2019-11-18 20:33:15 +03:00
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package geoindex
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import (
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"fmt"
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"github.com/tidwall/geoindex/child"
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)
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// Interface is a tree-like structure that contains geospatial data
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type Interface interface {
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// Insert an item into the structure
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Insert(min, max [2]float64, data interface{})
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// Delete an item from the structure
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Delete(min, max [2]float64, data interface{})
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2021-02-04 00:30:55 +03:00
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// Replace an item in the structure. This is effectively just a Delete
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// followed by an Insert. But for some structures it may be possible to
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// optimize the operation to avoid multiple passes
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Replace(
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oldMin, oldMax [2]float64, oldData interface{},
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newMin, newMax [2]float64, newData interface{},
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)
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2019-11-18 20:33:15 +03:00
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// Search the structure for items that intersects the rect param
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Search(
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min, max [2]float64,
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iter func(min, max [2]float64, data interface{}) bool,
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)
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// Scan iterates through all data in tree in no specified order.
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Scan(iter func(min, max [2]float64, data interface{}) bool)
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// Len returns the number of items in tree
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Len() int
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// Bounds returns the minimum bounding box
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Bounds() (min, max [2]float64)
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// Children returns all children for parent node. If parent node is nil
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// then the root nodes should be returned.
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// The reuse buffer is an empty length slice that can optionally be used
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// to avoid extra allocations.
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Children(parent interface{}, reuse []child.Child) (children []child.Child)
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}
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// Index is a wrapper around Interface that provides extra features like a
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// Nearby (kNN) function.
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// This can be created like such:
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// var tree = rbang.New()
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// var index = index.Index{tree}
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// Now you can use `index` just like tree but with the extra features.
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type Index struct {
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tree Interface
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}
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// Wrap a tree-like geospatial interface.
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func Wrap(tree Interface) *Index {
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return &Index{tree}
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}
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// Insert an item into the index
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func (index *Index) Insert(min, max [2]float64, data interface{}) {
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index.tree.Insert(min, max, data)
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}
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// Search the index for items that intersects the rect param
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func (index *Index) Search(
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min, max [2]float64,
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iter func(min, max [2]float64, data interface{}) bool,
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) {
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index.tree.Search(min, max, iter)
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}
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// Delete an item from the index
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func (index *Index) Delete(min, max [2]float64, data interface{}) {
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index.tree.Delete(min, max, data)
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}
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// Children returns all children for parent node. If parent node is nil
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// then the root nodes should be returned.
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// The reuse buffer is an empty length slice that can optionally be used
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// to avoid extra allocations.
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func (index *Index) Children(parent interface{}, reuse []child.Child) (
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children []child.Child,
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) {
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return index.tree.Children(parent, reuse)
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}
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// Nearby performs a kNN-type operation on the index.
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// It's expected that the caller provides its own the `algo` function, which
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// is used to calculate a distance to data. The `add` function should be
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// called by the caller to "return" the data item along with a distance.
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// The `iter` function will return all items from the smallest dist to the
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// largest dist.
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// Take a look at the SimpleBoxAlgo function for a usage example.
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func (index *Index) Nearby(
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algo func(min, max [2]float64, data interface{}, item bool) (dist float64),
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2019-11-18 20:33:15 +03:00
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iter func(min, max [2]float64, data interface{}, dist float64) bool,
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) {
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var q queue
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var parent interface{}
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var children []child.Child
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for {
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// gather all children for parent
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children = index.tree.Children(parent, children[:0])
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for _, child := range children {
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q.push(qnode{
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dist: algo(child.Min, child.Max, child.Data, child.Item),
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child: child,
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})
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2019-11-18 20:33:15 +03:00
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}
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for {
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node, ok := q.pop()
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if !ok {
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// nothing left in queue
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return
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}
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if node.child.Item {
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if !iter(node.child.Min, node.child.Max,
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node.child.Data, node.dist) {
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return
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}
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} else {
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// gather more children
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parent = node.child.Data
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break
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}
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}
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}
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}
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// Len returns the number of items in tree
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func (index *Index) Len() int {
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return index.tree.Len()
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}
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// Bounds returns the minimum bounding box
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func (index *Index) Bounds() (min, max [2]float64) {
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return index.tree.Bounds()
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}
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// Scan iterates through all data in tree in no specified order.
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func (index *Index) Scan(
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iter func(min, max [2]float64, data interface{}) bool,
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) {
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index.tree.Scan(iter)
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}
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func (index *Index) svg(child child.Child, height int) []byte {
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var out []byte
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point := true
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for i := 0; i < 2; i++ {
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if child.Min[i] != child.Max[i] {
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point = false
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break
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}
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}
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if point { // is point
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out = append(out, fmt.Sprintf(
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"<rect x=\"%.0f\" y=\"%0.f\" width=\"%0.f\" height=\"%0.f\" "+
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"stroke=\"%s\" fill=\"purple\" "+
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"fill-opacity=\"0\" stroke-opacity=\"1\" "+
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"rx=\"15\" ry=\"15\"/>\n",
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(child.Min[0])*svgScale,
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(child.Min[1])*svgScale,
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(child.Max[0]-child.Min[0]+1/svgScale)*svgScale,
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(child.Max[1]-child.Min[1]+1/svgScale)*svgScale,
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strokes[height%len(strokes)])...)
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} else { // is rect
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out = append(out, fmt.Sprintf(
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"<rect x=\"%.0f\" y=\"%0.f\" width=\"%0.f\" height=\"%0.f\" "+
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"stroke=\"%s\" fill=\"purple\" "+
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"fill-opacity=\"0\" stroke-opacity=\"1\"/>\n",
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(child.Min[0])*svgScale,
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(child.Min[1])*svgScale,
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(child.Max[0]-child.Min[0]+1/svgScale)*svgScale,
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(child.Max[1]-child.Min[1]+1/svgScale)*svgScale,
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strokes[height%len(strokes)])...)
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}
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if !child.Item {
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children := index.tree.Children(child.Data, nil)
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for _, child := range children {
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out = append(out, index.svg(child, height+1)...)
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}
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}
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return out
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}
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const svgScale = 4.0
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var strokes = [...]string{"black", "#cccc00", "green", "red", "purple"}
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// SVG prints 2D rtree in wgs84 coordinate space
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func (index *Index) SVG() string {
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var out string
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out += fmt.Sprintf("<svg viewBox=\"%.0f %.0f %.0f %.0f\" "+
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"xmlns =\"http://www.w3.org/2000/svg\">\n",
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-190.0*svgScale, -100.0*svgScale,
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380.0*svgScale, 190.0*svgScale)
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out += fmt.Sprintf("<g transform=\"scale(1,-1)\">\n")
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var outb []byte
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for _, child := range index.Children(nil, nil) {
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outb = append(outb, index.svg(child, 1)...)
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}
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out += string(outb)
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out += fmt.Sprintf("</g>\n")
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out += fmt.Sprintf("</svg>\n")
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return out
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}
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