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@nebuta /d3.scala
Last active Aug 29, 2015

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D3.scala
package D3 {
import scala.scalajs.js
import js.annotation._
import org.scalajs.dom._
import js._
trait Selectors extends js.Object {
def select(selector: js.String): Selection = ???
def select(element: EventTarget): Selection = ???
def selectAll(selector: js.String): Selection = ???
def selectAll(elements: js.Array[EventTarget]): Selection = ???
}
trait Event extends js.Object {
var dx: js.Number = ???
var dy: js.Number = ???
var clientX: js.Number = ???
var clientY: js.Number = ???
var translate: js.Array[js.Number] = ???
var scale: js.Number = ???
var sourceEvent: Event = ???
var x: js.Number = ???
var y: js.Number = ???
var keyCode: js.Number = ???
var altKey: js.Any = ???
var `type`: js.String = ???
}
@JSName("d3")
object Base extends Selectors {
var behavior: Behavior.Behavior = ???
var event: Event = ???
def ascending[T](a: T, b: T): js.Number = ???
def descending[T](a: T, b: T): js.Number = ???
def min[T, U](arr: js.Array[T], map: js.Function1[T, U]): U = ???
def min[T](arr: js.Array[T]): T = ???
def max[T, U](arr: js.Array[T], map: js.Function1[T, U]): U = ???
def max[T](arr: js.Array[T]): T = ???
def extent[T, U](arr: js.Array[T], map: js.Function1[T, U]): js.Array[U] = ???
def extent[T](arr: js.Array[T]): js.Array[T] = ???
def sum[T](arr: js.Array[T], map: js.Function1[T, js.Number]): js.Number = ???
def sum(arr: js.Array[js.Number]): js.Number = ???
def mean[T](arr: js.Array[T], map: js.Function1[T, js.Number]): js.Number = ???
def mean(arr: js.Array[js.Number]): js.Number = ???
def median[T](arr: js.Array[T], map: js.Function1[T, js.Number]): js.Number = ???
def median(arr: js.Array[js.Number]): js.Number = ???
var quantile: js.Function2[js.Array[js.Number], js.Number, js.Number] = ???
def bisect[T](arr: js.Array[T], x: T, low: js.Number = ???, high: js.Number = ???): js.Number = ???
def bisectLeft[T](arr: js.Array[T], x: T, low: js.Number = ???, high: js.Number = ???): js.Number = ???
def bisectRight[T](arr: js.Array[T], x: T, low: js.Number = ???, high: js.Number = ???): js.Number = ???
def bisector(accessor: js.Function2[js.Any, js.Number, Any]): js.Dynamic = ???
def shuffle[T](arr: js.Array[T]): js.Array[T] = ???
def permute(arr: js.Array[js.Any], indexes: js.Array[js.Any]): js.Array[js.Any] = ???
def zip(arrs: js.Any*): js.Array[js.Any] = ???
def transform(definition: js.String): js.Dynamic = ???
def transpose(matrix: js.Array[js.Any]): js.Array[js.Any] = ???
def keys(map: js.Any): js.Array[js.String] = ???
def values(map: js.Array[js.Any]): js.Array[js.Any] = ???
def entries(map: js.Any): js.Array[js.Any] = ???
def merge(map: js.Any*): js.Array[js.Any] = ???
def range(stop: js.Number, step: js.Number): js.Array[js.Number] = ???
def range(start: js.Number, stop: js.Number = ???, step: js.Number = ???): js.Array[js.Number] = ???
def nest(): Nest = ???
def xhr(url: js.String, callback: js.Function1[XMLHttpRequest, Unit]): Xhr = ???
def xhr(url: js.String, mime: js.String, callback: js.Function1[XMLHttpRequest, Unit] = ???): Xhr = ???
def text(url: js.String, callback: js.Function1[js.String, Unit]): Xhr = ???
def text(url: js.String, mime: js.String, callback: js.Function1[js.String, Unit] = ???): Xhr = ???
def json(url: js.String, callback: js.Function2[js.Any, js.Any, Unit]): Xhr = ???
def xml(url: js.String, callback: js.Function1[Document, Unit]): Xhr = ???
def xml(url: js.String, mime: js.String, callback: js.Function1[Document, Unit] = ???): Xhr = ???
var html: js.Function2[js.String, js.Function1[DocumentFragment, Unit], Xhr] = ???
var csv: Dsv = ???
var tsv: Dsv = ???
var time: Time.Time = ???
var scale: Scale.ScaleBase = ???
var interpolate: Transition.BaseInterpolate = ???
var interpolateNumber: Transition.BaseInterpolate = ???
var interpolateRound: Transition.BaseInterpolate = ???
var interpolateString: Transition.BaseInterpolate = ???
var interpolateRgb: Transition.BaseInterpolate = ???
var interpolateHsl: Transition.BaseInterpolate = ???
var interpolateHcl: Transition.BaseInterpolate = ???
var interpolateLab: Transition.BaseInterpolate = ???
var interpolateArray: Transition.BaseInterpolate = ???
var interpolateObject: Transition.BaseInterpolate = ???
var interpolateTransform: Transition.BaseInterpolate = ???
var interpolators: js.Array[Transition.InterpolateFactory] = ???
var layout: Layout.Layout = ???
var svg: Svg.Svg = ???
var random: Random = ???
def format(specifier: js.String): js.Function1[js.Number, js.String] = ???
def formatPrefix(value: js.Number, precision: js.Number = ???): MetricPrefix = ???
var version: js.String = ???
def selection(): Selection = ???
var ns: js.Any = ???
var ease: js.Function = ???
def rgb(r: js.Number, g: js.Number, b: js.Number): D3.Color.RGBColor = ???
def rgb(color: js.String): D3.Color.RGBColor = ???
def hcl(h: js.Number, c: js.Number, l: js.Number): Color.HCLColor = ???
def hcl(color: js.String): Color.HCLColor = ???
def hsl(h: js.Number, s: js.Number, l: js.Number): Color.HSLColor = ???
def hsl(color: js.String): Color.HSLColor = ???
def lab(l: js.Number, a: js.Number, b: js.Number): Color.LABColor = ???
def lab(color: js.String): Color.LABColor = ???
var geo: Geo.Geo = ???
var geom: Geom.Geom = ???
def mouse(container: js.Any): js.Array[js.Number] = ???
def touches(container: js.Any): js.Array[js.Array[js.Number]] = ???
def functor[R, T](value: js.Function1[R, T]): js.Function1[R, T] = ???
def functor[T](value: T): js.Function1[js.Any, T] = ???
def map(`object`: js.Any = ???): Map = ???
def set(array: js.Array[js.Any] = ???): Set = ???
def dispatch(types: js.String*): Dispatch = ???
def rebind(target: js.Any, source: js.Any, names: js.Any*): js.Dynamic = ???
def requote(str: js.String): js.String = ???
var timer: js.Any = ???
def transition(): Transition.Transition = ???
def round(x: js.Number, n: js.Number): js.Number = ???
}
trait Dispatch extends js.Object {
@JSBracketAccess
def apply(event: js.String): js.Any = ???
@JSBracketAccess
def update(event: js.String, v: js.Any): Unit = ???
def on(`type`: js.String): js.Dynamic = ???
def on(`type`: js.String, listener: js.Any): js.Dynamic = ???
}
trait MetricPrefix extends js.Object {
var scale: js.Function1[js.Number, js.Number] = ???
var symbol: js.String = ???
}
trait Xhr extends js.Object {
def header(name: js.String): js.String = ???
def header(name: js.String, value: js.String): Xhr = ???
def mimeType(): js.String = ???
def mimeType(`type`: js.String): Xhr = ???
def response(): js.Function1[XMLHttpRequest, Any] = ???
def response(value: js.Function1[XMLHttpRequest, Any]): Xhr = ???
def get(callback: js.Function1[XMLHttpRequest, Unit] = ???): Xhr = ???
def post(callback: js.Function1[XMLHttpRequest, Unit]): Xhr = ???
def post(data: js.Any, callback: js.Function1[XMLHttpRequest, Unit] = ???): Xhr = ???
def send(method: js.String, callback: js.Function1[XMLHttpRequest, Unit]): Xhr = ???
def send(method: js.String, data: js.Any, callback: js.Function1[XMLHttpRequest, Unit] = ???): Xhr = ???
def abort(): Xhr = ???
var on: js.Function2[js.String, js.Function2[js.Any, js.Number, Any], Xhr] = ???
}
trait Dsv extends js.Object {
def apply[A <: js.Object](url: js.String, callback: js.Function2[js.Any, js.Array[A], Unit] = ???): Xhr = ???
def parse(string: js.String): js.Array[js.Any] = ???
def parseRows(string: js.String, accessor: js.Function2[js.Array[js.Any], js.Number, Any]): js.Dynamic = ???
def format(rows: js.Array[js.Any]): js.String = ???
}
//trait Selection extends Selectors with js.Array[js.Any] {
trait Selection extends js.Array[js.Any] with Selectors {
def attr(name: js.String): js.String = ???
def attr(name: js.String, value: js.Any): Selection = ???
def attr[A <: Any](name: js.String, valueFunction: js.Function2[A, js.Number, Any]): Selection = ???
def attr(attrValueMap: Object): Selection = ???
def classed(name: js.String): js.String = ???
def classed(name: js.String, value: js.Any): Selection = ???
def classed(name: js.String, valueFunction: js.Function2[js.Any, js.Number, Any]): Selection = ???
def style(name: js.String): js.String = ???
def style(name: js.String, value: js.Any, priority: js.String): Selection = ???
def style[A <: js.Object](name: js.String, valueFunction: Function2[A, js.Number, js.Dynamic], priority: js.String = ???): Selection = ???
def style(styleValueMap: Object): Selection = ???
def property(name: js.String): Unit = ???
def property(name: js.String, value: js.Any): Selection = ???
def property(name: js.String, valueFunction: js.Function2[js.Any, js.Number, Any]): Selection = ???
def property(propertyValueMap: Object): Selection = ???
def text(): js.String = ???
def text(value: js.String): Selection = ???
def text[A <: js.Any](valueFunction: js.Function2[A, js.Number, js.String]): Selection = ???
def html(): js.String = ???
def html(value: js.Any): Selection = ???
def html(valueFunction: js.Function2[js.Any, js.Number, Any]): Selection = ???
def append(el: String): Selection = ???
def insert(el: String, s: String): Selection = ???
var remove: js.Function0[Selection] = ???
var empty: js.Function0[js.Boolean] = ???
def data[A](values: js.Array[A]): UpdateSelection = ???
// def data(values: js.Function2[Int, Int, js.Dynamic]): UpdateSelection = ???
def data[A](values: js.Function2[js.Number, Int, js.Array[Int]]): UpdateSelection = ???
// def data[A <: js.Object, B <: js.Object](values: js.Function2[A, Int, js.Array[B]], key: js.Function2[js.Any, js.Number, Any] = ???): UpdateSelection = ???
def data(): js.Array[js.Any] = ???
def datum(values: js.Function2[js.Any, js.Number, Any]): UpdateSelection = ???
def datum(): js.Dynamic = ???
def filter(filter: js.Function2[js.Any, js.Number, js.Boolean], thisArg: js.Any = ???): UpdateSelection = ???
def call(callback: js.Function, args: js.Any*): Selection = ???
def call(f: Layout.Layout): Selection = ???
def call(f: Svg.Axis): Selection = ???
def each(eachFunction: js.Function2[js.Any, js.Number, Any]): Selection = ???
def on(`type`: js.String): js.Function2[js.Any, js.Number, Any] = ???
def on(`type`: js.String, listener: js.Function2[js.Any, js.Number, Any], capture: js.Boolean = ???): Selection = ???
def size(): js.Number = ???
def transition(): Transition.Transition = ???
def sort[T](comparator: js.Function2[T, T, js.Number]): Selection = ???
var order: js.Function0[Selection] = ???
var node: js.Function0[Element] = ???
}
trait EnterSelection extends js.Object {
def append(sel: String): Selection = ???
var insert: js.Function2[js.String, js.String, Selection] = ???
var select: js.Function1[js.String, Selection] = ???
var empty: js.Function0[js.Boolean] = ???
var node: js.Function0[Element] = ???
var call: js.Function1[js.Function1[EnterSelection, Unit], EnterSelection] = ???
var size: js.Function0[js.Number] = ???
}
trait UpdateSelection extends Selection {
def enter(): EnterSelection = ???
var update: js.Function0[Selection] = ???
var exit: js.Function0[Selection] = ???
}
trait NestKeyValue extends js.Object {
var key: js.String = ???
var values: js.Any = ???
}
trait Nest extends js.Object {
def key[A <: js.Any](keyFunction: js.Function1[A, js.String]): Nest = ???
def key[A <: js.Any](keyFunction: js.Function2[A, js.Number, js.String]): Nest = ???
def sortKeys(comparator: js.Function2[js.Any, js.Any, js.Number]): Nest = ???
def sortValues(comparator: js.Function2[js.Any, js.Any, js.Number]): Nest = ???
def rollup[A <: Nest](rollupFunction: js.Function1[A, Any]): Nest = ???
def rollup[A <: Nest](rollupFunction: js.Function2[A, js.Number, Any]): Nest = ???
def map[A <: Any](values: js.Array[A]): js.Dynamic = ???
def map[A <: js.Any](values: js.Function1[A,js.Number]): js.Dynamic = ???
def entries(values: js.Array[js.Any]): js.Array[NestKeyValue] = ???
}
trait Map extends js.Object {
def has(key: js.String): js.Boolean = ???
def get(key: js.String): js.Dynamic = ???
def set[T](key: js.String, value: T): T = ???
def remove(key: js.String): js.Boolean = ???
def keys(): js.Array[js.String] = ???
def values(): js.Array[js.Any] = ???
def entries(): js.Array[js.Any] = ???
def forEach(func: js.Function2[js.String, js.Any, Unit]): Unit = ???
}
trait Set extends js.Object {
def has(value: js.Any): js.Boolean = ???
def add(value: js.Any): js.Dynamic = ???
def remove(value: js.Any): js.Boolean = ???
def values(): js.Array[js.Any] = ???
def forEach(func: js.Function1[js.Any, Unit]): Unit = ???
}
trait Random extends js.Object {
def normal(mean: js.Number = ???, deviation: js.Number = ???): js.Function0[js.Number] = ???
def logNormal(mean: js.Number = ???, deviation: js.Number = ???): js.Function0[js.Number] = ???
def irwinHall(count: js.Number): js.Function0[js.Number] = ???
}
package Transition {
trait Transition extends js.Object {
def duration(duration: js.Number): Transition = ???
def delay(delay: js.Number): Transition = ???
def attr(name: js.String): js.String = ???
def attr(name: js.String, value: js.Any): Transition = ???
def attr(name: js.String, valueFunction: js.Function2[js.Any, js.Number, Any]): Transition = ???
def attr(attrValueMap: js.Any): Transition = ???
def style(name: js.String): js.String = ???
def style(name: js.String, value: js.Any, priority: js.String): Transition = ???
def style(name: js.String, valueFunction: js.Function2[js.Any, js.Number, Any], priority: js.String = ???): Transition = ???
def call(callback: js.Function1[Selection, Unit]): Transition = ???
def select(selector: js.String): Transition = ???
def select(element: EventTarget): Transition = ???
def selectAll(selector: js.String): Transition = ???
def selectAll(elements: js.Array[EventTarget]): Transition = ???
var each: js.Function2[js.String, js.Function2[js.Any, js.Number, Any], Transition] = ???
var transition: js.Function0[Transition] = ???
var ease: js.Function = ???
def attrTween(name: js.String, tween: js.Function3[js.Any, js.Number, js.Any, BaseInterpolate]): Transition = ???
def styleTween(name: js.String, tween: js.Function3[js.Any, js.Number, js.Any, BaseInterpolate], priority: js.String = ???): Transition = ???
def text(text: js.String): Transition = ???
def tween(name: js.String, factory: InterpolateFactory): Transition = ???
def filter(selector: js.String): Transition = ???
def remove(): Transition = ???
}
trait InterpolateFactory extends js.Object {
def apply(a: js.Any = ???, b: js.Any = ???): BaseInterpolate = ???
}
trait BaseInterpolate extends js.Object {
def apply(a: js.Any, b: js.Any = ???): js.Dynamic = ???
}
trait Interpolate extends js.Object {
def apply(t: js.Any): js.Dynamic = ???
}
}
package Time {
trait Time extends js.Object {
var second: Interval = ???
var minute: Interval = ???
var hour: Interval = ???
var day: Interval = ???
var week: Interval = ???
var sunday: Interval = ???
var monday: Interval = ???
var tuesday: Interval = ???
var wednesday: Interval = ???
var thursday: Interval = ???
var friday: Interval = ???
var saturday: Interval = ???
var month: Interval = ???
var year: Interval = ???
var seconds: Range = ???
var minutes: Range = ???
var hours: Range = ???
var days: Range = ???
var weeks: Range = ???
var months: Range = ???
var years: Range = ???
var sundays: Range = ???
var mondays: Range = ???
var tuesdays: Range = ???
var wednesdays: Range = ???
var thursdays: Range = ???
var fridays: Range = ???
var saturdays: Range = ???
var format: js.Any = ???
var scale: js.Any = ???
}
trait Range extends js.Object {
def apply(start: Date, end: Date, step: js.Number = ???): js.Array[Date] = ???
}
trait Interval extends js.Object {
def apply(date: Date): Date = ???
var floor: js.Function1[Date, Date] = ???
var round: js.Function1[Date, Date] = ???
var ceil: js.Function1[Date, Date] = ???
var range: Range = ???
var offset: js.Function2[Date, js.Number, Date] = ???
var utc: Interval = ???
}
trait TimeFormat extends js.Object {
def apply(date: Date): js.String = ???
var parse: js.Function1[js.String, Date] = ???
}
}
package Layout {
trait Layout extends js.Object {
def stack(): StackLayout = ???
def pie(): PieLayout = ???
def force(): ForceLayout = ???
def tree(): TreeLayout = ???
def bundle(): BundleLayout = ???
def chord(): ChordLayout = ???
def cluster(): ClusterLayout = ???
def hierarchy(): HierarchyLayout = ???
def histogram(): HistogramLayout = ???
def pack(): PackLayout = ???
def partition(): PartitionLayout = ???
def treemap(): TreeMapLayout = ???
}
trait StackLayout extends js.Object {
def apply[T](layers: js.Array[T], index: js.Number = ???): js.Array[T] = ???
def values(accessor: js.Function1[js.Any, Any] = ???): StackLayout = ???
def offset(offset: js.String): StackLayout = ???
}
trait TreeLayout extends js.Object {
def sort(): js.Function2[js.Any, js.Any, js.Number] = ???
def sort(comparator: js.Function2[js.Any, js.Any, js.Number]): TreeLayout = ???
def children(): js.Function1[js.Any, Any] = ???
def children(children: js.Function1[js.Any, Any]): TreeLayout = ???
def nodes[A <: D3.Layout.GraphNode](root: A): TreeLayout = ???
def links(nodes: js.Array[GraphNode]): js.Array[GraphLink] = ???
def seperation(): js.Function2[GraphNode, GraphNode, js.Number] = ???
def seperation(seperation: js.Function2[GraphNode, GraphNode, js.Number]): TreeLayout = ???
def size(): js.Array[js.Number] = ???
def size(size: js.Array[js.Number]): TreeLayout = ???
}
trait PieLayout extends js.Object {
def apply(values: js.Array[js.Any], index: js.Number = ???): js.Array[ArcDescriptor] = ???
def value(): js.Function2[js.Any, js.Number, js.Number] = ???
def value(accessor: js.Function2[js.Any, js.Number, js.Number]): PieLayout = ???
def sort(): js.Function2[js.Any, js.Any, js.Number] = ???
def sort(comparator: js.Function2[js.Any, js.Any, js.Number]): PieLayout = ???
def startAngle(): js.Number = ???
def startAngle(angle: js.Number): PieLayout = ???
def endAngle(): js.Number = ???
def endAngle(angle: js.Number): PieLayout = ???
}
trait ArcDescriptor extends js.Object {
var value: js.Any = ???
var data: js.Any = ???
var startAngle: js.Number = ???
var endAngle: js.Number = ???
var index: js.Number = ???
}
trait GraphNode extends js.Object {
var id: js.Number = ???
var index: js.Number = ???
var name: js.String = ???
var px: js.Number = ???
var py: js.Number = ???
var size: js.Number = ???
var weight: js.Number = ???
var x: js.Number = ???
var y: js.Number = ???
var subindex: js.Number = ???
var startAngle: js.Number = ???
var endAngle: js.Number = ???
var value: js.Number = ???
var fixed: js.Boolean = ???
var children: js.Array[GraphNode] = ???
var _children: js.Array[GraphNode] = ???
var parent: GraphNode = ???
var depth: js.Number = ???
}
trait GraphLink extends js.Object {
var source: GraphNode = ???
var target: GraphNode = ???
}
trait ForceLayout extends js.Function {
def apply(): ForceLayout = ???
def size(): js.Number = ???
def size(mysize: js.Array[js.Number]): ForceLayout = ???
def size(accessor: js.Function2[js.Any, js.Number, js.Any]): ForceLayout = ???
def linkDistance(): js.Number = ???
def linkDistance(number: js.Number): ForceLayout = ???
def linkDistance(accessor: js.Function2[js.Any, js.Number, js.Number]): ForceLayout = ???
def linkStrength(): js.Number = ???
def linkStrength(number: js.Number): ForceLayout = ???
def linkStrength(accessor: js.Function2[js.Any, js.Number, js.Number]): ForceLayout = ???
def friction(): js.Number = ???
def friction(number: js.Number): ForceLayout = ???
def friction(accessor: js.Function2[js.Any, js.Number, js.Number]): ForceLayout = ???
def alpha(): js.Number = ???
def alpha(number: js.Number): ForceLayout = ???
def alpha(accessor: js.Function2[js.Any, js.Number, js.Number]): ForceLayout = ???
def charge(): js.Number = ???
def charge(number: js.Number): ForceLayout = ???
def charge(accessor: js.Function2[js.Any, js.Number, js.Number]): ForceLayout = ???
def theta(): js.Number = ???
def theta(number: js.Number): ForceLayout = ???
def theta(accessor: js.Function2[js.Any, js.Number, js.Number]): ForceLayout = ???
def gravity(): js.Number = ???
def gravity(number: js.Number): ForceLayout = ???
def gravity(accessor: js.Function2[js.Any, js.Number, js.Number]): ForceLayout = ???
def links(): js.Array[GraphLink] = ???
def links[A <: D3.Layout.GraphLink](arLinks: js.Array[A]): ForceLayout = ???
def nodes[A](): js.Array[A] = ???
def nodes[A <: D3.Layout.GraphNode](arNodes: js.Array[A]): ForceLayout = ???
def start(): ForceLayout = ???
def resume(): ForceLayout = ???
def stop(): ForceLayout = ???
def tick(): ForceLayout = ???
def on(`type`: js.String, listener: js.Function0[Unit]): ForceLayout = ???
def drag(): ForceLayout = ???
}
trait BundleLayout extends js.Object {
def apply(links: js.Array[GraphLink]): js.Array[js.Array[GraphNode]] = ???
}
trait ChordLayout extends js.Object {
def matrix(): js.Array[js.Array[js.Number]] = ???
def matrix(matrix: js.Array[js.Array[js.Number]]): ChordLayout = ???
def padding(): js.Number = ???
def padding(padding: js.Number): ChordLayout = ???
def sortGroups(): js.Function2[js.Number, js.Number, js.Number] = ???
def sortGroups(comparator: js.Function2[js.Number, js.Number, js.Number]): ChordLayout = ???
def sortSubgroups(): js.Function2[js.Number, js.Number, js.Number] = ???
def sortSubgroups(comparator: js.Function2[js.Number, js.Number, js.Number]): ChordLayout = ???
def sortChords(): js.Function2[js.Number, js.Number, js.Number] = ???
def sortChords(comparator: js.Function2[js.Number, js.Number, js.Number]): ChordLayout = ???
def chords(): js.Array[GraphLink] = ???
def groups(): js.Array[ArcDescriptor] = ???
}
trait ClusterLayout extends js.Object {
def sort(): js.Function2[GraphNode, GraphNode, js.Number] = ???
def sort(comparator: js.Function2[GraphNode, GraphNode, js.Number]): ClusterLayout = ???
def children(): js.Function2[js.Any, js.Number, js.Array[GraphNode]] = ???
def children(children: js.Function2[js.Any, js.Number, js.Array[GraphNode]]): ClusterLayout = ???
def nodes(root: GraphNode): js.Array[GraphNode] = ???
def links(nodes: js.Array[GraphNode]): js.Array[GraphLink] = ???
def seperation(): js.Function2[GraphNode, GraphNode, js.Number] = ???
def seperation(seperation: js.Function2[GraphNode, GraphNode, js.Number]): ClusterLayout = ???
def size(): js.Array[js.Number] = ???
def size(size: js.Array[js.Number]): ClusterLayout = ???
def value(): js.Function1[GraphNode, js.Number] = ???
def value(value: js.Function1[GraphNode, js.Number]): ClusterLayout = ???
}
trait HierarchyLayout extends js.Object {
def sort(): js.Function2[GraphNode, GraphNode, js.Number] = ???
def sort(comparator: js.Function2[GraphNode, GraphNode, js.Number]): HierarchyLayout = ???
def children(): js.Function2[js.Any, js.Number, js.Array[GraphNode]] = ???
def children(children: js.Function2[js.Any, js.Number, js.Array[GraphNode]]): HierarchyLayout = ???
def nodes(root: GraphNode): js.Array[GraphNode] = ???
def links(nodes: js.Array[GraphNode]): js.Array[GraphLink] = ???
def value(): js.Function1[GraphNode, js.Number] = ???
def value(value: js.Function1[GraphNode, js.Number]): HierarchyLayout = ???
def reValue(root: GraphNode): HierarchyLayout = ???
}
trait Bin extends js.Array[js.Any] {
var x: js.Number = ???
var dx: js.Number = ???
var y: js.Number = ???
}
trait HistogramLayout extends js.Object {
def apply(values: js.Array[js.Any], index: js.Number = ???): js.Array[Bin] = ???
def value(): js.Function1[js.Any, Any] = ???
def value(accessor: js.Function1[js.Any, Any]): HistogramLayout = ???
def range(): js.Function2[js.Any, js.Number, js.Array[js.Number]] = ???
def range(range: js.Function2[js.Any, js.Number, js.Array[js.Number]]): HistogramLayout = ???
def bins(): js.Function2[js.Array[js.Any], js.Number, js.Array[js.Number]] = ???
def bins(bins: js.Function2[js.Array[js.Any], js.Number, js.Array[js.Number]]): HistogramLayout = ???
def frequency(): js.Boolean = ???
def frequency(frequency: js.Boolean): HistogramLayout = ???
}
trait PackLayout extends js.Object {
def sort(): js.Function2[GraphNode, GraphNode, js.Number] = ???
def sort(comparator: js.Function2[GraphNode, GraphNode, js.Number]): PackLayout = ???
def children(): js.Function2[js.Any, js.Number, js.Array[GraphNode]] = ???
def children(children: js.Function2[js.Any, js.Number, js.Array[GraphNode]]): PackLayout = ???
def nodes(root: GraphNode): js.Array[GraphNode] = ???
def links(nodes: js.Array[GraphNode]): js.Array[GraphLink] = ???
def value(): js.Function1[GraphNode, js.Number] = ???
def value(value: js.Function1[GraphNode, js.Number]): PackLayout = ???
def size(): js.Array[js.Number] = ???
def size(size: js.Array[js.Number]): PackLayout = ???
def padding(): js.Number = ???
def padding(padding: js.Number): PackLayout = ???
}
trait PartitionLayout extends js.Object {
def sort(): js.Function2[GraphNode, GraphNode, js.Number] = ???
def sort(comparator: js.Function2[GraphNode, GraphNode, js.Number]): PackLayout = ???
def children(): js.Function2[js.Any, js.Number, js.Array[GraphNode]] = ???
def children(children: js.Function2[js.Any, js.Number, js.Array[GraphNode]]): PackLayout = ???
def nodes(root: GraphNode): js.Array[GraphNode] = ???
def links(nodes: js.Array[GraphNode]): js.Array[GraphLink] = ???
def value(): js.Function1[GraphNode, js.Number] = ???
def value(value: js.Function1[GraphNode, js.Number]): PackLayout = ???
def size(): js.Array[js.Number] = ???
def size(size: js.Array[js.Number]): PackLayout = ???
}
trait TreeMapLayout extends js.Object {
def sort(): js.Function2[GraphNode, GraphNode, js.Number] = ???
def sort(comparator: js.Function2[GraphNode, GraphNode, js.Number]): TreeMapLayout = ???
def children(): js.Function2[js.Any, js.Number, js.Array[GraphNode]] = ???
def children(children: js.Function2[js.Any, js.Number, js.Array[GraphNode]]): TreeMapLayout = ???
def nodes(root: GraphNode): js.Array[GraphNode] = ???
def links(nodes: js.Array[GraphNode]): js.Array[GraphLink] = ???
def value(): js.Function1[GraphNode, js.Number] = ???
def value(value: js.Function1[GraphNode, js.Number]): TreeMapLayout = ???
def size(): js.Array[js.Number] = ???
def size(size: js.Array[js.Number]): TreeMapLayout = ???
def padding(): js.Number = ???
def padding(padding: js.Number): TreeMapLayout = ???
def round(): js.Boolean = ???
def round(round: js.Boolean): TreeMapLayout = ???
def sticky(): js.Boolean = ???
def sticky(sticky: js.Boolean): TreeMapLayout = ???
def mode(): js.String = ???
def mode(mode: js.String): TreeMapLayout = ???
}
}
package Color {
trait Color extends js.Object {
def brighter(k: js.Number): Color = ???
def darker(k: js.Number = ???): Color = ???
override def toString(): js.String = ???
}
trait RGBColor extends Color {
var r: js.Number = ???
var g: js.Number = ???
var b: js.Number = ???
def hsl(): HSLColor = ???
}
trait HSLColor extends Color {
var h: js.Number = ???
var s: js.Number = ???
var l: js.Number = ???
def rgb(): RGBColor = ???
}
trait LABColor extends Color {
var l: js.Number = ???
var a: js.Number = ???
var b: js.Number = ???
def rgb(): RGBColor = ???
}
trait HCLColor extends Color {
var h: js.Number = ???
var c: js.Number = ???
var l: js.Number = ???
def rgb(): RGBColor = ???
}
}
package Svg {
trait Svg extends js.Object {
def symbol(): Symbol = ???
def axis(): Axis = ???
def arc(): Arc = ???
var line: js.Any = ???
var area: js.Any = ???
def brush(): Brush = ???
def chord(): Chord = ???
var diagonal: js.Any = ???
var symbolTypes: js.Array[js.String] = ???
}
trait Symbol extends js.Object {
var `type`: js.Function1[js.String, Symbol] = ???
var size: js.Function1[js.Number, Symbol] = ???
}
trait Brush extends js.Object {
def apply(selection: Selection): Unit = ???
def x(): D3.Scale.Scale = ???
def x(scale: D3.Scale.Scale): Brush = ???
def y(): D3.Scale.Scale = ???
def y(scale: D3.Scale.Scale): Brush = ???
def extent(): js.Array[js.Any] = ???
def extent(values: js.Array[js.Any]): Brush = ???
def clear(): Brush = ???
def empty(): js.Boolean = ???
def on(`type`: js.String): js.Function2[js.Any, js.Number, Any] = ???
def on(`type`: js.String, listener: js.Function2[js.Any, js.Number, Any], capture: js.Boolean = ???): Brush = ???
}
trait Axis extends js.Object {
def apply(selection: Selection): Unit = ???
def scale(): js.Dynamic = ???
def scale(scale: js.Any): Axis = ???
def orient(): js.String = ???
def orient(orientation: js.String): Axis = ???
def ticks(): js.Array[js.Any] = ???
def ticks(arguments: js.Any*): Axis = ???
def tickPadding(): js.Number = ???
def tickPadding(padding: js.Number): Axis = ???
def tickValues(): js.Array[js.Any] = ???
def tickValues(values: js.Array[js.Any]): Axis = ???
def tickSubdivide(count: js.Number): Axis = ???
def tickSize(major: js.Number = ???, minor: js.Number = ???, end: js.Number = ???): Axis = ???
def tickFormat[A <: js.Any](formatter: js.Function1[A, js.String]): Axis = ???
}
trait Arc extends js.Object {
def apply(data: js.Any, index: js.Number = ???): js.String = ???
def innerRadius(): js.Function2[js.Any, js.Number, js.Number] = ???
def innerRadius(radius: js.Number): Arc = ???
def outerRadius(): js.Function2[js.Any, js.Number, js.Number] = ???
def outerRadius(radius: js.Number): Arc = ???
def startAngle(): js.Function2[js.Any, js.Number, js.Number] = ???
def startAngle(angle: js.Number): Arc = ???
def endAngle(): js.Function2[js.Any, js.Number, js.Number] = ???
def endAngle(angle: js.Number): Arc = ???
def centroid(data: js.Any, index: js.Number = ???): js.Array[js.Number] = ???
}
trait Line extends js.Object {
def apply(data: js.Array[js.Any], index: js.Number = ???): js.String = ???
def x(): js.Function2[js.Any, js.Number, js.Number] = ???
def x(accessor: js.Function1[js.Any, js.Number]): Line = ???
def x(cnst: js.Number): Line = ???
def y(): js.Function2[js.Any, js.Number, js.Number] = ???
def y(accessor: js.Function1[js.Any, js.Number]): Line = ???
def y(cnst: js.Number): Line = ???
def interpolate(): js.String = ???
def interpolate(interpolate: js.String): Line = ???
def tension(): js.Number = ???
def tension(tension: js.Number): Line = ???
def defined(): js.Function2[js.Any, js.Number, js.Boolean] = ???
def defined(defined: js.Function1[js.Any, js.Boolean]): Line = ???
}
trait LineRadial extends js.Object {
def apply(data: js.Array[js.Any], index: js.Number = ???): js.String = ???
def x(): js.Function2[js.Any, js.Number, js.Number] = ???
def x(accessor: js.Function1[js.Any, js.Number]): LineRadial = ???
def x(cnst: js.Number): LineRadial = ???
def y(): js.Function2[js.Any, js.Number, js.Number] = ???
def y(accessor: js.Function1[js.Any, js.Number]): LineRadial = ???
def y(cnst: js.Number): LineRadial = ???
def interpolate(): js.String = ???
def interpolate(interpolate: js.String): LineRadial = ???
def tension(): js.Number = ???
def tension(tension: js.Number): LineRadial = ???
def defined(): js.Function1[js.Any, Any] = ???
def defined(defined: js.Function1[js.Any, Any]): LineRadial = ???
def radius(): js.Function2[js.Any, js.Number, js.Number] = ???
def radius(radius: js.Number): LineRadial = ???
def angle(): js.Function2[js.Any, js.Any, js.Number] = ???
def angle(angle: js.Number): LineRadial = ???
}
trait Area extends js.Object {
def apply(data: js.Array[js.Any], index: js.Number = ???): js.String = ???
def x(): js.Function2[js.Any, js.Number, js.Number] = ???
def x(accessor: js.Function1[js.Any, js.Number]): Area = ???
def x(cnst: js.Number): Area = ???
def x0(): js.Function2[js.Any, js.Number, js.Number] = ???
def x0(accessor: js.Function1[js.Any, js.Number]): Area = ???
def x0(cnst: js.Number): Area = ???
def x1(): js.Function2[js.Any, js.Number, js.Number] = ???
def x1(accessor: js.Function1[js.Any, js.Number]): Area = ???
def x1(cnst: js.Number): Area = ???
def y(): js.Function2[js.Any, js.Number, js.Number] = ???
def y(accessor: js.Function1[js.Any, js.Number]): Area = ???
def y(cnst: js.Number): Area = ???
def y0(): js.Function2[js.Any, js.Number, js.Number] = ???
def y0(accessor: js.Function1[js.Any, js.Number]): Area = ???
def y0(cnst: js.Number): Area = ???
def y1(): js.Function2[js.Any, js.Number, js.Number] = ???
def y1(accessor: js.Function1[js.Any, js.Number]): Area = ???
def y1(cnst: js.Number): Area = ???
def interpolate(): js.String = ???
def interpolate(interpolate: js.String): Area = ???
def tension(): js.Number = ???
def tension(tension: js.Number): Area = ???
def defined(): js.Function1[js.Any, Any] = ???
def defined(defined: js.Function1[js.Any, Any]): Area = ???
}
trait AreaRadial extends js.Object {
def apply(data: js.Array[js.Any], index: js.Number = ???): js.String = ???
def x(): js.Function2[js.Any, js.Number, js.Number] = ???
def x(accessor: js.Function1[js.Any, js.Number]): AreaRadial = ???
def x(cnst: js.Number): AreaRadial = ???
def x0(): js.Function2[js.Any, js.Number, js.Number] = ???
def x0(accessor: js.Function1[js.Any, js.Number]): AreaRadial = ???
def x0(cnst: js.Number): AreaRadial = ???
def x1(): js.Function2[js.Any, js.Number, js.Number] = ???
def x1(accessor: js.Function1[js.Any, js.Number]): AreaRadial = ???
def x1(cnst: js.Number): AreaRadial = ???
def y(): js.Function2[js.Any, js.Number, js.Number] = ???
def y(accessor: js.Function1[js.Any, js.Number]): AreaRadial = ???
def y(cnst: js.Number): AreaRadial = ???
def y0(): js.Function2[js.Any, js.Number, js.Number] = ???
def y0(accessor: js.Function1[js.Any, js.Number]): AreaRadial = ???
def y0(cnst: js.Number): AreaRadial = ???
def y1(): js.Function2[js.Any, js.Number, js.Number] = ???
def y1(accessor: js.Function1[js.Any, js.Number]): AreaRadial = ???
def y1(cnst: js.Number): AreaRadial = ???
def interpolate(): js.String = ???
def interpolate(interpolate: js.String): AreaRadial = ???
def tension(): js.Number = ???
def tension(tension: js.Number): AreaRadial = ???
def defined(): js.Function1[js.Any, Any] = ???
def defined(defined: js.Function1[js.Any, Any]): AreaRadial = ???
def radius(): js.Number = ???
def radius(radius: js.Number): AreaRadial = ???
def innerRadius(): js.Number = ???
def innerRadius(radius: js.Number): AreaRadial = ???
def outerRadius(): js.Number = ???
def outerRadius(radius: js.Number): AreaRadial = ???
def angle(): js.Number = ???
def angle(angle: js.Number): AreaRadial = ???
def startAngle(): js.Number = ???
def startAngle(angle: js.Number): AreaRadial = ???
def endAngle(): js.Number = ???
def endAngle(angle: js.Number): AreaRadial = ???
}
trait Chord extends js.Object {
def apply(datum: js.Any, index: js.Number = ???): js.String = ???
def radius(): js.Number = ???
def radius(radius: js.Number): Chord = ???
def startAngle(): js.Number = ???
def startAngle(angle: js.Number): Chord = ???
def endAngle(): js.Number = ???
def endAngle(angle: js.Number): Chord = ???
def source(): js.Dynamic = ???
def source(angle: js.Any): Chord = ???
def target(): js.Dynamic = ???
def target(angle: js.Any): Chord = ???
}
trait Diagonal extends js.Object {
def apply(datum: js.Any, index: js.Number = ???): js.String = ???
def projection(): js.Function2[js.Any, js.Number, js.Array[js.Number]] = ???
def projection(proj: js.Function1[js.Any, js.Array[js.Number]]): Diagonal = ???
def source(): js.Function2[js.Any, js.Number, Any] = ???
def source(src: js.Function1[js.Any, Any]): Diagonal = ???
def target(): js.Function2[js.Any, js.Number, Any] = ???
def target(target: js.Function1[js.Any, Any]): Diagonal = ???
}
}
package Scale {
trait ScaleBase extends js.Object {
def linear(): LinearScale = ???
def ordinal(): OrdinalScale = ???
def quantize(): QuantizeScale = ???
def category10(): OrdinalScale = ???
def category20(): OrdinalScale = ???
def category20b(): OrdinalScale = ???
def category20c(): OrdinalScale = ???
def identity(): IdentityScale = ???
def log(): LogScale = ???
def pow(): PowScale = ???
def quantile(): QuantileScale = ???
def sqrt(): SqrtScale = ???
def threshold(): ThresholdScale = ???
}
trait Scale extends js.Object {
def apply(value: js.Any): js.Dynamic = ???
// def domain(values: js.Array[Double]): Scale = ???
// def domain(values: js.Array[Int]): Scale = ???
def domain[A <: js.Number](values: js.Array[A]): Scale = ???
def domain(): js.Array[js.Any] = ???
def range(values: js.Array[js.Any]): Scale = ???
def range(): js.Array[js.Any] = ???
def invertExtent(y: js.Any): js.Array[js.Any] = ???
def copy(): Scale = ???
}
trait QuantitiveScale extends Scale {
def apply(value: js.Number): js.Number = ???
def invert(value: js.Number): js.Number = ???
def domain(values: js.Array[js.Number]): QuantitiveScale = ???
// override def domain(): js.Array[js.Number] = ???
def range[A <: js.Number](values: js.Array[A]): QuantitiveScale = ???
// override def range(): js.Array[js.Number] = ???
var rangeRound: js.Function1[js.Array[js.Any], QuantitiveScale] = ???
def interpolate(): D3.Transition.Interpolate = ???
def interpolate(factory: D3.Transition.Interpolate): QuantitiveScale = ???
def clamp(clamp: js.Boolean): QuantitiveScale = ???
def nice(count: js.Number = ???): QuantitiveScale = ???
def ticks(count: js.Number): js.Array[js.Any] = ???
def tickFormat(count: js.Number): js.Function1[js.Number, js.String] = ???
override def copy(): QuantitiveScale = ???
}
trait LinearScale extends QuantitiveScale {
override def apply(value: js.Number): js.Number = ???
}
trait IdentityScale extends Scale {
def apply(value: js.Number): js.Number = ???
def invert(value: js.Number): js.Number = ???
def ticks(count: js.Number): js.Array[js.Any] = ???
def tickFormat(count: js.Number): js.Function1[js.Number, js.String] = ???
}
trait SqrtScale extends QuantitiveScale {
override def apply(value: js.Number): js.Number = ???
}
trait PowScale extends QuantitiveScale {
override def apply(value: js.Number): js.Number = ???
}
trait LogScale extends QuantitiveScale {
override def apply(value: js.Number): js.Number = ???
}
trait OrdinalScale extends Scale {
override def apply(value: js.Any): js.Dynamic = ???
def domain(values: js.Array[js.Any]): OrdinalScale = ???
override def domain(): js.Array[js.Any] = ???
override def range(values: js.Array[js.Any]): OrdinalScale = ???
override def range(): js.Array[js.Any] = ???
def rangePoints(interval: js.Array[js.Any], padding: js.Number = ???): OrdinalScale = ???
def rangeBands(interval: js.Array[js.Any], padding: js.Number = ???, outerPadding: js.Number = ???): OrdinalScale = ???
def rangeRoundBands(interval: js.Array[js.Any], padding: js.Number = ???, outerPadding: js.Number = ???): OrdinalScale = ???
def rangeBand(): js.Number = ???
def rangeExtent(): js.Array[js.Any] = ???
override def copy(): OrdinalScale = ???
}
trait QuantizeScale extends Scale {
override def apply(value: js.Any): js.Dynamic = ???
def domain(values: js.Array[js.Number]): QuantizeScale = ???
override def domain(): js.Array[js.Any] = ???
override def range(values: js.Array[js.Any]): QuantizeScale = ???
override def range(): js.Array[js.Any] = ???
override def copy(): QuantizeScale = ???
}
trait ThresholdScale extends Scale {
override def apply(value: js.Any): js.Dynamic = ???
def domain(values: js.Array[js.Number]): ThresholdScale = ???
override def domain(): js.Array[js.Any] = ???
override def range(values: js.Array[js.Any]): ThresholdScale = ???
override def range(): js.Array[js.Any] = ???
override def copy(): ThresholdScale = ???
}
trait QuantileScale extends Scale {
override def apply(value: js.Any): js.Dynamic = ???
def domain(values: js.Array[js.Number]): QuantileScale = ???
override def domain(): js.Array[js.Any] = ???
override def range(values: js.Array[js.Any]): QuantileScale = ???
override def range(): js.Array[js.Any] = ???
def quantiles(): js.Array[js.Any] = ???
override def copy(): QuantileScale = ???
}
trait TimeScale extends Scale {
def apply(value: Date): js.Number = ???
def invert(value: js.Number): Date = ???
def domain(values: js.Array[js.Any]): TimeScale = ???
override def domain(): js.Array[js.Any] = ???
override def range(values: js.Array[js.Any]): TimeScale = ???
override def range(): js.Array[js.Any] = ???
var rangeRound: js.Function1[js.Array[js.Any], TimeScale] = ???
def interpolate(): D3.Transition.Interpolate = ???
def interpolate(factory: D3.Transition.InterpolateFactory): TimeScale = ???
def clamp(clamp: js.Boolean): TimeScale = ???
def ticks(count: js.Number): js.Array[js.Any] = ???
def ticks(range: D3.Time.Range, count: js.Number): js.Array[js.Any] = ???
def tickFormat(count: js.Number): js.Function1[js.Number, js.String] = ???
override def copy(): TimeScale = ???
}
}
package Behavior {
trait Behavior extends js.Object {
def drag(): Drag = ???
def zoom(): Zoom = ???
}
trait Zoom extends js.Object {
def apply(selection: Selection): Unit = ???
var on: js.Function2[js.String, js.Function2[js.Any, js.Number, Any], Zoom] = ???
def scale(): js.Number = ???
def scale(scale: js.Number): Zoom = ???
def translate(): js.Array[js.Number] = ???
def translate(translate: js.Array[js.Number]): Zoom = ???
def scaleExtent(): js.Array[js.Number] = ???
def scaleExtent(extent: js.Array[js.Number]): Zoom = ???
def x(): D3.Scale.Scale = ???
def x(x: D3.Scale.Scale): Zoom = ???
def y(): D3.Scale.Scale = ???
def y(y: D3.Scale.Scale): Zoom = ???
}
trait Drag extends js.Object {
def apply(): js.Dynamic = ???
var on: js.Function2[js.String, js.Function2[js.Any, js.Number, Any], Drag] = ???
def origin(): js.Dynamic = ???
def origin(origin: js.Any = ???): Drag = ???
}
}
package Geo {
trait Geo extends js.Object {
def path(): Path = ???
def circle(): Circle = ???
def area(feature: js.Any): js.Number = ???
def bounds(feature: js.Any): js.Array[js.Array[js.Number]] = ???
def centroid(feature: js.Any): js.Array[js.Number] = ???
def distance(a: js.Array[js.Number], b: js.Array[js.Number]): js.Number = ???
def interpolate(a: js.Array[js.Number], b: js.Array[js.Number]): js.Function1[js.Number, js.Array[js.Number]] = ???
def length(feature: js.Any): js.Number = ???
def projection(raw: RawProjection): Projection = ???
def projectionMutator(rawFactory: RawProjection): ProjectionMutator = ???
def albers(): Projection = ???
def albersUsa(): Projection = ???
var azimuthalEqualArea: js.Any = ???
var azimuthalEquidistant: js.Any = ???
var conicConformal: js.Any = ???
var conicEquidistant: js.Any = ???
var conicEqualArea: js.Any = ???
var equirectangular: js.Any = ???
var gnomonic: js.Any = ???
var mercator: js.Any = ???
var orthographic: js.Any = ???
var stereographic: js.Any = ???
var transverseMercator: js.Any = ???
def stream(`object`: GeoJSON, listener: Stream): Unit = ???
def graticule(): Graticule = ???
def greatArc(): GreatArc = ???
def rotation(rotation: js.Array[js.Number]): Rotation = ???
}
trait Path extends js.Object {
def apply(feature: js.Any, index: js.Any = ???): js.String = ???
def projection(): Projection = ???
def projection(projection: Projection): Path = ???
def context(): js.String = ???
def context(context: Context): Path = ???
def area(feature: js.Any): js.Dynamic = ???
def centroid(feature: js.Any): js.Dynamic = ???
def bounds(feature: js.Any): js.Dynamic = ???
def pointRadius(): js.Number = ???
def pointRadius(radius: js.Number): Path = ???
}
trait Context extends js.Object {
def beginPath(): js.Dynamic = ???
def moveTo(x: js.Number, y: js.Number): js.Dynamic = ???
def lineTo(x: js.Number, y: js.Number): js.Dynamic = ???
def arc(x: js.Number, y: js.Number, radius: js.Number, startAngle: js.Number, endAngle: js.Number): js.Dynamic = ???
def closePath(): js.Dynamic = ???
}
trait Circle extends js.Object {
def apply(args: js.Any*): GeoJSON = ???
def origin(): js.Array[js.Number] = ???
def origin(origin: js.Array[js.Number]): Circle = ???
def angle(): js.Number = ???
def angle(angle: js.Number): Circle = ???
def precision(): js.Number = ???
def precision(precision: js.Number): Circle = ???
}
trait Graticule extends js.Object {
def apply(): GeoJSON = ???
def lines(): js.Array[GeoJSON] = ???
def outline(): GeoJSON = ???
def extent(): js.Array[js.Array[js.Number]] = ???
def extent(extent: js.Array[js.Array[js.Number]]): Graticule = ???
def minorExtent(): js.Array[js.Array[js.Number]] = ???
def minorExtent(extent: js.Array[js.Array[js.Number]]): Graticule = ???
def majorExtent(): js.Array[js.Array[js.Number]] = ???
def majorExtent(extent: js.Array[js.Array[js.Number]]): Graticule = ???
def step(): js.Array[js.Array[js.Number]] = ???
def step(extent: js.Array[js.Array[js.Number]]): Graticule = ???
def minorStep(): js.Array[js.Array[js.Number]] = ???
def minorStep(extent: js.Array[js.Array[js.Number]]): Graticule = ???
def majorStep(): js.Array[js.Array[js.Number]] = ???
def majorStep(extent: js.Array[js.Array[js.Number]]): Graticule = ???
def precision(): js.Number = ???
def precision(precision: js.Number): Graticule = ???
}
trait GreatArc extends js.Object {
def apply(): GeoJSON = ???
def distance(): js.Number = ???
def source(): js.Dynamic = ???
def source(source: js.Any): GreatArc = ???
def target(): js.Dynamic = ???
def target(target: js.Any): GreatArc = ???
def precision(): js.Number = ???
def precision(precision: js.Number): GreatArc = ???
}
trait GeoJSON extends js.Object {
var coordinates: js.Array[js.Array[js.Number]] = ???
var `type`: js.String = ???
}
trait RawProjection extends js.Object {
def apply(lambda: js.Number, phi: js.Number): js.Array[js.Number] = ???
def invert(x: js.Number, y: js.Number): js.Array[js.Number] = ???
}
trait Projection extends js.Object {
def apply(coordinates: js.Array[js.Number]): js.Array[js.Number] = ???
def invert(point: js.Array[js.Number]): js.Array[js.Number] = ???
def rotate(): js.Array[js.Number] = ???
def rotate(rotation: js.Array[js.Number]): Projection = ???
def center(): js.Array[js.Number] = ???
def center(location: js.Array[js.Number]): Projection = ???
def parallels(): js.Array[js.Number] = ???
def parallels(location: js.Array[js.Number]): Projection = ???
def translate(): js.Array[js.Number] = ???
def translate(point: js.Array[js.Number]): Projection = ???
def scale(): js.Number = ???
def scale(scale: js.Number): Projection = ???
def clipAngle(): js.Number = ???
def clipAngle(angle: js.Number): Projection = ???
def clipExtent(): js.Array[js.Array[js.Number]] = ???
def clipExtent(extent: js.Array[js.Array[js.Number]]): Projection = ???
def precision(): js.Number = ???
def precision(precision: js.Number): Projection = ???
def stream(listener: Stream = ???): Stream = ???
}
trait Stream extends js.Object {
def point(x: js.Number, y: js.Number, z: js.Number = ???): Unit = ???
def lineStart(): Unit = ???
def lineEnd(): Unit = ???
def polygonStart(): Unit = ???
def polygonEnd(): Unit = ???
def sphere(): Unit = ???
}
trait Rotation extends js.Array[js.Any] {
def apply(location: js.Array[js.Number]): Rotation = ???
def invert(location: js.Array[js.Number]): Rotation = ???
}
trait ProjectionMutator extends js.Object {
def apply(lambda: js.Number, phi: js.Number): Projection = ???
}
}
package Geom {
trait Geom extends js.Object {
def voronoi[T](): Voronoi[T] = ???
def voronoi(vertices: js.Array[Vertice]): js.Array[Polygon] = ???
def delaunay(vertices: js.Array[Vertice] = ???): js.Array[Polygon] = ???
def quadtree(): QuadtreeFactory = ???
def quadtree(points: js.Array[Point], x1: js.Number, y1: js.Number, x2: js.Number, y2: js.Number): Quadtree = ???
def quadtree(points: js.Array[Point], width: js.Number, height: js.Number): Quadtree = ???
def polygon(vertices: js.Array[Vertice]): Polygon = ???
def hull(): Hull = ???
def hull(vertices: js.Array[Vertice]): js.Array[Vertice] = ???
}
trait Vertice extends js.Array[js.Number] {
var angle: js.Number = ???
}
trait Polygon extends js.Array[Vertice] {
def area(): js.Number = ???
def centroid(): js.Array[js.Number] = ???
def clip(subject: Polygon): Polygon = ???
}
trait QuadtreeFactory extends js.Object {
def apply(): Quadtree = ???
def apply(points: js.Array[Point], x1: js.Number, y1: js.Number, x2: js.Number, y2: js.Number): Quadtree = ???
def apply(points: js.Array[Point], width: js.Number, height: js.Number): Quadtree = ???
def x(): js.Function1[js.Any, Any] = ???
def x(accesor: js.Function1[js.Any, Any]): QuadtreeFactory = ???
def y(): js.Function1[js.Any, Any] = ???
def y(accesor: js.Function1[js.Any, Any]): QuadtreeFactory = ???
def size(): js.Array[js.Number] = ???
def size(size: js.Array[js.Number]): QuadtreeFactory = ???
def extent(): js.Array[js.Array[js.Number]] = ???
def extent(points: js.Array[js.Array[js.Number]]): QuadtreeFactory = ???
}
trait Quadtree extends js.Object {
def add(point: Point): Unit = ???
def visit(callback: js.Any): Unit = ???
}
trait Point extends js.Object {
var x: js.Number = ???
var y: js.Number = ???
}
trait Voronoi[T] extends js.Object {
def apply(data: js.Array[T]): js.Array[Polygon] = ???
def links(data: js.Array[T]): js.Array[Layout.GraphLink] = ???
def triangles(data: js.Array[T]): js.Array[js.Array[js.Number]] = ???
def x(): js.Function2[T, js.Number, js.Number] = ???
def x(accessor: js.Function2[T, js.Number, js.Number]): Voronoi[T] = ???
def x(constant: js.Number): Voronoi[T] = ???
def y(): js.Function2[T, js.Number, js.Number] = ???
def y(accessor: js.Function2[T, js.Number, js.Number]): Voronoi[T] = ???
def y(constant: js.Number): Voronoi[T] = ???
def clipExtent(): js.Array[js.Array[js.Number]] = ???
def clipExtent(extent: js.Array[js.Array[js.Number]]): Voronoi[T] = ???
def size(): js.Array[js.Number] = ???
def size(size: js.Array[js.Number]): Voronoi[T] = ???
}
trait Hull extends js.Object {
def apply(vertices: js.Array[Vertice]): js.Array[Vertice] = ???
def x(): js.Function1[js.Any, Any] = ???
def x(accesor: js.Function1[js.Any, Any]): js.Dynamic = ???
def y(): js.Function1[js.Any, Any] = ???
def y(accesor: js.Function1[js.Any, Any]): js.Dynamic = ???
}
}
package object D3Obj {
val d3 = D3.Base
}
}
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