OTS/OTSCPP/OTSControl/Simulate/OTSEDSSim.cpp

#include "stdafx.h"
#include "OTSEDSSim.h"
#include "OTSImageProcess.h"

namespace OTSController {

	using namespace OTSIMGPROC;

	COTSEDSSim::COTSEDSSim()
	{
		m_bDoQuantification = FALSE;
	}


	COTSEDSSim::~COTSEDSSim()
	{
	}





	//void COTSEDSSim::FinishedInstance()
	//{
	//	return;
	//}

	// initialization
	BOOL COTSEDSSim::Init()
	{
		// simulation, never be wrong
		return TRUE;		
	}

	

	// collect spectrum at the given position (to controller buffer)
	BOOL COTSEDSSim::CollectSpectrum(DWORD a_nMilliseconds, const CPoint& a_oPoint)
	{
		// read simulation spectrum into buffer
		memset(m_nRayData, 0, sizeof(DWORD) * (long)EDSConst::XANA_CHANNELS);
		if (!CollectASpectrumFromTxtFile(m_nRayData, (DWORD)EDSConst::XANA_CHANNELS))
		{
			// failed to call CollectASpectrumFromTxtFile method
			LogTrace(__FILE__, __LINE__, _T("COTSEDSSim::CollectSpectrum: failed to call CollectASpectrumFromTxtFile method."));
		}

		// always return TRUE
		return TRUE;
	
	}

	// collects spectrum (to controller buffer)
	BOOL COTSEDSSim::CollectSpectrum(DWORD a_nMilliseconds)
	{
		
		// read simulation spectrum into buffer
		memset(m_nRayData, 0, sizeof(DWORD) * (long)EDSConst::XANA_CHANNELS);
		if (!CollectASpectrumFromTxtFile(m_nRayData, (DWORD)EDSConst::XANA_CHANNELS))
		{
			// failed to call CollectASpectrumFromTxtFile method
			LogTrace(__FILE__, __LINE__, _T("COTSEDSSim::CollectSpectrum: failed to call CollectASpectrumFromTxtFile method."));
		}

		// always return TRUE
		return TRUE;
		
	}

	// collects spectrum (to given buffer)
	BOOL COTSEDSSim::CollectSpectrum(DWORD a_nMilliseconds, long* a_pCounts, DWORD a_nBufferSize)
	{
		// input check
		ASSERT(a_pCounts);
		if (!a_pCounts)
		{
			// invalid input data buffer
			LogTrace(__FILE__, __LINE__, _T("COTSEDSSim::CollectSpectrum: invalid input data buffer."));
			return FALSE;
		}

		// read simulation spectrum into buffer
		memset(a_pCounts, 0, sizeof(long) * (long)a_nBufferSize);
		if (!CollectASpectrumFromTxtFile((DWORD*)a_pCounts, a_nBufferSize))
		{
			// failed to call CollectASpectrumFromTxtFile method
			LogTrace(__FILE__, __LINE__, _T("COTSEDSSim::CollectSpectrum: failed to call CollectASpectrumFromTxtFile method."));
		}

		// always return TRUE
		return TRUE;
		
	}
	BOOL COTSEDSSim::StopXrayAcquistion()
	{
		return true;
	}
	// get live time
	float COTSEDSSim::GetLiveTime()
	{
		// is simulation?
		return (float)0.1;		
	}


	BOOL  COTSEDSSim::IsSupportQuantification()
	{
		return TRUE;		
	}

	BOOL  COTSEDSSim::GetQuantificationMethods(std::vector<CString>& a_vMethods)
	{
		return TRUE;
	}

	BOOL  COTSEDSSim::QuantifyXrayPoint(CPosXray* a_pXRayPoint, LPCTSTR a_sMethodName)
	{
		return TRUE;		
	}

	BOOL  COTSEDSSim::QuantifySpectrumFile(LPCTSTR a_sFilePathName, LPCTSTR a_sMethodName, CElementChemistriesList& a_listElementChemistry)
	{
		return TRUE;		
	}

	BOOL COTSEDSSim::QuantifySpectrumOut(DWORD a_nMilliseconds, long* a_pCounts, DWORD a_nBufferSize, CElementChemistriesList& a_listElementChemistry)
	{
		return TRUE;
	}

	BOOL COTSEDSSim::GetXRayByPoints(std::vector<CPosXrayPtr>& a_vXRayPoints, const DWORD a_nXRayAQTime)
	{
		// read simulation spectrum into buffer
		memset(m_nRayData, 0, sizeof(DWORD) * (long)EDSConst::XANA_CHANNELS);
		if (!CollectASpectrumFromTxtFile(m_nRayData, (DWORD)EDSConst::XANA_CHANNELS))
		{
			// failed to call CollectASpectrumFromTxtFile method
			LogTrace(__FILE__, __LINE__, _T("COTSEDSSim::GetXRayByPoints: failed to call CollectASpectrumFromTxtFile method."));
		}
		int icount = 0;

		for (auto pXrayPoi : a_vXRayPoints)
		{
			std::vector<CString> eleList;
			for each (CElementChemistryPtr var in pXrayPoi->GetElementQuantifyData())
			{
				eleList.push_back(var->GetName());
			}
			bool isFilter = true;
			if (eleList.size() != 0)
			{
				isFilter = COTSImageProcess::FindPeaks(m_nRayData, eleList);
			}

			pXrayPoi->SetXrayData(m_nRayData);

			CString sResult = "";
			CElementChemistriesList listElementQuantifyData;
			CElementPtr pElement = CElementPtr(new CElement());
			if (m_bDoQuantification && isFilter)
			{
				switch (icount % 7)
				{
				case 0://MnS
					sResult = _T("Quant=Al,K-Serie,19\nQuant=O,L-Serie,39\nQuant=Ca,L-Serie,20");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;

				case 1://FeO
					sResult = _T("Quant=O,K-Serie,4.84\nQuant=Al,L-Serie,1.47\nQuant=S,L-Serie,1.6\nQuant=Si,L-Serie,2.42\nQuant=Mn,L-Serie,2.97\nQuant=Fe,L-Serie,80.361");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;

				case 3://Sulfide
					sResult = _T("Quant=C,K-Serie,1.057\nQuant=S,L-Serie,2.177\nQuant=Fe,L-Serie,84.592");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;

				case 4://Silicate
					sResult = _T("Quant=O,K-Serie,9.75\nQuant=Al,L-Serie,1.08\nQuant=Si,L-Serie,5.261\nQuant=Mn,L-Serie,11.204\nQuant=Fe,L-Serie,50.403");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;

				case 5://SiO2
					sResult = _T("Quant=C,K-Serie,12.563\nQuant=O,L-Serie,1.906\nQuant=Si,L-Serie,26.126\nQuant=Fe,L-Serie,54.61");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;

				case 6://AlO2
					sResult = _T("Quant=Al,K-Serie,40\nQuant=O,L-Serie,40\nQuant=Fe,L-Serie,20");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;

				//case 7:
				//	sResult = _T("Quant=Al,K-Serie,1\nQuant=O,L-Serie,2\nQuant=Fe,L-Serie,2");
				//	listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
				//	pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
				//	break;

				//case 8:
				//	sResult = _T("Quant=Fe,K-Serie,10\nQuant=C,L-Serie,30\nQuant=F,L-Serie,25");
				//	listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
				//	pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
				//	break;

				//case 9:
				//	sResult = _T("Quant=O,K-Serie,40\nQuant=Si,L-Serie,40\nQuant=C,L-Serie,1");
				//	listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
				//	pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
				//	break;

				default://Not Identified
					sResult = _T("Quant=C,K-Serie,7.992\nQuant=Si,L-Serie,15.969\nQuant=Fe,L-Serie,69.805");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;
				}

				icount++;

			}
		}
	
		Sleep(500);
		// always return TRUE
		return TRUE;
		
		
	}
	BOOL COTSEDSSim::GetXRayByFeatures(std::vector<CPosXrayPtr>& a_listXRayPoints,
		std::vector<BrukerFeature>& a_vFeatures,
		const DWORD a_nXRayAQTime)
	{
		// read simulation spectrum into buffer
		memset(m_nRayData, 0, sizeof(DWORD) * (long)EDSConst::XANA_CHANNELS);
		if (!CollectASpectrumFromTxtFile(m_nRayData, (DWORD)EDSConst::XANA_CHANNELS))
		{
			// failed to call CollectASpectrumFromTxtFile method
			LogTrace(__FILE__, __LINE__, _T("COTSEDSSim::GetXRayByFeatures: failed to call CollectASpectrumFromTxtFile method."));
		}
		int icount = 0;
		for (auto pXrayPoi : a_listXRayPoints)
		{
			pXrayPoi->SetXrayData(m_nRayData);
			if (m_bDoQuantification)
			{
				CString sResult = "";
				CElementChemistriesList listElementQuantifyData;

				//CString sResult = _T("Quant=O,K-Serie,28.5\nQuant=Al,L-Serie,26.4\nQuant=S,L-Serie,1.6\nQuant=Ca,L-Serie,15.8\nQuant=Fe,L-Serie,9.5");
				//CString sResult = _T("Quant=O,K-Serie,28.5\nQuant=Fe,L-Serie,49.5");
				CElementPtr pElement = CElementPtr(new CElement());
				//listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
				switch (icount % 7)
				{
				case 0://MnS
					sResult = _T("Quant=O,K-Serie,28.5\nQuant=S,L-Serie,10\nQuant=Mn,L-Serie,20\nQuant=Fe,L-Serie,9.5");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;

				case 1://FeO
					sResult = _T("Quant=O,K-Serie,4.84\nQuant=Al,L-Serie,1.47\nQuant=S,L-Serie,1.6\nQuant=Si,L-Serie,2.42\nQuant=Mn,L-Serie,2.97\nQuant=Fe,L-Serie,80.361");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;

				case 3://Sulfide
					sResult = _T("Quant=C,K-Serie,1.057\nQuant=S,L-Serie,2.177\nQuant=Fe,L-Serie,84.592");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;

				case 4://Silicate
					sResult = _T("Quant=O,K-Serie,9.75\nQuant=Al,L-Serie,1.08\nQuant=Si,L-Serie,5.261\nQuant=Mn,L-Serie,11.204\nQuant=Fe,L-Serie,50.403");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;

				case 5://SiO2
					sResult = _T("Quant=C,K-Serie,12.563\nQuant=O,L-Serie,1.906\nQuant=Si,L-Serie,26.126\nQuant=Fe,L-Serie,54.61");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;

				case 6://AlO2
					sResult = _T("Quant=Al,K-Serie,40\nQuant=O,L-Serie,40\nQuant=Fe,L-Serie,20");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;

				//case 7:
				//	sResult = _T("Quant=Al,K-Serie,1\nQuant=O,L-Serie,2\nQuant=Fe,L-Serie,2");
				//	listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
				//	pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
				//	break;

				//case 8:
				//	sResult = _T("Quant=Fe,K-Serie,10\nQuant=C,L-Serie,30\nQuant=F,L-Serie,25");
				//	listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
				//	pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
				//	break;

				//case 9:
				//	sResult = _T("Quant=O,K-Serie,40\nQuant=Si,L-Serie,40\nQuant=C,L-Serie,1");
				//	listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
				//	pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
				//	break;

				default://Not Identified
					sResult = _T("Quant=C,K-Serie,7.992\nQuant=Si,L-Serie,15.969\nQuant=Fe,L-Serie,69.805");
					listElementQuantifyData = pElement->ExtractElementChemistrys(sResult);
					pXrayPoi->SetElementQuantifyData(listElementQuantifyData);
					break;
				}

				icount++;
			}

		}

		// always return TRUE
		return TRUE;
		
	}

	//BOOL COTSEDSSim::GetXRayByFeaturesFromMultiPoint(std::vector<CPosXrayPtr>& a_listXRayPoints,
	//	std::vector<std::vector<BrukerSegment>>& a_listFeatures,
	//	const DWORD a_nXRayAQTime)
	//{
	//	int nPointNum = 0;
	//	for (auto pFeature: a_listFeatures)
	//	{
	//		std::vector<CPosXrayPtr> listXRayPoints;

	//		std::vector<BrukerSegment> listSegment = pFeature;
	//		int nSize = listSegment.size();
	//		for (int i = 0; i < nSize -2; i= i+2)
	//		{
	//			BrukerSegment pSegment = listSegment[i];
	//			int nLength = pSegment.XCount;
	//			int nStart = pSegment.XStart;

	//			CPoint pt;
	//			pt.x = nStart;
	//			pt.y = nStart + nLength / 2 ;

	//			CPosXrayPtr pXray = CPosXrayPtr(new CPosXray());
	//			pXray->SetPosition(pt);
	//			listXRayPoints.push_back(pXray);
	//		}

	//		if (!GetXRayByPoints(listXRayPoints, a_nXRayAQTime))
	//		{
	//			LogErrorTrace(__FILE__, __LINE__, _T("GetXRayByFeaturesFromMultiPoint: Can't get xray from points."));
	//			return FALSE;
	//		}

	//		int nNum = 0;
	//		DWORD XRayData[GENERALXRAYCHANNELS];
	//		memset(XRayData, 0, sizeof(DWORD) *GENERALXRAYCHANNELS);
	//		for (auto pXRayPoint : listXRayPoints)
	//		{		
	//			
	//			DWORD* pXRayData;
	//			pXRayData = pXRayPoint->GetXrayData();
	//			
	//			for (int m = 0; m < GENERALXRAYCHANNELS; m++)
	//			{
	//				XRayData[m] += pXRayData[m];
	//			}
	//			nNum++;
	//		}

	//		if (nNum == 0)
	//		{
	//			LogErrorTrace(__FILE__, __LINE__, _T("GetXRayByFeaturesFromMultiPoint:there is points."));
	//			return FALSE;
	//		}

	//		for (int k = 0; k < GENERALXRAYCHANNELS; k++)
	//		{
	//			XRayData[k] = (int)((double)XRayData[k]/(double)nNum + 0.5);
	//		}

	//		CPosXrayPtr pXrayPoint = CPosXrayPtr(new CPosXray());

	//		a_listXRayPoints[nPointNum]->SetXrayData(XRayData);
	//		nPointNum++;
	//	}
	//	
	//	// always return TRUE
	//	return TRUE;
	//}

	void COTSEDSSim::SetQuantification(BOOL a_bQuantification)
	{
		m_bDoQuantification = a_bQuantification;
		return;
	}

	BOOL COTSEDSSim::GetQuantification()
	{
		return TRUE;
	}

	// Get number of channels
	DWORD COTSEDSSim::GetNumberOfChannels(void)
	{
		return (DWORD)2000;
	}

	// Get the x-Ray data
	DWORD* COTSEDSSim::GetXRayData()
	{
		return m_nRayData;
	}
	

}