#pragma once #include "stdafx.h" #include "OTSSTDLib.h" #include "OTSClassifyOnSpectrumCompEng.h" #include "OTSHelper.h" using namespace std; using namespace OTSTools; namespace OTSClassifyEngine { CClassifyOnSpectrumCompEng::CClassifyOnSpectrumCompEng(int iStartChannel, CSTDLibPtr stdLib ) // constructor { m_iStartChannel = iStartChannel; m_stdLib = stdLib; } CClassifyOnSpectrumCompEng::~CClassifyOnSpectrumCompEng()// detractor { } int CClassifyOnSpectrumCompEng::GetMatchingSTDId( CPosXrayPtr posxray, double& dValue) { if (m_stdLib->GetSTDItemCount() < 1) { return -1; } int id = 0; // 存储最相似的那个mineralid double dcos = 0; dValue = -100000; // 获取最大的相似值 for (unsigned int i = 0; i < m_stdLib->GetSTDItemCount(); i++) { dcos = GetCosValue( posxray, m_stdLib->GetSTDItem(i)->GetXraySpectrum(), m_stdLib->GetSTDItem (i)->GetXraySpectrum()->GetChannelsNum()); if (dcos > dValue) { dValue = dcos; id = m_stdLib->GetSTDItem (i)->GetID(); } } return id; } CSTDSpectrumItemPtr CClassifyOnSpectrumCompEng::GetMatchingSTD( CPosXrayPtr posxray, double& dValue) { CSTDSpectrumItemPtr itm; // 存储最相似的那个mineral int stdItemCount = m_stdLib->GetSTDItemCount(); if (stdItemCount < 1) { return itm; } double dcos = 0; double dSimilarity = -1000; // 获取最大的相似值 int idx = -1; for (unsigned int i = 0; i < stdItemCount; i++) { dcos = GetCosValue(posxray, m_stdLib->GetSTDItem(i)->GetXraySpectrum(), m_stdLib->GetSTDItem(i)->GetXraySpectrum()->GetChannelsNum()); if (dcos > dSimilarity) { dSimilarity = dcos; idx = i; } } dValue = dSimilarity; itm = m_stdLib->GetSTDItem(idx); return itm; } CSTDSpectrumItemList CClassifyOnSpectrumCompEng::GetSTDOrderListBySpectrumMatching(CPosXrayPtr spectrum) { CSTDSpectrumItemList itms; std::map similaritymap; int stdItemCount = m_stdLib->GetSTDItemCount(); if (stdItemCount < 1) { return itms; } double dcos = 0; double dSimilarity = -1000; // 获取最大的相似值 int idx = -1; for (unsigned int i = 0; i < stdItemCount; i++) { dcos = GetCosValue(spectrum, m_stdLib->GetSTDItem(i)->GetXraySpectrum(), m_stdLib->GetSTDItem(i)->GetXraySpectrum()->GetChannelsNum()); similaritymap[dcos] = m_stdLib->GetSTDItem(i); } auto itmIter = similaritymap.rbegin(); while (itmIter!=similaritymap.rend()) { itms.push_back(itmIter->second); itmIter++; } return itms; } // 20190903:增加参数iStartChannel哪个位置开始比较, vecIgnoreChannel里面的通道不处理, double CClassifyOnSpectrumCompEng::GetCosValue( CPosXrayPtr posXray,CPosXrayPtr posXray1, int iDataLen1) { if (posXray->GetChannelsNum() != iDataLen1) { return 0; } DWORD* pXrayData = posXray->GetXrayData(); DWORD* pXrayData1 = posXray1->GetXrayData(); // 公式: (x1y1+x2y2+x3y3+...x2000y2000) / (sqrt(x1^2 + x2^2 + ...x2000^2) * sqrt(y1^2 + y2^2 + ...y2000^2)) double dotProduct = 0; double d1 = 0; double d2 = 0; for (int i = m_iStartChannel; i < iDataLen1; i++) { double r1 = pXrayData[i]; double r2= pXrayData1[i]; r1 *= r2; dotProduct = dotProduct + r1; } d1 = posXray->GetXrayDataVectorNorm(); d2 = posXray1->GetXrayDataVectorNorm(); return (0 == d1 || 0 == d2) ? 0 : dotProduct / (d1 * d2); } // 20190903:增加参数iStartChannel哪个位置开始比较, vecIgnoreChannel里面的通道不处理 double CClassifyOnSpectrumCompEng::GetStdEvp( CPosXrayPtr posxray, DWORD* pXrayData1, int iDataLen1) { if (posxray->GetChannelsNum() != iDataLen1) { return 0; } DWORD* pXrayData = posxray->GetXrayData(); //bool bignore = false; DWORD iSum1 = 0; DWORD iSum2 = 0; double dAva1 = 0; double dAva2 = 0; double dSquare1 = 0; double dSquare2 = 0; int num1= iDataLen1 - m_iStartChannel; // 求出能谱的平均值 for (int i = m_iStartChannel; i < iDataLen1; i++) { // 能谱差之和 iSum1 = iSum1 + pXrayData1[i]; iSum2 = iSum2 + pXrayData[i]; } dAva1 = iSum1 /num1; dAva2 = iSum2 / num1; for (int i = m_iStartChannel; i < iDataLen1; i++) { dSquare1 = dSquare1 + (pXrayData1[i] - dAva1) * (pXrayData1[i] - dAva1); dSquare2 = dSquare2 + (pXrayData[i] - dAva1) * (pXrayData[i] - dAva1); } dSquare1 = dSquare1 / num1; dSquare2 = dSquare2 / num1; dSquare1 = sqrt(dSquare1); dSquare2 = sqrt(dSquare2); dSquare1 = dSquare1 * dAva2 / dAva1; // 归一化 return (dSquare1 < dSquare2) ? (dSquare1 / dSquare2) : (dSquare2 / dSquare1); } void CClassifyOnSpectrumCompEng::GetElementChannel(const vector& vecstrElementNames, vector& veciChannel) { veciChannel.clear(); for (unsigned int i = 0; i < (int)vecstrElementNames.size(); i++) { GetElementChannel(vecstrElementNames[i], veciChannel); } } void CClassifyOnSpectrumCompEng::GetElementChannel(CString strElementName, vector& veciChannel) { CElement* pElement = NULL; pElement = new CElement(strElementName); if (pElement) { AddChannel(pElement->GetEnergyValueK(), veciChannel); AddChannel(pElement->GetEnergyValueL(), veciChannel); AddChannel(pElement->GetEnergyValueM(), veciChannel); delete pElement; pElement = NULL; } } void CClassifyOnSpectrumCompEng::AddChannel(double dEnergy, vector& veciChannel) { int i = 0; int iChannel = 0; if (dEnergy >= 0 && dEnergy < 20) { dEnergy = dEnergy * 100; iChannel = (int)dEnergy; for (i = 0; i < (int)veciChannel.size(); i++) { if (veciChannel[i] == iChannel) { break; } } if (i >= (int)veciChannel.size()) { veciChannel.push_back(iChannel); } } } }