package.src.data.feature_index.js Maven / Gradle / Ivy
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A WebGL interactive maps library
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// @flow
import Point from '@mapbox/point-geometry';
import loadGeometry from './load_geometry';
import toEvaluationFeature from './evaluation_feature';
import EXTENT from './extent';
import featureFilter from '../style-spec/feature_filter';
import Grid from 'grid-index';
import DictionaryCoder from '../util/dictionary_coder';
import vt from '@mapbox/vector-tile';
import Protobuf from 'pbf';
import GeoJSONFeature from '../util/vectortile_to_geojson';
import {arraysIntersect, mapObject, extend} from '../util/util';
import {OverscaledTileID} from '../source/tile_id';
import {register} from '../util/web_worker_transfer';
import EvaluationParameters from '../style/evaluation_parameters';
import SourceFeatureState from '../source/source_state';
import {polygonIntersectsBox} from '../util/intersection_tests';
import {PossiblyEvaluated} from '../style/properties';
import type StyleLayer from '../style/style_layer';
import type {FeatureFilter} from '../style-spec/feature_filter';
import type Transform from '../geo/transform';
import type {FilterSpecification, PromoteIdSpecification} from '../style-spec/types';
import {FeatureIndexArray} from './array_types';
type QueryParameters = {
scale: number,
pixelPosMatrix: Float32Array,
transform: Transform,
tileSize: number,
queryGeometry: Array,
cameraQueryGeometry: Array,
queryPadding: number,
params: {
filter: FilterSpecification,
layers: Array,
availableImages: Array
}
}
class FeatureIndex {
tileID: OverscaledTileID;
x: number;
y: number;
z: number;
grid: Grid;
grid3D: Grid;
featureIndexArray: FeatureIndexArray;
promoteId: ?PromoteIdSpecification;
rawTileData: ArrayBuffer;
bucketLayerIDs: Array>;
vtLayers: {[_: string]: VectorTileLayer};
sourceLayerCoder: DictionaryCoder;
constructor(tileID: OverscaledTileID, promoteId?: ?PromoteIdSpecification) {
this.tileID = tileID;
this.x = tileID.canonical.x;
this.y = tileID.canonical.y;
this.z = tileID.canonical.z;
this.grid = new Grid(EXTENT, 16, 0);
this.grid3D = new Grid(EXTENT, 16, 0);
this.featureIndexArray = new FeatureIndexArray();
this.promoteId = promoteId;
}
insert(feature: VectorTileFeature, geometry: Array>, featureIndex: number, sourceLayerIndex: number, bucketIndex: number, is3D?: boolean) {
const key = this.featureIndexArray.length;
this.featureIndexArray.emplaceBack(featureIndex, sourceLayerIndex, bucketIndex);
const grid = is3D ? this.grid3D : this.grid;
for (let r = 0; r < geometry.length; r++) {
const ring = geometry[r];
const bbox = [Infinity, Infinity, -Infinity, -Infinity];
for (let i = 0; i < ring.length; i++) {
const p = ring[i];
bbox[0] = Math.min(bbox[0], p.x);
bbox[1] = Math.min(bbox[1], p.y);
bbox[2] = Math.max(bbox[2], p.x);
bbox[3] = Math.max(bbox[3], p.y);
}
if (bbox[0] < EXTENT &&
bbox[1] < EXTENT &&
bbox[2] >= 0 &&
bbox[3] >= 0) {
grid.insert(key, bbox[0], bbox[1], bbox[2], bbox[3]);
}
}
}
loadVTLayers(): {[_: string]: VectorTileLayer} {
if (!this.vtLayers) {
this.vtLayers = new vt.VectorTile(new Protobuf(this.rawTileData)).layers;
this.sourceLayerCoder = new DictionaryCoder(this.vtLayers ? Object.keys(this.vtLayers).sort() : ['_geojsonTileLayer']);
}
return this.vtLayers;
}
// Finds non-symbol features in this tile at a particular position.
query(args: QueryParameters, styleLayers: {[_: string]: StyleLayer}, serializedLayers: {[_: string]: Object}, sourceFeatureState: SourceFeatureState): {[_: string]: Array<{ featureIndex: number, feature: GeoJSONFeature }>} {
this.loadVTLayers();
const params = args.params || {},
pixelsToTileUnits = EXTENT / args.tileSize / args.scale,
filter = featureFilter(params.filter);
const queryGeometry = args.queryGeometry;
const queryPadding = args.queryPadding * pixelsToTileUnits;
const bounds = getBounds(queryGeometry);
const matching = this.grid.query(bounds.minX - queryPadding, bounds.minY - queryPadding, bounds.maxX + queryPadding, bounds.maxY + queryPadding);
const cameraBounds = getBounds(args.cameraQueryGeometry);
const matching3D = this.grid3D.query(
cameraBounds.minX - queryPadding, cameraBounds.minY - queryPadding, cameraBounds.maxX + queryPadding, cameraBounds.maxY + queryPadding,
(bx1, by1, bx2, by2) => {
return polygonIntersectsBox(args.cameraQueryGeometry, bx1 - queryPadding, by1 - queryPadding, bx2 + queryPadding, by2 + queryPadding);
});
for (const key of matching3D) {
matching.push(key);
}
matching.sort(topDownFeatureComparator);
const result = {};
let previousIndex;
for (let k = 0; k < matching.length; k++) {
const index = matching[k];
// don't check the same feature more than once
if (index === previousIndex) continue;
previousIndex = index;
const match = this.featureIndexArray.get(index);
let featureGeometry = null;
this.loadMatchingFeature(
result,
match.bucketIndex,
match.sourceLayerIndex,
match.featureIndex,
filter,
params.layers,
params.availableImages,
styleLayers,
serializedLayers,
sourceFeatureState,
(feature: VectorTileFeature, styleLayer: StyleLayer, featureState: Object) => {
if (!featureGeometry) {
featureGeometry = loadGeometry(feature);
}
return styleLayer.queryIntersectsFeature(queryGeometry, feature, featureState, featureGeometry, this.z, args.transform, pixelsToTileUnits, args.pixelPosMatrix);
}
);
}
return result;
}
loadMatchingFeature(
result: {[_: string]: Array<{ featureIndex: number, feature: GeoJSONFeature }>},
bucketIndex: number,
sourceLayerIndex: number,
featureIndex: number,
filter: FeatureFilter,
filterLayerIDs: Array,
availableImages: Array,
styleLayers: {[_: string]: StyleLayer},
serializedLayers: {[_: string]: Object},
sourceFeatureState?: SourceFeatureState,
intersectionTest?: (feature: VectorTileFeature, styleLayer: StyleLayer, featureState: Object, id: string | number | void) => boolean | number) {
const layerIDs = this.bucketLayerIDs[bucketIndex];
if (filterLayerIDs && !arraysIntersect(filterLayerIDs, layerIDs))
return;
const sourceLayerName = this.sourceLayerCoder.decode(sourceLayerIndex);
const sourceLayer = this.vtLayers[sourceLayerName];
const feature = sourceLayer.feature(featureIndex);
if (filter.needGeometry) {
const evaluationFeature = toEvaluationFeature(feature, true);
if (!filter.filter(new EvaluationParameters(this.tileID.overscaledZ), evaluationFeature, this.tileID.canonical)) {
return;
}
} else if (!filter.filter(new EvaluationParameters(this.tileID.overscaledZ), feature)) {
return;
}
const id = this.getId(feature, sourceLayerName);
for (let l = 0; l < layerIDs.length; l++) {
const layerID = layerIDs[l];
if (filterLayerIDs && filterLayerIDs.indexOf(layerID) < 0) {
continue;
}
const styleLayer = styleLayers[layerID];
if (!styleLayer) continue;
let featureState = {};
if (id !== undefined && sourceFeatureState) {
// `feature-state` expression evaluation requires feature state to be available
featureState = sourceFeatureState.getState(styleLayer.sourceLayer || '_geojsonTileLayer', id);
}
const serializedLayer = extend({}, serializedLayers[layerID]);
serializedLayer.paint = evaluateProperties(serializedLayer.paint, styleLayer.paint, feature, featureState, availableImages);
serializedLayer.layout = evaluateProperties(serializedLayer.layout, styleLayer.layout, feature, featureState, availableImages);
const intersectionZ = !intersectionTest || intersectionTest(feature, styleLayer, featureState);
if (!intersectionZ) {
// Only applied for non-symbol features
continue;
}
const geojsonFeature = new GeoJSONFeature(feature, this.z, this.x, this.y, id);
(geojsonFeature: any).layer = serializedLayer;
let layerResult = result[layerID];
if (layerResult === undefined) {
layerResult = result[layerID] = [];
}
layerResult.push({featureIndex, feature: geojsonFeature, intersectionZ});
}
}
// Given a set of symbol indexes that have already been looked up,
// return a matching set of GeoJSONFeatures
lookupSymbolFeatures(symbolFeatureIndexes: Array,
serializedLayers: {[string]: StyleLayer},
bucketIndex: number,
sourceLayerIndex: number,
filterSpec: FilterSpecification,
filterLayerIDs: Array,
availableImages: Array,
styleLayers: {[_: string]: StyleLayer}) {
const result = {};
this.loadVTLayers();
const filter = featureFilter(filterSpec);
for (const symbolFeatureIndex of symbolFeatureIndexes) {
this.loadMatchingFeature(
result,
bucketIndex,
sourceLayerIndex,
symbolFeatureIndex,
filter,
filterLayerIDs,
availableImages,
styleLayers,
serializedLayers
);
}
return result;
}
hasLayer(id: string) {
for (const layerIDs of this.bucketLayerIDs) {
for (const layerID of layerIDs) {
if (id === layerID) return true;
}
}
return false;
}
getId(feature: VectorTileFeature, sourceLayerId: string): string | number | void {
let id = feature.id;
if (this.promoteId) {
const propName = typeof this.promoteId === 'string' ? this.promoteId : this.promoteId[sourceLayerId];
id = feature.properties[propName];
if (typeof id === 'boolean') id = Number(id);
}
return id;
}
}
register(
'FeatureIndex',
FeatureIndex,
{omit: ['rawTileData', 'sourceLayerCoder']}
);
export default FeatureIndex;
function evaluateProperties(serializedProperties, styleLayerProperties, feature, featureState, availableImages) {
return mapObject(serializedProperties, (property, key) => {
const prop = styleLayerProperties instanceof PossiblyEvaluated ? styleLayerProperties.get(key) : null;
return prop && prop.evaluate ? prop.evaluate(feature, featureState, availableImages) : prop;
});
}
function getBounds(geometry: Array) {
let minX = Infinity;
let minY = Infinity;
let maxX = -Infinity;
let maxY = -Infinity;
for (const p of geometry) {
minX = Math.min(minX, p.x);
minY = Math.min(minY, p.y);
maxX = Math.max(maxX, p.x);
maxY = Math.max(maxY, p.y);
}
return {minX, minY, maxX, maxY};
}
function topDownFeatureComparator(a, b) {
return b - a;
}