidraw/math";
import { useMemo } from "react"; import { useMemo } from "react";
import { MIN_WIDTH_OR_HEIGHT } from "@excalidraw/common"; import { MIN_WIDTH_OR_HEIGHT } from "@excalidraw/common";
import { updateBoundElements } from "@excalidraw/element"; import {
getElementsInResizingFrame,
isFrameLikeElement,
replaceAllElementsInFrame,
updateBoundElements,
} from "@excalidraw/element";
import { import {
rescalePointsInElement, rescalePointsInElement,
resizeSingleElement, resizeSingleElement,
@@ -25,7 +30,10 @@ import DragInput from "./DragInput";
import { getAtomicUnits, getStepSizedValue, isPropertyEditable } from "./utils"; import { getAtomicUnits, getStepSizedValue, isPropertyEditable } from "./utils";
import { getElementsInAtomicUnit } from "./utils"; import { getElementsInAtomicUnit } from "./utils";
import type { DragInputCallbackType } from "./DragInput"; import type {
DragFinishedCallbackType,
DragInputCallbackType,
} from "./DragInput";
import type { AtomicUnit } from "./utils"; import type { AtomicUnit } from "./utils";
import type { AppState } from "../../types"; import type { AppState } from "../../types";
@@ -153,6 +161,8 @@ const handleDimensionChange: DragInputCallbackType<
nextValue, nextValue,
scene, scene,
property, property,
setAppState,
app,
}) => { }) => {
const elementsMap = scene.getNonDeletedElementsMap(); const elementsMap = scene.getNonDeletedElementsMap();
const atomicUnits = getAtomicUnits(originalElements, originalAppState); const atomicUnits = getAtomicUnits(originalElements, originalAppState);
@@ -239,6 +249,25 @@ const handleDimensionChange: DragInputCallbackType<
shouldInformMutation: false, shouldInformMutation: false,
}, },
); );
// Handle frame membership update for resized frames
if (isFrameLikeElement(latestElement)) {
const nextElementsInFrame = getElementsInResizingFrame(
scene.getElementsIncludingDeleted(),
latestElement,
originalAppState,
scene.getNonDeletedElementsMap(),
);
const updatedElements = replaceAllElementsInFrame(
scene.getElementsIncludingDeleted(),
nextElementsInFrame,
latestElement,
app,
);
scene.replaceAllElements(updatedElements);
}
} }
} }
} }
@@ -250,6 +279,7 @@ const handleDimensionChange: DragInputCallbackType<
const changeInWidth = property === "width" ? accumulatedChange : 0; const changeInWidth = property === "width" ? accumulatedChange : 0;
const changeInHeight = property === "height" ? accumulatedChange : 0; const changeInHeight = property === "height" ? accumulatedChange : 0;
const elementsToHighlight: ExcalidrawElement[] = [];
for (const atomicUnit of atomicUnits) { for (const atomicUnit of atomicUnits) {
const elementsInUnit = getElementsInAtomicUnit( const elementsInUnit = getElementsInAtomicUnit(
@@ -342,13 +372,63 @@ const handleDimensionChange: DragInputCallbackType<
shouldInformMutation: false, shouldInformMutation: false,
}, },
); );
// Handle highlighting frame element candidates
if (isFrameLikeElement(latestElement)) {
const nextElementsInFrame = getElementsInResizingFrame(
scene.getElementsIncludingDeleted(),
latestElement,
originalAppState,
scene.getNonDeletedElementsMap(),
);
elementsToHighlight.push(...nextElementsInFrame);
}
} }
} }
} }
setAppState({
elementsToHighlight,
});
scene.triggerUpdate(); scene.triggerUpdate();
}; };
const handleDragFinished: DragFinishedCallbackType = ({
setAppState,
app,
originalElements,
originalAppState,
}) => {
const elementsMap = app.scene.getNonDeletedElementsMap();
const origElement = originalElements?.[0];
const latestElement = origElement && elementsMap.get(origElement.id);
// Handle frame membership update for resized frames
if (latestElement && isFrameLikeElement(latestElement)) {
const nextElementsInFrame = getElementsInResizingFrame(
app.scene.getElementsIncludingDeleted(),
latestElement,
originalAppState,
app.scene.getNonDeletedElementsMap(),
);
const updatedElements = replaceAllElementsInFrame(
app.scene.getElementsIncludingDeleted(),
nextElementsInFrame,
latestElement,
app,
);
app.scene.replaceAllElements(updatedElements);
setAppState({
elementsToHighlight: null,
});
}
};
const MultiDimension = ({ const MultiDimension = ({
property, property,
elements, elements,
@@ -396,6 +476,7 @@ const MultiDimension = ({
appState={appState} appState={appState}
property={property} property={property}
scene={scene} scene={scene}
dragFinishedCallback={handleDragFinished}
/> />
); );
}; };
@@ -133,7 +133,6 @@ describe("binding with linear elements", () => {
const inputX = UI.queryStatsProperty("X")?.querySelector( const inputX = UI.queryStatsProperty("X")?.querySelector(
".drag-input", ".drag-input",
) as HTMLInputElement; ) as HTMLInputElement;
expect(linear.startBinding).not.toBe(null); expect(linear.startBinding).not.toBe(null);
expect(inputX).not.toBeNull(); expect(inputX).not.toBeNull();
UI.updateInput(inputX, String("204")); UI.updateInput(inputX, String("204"));
@@ -382,8 +381,7 @@ describe("stats for a non-generic element", () => {
it("text element", async () => { it("text element", async () => {
UI.clickTool("text"); UI.clickTool("text");
mouse.clickAt(20, 30); mouse.clickAt(20, 30);
const textEditorSelector = ".excalidraw-textEditorContainer > textarea"; const editor = await getTextEditor();
const editor = await getTextEditor(textEditorSelector, true);
updateTextEditor(editor, "Hello!"); updateTextEditor(editor, "Hello!");
act(() => { act(() => {
editor.blur(); editor.blur();
@@ -403,11 +401,23 @@ describe("stats for a non-generic element", () => {
UI.updateInput(input, "36"); UI.updateInput(input, "36");
expect(text.fontSize).toBe(36); expect(text.fontSize).toBe(36);
// cannot change width or height // can change width or height
const width = UI.queryStatsProperty("W")?.querySelector(".drag-input"); const width = UI.queryStatsProperty("W")?.querySelector(
expect(width).toBeUndefined(); ".drag-input",
const height = UI.queryStatsProperty("H")?.querySelector(".drag-input"); ) as HTMLInputElement;
expect(height).toBeUndefined(); expect(width).toBeDefined();
const height = UI.queryStatsProperty("H")?.querySelector(
".drag-input",
) as HTMLInputElement;
expect(height).toBeDefined();
const textHeightBeforeWrapping = text.height;
const textBeforeWrapping = text.text;
const originalTextBeforeWrapping = textBeforeWrapping;
UI.updateInput(width, "30");
expect(text.height).toBeGreaterThan(textHeightBeforeWrapping);
expect(text.text).not.toBe(textBeforeWrapping);
expect(text.originalText).toBe(originalTextBeforeWrapping);
// min font size is 4 // min font size is 4
UI.updateInput(input, "0"); UI.updateInput(input, "0");
@@ -576,8 +586,7 @@ describe("stats for multiple elements", () => {
// text, rectangle, frame // text, rectangle, frame
UI.clickTool("text"); UI.clickTool("text");
mouse.clickAt(20, 30); mouse.clickAt(20, 30);
const textEditorSelector = ".excalidraw-textEditorContainer > textarea"; const editor = await getTextEditor();
const editor = await getTextEditor(textEditorSelector, true);
updateTextEditor(editor, "Hello!"); updateTextEditor(editor, "Hello!");
act(() => { act(() => {
editor.blur(); editor.blur();
@@ -630,12 +639,11 @@ describe("stats for multiple elements", () => {
) as HTMLInputElement; ) as HTMLInputElement;
expect(fontSize).toBeDefined(); expect(fontSize).toBeDefined();
// changing width does not affect text
UI.updateInput(width, "200"); UI.updateInput(width, "200");
expect(rectangle?.width).toBe(200); expect(rectangle?.width).toBe(200);
expect(frame.width).toBe(200); expect(frame.width).toBe(200);
expect(text?.width).not.toBe(200); expect(text?.width).toBe(200);
UI.updateInput(angle, "40"); UI.updateInput(angle, "40");
@@ -657,6 +665,7 @@ describe("stats for multiple elements", () => {
mouse.reset(); mouse.reset();
Keyboard.withModifierKeys({ shift: true }, () => { Keyboard.withModifierKeys({ shift: true }, () => {
mouse.moveTo(10, 0);
mouse.click(); mouse.click();
}); });
@@ -728,3 +737,196 @@ describe("stats for multiple elements", () => {
expect(newGroupHeight).toBeCloseTo(500, 4); expect(newGroupHeight).toBeCloseTo(500, 4);
}); });
}); });
describe("frame resizing behavior", () => {
beforeEach(async () => {
localStorage.clear();
renderStaticScene.mockClear();
reseed(7);
setDateTimeForTests("201933152653");
await render(<Excalidraw handleKeyboardGlobally={true} />);
API.setElements([]);
fireEvent.contextMenu(GlobalTestState.interactiveCanvas, {
button: 2,
clientX: 1,
clientY: 1,
});
const contextMenu = UI.queryContextMenu();
fireEvent.click(queryByTestId(contextMenu!, "stats")!);
stats = UI.queryStats();
});
beforeAll(() => {
mockBoundingClientRect();
});
afterAll(() => {
restoreOriginalGetBoundingClientRect();
});
it("should add shapes to frame when resizing frame to encompass them", () => {
// Create a frame
const frame = API.createElement({
type: "frame",
x: 0,
y: 0,
width: 100,
height: 100,
});
// Create a rectangle outside the frame
const rectangle = API.createElement({
type: "rectangle",
x: 150,
y: 50,
width: 50,
height: 50,
});
API.setElements([frame, rectangle]);
// Initially, rectangle should not be in the frame
expect(rectangle.frameId).toBe(null);
// Select the frame
API.setAppState({
selectedElementIds: {
[frame.id]: true,
},
});
elementStats = stats?.querySelector("#elementStats");
// Find the width input and update it to encompass the rectangle
const widthInput = UI.queryStatsProperty("W")?.querySelector(
".drag-input",
) as HTMLInputElement;
expect(widthInput).toBeDefined();
expect(widthInput.value).toBe("100");
// Resize frame to width 250, which should encompass the rectangle
UI.updateInput(widthInput, "250");
// After resizing, the rectangle should now be part of the frame
expect(h.elements.find((el) => el.id === rectangle.id)?.frameId).toBe(
frame.id,
);
});
it("should add multiple shapes when frame encompasses them through height resize", () => {
const frame = API.createElement({
type: "frame",
x: 0,
y: 0,
width: 200,
height: 100,
});
const rectangle1 = API.createElement({
type: "rectangle",
x: 50,
y: 150,
width: 50,
height: 50,
});
const rectangle2 = API.createElement({
type: "rectangle",
x: 100,
y: 180,
width: 40,
height: 40,
});
API.setElements([frame, rectangle1, rectangle2]);
// Initially, rectangles should not be in the frame
expect(rectangle1.frameId).toBe(null);
expect(rectangle2.frameId).toBe(null);
// Select the frame
API.setAppState({
selectedElementIds: {
[frame.id]: true,
},
});
elementStats = stats?.querySelector("#elementStats");
// Resize frame height to encompass both rectangles
const heightInput = UI.queryStatsProperty("H")?.querySelector(
".drag-input",
) as HTMLInputElement;
// Resize frame to height 250, which should encompass both rectangles
UI.updateInput(heightInput, "250");
// After resizing, both rectangles should now be part of the frame
expect(h.elements.find((el) => el.id === rectangle1.id)?.frameId).toBe(
frame.id,
);
expect(h.elements.find((el) => el.id === rectangle2.id)?.frameId).toBe(
frame.id,
);
});
it("should not affect shapes that remain outside frame after resize", () => {
const frame = API.createElement({
type: "frame",
x: 0,
y: 0,
width: 100,
height: 100,
});
const insideRect = API.createElement({
type: "rectangle",
x: 120,
y: 50,
width: 30,
height: 30,
});
const outsideRect = API.createElement({
type: "rectangle",
x: 300,
y: 50,
width: 30,
height: 30,
});
API.setElements([frame, insideRect, outsideRect]);
// Initially, both rectangles should not be in the frame
expect(insideRect.frameId).toBe(null);
expect(outsideRect.frameId).toBe(null);
// Select the frame
API.setAppState({
selectedElementIds: {
[frame.id]: true,
},
});
elementStats = stats?.querySelector("#elementStats");
// Resize frame width to 200, which should only encompass insideRect
const widthInput = UI.queryStatsProperty("W")?.querySelector(
".drag-input",
) as HTMLInputElement;
UI.updateInput(widthInput, "200");
// After resizing, only insideRect should be in the frame
expect(h.elements.find((el) => el.id === insideRect.id)?.frameId).toBe(
frame.id,
);
expect(h.elements.find((el) => el.id === outsideRect.id)?.frameId).toBe(
null,
);
});
});
@@ -1,7 +1,7 @@
import { pointFrom, pointRotateRads } from "@excalidraw/math"; import { pointFrom, pointRotateRads } from "@excalidraw/math";
import { getBoundTextElement } from "@excalidraw/element"; import { getBoundTextElement } from "@excalidraw/element";
import { isFrameLikeElement, isTextElement } from "@excalidraw/element"; import { isFrameLikeElement } from "@excalidraw/element";
import { import {
getSelectedGroupIds, getSelectedGroupIds,
@@ -41,12 +41,6 @@ export const isPropertyEditable = (
element: ExcalidrawElement, element: ExcalidrawElement,
property: keyof ExcalidrawElement, property: keyof ExcalidrawElement,
) => { ) => {
if (property === "height" && isTextElement(element)) {
return false;
}
if (property === "width" && isTextElement(element)) {
return false;
}
if (property === "angle" && isFrameLikeElement(element)) { if (property === "angle" && isFrameLikeElement(element)) {
return false; return false;
} }

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