#include "stdafx.h" #include "PropParamClr.h" #include #include "OTSParticleClr.h" namespace OTSCLRINTERFACE { using namespace OTSCLRINTERFACE; CPropParamClr::CPropParamClr(int a_nType) { switch (a_nType) { case (int)DISPLAY_PICTURE_TYPE::IMAGE: m_LpPropParam = new CPropParamPtr(new CPropParamImage()); m_LpPropParam ->get()->SetType((DISPLAY_PICTURE_TYPE)a_nType); break; case (int)DISPLAY_PICTURE_TYPE::CHART: m_LpPropParam = new CPropParamPtr(new CPropParamChart()); m_LpPropParam->get()->SetType((DISPLAY_PICTURE_TYPE)a_nType); break; case (int)DISPLAY_PICTURE_TYPE::TABLE: m_LpPropParam = new CPropParamPtr(new CPropParamGrid()); m_LpPropParam->get()->SetType((DISPLAY_PICTURE_TYPE)a_nType); break; } } CPropParamClr::CPropParamClr(CPropParamPtr a_poSource) { ASSERT(a_poSource); if(!a_poSource) { LogErrorTrace(__FILE__, __LINE__, _T("CPropParamClr: invalid pointer.")); return; } m_LpPropParam = new CPropParamPtr(a_poSource); } CPropParamClr::~CPropParamClr() { if (m_LpPropParam != nullptr) { delete m_LpPropParam; m_LpPropParam = nullptr; } } CPropParamClr::!CPropParamClr() { if (m_LpPropParam != nullptr) { delete m_LpPropParam; m_LpPropParam = nullptr; } } CPropParamPtr CPropParamClr::GetPropParamPtr() { return *m_LpPropParam; } int CPropParamClr::GetType() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetType: invalid pointer.")); return -1; } CPropParamPtr pPropParam = GetPropParamPtr(); ASSERT(pPropParam); if (!pPropParam) { LogErrorTrace(__FILE__, __LINE__, _T("GetType: invalid pointer.")); return -1; } DISPLAY_PICTURE_TYPE nType = pPropParam->GetType(); return (int)nType; } void CPropParamClr::SetType(int a_nType) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetType: invalid pointer.")); return; } CPropParamPtr pPropParam = GetPropParamPtr(); ASSERT(pPropParam); if (!pPropParam) { LogErrorTrace(__FILE__, __LINE__, _T("SetType: invalid pointer.")); return; } pPropParam->SetType((DISPLAY_PICTURE_TYPE)a_nType); } // property items list List^ CPropParamClr::GetPropItemsList() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetPropItemsList: invalid pointer.")); return nullptr; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("GetPropItemsList: invalid pointer.")); return nullptr; } List^ ItemsListClr = gcnew List(); CPropItemsList ItemsList = PropParamPtr->GetPropItemsList(); for (auto pItem : ItemsList) { CPropItemClr^ ItemClr = gcnew CPropItemClr(pItem); ItemsListClr->Add(ItemClr); } return ItemsListClr; } bool CPropParamClr::SetPropertyItems() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetPropItemsList: invalid pointer.")); return false; } CPropParamPtr PropParamPtr = *m_LpPropParam; ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("GetPropItemsList: invalid pointer.")); return false; } PropParamPtr->SetPropertyItems(); return true; } List^ CPropParamClr::GetDataSourceList() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetDataSourceList: invalid pointer.")); return nullptr; } CPropParamPtr pPropParam = GetPropParamPtr(); ASSERT(pPropParam); if (!pPropParam) { LogErrorTrace(__FILE__, __LINE__, _T("GetDataSourceList: invalid pointer.")); return nullptr; } std::vector listDataSource = pPropParam->GetDataSourceList(); List^ listDataSourceClr = gcnew List(); for (auto sDataSource : listDataSource) { String^ DataSourceClr = gcnew String(sDataSource); listDataSourceClr->Add(DataSourceClr); } return listDataSourceClr; } // data source id bool CPropParamClr::SetDataSourceList(List^ a_listDataSource) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetDataSourceList: invalid pointer.")); return false; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("SetDataSourceList: invalid pointer.")); return false; } std::vector VString; for (int i=0; iCount; i++) { VString.push_back(a_listDataSource[i]); } bool bRet = PropParamPtr->SetDataSourceList(VString); return bRet; } int CPropParamClr::GetDataSourceId() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetDataSourceId: invalid pointer.")); return -1; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("GetDataSourceId: invalid pointer.")); return -1; } return PropParamPtr->GetDataSourceId(); } bool CPropParamClr::SetDataSourceId(int a_nDataSourceId) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetDataSourceId: invalid pointer.")); return false; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("SetDataSourceId: invalid pointer.")); return false; } if (!PropParamPtr->SetDataSourceId(a_nDataSourceId)) { LogErrorTrace(__FILE__, __LINE__, _T("(SetDataSourceId )SetDataSourceId(a_nDataSourceI = %d) = false "), a_nDataSourceId); return false; } return true; } int CPropParamClr::GetDataSourceType() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetDataSourceType: invalid pointer.")); return (int)DATA_SOURCE_TYPE::INVALID; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("GetDataSourceType: invalid pointer.")); return (int)DATA_SOURCE_TYPE::INVALID; } return (int)PropParamPtr->GetDataSourceType(); } // data source type bool CPropParamClr::SetDataSourceType(int a_nDataSourceType) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetDataSourceType: invalid pointer.")); return false; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("SetDataSourceType: invalid pointer.")); return false; } if (!PropParamPtr->SetDataSourceType((DATA_SOURCE_TYPE)a_nDataSourceType)) { LogErrorTrace(__FILE__, __LINE__, _T("(SetDataSourceType )SetDataSourceType(a_nDataSourceType = %d) = false "), a_nDataSourceType); return false; } return true; } COTSParticleListClr^ CPropParamClr::GetSelectParticle() { COTSParticleListClr^ listSelectParticleClr = gcnew COTSParticleListClr(); if (m_LpPropParam != nullptr) { COTSParticleList listSelectParticle = m_LpPropParam->get()->GetSelectParticle(); for (auto pParticle : listSelectParticle) { COTSParticleClr^ ParticleClr = gcnew COTSParticleClr(pParticle); listSelectParticleClr->Add(ParticleClr); } } return listSelectParticleClr; } bool CPropParamClr::SetSelectParticle(COTSParticleListClr^ a_listSelectParticle) { ASSERT(a_listSelectParticle); if (!a_listSelectParticle) { LogErrorTrace(__FILE__, __LINE__, _T("SetSelectParticle: invalid SelectParticle pointer.")); return false; } bool bResult = false; if (m_LpPropParam != nullptr) { std::vector listSelectParticle; for (int i = 0; i < (int)a_listSelectParticle->Count; i++) { listSelectParticle.push_back(a_listSelectParticle[i]->GetOTSParticlePtr()); } m_LpPropParam->get()->SetSelectParticle(listSelectParticle); bResult = true; } return bResult; } int CPropParamClr::GetImageType() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetImageType: invalid pointer.")); return (int)IMAGE_TYPE::INVALID; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("GetImageType: invalid pointer.")); return (int)IMAGE_TYPE::INVALID; } return (int)PropParamPtr->GetImageType(); } // image type bool CPropParamClr::SetImageType(int a_nImageType) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetImageType: invalid pointer.")); return false; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("SetImageType: invalid pointer.")); return false; } if (!PropParamPtr->SetImageType((IMAGE_TYPE)a_nImageType)) { LogErrorTrace(__FILE__, __LINE__, _T("(SetImageType )SetImageType(a_nImageType = %d) = false "), a_nImageType); return false; } return true; } int CPropParamClr::GetImageDisplayType() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetImageDisplayType: invalid pointer.")); return (int)IMAGE_DISPLAY_TYPE::INVALID; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("GetImageDisplayType: invalid pointer.")); return (int)IMAGE_DISPLAY_TYPE::INVALID; } return (int)PropParamPtr->GetImageDisplayType(); } // image display type bool CPropParamClr::SetImageDisplayType(int a_nImageDisplayType) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetImageDisplayType: invalid pointer.")); return false; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("SetImageDisplayType: invalid pointer.")); return false; } if (!PropParamPtr->SetImageDisplayType((IMAGE_DISPLAY_TYPE)a_nImageDisplayType)) { LogErrorTrace(__FILE__, __LINE__, _T("(SetImageDisplayType )SetImageDisplayType(a_nImageDisplayType = %d) = false "), a_nImageDisplayType); return false; } return true; } int CPropParamClr::GetMeasureDataType() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetMeasureDataType: invalid pointer.")); return (int)MEASURE_DATA_TYPE::INVALID; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("GetMeasureDataType: invalid pointer.")); return (int)MEASURE_DATA_TYPE::INVALID; } return (int)PropParamPtr->GetMeasureDataType(); } // measure data type bool CPropParamClr::SetMeasureDataType(int a_nMeasureDataType) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetMeasureDataType: invalid pointer.")); return false; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("SetMeasureDataType: invalid pointer.")); return false; } if (!PropParamPtr->SetMeasureDataType((MEASURE_DATA_TYPE)a_nMeasureDataType)) { LogErrorTrace(__FILE__, __LINE__, _T("(SetMeasureDataType )SetMeasureDataType(a_nMeasureDataType = %d) = false "), a_nMeasureDataType); return false; } return true; } int CPropParamClr::GetCalTableType() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetCalTableType: invalid pointer.")); return (int)CALCULATE_TABLE_TYPE::INVALID; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("GetCalTableType: invalid pointer.")); return (int)CALCULATE_TABLE_TYPE::INVALID; } return (int)PropParamPtr->GetCalTableType(); } // calculate table type bool CPropParamClr::SetCalTableType(int a_nCalTableType) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetCalTableType: invalid pointer.")); return false; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("SetCalTableType: invalid pointer.")); return false; } if (!PropParamPtr->SetCalTableType((CALCULATE_TABLE_TYPE)a_nCalTableType)) { LogErrorTrace(__FILE__, __LINE__, _T("(SetCalTableType )SetCalTableType(a_nCalTableType = %d) = false "), a_nCalTableType); return false; } return true; } int CPropParamClr::GetCalChartType() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetCalChartType: invalid pointer.")); return (int)CALCULATE_CHART_TYPE::INVALID; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("GetCalChartType: invalid pointer.")); return (int)CALCULATE_CHART_TYPE::INVALID; } return (int)PropParamPtr->GetCalChartType(); } // calculate chart type bool CPropParamClr::SetCalChartType(int a_nCalChartType) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetCalChartType: invalid pointer.")); return false; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("SetCalChartType: invalid pointer.")); return false; } if (!PropParamPtr->SetCalChartType((CALCULATE_CHART_TYPE)a_nCalChartType)) { LogErrorTrace(__FILE__, __LINE__, _T("(SetCalChartType )SetCalChartType(a_nCalChartType = %d) = false "), a_nCalChartType); return false; } return true; } int CPropParamClr::GetPartType() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetPartType: invalid pointer.")); return (int)PARTICLE_TYPE::INVALID; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("GetPartType: invalid pointer.")); return (int)PARTICLE_TYPE::INVALID; } return (int)PropParamPtr->GetPartType(); } // particle type bool CPropParamClr::SetPartType(int a_nPartType) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetPartType: invalid pointer.")); return false; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("SetPartType: invalid pointer.")); return false; } if (!PropParamPtr->SetPartType((PARTICLE_TYPE)a_nPartType)) { LogErrorTrace(__FILE__, __LINE__, _T("(SetPartType )SetPartType(a_nPartType = %d) = false "), a_nPartType); return false; } return true; } double CPropParamClr::GetGrainSizeMax() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetGrainSizeMax: invalid pointer.")); return 0.0; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("GetGrainSizeMax: invalid pointer.")); return 0.0; } return PropParamPtr->GetGrainSizeMax(); } // grain size max bool CPropParamClr::SetGrainSizeMax(double a_dGrainSizeMax) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetGrainSizeMax: invalid pointer.")); return false; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("SetGrainSizeMax: invalid pointer.")); return false; } if (!PropParamPtr->SetGrainSizeMax(a_dGrainSizeMax)) { LogErrorTrace(__FILE__, __LINE__, _T("(SetGrainSizeMax )SetSizeClassTableId(a_dGrainSizeMax = %d) = false "), a_dGrainSizeMax); return false; } return true; } int CPropParamClr::GetSizeCalMethodType() { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetSizeCalMethodType: invalid pointer.")); return (int)SIZE_CAL_METHOD_TYPE::INVALID; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("GetSizeCalMethodType: invalid pointer.")); return (int)SIZE_CAL_METHOD_TYPE::INVALID; } return (int)PropParamPtr->GetSizeCalMethodType(); } // size calculation method type bool CPropParamClr::SetSizeCalMethodType(int a_nSizeCalMethodType) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetSizeCalMethodType: invalid pointer.")); return false; } CPropParamPtr PropParamPtr = this->GetPropParamPtr(); ASSERT(PropParamPtr); if (!PropParamPtr) { LogErrorTrace(__FILE__, __LINE__, _T("SetSizeCalMethodType: invalid pointer.")); return false; } if (!PropParamPtr->SetSizeCalMethodType((SIZE_CAL_METHOD_TYPE)a_nSizeCalMethodType)) { LogErrorTrace(__FILE__, __LINE__, _T("(SetSizeCalMethodType )SetSizeCalMethodType(a_dGrainSizeMax = %d) = false "), a_nSizeCalMethodType); return false; } return true; } // combo data //获取Combo类型的数值 // 输入:int :属性在属性组内id Combo 返回的获取值 // 输出: 获取结果, bool, true:成功,false:失败 bool CPropParamClr::GetPropComboData(int a_nId, int% a_nValue) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetPropComboData: invalid pointer.")); return false; } bool bRet; int bResult; CPropParamPtr PropParamPtr = GetPropParamPtr(); if (PropParamPtr == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetPropComboData: invalide pointer.")); return false; } bRet = PropParamPtr->GetPropComboData((OTS_RETORT_PROP_GRID_ITEMS)a_nId, bResult); a_nValue = bResult; return bRet; } //设定属性值 // 输入:int,属性id ;string,需要设定的值 // 输出:bool,设定结果,true,成功,false, 失败 bool CPropParamClr::SetPropComboData(int a_nId, int a_nValue) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetPropComboData: invalid pointer.")); return false; } bool bRet = false; CPropParamPtr PropParamPtr = GetPropParamPtr(); if (PropParamPtr == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetPropComboData: invalide pointer.")); return false; } bRet = PropParamPtr->SetPropComboData((OTS_RETORT_PROP_GRID_ITEMS)a_nId, a_nValue); return bRet; } //获取double类型的数值 // 输入:int :属性在属性组内id double 返回的获取值 // 输出: 获取结果, bool, true:成功,false:失败 bool CPropParamClr::GetPropDoubleData(int a_nId, double% a_dValue) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetPropDoubleData: invalid pointer.")); return false; } bool bRet; double bResult; CPropParamPtr PropParamPtr = GetPropParamPtr(); if (PropParamPtr == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetPropDoubleData: invalide pointer.")); return false; } bRet = PropParamPtr->GetPropDoubleData((OTS_RETORT_PROP_GRID_ITEMS)a_nId, bResult); a_dValue = bResult; return bRet; } //设定属性值 // 输入:int,属性id ;double,需要设定的值 // 输出:bool,设定结果,true,成功,false, 失败 bool CPropParamClr::SetPropDoubleData(int a_nId, double a_dValue) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetPropDoubleData: invalid pointer.")); return false; } bool bRet = FALSE; CPropParamPtr PropParamPtr = GetPropParamPtr(); if (PropParamPtr == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("SetPropDoubleData: invalide pointer.")); return false; } bRet = PropParamPtr->SetPropDoubleData((OTS_RETORT_PROP_GRID_ITEMS)a_nId, a_dValue); return bRet; } //获取相关属性值 // 输入:int,属性id, int,返回相关属性值 // 输出:bool,设定结果,true,成功,false,失败 // get related property item bool CPropParamClr::GetRelatedPropItem(int a_nId, int% a_nRelatedPropId) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetRelatedPropItem: invalid pointer.")); return false; } bool bRet; OTS_RETORT_PROP_GRID_ITEMS bResult; CPropParamPtr PropParamPtr = GetPropParamPtr(); if (PropParamPtr == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("GetRelatedPropItem: invalide pointer.")); return false; } bRet = PropParamPtr->GetRelatedPropItem((OTS_RETORT_PROP_GRID_ITEMS)a_nId, bResult); a_nRelatedPropId = (int)bResult; return bRet; } // get related property item bool CPropParamClr::UpdateAll(int a_nId) { if (m_LpPropParam == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("UpdateAll: invalid pointer.")); return false; } bool bRet; CPropParamPtr PropParamPtr = GetPropParamPtr(); if (PropParamPtr == nullptr) { LogErrorTrace(__FILE__, __LINE__, _T("UpdateAll: invalide pointer.")); return false; } bRet = PropParamPtr->UpdateAll((OTS_RETORT_PROP_GRID_ITEMS)a_nId); return bRet; } // Get Top Name CString CPropParamClr::GetTopName() { CString nTopName = ""; if (m_LpPropParam != nullptr) { nTopName = m_LpPropParam->get()->GetTopName(); } return nTopName; } // set Top Name BOOL CPropParamClr::SetTopName(String^ a_TopName) { if (m_LpPropParam != nullptr) { return m_LpPropParam->get()->SetTopName(a_TopName); } return TRUE; } // Get Left Name CString CPropParamClr::GetLeftName() { CString nLeftName = ""; if (m_LpPropParam != nullptr) { nLeftName = m_LpPropParam->get()->GetLeftName(); } return nLeftName; } // set Left Name BOOL CPropParamClr::SetLeftName(String^ a_LeftName) { if (m_LpPropParam != nullptr) { return m_LpPropParam->get()->SetLeftName(a_LeftName); } return TRUE; } // Get Right Name CString CPropParamClr::GetRightName() { CString nRgihtName = ""; if (m_LpPropParam != nullptr) { nRgihtName = m_LpPropParam->get()->GetRightName(); } return nRgihtName; } // set Right Name BOOL CPropParamClr::SetRightName(String^ a_RightName) { if (m_LpPropParam != nullptr) { return m_LpPropParam->get()->SetRightName(a_RightName); } return TRUE; } System::Collections::Generic::List^ CPropParamClr::GetTopElementName() { System::Collections::Generic::List^ listTopElementName = gcnew System::Collections::Generic::List(); if (m_LpPropParam != nullptr) { std::vector& listElementTable = m_LpPropParam->get()->GetTopElementName(); for (auto strElementName : listElementTable) { String^ strElementNameClr = gcnew String(strElementName); listTopElementName->Add(strElementNameClr); } } return listTopElementName; } BOOL CPropParamClr::SetTopElementName(System::Collections::Generic::List^ a_listTopElementName) { ASSERT(a_listTopElementName); if (!a_listTopElementName) { LogErrorTrace(__FILE__, __LINE__, _T("SetTopElementName: invalid SetTopElementName list pointer.")); return false; } bool bResult = false; if (m_LpPropParam != nullptr) { std::vector listElementNameTables; for (int i = 0; i < (int)a_listTopElementName->Count; i++) { listElementNameTables.push_back(a_listTopElementName[i]); } bResult = m_LpPropParam->get()->SetTopElementName(listElementNameTables); } return bResult; } System::Collections::Generic::List^ CPropParamClr::GetLeftElementName() { System::Collections::Generic::List^ listLeftElementName = gcnew System::Collections::Generic::List(); if (m_LpPropParam != nullptr) { std::vector& listElementTable = m_LpPropParam->get()->GetLeftElementName(); for (auto strElementName : listElementTable) { String^ strElementNameClr = gcnew String(strElementName); listLeftElementName->Add(strElementNameClr); } } return listLeftElementName; } BOOL CPropParamClr::SetLeftElementName(System::Collections::Generic::List^ a_listLeftElementName) { ASSERT(a_listLeftElementName); if (!a_listLeftElementName) { LogErrorTrace(__FILE__, __LINE__, _T("SetLeftElementName: invalid SetLeftElementName list pointer.")); return false; } bool bResult = false; if (m_LpPropParam != nullptr) { std::vector listElementNameTables; for (int i = 0; i < (int)a_listLeftElementName->Count; i++) { listElementNameTables.push_back(a_listLeftElementName[i]); } bResult = m_LpPropParam->get()->SetLeftElementName(listElementNameTables); } return bResult; } System::Collections::Generic::List^ CPropParamClr::GetRightElementName() { System::Collections::Generic::List^ listRightElementName = gcnew System::Collections::Generic::List(); if (m_LpPropParam != nullptr) { std::vector& listElementTable = m_LpPropParam->get()->GetRightElementName(); for (auto strElementName : listElementTable) { String^ strElementNameClr = gcnew String(strElementName); listRightElementName->Add(strElementNameClr); } } return listRightElementName; } BOOL CPropParamClr::SetRightElementName(System::Collections::Generic::List^ a_listRightElementName) { ASSERT(a_listRightElementName); if (!a_listRightElementName) { LogErrorTrace(__FILE__, __LINE__, _T("SetRightElementName: invalid SetRightElementName list pointer.")); return false; } bool bResult = false; if (m_LpPropParam != nullptr) { std::vector listElementNameTables; for (int i = 0; i < (int)a_listRightElementName->Count; i++) { listElementNameTables.push_back(a_listRightElementName[i]); } bResult = m_LpPropParam->get()->SetRightElementName(listElementNameTables); } return bResult; } }