package repository import "joylink.club/rtsssimulation/repository/model/proto" //电力监控系统车站一次图中相关设备模型 // Pipe 管线模型 type Pipe struct { Identity Code string PipeType proto.Pipe_Type PortA DevicePort //管线的A端连接的设备 PortB DevicePort //管线的B端连接的设备 } func NewPipe(id string, code string, pipeType proto.Pipe_Type) *Pipe { return &Pipe{Identity: &identity{id: id, deviceType: proto.DeviceType_DeviceType_Pipe}, Code: code, PipeType: pipeType} } func (p *Pipe) PortNum() int { return 2 } // PipePort 管线端口 // // implement DevicePort type PipePort struct { port proto.Port pipe *Pipe } func (p *PipePort) Port() proto.Port { return p.port } func (p *PipePort) Device() PortedDevice { return p.pipe } /////////////////////////////////////////////////// // PipeFitting 管件模型 type PipeFitting struct { Identity Code string portsSum int8 //管件端口数 PortA *PipePort //管件A端口连接的管线 PortB *PipePort //管件B端口连接的管线 PortC *PipePort //管件C端口连接的管线 PortD *PipePort //管件D端口连接的管线 } func NewPipeFitting(id string, code string, portsSum int8) *PipeFitting { return &PipeFitting{ Identity: &identity{id: id, deviceType: proto.DeviceType_DeviceType_PipeFitting}, Code: code, portsSum: portsSum, } } func (p *PipeFitting) PortNum() int { return int(p.portsSum) } func (p *PipeFitting) Ports() []*PipePort { var ports []*PipePort if p.PortA != nil { ports = append(ports, p.PortA) } if p.PortB != nil { ports = append(ports, p.PortB) } if p.PortC != nil { ports = append(ports, p.PortC) } if p.PortD != nil { ports = append(ports, p.PortD) } return ports } // IsEle true-管件为电力管件 func (p *PipeFitting) IsEle() bool { for _, port := range p.Ports() { if port.pipe.PipeType != proto.Pipe_ElectricPower { return false } } return true } // PipeFittingPort 管件端口 // // implement DevicePort type PipeFittingPort struct { port proto.Port pipeFitting *PipeFitting } func (p *PipeFittingPort) Port() proto.Port { return p.port } func (p *PipeFittingPort) Device() PortedDevice { return p.pipeFitting } ///////////////////////////////////////////////////////////////////////////// // CircuitBreaker 断路器模型 type CircuitBreaker struct { Identity Code string PortA *PipePort //断路器A端口连接的管线 PortB *PipePort //断路器B端口连接的管线 } func NewCircuitBreaker(id string, code string) *CircuitBreaker { return &CircuitBreaker{ Identity: &identity{id: id, deviceType: proto.DeviceType_DeviceType_CircuitBreaker}, Code: code, } } func (p *CircuitBreaker) PortNum() int { return 2 } // CircuitBreakerPort 断路器端口 // // implement DevicePort type CircuitBreakerPort struct { port proto.Port breaker *CircuitBreaker } func (p *CircuitBreakerPort) Port() proto.Port { return p.port } func (p *CircuitBreakerPort) Device() PortedDevice { return p.breaker } ////////////////////////////////////////////////////////// // ThreePositionSwitch 三工位开关模型 // 有三个连接端口,公共连接点A,隔离开关连接点B,接地开关连接点C type ThreePositionSwitch struct { Identity Code string PortA *PipePort //三工位开关A端口连接的管线 PortB *PipePort //三工位开关B端口连接的管线 PortC *PipePort //三工位开关C端口连接的管线 } func NewThreePositionSwitch(id string, code string) *ThreePositionSwitch { return &ThreePositionSwitch{ Identity: &identity{id: id, deviceType: proto.DeviceType_DeviceType_ThreePositionSwitch}, Code: code, } } func (p *ThreePositionSwitch) PortNum() int { return 3 } // ThreePositionSwitchPort 三工位开关端口 // // implement DevicePort type ThreePositionSwitchPort struct { port proto.Port breaker *ThreePositionSwitch } func (p *ThreePositionSwitchPort) Port() proto.Port { return p.port } func (p *ThreePositionSwitchPort) Device() PortedDevice { return p.breaker } //////////////////////////////////////////////////////// // HandcartSwitch 手车模型 type HandcartSwitch struct { Identity Code string PortA *PipePort //手车A端口连接的管线 PortB *PipePort //手车B端口连接的管线 } func NewHandcartSwitch(id string, code string) *HandcartSwitch { return &HandcartSwitch{ Identity: &identity{id: id, deviceType: proto.DeviceType_DeviceType_HandcartSwitch}, Code: code, } } func (p *HandcartSwitch) PortNum() int { return 2 } // HandcartSwitchPort 手车端口 // // implement DevicePort type HandcartSwitchPort struct { port proto.Port breaker *HandcartSwitch } func (p *HandcartSwitchPort) Port() proto.Port { return p.port } func (p *HandcartSwitchPort) Device() PortedDevice { return p.breaker } //////////////////////////////////////////// // Rectifier 整流器模型 // // PSCADA中整流器有两个交流输入端分别为A(火线L)和B(零线N);直流输出端口有两个分别为直流正极端口C(+正极)和直流负极端口D(-负极) type Rectifier struct { Identity Code string PortA *PipePort //整流器A端口连接的管线,交流L(火线) PortB *PipePort //整流器B端口连接的管线,交流N(零线) PortC *PipePort //整流器C端口连接的管线,直流+ PortD *PipePort //整流器D端口连接的管线,直流- } func NewRectifier(id string, code string) *Rectifier { return &Rectifier{ Identity: &identity{id: id, deviceType: proto.DeviceType_DeviceType_Rectifier}, Code: code, } } func (p *Rectifier) PortNum() int { return 4 } // RectifierPort 整流器端口 // // implement DevicePort type RectifierPort struct { port proto.Port rectifier *Rectifier } func (p *RectifierPort) Port() proto.Port { return p.port } func (p *RectifierPort) Device() PortedDevice { return p.rectifier } /////////////////////////////////////////////////////// // Disconnector 隔离开关模型 type Disconnector struct { Identity Code string PortA *PipePort //隔离开关A端口连接的管线 PortB *PipePort //隔离开关B端口连接的管线 } func NewDisconnector(id string, code string) *Disconnector { return &Disconnector{ Identity: &identity{id: id, deviceType: proto.DeviceType_DeviceType_Disconnector}, Code: code, } } func (p *Disconnector) PortNum() int { return 2 } // DisconnectorPort 隔离开关端口 // // implement DevicePort type DisconnectorPort struct { port proto.Port breaker *Disconnector } func (p *DisconnectorPort) Port() proto.Port { return p.port } func (p *DisconnectorPort) Device() PortedDevice { return p.breaker } ////////////////////////////////////////////////////// // VoltageTransformer 变压器模型 // 一次侧端口A,二次侧端口B为L火线端口,二次侧端口C如果存在则为N零线端口 // 通过标定电动势计算变压比 type VoltageTransformer struct { Identity Code string E1 uint32 //一次侧标定电动势,单位V E2 uint32 //二次侧标定电动势,单位V PortA *PipePort //变压器A端口连接的管线 PortB *PipePort //变压器B端口连接的管线 PortC *PipePort //变压器C端口连接的管线 } func NewVoltageTransformer(id string, code string, e1 uint32, e2 uint32) *VoltageTransformer { return &VoltageTransformer{ Identity: &identity{id: id, deviceType: proto.DeviceType_DeviceType_VoltageTransformer}, Code: code, E1: e1, E2: e2, } } func (p *VoltageTransformer) PortNum() int { if p.PortC == nil { return 2 } else { return 3 } } // VoltageTransformerPort 变压器端口 // // implement DevicePort type VoltageTransformerPort struct { port proto.Port vt *VoltageTransformer } func (p *VoltageTransformerPort) Port() proto.Port { return p.port } func (p *VoltageTransformerPort) Device() PortedDevice { return p.vt } ////////////////////////////////////////////////////////// // PowerSource 电源模型 // 只有一个输出端口A type PowerSource struct { Identity Code string PortA *PipePort //电源A端口连接的管线 Ac bool //true-交流;false-直流 Voltage uint32 //电压,单位V } func NewPowerSource(id string, code string, ac bool, voltage uint32) *PowerSource { return &PowerSource{ Identity: &identity{id: id, deviceType: proto.DeviceType_DeviceType_PowerSource}, Code: code, Ac: ac, Voltage: voltage, } } func (p *PowerSource) PortNum() int { return 1 } // PowerSourcePort 电源端口 // // implement DevicePort type PowerSourcePort struct { ps *PowerSource } func (p *PowerSourcePort) Port() proto.Port { return proto.Port_A } func (p *PowerSourcePort) Device() PortedDevice { return p.ps } /////////////////////////////////////////// // LightningArrester 避雷器模型 type LightningArrester struct { Identity Code string PortA *PipePort //电流从A端口进入 PortB *PipePort //电流从B端口流出然后进入大地 } func NewLightningArrester(id string, code string) *LightningArrester { return &LightningArrester{ Identity: &identity{id: id, deviceType: proto.DeviceType_DeviceType_LightningArrester}, Code: code, } } func (p *LightningArrester) PortNum() int { return 2 } // LightningArresterPort 避雷器端口 // // implement DevicePort type LightningArresterPort struct { port proto.Port arrester *LightningArrester } func (p *LightningArresterPort) Port() proto.Port { return p.port } func (p *LightningArresterPort) Device() PortedDevice { return p.arrester } ///////////////////////////////////////////////// // EarthingDevice 接地装置 type EarthingDevice struct { Identity Code string PortA *PipePort //接地输入端口 } func NewEarthingDevice(id string, code string) *EarthingDevice { return &EarthingDevice{ Identity: &identity{id: id, deviceType: proto.DeviceType_DeviceType_EarthingDevice}, Code: code, } } func (p *EarthingDevice) PortNum() int { return 1 } // EarthingDevicePort 避雷器端口 // // implement DevicePort type EarthingDevicePort struct { ed *EarthingDevice } func (p *EarthingDevicePort) Port() proto.Port { return proto.Port_A } func (p *EarthingDevicePort) Device() PortedDevice { return p.ed }