209 lines
6.1 KiB
Go
209 lines
6.1 KiB
Go
package repository
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import (
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"errors"
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"fmt"
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"joylink.club/rtsssimulation/repository/model/proto"
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)
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type Repository struct {
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id string
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version string
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physicalSectionMap map[string]*PhysicalSection
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checkPointMap map[string]*CheckPoint
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turnoutMap map[string]*Turnout
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signalMap map[string]*Signal
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responderMap map[string]*Transponder
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slopeMap map[string]*Slope
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sectionalCurvatureMap map[string]*SectionalCurvature
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kilometerConvertMap map[string]*proto.KilometerConvert
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relayMap map[string]*Relay
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phaseFailureProtectorMap map[string]*PhaseFailureProtector
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linkMap map[string]*Link
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}
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func newRepository(id string, version string) *Repository {
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return &Repository{
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id: id,
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version: version,
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physicalSectionMap: make(map[string]*PhysicalSection),
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checkPointMap: make(map[string]*CheckPoint),
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turnoutMap: make(map[string]*Turnout),
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signalMap: make(map[string]*Signal),
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responderMap: make(map[string]*Transponder),
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slopeMap: make(map[string]*Slope),
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sectionalCurvatureMap: make(map[string]*SectionalCurvature),
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kilometerConvertMap: make(map[string]*proto.KilometerConvert),
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relayMap: make(map[string]*Relay),
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phaseFailureProtectorMap: make(map[string]*PhaseFailureProtector),
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linkMap: make(map[string]*Link),
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}
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}
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// FindById 根据模型的复合id获取模型数据
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func (repo *Repository) FindById(id string) Identity {
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if md, ok := repo.turnoutMap[id]; ok {
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return md
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}
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if md, ok := repo.signalMap[id]; ok {
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return md
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}
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if md, ok := repo.relayMap[id]; ok {
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return md
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}
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return nil
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}
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func (repo *Repository) PhysicalSectionList() []*PhysicalSection {
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var list []*PhysicalSection
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for _, model := range repo.physicalSectionMap {
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list = append(list, model)
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}
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return list
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}
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func (repo *Repository) CheckPointList() []*CheckPoint {
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var list []*CheckPoint
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for _, model := range repo.checkPointMap {
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list = append(list, model)
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}
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return list
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}
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func (repo *Repository) TurnoutList() []*Turnout {
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var list []*Turnout
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for _, model := range repo.turnoutMap {
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list = append(list, model)
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}
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return list
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}
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func (repo *Repository) SignalList() []*Signal {
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var list []*Signal
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for _, model := range repo.signalMap {
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list = append(list, model)
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}
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return list
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}
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func (repo *Repository) ResponderList() []*Transponder {
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var list []*Transponder
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for _, model := range repo.responderMap {
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list = append(list, model)
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}
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return list
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}
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func (repo *Repository) SlopeList() []*Slope {
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var list []*Slope
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for _, model := range repo.slopeMap {
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list = append(list, model)
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}
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return list
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}
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func (repo *Repository) SectionalCurvatureList() []*SectionalCurvature {
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var list []*SectionalCurvature
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for _, model := range repo.sectionalCurvatureMap {
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list = append(list, model)
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}
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return list
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}
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func (repo *Repository) LinkList() []*Link {
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var list []*Link
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for _, model := range repo.linkMap {
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list = append(list, model)
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}
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return list
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}
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func (repo *Repository) KilometerConvertList() []*proto.KilometerConvert {
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var list []*proto.KilometerConvert
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for _, model := range repo.kilometerConvertMap {
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list = append(list, model)
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}
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return list
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}
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func (repo *Repository) RelayList() []*Relay {
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var list []*Relay
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for _, model := range repo.relayMap {
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list = append(list, model)
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}
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return list
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}
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func (repo *Repository) FindModel(deviceId string, deviceType proto.DeviceType) (Identity, error) {
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switch deviceType {
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case proto.DeviceType_DeviceType_PhysicalSection:
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return repo.physicalSectionMap[deviceId], nil
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case proto.DeviceType_DeviceType_CheckPoint:
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return repo.checkPointMap[deviceId], nil
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case proto.DeviceType_DeviceType_Turnout:
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return repo.turnoutMap[deviceId], nil
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case proto.DeviceType_DeviceType_Signal:
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return repo.signalMap[deviceId], nil
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case proto.DeviceType_DeviceType_Transponder:
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return repo.responderMap[deviceId], nil
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case proto.DeviceType_DeviceType_Slope:
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return repo.slopeMap[deviceId], nil
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case proto.DeviceType_DeviceType_SectionalCurvature:
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return repo.sectionalCurvatureMap[deviceId], nil
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case proto.DeviceType_DeviceType_Link:
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return repo.linkMap[deviceId], nil
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default:
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return nil, errors.New(fmt.Sprintf("仓库中不存在[%s]类型的模型", deviceType))
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}
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}
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func (repo *Repository) FindLink(id string) *Link {
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return repo.linkMap[id]
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}
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func (repo *Repository) FindTurnout(id string) *Turnout {
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return repo.turnoutMap[id]
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}
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func (repo *Repository) FindPhysicalSection(id string) *PhysicalSection {
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return repo.physicalSectionMap[id]
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}
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func (repo *Repository) AddPhysicalSection(section *PhysicalSection) {
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repo.physicalSectionMap[section.Id()] = section
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}
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func (repo *Repository) ConvertKilometer(km *proto.Kilometer, cs string) *proto.Kilometer {
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if km.CoordinateSystem == cs {
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return km
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}
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kc, err := repo.getKilometerConvert(km.CoordinateSystem, cs)
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if err != nil {
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panic(err)
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}
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var sourceCsKm *proto.Kilometer
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var targetCsKm *proto.Kilometer
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if kc.KmA.CoordinateSystem == km.CoordinateSystem {
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sourceCsKm = kc.KmA
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targetCsKm = kc.KmB
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} else {
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sourceCsKm = kc.KmB
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targetCsKm = kc.KmA
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}
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value := targetCsKm.Value + (km.Value - sourceCsKm.Value)
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if value < 0 {
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panic(fmt.Sprintf("公里标[%v]转换为坐标系[%s]的公里标的值[%d]小于0", km, cs, value))
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}
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return &proto.Kilometer{Value: value, CoordinateSystem: cs}
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}
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func (repo *Repository) addKilometerConvert(kc *proto.KilometerConvert) {
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repo.kilometerConvertMap[buildKilometerConvertKey(kc.KmA.CoordinateSystem, kc.KmB.CoordinateSystem)] = kc
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repo.kilometerConvertMap[buildKilometerConvertKey(kc.KmB.CoordinateSystem, kc.KmA.CoordinateSystem)] = kc
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}
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func (repo *Repository) getKilometerConvert(cs1, cs2 string) (*proto.KilometerConvert, error) {
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convert := repo.kilometerConvertMap[buildKilometerConvertKey(cs1, cs2)]
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if convert == nil {
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return nil, errors.New(fmt.Sprintf("没有[%s-%s]的公里标转换数据", cs1, cs2))
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}
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return convert, nil
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}
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func buildKilometerConvertKey(cs1 string, cs2 string) string {
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return cs1 + cs2
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}
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