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LayoutStrategy.ts
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LayoutStrategy.ts
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import { Point } from '../../Point';
import type { FabricObject } from '../../shapes/Object/FabricObject';
import { makeBoundingBoxFromPoints } from '../../util/misc/boundingBoxFromPoints';
import {
LAYOUT_TYPE_INITIALIZATION,
LAYOUT_TYPE_IMPERATIVE,
} from '../constants';
import type {
InitializationLayoutContext,
LayoutStrategyResult,
StrictLayoutContext,
} from '../types';
import { getObjectBounds } from './utils';
/**
* Exposes a main public method {@link calcLayoutResult} that is used by the `LayoutManager` to perform layout.
* Returning `undefined` signals the `LayoutManager` to skip the layout.
*
* In charge of calculating the bounding box of the passed objects.
*/
export abstract class LayoutStrategy {
/**
* override by subclass for persistence (TS does not support `static abstract`)
*/
static type = 'strategy';
/**
* Used by the `LayoutManager` to perform layout
* @TODO/fix: if this method is calcResult, should calc unconditionally.
* the condition to not calc should be evaluated by the layoutManager.
* @returns layout result **OR** `undefined` to skip layout
*/
public calcLayoutResult(
context: StrictLayoutContext,
objects: FabricObject[],
): LayoutStrategyResult | undefined {
if (this.shouldPerformLayout(context)) {
return this.calcBoundingBox(objects, context);
}
}
shouldPerformLayout({ type, prevStrategy, strategy }: StrictLayoutContext) {
return (
type === LAYOUT_TYPE_INITIALIZATION ||
type === LAYOUT_TYPE_IMPERATIVE ||
(!!prevStrategy && strategy !== prevStrategy)
);
}
shouldLayoutClipPath({ type, target: { clipPath } }: StrictLayoutContext) {
return (
type !== LAYOUT_TYPE_INITIALIZATION &&
clipPath &&
!clipPath.absolutePositioned
);
}
getInitialSize(
context: StrictLayoutContext & InitializationLayoutContext,
result: Pick<LayoutStrategyResult, 'center' | 'size'>,
) {
return result.size;
}
/**
* Override this method to customize layout.
*/
calcBoundingBox(
objects: FabricObject[],
context: StrictLayoutContext,
): LayoutStrategyResult | undefined {
const { type, target } = context;
if (type === LAYOUT_TYPE_IMPERATIVE && context.overrides) {
return context.overrides;
}
if (objects.length === 0) {
return;
}
const { left, top, width, height } = makeBoundingBoxFromPoints(
objects
.map((object) => getObjectBounds(target, object))
.reduce<Point[]>((coords, curr) => coords.concat(curr), []),
);
const bboxSize = new Point(width, height);
const bboxLeftTop = new Point(left, top);
const bboxCenter = bboxLeftTop.add(bboxSize.scalarDivide(2));
if (type === LAYOUT_TYPE_INITIALIZATION) {
const actualSize = this.getInitialSize(context, {
size: bboxSize,
center: bboxCenter,
});
return {
// in `initialization` we do not account for target's transformation matrix
center: bboxCenter,
// TODO: investigate if this is still necessary
relativeCorrection: new Point(0, 0),
size: actualSize,
};
} else {
// we send `relativeCenter` up to group's containing plane
const center = bboxCenter.transform(target.calcOwnMatrix());
return {
center,
size: bboxSize,
};
}
}
}