#include "AxisLegendManager.hh" using namespace AMDA::Info; namespace plot { void AxisLegendManager::configureXAxisLegendForSeries( XYPlot* plot) { // Build list of all indexes used by each parameters for each x axes std::map axesParamsComponents; SeriesProperties lSeriesProperties; for (auto param: plot->_parameterAxesList) { for(auto index: param.getYSerieIndexList(plot->_pParameterValues)) { lSeriesProperties = param.getYSeriePropertiesAt(index); if(!lSeriesProperties.hasYAxis() || !lSeriesProperties.hasXAxis()) continue; ParameterAxes& xParameter = plot->getParameterAxeOnXAxis(lSeriesProperties.getXAxisId()); std::string yParamId = lSeriesProperties.getParamId(); XSeriesProperties& xSerie = plot->getSerieOnXAxisfromParameter(lSeriesProperties.getXAxisId(), xParameter); std::string xAxisId = xSerie.getAxisId(); boost::shared_ptr lXAxis = plot->_panel->getAxis(xAxisId); if (lXAxis.get() == nullptr) { continue; } AMDA::Common::ParameterIndexComponent xIndex = xSerie.getIndex(); pushComponentInList(xSerie.getXParamIds()[yParamId], xIndex, axesParamsComponents[xAxisId]); } } std::list legendLines; for (auto axisParamsComponents : axesParamsComponents) { boost::shared_ptr lXAxis = plot->_panel->getAxis(axisParamsComponents.first); setAxisLegendForSeries(plot, lXAxis, axisParamsComponents.second); } } void AxisLegendManager::configureYAxisLegendForSpectro( PanelPlotOutput* plot) { for (auto param: plot->_parameterAxesList) { std::shared_ptr spectroPropertiesPtr = param.getSpectroProperties(); if (spectroPropertiesPtr == nullptr) continue; //no spectro defined if(!spectroPropertiesPtr->hasYAxis()) continue; std::string yAxisId = spectroPropertiesPtr->getYAxisId(); boost::shared_ptr lYAxis = plot->_panel->getAxis(yAxisId); if (lYAxis.get() == nullptr) continue; if (!lYAxis->_legend._text.empty()) continue; setAxisLegendForTable(plot, lYAxis, param._originalParamId, spectroPropertiesPtr->getParamId(), spectroPropertiesPtr->getIndexes(), spectroPropertiesPtr->getRelatedDim()); return; } } void AxisLegendManager::configureYAxisLegendForSeries( PanelPlotOutput* plot) { SeriesProperties lSeriesProperties; // Build list of all indexes used by each parameters for each y axes std::map axesParamsComponents; for (auto param: plot->_parameterAxesList) { for(auto index: param.getYSerieIndexList(plot->_pParameterValues)) { lSeriesProperties = param.getYSeriePropertiesAt(index); if(!lSeriesProperties.hasYAxis()) continue; std::string yAxisId = lSeriesProperties.getYAxisId(); boost::shared_ptr lYAxis = plot->_panel->getAxis(yAxisId); if (lYAxis.get() == nullptr) { continue; } pushComponentInList(lSeriesProperties.getParamId(), index, axesParamsComponents[yAxisId]); } } std::list legendLines; for (auto axisParamsComponents : axesParamsComponents) { boost::shared_ptr lYAxis = plot->_panel->getAxis(axisParamsComponents.first); setAxisLegendForSeries(plot, lYAxis, axisParamsComponents.second); } } void AxisLegendManager::configureColorAxisLegendForSeries( PanelPlotOutput* plot) { SeriesProperties lSeriesProperties; ColorSeriesProperties lColorSerieProperties; boost::shared_ptr lZAxis = plot->_panel->getColorAxis(); if (lZAxis.get() == nullptr) { return; } // Build list of all indexes used by each parameters for each y axes AxisParamsComponents axisParamsComponents; for (auto param: plot->_parameterAxesList) { for(auto index: param.getYSerieIndexList(plot->_pParameterValues)) { lSeriesProperties = param.getYSeriePropertiesAt(index); if(!lSeriesProperties.hasYAxis()) continue; std::string yParamId = lSeriesProperties.getParamId(); //check if a colored param is defined for this serie if(lSeriesProperties.getColorParamId().empty()) continue; ParameterAxes* colorSerieParameterAxes = plot->getParameterAxesByColorSerieId(lSeriesProperties.getColorSerieId()); if (colorSerieParameterAxes == NULL) continue; lColorSerieProperties = colorSerieParameterAxes->getColorSeriePropertiesById(lSeriesProperties.getColorSerieId()); AMDA::Common::ParameterIndexComponent colorSerieIndex = AMDA::Common::ParameterIndexComponent(-1,-1); if (lColorSerieProperties.getIndex() > -1) colorSerieIndex = AMDA::Common::ParameterIndexComponent(lColorSerieProperties.getIndex(), -1); pushComponentInList(lColorSerieProperties.getColorParamIds()[yParamId], colorSerieIndex, axisParamsComponents); } } setAxisLegendForSeries(plot, lZAxis, axisParamsComponents); } void AxisLegendManager::configureColorAxisLegendForSpectro( PanelPlotOutput* plot) { boost::shared_ptr lZAxis = plot->_panel->getColorAxis(); if (lZAxis.get() == nullptr) { return; } for (auto param: plot->_parameterAxesList) { std::shared_ptr spectroPropertiesPtr = param.getSpectroProperties(); if (spectroPropertiesPtr == nullptr) continue; //no spectro defined if(!spectroPropertiesPtr->hasZAxis()) continue; setAxisLegendForSpectro(plot, lZAxis, param._originalParamId); break; } } void AxisLegendManager::pushComponentInList(std::string paramId, AMDA::Common::ParameterIndexComponent& index, AxisParamsComponents& axisParamsComponents) { if (index == AMDA::Common::ParameterIndexComponent(-1,-1)) { //All indexes of this parameter are used axisParamsComponents[paramId].clear(); axisParamsComponents[paramId].push_back(index); } else { if (axisParamsComponents[paramId].size() > 0) { if (axisParamsComponents[paramId].front() == AMDA::Common::ParameterIndexComponent(-1,-1)) { //Skip. All components already defined for this paramter on this axis return; } } if (std::find(axisParamsComponents[paramId].begin(), axisParamsComponents[paramId].end(), index) == axisParamsComponents[paramId].end()) { //Add this components for this axis axisParamsComponents[paramId].push_back(index); } } } void AxisLegendManager::setAxisLegendForSeries(PanelPlotOutput* plot, boost::shared_ptr& pAxis, AxisParamsComponents& axisParamsComponents) { if (pAxis == nullptr || !pAxis->_legend._text.empty()) { return; } // Retrieve ParamInfo Manager ParamMgr* piMgr = ParamMgr::getInstance(); //Build list of legend lines std::list legendLines; for (auto paramsComponents : axisParamsComponents) { ParameterSPtr p = plot->_parameterManager.getParameter(paramsComponents.first); ParamInfoSPtr paramInfo = piMgr->getParamInfoFromId(p->getInfoId()); if (paramsComponents.second.size() == p->getDataWriterTemplate()->getParamData()->getDim1() * p->getDataWriterTemplate()->getParamData()->getDim2()) { //All components of this parameter are used by this axis => merge paramsComponents.second.clear(); paramsComponents.second.push_back(AMDA::Common::ParameterIndexComponent(-1,-1)); } bool isFirstComponent = true; for (auto components : paramsComponents.second) { if (paramInfo == nullptr) continue; if ((axisParamsComponents.size() == 1) && isFirstComponent) { std::string info = getMissionInstrumentInfo(paramInfo); if (!info.empty()) { legendLines.push_back(info); } } legendLines.push_back(getParamLegend(paramInfo, components)); isFirstComponent = false; } } //Set legend to axis for (auto line : legendLines) { addBreakLine(pAxis->_legend._text); pAxis->_legend._text += line; } } void AxisLegendManager::setAxisLegendForSpectro(PanelPlotOutput* plot, boost::shared_ptr& pAxis, std::string originalParamId) { if (pAxis == nullptr || !pAxis->_legend._text.empty()) { return; } // Retrieve ParamInfo Manager ParamMgr* piMgr = ParamMgr::getInstance(); ParameterSPtr p = plot->_parameterManager.getParameter(originalParamId); AMDA::Info::ParamInfoSPtr paramInfo = piMgr->getParamInfoFromId(p->getInfoId()); if (paramInfo == nullptr) return; /*std::string info = getMissionInstrumentInfo(paramInfo); if (!info.empty()) { addInfoPart(pAxis->_legend._text, info); addBreakLine(pAxis->_legend._text); }*/ addInfoPart(pAxis->_legend._text, paramInfo->getName()); addInfoPart(pAxis->_legend._text, paramInfo->getUnits()); } void AxisLegendManager::setAxisLegendForTable(PanelPlotOutput* plot, boost::shared_ptr& pAxis, std::string originalParamId, std::string paramId, AMDA::Common::ParameterIndexComponentList& indexes, int relatedDim) { if (pAxis == nullptr || !pAxis->_legend._text.empty()) { return; } // Retrieve ParamInfo Manager ParamMgr* piMgr = ParamMgr::getInstance(); ParameterSPtr p = plot->_parameterManager.getParameter(originalParamId); AMDA::Info::ParamInfoSPtr paramInfo = piMgr->getParamInfoFromId(p->getInfoId()); if (paramInfo == nullptr) return; boost::shared_ptr tableSPtr; tableSPtr = paramInfo->getTable(relatedDim); if (tableSPtr == nullptr) { std::string tableInfo = "Table "; tableInfo += std::to_string(relatedDim); tableInfo += " indexes"; addInfoPart(pAxis->_legend._text, tableInfo); return; } if (((*plot->_pParameterValues)[paramId].getDim1Size() > 0) && ((*plot->_pParameterValues)[paramId].getDim2Size() > 0) && !indexes.empty()) { boost::shared_ptr otherTableSPtr; int otherDimIndex; if (relatedDim == 0) { otherTableSPtr = paramInfo->getTable(1); otherDimIndex = indexes.front().getDim2Index(); } else { otherTableSPtr = paramInfo->getTable(0); otherDimIndex = indexes.front().getDim1Index(); } if ((otherTableSPtr != nullptr) && !otherTableSPtr->isVariable()) { if (otherTableSPtr->getName().empty()) addInfoPart(pAxis->_legend._text, "Table bounds"); else addInfoPart(pAxis->_legend._text, otherTableSPtr->getName()); AMDA::Info::t_TableBound crtBound = otherTableSPtr->getBound(&plot->_parameterManager, otherDimIndex); addBoundsPart(pAxis->_legend._text, crtBound.min, crtBound.max); addInfoPart(pAxis->_legend._text, otherTableSPtr->getUnits()); } else { std::string part = "Table Index: "; part += otherDimIndex; addInfoPart(pAxis->_legend._text, part); } addBreakLine(pAxis->_legend._text); } addInfoPart(pAxis->_legend._text, tableSPtr->getName()); addInfoPart(pAxis->_legend._text, tableSPtr->getUnits()); } void AxisLegendManager::addInfoPart(std::string& legend, std::string info) { if (!info.empty()) { if (!legend.empty()) { if (legend.length() >= Label::DELIMITER.length()) { if (legend.compare(legend.length() - Label::DELIMITER.length(), Label::DELIMITER.length(), Label::DELIMITER) != 0) { legend += ", "; } } else { legend += ", "; } } legend += info; } } void AxisLegendManager::addIndexPart(std::string& legend, AMDA::Common::ParameterIndexComponent& index) { legend += "["; legend += std::to_string(index.getDim1Index()); if (index.getDim2Index() != -1) { legend += ","; legend += std::to_string(index.getDim2Index()); } legend += "]"; } void AxisLegendManager::addIndexPart(std::string& legend, int index) { legend += "["; legend += std::to_string(index); legend += "]"; } void AxisLegendManager::addBoundsPart(std::string& legend, PLFLT min, PLFLT max) { legend += " "; PLINT axis = 0; PLPointer data = NULL; char minCount[1024]; char maxCount[1024]; generateDigitalLabel(axis, min, minCount, 1024, data); generateDigitalLabel(axis, max, maxCount, 1024, data); legend += std::string(minCount); legend += ", "; legend += std::string(maxCount); } void AxisLegendManager::addBreakLine(std::string& legend) { if (!legend.empty()) { legend += Label::DELIMITER; } } std::string AxisLegendManager::getParamLegend(AMDA::Info::ParamInfoSPtr paramInfo, AMDA::Common::ParameterIndexComponent& index) { std::string legend; addInfoPart(legend, paramInfo->getShortName()); if ((index.getDim1Index() != -1) || (index.getDim2Index() != -1)) { if (paramInfo->getComponents(index).empty() == false) addInfoPart(legend, paramInfo->getComponents(index)); else { addInfoPart(legend, paramInfo->getShortName()); addIndexPart(legend, index); } } addInfoPart(legend, paramInfo->getUnits()); addInfoPart(legend, paramInfo->getCoordinatesSystem()); return legend; } /*std::string AxisLegendManager::getParamLegend(AMDA::Info::ParamInfoSPtr paramInfo, int index) { std::string legend; addInfoPart(legend, paramInfo->getShortName()); if ((index.getDim1Index() != -1) || (index.getDim2Index() != -1)) { if (paramInfo->getComponents(index).empty() == false) addInfoPart(legend, paramInfo->getComponents(index)); else { addInfoPart(legend, paramInfo->getShortName()); addIndexPart(legend, index); } } addInfoPart(legend, paramInfo->getUnits()); addInfoPart(legend, paramInfo->getCoordinatesSystem()); return legend; }*/ std::string AxisLegendManager::getMissionInstrumentInfo(AMDA::Info::ParamInfoSPtr paramInfo) { std::string info = paramInfo->getInstrumentId(); if (info.empty()) return info; std::replace(info.begin(), info.end(), '_', ' '); std::transform(info.begin(), info.end(), info.begin(), ::toupper); return info; } } /* namespace plot */