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本篇內容介紹了“Android基于Mapbox V10如何繪制LineGradient軌跡”的有關知識,在實際案例的操作過程中,不少人都會遇到這樣的困境,接下來就讓小編帶領大家學習一下如何處理這些情況吧!希望大家仔細閱讀,能夠學有所成!
當Mapbox升級到V10(我直接到當前的最新V10.3)版本后,就可以就此實現自己想要實現的功能。
官方文檔上的一些case就不在重復了
UISettings:
PreV10 通過MapView 拿到UISettings, 然后控制相關屬性,V10 UISettings已經被移除了,不再統一管理,比較分散。
參見相關屬性的控制:
mMapView.compass.visibility = false
mMapView.logo.enabled = false
mMapView.attribution.enabled = false
mMapView.gestures.updateSettings { null }//控制無法觸摸PreV10 與 V10 的Camera 相關的animation (涉及到用到的Point,PreV10 之前有LatLn, Point 兩個類,當時還覺得為啥弄兩個,比較冗余,V10里面拿掉了LatLn保留Point,注意的是Point構造時 longitude為第一個prarams. )
fun moveCamera(
mapView: MapView,
originalList: List<Point>,
paddingStart: Double,
paddingTop: Double,
paddingEnd: Double,
paddingBottom: Double
) {
if (originalList.isEmpty()) {
return
}
val mapboxMap = mapView.getMapboxMap()
val camera = mapboxMap.cameraForCoordinates(originalList, EdgeInsets(paddingTop, paddingStart, paddingBottom, paddingEnd))
mapView.camera.flyTo(camera)
// mapboxMap.setCamera(camera)
}camera動畫之后,animationEnd 后的回調 需求時,傳入animationOptions給 easeTo(),如下實現:
fun easeCamera(mapView:MapView, originalList: List<Point>,
margin: Double,
duration: Long,
actionAfter: (() -> Unit)? = null){
if (originalList.isEmpty()) {
return
}
val animationOptions = MapAnimationOptions.mapAnimationOptions {
duration(duration)
// owner(MapAnimationOwnerRegistry.GESTURES)
animatorListener(object : AnimatorListenerAdapter() {
override fun onAnimationEnd(animation: Animator?) {
actionAfter?.invoke()
}
})
}
val mapboxMap = mapView.getMapboxMap()
val camera = mapboxMap.cameraForCoordinates(originalList, EdgeInsets(margin, margin, margin, margin))
mapView.camera.easeTo(camera, animationOptions)
}LatlngBounds:
Pre10 之前的類,并且可以通過 List 創建一個 LatlngBounds, 然后 getCenter(), V10中直接拿掉了 LatLngBounds, 也就沒有獲取List 對應的 getCenter()了,沒有仔細地去找API是否有相對應的替代,直接自己用擴展實現了一下:
@JvmStatic
fun getCenter(originalList: List<Point>): Point? {
if (originalList.isEmpty()) {
return null
}
if (originalList.size < 2) {
return originalList[0]
}
val multiPoint = MultiPoint.fromLngLats(originalList)
val boundingBox = multiPoint.createBoundingBoxFromPoints()
return boundingBox?.getCenter()
}涉及到兩個類 BoundingBox 及 MultiPoint, 在兩個類上添加擴展方法:
/**
** 通過 southwest、northeast 兩個點構建 BoundingBox 對象
**/
fun MultiPoint.createBoundingBoxFromPoints(): BoundingBox?{
val coordinates = coordinates()
if (coordinates.size > 1){
var minLat: Double = MAX_LATITUDE
var minLon: Double = MAX_LONGITUDE
var maxLat: Double = MIN_LATITUDE
var maxLon: Double = MIN_LONGITUDE
for (gp in coordinates) {
val latitude: Double = gp.latitude()
val longitude: Double = gp.longitude()
minLat = Math.min(minLat, latitude)
minLon = Math.min(minLon, longitude)
maxLat = Math.max(maxLat, latitude)
maxLon = Math.max(maxLon, longitude)
}
val southwest = Point.fromLngLat(minLon, minLat)
val northeast = Point.fromLngLat(maxLon, maxLat)
return BoundingBox.fromPoints(southwest, northeast)
}
return null
}
/**
** 擴展BoundingBox getCenter()方法。
**/
fun BoundingBox.getCenter(): Point {
val centerLon = (southwest().longitude() + northeast().longitude())/2.0
val centerLat = (southwest().latitude() + northeast().latitude())/2.0
return Point.fromLngLat(centerLon, centerLat)
}V10 添加了DSL build 添加 source、layer,相對而言source、layer都比較集中在builder{}的 block里,實際應用中通常source、layer 的添加都是分離的,動態的,通過sourceID, layerId 找到對應的 source、layer然后修改里面的內容, 發現 addLayerBelow(layer, layId) 該方法不好使,Crash了,暫且不用它了。 SymbolLayer 相比之前的api接口,少了一個 style.addImages(imagesMap), 不再支持一次性添加多個Image,添加一個簡單的擴展函數即可。
fun Style.addImages(imageMap: Map<String, Bitmap>) {
imageMap.forEach { (t, u) ->
addImage(t, u)
}
}創建SymbolLayer 及 Source (Feature)的case
private fun createSymbolLayer(
layerId: String,
sourceId: String,
isChangeStyle: Boolean,
offsetY: Float
): SymbolLayer {
return symbolLayer(layerId, sourceId){
iconImage(PROPERTY_ICON_NAME_PATTERN)
iconAllowOverlap(true)
iconSize(if (isChangeStyle) 1.0 else 0.0)
iconIgnorePlacement(true)
iconOffset(listOf(0.0, offsetY.toDouble()))
}
}
// 控制iconSize 大小是方便做動畫。
private fun createSymbolBitmap(latLng: Point, markerStr: String, markerParams: MarkerParams?) {
val feature = Feature.fromGeometry(Point.fromLngLat(latLng.longitude(), latLng.latitude()))
val bitmap = createMarkerBitmap(mContext, markerParams!!)
feature.addStringProperty(PROPERTY_ICON_NAME, markerStr)
imagesMap[markerStr] = bitmap
markerCoordinates.add(feature)
}添加對應的 source, Layer
style.addSource(
geoJsonSource(END_SOURCE_ID){
featureCollection(FeatureCollection.fromFeatures(markerCoordinates))
}
)
style.addLayer(endSymbolLayer)同樣添加Layer前需要添加 source, List 構建 FeatureCollection, 如下:
mMapView.getMapboxMap().getStyle()?.addSource(
geoJsonSource(sourceId){
featureCollection(
FeatureCollection.fromFeatures(
arrayOf(
Feature.fromGeometry(
LineString.fromLngLats(points)
)
)
)
)
lineMetrics(true) // 注意這里,繪制LineGradient 需要添加這行代碼。
}
)添加單色的 LineLayer
mMapView.getMapboxMap().getStyle()?.addLayer(
lineLayer(layerId, sourceId){
lineDasharray(listOf(0.01, 2.0))
lineCap(LineCap.ROUND)
lineJoin(LineJoin.ROUND)
lineWidth(TRACE_WIDTH.toDouble())
lineColor(pathColor)
}
)繪制LineGradient, 先聊 Pre10的方案
/**
* Defines a gradient with which to color a line feature. Can only be used with GeoJSON sources that specify `"lineMetrics": true`.
*
* @param expression an expression statement
* @return property wrapper around an expression statement
*/
public static PropertyValue<Expression> lineGradient(Expression expression) {
return new PaintPropertyValue<>("line-gradient", expression);
}
/**
Produces continuous, smooth results by interpolating between pairs of input and output values ("stops"). The `input` may be any numeric expression (e.g., `["get", "population"]`). Stop inputs must be numeric literals in strictly ascending order. The output type must be `number`, `array<number>`, or `color`.
Example usage:
FillLayer fillLayer = new FillLayer("layer-id", "source-id");
fillLayer.setProperties(
fillColor(
interpolate(
exponential(0.5f), zoom(),
stop(1.0f, color(Color.RED)),
stop(5.0f, color(Color.BLUE)),
stop(10.0f, color(Color.GREEN))
)
)
);
Params:
interpolation – type of interpolation
number – the input expression
stops – pair of input and output values
Returns:
expression
See Also:
Style specification
*/
public static Expression interpolate(@NonNull Interpolator interpolation,
@NonNull Expression number, Stop... stops) {
return interpolate(interpolation, number, Stop.toExpressionArray(stops));
}以上只需創建 Expression.Stop[] stops, 根據List 中每個Point 的配速對應的色值,傳入即可,繪制LineGradient。
V10 中不再有 Expression 下 的Stop類,所以無從談起創建Stop[] 了,從官方的demo里看 , 最后跟了不定的 stop{}, 可以看見是一個可變參數,所以打算構建一個 stop{} 的數據。
private fun createHeatmapLayer(): HeatmapLayer {
return heatmapLayer(
HEATMAP_LAYER_ID,
EARTHQUAKE_SOURCE_ID
) {
maxZoom(9.0)
sourceLayer(HEATMAP_LAYER_SOURCE)
// Begin color ramp at 0-stop with a 0-transparancy color
// to create a blur-like effect.
heatmapColor(
interpolate {
linear()
heatmapDensity()
stop {
literal(0)
rgba(33.0, 102.0, 172.0, 0.0)
}
stop {
literal(0.2)
rgb(103.0, 169.0, 207.0)
}
stop {
literal(0.4)
rgb(209.0, 229.0, 240.0)
}
stop {
literal(0.6)
rgb(253.0, 219.0, 240.0)
}
stop {
literal(0.8)
rgb(239.0, 138.0, 98.0)
}
stop {
literal(1)
rgb(178.0, 24.0, 43.0)
}
}
)
...
...
}
}其實 stop{} 的源碼如下, 所以需要提供一個高階函數的數組
fun stop(block: ExpressionBuilder.() -> Unit) {
this@ExpressionBuilder.apply(block)
}
//給Expression.InterpolatorBuilder 添加一個 stops()的擴展方法即可
fun Expression.InterpolatorBuilder.stops(stopList:Array<(Expression.ExpressionBuilder.() -> Unit)?>){
stopList.forEach { stop ->
stop?.let {
apply(it)
}
}
}
//將以上的擴展方法作為參數傳入 構建 Expression的最后一個參數,
var colorExpression = Expression.interpolate{
linear()
lineProgress()
stops(colorStops)
}
//最后將 colorExpression 應用到構建lineLayer的 lineGradient(colorExpression) 作為參數即可,大功告成
mMapView.getMapboxMap().getStyle()?.addLayer(
lineLayer(layerId, sourceId){
lineCap(LineCap.ROUND)
lineJoin(LineJoin.ROUND)
lineWidth(5.0)
lineGradient(colorExpression)
}
)“Android基于Mapbox V10如何繪制LineGradient軌跡”的內容就介紹到這里了,感謝大家的閱讀。如果想了解更多行業相關的知識可以關注億速云網站,小編將為大家輸出更多高質量的實用文章!
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