static void Main(string[] args) { if (args.Length != 2) { Console.WriteLine("Parameter error\n1:Test type:1-3\n2:COMPort number"); Console.WriteLine("ex. SampleApp.exe 1 COM10"); Console.ReadKey(); return; } // Get SDK version CMMISDK_Version version = new CMMISDK_Version(); CMMISDK_API.CMMISDK_GetSDKVersion(ref version); Console.WriteLine("SDK Version: {0:0}.{1:00}.{2:0000}", version.major, version.minor, version.free); switch (args[0]) { case "1": // Perform measurement PerformMeasurement(args[1]); break; case "2": // Read sample data ReadSampleData(args[1]); break; case "3": // Write target data WriteTargetData(args[1]); break; } Console.ReadKey(); }
static void ReadSampleData(string in_com) { int ret; // Connect CMMISDK_Port Port = new CMMISDK_Port(); Port.port_name = new byte[Define.SIZE_PORTNAME]; for (int name_count = 0; name_count < in_com.Length; name_count++) { Port.port_name[name_count] = Convert.ToByte(in_com[name_count]); } int instrumentNo = 0; ret = CMMISDK_API.CMMISDK_Connect(ref Port, ref instrumentNo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_Connect", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Get instrumentInfo CMMISDK_InstrumentInfo instInfo = new CMMISDK_InstrumentInfo(); ret = CMMISDK_API.CMMISDK_GetInstrumentInfo(instrumentNo, ref instInfo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_GetInstrumentInfo", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } if (Encoding.ASCII.GetString(instInfo.InstrumentName).TrimEnd('\0') != "CM-25cG") { Console.WriteLine("Unsppoted instrument"); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Get sample count Int32 sampleCount = 0; ret = CMMISDK_API.CMMISDK_GetSavedSampleCount(instrumentNo, ref sampleCount); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0:d} GetSampleCount", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } Dictionary <_CMMISDK_DataType, string> convertDataTypeTable = new Dictionary <_CMMISDK_DataType, string>() { { _CMMISDK_DataType.DATATYPE_GLOSS, " GLOSS" }, { _CMMISDK_DataType.DATATYPE_SCI, " SPEC " } }; for (Int32 i = 1; i <= sampleCount; i++) { ret = CMMISDK_API.CMMISDK_LoadSampleInfo(instrumentNo, i); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0:d} CMMISDK_LoadSampleInfo", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Get sample property CMMISDK_SampleProperty sampleProperty = new CMMISDK_SampleProperty(); ret = CMMISDK_API.CMMISDK_GetSampleProperty(instrumentNo, ref sampleProperty); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0:d} CMMISDK_GetSampleProperty", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // display sample property Console.WriteLine("No.{0:d4} Name:{1} Date:{2}", i, Encoding.ASCII.GetString(sampleProperty.name).TrimEnd('\0'), new DateTime(sampleProperty.date[0], sampleProperty.date[1], sampleProperty.date[2], sampleProperty.date[3], sampleProperty.date[4], sampleProperty.date[5])); Console.WriteLine("{0} {1}", Enum.GetName(typeof(_CMMISDK_MeasMode), sampleProperty.meas_mode), Enum.GetName(typeof(_CMMISDK_MeasArea), sampleProperty.meas_area)); // Get sample spectral data Dictionary <_CMMISDK_DataType, CMMISDK_Data> sampleSpectralData = new Dictionary <_CMMISDK_DataType, CMMISDK_Data>(); if ((sampleProperty.meas_mode == (int)_CMMISDK_MeasMode.MEASMODE_COLORANDGLOSS) || (sampleProperty.meas_mode == (int)_CMMISDK_MeasMode.MEASMODE_COLORONLY)) { CMMISDK_Data sampleData = new CMMISDK_Data(); ret = CMMISDK_API.CMMISDK_GetSampleData(instrumentNo, (int)_CMMISDK_DataType.DATATYPE_SPEC, ref sampleData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0:d} CMMISDK_GetSampleData SCI", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } sampleSpectralData.Add(_CMMISDK_DataType.DATATYPE_SCI, sampleData); } if ((sampleProperty.meas_mode == (int)_CMMISDK_MeasMode.MEASMODE_COLORANDGLOSS) || (sampleProperty.meas_mode == (int)_CMMISDK_MeasMode.MEASMODE_GLOSSONLY)) { CMMISDK_Data sampleGlossData = new CMMISDK_Data(); ret = CMMISDK_API.CMMISDK_GetSampleData(instrumentNo, (int)_CMMISDK_DataType.DATATYPE_GLOSS, ref sampleGlossData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0:d} CMMISDK_GetSampleData GLOSS", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } sampleSpectralData.Add(_CMMISDK_DataType.DATATYPE_GLOSS, sampleGlossData); } // Display data if (sampleSpectralData.Count != 0) { Console.Write(" , "); foreach (_CMMISDK_DataType key in sampleSpectralData.Keys) { Console.Write("{0:s}, ", convertDataTypeTable[key]); } Console.Write('\n'); // Spectral data display int index = 0; for (Int32 WaveLength = instInfo.WaveLengthStart; WaveLength <= instInfo.WaveLengthEnd; WaveLength = WaveLength + instInfo.WaveLengthPitch) { Console.Write("{0:d3}, ", WaveLength); foreach (_CMMISDK_DataType key in sampleSpectralData.Keys) { Console.Write("{0,6:00.00}, ", sampleSpectralData[key].data[index]); } index++; Console.Write('\n'); } } } // Disconnect CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; }
static void WriteTargetData(string in_com) { int ret; // Connect CMMISDK_Port Port = new CMMISDK_Port(); Port.port_name = new byte[Define.SIZE_PORTNAME]; for (int name_count = 0; name_count < in_com.Length; name_count++) { Port.port_name[name_count] = Convert.ToByte(in_com[name_count]); } int instrumentNo = 0; ret = CMMISDK_API.CMMISDK_Connect(ref Port, ref instrumentNo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_Connect", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Get instrumentInfo CMMISDK_InstrumentInfo instInfo = new CMMISDK_InstrumentInfo(); ret = CMMISDK_API.CMMISDK_GetInstrumentInfo(instrumentNo, ref instInfo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_GetInstrumentInfo", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } if (Encoding.ASCII.GetString(instInfo.InstrumentName).TrimEnd('\0') != "CM-25cG") { Console.WriteLine("Unsppoted instrument"); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } Console.WriteLine("Please input the target number to be written. 1-2500"); int targetNum = Convert.ToInt32(Console.ReadLine()); //Clear target information ret = CMMISDK_API.CMMISDK_ClearTargetInfo(instrumentNo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_ClearTargetInfo", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Set Target Property CMMISDK_TargetProperty targetProperty = new CMMISDK_TargetProperty(); // Set time targetProperty.date = new int[Define.SIZE_DATE]; DateTime date = DateTime.Now; targetProperty.date[0] = date.Year; targetProperty.date[1] = date.Month; targetProperty.date[2] = date.Day; targetProperty.date[3] = date.Hour; targetProperty.date[4] = date.Minute; targetProperty.date[5] = date.Second; // Set group list targetProperty.group_list = new int[] { 0, 0, 0, 0, 0 }; // Set meas type targetProperty.meas_type = (int)_CMMISDK_MeasType.MEASTYPE_NONE; // Set meas mode targetProperty.meas_mode = (int)_CMMISDK_MeasMode.MEASMODE_COLORANDGLOSS; // Set meas area targetProperty.meas_area = (int)_CMMISDK_MeasArea.AREA_MAV; // Set meas angel targetProperty.meas_angle = (int)_CMMISDK_MeasAngle.MEAS_ANGLE_NONE; // Set light direction targetProperty.meas_ldirection = (int)_CMMISDK_LightDirection.LDIRECTION_NONE; // Set meas specular component targetProperty.meas_scie = (int)_CMMISDK_SpecularComponent.SC_NONE; // Set meas UV targetProperty.meas_uv = (int)_CMMISDK_Uv.UV_NONE; // Set warning level targetProperty.warning_level = 80; // Set warning targetProperty.warning = 0; // Set diagnosis targetProperty.diagnosis = 0; // Set data attribute int specOrColor = 0; Console.WriteLine("Please set 1 for spectral and 2 for colorimetric."); specOrColor = Convert.ToInt32(Console.ReadLine()); if (specOrColor == 1) { // spectral data targetProperty.data_attr = (int)_CMMISDK_DataAttr.DATAATTR_SPEC; } else { // colorimetric data targetProperty.data_attr = (int)_CMMISDK_DataAttr.DATAATTR_LAB; } // Set name (MAX 30 characters) string name = "target:" + targetNum.ToString(); if (name.Length > 30) { name.Remove(30); } targetProperty.name = Encoding.ASCII.GetBytes(name.PadRight(Define.SIZE_DATANAME, '\0')); ret = CMMISDK_API.CMMISDK_SetTargetProperty(instrumentNo, ref targetProperty); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetTargetProperty", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Set target data if (specOrColor == 1) { // Set spectral data CMMISDK_Data targetData = new CMMISDK_Data() { data = new double[Define.SIZE_DATA] }; CMMISDK_Data targetGloss = new CMMISDK_Data() { data = new double[Define.SIZE_DATA] }; int count = 0; for (int i = instInfo.WaveLengthStart; i <= instInfo.WaveLengthEnd; i += instInfo.WaveLengthPitch) { targetData.data[count] = 100.00; count++; } ret = CMMISDK_API.CMMISDK_SetTargetData(instrumentNo, (int)_CMMISDK_DataType.DATATYPE_SPEC, ref targetData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetTargetData SCI", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Set gloss data targetGloss.data[0] = 10.0; ret = CMMISDK_API.CMMISDK_SetTargetData(instrumentNo, (int)_CMMISDK_DataType.DATATYPE_GLOSS, ref targetGloss); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetTargetData GLOSS", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } } else { // colorimetric data CMMISDK_ColorCond cond; cond.obs = (int)_CMMISDK_Observer.OBS_10; cond.ill = (int)_CMMISDK_Illuminant.ILL_D65; cond.colorSpace = (int)_CMMISDK_ColorSpace.COLOR_LAB; CMMISDK_Data targetData = new CMMISDK_Data() { data = new double[Define.SIZE_DATA] }; targetData.data[0] = 91.11; targetData.data[1] = -1.11; targetData.data[2] = 1.11; // light source primary ret = CMMISDK_API.CMMISDK_SetTargetDataColor(instrumentNo, (int)_CMMISDK_DataType.DATATYPE_SPEC, 0, ref cond, ref targetData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetTargetData color primary SCI", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } cond.obs = (int)_CMMISDK_Observer.OBS_10; cond.ill = (int)_CMMISDK_Illuminant.ILL_C; // light source secondary targetData.data[0] = 92.22; targetData.data[1] = -2.22; targetData.data[2] = 2.22; ret = CMMISDK_API.CMMISDK_SetTargetDataColor(instrumentNo, (int)_CMMISDK_DataType.DATATYPE_SPEC, 1, ref cond, ref targetData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetTargetData color secondary SCI", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // gloss data CMMISDK_Data glossData = new CMMISDK_Data() { data = new double[Define.SIZE_DATA] }; glossData.data[0] = 11.00; // light source primary ret = CMMISDK_API.CMMISDK_SetTargetDataColor(instrumentNo, (int)_CMMISDK_DataType.DATATYPE_GLOSS, 0, ref cond, ref glossData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetTargetData color gloss", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } } // Set tolerance for light source primary CMMISDK_ToleranceData tolerancePrimaryData = new CMMISDK_ToleranceData(); tolerancePrimaryData.upper_enable = 1; tolerancePrimaryData.upper_value = 110; tolerancePrimaryData.lower_enable = 1; tolerancePrimaryData.lower_value = -120; ret = CMMISDK_API.CMMISDK_SetToleranceForTarget(instrumentNo, (int)_CMMISDK_ToleranceType.TOLETYPE_SPEC, 0, (int)_CMMISDK_ToleranceId.TOLERANCE_ID_L, ref tolerancePrimaryData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetToleranceForTarget primary L*", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } ret = CMMISDK_API.CMMISDK_SetToleranceForTarget(instrumentNo, (int)_CMMISDK_ToleranceType.TOLETYPE_SPEC, 0, (int)_CMMISDK_ToleranceId.TOLERANCE_ID_A, ref tolerancePrimaryData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetToleranceForTarget primary a*", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } ret = CMMISDK_API.CMMISDK_SetToleranceForTarget(instrumentNo, (int)_CMMISDK_ToleranceType.TOLETYPE_SPEC, 0, (int)_CMMISDK_ToleranceId.TOLERANCE_ID_B, ref tolerancePrimaryData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetToleranceForTarget primary b*", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Set tolerance for light source secondary CMMISDK_ToleranceData toleranceSecondaryData = new CMMISDK_ToleranceData(); toleranceSecondaryData.upper_enable = 0; toleranceSecondaryData.upper_value = 150; toleranceSecondaryData.lower_enable = 0; toleranceSecondaryData.lower_value = -160; ret = CMMISDK_API.CMMISDK_SetToleranceForTarget(instrumentNo, (int)_CMMISDK_ToleranceType.TOLETYPE_SPEC, 1, (int)_CMMISDK_ToleranceId.TOLERANCE_ID_L, ref toleranceSecondaryData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetToleranceForTarget secondary L*", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } ret = CMMISDK_API.CMMISDK_SetToleranceForTarget(instrumentNo, (int)_CMMISDK_ToleranceType.TOLETYPE_SPEC, 1, (int)_CMMISDK_ToleranceId.TOLERANCE_ID_A, ref toleranceSecondaryData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetToleranceForTarget secondary a*", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } ret = CMMISDK_API.CMMISDK_SetToleranceForTarget(instrumentNo, (int)_CMMISDK_ToleranceType.TOLETYPE_SPEC, 1, (int)_CMMISDK_ToleranceId.TOLERANCE_ID_B, ref toleranceSecondaryData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetToleranceForTarget secondary b*", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Set parametric for tolerance CMMISDK_ParametricCoef parametricData = new CMMISDK_ParametricCoef(); parametricData.coef = new double[Define.SIZE_PARAMETRIC_COEF]; parametricData.coef[0] = 1.1; parametricData.coef[1] = 1.2; ret = CMMISDK_API.CMMISDK_SetParametricForTarget(instrumentNo, (int)_CMMISDK_ToleranceType.TOLETYPE_SPEC, (int)_CMMISDK_ParametricId.PARAMETRIC_ID_CMC, ref parametricData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetParametricForTarget CMC", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } parametricData.coef[0] = 2.1; parametricData.coef[1] = 2.2; parametricData.coef[2] = 2.3; ret = CMMISDK_API.CMMISDK_SetParametricForTarget(instrumentNo, (int)_CMMISDK_ToleranceType.TOLETYPE_SPEC, (int)_CMMISDK_ParametricId.PARAMETRIC_ID_DE94, ref parametricData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetParametricForTarget DE94", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } parametricData.coef[0] = 3.1; parametricData.coef[1] = 3.2; parametricData.coef[2] = 3.3; ret = CMMISDK_API.CMMISDK_SetParametricForTarget(instrumentNo, (int)_CMMISDK_ToleranceType.TOLETYPE_SPEC, (int)_CMMISDK_ParametricId.PARAMETRIC_ID_DE00, ref parametricData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetParametricForTarget DE00", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Save Target information ret = CMMISDK_API.CMMISDK_SaveTargetInfo(instrumentNo, targetNum); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SaveTargetInfo", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Disconnect CMMISDK_API.CMMISDK_Disconnect(instrumentNo); }
static void PerformMeasurement(string in_com) { Int32 ret; // Connect CMMISDK_Port Port = new CMMISDK_Port(); Port.port_name = new byte[Define.SIZE_PORTNAME]; for (int name_count = 0; name_count < in_com.Length; name_count++) { Port.port_name[name_count] = Convert.ToByte(in_com[name_count]); } int instrumentNo = 0; ret = CMMISDK_API.CMMISDK_Connect(ref Port, ref instrumentNo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_Connect", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Get instrumentInfo CMMISDK_InstrumentInfo instInfo = new CMMISDK_InstrumentInfo(); ret = CMMISDK_API.CMMISDK_GetInstrumentInfo(instrumentNo, ref instInfo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_GetInstrumentInfo", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } if (Encoding.ASCII.GetString(instInfo.InstrumentName).TrimEnd('\0') != "CM-25cG") { Console.WriteLine("Unsppoted instrument"); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Set measurement mode (color & gloss) _CMMISDK_MeasMode mode = _CMMISDK_MeasMode.MEASMODE_COLORANDGLOSS; ret = CMMISDK_API.CMMISDK_SetMeasurementMode(instrumentNo, (int)mode); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_SetMeasurementMode", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Check Calibration bool calComplete = false; do { int calStatus = 0; ret = CMMISDK_API.CMMISDK_GetCalibrationStatus(instrumentNo, ref calStatus); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_GetCalibrationStatus", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); break; } switch ((_CMMISDK_CalStatus)calStatus) { case _CMMISDK_CalStatus.StatusZero: // Zero calibration Console.WriteLine("Please set the zero calibration box."); Console.ReadKey(); ret = CMMISDK_API.CMMISDK_PerformZeroCalibration(instrumentNo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_PerformZeroCalibration", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); } break; case _CMMISDK_CalStatus.StatusWhite: // White calibration Console.WriteLine("Please set the white calibration box."); Console.ReadKey(); ret = CMMISDK_API.CMMISDK_PerformWhiteCalibration(instrumentNo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_PerformWhiteCalibration", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); } break; case _CMMISDK_CalStatus.StatusGloss: // Gloss calibration Console.WriteLine("Please set the gloss calibration box."); Console.ReadKey(); ret = CMMISDK_API.CMMISDK_PerformGlossCalibration(instrumentNo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} PerformGlossCalibration", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } break; case _CMMISDK_CalStatus.StatusUser: // User calibration Console.WriteLine("Please set the User calibration box."); Console.ReadKey(); ret = CMMISDK_API.CMMISDK_PerformUserCalibration(instrumentNo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} PerformUserCalibration", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } break; default: calComplete = true; break; } } while (!calComplete); // Perform measurement Console.WriteLine("Please set the sample plate."); Console.ReadKey(); ret = CMMISDK_API.CMMISDK_PerformMeasurement(instrumentNo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_PerformMeasurement", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Polling measurement int measStatus = (int)_CMMISDK_MeasStatus.Measuring; do { ret = CMMISDK_API.CMMISDK_PollingMeasurement(instrumentNo, ref measStatus); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_PollingMeasurement", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); break; } } while ((_CMMISDK_MeasStatus)measStatus != _CMMISDK_MeasStatus.Idling); // Get sample data ret = CMMISDK_API.CMMISDK_LoadLatestData(instrumentNo); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_LoadLatestData", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Get sample colorimetric data CMMISDK_ColorCond cond; cond.obs = (int)_CMMISDK_Observer.OBS_10; cond.ill = (int)_CMMISDK_Illuminant.ILL_D65; cond.colorSpace = (int)_CMMISDK_ColorSpace.COLOR_LAB; CMMISDK_Data measurementColorData = new CMMISDK_Data(); ret = CMMISDK_API.CMMISDK_GetLatestDataColor(instrumentNo, (int)_CMMISDK_DataType.DATATYPE_SPEC, ref cond, ref measurementColorData); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_GetLatestDataColor", ret); CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; } // Color data display Console.WriteLine("L*:{0,6:f2} a*:{1,6:f2} b*:{2,6:f2}", measurementColorData.data[0], measurementColorData.data[1], measurementColorData.data[2]); // Get sample spectral data CMMISDK_Data[] measurementSpecData = new CMMISDK_Data[(int)_CMMISDK_DataType.DATATYPE_SPEC + 1]; for (_CMMISDK_DataType inDataType = _CMMISDK_DataType.DATATYPE_GLOSS; inDataType <= _CMMISDK_DataType.DATATYPE_SPEC; inDataType = (_CMMISDK_DataType)(inDataType + 1)) { ret = CMMISDK_API.CMMISDK_GetLatestDataSpec(instrumentNo, (int)inDataType, ref measurementSpecData[(int)inDataType]); if (!IsNormalCode(ret)) { Console.WriteLine("Error:{0} CMMISDK_GetLatestDataSpec", ret); } } // Spectral data display Console.WriteLine(" GLOSS SPEC"); int count = 0; for (int waveLength = instInfo.WaveLengthStart; waveLength <= instInfo.WaveLengthEnd; waveLength += instInfo.WaveLengthPitch) { Console.Write("{0} :", waveLength); for (_CMMISDK_DataType inDataType = _CMMISDK_DataType.DATATYPE_GLOSS; inDataType <= _CMMISDK_DataType.DATATYPE_SPEC; inDataType = (_CMMISDK_DataType)(inDataType + 1)) { Console.Write(" {0,6:f2}", measurementSpecData[(int)inDataType].data[count]); } Console.WriteLine(""); count++; } // Disconnect CMMISDK_API.CMMISDK_Disconnect(instrumentNo); return; }