import { Style, Icon } from 'ol/style';
import Point from 'ol/geom/Point';
import Vector from 'ol/layer/Vector';
import VectorSource from 'ol/source/Vector';
import Pointer from 'ol/interaction/Pointer';
import Control from './control';
import rotateSVG from '../../img/rotate.svg';
import rotateMapSVG from '../../img/rotate_map.svg';
/**
* Tool with for rotating geometries.
* @extends {Control}
* @alias ole.RotateControl
*/
class RotateControl extends Control {
/**
* @inheritdoc
* @param {Object} [options] Control options.
* @param {string} [options.rotateAttribute] Name of a feature attribute
* that is used for storing the rotation in rad.
* @param {ol.style.Style.StyleLike} [options.style] Style used for the rotation layer.
*/
constructor(options) {
super({
title: 'Rotate',
className: 'icon-rotate',
image: rotateSVG,
...options,
});
/**
* @type {ol.interaction.Pointer}
* @private
*/
this.pointerInteraction = new Pointer({
handleDownEvent: this.onDown.bind(this),
handleDragEvent: this.onDrag.bind(this),
handleUpEvent: this.onUp.bind(this),
});
/**
* @type {string}
* @private
*/
this.rotateAttribute = options.rotateAttribute || 'ole_rotation';
/**
* Layer for rotation feature.
* @type {ol.layer.Vector}
* @private
*/
this.rotateLayer = new Vector({
source: new VectorSource(),
style:
options.style ||
((f) => {
const rotation = f.get(this.rotateAttribute);
return [
new Style({
geometry: new Point(this.center),
image: new Icon({
rotation,
src: rotateMapSVG,
}),
}),
];
}),
});
}
/**
* Handle a pointer down event.
* @param {ol.MapBrowserEvent} event Down event
* @private
*/
onDown(evt) {
this.dragging = false;
this.feature = this.map.forEachFeatureAtPixel(evt.pixel, (f) => {
if (this.source.getFeatures().indexOf(f) > -1) {
return f;
}
return null;
});
if (this.center && this.feature) {
this.feature.set(
this.rotateAttribute,
this.feature.get(this.rotateAttribute) || 0,
);
// rotation between clicked coordinate and feature center
this.initialRotation =
Math.atan2(
evt.coordinate[1] - this.center[1],
evt.coordinate[0] - this.center[0],
) + this.feature.get(this.rotateAttribute);
}
if (this.feature) {
return true;
}
return false;
}
/**
* Handle a pointer drag event.
* @param {ol.MapBrowserEvent} event Down event
* @private
*/
onDrag(evt) {
this.dragging = true;
if (this.feature && this.center) {
const rotation = Math.atan2(
evt.coordinate[1] - this.center[1],
evt.coordinate[0] - this.center[0],
);
const rotationDiff = this.initialRotation - rotation;
const geomRotation =
rotationDiff - this.feature.get(this.rotateAttribute);
this.feature.getGeometry().rotate(-geomRotation, this.center);
this.rotateFeature.getGeometry().rotate(-geomRotation, this.center);
this.feature.set(this.rotateAttribute, rotationDiff);
this.rotateFeature.set(this.rotateAttribute, rotationDiff);
}
}
/**
* Handle a pointer up event.
* @param {ol.MapBrowserEvent} event Down event
* @private
*/
onUp(evt) {
if (!this.dragging) {
if (this.feature) {
this.rotateFeature = this.feature;
this.center = evt.coordinate;
this.rotateLayer.getSource().clear();
this.rotateLayer.getSource().addFeature(this.rotateFeature);
} else {
this.rotateLayer.getSource().clear();
}
}
}
/**
* @inheritdoc
*/
activate() {
this.map.addInteraction(this.pointerInteraction);
this.rotateLayer.setMap(this.map);
super.activate();
}
/**
* @inheritdoc
*/
deactivate(silent) {
this.rotateLayer.getSource().clear();
this.rotateLayer.setMap(null);
this.map.removeInteraction(this.pointerInteraction);
super.deactivate(silent);
}
}
export default RotateControl;