Compare commits

..

7 Commits

Author SHA1 Message Date
tiger_zhou
8d28ac1d59 Merge branch 'develop' into local-test
Some checks failed
local-test分支打包构建docker并发布运行 / Docker-Build (push) Has been cancelled
2024-05-20 15:22:14 +08:00
tiger_zhou
11a14b2ef6 列车激活方向调整 2024-05-20 15:21:22 +08:00
37799cd2c9 [修改]区段、Link、运营方向/位置之间互相转换的函数的bug 2024-05-17 14:39:26 +08:00
b3270c5921 [修改]区段、Link、运营方向/位置之间互相转换的函数的bug 2024-05-17 14:38:14 +08:00
59520435d2 [新增]区段、Link、运营方向/位置之间互相转换的函数 2024-05-16 21:19:53 +08:00
149678b3f0 Merge remote-tracking branch 'origin/develop' into develop 2024-05-13 13:17:43 +08:00
509d06e39e [新增]增加GJ继电器相关逻辑 2024-05-13 13:17:16 +08:00
18 changed files with 1331 additions and 885 deletions

View File

@ -239,15 +239,20 @@ func addTrain(c *gin.Context) {
if req.TrainId < 0 || req.TrainId >= 255 {
panic(sys_error.New("列车编号不能小于0大于255"))
}
if req.TrainSpeed < 0 || req.TrainSpeed > 90 {
panic(sys_error.New("列车编号不能小于0大于255"))
}
rsp := &state_proto.TrainState{
Id: fmt.Sprintf("%v", req.TrainId),
HeadDeviceId: req.Id,
HeadOffset: req.HeadOffset,
DevicePort: req.DevicePort,
RunDirection: req.RunDirection,
Id: fmt.Sprintf("%v", req.TrainId),
HeadDeviceId: req.Id,
HeadOffset: req.HeadOffset,
DevicePort: req.DevicePort,
TrainRunUp: req.RunDirection,
//RunDirection: req.RunDirection,
TrainLength: req.TrainLength,
WheelDiameter: req.WheelDiameter,
Speed: req.TrainSpeed,
Show: true,
ConnState: &state_proto.TrainConnState{TrainControlMapId: req.TrainControlMapId, Conn: false, ConnType: state_proto.TrainConnState_NONE},
}
var err *sys_error.BusinessError = memory.AddTrainStateNew(simulation,

File diff suppressed because it is too large Load Diff

View File

@ -293,6 +293,14 @@ func handlerSectionState(w ecs.World, uid string) *state_proto.SectionState {
}
}
return sectionState
} else if entry.HasComponent(component.TrackCircuitType) { //轨道电路
sectionState := &state_proto.SectionState{
Occupied: component.BitStateType.Get(component.TrackCircuitType.Get(entry).GJ).Val,
AxleFault: false,
AxleDrst: false,
AxlePdrst: false,
}
return sectionState
}
return nil
}
@ -435,20 +443,20 @@ func collectTrainStates(vs *memory.VerifySimulation) ([]*state_proto.TrainMapSta
func convertTrainState(v *state_proto.TrainState) *state_proto.TrainMapState {
t := &state_proto.TrainMapState{
Id: v.Id,
Up: v.Up,
InitialSpeed: v.Speed,
TrainLength: v.TrainLength,
Show: v.Show,
HeadDeviceId: v.HeadDeviceId,
HeadOffset: v.HeadOffset,
DevicePort: v.DevicePort,
PointTo: v.PointTo,
RunDirection: v.RunDirection,
HeadDirection: v.HeadDirection,
TrainKilometer: v.TrainKilometer,
ControlDelayTime: v.ControlDelayTime,
WheelDiameter: v.WheelDiameter,
Id: v.Id,
Up: v.Up,
InitialSpeed: v.Speed,
TrainLength: v.TrainLength,
Show: v.Show,
HeadDeviceId: v.HeadDeviceId,
HeadOffset: v.HeadOffset,
DevicePort: v.DevicePort,
DriftTo: v.DriftTo,
TrainRunUp: v.TrainRunUp,
TrainActiveDirection: v.TrainActiveDirection,
TrainKilometer: v.TrainKilometer,
ControlDelayTime: v.ControlDelayTime,
WheelDiameter: v.WheelDiameter,
// 动力学
DynamicHeartbeat: v.DynamicState.Heartbeat,
HeadLinkId: v.DynamicState.HeadLinkId,

@ -1 +1 @@
Subproject commit 8ccd46aa6c97a933fd12c7b308da929115c9aa8e
Subproject commit 468cc7896408951a5627777aa862a58716642317

@ -1 +1 @@
Subproject commit e4c55ea4b6f9f5f875d59fc5bba51fc21bc8ef97
Subproject commit aac1484a6f64cc43146cabd89784b92c933a0298

View File

@ -133,6 +133,7 @@ func (d *dynamics) requestStartSimulation(base *message.LineBaseInfo) error {
}
url := d.buildUrl("/api/start/")
data, _ := json.Marshal(base)
fmt.Println(string(data))
resp, err := d.httpClient.Post(url, "application/json", bytes.NewBuffer(data))
if err != nil {
return sys_error.New("动力学开始仿真请求发送错误", err)
@ -171,6 +172,7 @@ func (d *dynamics) RequestAddTrain(info *message.InitTrainInfo) error {
}
url := d.buildUrl("/api/aerodynamics/init/train/")
data, _ := json.Marshal(info)
fmt.Println(string(data))
resp, err := d.httpClient.Post(url, "application/json", bytes.NewBuffer(data))
if err != nil {
return fmt.Errorf("动力学添加列车请求异常: %v", err)

View File

@ -0,0 +1,23 @@
package beijing11
var (
FrameHead byte = 0x0E //帧头
FrameTail byte = 0x0E //帧尾
ControlWord = controlWord{
HeartBeat: 0x00,
ReadRegister: 0x01,
WriteRegister: 0x02,
Response: 0x03,
Upstream: 0x06,
DownStream: 0x07,
}
)
type controlWord struct {
HeartBeat byte //心跳
ReadRegister byte //读寄存器
WriteRegister byte //写寄存器
Response byte //回复
Upstream byte //上行流数据
DownStream byte //下行流数据
}

View File

@ -0,0 +1,126 @@
// Package beijing11 北京11号线联锁通信
package beijing11
import (
"fmt"
"joylink.club/bj-rtsts-server/config"
"joylink.club/bj-rtsts-server/third_party/udp"
"log/slog"
"sync"
)
var (
initMutex = sync.Mutex{}
interlockMap = make(map[string]*InterlockProxy)
logTag = "[北京11号线联锁通信]"
)
func GetInstant(c *config.InterlockConfig, msgManager MsgManager) *InterlockProxy {
initMutex.Lock()
defer initMutex.Unlock()
if interlockMap[c.Code] == nil {
interlockMap[c.Code] = &InterlockProxy{runConfig: c, msgManager: msgManager}
}
return interlockMap[c.Code]
}
type MsgManager interface {
HandleReadRegisterMsg(req *ReadRegisterReq) (*ReadRegisterRes, error)
HandleWriteRegisterMsg(req *WriteRegisterReq) error
HandleDownstreamMsg(data []byte) error
CollectUpstreamMsg() []byte
}
type msgManager struct {
}
type InterlockProxy struct {
runConfig *config.InterlockConfig //联锁通信配置
msgManager MsgManager //消息获取与处理接口0
client udp.UdpClient //向上位机发送数据的UDP客户端
server udp.UdpServer //接收上位机数据的UDP服务端
running bool //此服务正在运行的标志
}
func (i *InterlockProxy) Start() {
if i.runConfig == nil || i.runConfig.Ip == "" || !i.runConfig.Open {
return
}
if i.running {
panic("启动联锁消息服务错误: 存在正在运行的任务")
}
//UDP通信设施
i.server = udp.NewServer(fmt.Sprintf(":%d", i.runConfig.LocalPort), i.handleUpperData)
err := i.server.Listen()
if err != nil {
panic("启动联锁消息服务错误无法启动UDP服务")
}
i.running = true
i.client = udp.NewClient(fmt.Sprintf("%v:%v", i.runConfig.Ip, i.runConfig.RemotePort))
}
// 处理来自上位机的数据
func (i *InterlockProxy) handleUpperData(data []byte) {
baseData := &BaseStruct{}
err := baseData.Decode(data)
if err != nil {
slog.Error(logTag + "数据解析出错:" + err.Error())
return
}
switch baseData.ControlWord {
case ControlWord.ReadRegister:
req := &ReadRegisterReq{}
err := req.Decode(baseData.Data)
if err != nil {
slog.Error(logTag + "读寄存器数据解析出错:" + err.Error())
return
}
res, err := i.msgManager.HandleReadRegisterMsg(req)
if err != nil {
slog.Error(logTag + "读寄存器数据处理出错:" + err.Error())
return
}
resData := &BaseStruct{
ID: baseData.ID,
ControlWord: ControlWord.Response,
Data: res.Encode(),
}
i.SendToUpper(resData.Encode())
case ControlWord.WriteRegister:
req := &WriteRegisterReq{}
err := req.Decode(baseData.Data)
if err != nil {
slog.Error(logTag + "写寄存器数据解析出错:" + err.Error())
return
}
err = i.msgManager.HandleWriteRegisterMsg(req)
if err != nil {
slog.Error(logTag + "写寄存器数据处理出错:" + err.Error())
return
}
case ControlWord.DownStream:
err = i.msgManager.HandleDownstreamMsg(baseData.Data)
if err != nil {
slog.Error(logTag + "下行数据处理出错:" + err.Error())
return
}
}
}
func (i *InterlockProxy) SendToUpper(data []byte) {
err := i.client.Send(data)
slog.Error(logTag + "向上位机发送数据失败:" + err.Error())
}
func (i *InterlockProxy) Stop() {
initMutex.Lock()
defer initMutex.Unlock()
delete(interlockMap, i.runConfig.Code)
if i.client != nil {
i.client.Close()
}
if i.server != nil {
i.server.Close()
}
i.running = false
}

86
third_party/interlock/beijing11/msg.go vendored Normal file
View File

@ -0,0 +1,86 @@
package beijing11
import (
"encoding/binary"
"fmt"
"hash/crc32"
"joylink.club/bj-rtsts-server/sys_error"
)
type BaseStruct struct {
ID byte
ControlWord byte
Data []byte
}
func (m *BaseStruct) Decode(buf []byte) error {
if buf[0] != FrameHead {
return sys_error.New(logTag + "帧头不正确:" + fmt.Sprintf("%02X", buf[0]))
}
if buf[len(buf)-1] != FrameTail {
return sys_error.New(logTag + "帧尾不正确:" + fmt.Sprintf("%02X", buf[len(buf)-1]))
}
crc := crc32.ChecksumIEEE(buf[1 : len(buf)-5])
if crc != binary.BigEndian.Uint32(buf[len(buf)-5:len(buf)-1]) {
return sys_error.New(logTag + "CRC校验失败")
}
m.ID = buf[1]
m.ControlWord = buf[2]
m.Data = buf[5 : len(buf)-5]
return nil
}
func (m *BaseStruct) Encode() []byte {
var data []byte
data = append(data, FrameHead)
data = append(data, m.ID)
data = append(data, m.ControlWord)
data = binary.BigEndian.AppendUint16(data, uint16(len(m.Data)))
data = append(data, m.Data...)
crc := crc32.ChecksumIEEE(data[1:])
data = binary.BigEndian.AppendUint32(data, crc)
data = append(data, FrameTail)
return data
}
type ReadRegisterReq struct {
RegisterAddr []uint16 //寄存器地址
}
func (r *ReadRegisterReq) Decode(buf []byte) error {
if len(buf)%2 != 0 {
return sys_error.New(logTag + "读寄存器数据字节长度不是2的倍数")
}
for i := 0; i < len(buf); i += 2 {
r.RegisterAddr = append(r.RegisterAddr, binary.BigEndian.Uint16(buf[i:i+2]))
}
return nil
}
type ReadRegisterRes struct {
RegisterData [][]byte //寄存器数据
}
func (r *ReadRegisterRes) Encode() []byte {
var data []byte
for _, datum := range r.RegisterData {
data = append(data, datum...)
}
return data
}
type WriteRegisterReq struct {
RegisterAddr []uint16 //寄存器地址
RegisterData [][]byte //寄存器数据
}
func (w *WriteRegisterReq) Decode(buf []byte) error {
if len(buf)%6 != 0 {
return sys_error.New(logTag + "写寄存器数据字节长度不是6的倍数")
}
for i := 0; i < len(buf); i += 6 {
w.RegisterAddr = append(w.RegisterAddr, binary.BigEndian.Uint16(buf[i:i+2]))
w.RegisterData = append(w.RegisterData, buf[i+2:i+6])
}
return nil
}

View File

@ -1,4 +1,5 @@
package interlock
// Package beijing12 北京12号线联锁通信
package beijing12
import (
"context"

View File

@ -77,7 +77,9 @@ type DynamicsTrainInfo struct {
//此次计算所使用的半实物消息的生命信号
VobcLifeSignal uint16
//位移mm
Displacement uint16
Displacement uint16
TrainActToMax bool
TrainActToMin bool
}
// 解析动力学的列车信息
@ -89,8 +91,19 @@ func (t *DynamicsTrainInfo) Decode(buf []byte) error {
t.LinkOffset = binary.BigEndian.Uint32(buf[8:12])
t.Slope = binary.BigEndian.Uint16(buf[12:14])
b := buf[14]
t.UpSlope = (b & (1 << 7)) != 0
t.Up = (b & (1 << 6)) != 0
t.UpSlope = IsTrueForByte(GetBit(b, 7))
t.Up = IsTrueForByte(GetBit(b, 6))
t.TrainActToMax = IsTrueForByte(GetBit(b, 4))
t.TrainActToMin = IsTrueForByte(GetBit(b, 5))
//t.UpSlope = (b & (1 << 7)) != 0
//t.Up = (b & (1 << 6)) != 0
//t.TrainActToMax = (b & (1 << 5)) != 0
//t.TrainActToMin = (b & (1 << 4)) != 0
//t.TrainActToMax = (b & (1 << 4)) != 0
//t.TrainActToMin = (b & (1 << 5)) != 0
t.TotalResistance = int32(binary.BigEndian.Uint32(buf[16:20]))
t.AirResistance = int32(binary.BigEndian.Uint32(buf[20:24]))
t.SlopeResistance = int32(binary.BigEndian.Uint32(buf[24:28]))

View File

@ -186,7 +186,7 @@ func (d *trainPcSimService) sendTrainLocationAndSpeedTask(ctx context.Context) {
s1, s2 := train.PluseCount.PulseCount1, train.PluseCount.PulseCount2
d.speedPlace.ParsePulseCount1(s1, s2)
data := d.speedPlace.Encode(train.RunDirection, s1, s2)
data := d.speedPlace.Encode(train.TrainRunUp, s1, s2)
bm := &message.TrainPcSimBaseMessage{Type: SENDER_TRAIN_LOCATION_INFO, Data: data}
train.PluseCount.PulseCount1 = 0
train.PluseCount.PulseCount2 = 0

View File

@ -59,6 +59,20 @@ func findTrainTccGraphicDataHandler(tccG *data_proto.TccGraphicStorage, id uint3
return nil, false
}
func initTrainVobc(trainLoad int64, trainIsUp bool) (*state_proto.TrainVobcState, uint32) {
vobc := &state_proto.TrainVobcState{TrainLoad: int64(trainLoad), BrakingStatus: true, BrakeForce: DEFAULT_BRAKE_FORCE, DirectionForward: true}
var trainActDir uint32 = 0
if trainIsUp {
vobc.Tc1Active = true
trainActDir = 1
} else {
//vobc.Tc1Active = true
vobc.Tc2Active = true
trainActDir = 2
}
return vobc, trainActDir
}
// 初始化列车控制数据
func initTrainTcc(vs *VerifySimulation, runDir bool) *state_proto.TrainControlState {
var tccGI *data_proto.TccGraphicStorage

View File

@ -0,0 +1,125 @@
package memory
import (
"errors"
"fmt"
"joylink.club/rtsssimulation/repository"
"joylink.club/rtsssimulation/util/number"
)
// LinkRadialToDeviceRadial Link射线转设备道岔/区段)射线
func LinkRadialToDeviceRadial(repo *repository.Repository, linkPosition *repository.LinkPosition, toBig bool) (sr *DeviceRadial, err error) {
link := linkPosition.Link()
offset := linkPosition.Offset()
if offset > link.Length() {
return nil, errors.New(fmt.Sprintf("%d超出%s范围", offset, linkPosition.String()))
}
//先遍历所有的非道岔计轴区段
for _, section := range link.PhysicalSections() {
for _, linkRange := range section.LinkRanges() {
if linkRange.Link() != link {
continue
}
if linkRange.Start() <= offset && offset <= linkRange.End() {
sectionOffset := number.Abs(offset - section.ALinkPosition().Offset())
toB := toBig == (section.BLinkPosition().Offset() > section.ALinkPosition().Offset())
aKm := convertRepoBaseKm(repo, section.AKilometer())
bKm := convertRepoBaseKm(repo, section.BKilometer())
runDirection := toB == (bKm.Value > aKm.Value)
sr = &DeviceRadial{
DeviceId: section.Id(),
Offset: sectionOffset,
PointTo: toB,
RunDirection: runDirection,
}
break
}
}
}
if sr != nil {
return sr, nil
}
//Link位置不在非道岔计轴区段上
aLinkPosition := link.ARelation().Turnout().FindLinkPositionByPort(link.ARelation().Port())
if aLinkPosition.Offset() >= offset { //LinkPosition在A端道岔范围内
pointTo := !toBig
portKm := convertRepoBaseKm(repo, link.ARelation().Turnout().GetTurnoutKm(link.ARelation().Port()))
km := convertRepoBaseKm(repo, link.ARelation().Turnout().Km())
runDir := pointTo == (km.Value > portKm.Value)
sr = &DeviceRadial{
DeviceId: link.ARelation().Turnout().Id(),
Offset: offset,
PointTo: !toBig,
RunDirection: runDir,
}
}
err = nil
return
}
// SectionRadialToLinkRadial 区段射线转Link射线
func SectionRadialToLinkRadial(sectionRadial *SectionRadial) (linkPosition *repository.LinkPosition, toBig bool) {
toBig = SectionDirToLinkDir(sectionRadial.Section, sectionRadial.ToB)
var offset int64
if sectionRadial.ToB == toBig { //section与link偏移变化趋势相同
offset = sectionRadial.Section.ALinkPosition().Offset() + sectionRadial.Offset
} else {
offset = sectionRadial.Section.BLinkPosition().Offset() - sectionRadial.Offset
}
linkPosition = repository.NewLinkPosition(sectionRadial.Section.ALinkPosition().Link(), offset)
return
}
// OperationRadialToLinkRadial 运营射线转Link射线
func OperationRadialToLinkRadial(repo *repository.Repository, section *repository.PhysicalSection, offset int64, up bool) (linkPosition *repository.LinkPosition, toBig bool) {
toB := OperationDirToSectionDir(repo, section, up)
return SectionRadialToLinkRadial(&SectionRadial{
Section: section,
Offset: offset,
ToB: toB,
})
}
// SectionDirToLinkDir 区段方向转Link方向
func SectionDirToLinkDir(section *repository.PhysicalSection, toB bool) (toBig bool) {
aOffset := section.ALinkPosition().Offset()
bOffset := section.BLinkPosition().Offset()
toBig = toB == (bOffset > aOffset)
return
}
// SectionDirToOperationDir 区段方向转运营方向
func SectionDirToOperationDir(repo *repository.Repository, section *repository.PhysicalSection, toB bool) (up bool) {
aKm := convertRepoBaseKm(repo, section.AKilometer())
bKm := convertRepoBaseKm(repo, section.BKilometer())
return toB == (bKm.Value > aKm.Value)
}
// OperationDirToSectionDir 运营方向转区段方向
func OperationDirToSectionDir(repo *repository.Repository, section *repository.PhysicalSection, up bool) (toB bool) {
aKm := convertRepoBaseKm(repo, section.AKilometer())
bKm := convertRepoBaseKm(repo, section.BKilometer())
return up == (bKm.Value > aKm.Value)
}
// OperationDirToLinkDir 运营方向转Link方向
func OperationDirToLinkDir(repo *repository.Repository, section *repository.PhysicalSection, up bool) (toBig bool) {
toB := OperationDirToSectionDir(repo, section, up)
return SectionDirToLinkDir(section, toB)
}
// SectionRadial 区段射线。包含一个区段位置+方向
// 加这个结构体只是因为上面函数返回值过多
type SectionRadial struct {
Section *repository.PhysicalSection
Offset int64
ToB bool
}
// DeviceRadial 设备射线,包含一个设备位置+方向
type DeviceRadial struct {
DeviceId string //区段或道岔
Offset int64 //在设备上的偏移量
PointTo bool //与TrainState结构体中同义。区段A->B道岔->岔心
RunDirection bool //与TrainState结构体中同义。公里标 上行:小 -> 大,下行:大 -> 小
}

View File

@ -243,7 +243,7 @@ func findCalcLinkIdAndOffset(sim *VerifySimulation, link *repository.Link, offse
}
// 没有找到连接信息,说明已经到尽头找不到位置
if nextLink == nil {
err = sys_error.New(fmt.Sprintf("未找到对应的link信息, linkId=%s, offset=%d", link.Id(), offset))
err = sys_error.New(fmt.Sprintf("未找到对应的link信息, linkId=%s, Offset=%d", link.Id(), offset))
return
}
// 下个link偏移
@ -297,7 +297,7 @@ func getTurnoutNextPort(sim *VerifySimulation, turnoutId string, port string) (n
return
}
// 计算link offset 在道岔上的位置
// 计算link Offset 在道岔上的位置
// 入参仿真Repository、link、是否从A端开始、link偏移量、link运行方向
// 输出设备Id、设备所在端口、设备偏移量、公里标信息地图主坐标系
func calcTurnoutOffset(repo *repository.Repository, link *repository.Link, isA bool, offset int64, up bool) (
@ -328,7 +328,7 @@ func calcTurnoutOffset(repo *repository.Repository, link *repository.Link, isA b
return
}
// 计算link offset 在区段上的位置
// 计算link Offset 在区段上的位置
// 入参仿真Repository、link、link偏移量、link运行方向
// 输出设备Id、设备所在端口、设备偏移量、公里标信息地图主坐标系
func calcSectionOffset(repo *repository.Repository, link *repository.Link, offset int64, up bool) (

View File

@ -50,11 +50,6 @@ func AddTrainStateNew(vs *VerifySimulation, status *state_proto.TrainState, conf
return sys_error.New(fmt.Sprintf("列车【%s】已存在", status.Id))
}
}
//tcc := createTrainControl(vs)
//status.Tcc = tcc
// 显示状态
status.Show = true
//向动力学发送初始化请求
trainIndex, _ := strconv.ParseUint(status.Id, 10, 16)
slog.Debug("添加列车", "trainIndex", trainIndex, "HeadDeviceId", status.HeadDeviceId, "HeadOffset", status.HeadOffset)
@ -65,12 +60,16 @@ func AddTrainStateNew(vs *VerifySimulation, status *state_proto.TrainState, conf
} else {
uid = QueryUidByMidAndComId(mapId, status.HeadDeviceId, &data_proto.Turnout{})
}
// 车头所在link、link上的偏移
linkId, loffset := QueryLinkAndOffsetByDevice(vs.Repo, uid, status.DevicePort, status.HeadOffset)
// link上的运行方向、设备上的运行方向
up, pointTo := QueryUpAndABByDevice(vs.Repo, uid, status.DevicePort, status.RunDirection)
up, pointTo := QueryUpAndABByDevice(vs.Repo, uid, status.DevicePort, status.TrainRunUp)
//up, pointTo, _ = QueryDirectionAndABByDevice(vs.Repo, uid, status.DevicePort, status.TrainRunUp)
//fmt.Println(up2, pointTo2)
// 车头所在公里标
kilometer := CalcTrainKilometer(vs.Repo, uid, status.DevicePort, status.RunDirection, status.HeadOffset)
kilometer := CalcTrainKilometer(vs.Repo, uid, status.DevicePort, status.TrainRunUp, status.HeadOffset)
// 车尾相对车头link的偏移量
calctailOffset := calcTrailTailOffset(loffset, status.TrainLength, up)
// 车尾位置
@ -79,7 +78,7 @@ func AddTrainStateNew(vs *VerifySimulation, status *state_proto.TrainState, conf
panic(sys_error.New("添加列车失败,列车车尾占用位置计算出错", e1))
}
status.Up = up
status.PointTo = pointTo
status.DriftTo = pointTo
status.TrainKilometer = kilometer.Value
status.DynamicState = &state_proto.TrainDynamicState{
@ -87,7 +86,8 @@ func AddTrainStateNew(vs *VerifySimulation, status *state_proto.TrainState, conf
HeadLinkOffset: loffset,
TailLinkId: tailLink,
TailLinkOffset: tailLOffset,
RunningUp: up,
RunningUp: status.Up,
//RunningUp: status.TrainRunUp,
}
status.TailDeviceId = vs.GetComIdByUid(tailDeviceId)
status.TailOffset = tailDeviceOffset
@ -98,24 +98,23 @@ func AddTrainStateNew(vs *VerifySimulation, status *state_proto.TrainState, conf
if tl <= 0 {
tl = DEFULAT_TRAIN_LOAD
}
status.VobcState = &state_proto.TrainVobcState{TrainLoad: int64(tl), BrakingStatus: true, BrakeForce: DEFAULT_BRAKE_FORCE, DirectionForward: true}
//status.VobcState.HistoryDir = request_proto.TrainControl_FORWARD
if status.RunDirection {
status.VobcState.Tc1Active = true
} else {
status.VobcState.Tc2Active = true
}
status.Tcc = initTrainTcc(vs, status.RunDirection)
vobc, _ := initTrainVobc(int64(tl), status.TrainRunUp)
status.VobcState = vobc
//status.TrainActiveDirection = trainActDir
status.Tcc = initTrainTcc(vs, status.TrainRunUp)
slog.Debug("列车初始化", "trainIndex", trainIndex, "linkId", linkId, "loffset", loffset)
linkIdInt, _ := strconv.Atoi(linkId)
err := dynamics.Default().RequestAddTrain(&message.InitTrainInfo{
TrainIndex: uint16(trainIndex),
LinkIndex: uint16(linkIdInt),
LinkOffset: uint32(loffset),
Speed: status.Speed / 3.6,
Up: status.Up,
TrainIndex: uint16(trainIndex),
LinkIndex: uint16(linkIdInt),
LinkOffset: uint32(loffset),
Speed: status.Speed / 3.6,
Up: status.Up,
//Up: status.TrainRunUp,
TrainOperationConfig: CreateMsgTrainConfig(int(trainIndex), status.TrainLength, configTrainData),
})
if err != nil {
@ -296,58 +295,42 @@ func UpdateTrainStateByDynamics(vs *VerifySimulation, trainId string, info *mess
sta.ControlDelayTime = (int64(sta.VobcState.LifeSignal)-int64(info.VobcLifeSignal))*20 + delayTime
//slog.Debug("收到动力学原始消息", "Number", info.Number, "Link", info.Link, "LinkOffset", info.LinkOffset)
inLinkId, inLinkOffset := strconv.Itoa(int(info.Link)), int64(info.LinkOffset)
outLinkId, id, port, outLinkOffset, offset, kilometer, e1 := CalcInitializeLink(vs, inLinkId, inLinkOffset, info.Up)
if e1 != nil {
panic(sys_error.New("动力学传输数据:列车车头位置计算出错", e1))
}
//runDirection 指定的是link方向
//pointTO 指的是是否ab或是否到岔心
runDirection, pointTo := QueryDirectionAndABByDevice(vs.Repo, id, port, info.Up)
//slog.Debug("处理动力学转换后的消息", "number", info.Number, "Link", info.Link, "车头位置", id, "偏移", offset, "是否上行", runDirection, "是否ab", pointTo)
slog.Debug("处理动力学转换后的消息", "number", info.Number, "up", info.Up, "Link", info.Link, "车头位置", id, "偏移", offset, "是否上行", runDirection, "是否ab", pointTo, "t1Dir:", info.TrainActToMax, "t2Dir:", info.TrainActToMin)
trainHeadActUp := true
if info.TrainActToMax || info.TrainActToMin {
if info.TrainActToMin {
trainHeadActUp = false
}
}
// 车尾相对车头link的偏移量
calctailOffset := calcTrailTailOffset(outLinkOffset, int64(info.Len), info.Up)
//calctailOffset := calcTrailTailOffset(outLinkOffset, int64(info.Len), info.Up)
calctailOffset := calcTrailTailOffset(outLinkOffset, int64(info.Len), trainHeadActUp)
tailLinkId, tailDeviceId, tailDevicePort, tailLinkOffset, tailOffset, _, e2 := CalcInitializeLink(vs, outLinkId, calctailOffset, !info.Up)
if e2 != nil {
panic(sys_error.New("动力学传输数据:列车车尾位置计算出错", e2))
}
//slog.Debug("车尾位置", tailDeviceId, "偏移", tailDeviceOffset, "所在设备端", tailDevicePort)
// 更新BTM中列车位置信息
can_btm.Default().HandleTrainHeadPositionInfo(vs.World, &fi.TrainHeadPositionInfo{
TrainId: trainId,
Up: info.Up,
Link: outLinkId,
LinkOffset: outLinkOffset,
Speed: info.Speed,
Acceleration: info.Acceleration,
})
state := can_btm.Default().GetState()
sta.BtmState = &state
updateTrainBtmPosition(vs, info, sta, outLinkId, outLinkOffset)
// 修改world中的列车位置
fi.UpdateTrainPositionFromDynamics(vs.World, fi.TrainPositionInfo{
TrainId: trainId,
Up: info.Up,
Len: info.Len,
HeadLink: outLinkId,
HeadLinkOffset: uint32(outLinkOffset),
TailLink: tailLinkId,
TailLinkOffset: uint32(tailLinkOffset),
})
handleTrainPositionFromDynamic(vs, info, sta, outLinkId, outLinkOffset, tailLinkId, tailLinkOffset)
//修改列车激活方向
updateTrainActiveDirFromDynamic(vs, info, sta, id, port, trainHeadActUp)
sta.HeadDeviceId = vs.GetComIdByUid(id)
sta.DevicePort = port
sta.HeadOffset = offset
sta.PointTo = pointTo
sta.DriftTo = pointTo
sta.TrainKilometer = kilometer.Value
sta.RunDirection = runDirection
//判定车头方向
sta.HeadDirection = runDirection
if sta.VobcState != nil {
if sta.VobcState.DirectionForward {
sta.HeadDirection = runDirection
} else if sta.VobcState.DirectionBackward {
sta.HeadDirection = !runDirection
}
}
if info.Speed < 0 {
sta.RunDirection = !sta.RunDirection
}
sta.TailDeviceId = vs.GetComIdByUid(tailDeviceId)
sta.TailOffset = tailOffset
sta.TailDevicePort = tailDevicePort
@ -379,6 +362,47 @@ func UpdateTrainStateByDynamics(vs *VerifySimulation, trainId string, info *mess
return sta
}
func updateTrainActiveDirFromDynamic(vs *VerifySimulation, info *message.DynamicsTrainInfo, sta *state_proto.TrainState, id, port string, trainHeadActUp bool) {
sta.TrainActiveDirection = 0
if info.TrainActToMax || info.TrainActToMin {
_, pointTo2 := QueryDirectionAndABByDevice(vs.Repo, id, port, trainHeadActUp)
pt := pointTo2
if pt {
sta.TrainActiveDirection = 1
} else {
sta.TrainActiveDirection = 2
}
}
}
// 根据列车位置修改列车应答器
func updateTrainBtmPosition(vs *VerifySimulation, info *message.DynamicsTrainInfo, sta *state_proto.TrainState, outLinkId string, outLinkOffset int64) {
// 更新BTM中列车位置信息
can_btm.Default().HandleTrainHeadPositionInfo(vs.World, &fi.TrainHeadPositionInfo{
TrainId: sta.Id,
Up: info.Up,
Link: outLinkId,
LinkOffset: outLinkOffset,
Speed: info.Speed,
Acceleration: info.Acceleration,
})
state := can_btm.Default().GetState()
sta.BtmState = &state
}
// 根据动力学修改列车位置
func handleTrainPositionFromDynamic(vs *VerifySimulation, info *message.DynamicsTrainInfo, sta *state_proto.TrainState, outLinkId string, outLinkOffset int64, tailLinkId string, tailLinkOffset int64) {
fi.UpdateTrainPositionFromDynamics(vs.World, fi.TrainPositionInfo{
TrainId: sta.Id,
Up: info.Up,
Len: info.Len,
HeadLink: outLinkId,
HeadLinkOffset: uint32(outLinkOffset),
TailLink: tailLinkId,
TailLinkOffset: uint32(tailLinkOffset),
})
}
// 接受动力学时间15毫米
const RECEIVE_DYNAMIC_DATA_RATE = 15
@ -390,7 +414,7 @@ func pluseCount(sta *state_proto.TrainState) {
if sta.PluseCount == nil {
return
}
if sta.RunDirection {
if sta.TrainRunUp {
p1 := uint32(formatSpeedTime(sta.DynamicState.HeadSensorSpeed1 * RECEIVE_DYNAMIC_DATA_RATE))
p2 := uint32(formatSpeedTime(sta.DynamicState.HeadSensorSpeed2 * RECEIVE_DYNAMIC_DATA_RATE))
if sta.TrainEndsA.SpeedSensorEnableA {

View File

@ -41,7 +41,7 @@ func ControlTrainUpdate(s *VerifySimulation, ct *request_proto.TrainControl) {
if ct.ControlType == request_proto.TrainControl_EMERGENT_BUTTON {
tce = trainControlEB(vobc, tcc, ct.Button, ct.DeviceId, tccGraphicData)
} else if ct.ControlType == request_proto.TrainControl_DRIVER_KEY_SWITCH {
tce = trainControlDriverKey(sta.DynamicState.Speed, vobc, tcc, ct.DriverKey, ct.DeviceId, tccGraphicData)
tce = trainControlDriverKey(sta, ct.DriverKey, ct.DeviceId, tccGraphicData)
train_pc_sim.Default().SendDriverActive(sta.ConnState, sta.VobcState)
} else if ct.ControlType == request_proto.TrainControl_DIRECTION_KEY_SWITCH {
tce = trainControlDirKey(sta.DynamicState.Speed, vobc, tcc, ct.DirKey, ct.DeviceId, tccGraphicData)
@ -142,15 +142,17 @@ func trainControlDirKey(trainSpeed int32, vobc *state_proto.TrainVobcState, tcc
}
// 列车驾驶端激活
func trainControlDriverKey(trainSpeed int32, vobc *state_proto.TrainVobcState, tcc *state_proto.TrainControlState, request *request_proto.TrainControl_DriverKeySwitch, deviceId uint32, tccGraphic *data_proto.TccGraphicStorage) []train_pc_sim.TrainControlEvent {
func trainControlDriverKey(train *state_proto.TrainState, request *request_proto.TrainControl_DriverKeySwitch, deviceId uint32, tccGraphic *data_proto.TccGraphicStorage) []train_pc_sim.TrainControlEvent {
obj, find := findTrainTccGraphicDataKey(tccGraphic, deviceId)
if !find {
slog.Error("未找到对应的驾驶端激活设备deviceId:", deviceId)
return nil
}
if trainSpeed != 0 {
if train.DynamicState.Speed != 0 {
panic(sys_error.New("因列车未停稳,不支持此操作"))
}
vobc := train.VobcState
tcc := train.Tcc
if obj.Code == SKQYS1 {
vobc.Tc1Active = request.Val
} else if obj.Code == SKQYS2 {
@ -164,6 +166,14 @@ func trainControlDriverKey(trainSpeed int32, vobc *state_proto.TrainVobcState, t
}
panic(sys_error.New("驾驶端不能同时激活"))
}
train.TrainActiveDirection = 0
if vobc.Tc1Active {
//train.TrainActiveDirection = 1
train.TrainRunUp = true
} else if vobc.Tc2Active {
//train.TrainActiveDirection = 2
train.TrainRunUp = false
}
var addNew = true
for _, k := range tcc.DriverKey {
if k.Id == deviceId {

View File

@ -3,6 +3,7 @@ package ts
import (
"fmt"
"joylink.club/bj-rtsts-server/third_party/acc"
"joylink.club/bj-rtsts-server/third_party/interlock/beijing12"
"joylink.club/bj-rtsts-server/third_party/radar"
"joylink.club/bj-rtsts-server/third_party/train_pc_sim"
"log/slog"
@ -20,7 +21,6 @@ import (
"joylink.club/bj-rtsts-server/mqtt"
"joylink.club/bj-rtsts-server/sys_error"
"joylink.club/bj-rtsts-server/third_party/dynamics"
"joylink.club/bj-rtsts-server/third_party/interlock"
"joylink.club/bj-rtsts-server/third_party/semi_physical_train"
"joylink.club/bj-rtsts-server/ts/simulation/wayside/memory"
@ -120,7 +120,7 @@ func runThirdParty(s *memory.VerifySimulation) error {
semi_physical_train.Default().Start(s)
// 联锁启动
for _, c := range s.GetInterlockCodes() {
interlock.Default(c).Start(s)
beijing12.Default(c).Start(s)
}
// 计轴RSSP启动
axle_device.StartLineAllRsspAxleServices(s)
@ -149,7 +149,7 @@ func stopThirdParty(s *memory.VerifySimulation) {
semi_physical_train.Default().Stop()
// 联锁启动
for _, c := range s.GetInterlockCodes() {
interlock.Default(c).Stop()
beijing12.Default(c).Stop()
}
//计轴RSSP启动销毁
axle_device.StopLineAllRsspAxleServices()