public void UartRecv_Texture(byte[] text, int PackageLen) { bool result = false; int LastSendCmd = myApi.CurrentSendCmd; try { if (DEVICE_CMD_ID.SET_DEV_PAUSE == LastSendCmd) { if (myApi.RecvDeviceReady(text)) { timerUartRecv.Enabled = false; if (!MeasureStopFlag) { myApi.SendStartMeaurePostion(PeakDegree[GroupIndex_Psi]); timerUartRecv.Interval = 1000 * 30; timerUartRecv.Enabled = true; } else { myApi.SendCloseShutter(); } } } else if (DEVICE_CMD_ID.SET_START_MEA_POS == LastSendCmd) { if (myApi.RecvDeviceReady(text)) { timerUartRecv.Enabled = false; myApi.SendHighVoltageUp(TubeVoltage[GroupIndex_Psi], TubeCurrent[GroupIndex_Psi]); timerUartRecv.Interval = 1000 * 40; timerUartRecv.Enabled = true; } } else if (DEVICE_CMD_ID.SET_HIGH_VOLTAGE_UP == LastSendCmd) { if (myApi.RecvDeviceReady(text)) { timerUartRecv.Enabled = false; Thread.Sleep(5000); myApi.SendGetHighVoltage(); timerUartRecv.Interval = 1000 * 5; timerUartRecv.Enabled = true; } } else if (DEVICE_CMD_ID.GET_HIGH_VOLTAGE == LastSendCmd) { if (myApi.RecvDeviceReady(text)) { result = myApi.RecvGetHighVoltage(text); timerUartRecv.Enabled = false; if (result) { myApi.SendMeasureTime(MeasureTime[GroupIndex_Psi]); timerUartRecv.Interval = 1000 * 5; timerUartRecv.Enabled = true; } } } else if (DEVICE_CMD_ID.SET_MES_TIME == LastSendCmd) { if (myApi.RecvDeviceReady(text)) { timerUartRecv.Enabled = false; myApi.SendSpeedB(PhiSpeed[GroupIndex_Psi]); timerUartRecv.Interval = 1000 * 5; timerUartRecv.Enabled = true; } } else if (DEVICE_CMD_ID.SET_B_SPEED == LastSendCmd) { if (myApi.RecvDeviceReady(text)) { timerUartRecv.Enabled = false; if (0 == GroupIndex_Psi) { myApi.SendOpenShutter(); timerUartRecv.Interval = 1000 * 5; timerUartRecv.Enabled = true; } else { myApi.SendAngleA(myApi.AnglePsi[MeasureIndex_Psi]); timerUartRecv.Interval = 1000 * 30; timerUartRecv.Enabled = true; } } } else if (DEVICE_CMD_ID.OPEN_LIGHT_SHUTTER == LastSendCmd) { if (myApi.RecvDeviceReady(text)) { timerUartRecv.Enabled = false; myApi.SendAngleA(myApi.AnglePsi[MeasureIndex_Psi]); timerUartRecv.Interval = 1000 * 30; timerUartRecv.Enabled = true; } } else if (DEVICE_CMD_ID.SET_A_ANGLE == LastSendCmd) { if (myApi.RecvDeviceReady(text)) { timerUartRecv.Enabled = false; myApi.SendAngleB(0); timerUartRecv.Interval = 1000 * 30; timerUartRecv.Enabled = true; } } else if (DEVICE_CMD_ID.SET_B_ANGLE == LastSendCmd) { if (myApi.RecvDeviceReady(text)) { timerUartRecv.Enabled = false; myApi.SendStartCycleScan(360); timerUartRecv.Interval = 1000 * 5; timerUartRecv.Enabled = true; myApi.RecvDataCount = 0; myApi.RecvDataTable.Rows.Clear(); ChartRealTimeShowIndex = 0; myApi.TotalDataCount = (int)(360 / (PhiSpeed[GroupIndex_Psi] * MeasureTime[GroupIndex_Psi])); myUart.Pack_Debug_out(null, "[Texture] totalcount=" + myApi.TotalDataCount.ToString()); myApi.SSC_RecvDataReadIndex = 0; myApi.SSC_RecvDataWriteIndex = 0; myApi.SSC_AnalyzeDataCount = 0; //myApi.RecvDataTableSaveFileStart(myApi.AnglePsi[MeasureIndex_Psi], MeasureIndex_Psi); //myApi.Texture_SaveFileStart(FaceExp[GroupIndex_Psi], GroupIndex_Psi, BM[GroupIndex_Psi]); ChartRealTimeInit(); } } else if (DEVICE_CMD_ID.START_SCAN == LastSendCmd) { // save data timerUartRecv.Enabled = false; myApi.CSB_RecvDataAnalyze(text); myApi.RecvDataTableUpdate(myApi.SSC_AnalyzeDataArray, myApi.SSC_AnalyzeDataCount); //myApi.RecvDataTableSaveFileProc(myApi.SSC_AnalyzeDataArray, myApi.SSC_AnalyzeDataCount); myApi.RecvDataCount += (myApi.SSC_AnalyzeDataCount / 21); myUart.Pack_Debug_out(null, "[Texture] analyzecount=" + (myApi.SSC_AnalyzeDataCount / 21).ToString() + "totalrecvcount=" + myApi.RecvDataCount.ToString()); myApi.SSC_AnalyzeDataCount = 0; Array.Clear(myApi.SSC_AnalyzeDataArray, 0, myApi.SSC_AnalyzeDataArray.Length); if (myApi.RecvDataCount >= myApi.TotalDataCount) { Array.Clear(myApi.SSC_RecvDataArray, 0, myApi.SSC_RecvDataArray.Length); myApi.SSC_RecvDataReadIndex = 0; myApi.SSC_RecvDataWriteIndex = 0; //myApi.RecvDataTableSaveFileEnd(); //myApi.Texture_SaveFileEnd(); RecvDataFinishFlag = true; } } else if (DEVICE_CMD_ID.CLOSE_LIGHT_SHUTTER == LastSendCmd) { if (myApi.RecvDeviceReady(text)) { timerUartRecv.Enabled = false; myApi.SendHighVoltageDown(myApi.DefaultVotage, myApi.DefaultCurrent); timerUartRecv.Interval = 1000 * 10; timerUartRecv.Enabled = true; timerHighVoltage_10min.Enabled = true; } } else if (DEVICE_CMD_ID.SET_HIGH_VOLTAGE_DOWN == LastSendCmd) { if (myApi.RecvDeviceReady(text)) { timerUartRecv.Enabled = false; // measure end MeasureStopFlag = true; } } else { } if (DEVICE_CMD_ID.GET_HIGH_VOLTAGE == LastSendCmd) { myParentForm.statusBar_HighVoltageUpdate(myApi.recvVoltage, myApi.recvCurrent); ChartRealTimeShowIndex = 0; //chartRealTime.Series["射线强度"].Points.Clear(); double xMin = 0; double xMax = 360; chartRealTime.ChartAreas["ChartArea1"].AxisX.Maximum = xMax; chartRealTime.ChartAreas["ChartArea1"].AxisX.Minimum = xMin; if (MeasureIndex_Psi == 0) { dataGridViewClear(); } } else if ((DEVICE_CMD_ID.SET_HIGH_VOLTAGE_UP == LastSendCmd) || (DEVICE_CMD_ID.SET_HIGH_VOLTAGE_DOWN == LastSendCmd)) { if ((myApi.TubeVoltage > 0) || (myApi.TubeCurrent > 0)) { myConfig.SaveWarmUpTime(); } else { } if (DEVICE_CMD_ID.SET_HIGH_VOLTAGE_UP == LastSendCmd) { timerHighVoltage_10min.Enabled = false; } else if (DEVICE_CMD_ID.SET_HIGH_VOLTAGE_DOWN == LastSendCmd) { if (MeasureStopFlag) { MeasureStopFlag = false; buttonStart.Enabled = true; buttonStop.Enabled = false; groupBoxSettings.Enabled = true; myParentForm.tableLayoutPanel1.Enabled = true; myParentForm.tableLayoutPanel2.Enabled = true; //MessageBox.Show("测量结束"); myParentForm.toolStripStatusLabelMeasureStatus.Text = "测量结束"; } } myParentForm.statusBar_HighVoltageUpdate(myApi.sendVoltage, myApi.sendCurrent); } else if ((DEVICE_CMD_ID.START_SCAN == LastSendCmd) && (myApi.RecvDataCount > 0) && (0 == myApi.DetectorType)) { ChartRealTimeUpdate(); } else { } // 接收数据完成 if (RecvDataFinishFlag) { RecvDataFinishFlag = false; PhiMeasureFinish(); } } catch (Exception ex) { myUart.Pack_Debug_out(null, "Exception" + "[" + ex.ToString() + "]"); } }
public void UartRecv_AutoFocus(byte[] text, int PackageLen) { bool result = false; int LastSendCmd = myApi.CurrentSendCmd; try { if (DEVICE_CMD_ID.MOVE_TD == LastSendCmd) { result = myApi.RecvDeviceReady(text); if (result) { timerUartRecv.Enabled = false; myApi.SendMovMotorTS(myApi.AutoFocus[1]); timerUartRecv.Interval = 1000 * 30; timerUartRecv.Enabled = true; } } else if (DEVICE_CMD_ID.MOVE_TS == LastSendCmd) { result = myApi.RecvDeviceReady(text); if (result) { timerUartRecv.Enabled = false; myApi.SendAngleA(myApi.AutoFocus[2]); timerUartRecv.Interval = 1000 * 30; timerUartRecv.Enabled = true; } } else if (DEVICE_CMD_ID.SET_A_ANGLE == LastSendCmd) { result = myApi.RecvDeviceReady(text); if (result) { timerUartRecv.Enabled = false; myApi.SendAngleZ(myApi.AutoFocus[3]); timerUartRecv.Interval = 1000 * 30; timerUartRecv.Enabled = true; } } else if (DEVICE_CMD_ID.SET_Z_ANGLE == LastSendCmd) { result = myApi.RecvDeviceReady(text); if (result) { timerUartRecv.Enabled = false; myApi.SendGetAngleABXYZ(); timerUartRecv.Interval = 1000 * 5; timerUartRecv.Enabled = true; } } else if (DEVICE_CMD_ID.GET_ABXYZ_ANGLE == LastSendCmd) { result = myApi.RecvGetAngleABXYZ(text, ref showAngle); if (result) { timerUartRecv.Enabled = false; } } else if (DEVICE_CMD_ID.SET_DEV_PAUSE == LastSendCmd) { result = myApi.RecvDeviceReady(text); if (result) { timerUartRecv.Enabled = false; } } else { } if (result) { if (DEVICE_CMD_ID.GET_ABXYZ_ANGLE == LastSendCmd) { if (load_flag) { load_flag = false; textBoxAxisZ.Text = showAngle[4].ToString(); buttonOK.Enabled = true; buttonCancel.Enabled = true; } else { MessageBox.Show("自动对焦成功"); this.DialogResult = DialogResult.OK; this.Close(); } } else if (DEVICE_CMD_ID.SET_DEV_PAUSE == LastSendCmd) { MessageBox.Show("已停止对焦"); this.DialogResult = DialogResult.Cancel; this.Close(); } else { } } else { } } catch (Exception ex) { myUart.Pack_Debug_out(null, "Exception" + "[" + ex.ToString() + "]"); } }