rts-sim-testing-service/ts/simulation/wayside/memory/train_tcc_graphic.go

package memory

import (
	"joylink.club/bj-rtsts-server/dto/data_proto"
	"joylink.club/bj-rtsts-server/dto/request_proto"
	"joylink.club/bj-rtsts-server/dto/state_proto"
	"joylink.club/bj-rtsts-server/third_party/message"
)

const (
	SKQYS1 = "SKQYS1" //驾驶端1
	SKQYS2 = "SKQYS2" //驾驶端2
	JJZD   = "JJZD"   //紧急停车
	QHFXKZ = "QHFXKZ" //驾驶方向
	QYSB   = "QYSB"   //牵引制动手柄

	ATPQCKG       = "ATPQCKG" //ATP切除开关
	KZM           = "KZM"     //开左门按钮
	GZM           = "GZM"     //关左门按钮
	GYM           = "GYM"     //关右门按钮
	KYM           = "KYM"     //开右门
	ZAWTGJC       = "ZAWTGJC" //障碍物/脱轨检测
	ZDZGZ         = "ZDZGZ"   //制动重故障
	ATPSD         = "ATPSD"   //ATP上电按钮
	MSQR          = "MSQR"    //模式确认
	ZF            = "ZF"
	QZMYX         = "QZMYX" //强制门允许
	MSJJ          = "MSJJ"  //模式降级
	MSSJ          = "MSSJ"  // 模式升级
	HX            = "HX"    //唤醒按钮
	JX            = "JX"    //检修按钮
	XM            = "XM"    //休眠按钮
	LIGHT_JJZD    = JJZD
	LIGHT_QQY     = "QQY"     //切牵引指示灯
	LIGHT_JSSJH   = "JSSJH"   // 驾驶室激活
	LIGHT_TFZDHJ  = "TFZDHJ"  //停放制动缓解
	LIGHT_QYYX    = "QYYX"    // 牵引有效
	LIGHT_ZDYX    = "ZDYX"    //制动有效
	LIGHT_TFZDSJ  = "TFZDSJ"  //停放制动施加
	LIGHT_CYZD    = "CYZD"    //常用制动
	LIGHT_ZDGL    = "ZDGL"    //制动隔离
	LIGHT_LSXH    = "LSXH"    //零速信号
	LIGHT_ZMYX    = "ZMYX"    //左门允许
	LIGHT_YMYX    = "YMYX"    //右门允许
	LIGHT_ZFZSD   = "ZFZSD"   //折返指示灯
	LIGHT_BDATPKC = "BDATPKC" //本段atp控车
)

// 获取列车控制图形数据
func findTrainTccGraphicData(vs *VerifySimulation) *data_proto.TccGraphicStorage {
	var tccGI *data_proto.TccGraphicStorage
	for _, id := range vs.MapIds {
		if QueryGiType(id) == data_proto.PictureType_TrainControlCab {
			tccGI = QueryGiData[*data_proto.TccGraphicStorage](id)
			break
		}
	}
	return tccGI
}
func findTrainTccGraphicDataButtons(tccG *data_proto.TccGraphicStorage) []*data_proto.TccButton {
	return tccG.TccButtons
}
func findTrainTccGraphicDataKeys(tccG *data_proto.TccGraphicStorage) []*data_proto.TccKey {
	return tccG.TccKeys
}
func findTrainTccGraphicDataHandlers(tccG *data_proto.TccGraphicStorage) []*data_proto.TccHandle {
	return tccG.TccHandles
}
func findTrainTccGraphicDataButtonByCode(tccG *data_proto.TccGraphicStorage, deviceCode string) (*data_proto.TccButton, bool) {
	for _, d := range findTrainTccGraphicDataButtons(tccG) {
		if d.Code == deviceCode {
			return d, true
		}
	}
	return nil, false
}
func findTrainTccGraphicDataButton(tccG *data_proto.TccGraphicStorage, id uint32) (*data_proto.TccButton, bool) {
	for _, d := range findTrainTccGraphicDataButtons(tccG) {
		if d.Common.Id == id {
			return d, true
		}
	}
	return nil, false
}
func findTrainTccGraphicDataKey(tccG *data_proto.TccGraphicStorage, id uint32) (*data_proto.TccKey, bool) {
	for _, d := range findTrainTccGraphicDataKeys(tccG) {
		if d.Common.Id == id {
			return d, true
		}
	}
	return nil, false
}
func findTrainTccGraphicDataHandler(tccG *data_proto.TccGraphicStorage, id uint32) (*data_proto.TccHandle, bool) {
	for _, d := range findTrainTccGraphicDataHandlers(tccG) {
		if d.Common.Id == id {
			return d, true
		}
	}
	return nil, false
}

func initTrainVobc(trainLoad int64, trainIsUp bool) (*state_proto.TrainVobcState, uint32) {
	vobc := &state_proto.TrainVobcState{TrainLoad: int64(trainLoad), BrakingStatus: true, BrakeForce: DEFAULT_BRAKE_FORCE * 100, DirectionForward: true,
		AllDoorClose: true, ObstacleCheckBtn: true /*RightDoorCloseCommand: true, LeftDoorCloseCommand: true,*/, BrakeHeavyFault: true, AtpCutSwitch: true,
		ConfirmBtn: true, AtpPowerOnBtn: true, DoorModeMM: true,
	}
	var trainActDir uint32 = 0
	if trainIsUp {
		trainActDir = 1
	} else {
		trainActDir = 2
	}
	return vobc, trainActDir
}

// 初始化列车控制数据
func initTrainTcc(vs *VerifySimulation) *state_proto.TrainControlState {
	var tccGI *data_proto.TccGraphicStorage
	for _, id := range vs.MapIds {
		if QueryGiType(id) == data_proto.PictureType_TrainControlCab {
			tccGI = QueryGiData[*data_proto.TccGraphicStorage](id)
			break
		}
	}

	tcc := &state_proto.TrainControlState{}
	if tccGI != nil {
		tcc.LightMaps = make(map[string]*state_proto.TrainControlState_ControlLight)
		for _, light := range tccGI.TccLights {
			tcc.LightMaps[light.Code] = &state_proto.TrainControlState_ControlLight{Id: light.Common.Id, Val: light.InitialState}
		}

		btns := make(map[string]*state_proto.TrainControlState_ControlButton, 0)
		for _, b := range tccGI.TccButtons {
			btn := &state_proto.TrainControlState_ControlButton{Id: b.Common.Id, Passed: false}
			switch b.Code {
			case ATPQCKG /*GZM, GYM,*/, ZAWTGJC, ZDZGZ, ATPSD, MSQR:
				btn.Passed = true
			}
			btns[b.Code] = btn
			//btns = append(btns, btn)
		}
		tcc.Buttons = btns
		for _, b := range tccGI.TccHandles {
			if b.Code == QYSB {
				tcc.PushHandler = &state_proto.TrainControlState_PushHandler{Id: b.Common.Id, Val: -100}
			}
		}
		ds := make([]*state_proto.TrainControlState_DriverKeySwitch, 0)
		tcc.SwitchKeyMap = make(map[string]*state_proto.TrainControlState_SwitchKeyChange, 0)
		for _, b := range tccGI.TccKeys {
			if b.GetType() == data_proto.TccKey_driverControllerActivationClint {
				val := false
				/*		if b.Code == SKQYS1 && runDir {
							val = true
						} else if b.Code == SKQYS2 && !runDir {
							val = true
						}*/
				ds = append(ds, &state_proto.TrainControlState_DriverKeySwitch{Id: b.Common.Id, Val: val})
			} else if b.GetType() == data_proto.TccKey_frontAndRearDirectionalControl {
				tcc.SwitchKeyMap[b.Code] = &state_proto.TrainControlState_SwitchKeyChange{Id: b.Common.Id, Val: uint32(message.IsTrue(true))}

			} else if b.GetType() == data_proto.TccKey_trainDoorMode {
				tcc.SwitchKeyMap[b.Code] = &state_proto.TrainControlState_SwitchKeyChange{Id: b.Common.Id, Val: uint32(request_proto.TrainControl_KL_END.Number())}
			}
		}
		tcc.DriverKey = ds
	}
	return tcc
}