EpochPlot.cc
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/*
* EpochPlot.cc
*
* Created on: 16 jan. 2015
* Author: AKKA
*/
#include "EpochPlot.hh"
#include "ParamsNode.hh"
#include "AxesNode.hh"
#include "PlotOutput.hh"
#include "TimeUtil.hh"
#include "Parameter.hh"
#include "ParamInfo.hh"
#include "ParamMgr.hh"
#include <fstream>
#include "EpochAxisDecorator.hh"
#include "TickMarkDecorator.hh"
#include "PlotLogger.hh"
#include "ParamMgr.hh"
#include "TimeUtil.hh"
#include "AxisLegendManager.hh"
#include <boost/format.hpp>
using namespace AMDA::Parameters;
using namespace AMDA::Info;
namespace plot {
EpochPlot::EpochPlot(AMDA::Parameters::ParameterManager& manager,
boost::shared_ptr<Panel> panel) :
PanelPlotOutput(manager, panel),
_centerTimeId(""){
_epochDecoratorPtr.reset(new EpochAxisDecorator());
}
EpochPlot::~EpochPlot() {
}
EpochAxis* EpochPlot::getEpochAxis(){
std::string lAxisId = getXAxisId();
boost::shared_ptr<Axis> xAxis = _panel->getAxis(lAxisId);
if (xAxis.get() == nullptr) {
std::stringstream lError;
lError << "EpochPlot::apply" << ": epoch axis with id '" << lAxisId << "' not found.";
BOOST_THROW_EXCEPTION(PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
}
return dynamic_cast<EpochAxis*>(xAxis.get());
}
void EpochPlot::preparePlotArea(double startTime, double stopTime, int intervalIndex) {
// dump properties for test
const char* lBuildType=getenv("BUILD_TYPE");
if(lBuildType && std::string(lBuildType) == "Debug") {
std::ofstream out("epochPlot.txt");
dump(out);
out.close();
}
configureSeriesAxis();
configureAxisLegend();
configureParamsLegend(startTime, stopTime, intervalIndex);
// configure X epoch axis
_epochDecoratorPtr->configure(this, getEpochAxis(),
getEpochAxis()->getRange().getMin(), getEpochAxis()->getRange().getMax(), _pParameterValues);
getEpochAxis()->_used = true;
PanelPlotOutput::preparePlotArea(startTime,stopTime,intervalIndex);
}
bool EpochPlot::draw(double startTime, double stopTime, int intervalIndex,
bool isFirstInterval, bool isLastInterval) {
return PanelPlotOutput::draw(startTime,stopTime,intervalIndex,isFirstInterval,isLastInterval);
}
void EpochPlot::calculatePlotArea(Bounds& bounds_) {
PanelPlotOutput::calculatePlotArea(bounds_);
// decorator is responsible of reserving extra space for what it manage (labels for instance).
_epochDecoratorPtr->updatePlotArea(this, getEpochAxis(), bounds_);
}
void EpochPlot::configureSeriesAxis() {
/*
* Configure the epoch time axis
*/
EpochAxis* epochAxis = getEpochAxis();
if (epochAxis == NULL)
{
std::stringstream lError;
lError << "EpochPlot::configureSeriesAxis: Cannot find epochAxis";
BOOST_THROW_EXCEPTION(PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
}
//get epoch axis range
Range lEpochRange;
if (!epochAxis->isNormalized())
{
//axis not normalized
TimeIntervalList::iterator crtTimeInterval = _timeIntervalListPtr->begin();
while (crtTimeInterval != _timeIntervalListPtr->end())
{
//get center time data for this interval
double leftDeltaTime = 0.;
double rightDeltaTime = 0.;
std::vector<std::string>& crtCenterTimeData = _parameterManager.getInputIntervalDataList(crtTimeInterval->_index, _centerTimeId);
if (crtCenterTimeData.empty())
{
leftDeltaTime = (crtTimeInterval->_stopTime-crtTimeInterval->_startTime) / 2.;
rightDeltaTime = leftDeltaTime;
}
else
{
//compute left and right delta times (relative to the center time)
double crtCenterTime = AMDA::TimeUtil::readTimeInIso((char*)crtCenterTimeData[0].c_str());
leftDeltaTime = crtCenterTime-crtTimeInterval->_startTime;
rightDeltaTime = crtTimeInterval->_stopTime-crtCenterTime;
}
if ((leftDeltaTime < 0) || (rightDeltaTime < 0))
{
LOG4CXX_WARN(gLogger, "EpochPlot::configureSeriesAxis - centerTime not contained in the interval for the interval with index : " << crtTimeInterval->_index << " => skip this interval");
++crtTimeInterval;
continue;
}
//configure the range of the axis
if (isnan(lEpochRange.getMin()) || (lEpochRange.getMin() > -leftDeltaTime))
lEpochRange.setMin(-leftDeltaTime);
if (isnan(lEpochRange.getMax()) || (lEpochRange.getMax() < rightDeltaTime))
lEpochRange.setMax(rightDeltaTime);
++crtTimeInterval;
}
}
else
{
//normalized epoch axis
lEpochRange.setMin(-1);
lEpochRange.setMax(1);
}
if (isnan(lEpochRange.getMin()) || isnan(lEpochRange.getMax()))
{
std::stringstream lError;
lError << "EpochPlot::configureSeriesAxis: Cannot configure the range of the epochAxis";
BOOST_THROW_EXCEPTION(PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
}
epochAxis->setRange(lEpochRange);
/*
* configure y and z axis
*/
std::map<std::string, Range> lAxisRange;
Range lColorAxeRange;
SeriesProperties lSeriesProperties;
boost::shared_ptr<ColorAxis> lZAxis = _panel->getColorAxis();
// Parse each parameter to define on which axis to draw series.
for (auto param: _parameterAxesList)
{
// Get number of series to draw
// For each index of parameter identify to which axis series must be drawn.
for(auto index: param.getYSerieIndexList(_pParameterValues))
{
lSeriesProperties = param.getYSeriePropertiesAt(index);
if(!lSeriesProperties.hasYAxis()){
continue;
}
boost::shared_ptr<Axis> lYAxis = _panel->getAxis(lSeriesProperties.getYAxisId());
if (lYAxis.get() == nullptr) {
std::stringstream lError;
lError << "EpochPlot::configureSeriesAxis" << ": Y axis with id '" << lSeriesProperties.getYAxisId() << "' not found.";
BOOST_THROW_EXCEPTION(PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
}
lYAxis->_used = true;
Range lRange(lYAxis->getRange());
// If range status for this axis is set by the user do not update range "automatically".
if (isnan(lRange.getMin()) && isnan(lRange.getMax()))
{
Range lEstimatedRange(lAxisRange[lYAxis->_id]);
Range lParamIndexRange(
(*_pParameterValues)[lSeriesProperties.getParamId()].getMin(index),
(*_pParameterValues)[lSeriesProperties.getParamId()].getMax(index));
if (isnan(lEstimatedRange.getMin()) && isnan(lEstimatedRange.getMax())) {
lEstimatedRange.setMin(lParamIndexRange.getMin());
lEstimatedRange.setMax(lParamIndexRange.getMax());
} else {
lEstimatedRange.setMin(std::min(lEstimatedRange.getMin(), lParamIndexRange.getMin()));
lEstimatedRange.setMax(std::max(lEstimatedRange.getMax(), lParamIndexRange.getMax()));
}
lEstimatedRange._extend = lRange._extend;
lAxisRange[lYAxis->_id] = lEstimatedRange;
}
// Set ZAxis range if a color param is defined for this serie
if (lZAxis != nullptr)
{
if (!lSeriesProperties.getColorParamId().empty())
{
lZAxis->_used = true;
Range lRange(lZAxis->getRange());
ParameterAxes* colorSerieParameterAxes = getParameterAxesByColorSerieId(lSeriesProperties.getColorSerieId());
if (colorSerieParameterAxes == NULL)
continue;
ColorSeriesProperties& colorSerieProp = colorSerieParameterAxes->getColorSeriePropertiesById(lSeriesProperties.getColorSerieId());
// If range status for this axis is set by the user do not update range "automatically".
if (isnan(lRange.getMin()) && isnan(lRange.getMax()))
{
Range lEstimatedRange(lColorAxeRange);
Range lParamIndexRange(
(*_pParameterValues)[lSeriesProperties.getColorParamId()].getMin(
colorSerieProp.getIndex()),
(*_pParameterValues)[lSeriesProperties.getColorParamId()].getMax(
colorSerieProp.getIndex()));
if (isnan(lEstimatedRange.getMin()) && isnan(lEstimatedRange.getMax())) {
lEstimatedRange.setMin(lParamIndexRange.getMin());
lEstimatedRange.setMax(lParamIndexRange.getMax());
} else {
lEstimatedRange.setMin(std::min(lEstimatedRange.getMin(), lParamIndexRange.getMin()));
lEstimatedRange.setMax(std::max(lEstimatedRange.getMax(), lParamIndexRange.getMax()));
}
lEstimatedRange._extend = lRange._extend;
lColorAxeRange = lEstimatedRange;
}
}
}
}
}
// Update range of axis. Done after because, axis range may be processed in several pass (one for each series)
for (auto lAxis: lAxisRange) {
_panel->getAxis(lAxis.first)->setRange(lAxis.second);
}
if (lZAxis != nullptr && lColorAxeRange.isSet())
lZAxis->setRange(lColorAxeRange);
}
void EpochPlot::configureAxisLegend() {
// Y axis
AxisLegendManager::configureYAxisLegendForSeries(this);
// Z axis
AxisLegendManager::configureColorAxisLegendForSeries(this);
}
void EpochPlot::drawXAxis(boost::shared_ptr<Axis> pXAxis, PlWindow& pPlWindow, Bounds& pPlotAreaSize, TickConf& pTickConf){
LOG4CXX_DEBUG(gLogger, "Drawing X axis ");
// draw main axis...
PanelPlotOutput::drawXAxis(pXAxis,pPlWindow, pPlotAreaSize, pTickConf);
// delegate to decorator any extra drawing stuff it needs to perform...
_epochDecoratorPtr->draw(this,getEpochAxis(), _pls);
}
void EpochPlot::drawSeries(double startDate, double stopDate, int intervalIndex, std::string pParamId,
SeriesProperties& pSeries,
AMDA::Common::ParameterIndexComponent pParamIndex, ParameterAxes& param,
bool moreThanOneSerieForAxis) {
LOG4CXX_DEBUG(gLogger, "Drawing epoch serie for parameter "<<pParamId<<"["<<pParamIndex.getDim1Index()<<","<<pParamIndex.getDim2Index()<<"]");
// This will configure window, draw axes (if needed) and legend of axes.
PanelPlotOutput::drawSeries(startDate, stopDate, intervalIndex, pParamId, pSeries, pParamIndex, param, moreThanOneSerieForAxis);
if(!pSeries.hasYAxis())
return;
// Y axis may be missing (tickplot for example)
std::string yAxisId = pSeries.getYAxisId();
if (yAxisId.empty())
return;
EpochAxis* epochAxis = getEpochAxis();
//get center time data for this interval
std::vector<std::string>& crtCenterTimeData = _parameterManager.getInputIntervalDataList(intervalIndex, _centerTimeId);
double crtCenterTime = 0.;
if (crtCenterTimeData.empty())
crtCenterTime = startDate + (stopDate - startDate) / 2.;
else
crtCenterTime = AMDA::TimeUtil::readTimeInIso((char*)crtCenterTimeData[0].c_str());
//set the current center time to the epoch axis
epochAxis->setCrtCenterTime(crtCenterTime);
//get computed values
double *computedValues = NULL;
double *timeValues = NULL;
int nbValues;
if (!getComputedValuesFromSerieAndInterval(startDate, stopDate, pSeries, pParamIndex,
&computedValues, &timeValues, nbValues))
{
LOG4CXX_DEBUG(gLogger, "EpochPlot::drawSeries - Cannot get computed values for serie");
return;
}
//compute epoch time value
double *epochTimeValues = epochAxis->getComputedValues(
timeValues,
nbValues,
startDate,
stopDate);
double *coloredComputedValues = NULL;
double *coloredTimeValues = NULL;
//get colored value if needed
if (!pSeries.getColorParamId().empty() && (_panel->getColorAxis() != nullptr))
{
int nbColoredValues;
if (!getColoredComputedValuesFromSerieAndInterval(startDate, stopDate, pSeries,
&coloredComputedValues, &coloredTimeValues, nbColoredValues))
{
LOG4CXX_DEBUG(gLogger, "EpochPlot::drawSeries - Cannot get computed values for colored parameter");
return;
}
}
PlWindow lPlWindow = PlWindow(getEpochAxis()->getRange().getMin(), getEpochAxis()->getRange().getMax(),
_panel->getAxis(yAxisId)->getRange().getMin(), _panel->getAxis(yAxisId)->getRange().getMax());
_pls->wind(std::get<0>(lPlWindow), std::get<1>(lPlWindow),
std::get<2>(lPlWindow), std::get<3>(lPlWindow));
//draw serie
Color lineColor = getSerieLineColor(pSeries, moreThanOneSerieForAxis);
Color symbolColor = getSerieSymbolColor(pSeries, lineColor);
drawSymbols(
pSeries.getSymbolProperties().getType(),
pSeries.getSymbolProperties().getSize(), 1.,
symbolColor,
nbValues, epochTimeValues, computedValues, coloredComputedValues);
drawLines(
pSeries.getLineProperties().getType(),
pSeries.getLineProperties().getStyle(),
pSeries.getLineProperties().getWidth(),
lineColor,
nbValues, epochTimeValues, computedValues, coloredComputedValues);
addSerieToParamsLegend(pSeries,pParamIndex,param._originalParamId, lineColor,symbolColor,startDate,stopDate,intervalIndex);
delete[] computedValues;
delete[] epochTimeValues;
if (coloredComputedValues != NULL)
delete[] coloredComputedValues;
}
const std::string EpochPlot::getXAxisId() const {
// epoch plot can manage only one x axis.
// search for its id
for (auto param : _parameterAxesList)
{
//search epoch axis in color serie if exist
if (!param.getYSeriePropertiesMap().empty())
return param.getYSeriePropertiesMap().begin()->second.getXAxisId();
}
return "epochAxis";
}
void EpochPlot::setCenterTimeId(std::string centerTimeId)
{
_centerTimeId = centerTimeId;
}
} /* namespace plot */