SDC/A5_QD_CF_REVIEW.git

			@@ -30,7 +30,7 @@
			APS_None = 0,

			//AOI
			APS_GlassLoading,
			APS_GlassLoading,
			APS_InspectEnd,
			//Review
			APS_CustomReviewRead,
			@@ -63,10 +63,10 @@

			//설비정보
			char m_strLine[32];
			char m_strEquipType[32];
			char m_strEquipID[32];
			char m_strStepID[32];
			char m_strOperID[32];
			char m_strEquipType[32];
			char m_strEquipID[32];
			char m_strStepID[32];
			char m_strOperID[32];

			CTime m_tmGlassLoading; //3. START_TIME
			CTime m_tmInspectionStart; //3. START_TIME
			@@ -76,8 +76,8 @@

			//기본 물류정보
			char m_strGlassID[32]; //Glass ID
			char m_strPPID[32];
			char m_strEPPID[32];
			char m_strPPID[32];
			char m_strEPPID[32];
			char m_strLotID[32]; //LOT_ID
			char m_strSLotID[32]; //SLOT_ID
			char m_strRecipeName[32]; //RECIPE_NAME
			@@ -129,7 +129,7 @@
			//카메라/스캔 정보 [김태현 2018/12/5]
			short m_nCameraNum;
			short m_nScanNum;
			unsigned char m_nGrayLevelAvg[RAWMESSENGER_MAXCAMNUM*RAWMESSENGER_MAXSCANNUM];
			unsigned char m_nGrayLevelAvg[RAWMESSENGER_MAXCAMNUM*RAWMESSENGER_MAXSCANNUM];
			unsigned char m_nGrayLevelMin[RAWMESSENGER_MAXCAMNUM*RAWMESSENGER_MAXSCANNUM];
			unsigned char m_nGrayLevelMax[RAWMESSENGER_MAXCAMNUM*RAWMESSENGER_MAXSCANNUM];

			@@ -173,8 +173,8 @@
			char m_strCount2[2];

			//Mura Data 0412 nwh
			float m_fMaxAvgGray;
			float m_fMaxPortion;
			char m_strMaxAvgGray[12];
			char m_strMaxPortion[12];


			//1226NWH
			@@ -217,7 +217,7 @@
			{
			memset(this, 0, sizeof(_grmCellData));
			}
			int getTotalDefectNum() { return m_nDefectNumTypeTB + m_nDefectNumTypeTW + m_nDefectNumTypeRB + m_nDefectNumTypeRW; };
			int getTotalDefectNum(){return m_nDefectNumTypeTB+m_nDefectNumTypeTW+m_nDefectNumTypeRB+m_nDefectNumTypeRW; };
			int m_nCellID; //1. PANEL_ID
			short m_nModelIdx; // 몇 번째 모델인가?

			@@ -254,11 +254,45 @@

			//Mura Data nwh 0404
			char m_strProImage[32];
			float m_fAvgGray;
			float m_fPortion;
			char m_strAvgGray_0[12];
			char m_strPortion_0[12];
			//kyh Mura Data 추가 0622
			char m_strCorner_Gray_0[12];
			char m_strAvgAmp_0[12];
			char m_strFFTVar_0[12];
			char m_strFFTVah_0[12];
			char m_strFFTVaq_0[12];
			char m_strFFTPK_0[12];

			char m_strAvgGray_1[12];
			char m_strPortion_1[12];
			//kyh Mura Data 추가 0622
			char m_strCorner_Gray_1[12];
			char m_strAvgAmp_1[12];
			char m_strFFTVar_1[12];
			char m_strFFTVah_1[12];
			char m_strFFTVaq_1[12];
			char m_strFFTPK_1[12];

			char m_strAvgGray_2[12];
			char m_strPortion_2[12];
			//kyh Mura Data 추가 0622
			char m_strCorner_Gray_2[12];
			char m_strAvgAmp_2[12];
			char m_strFFTVar_2[12];
			char m_strFFTVah_2[12];
			char m_strFFTVaq_2[12];
			char m_strFFTPK_2[12];

			char m_strAvgGray_3[12];
			char m_strPortion_3[12];
			//kyh Mura Data 추가 0622
			char m_strCorner_Gray_3[12];
			char m_strAvgAmp_3[12];
			char m_strFFTVar_3[12];
			char m_strFFTVah_3[12];
			char m_strFFTVaq_3[12];
			char m_strFFTPK_3[12];

			int m_nDefectNumJudgeOKWhite;
			int m_nDefectNumJudgeOKBlack;
			@@ -295,7 +329,7 @@

			//////////////////////////////////////////////////////////////////////////
			//여기서 부터 리뷰 영역 [김태현 2019/1/19]
			ditRaw::ReviewPlanType m_nPlanType;
			ditRaw::ReviewPlanType m_nPlanType ;
			int m_nResultCode; //0:None, 1:Success
			int m_nShotIndex; //리뷰 찍은 순번 [김태현 2018/12/5]
			int m_nModuleIndex;
			@@ -316,7 +350,7 @@
			int m_nWsi_Type; // 함몰 / 돌기
			float m_fWsi_ResultData[8]; // 0:Type, 1:Height(um), 2:Width
			char m_strWsi_2DImageFilename[256];
			char m_strWsi_3DImageFilename[256];
			char m_strWsi_3DImageFilename[256];
			int m_nWsiReflowPositionIndex; // WsiReflowPositionIndex
			int m_nWsi_pReflowResultData[8];
			double m_dWsi_DamDistance;
			@@ -329,7 +363,7 @@
			// Reflow 영역
			int m_nReflow_Index;
			int m_nReflow_ResultCode; //0:None, // 검출한 Line의 개수. 3 미만 : DAM2 Reflow 판정, 4~5 : DAM1 Reflow 판정, 6 : no Reflow 판정 / -1 : image not loaded, -2 : roi setting error, -3 : roi length error, -5 : select wrong side
			float m_fReflow_LinePosData[8];
			float m_fReflow_LinePosData[8];
			int m_nReflow_Side;
			int m_nReflow_InspectionMode;
			};
			@@ -376,13 +410,14 @@
			int m_nPixelGlassStart; // Glass 시작 픽셀
			short m_sDefectLoc;

			short m_sZoneClassPixelCount[16];
			short m_sZonePixelCount[16]; // Zone별 결함 Pixel 수
			short m_sZoneValueMin[16]; // Zone별 결함 Min
			short m_sZoneValueMax[16]; // Zone별 결함 Max
			short m_sZoneValueAvg[16]; // Zone별 결함 Avg
			short m_sZonePixelPercent[16]; // --------------------------------------Z0~ZF

			//210127 CJH - Zone별 Source Gray 입력
			//210127 CJH - Zone별 Source Gray 입력
			short m_sZoneValueSrcMin[16]; // Zone별 Source Min
			short m_sZoneValueSrcMax[16]; // Zone별 Source Max
			short m_sZoneValueSrcAvg[16]; // Zone별 Source Avg
			@@ -457,7 +492,7 @@
			int m_nMinor; // 단축 길이(Short)
			int m_nCompact; // Blob 장축을 지름으로 하는 원의 넓이와 Blob 넓이의 비율
			int m_nThickness; // Blob 넓이와 장축의 비율 (Area / Major)


			short m_nHliLevelIdx; // 몇 번째 레벨(채널)인가?
			int m_nHliLayers; // 해당결함에 포함된 레이어 bit처리

			@@ -498,11 +533,11 @@
			{
			int nCommand;
			char strParam[256];
			short nResult;
			short nResult;
			};
			short m_nCommandIdxWrite;
			short m_nCommandIdxRead;
			_grmCommand m_nCommandBuffer[COMMAND_MAXCOUNT];
			_grmCommand m_nCommandBuffer[COMMAND_MAXCOUNT];
			};

			struct _grmDitMemInfo
			@@ -551,64 +586,64 @@

			void clear()
			{
			if (m_bRefAlloc) { m_pGlassRawData = NULL; return; }
			if(m_bRefAlloc) { m_pGlassRawData = NULL; return;}

			if (m_pGlassRawData)
			if(m_pGlassRawData)
			{
			delete[] m_pGlassRawData;
			delete [] m_pGlassRawData;
			m_pGlassRawData = NULL;
			}
			};
			BOOL ImportGlassRaw(_grmDitMemInfo* pInfo, char* pData, bool bRefAlloc = false)
			{
			if (pInfo == NULL) return FALSE;
			if(pInfo == NULL) return FALSE;

			if (m_pGlassRawData && pInfo->m_nGlassRawDataSize != m_MemInfo.m_nGlassRawDataSize) clear();
			if(m_pGlassRawData && pInfo->m_nGlassRawDataSize != m_MemInfo.m_nGlassRawDataSize) clear();

			if (m_pGlassRawData == NULL) m_pGlassRawData = new char[pInfo->m_nGlassRawDataSize];
			if(m_pGlassRawData == NULL) m_pGlassRawData = new char[ pInfo->m_nGlassRawDataSize ];

			m_MemInfo = *pInfo;

			m_nGlassRawDataSize = pInfo->m_nGlassRawDataSize;

			m_nGlassMaxDataNum = pInfo->m_nGlassMaxDataNum;
			m_nBlockMaxDataNum = pInfo->m_nBlockMaxDataNum;
			m_nCellMaxDataNum = pInfo->m_nCellMaxDataNum;
			m_nGlassMaxDataNum = pInfo->m_nGlassMaxDataNum ;
			m_nBlockMaxDataNum = pInfo->m_nBlockMaxDataNum ;
			m_nCellMaxDataNum = pInfo->m_nCellMaxDataNum ;
			m_nDefectMaxDataNum = pInfo->m_nDefectMaxDataNum;
			m_nStackMaxDataNum = pInfo->m_nStackMaxDataNum ;

			m_nGlassDataPoint = pInfo->m_nGlassDataPoint;
			m_nBlockDataPoint = pInfo->m_nBlockDataPoint;
			m_nCellDataPoint = pInfo->m_nCellDataPoint;
			m_nDefectDataPoint = pInfo->m_nDefectDataPoint;
			m_nGlassDataPoint = pInfo->m_nGlassDataPoint ;
			m_nBlockDataPoint = pInfo->m_nBlockDataPoint ;
			m_nCellDataPoint = pInfo->m_nCellDataPoint ;
			m_nDefectDataPoint = pInfo->m_nDefectDataPoint ;
			m_nStackDataPoint = pInfo->m_nStackDataPoint ;

			m_nSizeOfGlassData = pInfo->m_nSizeOfGlassData;
			m_nSizeOfBlockData = pInfo->m_nBlockDataPoint;
			m_nSizeOfCellData = pInfo->m_nSizeOfCellData;
			m_nSizeOfGlassData = pInfo->m_nSizeOfGlassData ;
			m_nSizeOfBlockData = pInfo->m_nBlockDataPoint ;
			m_nSizeOfCellData = pInfo->m_nSizeOfCellData ;
			m_nSizeOfDefectData = pInfo->m_nSizeOfDefectData;
			m_nSizeOfStackData = pInfo->m_nSizeOfStackData ;

			if (bRefAlloc)
			if(bRefAlloc)
			{
			m_pGlassRawData = pData;
			}
			else
			{
			if (pData)
			if(pData)
			{
			memcpy(m_pGlassRawData, pData, sizeof(char)*pInfo->m_nGlassRawDataSize);
			}
			else
			{
			memset(m_pGlassRawData, 0, sizeof(char)*pInfo->m_nGlassRawDataSize);
			memset(m_pGlassRawData, 0, sizeof(char)*pInfo->m_nGlassRawDataSize );
			}
			}


			m_pGlassData = (_grmGlassData*)&m_pGlassRawData[pInfo->m_nGlassDataPoint];
			m_pBlockData = (_grmBlockData*)&m_pGlassRawData[pInfo->m_nBlockDataPoint];
			m_pCellData = (_grmCellData*)&m_pGlassRawData[pInfo->m_nCellDataPoint];
			m_pGlassData = (_grmGlassData*)&m_pGlassRawData[pInfo->m_nGlassDataPoint];
			m_pBlockData = (_grmBlockData*)&m_pGlassRawData[pInfo->m_nBlockDataPoint];
			m_pCellData = (_grmCellData*)&m_pGlassRawData[pInfo->m_nCellDataPoint];
			m_pDefectData = (_grmDefectData*)&m_pGlassRawData[pInfo->m_nDefectDataPoint];
			m_pStackData = (_grmDefectData*)&m_pGlassRawData[pInfo->m_nStackDataPoint];

			@@ -617,36 +652,36 @@
			};
			BOOL ExportGlassRaw(_grmDitMemInfo* pInfo, char* pData)
			{
			if (pInfo == NULL \|\| pData == NULL) return FALSE;
			if(pInfo == NULL \|\| pData == NULL) return FALSE;

			if (1) //new type //메모리 총 공간 크기에 상관없이
			if(1) //new type //메모리 총 공간 크기에 상관없이
			{
			//if(pInfo->m_nGlassRawDataSize != m_MemInfo.m_nGlassRawDataSize) return FALSE;

			if (pInfo->m_nSizeOfGlassData != m_MemInfo.m_nSizeOfGlassData) return FALSE;
			if (pInfo->m_nSizeOfBlockData != m_MemInfo.m_nSizeOfBlockData) return FALSE;
			if (pInfo->m_nSizeOfCellData != m_MemInfo.m_nSizeOfCellData) return FALSE;
			if (pInfo->m_nSizeOfDefectData != m_MemInfo.m_nSizeOfDefectData) return FALSE;
			if(pInfo->m_nSizeOfGlassData != m_MemInfo.m_nSizeOfGlassData) return FALSE;
			if(pInfo->m_nSizeOfBlockData != m_MemInfo.m_nSizeOfBlockData) return FALSE;
			if(pInfo->m_nSizeOfCellData != m_MemInfo.m_nSizeOfCellData) return FALSE;
			if(pInfo->m_nSizeOfDefectData != m_MemInfo.m_nSizeOfDefectData) return FALSE;
			if(pInfo->m_nSizeOfStackData != m_MemInfo.m_nSizeOfStackData) return FALSE;

			if (pInfo->m_nCellMaxDataNum < m_pGlassData->m_nCellNum) return FALSE;
			if (pInfo->m_nDefectMaxDataNum < m_pGlassData->m_nDefectNum) return FALSE;
			if(pInfo->m_nCellMaxDataNum < m_pGlassData->m_nCellNum) return FALSE;
			if(pInfo->m_nDefectMaxDataNum < m_pGlassData->m_nDefectNum) return FALSE;
			if(pInfo->m_nStackMaxDataNum < m_pGlassData->m_nDefectNum) return FALSE;

			memcpy(&pData[pInfo->m_nGlassDataPoint], m_pGlassData, pInfo->m_nSizeOfGlassData * 1);
			memcpy(&pData[pInfo->m_nBlockDataPoint], m_pBlockData, pInfo->m_nSizeOfBlockData * 1);
			memcpy(&pData[pInfo->m_nCellDataPoint], m_pCellData, pInfo->m_nSizeOfCellData*m_pGlassData->m_nCellNum);
			memcpy(&pData[pInfo->m_nGlassDataPoint], m_pGlassData, pInfo->m_nSizeOfGlassData* 1);
			memcpy(&pData[pInfo->m_nBlockDataPoint], m_pBlockData, pInfo->m_nSizeOfBlockData* 1);
			memcpy(&pData[pInfo->m_nCellDataPoint], m_pCellData, pInfo->m_nSizeOfCellData*m_pGlassData->m_nCellNum);
			memcpy(&pData[pInfo->m_nDefectDataPoint], m_pDefectData, pInfo->m_nSizeOfDefectData*m_pGlassData->m_nDefectNum);
			memcpy(&pData[pInfo->m_nStackDataPoint], m_pStackData, pInfo->m_nSizeOfStackData*m_pGlassData->m_nDefectNum);
			}
			else //if() //type old
			{
			if (pInfo->m_nGlassRawDataSize != m_MemInfo.m_nGlassRawDataSize) return FALSE;
			if(pInfo->m_nGlassRawDataSize != m_MemInfo.m_nGlassRawDataSize) return FALSE;

			if (pInfo->m_nSizeOfGlassData != m_MemInfo.m_nSizeOfGlassData) return FALSE;
			if (pInfo->m_nSizeOfBlockData != m_MemInfo.m_nSizeOfBlockData) return FALSE;
			if (pInfo->m_nSizeOfCellData != m_MemInfo.m_nSizeOfCellData) return FALSE;
			if (pInfo->m_nSizeOfDefectData != m_MemInfo.m_nSizeOfDefectData) return FALSE;
			if(pInfo->m_nSizeOfGlassData != m_MemInfo.m_nSizeOfGlassData) return FALSE;
			if(pInfo->m_nSizeOfBlockData != m_MemInfo.m_nSizeOfBlockData) return FALSE;
			if(pInfo->m_nSizeOfCellData != m_MemInfo.m_nSizeOfCellData) return FALSE;
			if(pInfo->m_nSizeOfDefectData != m_MemInfo.m_nSizeOfDefectData) return FALSE;

			memcpy(pData, m_pGlassRawData, sizeof(char)*pInfo->m_nGlassRawDataSize);
			}
			@@ -655,11 +690,11 @@
			return TRUE;
			};

			_grmGlassData* GetGlassData() { return m_pGlassData; };
			_grmBlockData* GetBlockData(int nIndex) { return &m_pBlockData[nIndex]; };
			_grmCellData* GetCellData(int nIndex) { return &m_pCellData[nIndex]; };
			_grmDefectData* GetDefectData(int nIndex) { return &m_pDefectData[nIndex]; };
			_grmDitMemInfo* GetMemInfo() { return &m_MemInfo; };
			_grmGlassData* GetGlassData(){return m_pGlassData;};
			_grmBlockData* GetBlockData(int nIndex){return &m_pBlockData[nIndex];};
			_grmCellData* GetCellData(int nIndex){return &m_pCellData[nIndex];};
			_grmDefectData* GetDefectData(int nIndex){return &m_pDefectData[nIndex];};
			_grmDitMemInfo* GetMemInfo(){return &m_MemInfo;};
			_grmDefectData* GetStackData(int nIndex) { return &m_pStackData[nIndex]; };
			protected:
			_grmDitMemInfo m_MemInfo;