rts-sim-module/sys/device_sys/section_detection.to.go
2023-11-13 13:53:46 +08:00

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package device_sys
import (
"fmt"
"github.com/yohamta/donburi"
"joylink.club/ecs"
"joylink.club/ecs/filter"
"joylink.club/rtsssimulation/component"
"joylink.club/rtsssimulation/entity"
"joylink.club/rtsssimulation/repository"
"joylink.club/rtsssimulation/repository/model/proto"
"log/slog"
"strings"
)
// SectionDetectSystem 区段检测系统
type SectionDetectSystem struct {
trainQuery *ecs.Query
axleSectionQuery *ecs.Query
}
func NewSectionDetectSystem() *SectionDetectSystem {
return &SectionDetectSystem{trainQuery: ecs.NewQuery(filter.Contains(component.UidType, component.TrainPositionInfoType)),
axleSectionQuery: ecs.NewQuery(filter.Contains(component.UidType, component.AxlePhysicalSectionType))}
}
func (s *SectionDetectSystem) Update(w ecs.World) {
//key-sectionId,统计区段上有车的情况
sectionTrainMap := make(map[string]*trainCount)
//所有列车
s.trainQuery.Each(w, func(entry *donburi.Entry) {
tp := component.TrainPositionInfoType.Get(entry)
//fmt.Println("============>>>>>>列车位置信息:", tp.ToString())
trainSectionIds := s.doSearchTrainOccupiedSections(w, tp)
//fmt.Println("============>>>>>>列车所在物理区段:", trainSectionIds)
for _, sectionId := range trainSectionIds { //车所在区段
tc, find := sectionTrainMap[sectionId]
if !find {
tc = newTrainCount()
sectionTrainMap[sectionId] = tc
}
tc.add()
}
})
//计轴区段
s.axleSectionQuery.Each(w, func(entry *donburi.Entry) {
axleSectionId := component.UidType.Get(entry).Id
axleSection := component.AxlePhysicalSectionType.Get(entry)
tc, find := sectionTrainMap[axleSectionId]
if find {
axleSection.UpdateCount(int(tc.count))
} else {
axleSection.UpdateCount(0)
}
})
}
type trainCount struct {
count int8
}
func newTrainCount() *trainCount {
return &trainCount{count: 0}
}
func (c *trainCount) add() {
c.count++
}
func (s *SectionDetectSystem) doSearchTrainOccupiedSections(w ecs.World, tp *component.TrainPositionInfo) []string {
wd := entity.GetWorldData(w)
curLink := wd.Repo.FindLink(tp.HeadLink)
stp := &stpContext{w: w, trainLen: tp.Len, curLink: curLink, curOffset: tp.HeadLinkOffset, searchDirection: !tp.Up, acLen: 0}
for stp.needAccumulate() {
stp.accumulateLen()
if stp.needAccumulate() {
stp.nextLink()
} else {
break
}
}
//
return stp.trainSections()
}
/////////////////////////////////////////////////////////////////////
type stpContext struct {
w ecs.World
trainLen int64 //列车长度
curLink *repository.Link //当前迭代的link
curOffset int64 //当前迭代的link,长度累加起点
searchDirection bool //在curLink上长度累加的方向true:a->b,false:b->a,a->b偏移量变大
acLen int64 //当前累加长度
acRanges []*stpLinkRange //轨道range列表
}
func (s *stpContext) printStpLinkRanges() {
var sb strings.Builder
for _, r := range s.acRanges {
sb.WriteString(fmt.Sprintf("[linkId=%s start=%d end=%d linkLen=%d]->", r.link.Id(), r.start, r.end, r.link.Length()))
}
fmt.Println("===========>>>>列车所在link range 链:", sb.String())
}
// 获取列车所占的物理区段
func (s *stpContext) trainSections() []string {
secs := make(map[string]string)
for _, acR := range s.acRanges {
ids := acR.sectionIds()
for _, id := range ids {
secs[id] = id
}
}
//
//s.printStpLinkRanges()
//
var sectionIds []string
for _, id := range secs {
sectionIds = append(sectionIds, id)
}
return sectionIds
}
func (s *stpContext) needAccumulate() bool {
return s.curLink != nil && s.acLen < s.trainLen
}
func (s *stpContext) nextLink() {
var nextLinkPort *repository.LinkPort
if s.searchDirection {
bDc := s.curLink.BRelation()
bDcDw := s.turnoutPosition(bDc.Turnout().Id())
switch bDc.Port() {
case proto.Port_A: //link-b连接turnout-A
if bDcDw {
nextLinkPort = bDc.Turnout().FindLinkByPort(proto.Port_B)
} else {
nextLinkPort = bDc.Turnout().FindLinkByPort(proto.Port_C)
}
case proto.Port_B: //link-b连接turnout-B
fallthrough
case proto.Port_C: //link-b连接turnout-C
nextLinkPort = bDc.Turnout().FindLinkByPort(proto.Port_A)
}
} else {
aDc := s.curLink.ARelation()
aDcDw := s.turnoutPosition(aDc.Turnout().Id())
switch aDc.Port() {
case proto.Port_A: //link-a连接turnout-A
if aDcDw {
nextLinkPort = aDc.Turnout().FindLinkByPort(proto.Port_B)
} else {
nextLinkPort = aDc.Turnout().FindLinkByPort(proto.Port_C)
}
case proto.Port_B: //link-a连接turnout-B
fallthrough
case proto.Port_C: //link-a连接turnout-C
nextLinkPort = aDc.Turnout().FindLinkByPort(proto.Port_A)
}
}
//
if nextLinkPort != nil {
s.curLink = nextLinkPort.Device().(*repository.Link)
fromA := nextLinkPort.IsPortA()
s.searchDirection = fromA
if fromA {
s.curOffset = 0
} else {
s.curOffset = s.curLink.Length()
}
} else {
slog.Warn("区段检测时获取列车下的link失败")
}
}
// 获取道岔实际位置
func (s *stpContext) turnoutPosition(id string) bool {
wd := entity.GetWorldData(s.w)
entry, ok := wd.EntityMap[id]
if ok {
return component.TurnoutPositionType.Get(entry).Dw
} else {
panic(fmt.Sprintf("道岔[%s]的实体不存在", id))
}
}
// 累加
func (s *stpContext) accumulateLen() {
if s.searchDirection {
dl := s.curLink.Length() - s.curOffset
if s.acLen+dl < s.trainLen {
s.addLinkRange(&stpLinkRange{link: s.curLink, start: s.curOffset, end: s.curLink.Length()})
s.acLen += dl
} else {
tl := s.trainLen - s.acLen
s.addLinkRange(&stpLinkRange{link: s.curLink, start: s.curOffset, end: s.curOffset + tl})
s.acLen += tl
}
} else {
dl := s.curOffset
if s.acLen+dl < s.trainLen {
s.addLinkRange(&stpLinkRange{link: s.curLink, start: 0, end: s.curOffset})
s.acLen += dl
} else {
tl := s.trainLen - s.acLen
s.addLinkRange(&stpLinkRange{link: s.curLink, start: s.curOffset - tl, end: s.curOffset})
s.acLen += tl
}
}
}
func (s *stpContext) addLinkRange(r *stpLinkRange) {
s.acRanges = append(s.acRanges, r)
}
///////////////////////////////////////////////////////////////
type stpLinkRange struct {
link *repository.Link
start int64
end int64
}
// 获取link range 上的物理区段的id
func (s *stpLinkRange) sectionIds() []string {
var ids []string
ps := s.link.GetAllPhysicalSection()
for _, p := range ps {
for _, pr := range p.LinkRanges() {
if isRangeOverlap(s.link.Id(), s.start, s.end, pr.Link().Id(), pr.Start(), pr.End()) {
ids = append(ids, p.Id())
}
}
}
return ids
}
func isRangeOverlap(r1LinkId string, r1Start int64, r1End int64, r2LinkId string, r2Start int64, r2End int64) bool {
if r1LinkId != r2LinkId {
return false
}
r1Start, r1End = formatRange(r1Start, r1End)
r2Start, r2End = formatRange(r2Start, r2End)
if r2Start > r1Start && r2Start < r1End {
return true
}
if r2End > r1Start && r2End < r1End {
return true
}
if r1Start > r2Start && r1Start < r2End {
return true
}
if r1End > r2Start && r1End < r2End {
return true
}
//
return false
}
func formatRange(start int64, end int64) (int64, int64) {
if start < end {
return start, end
} else {
return end, start
}
}
func printPhSectionRange(w ecs.World, id string) string {
wd := entity.GetWorldData(w)
var sb strings.Builder
sb.WriteString(fmt.Sprintf("物理区段[%s]range列表", id))
for _, r := range wd.Repo.FindPhysicalSection(id).LinkRanges() {
sb.WriteString(fmt.Sprintf("[linkId=%s start=%d end=%d],", r.Link().Id(), r.Start(), r.End()))
}
return sb.String()
}