Compare commits

..

No commits in common. "3a4c9133c62ced8202fc652da8fc4907230f6f59" and "0f5dcf99791bf44450b3353e952bf5d9523eda08" have entirely different histories.

21 changed files with 468 additions and 562 deletions

View File

@ -9,7 +9,7 @@ val kmathVersion: String by extra("0.4.0")
allprojects {
group = "space.kscience"
version = "0.4.0-dev"
version = "0.3.1-dev"
repositories {
mavenLocal()

View File

@ -1,4 +1,4 @@
@file:OptIn(ExperimentalResourceApi::class, ExperimentalComposeUiApi::class)
@file:OptIn(ExperimentalComposeUiApi::class, ExperimentalResourceApi::class)
import androidx.compose.runtime.*
import androidx.compose.ui.ExperimentalComposeUiApi
@ -10,7 +10,7 @@ import kotlinx.coroutines.launch
import org.jetbrains.compose.resources.ExperimentalResourceApi
import org.jetbrains.compose.resources.painterResource
import space.kscience.kmath.geometry.Angle
import space.kscience.maps.features.FeatureStore
import space.kscience.maps.features.FeatureGroup
import space.kscience.maps.features.ViewConfig
import space.kscience.maps.features.ViewPoint
import space.kscience.maps.features.color
@ -25,7 +25,7 @@ fun App() {
val scope = rememberCoroutineScope()
val features = FeatureStore.remember(XYCoordinateSpace) {
val features: FeatureGroup<XY> = FeatureGroup.remember(XYCoordinateSpace) {
background(1600f, 1200f) {
painterResource(Res.drawable.middle_earth)
}

View File

@ -73,7 +73,7 @@ fun App() {
geoJson(javaClass.getResource("/moscow.geo.json")!!)
.color(Color.Blue)
.alpha(0.4f)
.modifyAttribute(AlphaAttribute, 0.4f)
icon(pointOne, Icons.Filled.Home)
@ -166,13 +166,13 @@ fun App() {
}.launchIn(scope)
//Add click listeners for all polygons
forEachWithType<Gmc, PolygonFeature<Gmc>> { ref, polygon: PolygonFeature<Gmc> ->
forEachWithType<Gmc, PolygonFeature<Gmc>> { ref ->
ref.onClick(PointerMatcher.Primary) {
println("Click on $ref")
println("Click on ${ref.id}")
//draw in top-level scope
with(this@MapView) {
multiLine(
polygon.points,
ref.resolve().points,
attributes = Attributes(ZAttribute, 10f),
id = "selected",
).modifyAttribute(StrokeAttribute, 4f).color(Color.Magenta)

View File

@ -24,7 +24,7 @@ fun App() {
val myPolygon: SnapshotStateList<XY> = remember { mutableStateListOf<XY>() }
val featureState = FeatureStore.remember(XYCoordinateSpace) {
val featureState: FeatureGroup<XY> = FeatureGroup.remember(XYCoordinateSpace) {
multiLine(
listOf(XY(0f, 0f), XY(0f, 1f), XY(1f, 1f), XY(1f, 0f), XY(0f, 0f)),
id = "frame"
@ -55,7 +55,6 @@ fun App() {
}
draggableMultiLine(
pointRefs + pointRefs.first(),
"line"
)
}
}

View File

@ -12,7 +12,7 @@ import kotlinx.coroutines.delay
import kotlinx.coroutines.isActive
import kotlinx.coroutines.launch
import space.kscience.kmath.geometry.Angle
import space.kscience.maps.features.FeatureStore
import space.kscience.maps.features.FeatureGroup
import space.kscience.maps.features.ViewConfig
import space.kscience.maps.features.ViewPoint
import space.kscience.maps.features.color
@ -29,7 +29,7 @@ fun App() {
MaterialTheme {
val scope = rememberCoroutineScope()
val features = FeatureStore.remember(XYCoordinateSpace) {
val features: FeatureGroup<XY> = FeatureGroup.remember(XYCoordinateSpace) {
background(1600f, 1200f) { painterResource("middle-earth.jpg") }
circle(410.52737 to 868.7676).color(Color.Blue)
text(410.52737 to 868.7676, "Shire").color(Color.Blue)

View File

@ -22,7 +22,7 @@ private fun Vector2D<out Number>.toXY() = XY(x.toFloat(), y.toFloat())
private val random = Random(123)
fun FeatureBuilder<XY>.trajectory(
fun FeatureGroup<XY>.trajectory(
trajectory: Trajectory2D,
colorPicker: (Trajectory2D) -> Color = { Color.Blue },
): FeatureRef<XY, FeatureGroup<XY>> = group {
@ -54,12 +54,12 @@ fun FeatureBuilder<XY>.trajectory(
}
}
fun FeatureBuilder<XY>.obstacle(obstacle: Obstacle, colorPicker: (Trajectory2D) -> Color = { Color.Red }) {
fun FeatureGroup<XY>.obstacle(obstacle: Obstacle, colorPicker: (Trajectory2D) -> Color = { Color.Red }) {
trajectory(obstacle.circumvention, colorPicker)
polygon(obstacle.arcs.map { it.center.toXY() }).color(Color.Gray)
}
fun FeatureBuilder<XY>.pose(pose2D: Pose2D) = with(Float64Space2D) {
fun FeatureGroup<XY>.pose(pose2D: Pose2D) = with(Float64Space2D) {
line(pose2D.toXY(), (pose2D + Pose2D.bearingToVector(pose2D.bearing)).toXY())
}

View File

@ -33,7 +33,7 @@ private val logger = KotlinLogging.logger("MapView")
public fun MapView(
mapState: MapCanvasState,
mapTileProvider: MapTileProvider,
featureStore: FeatureStore<Gmc>,
features: FeatureGroup<Gmc>,
modifier: Modifier,
) {
val mapTiles = remember(mapTileProvider) {
@ -87,7 +87,7 @@ public fun MapView(
}
FeatureCanvas(mapState, featureStore.featureFlow, modifier = modifier.canvasControls(mapState, featureStore)) {
FeatureCanvas(mapState, features, modifier = modifier.canvasControls(mapState, features)) {
val tileScale = mapState.tileScale
clipRect {
@ -112,19 +112,19 @@ public fun MapView(
}
/**
* Create a [MapView] with given [featureStore] group.
* Create a [MapView] with given [features] group.
*/
@Composable
public fun MapView(
mapTileProvider: MapTileProvider,
config: ViewConfig<Gmc>,
featureStore: FeatureStore<Gmc>,
features: FeatureGroup<Gmc>,
initialViewPoint: ViewPoint<Gmc>? = null,
initialRectangle: Rectangle<Gmc>? = null,
modifier: Modifier,
) {
val mapState = MapCanvasState.remember(mapTileProvider, config, initialViewPoint, initialRectangle)
MapView(mapState, mapTileProvider, featureStore, modifier)
MapView(mapState, mapTileProvider, features, modifier)
}
/**
@ -141,9 +141,9 @@ public fun MapView(
initialViewPoint: ViewPoint<Gmc>? = null,
initialRectangle: Rectangle<Gmc>? = null,
modifier: Modifier = Modifier.fillMaxSize(),
buildFeatures: FeatureStore<Gmc>.() -> Unit = {},
buildFeatures: FeatureGroup<Gmc>.() -> Unit = {},
) {
val featureState = FeatureStore.remember(WebMercatorSpace, buildFeatures)
val featureState = FeatureGroup.remember(WebMercatorSpace, buildFeatures)
val computedRectangle = initialRectangle ?: featureState.getBoundingBox()
MapView(mapTileProvider, config, featureState, initialViewPoint, computedRectangle, modifier)
}

View File

@ -13,12 +13,12 @@ import space.kscience.maps.features.*
import kotlin.math.ceil
internal fun FeatureBuilder<Gmc>.coordinatesOf(pair: Pair<Number, Number>) =
internal fun FeatureGroup<Gmc>.coordinatesOf(pair: Pair<Number, Number>) =
GeodeticMapCoordinates.ofDegrees(pair.first.toDouble(), pair.second.toDouble())
public typealias MapFeature = Feature<Gmc>
public fun FeatureBuilder<Gmc>.circle(
public fun FeatureGroup<Gmc>.circle(
centerCoordinates: Pair<Number, Number>,
size: Dp = 5.dp,
id: String? = null,
@ -26,7 +26,7 @@ public fun FeatureBuilder<Gmc>.circle(
id, CircleFeature(space, coordinatesOf(centerCoordinates), size)
)
public fun FeatureBuilder<Gmc>.rectangle(
public fun FeatureGroup<Gmc>.rectangle(
centerCoordinates: Pair<Number, Number>,
size: DpSize = DpSize(5.dp, 5.dp),
id: String? = null,
@ -35,7 +35,7 @@ public fun FeatureBuilder<Gmc>.rectangle(
)
public fun FeatureBuilder<Gmc>.draw(
public fun FeatureGroup<Gmc>.draw(
position: Pair<Number, Number>,
id: String? = null,
draw: DrawScope.() -> Unit,
@ -45,7 +45,7 @@ public fun FeatureBuilder<Gmc>.draw(
)
public fun FeatureBuilder<Gmc>.line(
public fun FeatureGroup<Gmc>.line(
curve: GmcCurve,
id: String? = null,
): FeatureRef<Gmc, LineFeature<Gmc>> = feature(
@ -56,7 +56,7 @@ public fun FeatureBuilder<Gmc>.line(
/**
* A segmented geodetic curve
*/
public fun FeatureBuilder<Gmc>.geodeticLine(
public fun FeatureGroup<Gmc>.geodeticLine(
curve: GmcCurve,
ellipsoid: GeoEllipsoid = GeoEllipsoid.WGS84,
maxLineDistance: Distance = 100.kilometers,
@ -79,7 +79,7 @@ public fun FeatureBuilder<Gmc>.geodeticLine(
multiLine(points.map { it.coordinates }, id = id)
}
public fun FeatureBuilder<Gmc>.geodeticLine(
public fun FeatureGroup<Gmc>.geodeticLine(
from: Gmc,
to: Gmc,
ellipsoid: GeoEllipsoid = GeoEllipsoid.WGS84,
@ -87,7 +87,7 @@ public fun FeatureBuilder<Gmc>.geodeticLine(
id: String? = null,
): FeatureRef<Gmc, Feature<Gmc>> = geodeticLine(ellipsoid.curveBetween(from, to), ellipsoid, maxLineDistance, id)
public fun FeatureBuilder<Gmc>.line(
public fun FeatureGroup<Gmc>.line(
aCoordinates: Pair<Double, Double>,
bCoordinates: Pair<Double, Double>,
id: String? = null,
@ -96,7 +96,7 @@ public fun FeatureBuilder<Gmc>.line(
LineFeature(space, coordinatesOf(aCoordinates), coordinatesOf(bCoordinates))
)
public fun FeatureBuilder<Gmc>.arc(
public fun FeatureGroup<Gmc>.arc(
center: Pair<Double, Double>,
radius: Distance,
startAngle: Angle,
@ -112,17 +112,17 @@ public fun FeatureBuilder<Gmc>.arc(
)
)
public fun FeatureBuilder<Gmc>.points(
public fun FeatureGroup<Gmc>.points(
points: List<Pair<Double, Double>>,
id: String? = null,
): FeatureRef<Gmc, PointsFeature<Gmc>> = feature(id, PointsFeature(space, points.map(::coordinatesOf)))
public fun FeatureBuilder<Gmc>.multiLine(
public fun FeatureGroup<Gmc>.multiLine(
points: List<Pair<Double, Double>>,
id: String? = null,
): FeatureRef<Gmc, MultiLineFeature<Gmc>> = feature(id, MultiLineFeature(space, points.map(::coordinatesOf)))
public fun FeatureBuilder<Gmc>.icon(
public fun FeatureGroup<Gmc>.icon(
position: Pair<Double, Double>,
image: ImageVector,
size: DpSize = DpSize(20.dp, 20.dp),
@ -137,7 +137,7 @@ public fun FeatureBuilder<Gmc>.icon(
)
)
public fun FeatureBuilder<Gmc>.text(
public fun FeatureGroup<Gmc>.text(
position: Pair<Double, Double>,
text: String,
font: Font.() -> Unit = { size = 16f },
@ -147,7 +147,7 @@ public fun FeatureBuilder<Gmc>.text(
TextFeature(space, coordinatesOf(position), text, fontConfig = font)
)
public fun FeatureBuilder<Gmc>.pixelMap(
public fun FeatureGroup<Gmc>.pixelMap(
rectangle: Rectangle<Gmc>,
latitudeDelta: Angle,
longitudeDelta: Angle,

View File

@ -35,6 +35,5 @@ kscience {
api(compose.material)
api(compose.ui)
api("io.github.oshai:kotlin-logging:6.0.3")
api("com.benasher44:uuid:0.8.4")
}
}

View File

@ -18,7 +18,7 @@ import kotlin.math.min
*/
public fun <T : Any> Modifier.canvasControls(
state: CanvasState<T>,
features: FeatureStore<T>,
features: FeatureGroup<T>,
): Modifier = with(state) {
// //selecting all tapabales ahead of time
@ -36,7 +36,7 @@ public fun <T : Any> Modifier.canvasControls(
val point = state.space.ViewPoint(coordinates, zoom)
if (event.type == PointerEventType.Move) {
features.forEachWithAttribute(HoverListenerAttribute) { id, feature, listeners ->
features.forEachWithAttribute(HoverListenerAttribute) { _, feature, listeners ->
if (point in feature as DomainFeature) {
listeners.forEach { it.handle(event, point) }
return@forEachWithAttribute
@ -67,7 +67,7 @@ public fun <T : Any> Modifier.canvasControls(
point
)
features.forEachWithAttributeUntil(ClickListenerAttribute) {_, feature, listeners ->
features.forEachWithAttributeUntil(ClickListenerAttribute) { _, feature, listeners ->
if (point in (feature as DomainFeature)) {
listeners.forEach { it.handle(event, point) }
false

View File

@ -2,8 +2,6 @@ package space.kscience.maps.features
import androidx.compose.foundation.Canvas
import androidx.compose.runtime.Composable
import androidx.compose.runtime.collectAsState
import androidx.compose.runtime.getValue
import androidx.compose.ui.Modifier
import androidx.compose.ui.geometry.Offset
import androidx.compose.ui.graphics.Color
@ -18,13 +16,7 @@ import androidx.compose.ui.text.drawText
import androidx.compose.ui.text.rememberTextMeasurer
import androidx.compose.ui.unit.DpRect
import io.github.oshai.kotlinlogging.KotlinLogging
import kotlinx.coroutines.FlowPreview
import kotlinx.coroutines.flow.StateFlow
import kotlinx.coroutines.flow.sample
import space.kscience.attributes.Attributes
import space.kscience.attributes.plus
import kotlin.time.Duration
import kotlin.time.Duration.Companion.milliseconds
/**
* An extension of [DrawScope] to include map-specific features
@ -60,7 +52,6 @@ public class ComposeFeatureDrawScope<T : Any>(
) : FeatureDrawScope<T>(state), DrawScope by drawScope {
override fun drawText(text: String, position: Offset, attributes: Attributes) {
try {
//TODO don't draw text that is not on screen
drawText(textMeasurer ?: error("Text measurer not defined"), text, position)
} catch (ex: Exception) {
logger.error(ex) { "Failed to measure text" }
@ -79,48 +70,29 @@ public class ComposeFeatureDrawScope<T : Any>(
/**
* Create a canvas with extended functionality (e.g., drawing text)
*/
@OptIn(FlowPreview::class)
@Composable
public fun <T : Any> FeatureCanvas(
state: CanvasState<T>,
featureFlow: StateFlow<Map<String, Feature<T>>>,
features: FeatureGroup<T>,
modifier: Modifier = Modifier,
sampleDuration: Duration = 20.milliseconds,
draw: FeatureDrawScope<T>.() -> Unit = {},
) {
val textMeasurer = rememberTextMeasurer(0)
val features by featureFlow.sample(sampleDuration).collectAsState(featureFlow.value)
val painterCache = features.values
.filterIsInstance<PainterFeature<T>>()
.associateWith { it.getPainter() }
val painterCache: Map<PainterFeature<T>, Painter> = features.features.flatMap {
if (it is FeatureGroup) it.features else listOf(it)
}.filterIsInstance<PainterFeature<T>>().associateWith { it.getPainter() }
Canvas(modifier) {
if (state.canvasSize != size.toDpSize()) {
state.canvasSize = size.toDpSize()
}
clipRect {
ComposeFeatureDrawScope(this, state, painterCache, textMeasurer).apply(draw).apply {
val attributesCache = mutableMapOf<List<String>, Attributes>()
fun computeGroupAttributes(path: List<String>): Attributes = attributesCache.getOrPut(path) {
if (path.isEmpty()) return Attributes.EMPTY
else if (path.size == 1) {
features[path.first()]?.attributes ?: Attributes.EMPTY
} else {
computeGroupAttributes(path.dropLast(1)) + (features[path.first()]?.attributes
?: Attributes.EMPTY)
}
}
features.entries.sortedBy { it.value.z }
.filter { state.viewPoint.zoom in it.value.zoomRange }
.forEach { (id, feature) ->
val path = id.split("/")
drawFeature(feature, computeGroupAttributes(path.dropLast(1)))
clipRect {
features.featureMap.values.sortedBy { it.z }
.filter { state.viewPoint.zoom in it.zoomRange }
.forEach { feature ->
this@apply.drawFeature(feature)
}
}
}

View File

@ -0,0 +1,334 @@
package space.kscience.maps.features
import androidx.compose.runtime.*
import androidx.compose.runtime.snapshots.SnapshotStateMap
import androidx.compose.ui.graphics.Color
import androidx.compose.ui.graphics.drawscope.DrawScope
import androidx.compose.ui.graphics.painter.Painter
import androidx.compose.ui.graphics.vector.ImageVector
import androidx.compose.ui.unit.Dp
import androidx.compose.ui.unit.DpSize
import androidx.compose.ui.unit.dp
import org.jetbrains.skia.Font
import space.kscience.attributes.Attribute
import space.kscience.attributes.Attributes
import space.kscience.kmath.geometry.Angle
import space.kscience.kmath.nd.*
import space.kscience.kmath.structures.Buffer
//@JvmInline
//public value class FeatureId<out F : Feature<*>>(public val id: String)
public class FeatureRef<T : Any, out F : Feature<T>>(public val id: String, public val parent: FeatureGroup<T>)
@Suppress("UNCHECKED_CAST")
public fun <T : Any, F : Feature<T>> FeatureRef<T, F>.resolve(): F =
parent.featureMap[id]?.let { it as F } ?: error("Feature with id=$id not found")
public val <T : Any, F : Feature<T>> FeatureRef<T, F>.attributes: Attributes get() = resolve().attributes
/**
* A group of other features
*/
public data class FeatureGroup<T : Any>(
override val space: CoordinateSpace<T>,
public val featureMap: SnapshotStateMap<String, Feature<T>> = mutableStateMapOf(),
) : CoordinateSpace<T> by space, Feature<T> {
private val attributesState: MutableState<Attributes> = mutableStateOf(Attributes.EMPTY)
override val attributes: Attributes get() = attributesState.value
//
// @Suppress("UNCHECKED_CAST")
// public operator fun <F : Feature<T>> get(id: FeatureId<F>): F =
// featureMap[id.id]?.let { it as F } ?: error("Feature with id=$id not found")
private var uidCounter = 0
private fun generateUID(feature: Feature<T>?): String = if (feature == null) {
"@group[${uidCounter++}]"
} else {
"@${feature::class.simpleName}[${uidCounter++}]"
}
public fun <F : Feature<T>> feature(id: String?, feature: F): FeatureRef<T, F> {
val safeId = id ?: generateUID(feature)
featureMap[safeId] = feature
return FeatureRef(safeId, this)
}
public fun removeFeature(id: String) {
featureMap.remove(id)
}
// public fun <F : Feature<T>> feature(id: FeatureId<F>, feature: F): FeatureId<F> = feature(id.id, feature)
public val features: Collection<Feature<T>> get() = featureMap.values.sortedByDescending { it.z }
//
// @Suppress("UNCHECKED_CAST")
// public fun <A> getAttribute(id: FeatureId<Feature<T>>, key: Attribute<A>): A? =
// get(id).attributes[key]
override fun getBoundingBox(zoom: Float): Rectangle<T>? = with(space) {
featureMap.values.mapNotNull { it.getBoundingBox(zoom) }.wrapRectangles()
}
override fun withAttributes(modify: Attributes.() -> Attributes): Feature<T> {
attributesState.value = attributes.modify()
return this
}
public companion object {
/**
* Build, but do not remember map feature state
*/
public fun <T : Any> build(
coordinateSpace: CoordinateSpace<T>,
builder: FeatureGroup<T>.() -> Unit = {},
): FeatureGroup<T> = FeatureGroup(coordinateSpace).apply(builder)
/**
* Build and remember map feature state
*/
@Composable
public fun <T : Any> remember(
coordinateSpace: CoordinateSpace<T>,
builder: FeatureGroup<T>.() -> Unit = {},
): FeatureGroup<T> = remember {
build(coordinateSpace, builder)
}
}
}
/**
* Recursively search for feature until function returns true
*/
public fun <T : Any> FeatureGroup<T>.forEachUntil(visitor: FeatureGroup<T>.(id: String, feature: Feature<T>) -> Boolean) {
featureMap.entries.sortedByDescending { it.value.z }.forEach { (key, feature) ->
if (feature is FeatureGroup<T>) {
feature.forEachUntil(visitor)
} else {
if (!visitor(this, key, feature)) return@forEachUntil
}
}
}
/**
* Recursively visit all features in this group
*/
public fun <T : Any> FeatureGroup<T>.forEach(
visitor: FeatureGroup<T>.(id: String, feature: Feature<T>) -> Unit,
): Unit = forEachUntil { id, feature ->
visitor(id, feature)
true
}
/**
* Process all features with a given attribute from the one with highest [z] to lowest
*/
public fun <T : Any, A> FeatureGroup<T>.forEachWithAttribute(
key: Attribute<A>,
block: FeatureGroup<T>.(id: String, feature: Feature<T>, attributeValue: A) -> Unit,
) {
forEach { id, feature ->
feature.attributes[key]?.let {
block(id, feature, it)
}
}
}
public fun <T : Any, A> FeatureGroup<T>.forEachWithAttributeUntil(
key: Attribute<A>,
block: FeatureGroup<T>.(id: String, feature: Feature<T>, attributeValue: A) -> Boolean,
) {
forEachUntil { id, feature ->
feature.attributes[key]?.let {
block(id, feature, it)
} ?: true
}
}
public inline fun <T : Any, reified F : Feature<T>> FeatureGroup<T>.forEachWithType(
crossinline block: (FeatureRef<T, F>) -> Unit,
) {
forEach { id, feature ->
if (feature is F) block(FeatureRef(id, this))
}
}
public inline fun <T : Any, reified F : Feature<T>> FeatureGroup<T>.forEachWithTypeUntil(
crossinline block: (FeatureRef<T, F>) -> Boolean,
) {
forEachUntil { id, feature ->
if (feature is F) block(FeatureRef(id, this)) else true
}
}
public fun <T : Any> FeatureGroup<T>.circle(
center: T,
size: Dp = 5.dp,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, CircleFeature<T>> = feature(
id, CircleFeature(space, center, size, attributes)
)
public fun <T : Any> FeatureGroup<T>.rectangle(
centerCoordinates: T,
size: DpSize = DpSize(5.dp, 5.dp),
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, RectangleFeature<T>> = feature(
id, RectangleFeature(space, centerCoordinates, size, attributes)
)
public fun <T : Any> FeatureGroup<T>.draw(
position: T,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
draw: DrawScope.() -> Unit,
): FeatureRef<T, DrawFeature<T>> = feature(
id,
DrawFeature(space, position, drawFeature = draw, attributes = attributes)
)
public fun <T : Any> FeatureGroup<T>.line(
aCoordinates: T,
bCoordinates: T,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, LineFeature<T>> = feature(
id,
LineFeature(space, aCoordinates, bCoordinates, attributes)
)
public fun <T : Any> FeatureGroup<T>.arc(
oval: Rectangle<T>,
startAngle: Angle,
arcLength: Angle,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, ArcFeature<T>> = feature(
id,
ArcFeature(space, oval, startAngle, arcLength, attributes)
)
public fun <T : Any> FeatureGroup<T>.points(
points: List<T>,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, PointsFeature<T>> = feature(
id,
PointsFeature(space, points, attributes)
)
public fun <T : Any> FeatureGroup<T>.multiLine(
points: List<T>,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, MultiLineFeature<T>> = feature(
id,
MultiLineFeature(space, points, attributes)
)
public fun <T : Any> FeatureGroup<T>.polygon(
points: List<T>,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, PolygonFeature<T>> = feature(
id,
PolygonFeature(space, points, attributes)
)
public fun <T : Any> FeatureGroup<T>.icon(
position: T,
image: ImageVector,
size: DpSize = DpSize(image.defaultWidth, image.defaultHeight),
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, VectorIconFeature<T>> = feature(
id,
VectorIconFeature(
space,
position,
size,
image,
attributes
)
)
public fun <T : Any> FeatureGroup<T>.group(
id: String? = null,
builder: FeatureGroup<T>.() -> Unit,
): FeatureRef<T, FeatureGroup<T>> {
val collection = FeatureGroup(space).apply(builder)
val feature = FeatureGroup(space, collection.featureMap)
return feature(id, feature)
}
public fun <T : Any> FeatureGroup<T>.scalableImage(
box: Rectangle<T>,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
painter: @Composable () -> Painter,
): FeatureRef<T, ScalableImageFeature<T>> = feature(
id,
ScalableImageFeature<T>(space, box, painter = painter, attributes = attributes)
)
public fun <T : Any> FeatureGroup<T>.text(
position: T,
text: String,
font: Font.() -> Unit = { size = 16f },
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, TextFeature<T>> = feature(
id,
TextFeature(space, position, text, fontConfig = font, attributes = attributes)
)
//public fun <T> StructureND(shape: ShapeND, initializer: (IntArray) -> T): StructureND<T> {
// val strides = Strides(shape)
// return BufferND(strides, Buffer(strides.linearSize) { initializer(strides.index(it)) })
//}
public inline fun <reified T> Structure2D(rows: Int, columns: Int, initializer: (IntArray) -> T): Structure2D<T> {
val strides = Strides(ShapeND(rows, columns))
return BufferND(strides, Buffer(strides.linearSize) { initializer(strides.index(it)) }).as2D()
}
public fun <T : Any> FeatureGroup<T>.pixelMap(
rectangle: Rectangle<T>,
pixelMap: Structure2D<Color?>,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, PixelMapFeature<T>> = feature(
id,
PixelMapFeature(space, rectangle, pixelMap, attributes = attributes)
)
/**
* Create a pretty tree-like representation of this feature group
*/
public fun FeatureGroup<*>.toPrettyString(): String {
fun StringBuilder.printGroup(id: String, group: FeatureGroup<*>, prefix: String) {
appendLine("${prefix}* [group] $id")
group.featureMap.forEach { (id, feature) ->
if (feature is FeatureGroup<*>) {
printGroup(id, feature, " ")
} else {
appendLine("$prefix * [${feature::class.simpleName}] $id ")
}
}
}
return buildString {
printGroup("root", this@toPrettyString, "")
}
}

View File

@ -1,406 +0,0 @@
package space.kscience.maps.features
import androidx.compose.runtime.Composable
import androidx.compose.runtime.remember
import androidx.compose.ui.graphics.Color
import androidx.compose.ui.graphics.drawscope.DrawScope
import androidx.compose.ui.graphics.painter.Painter
import androidx.compose.ui.graphics.vector.ImageVector
import androidx.compose.ui.unit.Dp
import androidx.compose.ui.unit.DpSize
import androidx.compose.ui.unit.dp
import com.benasher44.uuid.Uuid
import com.benasher44.uuid.uuid4
import kotlinx.coroutines.flow.MutableStateFlow
import kotlinx.coroutines.flow.StateFlow
import org.jetbrains.skia.Font
import space.kscience.attributes.Attribute
import space.kscience.attributes.Attributes
import space.kscience.kmath.geometry.Angle
import space.kscience.kmath.nd.*
import space.kscience.kmath.structures.Buffer
import space.kscience.maps.features.FeatureStore.Companion.generateFeatureId
//@JvmInline
//public value class FeatureId<out F : Feature<*>>(public val id: String)
/**
* A reference to a feature inside a [FeatureStore]
*/
public class FeatureRef<T : Any, out F : Feature<T>> internal constructor(
internal val store: FeatureStore<T>,
internal val id: String,
) {
override fun toString(): String = "FeatureRef($id)"
}
@Suppress("UNCHECKED_CAST")
public fun <T : Any, F : Feature<T>> FeatureRef<T, F>.resolve(): F =
store.features[id]?.let { it as F } ?: error("Feature with ref $this not found")
public val <T : Any, F : Feature<T>> FeatureRef<T, F>.attributes: Attributes get() = resolve().attributes
public fun Uuid.toIndex(): String = leastSignificantBits.toString(16)
public interface FeatureBuilder<T : Any> {
public val space: CoordinateSpace<T>
/**
* Add or replace feature. If [id] is null, then a unique id is generated
*/
public fun <F : Feature<T>> feature(id: String?, feature: F): FeatureRef<T, F>
public fun putFeatures(features: Map<String, Feature<T>?>)
/**
* Update existing feature if it is present and is of type [F]
*/
public fun <F : Feature<T>> updateFeature(id: String, block: (F?) -> F): FeatureRef<T, F>
public fun group(
id: String? = null,
attributes: Attributes = Attributes.EMPTY,
builder: FeatureGroup<T>.() -> Unit,
): FeatureRef<T, FeatureGroup<T>>
public fun removeFeature(id: String)
}
public interface FeatureSet<T : Any> {
public val features: Map<String, Feature<T>>
/**
* Create a reference
*/
public fun <F : Feature<T>> ref(id: String): FeatureRef<T, F>
}
public class FeatureStore<T : Any>(
override val space: CoordinateSpace<T>,
) : CoordinateSpace<T> by space, FeatureBuilder<T>, FeatureSet<T> {
private val _featureFlow = MutableStateFlow<Map<String, Feature<T>>>(emptyMap())
public val featureFlow: StateFlow<Map<String, Feature<T>>> get() = _featureFlow
override val features: Map<String, Feature<T>> get() = featureFlow.value
override fun <F : Feature<T>> feature(id: String?, feature: F): FeatureRef<T, F> {
val safeId = id ?: generateFeatureId(feature)
_featureFlow.value += (safeId to feature)
return FeatureRef(this, safeId)
}
public override fun putFeatures(features: Map<String, Feature<T>?>) {
_featureFlow.value = _featureFlow.value.toMutableMap().apply {
features.forEach { (key, value) ->
if (value == null) {
remove(key)
} else {
put(key, value)
}
}
}
}
@Suppress("UNCHECKED_CAST")
override fun <F : Feature<T>> updateFeature(id: String, block: (F?) -> F): FeatureRef<T, F> =
feature(id, block(features[id] as? F))
override fun group(
id: String?,
attributes: Attributes,
builder: FeatureGroup<T>.() -> Unit,
): FeatureRef<T, FeatureGroup<T>> {
val safeId: String = id ?: generateFeatureId<FeatureGroup<*>>()
return feature(safeId, FeatureGroup(this, safeId, attributes).apply(builder))
}
override fun removeFeature(id: String) {
_featureFlow.value -= id
}
override fun <F : Feature<T>> ref(id: String): FeatureRef<T, F> = FeatureRef(this, id)
public fun getBoundingBox(zoom: Float = Float.MAX_VALUE): Rectangle<T>? = with(space) {
features.values.mapNotNull { it.getBoundingBox(zoom) }.wrapRectangles()
}
public companion object {
internal fun generateFeatureId(prefix: String): String =
"$prefix[${uuid4().toIndex()}]"
internal fun generateFeatureId(feature: Feature<*>): String =
generateFeatureId(feature::class.simpleName ?: "undefined")
internal inline fun <reified F : Feature<*>> generateFeatureId(): String =
generateFeatureId(F::class.simpleName ?: "undefined")
/**
* Build, but do not remember map feature state
*/
public fun <T : Any> build(
coordinateSpace: CoordinateSpace<T>,
builder: FeatureStore<T>.() -> Unit = {},
): FeatureStore<T> = FeatureStore(coordinateSpace).apply(builder)
/**
* Build and remember map feature state
*/
@Composable
public fun <T : Any> remember(
coordinateSpace: CoordinateSpace<T>,
builder: FeatureStore<T>.() -> Unit = {},
): FeatureStore<T> = remember {
build(coordinateSpace, builder)
}
}
}
/**
* A group of other features
*/
public data class FeatureGroup<T : Any> internal constructor(
val store: FeatureStore<T>,
val groupId: String,
override val attributes: Attributes,
) : CoordinateSpace<T> by store.space, Feature<T>, FeatureBuilder<T>, FeatureSet<T> {
override val space: CoordinateSpace<T> get() = store.space
override fun withAttributes(modify: Attributes.() -> Attributes): FeatureGroup<T> =
FeatureGroup(store, groupId, modify(attributes))
override fun <F : Feature<T>> feature(id: String?, feature: F): FeatureRef<T, F> =
store.feature("$groupId/${id ?: generateFeatureId(feature)}", feature)
public override fun putFeatures(features: Map<String, Feature<T>?>) {
store.putFeatures(features.mapKeys { "$groupId/${it.key}" })
}
override fun <F : Feature<T>> updateFeature(id: String, block: (F?) -> F): FeatureRef<T, F> =
store.updateFeature("$groupId/$id", block)
override fun group(
id: String?,
attributes: Attributes,
builder: FeatureGroup<T>.() -> Unit,
): FeatureRef<T, FeatureGroup<T>> {
val safeId = id ?: generateFeatureId<FeatureGroup<*>>()
return feature(safeId, FeatureGroup(store, "$groupId/$safeId", attributes).apply(builder))
}
override fun removeFeature(id: String) {
store.removeFeature("$groupId/$id")
}
override val features: Map<String, Feature<T>>
get() = store.featureFlow.value
.filterKeys { it.startsWith("$groupId/") }
.mapKeys { it.key.removePrefix("$groupId/") }
.toMap()
override fun getBoundingBox(zoom: Float): Rectangle<T>? = with(space) {
features.values.mapNotNull { it.getBoundingBox(zoom) }.wrapRectangles()
}
override fun <F : Feature<T>> ref(id: String): FeatureRef<T, F> = FeatureRef(store, "$groupId/$id")
}
/**
* Recursively search for feature until function returns true
*/
public fun <T : Any> FeatureSet<T>.forEachUntil(block: FeatureSet<T>.(ref: FeatureRef<T, *>, feature: Feature<T>) -> Boolean) {
features.entries.sortedByDescending { it.value.z }.forEach { (key, feature) ->
if (!block(ref<Feature<T>>(key), feature)) return@forEachUntil
}
}
/**
* Process all features with a given attribute from the one with highest [z] to lowest
*/
public inline fun <T : Any, A> FeatureSet<T>.forEachWithAttribute(
key: Attribute<A>,
block: FeatureSet<T>.(ref: FeatureRef<T, *>, feature: Feature<T>, attribute: A) -> Unit,
) {
features.forEach { (id, feature) ->
feature.attributes[key]?.let {
block(ref<Feature<T>>(id), feature, it)
}
}
}
public inline fun <T : Any, A> FeatureSet<T>.forEachWithAttributeUntil(
key: Attribute<A>,
block: FeatureSet<T>.(ref: FeatureRef<T, *>, feature: Feature<T>, attribute: A) -> Boolean,
) {
features.forEach { (id, feature) ->
feature.attributes[key]?.let {
if (!block(ref<Feature<T>>(id), feature, it)) return@forEachWithAttributeUntil
}
}
}
public inline fun <T : Any, reified F : Feature<T>> FeatureSet<T>.forEachWithType(
crossinline block: FeatureSet<T>.(ref: FeatureRef<T, F>, feature: F) -> Unit,
) {
features.forEach { (id, feature) ->
if (feature is F) block(ref(id), feature)
}
}
public fun <T : Any> FeatureBuilder<T>.circle(
center: T,
size: Dp = 5.dp,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, CircleFeature<T>> = feature(
id, CircleFeature(space, center, size, attributes)
)
public fun <T : Any> FeatureBuilder<T>.rectangle(
centerCoordinates: T,
size: DpSize = DpSize(5.dp, 5.dp),
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, RectangleFeature<T>> = feature(
id, RectangleFeature(space, centerCoordinates, size, attributes)
)
public fun <T : Any> FeatureBuilder<T>.draw(
position: T,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
draw: DrawScope.() -> Unit,
): FeatureRef<T, DrawFeature<T>> = feature(
id,
DrawFeature(space, position, drawFeature = draw, attributes = attributes)
)
public fun <T : Any> FeatureBuilder<T>.line(
aCoordinates: T,
bCoordinates: T,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, LineFeature<T>> = feature(
id,
LineFeature(space, aCoordinates, bCoordinates, attributes)
)
public fun <T : Any> FeatureBuilder<T>.arc(
oval: Rectangle<T>,
startAngle: Angle,
arcLength: Angle,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, ArcFeature<T>> = feature(
id,
ArcFeature(space, oval, startAngle, arcLength, attributes)
)
public fun <T : Any> FeatureBuilder<T>.points(
points: List<T>,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, PointsFeature<T>> = feature(
id,
PointsFeature(space, points, attributes)
)
public fun <T : Any> FeatureBuilder<T>.multiLine(
points: List<T>,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, MultiLineFeature<T>> = feature(
id,
MultiLineFeature(space, points, attributes)
)
public fun <T : Any> FeatureBuilder<T>.polygon(
points: List<T>,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, PolygonFeature<T>> = feature(
id,
PolygonFeature(space, points, attributes)
)
public fun <T : Any> FeatureBuilder<T>.icon(
position: T,
image: ImageVector,
size: DpSize = DpSize(image.defaultWidth, image.defaultHeight),
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, VectorIconFeature<T>> = feature(
id,
VectorIconFeature(
space,
position,
size,
image,
attributes
)
)
public fun <T : Any> FeatureBuilder<T>.scalableImage(
box: Rectangle<T>,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
painter: @Composable () -> Painter,
): FeatureRef<T, ScalableImageFeature<T>> = feature(
id,
ScalableImageFeature<T>(space, box, painter = painter, attributes = attributes)
)
public fun <T : Any> FeatureBuilder<T>.text(
position: T,
text: String,
font: Font.() -> Unit = { size = 16f },
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, TextFeature<T>> = feature(
id,
TextFeature(space, position, text, fontConfig = font, attributes = attributes)
)
//public fun <T> StructureND(shape: ShapeND, initializer: (IntArray) -> T): StructureND<T> {
// val strides = Strides(shape)
// return BufferND(strides, Buffer(strides.linearSize) { initializer(strides.index(it)) })
//}
public inline fun <reified T> Structure2D(rows: Int, columns: Int, initializer: (IntArray) -> T): Structure2D<T> {
val strides = Strides(ShapeND(rows, columns))
return BufferND(strides, Buffer(strides.linearSize) { initializer(strides.index(it)) }).as2D()
}
public fun <T : Any> FeatureStore<T>.pixelMap(
rectangle: Rectangle<T>,
pixelMap: Structure2D<Color?>,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,
): FeatureRef<T, PixelMapFeature<T>> = feature(
id,
PixelMapFeature(space, rectangle, pixelMap, attributes = attributes)
)
/**
* Create a pretty tree-like representation of this feature group
*/
public fun FeatureGroup<*>.toPrettyString(): String {
fun StringBuilder.printGroup(id: String, group: FeatureGroup<*>, prefix: String) {
appendLine("${prefix}* [group] $id")
group.features.forEach { (id, feature) ->
if (feature is FeatureGroup<*>) {
printGroup(id, feature, " ")
} else {
appendLine("$prefix * [${feature::class.simpleName}] $id ")
}
}
}
return buildString {
printGroup("root", this@toPrettyString, "")
}
}

View File

@ -4,20 +4,28 @@ import space.kscience.attributes.Attributes
import kotlin.jvm.JvmName
public fun <T : Any> FeatureBuilder<T>.draggableLine(
public fun <T : Any> FeatureGroup<T>.draggableLine(
aId: FeatureRef<T, MarkerFeature<T>>,
bId: FeatureRef<T, MarkerFeature<T>>,
id: String? = null,
): FeatureRef<T, LineFeature<T>> {
val lineId = id ?: FeatureStore.generateFeatureId<LineFeature<*>>()
var lineId: FeatureRef<T, LineFeature<T>>? = null
fun drawLine(): FeatureRef<T, LineFeature<T>> = updateFeature(lineId) { old ->
fun drawLine(): FeatureRef<T, LineFeature<T>> {
val currentId = feature(
lineId?.id ?: id,
LineFeature(
space,
aId.resolve().center,
bId.resolve().center,
old?.attributes ?: Attributes(ZAttribute, -10f)
Attributes<FeatureGroup<T>> {
ZAttribute(-10f)
lineId?.attributes?.let { putAll(it) }
}
)
)
lineId = currentId
return currentId
}
aId.draggable { _, _ ->
@ -31,18 +39,26 @@ public fun <T : Any> FeatureBuilder<T>.draggableLine(
return drawLine()
}
public fun <T : Any> FeatureBuilder<T>.draggableMultiLine(
public fun <T : Any> FeatureGroup<T>.draggableMultiLine(
points: List<FeatureRef<T, MarkerFeature<T>>>,
id: String? = null,
): FeatureRef<T, MultiLineFeature<T>> {
val polygonId = id ?: FeatureStore.generateFeatureId("multiline")
var polygonId: FeatureRef<T, MultiLineFeature<T>>? = null
fun drawLines(): FeatureRef<T, MultiLineFeature<T>> = updateFeature(polygonId) { old ->
fun drawLines(): FeatureRef<T, MultiLineFeature<T>> {
val currentId = feature(
polygonId?.id ?: id,
MultiLineFeature(
space,
points.map { it.resolve().center },
old?.attributes ?: Attributes(ZAttribute, -10f)
Attributes<FeatureGroup<T>>{
ZAttribute(-10f)
polygonId?.attributes?.let { putAll(it) }
}
)
)
polygonId = currentId
return currentId
}
points.forEach {
@ -55,7 +71,7 @@ public fun <T : Any> FeatureBuilder<T>.draggableMultiLine(
}
@JvmName("draggableMultiLineFromPoints")
public fun <T : Any> FeatureBuilder<T>.draggableMultiLine(
public fun <T : Any> FeatureGroup<T>.draggableMultiLine(
points: List<T>,
id: String? = null,
): FeatureRef<T, MultiLineFeature<T>> {

View File

@ -8,7 +8,6 @@ import androidx.compose.ui.graphics.Path
import androidx.compose.ui.graphics.PointMode
import androidx.compose.ui.graphics.drawscope.Stroke
import androidx.compose.ui.graphics.drawscope.translate
import space.kscience.attributes.Attributes
import space.kscience.attributes.plus
import space.kscience.kmath.PerformancePitfall
@ -21,16 +20,14 @@ import space.kscience.kmath.PerformancePitfall
public fun <T : Any> FeatureDrawScope<T>.drawFeature(
feature: Feature<T>,
baseAttributes: Attributes,
): Unit {
val attributes = baseAttributes + feature.attributes
val color = attributes[ColorAttribute] ?: Color.Red
val alpha = attributes[AlphaAttribute] ?: 1f
val color = feature.color ?: Color.Red
val alpha = feature.attributes[AlphaAttribute] ?: 1f
//avoid drawing invisible features
if(attributes[VisibleAttribute] == false) return
if(feature.attributes[VisibleAttribute] == false) return
when (feature) {
is FeatureSelector -> drawFeature(feature.selector(state.zoom), attributes)
is FeatureSelector -> drawFeature(feature.selector(state.zoom))
is CircleFeature -> drawCircle(
color,
feature.radius.toPx(),
@ -52,8 +49,8 @@ public fun <T : Any> FeatureDrawScope<T>.drawFeature(
color,
feature.a.toOffset(),
feature.b.toOffset(),
strokeWidth = attributes[StrokeAttribute] ?: Stroke.HairlineWidth,
pathEffect = attributes[PathEffectAttribute],
strokeWidth = feature.attributes[StrokeAttribute] ?: Stroke.HairlineWidth,
pathEffect = feature.attributes[PathEffectAttribute],
alpha = alpha
)
@ -87,7 +84,7 @@ public fun <T : Any> FeatureDrawScope<T>.drawFeature(
}
}
is TextFeature -> drawText(feature.text, feature.position.toOffset(), attributes)
is TextFeature -> drawText(feature.text, feature.position.toOffset(), feature.attributes)
is DrawFeature -> {
val offset = feature.position.toOffset()
@ -97,7 +94,13 @@ public fun <T : Any> FeatureDrawScope<T>.drawFeature(
}
is FeatureGroup -> {
//ignore groups
feature.featureMap.values.forEach {
drawFeature(
it.withAttributes {
feature.attributes + this
}
)
}
}
is PathFeature -> {
@ -114,9 +117,9 @@ public fun <T : Any> FeatureDrawScope<T>.drawFeature(
drawPoints(
points = points,
color = color,
strokeWidth = attributes[StrokeAttribute] ?: 5f,
strokeWidth = feature.attributes[StrokeAttribute] ?: 5f,
pointMode = PointMode.Points,
pathEffect = attributes[PathEffectAttribute],
pathEffect = feature.attributes[PathEffectAttribute],
alpha = alpha
)
}
@ -126,9 +129,9 @@ public fun <T : Any> FeatureDrawScope<T>.drawFeature(
drawPoints(
points = points,
color = color,
strokeWidth = attributes[StrokeAttribute] ?: Stroke.HairlineWidth,
strokeWidth = feature.attributes[StrokeAttribute] ?: Stroke.HairlineWidth,
pointMode = PointMode.Polygon,
pathEffect = attributes[PathEffectAttribute],
pathEffect = feature.attributes[PathEffectAttribute],
alpha = alpha
)
}

View File

@ -55,7 +55,7 @@ public fun <T : Any, F : Feature<T>> FeatureRef<T, F>.modifyAttributes(
modification: AttributesBuilder<F>.() -> Unit,
): FeatureRef<T, F> {
@Suppress("UNCHECKED_CAST")
store.feature(
parent.feature(
id,
resolve().withAttributes { modified(modification) } as F
)
@ -67,7 +67,7 @@ public fun <T : Any, F : Feature<T>, V> FeatureRef<T, F>.modifyAttribute(
value: V,
): FeatureRef<T, F> {
@Suppress("UNCHECKED_CAST")
store.feature(id, resolve().withAttributes { withAttribute(key, value) } as F)
parent.feature(id, resolve().withAttributes { withAttribute(key, value) } as F)
return this
}
@ -80,10 +80,10 @@ public fun <T : Any, F : Feature<T>, V> FeatureRef<T, F>.modifyAttribute(
public fun <T : Any, F : DraggableFeature<T>> FeatureRef<T, F>.draggable(
constraint: ((T) -> T)? = null,
listener: (PointerEvent.(from: ViewPoint<T>, to: ViewPoint<T>) -> Unit)? = null,
): FeatureRef<T, F> = with(store) {
): FeatureRef<T, F> = with(parent) {
if (attributes[DraggableAttribute] == null) {
val handle = DragHandle.withPrimaryButton<Any> { event, start, end ->
val feature = features[id] as? DraggableFeature<T> ?: return@withPrimaryButton DragResult(end)
val feature = featureMap[id] as? DraggableFeature<T> ?: return@withPrimaryButton DragResult(end)
start as ViewPoint<T>
end as ViewPoint<T>
if (start in feature) {

View File

@ -12,7 +12,7 @@ import space.kscience.maps.features.*
/**
* Add a single Json geometry to a feature builder
*/
public fun FeatureBuilder<Gmc>.geoJsonGeometry(
public fun FeatureGroup<Gmc>.geoJsonGeometry(
geometry: GeoJsonGeometry,
id: String? = null,
): FeatureRef<Gmc, Feature<Gmc>> = when (geometry) {
@ -50,11 +50,11 @@ public fun FeatureBuilder<Gmc>.geoJsonGeometry(
}
}
public fun FeatureBuilder<Gmc>.geoJsonFeature(
public fun FeatureGroup<Gmc>.geoJsonFeature(
geoJson: GeoJsonFeature,
id: String? = null,
): FeatureRef<Gmc, Feature<Gmc>> {
val geometry = geoJson.geometry ?: return group(null) {}
val geometry = geoJson.geometry ?: return group {}
val idOverride = id ?: geoJson.getProperty("id")?.jsonPrimitive?.contentOrNull
return geoJsonGeometry(geometry, idOverride).modifyAttributes {
@ -72,7 +72,7 @@ public fun FeatureBuilder<Gmc>.geoJsonFeature(
}
}
public fun FeatureBuilder<Gmc>.geoJson(
public fun FeatureGroup<Gmc>.geoJson(
geoJson: GeoJson,
id: String? = null,
): FeatureRef<Gmc, Feature<Gmc>> = when (geoJson) {

View File

@ -4,14 +4,14 @@ import kotlinx.serialization.json.Json
import kotlinx.serialization.json.jsonObject
import space.kscience.maps.coordinates.Gmc
import space.kscience.maps.features.Feature
import space.kscience.maps.features.FeatureBuilder
import space.kscience.maps.features.FeatureGroup
import space.kscience.maps.features.FeatureRef
import java.net.URL
/**
* Add geojson features from url
*/
public fun FeatureBuilder<Gmc>.geoJson(
public fun FeatureGroup<Gmc>.geoJson(
geoJsonUrl: URL,
id: String? = null,
): FeatureRef<Gmc, Feature<Gmc>> {

View File

@ -15,10 +15,10 @@ private val logger = KotlinLogging.logger("SchemeView")
@Composable
public fun SchemeView(
state: XYCanvasState,
featureStore: FeatureStore<XY>,
features: FeatureGroup<XY>,
modifier: Modifier = Modifier.fillMaxSize(),
): Unit {
FeatureCanvas(state, featureStore.featureFlow, modifier = modifier.canvasControls(state, featureStore))
FeatureCanvas(state, features, modifier = modifier.canvasControls(state, features))
}
@ -38,7 +38,7 @@ public fun Rectangle<XY>.computeViewPoint(
*/
@Composable
public fun SchemeView(
features: FeatureStore<XY>,
features: FeatureGroup<XY>,
initialViewPoint: ViewPoint<XY>? = null,
initialRectangle: Rectangle<XY>? = null,
config: ViewConfig<XY> = ViewConfig(),
@ -67,13 +67,14 @@ public fun SchemeView(
initialRectangle: Rectangle<XY>? = null,
config: ViewConfig<XY> = ViewConfig(),
modifier: Modifier = Modifier.fillMaxSize(),
buildFeatures: FeatureStore<XY>.() -> Unit = {},
buildFeatures: FeatureGroup<XY>.() -> Unit = {},
) {
val featureState = FeatureStore.remember(XYCoordinateSpace, buildFeatures)
val featureState = FeatureGroup.remember(XYCoordinateSpace, buildFeatures)
val mapState: XYCanvasState = XYCanvasState.remember(
config,
initialViewPoint = initialViewPoint,
initialRectangle = initialRectangle ?: featureState.getBoundingBox(
initialRectangle = initialRectangle ?: featureState.features.computeBoundingBox(
XYCoordinateSpace,
Float.MAX_VALUE
),
)

View File

@ -15,7 +15,7 @@ import kotlin.math.ceil
internal fun Pair<Number, Number>.toCoordinates(): XY = XY(first.toFloat(), second.toFloat())
public fun FeatureBuilder<XY>.background(
public fun FeatureGroup<XY>.background(
width: Float,
height: Float,
offset: XY = XY(0f, 0f),
@ -37,26 +37,26 @@ public fun FeatureBuilder<XY>.background(
)
}
public fun FeatureBuilder<XY>.circle(
public fun FeatureGroup<XY>.circle(
centerCoordinates: Pair<Number, Number>,
size: Dp = 5.dp,
id: String? = null,
): FeatureRef<XY, CircleFeature<XY>> = circle(centerCoordinates.toCoordinates(), size, id = id)
public fun FeatureBuilder<XY>.draw(
public fun FeatureGroup<XY>.draw(
position: Pair<Number, Number>,
id: String? = null,
draw: DrawScope.() -> Unit,
): FeatureRef<XY, DrawFeature<XY>> = draw(position.toCoordinates(), id = id, draw = draw)
public fun FeatureBuilder<XY>.line(
public fun FeatureGroup<XY>.line(
aCoordinates: Pair<Number, Number>,
bCoordinates: Pair<Number, Number>,
id: String? = null,
): FeatureRef<XY, LineFeature<XY>> = line(aCoordinates.toCoordinates(), bCoordinates.toCoordinates(), id = id)
public fun FeatureBuilder<XY>.arc(
public fun FeatureGroup<XY>.arc(
center: Pair<Double, Double>,
radius: Float,
startAngle: Angle,
@ -69,7 +69,7 @@ public fun FeatureBuilder<XY>.arc(
id = id
)
public fun FeatureBuilder<XY>.image(
public fun FeatureGroup<XY>.image(
position: Pair<Number, Number>,
image: ImageVector,
size: DpSize = DpSize(image.defaultWidth, image.defaultHeight),
@ -77,13 +77,13 @@ public fun FeatureBuilder<XY>.image(
): FeatureRef<XY, VectorIconFeature<XY>> =
icon(position.toCoordinates(), image, size = size, id = id)
public fun FeatureBuilder<XY>.text(
public fun FeatureGroup<XY>.text(
position: Pair<Number, Number>,
text: String,
id: String? = null,
): FeatureRef<XY, TextFeature<XY>> = text(position.toCoordinates(), text, id = id)
public fun FeatureBuilder<XY>.pixelMap(
public fun FeatureGroup<XY>.pixelMap(
rectangle: Rectangle<XY>,
xSize: Float,
ySize: Float,
@ -108,7 +108,7 @@ public fun FeatureBuilder<XY>.pixelMap(
)
)
public fun FeatureBuilder<XY>.rectanglePolygon(
public fun FeatureGroup<XY>.rectanglePolygon(
left: Number, right: Number,
bottom: Number, top: Number,
attributes: Attributes = Attributes.EMPTY,
@ -123,7 +123,7 @@ public fun FeatureBuilder<XY>.rectanglePolygon(
attributes, id
)
public fun FeatureBuilder<XY>.rectanglePolygon(
public fun FeatureGroup<XY>.rectanglePolygon(
rectangle: Rectangle<XY>,
attributes: Attributes = Attributes.EMPTY,
id: String? = null,

View File

@ -6,8 +6,6 @@ import androidx.compose.ui.unit.DpSize
import androidx.compose.ui.unit.dp
import org.jfree.svg.SVGGraphics2D
import org.jfree.svg.SVGUtils
import space.kscience.attributes.Attributes
import space.kscience.attributes.plus
import space.kscience.maps.features.*
import space.kscience.maps.scheme.XY
import space.kscience.maps.scheme.XYCanvasState
@ -19,9 +17,11 @@ public class FeatureStateSnapshot<T : Any>(
)
@Composable
public fun <T : Any> FeatureSet<T>.snapshot(): FeatureStateSnapshot<T> = FeatureStateSnapshot(
features,
features.values.filterIsInstance<PainterFeature<T>>().associateWith { it.getPainter() }
public fun <T : Any> FeatureGroup<T>.snapshot(): FeatureStateSnapshot<T> = FeatureStateSnapshot(
featureMap,
features.flatMap {
if (it is FeatureGroup) it.features else listOf(it)
}.filterIsInstance<PainterFeature<T>>().associateWith { it.getPainter() }
)
@ -162,22 +162,10 @@ public fun FeatureStateSnapshot<XY>.generateSvg(
val svgScope = SvgDrawScope(svgCanvasState, svgGraphics2D, painterCache)
svgScope.apply {
features.entries.sortedBy { it.value.z }
.filter { state.viewPoint.zoom in it.value.zoomRange }
.forEach { (id, feature) ->
val attributesCache = mutableMapOf<List<String>, Attributes>()
fun computeGroupAttributes(path: List<String>): Attributes = attributesCache.getOrPut(path){
if (path.isEmpty()) return Attributes.EMPTY
else if (path.size == 1) {
features[path.first()]?.attributes ?: Attributes.EMPTY
} else {
computeGroupAttributes(path.dropLast(1)) + (features[path.first()]?.attributes ?: Attributes.EMPTY)
}
}
val path = id.split("/")
drawFeature(feature, computeGroupAttributes(path.dropLast(1)))
features.values.sortedBy { it.z }
.filter { state.viewPoint.zoom in it.zoomRange }
.forEach { feature ->
this@apply.drawFeature(feature)
}
}
return svgGraphics2D.getSVGElement(id)