mirror of https://github.com/tidwall/tile38.git
458 lines
11 KiB
Go
458 lines
11 KiB
Go
package server
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import (
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"math"
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"sort"
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"strconv"
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"time"
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"github.com/tidwall/geojson"
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"github.com/tidwall/geojson/geo"
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"github.com/tidwall/geojson/geometry"
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"github.com/tidwall/gjson"
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"github.com/tidwall/tile38/internal/glob"
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)
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// FenceMatch executes a fence match returns back json messages for fence detection.
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func FenceMatch(hookName string, sw *scanWriter, fence *liveFenceSwitches, metas []FenceMeta, details *commandDetails) []string {
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msgs := fenceMatch(hookName, sw, fence, metas, details)
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if len(fence.accept) == 0 {
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return msgs
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}
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nmsgs := make([]string, 0, len(msgs))
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for _, msg := range msgs {
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if fence.accept[gjson.Get(msg, "command").String()] {
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nmsgs = append(nmsgs, msg)
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}
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}
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return nmsgs
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}
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func appendHookDetails(b []byte, hookName string, metas []FenceMeta) []byte {
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if len(hookName) > 0 {
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b = append(b, `,"hook":`...)
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b = appendJSONString(b, hookName)
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}
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if len(metas) > 0 {
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b = append(b, `,"meta":{`...)
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for i, meta := range metas {
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if i > 0 {
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b = append(b, ',')
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}
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b = appendJSONString(b, meta.Name)
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b = append(b, ':')
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b = appendJSONString(b, meta.Value)
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}
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b = append(b, '}')
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}
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return b
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}
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func objIsSpatial(obj geojson.Object) bool {
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_, ok := obj.(geojson.Spatial)
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return ok
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}
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func hookJSONString(hookName string, metas []FenceMeta) string {
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return string(appendHookDetails(nil, hookName, metas))
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}
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func fenceMatch(
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hookName string, sw *scanWriter, fence *liveFenceSwitches,
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metas []FenceMeta, details *commandDetails,
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) []string {
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if details.command == "drop" {
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return []string{
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`{"command":"drop"` + hookJSONString(hookName, metas) +
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`,"key":` + jsonString(details.key) +
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`,"time":` + jsonTimeFormat(details.timestamp) + `}`,
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}
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}
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if len(fence.glob) > 0 && !(len(fence.glob) == 1 && fence.glob[0] == '*') {
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match, _ := glob.Match(fence.glob, details.id)
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if !match {
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return nil
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}
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}
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if details.obj == nil || !objIsSpatial(details.obj) {
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return nil
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}
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if details.command == "fset" {
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sw.mu.Lock()
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nofields := sw.nofields
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sw.mu.Unlock()
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if nofields {
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return nil
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}
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}
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if details.command == "del" {
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return []string{
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`{"command":"del"` + hookJSONString(hookName, metas) +
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`,"key":` + jsonString(details.key) +
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`,"id":` + jsonString(details.id) +
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`,"time":` + jsonTimeFormat(details.timestamp) + `}`,
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}
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}
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var roamNearbys, roamFaraways []roamMatch
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var detect = "outside"
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if fence != nil {
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if fence.roam.on {
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if details.command == "set" {
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roamNearbys, roamFaraways =
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fenceMatchRoam(sw.s, fence, details.id,
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details.oldObj, details.obj)
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if len(roamNearbys) == 0 && len(roamFaraways) == 0 {
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return nil
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}
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}
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detect = "roam"
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} else {
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// not using roaming
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match1 := fenceMatchObject(fence, details.oldObj)
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match2 := fenceMatchObject(fence, details.obj)
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if match1 && match2 {
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detect = "inside"
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} else if match1 && !match2 {
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detect = "exit"
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} else if !match1 && match2 {
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detect = "enter"
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if details.command == "fset" {
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detect = "inside"
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}
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} else {
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if details.command != "fset" {
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// Maybe the old object and new object create a line that crosses the fence.
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// Must detect for that possibility.
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if details.oldObj != nil {
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ls := geojson.NewLineString(geometry.NewLine(
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[]geometry.Point{
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details.oldObj.Center(),
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details.obj.Center(),
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}, nil))
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temp := false
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if fence.cmd == "within" {
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// because we are testing if the line croses the area we need to use
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// "intersects" instead of "within".
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fence.cmd = "intersects"
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temp = true
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}
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if fenceMatchObject(fence, ls) {
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detect = "cross"
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}
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if temp {
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fence.cmd = "within"
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}
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}
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}
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}
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}
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}
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if details.fmap == nil {
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return nil
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}
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for {
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if fence.detect != nil && !fence.detect[detect] {
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if detect == "enter" {
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detect = "inside"
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continue
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}
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if detect == "exit" {
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detect = "outside"
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continue
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}
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return nil
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}
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break
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}
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sw.mu.Lock()
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var distance float64
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if fence.distance && fence.obj != nil {
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distance = details.obj.Distance(fence.obj)
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}
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sw.fmap = details.fmap
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sw.fullFields = true
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sw.msg.OutputType = JSON
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sw.writeObject(ScanWriterParams{
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id: details.id,
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o: details.obj,
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fields: details.fields,
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noLock: true,
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distance: distance,
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distOutput: fence.distance,
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})
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if sw.wr.Len() == 0 {
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sw.mu.Unlock()
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return nil
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}
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res := sw.wr.String()
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sw.wr.Reset()
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if len(res) > 0 && res[0] == ',' {
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res = res[1:]
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}
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if sw.output == outputIDs {
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res = `{"id":` + string(res) + `}`
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}
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sw.mu.Unlock()
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if fence.groups == nil {
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fence.groups = make(map[string]string)
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}
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groupkey := details.key + ":" + details.id
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var group string
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var ok bool
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if detect == "enter" {
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group = bsonID()
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fence.groups[groupkey] = group
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} else if detect == "cross" {
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group = bsonID()
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delete(fence.groups, groupkey)
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} else {
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group, ok = fence.groups[groupkey]
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if !ok {
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group = bsonID()
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fence.groups[groupkey] = group
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}
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}
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var msgs []string
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if fence.detect == nil || fence.detect[detect] {
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if len(res) > 0 && res[0] == '{' {
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msgs = append(msgs, makemsg(details.command, group, detect,
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hookName, metas, details.key, details.timestamp, res[1:]))
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} else {
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msgs = append(msgs, string(res))
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}
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}
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switch detect {
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case "enter":
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if fence.detect == nil || fence.detect["inside"] {
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msgs = append(msgs, makemsg(details.command, group, "inside", hookName, metas, details.key, details.timestamp, res[1:]))
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}
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case "exit", "cross":
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if fence.detect == nil || fence.detect["outside"] {
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msgs = append(msgs, makemsg(details.command, group, "outside", hookName, metas, details.key, details.timestamp, res[1:]))
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}
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case "roam":
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if len(msgs) > 0 {
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var nmsgs []string
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for _, msg := range msgs {
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cmd := gjson.Get(msg, "command")
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if cmd.Exists() && cmd.String() != "set" {
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nmsgs = append(nmsgs, msg)
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}
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}
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for i := range roamNearbys {
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nmsg := extendRoamMessage(sw, fence,
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"nearby", msgs[0], roamNearbys[i])
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nmsgs = append(nmsgs, string(nmsg))
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}
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for i := range roamFaraways {
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nmsg := extendRoamMessage(sw, fence,
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"faraway", msgs[0], roamFaraways[i])
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nmsgs = append(nmsgs, string(nmsg))
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}
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msgs = nmsgs
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}
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}
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return msgs
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}
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func extendRoamMessage(
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sw *scanWriter, fence *liveFenceSwitches,
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kind string, baseMsg string, match roamMatch,
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) string {
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// hack off the last '}'
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nmsg := []byte(baseMsg[:len(baseMsg)-1])
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nmsg = append(nmsg, `,"`+kind+`":{"key":`...)
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nmsg = appendJSONString(nmsg, fence.roam.key)
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nmsg = append(nmsg, `,"id":`...)
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nmsg = appendJSONString(nmsg, match.id)
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nmsg = append(nmsg, `,"object":`...)
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nmsg = match.obj.AppendJSON(nmsg)
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nmsg = append(nmsg, `,"meters":`...)
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nmsg = strconv.AppendFloat(nmsg,
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math.Floor(match.meters*1000)/1000, 'f', -1, 64)
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if fence.roam.scan != "" {
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nmsg = append(nmsg, `,"scan":[`...)
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col := sw.s.getCol(fence.roam.key)
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if col != nil {
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obj, _, ok := col.Get(match.id)
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if ok {
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nmsg = append(nmsg, `{"id":`...)
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nmsg = appendJSONString(nmsg, match.id)
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nmsg = append(nmsg, `,"self":true,"object":`...)
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nmsg = obj.AppendJSON(nmsg)
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nmsg = append(nmsg, '}')
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}
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pattern := match.id + fence.roam.scan
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iterator := func(
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oid string, o geojson.Object, fields []float64,
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) bool {
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if oid == match.id {
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return true
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}
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if matched, _ := glob.Match(pattern, oid); matched {
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nmsg = append(nmsg, `,{"id":`...)
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nmsg = appendJSONString(nmsg, oid)
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nmsg = append(nmsg, `,"object":`...)
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nmsg = o.AppendJSON(nmsg)
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nmsg = append(nmsg, '}')
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}
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return true
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}
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g := glob.Parse(pattern, false)
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if g.Limits[0] == "" && g.Limits[1] == "" {
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col.Scan(false, nil, nil, iterator)
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} else {
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col.ScanRange(g.Limits[0], g.Limits[1],
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false, nil, nil, iterator)
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}
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}
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nmsg = append(nmsg, ']')
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}
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nmsg = append(nmsg, '}')
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// re-add the last '}'
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nmsg = append(nmsg, '}')
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return string(nmsg)
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}
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func makemsg(
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command, group, detect, hookName string,
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metas []FenceMeta, key string, t time.Time, tail string,
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) string {
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var buf []byte
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buf = append(append(buf, `{"command":"`...), command...)
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buf = append(append(buf, `","group":"`...), group...)
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buf = append(append(buf, `","detect":"`...), detect...)
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buf = append(buf, '"')
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buf = appendHookDetails(buf, hookName, metas)
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buf = appendJSONString(append(buf, `,"key":`...), key)
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buf = appendJSONTimeFormat(append(buf, `,"time":`...), t)
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buf = append(append(buf, ','), tail...)
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return string(buf)
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}
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func fenceMatchObject(fence *liveFenceSwitches, obj geojson.Object) bool {
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if obj == nil {
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return false
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}
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if fence.roam.on {
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// we need to check this object against
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return false
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}
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switch fence.cmd {
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case "nearby":
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// nearby is an INTERSECT on a Circle
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return obj.Intersects(fence.obj)
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case "within":
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return obj.Within(fence.obj)
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case "intersects":
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return obj.Intersects(fence.obj)
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}
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return false
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}
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func fenceMatchNearbys(
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s *Server, fence *liveFenceSwitches,
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id string, obj geojson.Object,
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) (nearbys []roamMatch) {
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if obj == nil {
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return nil
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}
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col := s.getCol(fence.roam.key)
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if col == nil {
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return nil
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}
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center := obj.Center()
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minLat, minLon, maxLat, maxLon :=
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geo.RectFromCenter(center.Y, center.X, fence.roam.meters)
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rect := geometry.Rect{
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Min: geometry.Point{X: minLon, Y: minLat},
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Max: geometry.Point{X: maxLon, Y: maxLat},
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}
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col.Intersects(geojson.NewRect(rect), 0, nil, nil, func(
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id2 string, obj2 geojson.Object, fields []float64,
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) bool {
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if s.hasExpired(fence.roam.key, id2) {
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return true // skip expired
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}
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var idMatch bool
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if id2 == id {
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return true // skip self
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}
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meters := obj.Distance(obj2)
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if meters > fence.roam.meters {
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return true // skip outside radius
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}
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if fence.roam.pattern {
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idMatch, _ = glob.Match(fence.roam.id, id2)
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} else {
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idMatch = fence.roam.id == id2
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}
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if !idMatch {
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return true // skip non-id match
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}
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match := roamMatch{
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id: id2,
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obj: obj2,
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meters: obj.Distance(obj2),
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}
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nearbys = append(nearbys, match)
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return true
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})
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return nearbys
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}
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func fenceMatchRoam(
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s *Server, fence *liveFenceSwitches,
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id string, old, obj geojson.Object,
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) (nearbys, faraways []roamMatch) {
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oldNearbys := fenceMatchNearbys(s, fence, id, old)
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newNearbys := fenceMatchNearbys(s, fence, id, obj)
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// Go through all matching objects in new-nearbys and old-nearbys.
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for i := 0; i < len(oldNearbys); i++ {
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var match bool
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var j int
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for ; j < len(newNearbys); j++ {
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if newNearbys[j].id == oldNearbys[i].id {
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match = true
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break
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}
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}
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if match {
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// dwelling, more from old-nearbys
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oldNearbys[i] = oldNearbys[len(oldNearbys)-1]
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oldNearbys = oldNearbys[:len(oldNearbys)-1]
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i--
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if fence.nodwell {
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// no dwelling allowed, remove from both lists
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newNearbys[j] = newNearbys[len(newNearbys)-1]
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newNearbys = newNearbys[:len(newNearbys)-1]
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}
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}
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}
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faraways, nearbys = oldNearbys, newNearbys
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// ensure the faraways distances are to the new object
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for i := 0; i < len(faraways); i++ {
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faraways[i].meters = faraways[i].obj.Distance(obj)
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}
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sortRoamMatches(faraways)
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sortRoamMatches(nearbys)
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return nearbys, faraways
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}
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// sortRoamMatches stable sorts roam matches
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func sortRoamMatches(matches []roamMatch) {
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sort.Slice(matches, func(i, j int) bool {
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if matches[i].meters < matches[j].meters {
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return true
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}
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if matches[i].meters > matches[j].meters {
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return false
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}
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return matches[i].id < matches[j].id
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})
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}
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