【修改地图缓存数据】

This commit is contained in:
weizhihong 2023-09-21 14:54:27 +08:00
parent bccdb424a9
commit bd376293a6
14 changed files with 1125 additions and 1376 deletions

View File

@ -34,7 +34,8 @@ func InitSimulationRouter(api *gin.RouterGroup, authMiddleware *jwt.GinJWTMiddle
// 初始化地图信息
initPublishMapInfo()
apiproto.RegisterMsgServer(&apiproto.SimulationServer{})
//apiproto.RegisterMsgServer(&apiproto.SimulationServer{})
apiproto.RegisterMsgServer(&apiproto.SimulationMapServer{})
apiproto.RegisterMsgServer(&apiproto.MemoryChangeServer{SimulationMap: make(map[string]*state.SimulationStatus)})
}

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@ -1,6 +1,6 @@
// Code generated by protoc-gen-go. DO NOT EDIT.
// versions:
// protoc-gen-go v1.31.0
// protoc-gen-go v1.28.1
// protoc v4.23.1
// source: picture.proto

View File

@ -1,6 +1,6 @@
// Code generated by protoc-gen-go. DO NOT EDIT.
// versions:
// protoc-gen-go v1.31.0
// protoc-gen-go v1.28.1
// protoc v4.23.1
// source: pslGraphics.proto

View File

@ -1,6 +1,6 @@
// Code generated by protoc-gen-go. DO NOT EDIT.
// versions:
// protoc-gen-go v1.31.0
// protoc-gen-go v1.28.1
// protoc v4.23.1
// source: relayCabinetLayoutGraphics.proto
@ -25,11 +25,12 @@ type RelayCabinetGraphicStorage struct {
sizeCache protoimpl.SizeCache
unknownFields protoimpl.UnknownFields
Canvas *Canvas `protobuf:"bytes,1,opt,name=canvas,proto3" json:"canvas,omitempty"`
RelayCabinets []*RelayCabinet `protobuf:"bytes,2,rep,name=relayCabinets,proto3" json:"relayCabinets,omitempty"`
Relays []*Relay `protobuf:"bytes,3,rep,name=relays,proto3" json:"relays,omitempty"`
DeviceRelateRelayList []*DeviceRelateRelay `protobuf:"bytes,4,rep,name=deviceRelateRelayList,proto3" json:"deviceRelateRelayList,omitempty"`
BelongsConcentrationStation string `protobuf:"bytes,5,opt,name=belongsConcentrationStation,proto3" json:"belongsConcentrationStation,omitempty"` //继电器柜图所属集中站
Canvas *Canvas `protobuf:"bytes,1,opt,name=canvas,proto3" json:"canvas,omitempty"`
RelayCabinets []*RelayCabinet `protobuf:"bytes,2,rep,name=relayCabinets,proto3" json:"relayCabinets,omitempty"`
Relays []*Relay `protobuf:"bytes,3,rep,name=relays,proto3" json:"relays,omitempty"`
DeviceRelateRelayList []*DeviceRelateRelay `protobuf:"bytes,4,rep,name=deviceRelateRelayList,proto3" json:"deviceRelateRelayList,omitempty"`
// string belongsConcentrationStation = 5;//继电器柜图所属集中站
UniqueIdPrefix *UniqueIdType `protobuf:"bytes,6,opt,name=UniqueIdPrefix,proto3" json:"UniqueIdPrefix,omitempty"` //设备唯一编码--前缀
}
func (x *RelayCabinetGraphicStorage) Reset() {
@ -92,11 +93,11 @@ func (x *RelayCabinetGraphicStorage) GetDeviceRelateRelayList() []*DeviceRelateR
return nil
}
func (x *RelayCabinetGraphicStorage) GetBelongsConcentrationStation() string {
func (x *RelayCabinetGraphicStorage) GetUniqueIdPrefix() *UniqueIdType {
if x != nil {
return x.BelongsConcentrationStation
return x.UniqueIdPrefix
}
return ""
return nil
}
type RelayCabinet struct {
@ -338,6 +339,69 @@ func (x *Combinationtype) GetRefRelays() []string {
return nil
}
type UniqueIdType struct {
state protoimpl.MessageState
sizeCache protoimpl.SizeCache
unknownFields protoimpl.UnknownFields
City string `protobuf:"bytes,1,opt,name=city,proto3" json:"city,omitempty"` //城市
LineId string `protobuf:"bytes,2,opt,name=lineId,proto3" json:"lineId,omitempty"` //线路号
BelongsConcentrationStation string `protobuf:"bytes,3,opt,name=belongsConcentrationStation,proto3" json:"belongsConcentrationStation,omitempty"` //继电器柜图所属集中站
}
func (x *UniqueIdType) Reset() {
*x = UniqueIdType{}
if protoimpl.UnsafeEnabled {
mi := &file_relayCabinetLayoutGraphics_proto_msgTypes[5]
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
ms.StoreMessageInfo(mi)
}
}
func (x *UniqueIdType) String() string {
return protoimpl.X.MessageStringOf(x)
}
func (*UniqueIdType) ProtoMessage() {}
func (x *UniqueIdType) ProtoReflect() protoreflect.Message {
mi := &file_relayCabinetLayoutGraphics_proto_msgTypes[5]
if protoimpl.UnsafeEnabled && x != nil {
ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x))
if ms.LoadMessageInfo() == nil {
ms.StoreMessageInfo(mi)
}
return ms
}
return mi.MessageOf(x)
}
// Deprecated: Use UniqueIdType.ProtoReflect.Descriptor instead.
func (*UniqueIdType) Descriptor() ([]byte, []int) {
return file_relayCabinetLayoutGraphics_proto_rawDescGZIP(), []int{5}
}
func (x *UniqueIdType) GetCity() string {
if x != nil {
return x.City
}
return ""
}
func (x *UniqueIdType) GetLineId() string {
if x != nil {
return x.LineId
}
return ""
}
func (x *UniqueIdType) GetBelongsConcentrationStation() string {
if x != nil {
return x.BelongsConcentrationStation
}
return ""
}
var File_relayCabinetLayoutGraphics_proto protoreflect.FileDescriptor
var file_relayCabinetLayoutGraphics_proto_rawDesc = []byte{
@ -346,7 +410,7 @@ var file_relayCabinetLayoutGraphics_proto_rawDesc = []byte{
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@ -365,39 +429,48 @@ var file_relayCabinetLayoutGraphics_proto_rawDesc = []byte{
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}
var (
@ -412,29 +485,31 @@ func file_relayCabinetLayoutGraphics_proto_rawDescGZIP() []byte {
return file_relayCabinetLayoutGraphics_proto_rawDescData
}
var file_relayCabinetLayoutGraphics_proto_msgTypes = make([]protoimpl.MessageInfo, 5)
var file_relayCabinetLayoutGraphics_proto_msgTypes = make([]protoimpl.MessageInfo, 6)
var file_relayCabinetLayoutGraphics_proto_goTypes = []interface{}{
(*RelayCabinetGraphicStorage)(nil), // 0: relayCabinetGraphicData.RelayCabinetGraphicStorage
(*RelayCabinet)(nil), // 1: relayCabinetGraphicData.RelayCabinet
(*Relay)(nil), // 2: relayCabinetGraphicData.Relay
(*DeviceRelateRelay)(nil), // 3: relayCabinetGraphicData.DeviceRelateRelay
(*Combinationtype)(nil), // 4: relayCabinetGraphicData.Combinationtype
(*Canvas)(nil), // 5: graphicData.Canvas
(*CommonInfo)(nil), // 6: graphicData.CommonInfo
(*UniqueIdType)(nil), // 5: relayCabinetGraphicData.UniqueIdType
(*Canvas)(nil), // 6: graphicData.Canvas
(*CommonInfo)(nil), // 7: graphicData.CommonInfo
}
var file_relayCabinetLayoutGraphics_proto_depIdxs = []int32{
5, // 0: relayCabinetGraphicData.RelayCabinetGraphicStorage.canvas:type_name -> graphicData.Canvas
6, // 0: relayCabinetGraphicData.RelayCabinetGraphicStorage.canvas:type_name -> graphicData.Canvas
1, // 1: relayCabinetGraphicData.RelayCabinetGraphicStorage.relayCabinets:type_name -> relayCabinetGraphicData.RelayCabinet
2, // 2: relayCabinetGraphicData.RelayCabinetGraphicStorage.relays:type_name -> relayCabinetGraphicData.Relay
3, // 3: relayCabinetGraphicData.RelayCabinetGraphicStorage.deviceRelateRelayList:type_name -> relayCabinetGraphicData.DeviceRelateRelay
6, // 4: relayCabinetGraphicData.RelayCabinet.common:type_name -> graphicData.CommonInfo
6, // 5: relayCabinetGraphicData.Relay.common:type_name -> graphicData.CommonInfo
4, // 6: relayCabinetGraphicData.DeviceRelateRelay.combinationtypes:type_name -> relayCabinetGraphicData.Combinationtype
7, // [7:7] is the sub-list for method output_type
7, // [7:7] is the sub-list for method input_type
7, // [7:7] is the sub-list for extension type_name
7, // [7:7] is the sub-list for extension extendee
0, // [0:7] is the sub-list for field type_name
5, // 4: relayCabinetGraphicData.RelayCabinetGraphicStorage.UniqueIdPrefix:type_name -> relayCabinetGraphicData.UniqueIdType
7, // 5: relayCabinetGraphicData.RelayCabinet.common:type_name -> graphicData.CommonInfo
7, // 6: relayCabinetGraphicData.Relay.common:type_name -> graphicData.CommonInfo
4, // 7: relayCabinetGraphicData.DeviceRelateRelay.combinationtypes:type_name -> relayCabinetGraphicData.Combinationtype
8, // [8:8] is the sub-list for method output_type
8, // [8:8] is the sub-list for method input_type
8, // [8:8] is the sub-list for extension type_name
8, // [8:8] is the sub-list for extension extendee
0, // [0:8] is the sub-list for field type_name
}
func init() { file_relayCabinetLayoutGraphics_proto_init() }
@ -504,6 +579,18 @@ func file_relayCabinetLayoutGraphics_proto_init() {
return nil
}
}
file_relayCabinetLayoutGraphics_proto_msgTypes[5].Exporter = func(v interface{}, i int) interface{} {
switch v := v.(*UniqueIdType); i {
case 0:
return &v.state
case 1:
return &v.sizeCache
case 2:
return &v.unknownFields
default:
return nil
}
}
}
type x struct{}
out := protoimpl.TypeBuilder{
@ -511,7 +598,7 @@ func file_relayCabinetLayoutGraphics_proto_init() {
GoPackagePath: reflect.TypeOf(x{}).PkgPath(),
RawDescriptor: file_relayCabinetLayoutGraphics_proto_rawDesc,
NumEnums: 0,
NumMessages: 5,
NumMessages: 6,
NumExtensions: 0,
NumServices: 0,
},

File diff suppressed because it is too large Load Diff

View File

@ -1,6 +1,6 @@
// Code generated by protoc-gen-go. DO NOT EDIT.
// versions:
// protoc-gen-go v1.31.0
// protoc-gen-go v1.28.1
// protoc v4.23.1
// source: device_state.proto

View File

@ -3,11 +3,14 @@ package simulation
import (
"encoding/binary"
"encoding/hex"
"joylink.club/rtsssimulation/repository"
"joylink.club/rtsssimulation/repository/model/proto"
"math"
"time"
"joylink.club/ecs"
"joylink.club/rtsssimulation/repository"
"joylink.club/rtsssimulation/repository/model/proto"
ecsSimulation "joylink.club/rtsssimulation/simulation"
"fmt"
"net/http"
"strconv"
@ -101,41 +104,22 @@ func CreateSimulation(projectId int32, mapIds []int32) string {
if httpCode != http.StatusOK || err != nil {
panic(dto.ErrorDto{Code: dto.DynamicsError, Message: fmt.Sprintf("动力学接口调用失败:[%d][%s]", httpCode, err)})
}
simulationMap.Store(simulationId, verifySimulation)
dynamicsRun(verifySimulation)
}
return simulationId
//simulationId := createSimulationId(projectId)
//_, e := simulationMap.Load(simulationId)
//if !e && IsExistSimulation() {
// panic(dto.ErrorDto{Code: dto.DataAlreadyExist, Message: "已有仿真在运行"})
//}
//if !e {
// verifySimulation := memory.CreateSimulation(projectId, mapIds)
// verifySimulation.SimulationId = simulationId
// lineDataInfo := &dynamics.LineBaseInfo{}
// for _, mapId := range mapIds {
// b := buildLineBaseInfo(memory.QueryMapVerifyStructure(mapId))
// lineDataInfo.CurveList = append(lineDataInfo.CurveList, b.CurveList...)
// lineDataInfo.LinkList = append(lineDataInfo.LinkList, b.LinkList...)
// lineDataInfo.SlopeList = append(lineDataInfo.SlopeList, b.SlopeList...)
// }
// //通知动力学
// httpCode, _, err := dynamics.SendSimulationStartReq(lineDataInfo)
// if httpCode != http.StatusOK || err != nil {
// panic(dto.ErrorDto{Code: dto.DynamicsError, Message: fmt.Sprintf("动力学接口调用失败:[%d][%s]", httpCode, err)})
// }
// simulationMap.Store(simulationId, verifySimulation)
// dynamicsRun(verifySimulation)
//}
//return simulationId
}
// 删除仿真对象
func DestroySimulation(simulationId string) {
s, e := simulationMap.Load(simulationId)
if !e {
return
}
simulationInfo := s.(*memory.VerifySimulation)
simulationMap.Delete(simulationId)
// 停止ecs world
ecsSimulation.DestroySimulation(ecs.WorldId(simulationInfo.WorldId))
//移除道岔状态发送
dynamics.Stop()
//通知动力学
@ -323,62 +307,6 @@ func buildLineBaseInfo(repo *repository.Repository) *dynamics.LineBaseInfo {
return info
}
//func buildLineBaseInfo(vs *memory.VerifyStructure) *dynamics.LineBaseInfo {
// var links []*dynamics.Link
// var slopes []*dynamics.Slope
// var curves []*dynamics.Curve
// for _, link := range vs.LinkModelMap {
// id, _ := strconv.Atoi(link.Index)
// var aTurnoutId int
// var aPort string
// if link.ARelatedSwitchRef != nil && link.ARelatedSwitchRef.SwitchDevice != nil {
// aTurnoutId, _ = strconv.Atoi(link.ARelatedSwitchRef.SwitchDevice.GetIndex())
// aPort = link.ARelatedSwitchRef.Port.Name()
// }
// var bTurnoutId int
// var bPort string
// if link.BRelatedSwitchRef != nil && link.BRelatedSwitchRef.SwitchDevice != nil {
// bTurnoutId, _ = strconv.Atoi(link.BRelatedSwitchRef.SwitchDevice.GetIndex())
// bPort = link.BRelatedSwitchRef.Port.Name()
// }
// links = append(links, &dynamics.Link{
// ID: int32(id),
// Len: link.Length,
// ARelTurnoutId: int32(aTurnoutId),
// ARelTurnoutPoint: aPort,
// BRelTurnoutId: int32(bTurnoutId),
// BRelTurnoutPoint: bPort,
// })
// }
// for _, slope := range vs.SlopeModelMap {
// id, _ := strconv.Atoi(slope.Index)
// slopes = append(slopes, &dynamics.Slope{
// ID: int32(id),
// StartLinkId: slope.StartLinkIndex,
// StartLinkOffset: slope.StartLinkOffset,
// EndLinkId: slope.EndLinkIndex,
// EndLinkOffset: slope.EndLinkOffset,
// DegreeTrig: slope.DegreeTrig,
// })
// }
// for _, curve := range vs.CurveModelMap {
// id, _ := strconv.Atoi(curve.Index)
// curves = append(curves, &dynamics.Curve{
// ID: int32(id),
// StartLinkId: curve.StartLinkIndex,
// StartLinkOffset: curve.StartLinkOffset,
// EndLinkId: curve.EndLinkIndex,
// EndLinkOffset: curve.EndLinkOffset,
// Curvature: curve.Curvature,
// })
// }
// return &dynamics.LineBaseInfo{
// LinkList: links,
// SlopeList: slopes,
// CurveList: curves,
// }
//}
// 解析VOBC列车信息
func decoderVobcTrainState(buf []byte) *state.TrainVobcState {
trainVobcInfo := &state.TrainVobcState{}

View File

@ -1,15 +1,14 @@
package memory
import (
"container/list"
"fmt"
"joylink.club/rtsssimulation/repository"
"math"
"sort"
"strconv"
"strings"
"sync"
"go.uber.org/zap"
"joylink.club/rtsssimulation/repository"
"google.golang.org/protobuf/proto"
"joylink.club/bj-rtsts-server/ats/verify/protos/graphicData"
"joylink.club/bj-rtsts-server/ats/verify/simulation/wayside/face"
@ -21,12 +20,30 @@ import (
)
var (
graphicStorageMap sync.Map
graphicStorageMap sync.Map
graphicMapElementIdMap sync.Map
//// 仿真存储集合 ID
//graphicDataMap sync.Map
//graphicSourceDataMap sync.Map
)
type ElementIdStructure struct {
CommonId string
Index int32
Uid string
}
// 数组为Index为 common.Id, index, uid
type GraphicMapElementIdStructure struct {
AxlePointIds map[string]*ElementIdStructure
TurnoutIds map[string]*ElementIdStructure
PhysicalSectionIds map[string]*ElementIdStructure
SignalIds map[string]*ElementIdStructure
TransponderIds map[string]*ElementIdStructure
SlopeIds map[string]*ElementIdStructure
CurvatureIds map[string]*ElementIdStructure
}
// VerifyStructure 轨旁仿真模型结构
type VerifyStructure struct {
//计轴检测点设备模型集合,key为索引编号
@ -82,38 +99,7 @@ type calcLinkPositionStruct struct {
}
// 将发布的地图数据放入内存中
func PublishMapVerifyStructure(graphic *model.PublishedGi) *VerifyStructure {
// 创建一个地图数据模型结构数据
verifyStructure := &VerifyStructure{
AxlePointDeviceModelMap: make(map[string]face.AxlePointDeviceModeller),
SwitchDeviceModelMap: make(map[string]face.SwitchDeviceModeller),
LinkSectionModelMap: make(map[string]face.LinkSectionModeller),
AxleSectionModelMap: make(map[string]face.AxleSectionModeller),
PhysicalSectionModelMap: make(map[string]face.PhysicalSectionModeller),
LogicalSectionModelMap: make(map[string]face.LogicalSectionModeller),
SignalDeviceModelMap: make(map[string]face.SignalDeviceModeller),
LinkModelMap: make(map[int32]*device.LinkModel),
SlopeModelMap: make(map[string]*section.SlopeModel),
CurveModelMap: make(map[string]*section.CurveModel),
PointMap: make(map[string]*device.PointModel),
}
// 地图数据转为map存储建立关系时方便使用
graphicInfoMap := &GraphicInfoMapStructure{
AxlePointMap: make(map[string]*graphicData.AxleCounting),
TurnoutMap: make(map[string]*graphicData.Turnout),
SectionLinkMap: make(map[string]*graphicData.SectionLink),
AxleSectionMap: make(map[string]*graphicData.AxleCountingSection),
PhysicalSectionMap: make(map[string]*graphicData.Section),
LogicSectionMap: make(map[string]*graphicData.LogicSection),
SignalMap: make(map[string]*graphicData.Signal),
CalcLinkMap: make(map[int32]*graphicData.CalculateLink),
DevicePositionMap: make(map[string]*ref.DevicePosition[*device.LinkModel]),
TransponderMap: make(map[string]*graphicData.Transponder),
SlopeMap: make(map[string]*graphicData.Slope),
SlopeKiloMarkerMap: make(map[string]*graphicData.SlopeKiloMarker),
CurvatureMap: make(map[string]*graphicData.Curvature),
CurvatureKiloMarkerMap: make(map[string]*graphicData.CurvatureKiloMarker),
}
func PublishMapVerifyStructure(graphic *model.PublishedGi) {
graphicStorage := &graphicData.RtssGraphicStorage{}
err := proto.Unmarshal(graphic.Proto, graphicStorage)
if err != nil {
@ -121,13 +107,152 @@ func PublishMapVerifyStructure(graphic *model.PublishedGi) *VerifyStructure {
}
graphicStorageMap.Store(graphic.ID, graphicStorage)
// 初始化地图结构
initGraphicStructure(graphicStorage, verifyStructure, graphicInfoMap)
//// 构建设备间的关联关系(8.8 注释掉构建逻辑)
//buildDeviceRef(graphicInfoMap, verifyStructure)
//graphicDataMap.Store(graphic.ID, verifyStructure)
//// 地图原始数据
//graphicSourceDataMap.Store(graphic.ID, graphicInfoMap)
return verifyStructure
mapElementIdStructure := &GraphicMapElementIdStructure{
AxlePointIds: make(map[string]*ElementIdStructure),
TurnoutIds: make(map[string]*ElementIdStructure),
PhysicalSectionIds: make(map[string]*ElementIdStructure),
SignalIds: make(map[string]*ElementIdStructure),
TransponderIds: make(map[string]*ElementIdStructure),
SlopeIds: make(map[string]*ElementIdStructure),
CurvatureIds: make(map[string]*ElementIdStructure),
}
initGraphicStructure(graphicStorage, mapElementIdStructure)
graphicMapElementIdMap.Store(graphic.ID, mapElementIdStructure)
}
// 通过地图Index获取Uid
func GetDeviceUidByIndex(mapId, index int32, m interface{}) string {
elementIdMap := getElementIdStructure(mapId, m)
for _, elementId := range elementIdMap {
if elementId.Index == index {
return elementId.Uid
}
}
panic(&dto.ErrorDto{Code: dto.DataNotExist, Message: "无ID映射信息"})
}
// 通过地图CommonId获取Uid
func GetDeviceUidByCommonId(mapId int32, commonId string, m interface{}) string {
elementIdMap := getElementIdStructure(mapId, m)
elementId := elementIdMap[commonId]
if elementId != nil {
return elementId.Uid
}
panic(&dto.ErrorDto{Code: dto.DataNotExist, Message: "无ID映射信息"})
}
// 根据Uid获取地图Index
func GetDeviceIndexByUid(mapId int32, uid string, m interface{}) int32 {
elementIdMap := getElementIdStructure(mapId, m)
for _, elementId := range elementIdMap {
if elementId.Uid == uid {
return elementId.Index
}
}
panic(&dto.ErrorDto{Code: dto.DataNotExist, Message: "无ID映射信息"})
}
// 获取元素的UID映射
func getElementIdStructure(mapId int32, m interface{}) map[string]*ElementIdStructure {
idStructure := getMapElementIdMap(mapId)
switch m.(type) {
case *graphicData.AxleCounting:
return idStructure.AxlePointIds
case *graphicData.Turnout:
return idStructure.TurnoutIds
case *graphicData.Section:
return idStructure.PhysicalSectionIds
case *graphicData.Signal:
return idStructure.SignalIds
case *graphicData.Transponder:
return idStructure.TransponderIds
case *graphicData.Slope:
return idStructure.SlopeIds
case *graphicData.Curvature:
return idStructure.CurvatureIds
default:
panic(&dto.ErrorDto{Code: dto.ArgumentParseError, Message: "元素类型未映射ID"})
}
}
func getMapElementIdMap(mapId int32) *GraphicMapElementIdStructure {
mapElementIdMap, ok := graphicMapElementIdMap.Load(mapId)
if !ok {
panic(&dto.ErrorDto{Code: dto.DataNotExist, Message: "无ID映射信息"})
}
return mapElementIdMap.(*GraphicMapElementIdStructure)
}
// 初始化地图结构
func initGraphicStructure(graphicData *graphicData.RtssGraphicStorage, mapElementIdMap *GraphicMapElementIdStructure) {
// 初始化计轴信息
for _, a := range graphicData.AxleCountings {
mapElementIdMap.AxlePointIds[a.Common.Id] = &ElementIdStructure{
CommonId: a.Common.Id,
Index: a.Index,
Uid: generateElementUid(graphicData.UniqueIdPrefix, a.Common.Id, a.CentralizedStations),
}
}
// 初始化道岔信息
for _, t := range graphicData.Turnouts {
mapElementIdMap.TurnoutIds[t.Common.Id] = &ElementIdStructure{
CommonId: t.Common.Id,
Index: t.Index,
Uid: generateElementUid(graphicData.UniqueIdPrefix, t.Common.Id, t.CentralizedStations),
}
}
// 初始化物理区段信息
for _, s := range graphicData.Section {
mapElementIdMap.PhysicalSectionIds[s.Common.Id] = &ElementIdStructure{
CommonId: s.Common.Id,
Index: s.Index,
Uid: generateElementUid(graphicData.UniqueIdPrefix, s.Common.Id, s.CentralizedStations),
}
}
// 初始化信号机信息
for _, s := range graphicData.Signals {
mapElementIdMap.SignalIds[s.Common.Id] = &ElementIdStructure{
CommonId: s.Common.Id,
Index: s.Index,
Uid: generateElementUid(graphicData.UniqueIdPrefix, s.Common.Id, s.CentralizedStations),
}
}
// 初始化应答器
for _, t := range graphicData.Transponders {
mapElementIdMap.TransponderIds[t.Common.Id] = &ElementIdStructure{
CommonId: t.Common.Id,
Index: t.Index,
Uid: generateElementUid(graphicData.UniqueIdPrefix, t.Common.Id, t.CentralizedStations),
}
}
// 初始化坡度
for _, s := range graphicData.Slopes {
mapElementIdMap.SlopeIds[s.Common.Id] = &ElementIdStructure{
CommonId: s.Common.Id,
Index: 0,
Uid: generateElementUid(graphicData.UniqueIdPrefix, s.Common.Id, nil),
}
}
// 初始化曲线
for _, c := range graphicData.Curvatures {
mapElementIdMap.CurvatureIds[c.Common.Id] = &ElementIdStructure{
CommonId: c.Common.Id,
Index: 0,
Uid: generateElementUid(graphicData.UniqueIdPrefix, c.Common.Id, nil),
}
}
}
// 生成Uid, 等加上集中站再做修改
func generateElementUid(ui *graphicData.UniqueIdOfStationLayout, code string, stationName []string) string {
sort.Strings(stationName)
var idArr []string
if ui != nil {
idArr = append(idArr, ui.City, ui.LineId)
}
idArr = append(idArr, stationName...)
idArr = append(idArr, code)
return strings.Join(idArr, "_")
}
// 移除内存中的地图信息
@ -159,16 +284,6 @@ func QueryMapVerifyStructure(mapId int32) *VerifyStructure {
return nil
}
// 获取内存中地图原始信息
func QueryMapSourceDataStructure(mapId int32) *GraphicInfoMapStructure {
//d, ok := graphicSourceDataMap.Load(mapId)
//if ok {
// return d.(*GraphicInfoMapStructure)
//}
//panic(fmt.Sprintf("地图【id:%d】数据不存在", mapId))
return nil
}
// 根据区段道岔偏移量返回linkID和link相对偏移量
func QueryMapCalcLinkByDeviceInfo(mapId int32, id string, devicePort string, offset int64, runDirection bool) (int32, int64, bool, bool, int64) {
vm := QueryMapVerifyStructure(mapId)
@ -528,608 +643,6 @@ func QueryDeviceByCalcLink(repo *repository.Repository, id int32, offset int64,
// }
//}
func linkOffsetQuerySection(vm *VerifyStructure, devicePosition, calcPosition *calcLinkPositionStruct) (*section.PhysicalSectionModel, bool) {
var sectionModel *section.PhysicalSectionModel
for _, s := range vm.PhysicalSectionModelMap {
sectionModel = s.(*section.PhysicalSectionModel)
if sectionModel.AxlePoints[devicePosition.index] != nil && (calcPosition == nil || sectionModel.AxlePoints[calcPosition.index] != nil) {
return sectionModel, true
}
}
return nil, false
}
// 初始化地图结构
func initGraphicStructure(graphicData *graphicData.RtssGraphicStorage, verifyStructure *VerifyStructure, graphicDataMap *GraphicInfoMapStructure) {
// 初始化计轴信息
initGraphicAxlePoints(graphicData.AxleCountings, verifyStructure, graphicDataMap)
// 初始化道岔信息
initGraphicTurnout(graphicData.Turnouts, verifyStructure, graphicDataMap)
// 初始化link信息
initGraphicLink(graphicData.SectionLinks, verifyStructure, graphicDataMap)
// 初始化计轴区段信息
initGraphicAxleSection(graphicData.AxleCountingSections, verifyStructure, graphicDataMap)
// 初始化物理区段信息
initGraphicPhysicalSections(graphicData.Section, verifyStructure, graphicDataMap)
// 初始化逻辑区段信息
initGraphicLogicSections(graphicData.LogicSections, verifyStructure, graphicDataMap)
// 初始化信号机信息
initGraphicSignal(graphicData.Signals, verifyStructure, graphicDataMap)
// 初始化坡度和曲线端点
initPoints(graphicData, verifyStructure, graphicDataMap)
// 初始化Link信息
initLinks(graphicData.CalculateLink, verifyStructure, graphicDataMap)
// 初始化坡度
initSlopes(graphicData.Slopes, verifyStructure, graphicDataMap)
// 初始化曲线
initCurves(graphicData.Curvatures, verifyStructure, graphicDataMap)
// 初始化应答器
initTransponder(graphicData.Transponders, graphicDataMap)
}
func initCurves(curves []*graphicData.Curvature, vs *VerifyStructure, dataMap *GraphicInfoMapStructure) {
for _, curve := range curves {
dataMap.CurvatureMap[curve.Common.Id] = curve
c := &section.CurveModel{
DeviceModel: face.DeviceModel{
GraphicId: curve.GetCommon().GetId(),
Index: curve.GetCommon().GetId(),
},
Curvature: curve.CurvatureNumber,
}
startDp := dataMap.DevicePositionMap[curve.RefDeviceId[0]]
if startDp != nil {
startIndex, _ := strconv.Atoi(startDp.Device.GetIndex())
c.StartLinkIndex = int32(startIndex)
c.StartLinkOffset = startDp.Offset
}
endDp := dataMap.DevicePositionMap[curve.RefDeviceId[1]]
if endDp != nil {
endIndex, _ := strconv.Atoi(endDp.Device.GetIndex())
c.EndLinkIndex = int32(endIndex)
c.EndLinkOffset = endDp.Offset
}
vs.CurveModelMap[curve.Common.Id] = c
}
}
func initSlopes(slopes []*graphicData.Slope, vs *VerifyStructure, dataMap *GraphicInfoMapStructure) {
for _, slope := range slopes {
dataMap.SlopeMap[slope.Common.Id] = slope
s := &section.SlopeModel{
DeviceModel: face.DeviceModel{
GraphicId: slope.GetCommon().GetId(),
Index: slope.GetCommon().GetId(),
},
DegreeTrig: slope.SlopeNumber,
}
startDp := dataMap.DevicePositionMap[slope.RefDeviceId[0]]
if startDp != nil {
startIndex, _ := strconv.Atoi(startDp.Device.GetIndex())
s.StartLinkIndex = int32(startIndex)
s.StartLinkOffset = startDp.Offset
}
endDp := dataMap.DevicePositionMap[slope.RefDeviceId[1]]
if endDp != nil {
endIndex, _ := strconv.Atoi(endDp.Device.GetIndex())
s.EndLinkIndex = int32(endIndex)
s.EndLinkOffset = endDp.Offset
}
vs.SlopeModelMap[slope.Common.Id] = s
}
}
func initPoints(storage *graphicData.RtssGraphicStorage, vs *VerifyStructure, dataMap *GraphicInfoMapStructure) {
for _, slopeKm := range storage.SlopeKiloMarker {
dataMap.SlopeKiloMarkerMap[slopeKm.Common.Id] = slopeKm
vs.PointMap[slopeKm.Common.Id] = &device.PointModel{
DeviceModel: face.DeviceModel{
GraphicId: slopeKm.Common.Id,
Index: slopeKm.Common.Id,
},
Kms: slopeKm.KilometerSystem,
}
}
for _, curvatureKm := range storage.CurvatureKiloMarker {
dataMap.CurvatureKiloMarkerMap[curvatureKm.Common.Id] = curvatureKm
vs.PointMap[curvatureKm.Common.Id] = &device.PointModel{
DeviceModel: face.DeviceModel{
GraphicId: curvatureKm.Common.Id,
Index: curvatureKm.Common.Id,
},
Kms: curvatureKm.KilometerSystem,
}
}
}
func initLinks(links []*graphicData.CalculateLink, vs *VerifyStructure, dataMap *GraphicInfoMapStructure) {
deviceIdMap := make(map[string]face.DeviceModeller)
for _, modeller := range vs.AxlePointDeviceModelMap {
deviceIdMap[modeller.GetGraphicId()] = modeller
}
for _, modeller := range vs.SwitchDeviceModelMap {
deviceIdMap[modeller.GetGraphicId()] = modeller
}
for _, pointModel := range vs.PointMap {
deviceIdMap[pointModel.GetGraphicId()] = pointModel
}
for _, link := range links {
linkModel := &device.LinkModel{
DeviceModel: face.DeviceModel{
GraphicId: link.Common.Id,
Index: strconv.Itoa(int(link.Index)),
},
Length: link.Length,
}
if link.ARelatedRef != nil {
modeller := deviceIdMap[link.ARelatedRef.Id]
port := face.GetPortEnum(int8(link.ARelatedRef.DevicePort))
linkModel.ARelatedSwitchRef = &ref.SwitchRef{
SwitchDevice: modeller,
Port: port,
}
turnoutModel, ok := modeller.(*device.SwitchDeviceModel)
if ok {
linkPort := &ref.DevicePort[*device.LinkModel]{
Device: linkModel,
Port: face.A,
}
switch port {
case face.A:
turnoutModel.ALinkPort = linkPort
case face.B:
turnoutModel.BLinkPort = linkPort
case face.C:
turnoutModel.CLinkPort = linkPort
}
}
}
if link.BRelatedRef != nil {
modeller := deviceIdMap[link.ARelatedRef.Id]
port := face.GetPortEnum(int8(link.ARelatedRef.DevicePort))
linkModel.BRelatedSwitchRef = &ref.SwitchRef{
SwitchDevice: deviceIdMap[link.BRelatedRef.Id],
Port: face.GetPortEnum(int8(link.BRelatedRef.DevicePort)),
}
turnoutModel, ok := modeller.(*device.SwitchDeviceModel)
if ok {
linkPort := &ref.DevicePort[*device.LinkModel]{
Device: linkModel,
Port: face.B,
}
switch port {
case face.A:
turnoutModel.ALinkPort = linkPort
case face.B:
turnoutModel.BLinkPort = linkPort
case face.C:
turnoutModel.CLinkPort = linkPort
}
}
}
vs.LinkModelMap[link.Index] = linkModel
dataMap.CalcLinkMap[link.Index] = link
//构建DevicePositionDP切片
var dps []*ref.DevicePosition[face.DeviceModeller]
for _, dp := range link.DevicePositions {
modeller := deviceIdMap[dp.DeviceId]
if modeller == nil {
continue
}
dps = append(dps, &ref.DevicePosition[face.DeviceModeller]{
Device: modeller,
Offset: dp.Offset,
})
dataMap.DevicePositionMap[dp.DeviceId] = &ref.DevicePosition[*device.LinkModel]{
Device: linkModel,
Offset: dp.Offset,
}
}
//对DP切片按Offset排序
sort.Slice(dps, func(i, j int) bool {
return dps[i].Offset < dps[j].Offset
})
//赋值
linkModel.DevicePositions = dps
}
}
func initTransponder(transponders []*graphicData.Transponder, dataMap *GraphicInfoMapStructure) {
for _, t := range transponders {
dataMap.TransponderMap[t.Common.Id] = t
}
}
// 初始化计轴信息
func initGraphicAxlePoints(axlePoints []*graphicData.AxleCounting, data *VerifyStructure, graphicDataMap *GraphicInfoMapStructure) {
for _, a := range axlePoints {
graphicDataMap.AxlePointMap[a.Common.Id] = a
id := strconv.Itoa(int(a.Index))
data.AxlePointDeviceModelMap[id] = &device.AxlePointDeviceModel{
DeviceModel: face.DeviceModel{
GraphicId: a.Common.Id,
Index: id,
},
KilometerSystem: a.GetKilometerSystem(),
SwitchDevices: make(map[string]*ref.SwitchRef),
AreaPhysicalSections: make(map[string]face.PhysicalSectionModeller),
}
}
}
// 初始化道岔信息
func initGraphicTurnout(turnouts []*graphicData.Turnout, data *VerifyStructure, graphicDataMap *GraphicInfoMapStructure) {
for _, t := range turnouts {
graphicDataMap.TurnoutMap[t.Common.Id] = t
id := strconv.Itoa(int(t.Index))
data.SwitchDeviceModelMap[id] = &device.SwitchDeviceModel{
DeviceModel: face.DeviceModel{
GraphicId: t.Common.Id,
Index: id,
},
KilometerSystems: t.GetKilometerSystem(),
AxlePoints: make(map[string]*device.AxlePointDeviceModel),
}
}
}
// 初始化link信息
func initGraphicLink(links []*graphicData.SectionLink, data *VerifyStructure, graphicDataMap *GraphicInfoMapStructure) {
for _, s := range links {
graphicDataMap.SectionLinkMap[s.Common.Id] = s
id := strconv.Itoa(int(s.Index))
data.LinkSectionModelMap[id] = &section.LinkSectionModel{
DeviceModel: face.DeviceModel{
GraphicId: s.Common.Id,
Index: id,
},
Up: s.Up,
}
}
}
// 初始化计轴区段信息
func initGraphicAxleSection(axleSections []*graphicData.AxleCountingSection, data *VerifyStructure, graphicDataMap *GraphicInfoMapStructure) {
for _, s := range axleSections {
graphicDataMap.AxleSectionMap[s.Common.Id] = s
id := strconv.Itoa(int(s.Index))
data.AxleSectionModelMap[id] = &section.AxleSectionModel{
DeviceModel: face.DeviceModel{
GraphicId: s.Common.Id,
Index: id,
},
ViaSwitchPositions: list.New(),
ViaLinks: list.New(),
}
}
}
// 初始化物理区段信息
func initGraphicPhysicalSections(physicalSections []*graphicData.Section, data *VerifyStructure, graphicDataMap *GraphicInfoMapStructure) {
for _, s := range physicalSections {
graphicDataMap.PhysicalSectionMap[s.Common.Id] = s
id := strconv.Itoa(int(s.Index))
data.PhysicalSectionModelMap[id] = &section.PhysicalSectionModel{
DeviceModel: face.DeviceModel{
GraphicId: s.Common.Id,
Index: id,
},
SwitchArea: len(s.AxleCountings) > 2,
AxlePoints: make(map[string]face.AxlePointDeviceModeller),
AxleSections: make(map[string]face.AxleSectionModeller),
PortAxlePoints: make(map[string]face.AxlePointDeviceModeller),
}
}
}
// 初始化逻辑区段信息
func initGraphicLogicSections(logicSections []*graphicData.LogicSection, data *VerifyStructure, graphicDataMap *GraphicInfoMapStructure) {
for _, s := range logicSections {
graphicDataMap.LogicSectionMap[s.Common.Id] = s
id := strconv.Itoa(int(s.Index))
data.LogicalSectionModelMap[id] = &section.LogicalSectionModel{
DeviceModel: face.DeviceModel{
GraphicId: s.Common.Id,
Index: id,
},
}
}
}
// 初始化信号机信息
func initGraphicSignal(signals []*graphicData.Signal, data *VerifyStructure, graphicDataMap *GraphicInfoMapStructure) {
for _, s := range signals {
graphicDataMap.SignalMap[s.Common.Id] = s
id := strconv.Itoa(int(s.Index))
kilometerSystem := &graphicData.KilometerSystem{}
if s.KilometerSystem != nil {
kilometerSystem.CoordinateSystem = s.KilometerSystem.CoordinateSystem
kilometerSystem.Kilometer = s.KilometerSystem.Kilometer
}
data.SignalDeviceModelMap[id] = &device.SignalDeviceModel{
DeviceModel: face.DeviceModel{
GraphicId: s.Common.Id,
Index: id,
},
KilometerSystem: kilometerSystem,
}
}
}
// 构建设备间的关系
func buildDeviceRef(graphicData *GraphicInfoMapStructure, verifyStructure *VerifyStructure) {
// 构建link的关联关系
buildLinkDeviceRef(graphicData, verifyStructure)
// 道岔,分析轨道中轨道与道岔的关系来构建道岔与轨道的关系
buildTurnoutDeviceRef(verifyStructure)
// 计轴区段
buildAxleSectionDeviceRef(graphicData, verifyStructure)
// 物理区段
buildPhysicalSectionsDeviceRef(graphicData, verifyStructure)
// 逻辑区段
buildLogicSectionsDeviceRef(graphicData, verifyStructure)
// 计轴检测点-从计轴点角度(非岔区物理区段和道岔)
buildAxlePointDeviceRef(graphicData, verifyStructure)
// 计轴检测点-从物理区段角度
buildPhysicalAxlePointDeviceRef(verifyStructure)
}
// 构建link的关联关系端点间的轨道
func buildLinkDeviceRef(mapData *GraphicInfoMapStructure, verifyStructure *VerifyStructure) {
for _, v := range mapData.SectionLinkMap {
link := (verifyStructure.LinkSectionModelMap[strconv.Itoa(int(v.Index))]).(*section.LinkSectionModel)
// 轨道A端端点
linkSimRefBuildCommMethod(v.Common.Id, v.ASimRef, mapData, verifyStructure, func(f face.AxlePointDeviceModeller) {
link.AxlePointA = f
}, func(t *ref.SwitchRef) {
link.SwitchRefA = t
})
// 轨道B端端点
linkSimRefBuildCommMethod(v.Common.Id, v.BSimRef, mapData, verifyStructure, func(f face.AxlePointDeviceModeller) {
link.AxlePointB = f
}, func(t *ref.SwitchRef) {
link.SwitchRefB = t
})
// A端点关联设备
linkRefBuildCommMethod(v, mapData, verifyStructure, func() *graphicData.RelatedRef {
return v.ARef
}, func(l *ref.LinkRef) {
link.LinkRefA = l
}, func(pe face.PortEnum) {
link.SwitchRefA.Port = pe
})
// B端点关联设备
linkRefBuildCommMethod(v, mapData, verifyStructure, func() *graphicData.RelatedRef {
return v.BRef
}, func(l *ref.LinkRef) {
link.LinkRefB = l
}, func(pe face.PortEnum) {
link.SwitchRefB.Port = pe
})
}
}
func linkSimRefBuildCommMethod(linkGraphicId string, simRef *graphicData.SimpleRef, mapData *GraphicInfoMapStructure, verifyStructure *VerifyStructure,
fp func(face.AxlePointDeviceModeller), ft func(*ref.SwitchRef)) {
switch simRef.DeviceType {
case graphicData.SimpleRef_AxleCounting:
axlePoint := mapData.AxlePointMap[simRef.Id]
if axlePoint != nil {
fp(verifyStructure.AxlePointDeviceModelMap[strconv.Itoa(int(axlePoint.Index))])
} else {
zap.S().Warnf("id为[%s]的轨道的计轴端点[%s]不存在", linkGraphicId, simRef.Id)
}
case graphicData.SimpleRef_Turnout:
turnout := mapData.TurnoutMap[simRef.Id]
if turnout != nil {
ft(&ref.SwitchRef{SwitchDevice: verifyStructure.SwitchDeviceModelMap[strconv.Itoa(int(turnout.Index))]})
} else {
zap.S().Warnf("id为[%s]的轨道的道岔端点[%s]不存在", linkGraphicId, simRef.Id)
}
default:
zap.S().Warnf("link[%s]端点设备类型[%v]未关联", linkGraphicId, simRef.DeviceType)
}
}
func linkRefBuildCommMethod(v *graphicData.SectionLink, mapData *GraphicInfoMapStructure, verifyStructure *VerifyStructure,
gr func() *graphicData.RelatedRef, lr func(*ref.LinkRef), ft func(face.PortEnum)) {
r := gr()
if r != nil {
switch r.DeviceType {
case graphicData.RelatedRef_SectionLink:
d := mapData.SectionLinkMap[r.Id]
if d != nil {
ls := verifyStructure.LinkSectionModelMap[strconv.Itoa(int(d.Index))]
lr(&ref.LinkRef{LinkSection: ls, Port: face.PortEnum(r.DevicePort)})
} else {
zap.S().Warnf("id为[%s]的轨道的连接的轨道[%s]不存在", v.Common.Id, r.Id)
}
case graphicData.RelatedRef_Turnout:
t := mapData.TurnoutMap[r.Id]
if t != nil {
ft(face.PortEnum(v.ARef.DevicePort))
} else {
zap.S().Warnf("id为[%s]的轨道的连接的道岔[%s]不存在", v.Common.Id, r.Id)
}
default:
zap.S().Warnf("link[%s]端点设备类型[%v]未关联", v.Common.Id, r.DeviceType)
}
}
}
// 道岔,分析轨道中轨道与道岔的关系来构建道岔与轨道的关系
func buildTurnoutDeviceRef(verifyStructure *VerifyStructure) {
for _, v := range verifyStructure.LinkSectionModelMap {
s := v.(*section.LinkSectionModel)
buildTurnoutCommMethod(s, s.SwitchRefA, face.A)
buildTurnoutCommMethod(s, s.SwitchRefB, face.B)
}
}
func buildTurnoutCommMethod(s *section.LinkSectionModel, linkSwitch *ref.SwitchRef, p face.PortEnum) {
if linkSwitch != nil {
switchDevice := (linkSwitch.SwitchDevice).(*device.SwitchDeviceModel)
switch linkSwitch.Port {
case face.A:
switchDevice.LinkRefA = &ref.LinkRef{LinkSection: s, Port: p}
case face.B:
switchDevice.LinkRefB = &ref.LinkRef{LinkSection: s, Port: p}
case face.C:
switchDevice.LinkRefC = &ref.LinkRef{LinkSection: s, Port: p}
}
}
}
// 计轴区段
func buildAxleSectionDeviceRef(mapData *GraphicInfoMapStructure, verifyStructure *VerifyStructure) {
for _, v := range mapData.AxleSectionMap {
axleSectionModel := (verifyStructure.AxleSectionModelMap[strconv.Itoa(int(v.Index))]).(*section.AxleSectionModel)
//计轴区段A端计轴检测点
axleCountingA := mapData.AxlePointMap[v.PaRef.Id]
if axleCountingA != nil {
axlePointDeviceModelA := verifyStructure.AxlePointDeviceModelMap[strconv.Itoa(int(axleCountingA.Index))]
axleSectionModel.AxlePointA = axlePointDeviceModelA
} else {
zap.S().Warnf("id为[%s]的计轴区段的A端关联的计轴点[%s]不存在", v.Common.Id, v.PaRef.Id)
}
//计轴区段B端计轴检测点
axleCountingB := mapData.AxlePointMap[v.PbRef.Id]
if axleCountingB != nil {
axlePointDeviceModelB := verifyStructure.AxlePointDeviceModelMap[strconv.Itoa(int(axleCountingB.Index))]
axleSectionModel.AxlePointB = axlePointDeviceModelB
} else {
zap.S().Warnf("id为[%s]的计轴区段的B端关联的计轴点[%s]不存在", v.Common.Id, v.PbRef.Id)
}
//如果该计轴区段在岔区,则描述在该计轴区段中的道岔的位置
vaildMap := make(map[string]int)
for _, turnoutPosRef := range v.TurnoutPos {
turnout := mapData.TurnoutMap[turnoutPosRef.Id]
if turnout != nil {
switchDeviceModel := (verifyStructure.SwitchDeviceModelMap[strconv.Itoa(int(turnout.Index))]).(*device.SwitchDeviceModel)
positionRef := &ref.SwitchPositionRef{SwitchDevice: switchDeviceModel, Normal: turnoutPosRef.Position == 0}
// 校验道岔设备只能添加一次 todo
if vaildMap[switchDeviceModel.Index] == 0 {
vaildMap[switchDeviceModel.Index] = 1
} else {
zap.S().Warnf("id为[%s]的计轴区段经过的道岔[%s]的次数大于1", v.Common.Id, turnoutPosRef.Id)
}
axleSectionModel.ViaSwitchPositions.PushBack(positionRef)
} else {
zap.S().Warnf("id为[%s]的计轴区段经过的道岔[%s]不存在", v.Common.Id, turnoutPosRef.Id)
}
}
}
}
// 物理区段
func buildPhysicalSectionsDeviceRef(mapData *GraphicInfoMapStructure, verifyStructure *VerifyStructure) {
for id, physicalSection := range mapData.PhysicalSectionMap {
physicalSectionModel := (verifyStructure.PhysicalSectionModelMap[strconv.Itoa(int(physicalSection.Index))]).(*section.PhysicalSectionModel)
for _, axlePointId := range physicalSection.AxleCountings {
axlePoint := mapData.AxlePointMap[axlePointId]
if axlePoint != nil {
axlePointDevice := (verifyStructure.AxlePointDeviceModelMap[strconv.Itoa(int(axlePoint.Index))]).(*device.AxlePointDeviceModel)
physicalSectionModel.AxlePoints[axlePointDevice.Index] = axlePointDevice
} else {
zap.S().Warnf("id为[%s]的物理区段的关联计轴点[%s]不存在", id, axlePointId)
}
}
pl := len(physicalSectionModel.AxlePoints)
if physicalSectionModel.SwitchArea {
if pl <= 2 {
zap.S().Warnf("id为[%s]的岔区物理区段的计轴检测点数量为[%d]", id, pl)
}
} else {
if pl != 2 {
zap.S().Warnf("id为[%s]的非岔区物理区段的计轴检测点数量为[%d]", id, pl)
}
}
}
}
// 逻辑区段
func buildLogicSectionsDeviceRef(mapData *GraphicInfoMapStructure, verifyStructure *VerifyStructure) {
for id, logicSection := range mapData.LogicSectionMap {
logicalSectionModel := (verifyStructure.LogicalSectionModelMap[strconv.Itoa(int(logicSection.Index))]).(*section.LogicalSectionModel)
axleCountingSection := mapData.AxleSectionMap[logicSection.AxleSectionId]
if axleCountingSection == nil {
zap.S().Warnf("id为[%s]的逻辑区段所在的计轴区段[%s]不存在", id, logicSection.AxleSectionId)
} else {
sectionModeller := verifyStructure.AxleSectionModelMap[strconv.Itoa(int(axleCountingSection.Index))]
if sectionModeller != nil {
axleSectionModel := sectionModeller.(*section.AxleSectionModel)
logicalSectionModel.AxleSection = axleSectionModel
}
}
if logicSection.TurnoutId != "" {
turnout := mapData.TurnoutMap[logicSection.TurnoutId]
if turnout != nil {
logicalSectionModel.SwitchDevice = verifyStructure.SwitchDeviceModelMap[strconv.Itoa(int(turnout.Index))]
} else {
zap.S().Warnf("id为[%s]的逻辑区段所在的道岔[%s]不存在", id, logicSection.TurnoutId)
}
}
}
}
// 计轴检测点-从计轴点角度(非岔区物理区段和道岔)
func buildAxlePointDeviceRef(mapData *GraphicInfoMapStructure, verifyStructure *VerifyStructure) {
for id, axlePoint := range mapData.AxlePointMap {
axlePointDeviceModel := (verifyStructure.AxlePointDeviceModelMap[strconv.Itoa(int(axlePoint.Index))]).(*device.AxlePointDeviceModel)
for _, relatedRef := range axlePoint.AxleCountingRef {
switch relatedRef.DeviceType {
case graphicData.RelatedRef_Turnout:
turnout := mapData.TurnoutMap[relatedRef.Id]
if turnout == nil {
zap.S().Warnf("id为[%s]的计轴检测点关联的道岔[%s]不存在", id, relatedRef.Id)
} else {
switchDeviceModeller := verifyStructure.SwitchDeviceModelMap[strconv.Itoa(int(turnout.Index))]
if switchDeviceModeller != nil {
switchDeviceModel := switchDeviceModeller.(*device.SwitchDeviceModel)
// 道岔端口对应的计轴
switchDeviceModel.AxlePoints[relatedRef.DevicePort.String()] = axlePointDeviceModel
axlePointDeviceModel.SwitchDevices[switchDeviceModel.Index] = &ref.SwitchRef{
SwitchDevice: switchDeviceModel,
Port: face.PortEnum(relatedRef.DevicePort),
}
}
}
case graphicData.RelatedRef_Section:
s := mapData.PhysicalSectionMap[relatedRef.Id]
if s == nil {
zap.S().Warnf("id为[%s]的计轴检测点关联的物理区段[%s]不存在", id, relatedRef.Id)
} else {
physicalSectionModeller := verifyStructure.PhysicalSectionModelMap[strconv.Itoa(int(s.Index))]
physicalSectionModel := physicalSectionModeller.(*section.PhysicalSectionModel)
if physicalSectionModel.SwitchArea {
zap.S().Warnf("id为[%s]的计轴检测点proto数据关联岔区物理区段[%s]不存在", id, relatedRef.Id)
}
physicalSectionModel.PortAxlePoints[relatedRef.DevicePort.String()] = axlePointDeviceModel
switch relatedRef.DevicePort {
case graphicData.RelatedRef_A:
axlePointDeviceModel.LinePhysicalSectionA = physicalSectionModel
case graphicData.RelatedRef_B:
axlePointDeviceModel.LinePhysicalSectionB = physicalSectionModel
}
}
}
}
}
}
// 计轴检测点-从物理区段角度
func buildPhysicalAxlePointDeviceRef(verifyStructure *VerifyStructure) {
for _, v := range verifyStructure.PhysicalSectionModelMap {
physicalSection := v.(*section.PhysicalSectionModel)
for _, a := range physicalSection.AxlePoints {
axlePointDeviceModel := a.(*device.AxlePointDeviceModel)
axlePointDeviceModel.AreaPhysicalSections[physicalSection.Index] = physicalSection
}
}
}
// 将linkPosition转换为计算对象
func convertPositionToCalcPosition(link *device.LinkModel) []*calcLinkPositionStruct {
result := []*calcLinkPositionStruct{}

View File

@ -32,3 +32,9 @@ func GetAllPhysicalSectionState(simulation *VerifySimulation) []*state.SectionSt
})
return sectionArr
}
// 获取地图全部的物理区段状态
func GetMapAllPhysicalSectionState(simulation *VerifySimulation, mid string) []*state.SectionState {
var sectionArr []*state.SectionState
return sectionArr
}

View File

@ -131,6 +131,12 @@ func GetAllTrainState(vs *VerifySimulation) []*state.TrainState {
return trainArr
}
// 获取地图内的列车信息
func GetMapAllTrainState(vs *VerifySimulation, mid string) []*state.TrainState {
var trainArr []*state.TrainState
return trainArr
}
// 获取变更列车状态并清空
func GetUpdatedTrainState(vs *VerifySimulation) []*state.TrainState {
changeTrainMap := &vs.Memory.ChangeStatus.TrainStateMap

View File

@ -36,6 +36,12 @@ func GetAllTurnoutState(simulation *VerifySimulation) []*state.SwitchState {
return switchArr
}
// 获取仿真地图的道岔状态
func GetMapAllTurnoutState(simulation *VerifySimulation, mid string) []*state.SwitchState {
var switchArr []*state.SwitchState
return switchArr
}
// 获取增量道岔状态
func GetChangeTurnoutState(simulation *VerifySimulation) []*state.SwitchState {
changeSwitchMap := &simulation.Memory.ChangeStatus.SwitchStateMap

View File

@ -2,14 +2,17 @@ package memory
import (
"fmt"
"joylink.club/bj-rtsts-server/ats/verify/protos/graphicData"
"joylink.club/bj-rtsts-server/ats/verify/protos/state"
"joylink.club/rtsssimulation/repository"
"joylink.club/rtsssimulation/repository/model/proto"
"joylink.club/rtsssimulation/simulation"
"sort"
"strconv"
"strings"
"joylink.club/bj-rtsts-server/ats/verify/protos/graphicData"
"joylink.club/bj-rtsts-server/ats/verify/protos/state"
"joylink.club/bj-rtsts-server/dto"
"joylink.club/ecs"
"joylink.club/rtsssimulation/repository"
"joylink.club/rtsssimulation/repository/model/proto"
"joylink.club/rtsssimulation/simulation"
)
// 轨旁仿真定义
@ -43,10 +46,16 @@ func CreateSimulation(projectId int32, mapIds []int32) (*VerifySimulation, error
repo := repository.FindRepository(repoId, repoVersion)
if repo == nil {
var storages []*graphicData.RtssGraphicStorage
var rmapIds []int32
for _, mapId := range mapIds {
storages = append(storages, QueryGraphicStorage(mapId))
storage := QueryGraphicStorage(mapId)
if storage == nil {
continue
}
storages = append(storages, storage)
rmapIds = append(rmapIds, mapId)
}
protoRepo := buildProtoRepository(storages)
protoRepo := buildProtoRepository(storages, rmapIds)
newRepo, err := repository.BuildRepository(protoRepo)
repo = newRepo
if err != nil {
@ -63,19 +72,6 @@ func CreateSimulation(projectId int32, mapIds []int32) (*VerifySimulation, error
WorldId: worldId,
}
return verifySimulation, nil
//m := &WaysideMemory{}
//verifySimulation := &VerifySimulation{
// MapIds: mapIds,
// ProjectId: projectId,
// Memory: m.Create(),
//}
//s := verifySimulation.Memory.Status
//// 初始化构地图设备状态
//for _, mapId := range mapIds {
// InitFromMap(s, QueryMapVerifyStructure(mapId))
//}
//return verifySimulation
}
// 获取全量状态
@ -90,27 +86,36 @@ func (s *VerifySimulation) GetAllState() *state.PushedDevicesStatus {
}
}
// 获取变量状态
func (s *VerifySimulation) GetChangeState() *state.PushedDevicesStatus {
// 获取仿真地图数据
func (s *VerifySimulation) GetMapAllState(mid string) *state.PushedDevicesStatus {
return &state.PushedDevicesStatus{
All: false,
VarStatus: &state.VariationStatus{
UpdatedSwitch: GetChangeTurnoutState(s),
RemovedTrainId: GetRemovedTrainId(s),
UpdatedTrain: GetUpdatedTrainState(s),
All: true,
AllStatus: &state.AllDevicesStatus{
SwitchState: GetMapAllTurnoutState(s, mid),
TrainState: GetMapAllTrainState(s, mid),
SectionState: GetMapAllPhysicalSectionState(s, mid),
},
}
}
func buildProtoRepository(storages []*graphicData.RtssGraphicStorage) *proto.Repository {
// 获取仿真世界信息
func (s *VerifySimulation) GetSimulationWorld() {
ecsSimulation := simulation.FindSimulation(ecs.WorldId(s.WorldId))
if ecsSimulation == nil {
panic(&dto.ErrorDto{Code: dto.DataNotExist, Message: "ecs 仿真不存在"})
}
//return ecsSimulation.getWorld()
}
func buildProtoRepository(storages []*graphicData.RtssGraphicStorage, mapIds []int32) *proto.Repository {
repo := &proto.Repository{}
for _, storage := range storages {
fillProtoRepository(repo, storage)
for i, storage := range storages {
fillProtoRepository(repo, storage, mapIds[i])
}
return repo
}
func fillProtoRepository(repo *proto.Repository, storage *graphicData.RtssGraphicStorage) {
func fillProtoRepository(repo *proto.Repository, storage *graphicData.RtssGraphicStorage, mapId int32) {
axleCountingMap := make(map[string]*graphicData.AxleCounting)
for _, data := range storage.AxleCountings {
if data.KilometerSystem == nil {
@ -119,11 +124,11 @@ func fillProtoRepository(repo *proto.Repository, storage *graphicData.RtssGraphi
}
axleCountingMap[data.Common.Id] = data
cpType := proto.CheckPointType_AxleCounter
if data.Invent {
if data.Type == graphicData.AxleCounting_SectionBoundary {
cpType = proto.CheckPointType_Boundary
}
cp := &proto.CheckPoint{
Id: data.Common.Id,
Id: GetDeviceUidByCommonId(mapId, data.Common.Id, data),
Km: convertKm(data.KilometerSystem),
Type: cpType,
DevicePorts: convertDevicePorts(data.AxleCountingRef),
@ -136,7 +141,7 @@ func fillProtoRepository(repo *proto.Repository, storage *graphicData.RtssGraphi
turnoutIds = findTurnoutIds(axleCountingMap, data.AxleCountings)
}
physicalSection := &proto.PhysicalSection{
Id: data.Common.Id,
Id: GetDeviceUidByCommonId(mapId, data.Common.Id, data),
ADevicePort: convertDevicePort(data.PaRef),
BDevicePort: convertDevicePort(data.PbRef),
TurnoutIds: turnoutIds,
@ -151,11 +156,9 @@ func fillProtoRepository(repo *proto.Repository, storage *graphicData.RtssGraphi
break
}
}
for _, kc := range buildKmConverts(data.KilometerSystem) {
repo.KilometerConverts = append(repo.KilometerConverts, kc)
}
repo.KilometerConverts = append(repo.KilometerConverts, buildKmConverts(data.KilometerSystem)...)
turnout := &proto.Turnout{
Id: data.Common.Id,
Id: GetDeviceUidByCommonId(mapId, data.Common.Id, data),
Km: km,
ADevicePort: convertDevicePort(data.PaRef),
BDevicePort: convertDevicePort(data.PbRef),
@ -173,7 +176,7 @@ func fillProtoRepository(repo *proto.Repository, storage *graphicData.RtssGraphi
turnoutPort = convertDevicePort(data.RefDev)
}
signal := &proto.Signal{
Id: data.Common.Id,
Id: GetDeviceUidByCommonId(mapId, data.Common.Id, data),
Km: convertKm(data.KilometerSystem),
SectionId: sectionId,
TurnoutPort: turnoutPort,
@ -190,7 +193,7 @@ func fillProtoRepository(repo *proto.Repository, storage *graphicData.RtssGraphi
turnoutPort = convertDevicePort(data.TransponderRef)
}
responder := &proto.Transponder{
Id: data.Common.Id,
Id: GetDeviceUidByCommonId(mapId, data.Common.Id, data),
Km: convertKm(data.KilometerSystem),
SectionId: sectionId,
TurnoutPort: turnoutPort,
@ -200,16 +203,12 @@ func fillProtoRepository(repo *proto.Repository, storage *graphicData.RtssGraphi
slopeKsMap := make(map[string]*graphicData.SlopeKiloMarker)
for _, data := range storage.SlopeKiloMarker {
slopeKsMap[data.Common.Id] = data
for _, kc := range buildKmConverts(data.KilometerSystem) {
repo.KilometerConverts = append(repo.KilometerConverts, kc)
}
repo.KilometerConverts = append(repo.KilometerConverts, buildKmConverts(data.KilometerSystem)...)
}
curveKsMap := make(map[string]*graphicData.CurvatureKiloMarker)
for _, data := range storage.CurvatureKiloMarker {
curveKsMap[data.Common.Id] = data
for _, kc := range buildKmConverts(data.KilometerSystem) {
repo.KilometerConverts = append(repo.KilometerConverts, kc)
}
repo.KilometerConverts = append(repo.KilometerConverts, buildKmConverts(data.KilometerSystem)...)
}
for _, data := range storage.Slopes {
var kms []*proto.Kilometer
@ -217,7 +216,7 @@ func fillProtoRepository(repo *proto.Repository, storage *graphicData.RtssGraphi
kms = append(kms, convertKm(slopeKsMap[id].KilometerSystem[0]))
}
slope := &proto.Slope{
Id: data.Common.Id,
Id: GetDeviceUidByCommonId(mapId, data.Common.Id, data),
Kms: kms,
Degree: data.SlopeNumber,
}
@ -229,7 +228,7 @@ func fillProtoRepository(repo *proto.Repository, storage *graphicData.RtssGraphi
kms = append(kms, convertKm(curveKsMap[id].KilometerSystem[0]))
}
slope := &proto.SectionalCurvature{
Id: data.Common.Id,
Id: GetDeviceUidByCommonId(mapId, data.Common.Id, data),
Kms: kms,
Radius: data.CurvatureNumber,
}
@ -309,7 +308,7 @@ func findTurnoutIds(axleCountingMap map[string]*graphicData.AxleCounting, axleId
}
}
var turnoutIds []string
for id, _ := range turnoutMap {
for id := range turnoutMap {
turnoutIds = append(turnoutIds, id)
}
return turnoutIds

View File

@ -51,7 +51,6 @@ func RegisterMsgServer(server IMsgServer) {
if r := recover(); r != nil {
zap.S().Debug("定时器发生错误,%v\n", r)
}
// ticker.Stop() // 意外退出时关闭定时器
}()
// 循环推送信息
for {
@ -74,17 +73,6 @@ func RegisterMsgServer(server IMsgServer) {
}
}
// 用户初次进入系统后执行消息发送(这里可以使用对个人消息发送,但目前命名空间没有调试通)
// 这个有问题暂时注释掉
//func Subscription() {
// for key, server := range serverMap {
// data := (*server).allMsgData()
// if data != nil && len(data) > 0 {
// PublishMsg(key, data)
// }
// }
//}
// 注销消息服务
func UnRegisterMsgServer(key string) {
channel := serverExitChannelMap[key]

View File

@ -0,0 +1,70 @@
package apiproto
import (
"strconv"
"strings"
"time"
"google.golang.org/protobuf/proto"
"joylink.club/bj-rtsts-server/ats/verify/simulation"
"joylink.club/bj-rtsts-server/dto"
)
type SimulationMapServer struct{}
// 返回通道格式
func (t *SimulationMapServer) getChannelName() string {
return "simulation-{sid}_{mid}-devices-status"
}
// 消息运行间隔
func (t *SimulationMapServer) getInterval() time.Duration {
return 200 * time.Millisecond
}
// 返回所有数据
func (t *SimulationMapServer) allMsgData(params map[string]string) []byte {
simId := params["SID"]
if simId == "" {
return nil
}
mId := params["MID"]
if mId == "" {
return nil
}
simulation := simulation.FindSimulation(simId)
if simulation == nil {
return nil
}
data, err := proto.Marshal(simulation.GetMapAllState(mId))
if err != nil {
panic(dto.ErrorDto{Code: dto.DataOperationError, Message: err.Error()})
}
return data
}
// 定时发送数据
func (t *SimulationMapServer) onTick() []TopicMsg {
simArr := simulation.GetSimulationArr()
var msgArr []TopicMsg
for _, v := range simArr {
for _, mapId := range v.MapIds {
idStr := strconv.Itoa(int(mapId))
channelName := handlerMapIdChannelName(v.SimulationId, idStr, t.getChannelName())
b, err := proto.Marshal(v.GetMapAllState(idStr))
if err != nil {
panic(dto.ErrorDto{Code: dto.DataOperationError, Message: err.Error()})
}
msgArr = append(msgArr, TopicMsg{channalName: channelName, data: b})
}
}
return msgArr
}
// 处理订阅通道名称
func handlerMapIdChannelName(sid, mapId string, format string) string {
var channelName string
channelName = strings.Replace(format, "{sid}", sid, 1)
channelName = strings.Replace(channelName, "{mid}", mapId, 1)
return channelName
}