BlockSuite API Documentation / @blocksuite/affine-gfx-note
@blocksuite/affine-gfx-note
Classes
Extension
NoteTool
Understanding Extensions
Extensions provide a way to extend the functionality of a system using dependency injection. They allow you to register services, implementations, and factories in the DI container, which can then be retrieved and used by different parts of the application.
Extensions are particularly useful for:
- Registering different implementations for different types
- Creating pluggable architecture where components can be added or removed
- Managing dependencies between different parts of the application
Usage Example: Fruit Processing System
Let's consider a fruit processing system where different types of fruits need different processing methods. We'll show how to implement this using extensions.
Step 1: Define the interfaces
interface FruitProcessor {
process(fruit: Fruit): void;
}
interface Fruit {
type: string;
// other properties
}Step 2: Create a service identifier
import { createIdentifier } from '@blocksuite/global/di';
const FruitProcessorProvider = createIdentifier<FruitProcessor>('fruit-processor-provider');Step 3: Create implementations
class AppleProcessor implements FruitProcessor {
process(fruit: Fruit): void {
console.log('Slicing apple');
// Apple-specific processing
}
}
class BananaProcessor implements FruitProcessor {
process(fruit: Fruit): void {
console.log('Peeling banana');
// Banana-specific processing
}
}Step 4: Create an extension factory
const FruitProcessorExtension = (
fruitType: string,
implementation: new () => FruitProcessor
): ExtensionType => {
return {
setup: di => {
di.addImpl(FruitProcessorProvider(fruitType), implementation);
}
};
};Step 5: Create concrete extensions
export const AppleProcessorExtension = FruitProcessorExtension('apple', AppleProcessor);
export const BananaProcessorExtension = FruitProcessorExtension('banana', BananaProcessor);Step 6: Use the extensions
import { Container } from '@blocksuite/global/di';
class FruitProcessingSystem {
provider: ServiceProvider;
constructor(extensions: ExtensionType[]) {
const container = new Container();
// Set up all extensions
extensions.forEach(ext => ext.setup(container));
// Create a provider from the container
this.provider = container.provider();
}
processFruit(fruit: Fruit) {
// Get the appropriate processor based on fruit type
const processor = this.provider.get(FruitProcessorProvider(fruit.type));
// Process the fruit
processor.process(fruit);
}
}
// Initialize the system with extensions
const system = new FruitProcessingSystem([
AppleProcessorExtension,
BananaProcessorExtension
]);
// Use the system
system.processFruit({ type: 'apple' }); // Output: Slicing apple
system.processFruit({ type: 'banana' }); // Output: Peeling bananaNote: We deliberately used a non-block specific example here. In BlockSuite, the extension pattern can be applied to any entity that can be configured by third parties, not just blocks. This includes different tools in the whiteboard, different column types in database blocks, and many other extensible components. The pattern remains the same regardless of what you're extending.
Extends
Constructors
Properties
toolName
statictoolName:string='affine:note'
Overrides
Accessors
Methods
activate()
activate():
void
Called when the tool is activated.
Returns
void
Overrides
click()
click(
e):void
Parameters
e
Returns
void
Overrides
deactivate()
deactivate():
void
Called when the tool is deactivated.
Returns
void
Overrides
dragEnd()
dragEnd():
void
Returns
void
Overrides
dragMove()
dragMove(
e):void
Parameters
e
Returns
void
Overrides
dragStart()
dragStart():
void
Returns
void
Overrides
mounted()
mounted():
void
Called when the tool is registered.
Returns
void
Overrides
pointerMove()
pointerMove(
e):void
Parameters
e
Returns
void
Overrides
pointerOut()
pointerOut(
e):void
Parameters
e
Returns
void
Overrides
Other
DraggingNoteOverlay
An overlay is a layer covered on top of elements, can be used for rendering non-CRDT state indicators.
Extends
Constructors
Constructor
new DraggingNoteOverlay(
gfx,background):DraggingNoteOverlay
Parameters
gfx
background
string | { normal: string; } | { dark: string; light: string; }
Returns
Overrides
Properties
height
height:
number
slots
slots:
object
draggingNoteUpdated
draggingNoteUpdated:
Subject<{xywh:XYWH; }>
width
width:
number
Methods
render()
render(
ctx):void
Parameters
ctx
CanvasRenderingContext2D
Returns
void
Overrides
NoteOverlay
An overlay is a layer covered on top of elements, can be used for rendering non-CRDT state indicators.
Extends
Extended by
Constructors
Constructor
new NoteOverlay(
gfx,background):NoteOverlay
Parameters
gfx
background
string | { normal: string; } | { dark: string; light: string; }
Returns
Overrides
Properties
backgroundColor
backgroundColor:
string='transparent'
text
text:
string=''
Methods
render()
render(
ctx):void
Parameters
ctx
CanvasRenderingContext2D
Returns
void
Overrides
Type Aliases
NoteToolOption
NoteToolOption =
object
Properties
childFlavour
childFlavour:
NoteChildrenFlavour
childType
childType:
string|null
tip
tip:
string
Variables
NOTE_OVERLAY_CORNER_RADIUS
constNOTE_OVERLAY_CORNER_RADIUS:6=6
NOTE_OVERLAY_DARK_BACKGROUND_COLOR
constNOTE_OVERLAY_DARK_BACKGROUND_COLOR:"rgb(32, 32, 32)"='rgb(32, 32, 32)'
NOTE_OVERLAY_HEIGHT
constNOTE_OVERLAY_HEIGHT:50=50
NOTE_OVERLAY_LIGHT_BACKGROUND_COLOR
constNOTE_OVERLAY_LIGHT_BACKGROUND_COLOR:"rgba(252, 252, 253, 1)"='rgba(252, 252, 253, 1)'
NOTE_OVERLAY_OFFSET_X
constNOTE_OVERLAY_OFFSET_X:6=6
NOTE_OVERLAY_OFFSET_Y
constNOTE_OVERLAY_OFFSET_Y:6=6
NOTE_OVERLAY_STOKE_COLOR
constNOTE_OVERLAY_STOKE_COLOR:"--affine-border-color"='--affine-border-color'
NOTE_OVERLAY_TEXT_COLOR
constNOTE_OVERLAY_TEXT_COLOR:"--affine-icon-color"='--affine-icon-color'
NOTE_OVERLAY_WIDTH
constNOTE_OVERLAY_WIDTH:100=100
noteSeniorTool
constnoteSeniorTool:ExtensionType