package repository import ( "joylink.club/rtsssimulation/repository/model/proto" ) type Link struct { Identity length int64 aRelation *TurnoutPort bRelation *TurnoutPort //组成Link的物理区段(按在link上偏移量从小到大排列) physicalSections []*PhysicalSection aKm *proto.Kilometer bKm *proto.Kilometer //Link上的模型((非区段边界)检测点、应答器、信号机) devices []Identity ////Link关联的模型,包含LinkNode //devicePositions []*DeviceLinkPosition } var _ Identity = &Link{} func NewLink(id string) *Link { return &Link{ Identity: identity{id, proto.DeviceType_DeviceType_Link}, } } func (l *Link) Length() int64 { return l.length } func (l *Link) ARelation() *TurnoutPort { return l.aRelation } func (l *Link) BRelation() *TurnoutPort { return l.bRelation } func (l *Link) Devices() []Identity { return l.devices } func (l *Link) PortNum() int { return 2 } func (l *Link) PhysicalSections() []*PhysicalSection { return l.physicalSections } func (l *Link) bindTurnoutPort(port proto.Port, turnoutPort *TurnoutPort) { switch port { case proto.Port_A: l.aRelation = turnoutPort case proto.Port_B: l.bRelation = turnoutPort } l.bindKm(turnoutPort.turnout.km, port) } func (l *Link) bindPhysicalSections(section *PhysicalSection) { l.physicalSections = append(l.physicalSections, section) } func (l *Link) bindKm(km *proto.Kilometer, port proto.Port) { switch port { case proto.Port_A: l.aKm = km case proto.Port_B: l.bKm = km } } func (l *Link) bindDevices(devices ...Identity) { for _, device := range devices { l.devices = append(l.devices, device) } } func (l *Link) findEndKm() *proto.Kilometer { if l.aRelation == nil { return l.aKm } else if l.bRelation == nil { return l.bKm } return nil } // 查找Link轨道尽头端的偏移量 // 如果该link未连接轨道尽头,返回false func (l *Link) findEndOffset() (int64, bool) { if l.aRelation == nil { return 0, true } if l.bRelation == nil { return l.length, true } return 0, false } // LinkPosition link位置 type LinkPosition struct { link *Link offset int64 } func (l *LinkPosition) Link() *Link { return l.link } func (l *LinkPosition) Offset() int64 { return l.offset } // link端口 type LinkPort struct { link *Link port proto.Port } func NewLinkPort(link *Link, port proto.Port) LinkPort { return LinkPort{ link: link, port: port, } } func (l *LinkPort) Port() proto.Port { return l.port } func (l *LinkPort) Device() PortedDevice { return l.link } //// DeviceLinkPosition device在link上的位置 //type DeviceLinkPosition struct { // device Identity // position LinkPosition //} // //// SlopeLinkSegment Slope在Link上的区间 //type SlopeLinkSegment struct { // slope *Slope // start *LinkPosition // end *LinkPosition //} // //func (s *SlopeLinkSegment) Slope() *Slope { // return s.slope //} // //func (s *SlopeLinkSegment) Start() *LinkPosition { // return s.start //} // //func (s *SlopeLinkSegment) End() *LinkPosition { // return s.end //} // //type SectionalCurvatureLinkSegment struct { // sectionalCurvature *SectionalCurvature // start *LinkPosition // end *LinkPosition //} // //// LinkNode link节点 //type LinkNode struct { // Identity // turnout *Turnout // aRelation LinkPort // bRelation LinkPort // cRelation LinkPort //} // //func (ln LinkNode) ButtonCode() string { // return ln.turnout.ButtonCode() //} // //func (ln LinkNode) PortNum() int { // return 3 //} // //func (ln LinkNode) bindDevicePort(port proto.Port, devicePort DevicePort) error { // linkPort, isLinkPort := devicePort.(*LinkPort) // if !isLinkPort { // return errors.New(fmt.Sprintf("Link节点不能与[%s]类型的设备关联", devicePort.Device().Type())) // } // switch port { // case proto.Port_A: // ln.aRelation = *linkPort // case proto.Port_B: // ln.bRelation = *linkPort // case proto.Port_C: // ln.cRelation = *linkPort // default: // return errors.New(fmt.Sprintf("Link节点没有端口[%s]", port)) // } // return nil //} // //type LinkNodePort struct { // node *LinkNode // port proto.Port //} // //func NewLinkNodePort(node *LinkNode, port proto.Port) *LinkNodePort { // return &LinkNodePort{ // node: node, // port: port, // } //} // //func (lp *LinkNodePort) Port() proto.Port { // return lp.port //} // //func (lp *LinkNodePort) Device() PortedDevice { // return lp.node //}