#include "EXDataView.h" #include "EXDataTableView.h" #include "dbService/SchemeProcessService.h" #include "dbService/ClassSet.h" #include "dbService/CNodeDataService.h" #include "dbService/NodeMatrixService.h" #include #include #include #include #include #include EXDataView::EXDataView(ProjectInfo *proj, QWidget *parent) : EXEvalView(proj, parent) { setTitle("数据采集"); connect(m_tab, &QTabWidget::currentChanged, this, &EXDataView::slotTabCurrentChanged); } void EXDataView::setType(int type) { EXEvalView::setType(type); setupTabWidget(); } /// /// \brief EXDataView::setupTabWidget /// 根据评估类型, 评估方案, 评估算法, 加载合适的数据导入界面 void EXDataView::setupTabWidget() { m_tab->clear(); QMap> nodeListMap; for (int i : indexList()) { // 获取指标体系数据 QList nodeList; bool ret = CNodeDataService().QueryAll(nodeList, m_proj->id, i); if (ret) { nodeListMap[i] = nodeList; } else { return; } // 获取方案规划数据 QList processList; ret = SchemeProcessService().QueryAllByProjectIdAndIndexType(processList, m_proj->id, i); if (ret == false) { return; } ProjectManager::IndexType t = (ProjectManager::IndexType)i; QString indexName = ProjectManager::nameOfIndexType(t); // 效能评估方案中导入评估数据的步骤, 选择物元分析法时使用 SchemePlanManager::SchemeProcessInfo importEffiEvalDataProcess; for (SchemePlanManager::SchemeProcessInfo process : processList) { // // 综合效能评估 - 灰色聚类法: 效能等级配置页面, 导入评估数据页面 // if (process.algorithm == SchemePlanManager::GCE && process.indexType == // ProjectManager::EfficiencyIndex) { // GreyClusteringConfigWidget *gc = new GreyClusteringConfigWidget(process.efficiencyGrades); // m_tab->addTab(gc, indexName + " - " + "灰色聚类法效能等级配置"); // QVector items; // GreyClusteringSampleTable *gs = new GreyClusteringSampleTable(items, 2, 10); // m_tab->addTab(gs, indexName + " - " + "收集效能评估数据"); // } // // 综合效能评估 - 物元分析法: 效能等级配置页面, 导入评估数据页面 // if (process.algorithm == SchemePlanManager::MEA && process.indexType == // ProjectManager::EfficiencyIndex) { // QList items; // CMind *mind = new CMind(); // mind->setNodeList(nodeListMap[i]); // MatterElementConfigWidget *mec = new MatterElementConfigWidget(mind, // process.efficiencyGrades); m_tab->addTab(mec, indexName + "-" + "物元分析法效能等级配置"); // DataTableWidget *table = new DataTableWidget(importEffiEvalDataProcess, this); // table->mind1()->setNodeList(nodeListMap[i]); // table->setCurrentPage(1); // m_tab->addTab(table, indexName + " - " + "收集效能评估数据"); // } // 导入效能评估的权重分析数据 // 导入其他评估的权重分析数据和评估数据 if (process.dSource == SchemePlanManager::FromExpert) { if (process.type == SchemePlanManager::ImportEvalData && process.indexType == ProjectManager::EfficiencyIndex) { importEffiEvalDataProcess = process; continue; } EXDataTableView *table = new EXDataTableView(process, this); table->setProjectInfo(m_proj); table->mind1()->setNodeList(nodeListMap[i]); if (i == ProjectManager::TechIndex) { table->mind2()->setNodeList(nodeListMap[ProjectManager::AbilityIndex]); } table->setCurrentPage(1); QString processName = SchemePlanManager::processName(process); m_tab->addTab(table, indexName + " - " + processName); } } } } void EXDataView::slotTabCurrentChanged(int index) { } void EXDataView::slotExportData() { EXDataTableView *table = dynamic_cast(m_tab->currentWidget()); if (table == nullptr) { return; } table->exportData(); SchemePlanManager::SchemeProcessInfo process = table->process(); qDebug() << __FUNCTION__ << __LINE__ << ProjectManager::nameOfIndexType((ProjectManager::IndexType)process.indexType) << endl; QList values; NodeMatrixService().QueryNodeMatrixListByExpertIdAndEngineerId2(&values, 62, 110, QString("%1").arg(process.indexType)); }