rts-sim-module/repository/physical_section.go

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package repository
import (
"errors"
"fmt"
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"joylink.club/rtsssimulation/repository/model/proto"
)
// 物理区段
type PhysicalSection struct {
Identity
len int32 //长度 mm
checkPoints []*CheckPoint //将此区段分隔出来的所有(非区段边界)检测点
// A/B端关联的设备端口非道岔物理区段/道岔)
aRelation DevicePort
bRelation DevicePort
// 非道岔物理区段A/B端的公里标
aKm *proto.Kilometer
bKm *proto.Kilometer
turnouts []*Turnout //道岔物理区段关联的道岔
// 关联的设备(目前有信号机、应答器、(非区段边界)检测点)
devices []Identity
//aKm/bKm对应的LinkPosition
aLinkPosition *LinkPosition
bLinkPosition *LinkPosition
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//在Link上的区间根据aKm和bKm计算出的start的offset一定小于end的offset
startLinkPosition *LinkPosition
endLinkPosition *LinkPosition
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//物理区段所属集中站
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centralizedStation string
}
func NewPhysicalSection(id string) *PhysicalSection {
return &PhysicalSection{
Identity: identity{id, proto.DeviceType_DeviceType_PhysicalSection},
}
}
func (s *PhysicalSection) PortNum() int {
return 2
}
func (s *PhysicalSection) ALinkPosition() *LinkPosition {
return s.aLinkPosition
}
func (s *PhysicalSection) BLinkPosition() *LinkPosition {
return s.bLinkPosition
}
func (s *PhysicalSection) StartLinkPosition() *LinkPosition {
return s.startLinkPosition
}
func (s *PhysicalSection) EndLinkPosition() *LinkPosition {
return s.endLinkPosition
}
func (s *PhysicalSection) ARelation() DevicePort {
return s.aRelation
}
func (s *PhysicalSection) BRelation() DevicePort {
return s.bRelation
}
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func (s *PhysicalSection) AKilometer() *proto.Kilometer {
return s.aKm
}
func (s *PhysicalSection) BKilometer() *proto.Kilometer {
return s.bKm
}
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// IsAxleSection 判断是否为计轴区段
func (s *PhysicalSection) IsAxleSection() (bool, error) {
if len(s.checkPoints) > 0 {
axleCount := 0
for _, cp := range s.checkPoints {
if cp.pointType == proto.CheckPointType_AxleCounter {
axleCount++
}
}
if axleCount == len(s.checkPoints) {
return true, nil
} else if axleCount == 0 {
return false, nil
} else { //axleCount>0&&axleCount<len(s.checkPoints)
return false, fmt.Errorf("物理区段中检测点不纯")
}
} else {
return false, fmt.Errorf("物理区段没有检测点")
}
}
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func (s *PhysicalSection) CentralizedStation() string {
return s.centralizedStation
}
func (s *PhysicalSection) bindDevicePort(port proto.Port, devicePort DevicePort) error {
_, isSectionPort := devicePort.(*PhysicalSectionPort)
_, isTurnoutPort := devicePort.(*TurnoutPort)
if !isSectionPort && !isTurnoutPort {
return errors.New(fmt.Sprintf("物理区段不能与[%s]类型的设备端口关联", devicePort.Device().Type()))
}
switch port {
case proto.Port_A:
s.aRelation = devicePort
case proto.Port_B:
s.bRelation = devicePort
default:
return errors.New(fmt.Sprintf("物理区段无端口[%s]", port))
}
return nil
}
// 绑定区段边界公里标。(仅限非道岔物理区段调用)
func (s *PhysicalSection) bindBoundaryKm(km *proto.Kilometer, port proto.Port) error {
switch port {
case proto.Port_A:
s.aKm = km
case proto.Port_B:
s.bKm = km
default:
return errors.New(fmt.Sprintf("区段无端口[%s]", port))
}
return nil
}
// 道岔物理区段绑定道岔
func (s *PhysicalSection) bindTurnouts(turnouts ...*Turnout) {
for _, turnout := range turnouts {
s.turnouts = append(s.turnouts, turnout)
for _, cp := range turnout.checkPoints() {
s.bindDevices(cp)
}
}
}
func (s *PhysicalSection) bindDevices(devices ...Identity) {
for _, device := range devices {
s.devices = append(s.devices, device)
cp, ok := device.(*CheckPoint)
if ok {
s.checkPoints = append(s.checkPoints, cp)
}
}
}
func (s *PhysicalSection) findOtherDevicePort(port proto.Port) DevicePort {
switch port {
case proto.Port_A:
return s.bRelation
case proto.Port_B:
return s.aRelation
}
return nil
}
func (s *PhysicalSection) findOtherBoundaryKmByPort(port proto.Port) *proto.Kilometer {
switch port {
case proto.Port_A:
return s.bKm
case proto.Port_B:
return s.aKm
}
return nil
}
func (s *PhysicalSection) findBoundaryKmByPort(port proto.Port) *proto.Kilometer {
switch port {
case proto.Port_A:
return s.aKm
case proto.Port_B:
return s.bKm
}
return nil
}
type PhysicalSectionPort struct {
section *PhysicalSection
port proto.Port
}
func (p *PhysicalSectionPort) Port() proto.Port {
return p.port
}
func (p *PhysicalSectionPort) Device() PortedDevice {
return p.section
}