/*
 * PanelPlotOutput.cc
 *
 *  Created on: 29 oct. 2013
 *      Author: CS
 */

#include "PanelPlotOutput.hh"
#include "Catalog.hh"
#include "ColorAxis.hh"
#include "ColormapManager.hh"
#include "DecoratorPlot.hh"
#include "Page.hh"
#include "ParamMgr.hh"
#include "ParameterManager.hh"
#include "PlPlotUtil.hh"
#include "PlotLogger.hh"
#include "ShadesTools.hh"
#include "TimeTableCatalogFactory.hh"
#include "TimeUtil.hh"

#include <boost/range/adaptor/reversed.hpp>
#include <string>

using namespace AMDA::Parameters;
using namespace AMDA::Info;

namespace plot
{

	/**
	 * Width character proportion is approximatively 0.83 times smaller than height.
	 */
	const float PanelPlotOutput::CHAR_RATIO = 5. / 6.;

	const float PanelPlotOutput::DEFAULT_TICK_LENGTH_FACTOR = 0.75;

	// Vertical is for Y axis.
	const float PanelPlotOutput::VERTICAL_TICK_LENGTH_LIMIT = 0.5;
	// Horizontal is for X axis.
	const float PanelPlotOutput::HORIZONTAL_TICK_LENGTH_LIMIT = 0.75;
	// margin in case of constante curve
	const float YAXISMARGIN = 0.05;

	PanelPlotOutput::PanelPlotOutput(AMDA::Parameters::ParameterManager &manager, boost::shared_ptr<Panel> panel, bool isStandalone) : 
									_panel(panel),
									_parameterManager(manager),
									_pParameterValues(NULL),
									_timeIntervalListPtr(NULL),
									_panelPlotXYRatio(1),
									_leftAxisTickMarkWidth(0),
									_automaticSerieColorCursor(0),
									_isStandalone(isStandalone),
									_isHeightFixed(false)
	{
	}

	PanelPlotOutput::~PanelPlotOutput()
	{
	}

	double getVerticalTickLength(Axis *pAxis, double charHeight)
	{
		float horizontalTickLengthLimit = PanelPlotOutput::HORIZONTAL_TICK_LENGTH_LIMIT;
		float defaultTickLengthFactor = PanelPlotOutput::DEFAULT_TICK_LENGTH_FACTOR;
		double tickLengthFactor = pAxis->_tick._lengthFactor;

		if ((!isnan(tickLengthFactor)) && (tickLengthFactor > horizontalTickLengthLimit))
		{
			// 1 character size is equal to 0.75 tick length.
			return charHeight + (((tickLengthFactor - horizontalTickLengthLimit) * charHeight) / (defaultTickLengthFactor));
		}
		else if ((isnan(tickLengthFactor)) && (defaultTickLengthFactor > horizontalTickLengthLimit))
		{
			// 1 character size is equal to 0.75 tick length.
			return charHeight + (((defaultTickLengthFactor - horizontalTickLengthLimit) * charHeight) / (defaultTickLengthFactor));
		}
		else
		{
			return charHeight;
		}
	}

	double getHorizontalTickLength(Axis *pAxis, double charHeight)
	{
		float verticalTickLengthLimit = PanelPlotOutput::VERTICAL_TICK_LENGTH_LIMIT;
		float defaultTickLengthFactor = PanelPlotOutput::DEFAULT_TICK_LENGTH_FACTOR;
		double tickLengthFactor = pAxis->_tick._lengthFactor;

		if ((!isnan(tickLengthFactor)) && (tickLengthFactor > verticalTickLengthLimit))
		{
			// 1 character size is equal to 0.75 tick length.
			return charHeight + (((tickLengthFactor - verticalTickLengthLimit) * charHeight * PanelPlotOutput::CHAR_RATIO) / (defaultTickLengthFactor));
		}
		else if ((isnan(tickLengthFactor)) && (defaultTickLengthFactor > verticalTickLengthLimit))
		{
			// 1 character size is equal to 0.75 tick length.
			return charHeight + (((defaultTickLengthFactor - verticalTickLengthLimit) * charHeight * PanelPlotOutput::CHAR_RATIO) / (defaultTickLengthFactor));
		}
		else
		{
			return charHeight;
		}
	}

	void PanelPlotOutput::calculatePlotArea(const Bounds & /*panelBounds_*/, Bounds &bounds_)
	{
		double topSpace = 0;
		double bottomSpace = 0;
		double leftSpace = 0;
		double rightSpace = 0;

		// Init
		_plotAreaSideSet[PlotCommon::Position::POS_TOP] = false;
		_plotAreaSideSet[PlotCommon::Position::POS_BOTTOM] = false;
		_plotAreaSideSet[PlotCommon::Position::POS_RIGHT] = false;
		_plotAreaSideSet[PlotCommon::Position::POS_LEFT] = false;
		_plotAreaSideSet[PlotCommon::Position::POS_CENTER] = false;

		// Reserve space for title
		double titleHeight = 0;
		_panel->reserveSpaceForTitle(topSpace, bottomSpace, titleHeight);

		// Reserve space for axes

		//
		std::map<PlotCommon::Position, int> nbAxesBySide;
		nbAxesBySide[PlotCommon::Position::POS_TOP] = 0;
		nbAxesBySide[PlotCommon::Position::POS_BOTTOM] = 0;
		nbAxesBySide[PlotCommon::Position::POS_RIGHT] = 0;
		nbAxesBySide[PlotCommon::Position::POS_LEFT] = 0;
		for (Axes::iterator it = _panel->_axes.begin(); it != _panel->_axes.end(); ++it)
		{
			boost::shared_ptr<Axis> lAxis = it->second;
			if ((lAxis == nullptr) || (lAxis->_isZAxis) || (!lAxis->_used) || (!lAxis->_visible) || (lAxis->_position == PlotCommon::Position::POS_CENTER))
				continue;
			++nbAxesBySide[lAxis->_position];
		}

		// ZAxis must be drawn at last!
		for (Axes::iterator it = _panel->_axes.begin(); it != _panel->_axes.end(); ++it)
		{
			// Add X and Y axis
			boost::shared_ptr<Axis> lAxis = it->second;
			if ((lAxis == nullptr) || (lAxis->_isZAxis))
				continue;
			reserveSpaceForAxis(lAxis, titleHeight, nbAxesBySide, topSpace, bottomSpace, leftSpace, rightSpace);
		}

		for (Axes::iterator it = _panel->_axes.begin(); it != _panel->_axes.end(); ++it)
		{
			// Add Z axis
			boost::shared_ptr<Axis> lAxis = it->second;
			if ((lAxis == nullptr) || (!lAxis->_isZAxis))
				continue;
			reserveSpaceForAxis(lAxis, titleHeight, nbAxesBySide, topSpace, bottomSpace, leftSpace, rightSpace);
		}

		// Get character size for panel.
		PlPlotUtil::setPlFont(_panel->getFont());
		CharSize lCharSizePanel = PlPlotUtil::getCharacterSizeInPlPage(_panel->_page);
		double panelCharWidth = lCharSizePanel.first;
		double panelCharHeight = lCharSizePanel.second;

		// add params legend right space when outside
		if (!_panel->_paramsLegendProperties.getLegendLines().empty() &&
			_panel->_paramsLegendProperties.isVisible() &&
			(_panel->_paramsLegendProperties.getPosition() == ParamsLegendPosition::POS_OUTSIDE))
		{
			PlPlotUtil::setPlFont(_panel->_paramsLegendProperties.getFont());
			CharSize lCharSizeLegend = PlPlotUtil::getCharacterSizeInPlPage(_panel->_page);
			double legendCharWidth = lCharSizeLegend.first;

			// set offset
			_panel->_paramsLegendProperties.setLeftOffset(rightSpace);

			// reserve place for legend
			rightSpace += _panel->_paramsLegendProperties.getEstimateWidth(legendCharWidth);
		}

		// Reserve space for text legend ( maximum 1 text legend by position
		/*bool	leftTextLegendFound		= false;
		bool	rightTextLegendFound 	= false;
		bool	topTextLegendFound 		= false;
		bool	bottomTextLegendFound 	= false; */

		for (auto textLegendProp : _panel->_textLegendPropertiesList)
		{
			bool toDraw = true;

			/*	switch (textLegendProp->getPosition()) {
				case TextLegendPosition::POS_LEFT :
					if (leftTextLegendFound)
						toDraw = false;
					leftTextLegendFound = true;
					break;
				case TextLegendPosition::POS_RIGHT :
					if (rightTextLegendFound)
						toDraw = false;
					rightTextLegendFound = true;
					break;
				case TextLegendPosition::POS_TOP :
					if (topTextLegendFound)
						toDraw = false;
					topTextLegendFound = true;
					break;
				case TextLegendPosition::POS_BOTTOM :
					if (bottomTextLegendFound)
						toDraw = false;
					bottomTextLegendFound = true;
					break;

			}*/

			if (toDraw)
				reserveSpaceForTextLegend(textLegendProp, titleHeight, topSpace, bottomSpace, leftSpace, rightSpace);
		}

		// Set specified left, right, top and bottom margins and display a warning
		// message if computed margins are bigger than specified ones
		if (_panel->_leftMargin != -1)
		{
			if ((_panel->_leftMargin * panelCharWidth) < leftSpace)
				LOG4CXX_WARN(gLogger, "Left margin for the panel was forced beyond computed size");
			leftSpace = _panel->_leftMargin * panelCharWidth;
		}
		if (_panel->_rightMargin != -1)
		{
			if ((_panel->_rightMargin * panelCharWidth) < rightSpace)
				LOG4CXX_WARN(gLogger, "Right margin for the panel was forced beyond computed size");
			rightSpace = _panel->_rightMargin * panelCharWidth;
		}
		if (_panel->_topMargin != -1)
		{
			if ((_panel->_topMargin * panelCharHeight) < topSpace)
				LOG4CXX_WARN(gLogger, "Top margin for the panel was forced beyond computed size");
			topSpace = _panel->_topMargin * panelCharHeight;
		}
		if (_panel->_bottomMargin != -1)
		{
			if ((_panel->_bottomMargin * panelCharHeight) < bottomSpace)
				LOG4CXX_WARN(gLogger, "Bottom margin for the panel was forced beyond computed size");
			bottomSpace = _panel->_bottomMargin * panelCharHeight;
		}

		// Update plot area bounds
		bounds_._x += leftSpace;
		bounds_._y += bottomSpace;
		bounds_._width -= (leftSpace + rightSpace);
		bounds_._height -= (bottomSpace + topSpace);
	}

	void PanelPlotOutput::reserveSpaceForAxis(boost::shared_ptr<Axis> &pAxis, double titleHeight, std::map<PlotCommon::Position, int> nbAxesBySide,
											  double &topSpace, double &bottomSpace, double &leftSpace, double &rightSpace)
	{
		if (pAxis == nullptr || !pAxis->_used || !pAxis->_visible)
			return;

		// Get number of line to draw for legend.
		int nbLegendRows = pAxis->_legend.getNbLines();
		if ((nbLegendRows == 0) && pAxis->_showLegend)
			nbLegendRows = 1;

		// Compute legend character size
		Font legendFont(pAxis->getLegendFont(this->_panel.get()));
		PlPlotUtil::setPlFont(legendFont);
		CharSize legendCharSizePanel = PlPlotUtil::getCharacterSizeInPlPage(_panel->_page);

		std::tuple<float, float> pageSize = _panel->_page->getSizeInMm();

		// Reserve place in relation with the axis position
		switch (pAxis->_position)
		{
		case PlotCommon::Position::POS_BOTTOM:
			if (pAxis->isZAxis())
				LOG4CXX_WARN(gLogger, "PanelPlotOutput::calculatePlotArea: Unrecognized position for z axis '" << pAxis->_position << "'");

			// This attribute is used later (in function PanelPlotOutput::drawSeries).
			if (!pAxis->isZAxis())
				_plotAreaSideSet[pAxis->_position] = true;

			// Reserve space for ticks
			if (pAxis->_tick._position == Tick::TickPosition::OUTWARDS)
			{
				double tickSize = getVerticalTickLength(pAxis.get(), legendCharSizePanel.second);
				bottomSpace += tickSize;
				if (nbAxesBySide[PlotCommon::Position::POS_TOP] == 0)
					// add space for oposite axis
					topSpace += tickSize;
			}

			// Reserve space for ticks labels
			if (pAxis->_showTickMark == true)
				bottomSpace += legendCharSizePanel.second * (1 + 0.25);

			// Reserve space for legend
			if ((pAxis->_showLegend == true) && (nbLegendRows != 0))
			{
				bottomSpace += PlPlotUtil::LINE_SPACE_TITLE * legendCharSizePanel.second;
				double legendOffset = bottomSpace + 0.5 * legendCharSizePanel.second;
				if (!_panel->getTitle()->_text.empty() && (_panel->_titlePosition == PlotCommon::Position::POS_BOTTOM))
					legendOffset -= titleHeight;
				pAxis->setLegendOffset(legendOffset);
				bottomSpace += (nbLegendRows + PlPlotUtil::LINE_SPACE_TITLE * (nbLegendRows + 1)) * legendCharSizePanel.second;
			}

			break;
		case PlotCommon::Position::POS_TOP:
			if (pAxis->isZAxis())
				LOG4CXX_WARN(gLogger, "PanelPlotOutput::calculatePlotArea: Unrecognized position for z axis '" << pAxis->_position << "'");

			// This attribute is used later (in function PanelPlotOutput::drawSeries).
			if (!pAxis->isZAxis())
				_plotAreaSideSet[pAxis->_position] = true;

			// Reserve space for ticks
			if (pAxis->_tick._position == Tick::TickPosition::OUTWARDS)
			{
				double tickSize = getVerticalTickLength(pAxis.get(), legendCharSizePanel.second);
				topSpace += tickSize;
				if (nbAxesBySide[PlotCommon::Position::POS_BOTTOM] == 0)
					// add space for oposite axis
					bottomSpace += tickSize;
			}

			// Reserve space for ticks labels
			if (pAxis->_showTickMark == true)
				topSpace += legendCharSizePanel.second * (1 + 0.25);

			// Reserve space for legend
			if ((pAxis->_showLegend == true) && (nbLegendRows != 0))
			{
				topSpace += PlPlotUtil::LINE_SPACE_TITLE * legendCharSizePanel.second;
				double legendOffset = topSpace - 0.5 * legendCharSizePanel.second;
				if (!_panel->getTitle()->_text.empty() && (_panel->_titlePosition == PlotCommon::Position::POS_TOP))
					legendOffset += titleHeight;
				pAxis->setLegendOffset(legendOffset);
				topSpace += (nbLegendRows + PlPlotUtil::LINE_SPACE_TITLE * (nbLegendRows + 1)) * legendCharSizePanel.second;
			}

			break;
		case PlotCommon::Position::POS_LEFT:
			// Record axis offset used for multi-axes
			pAxis->setAxisOffset(leftSpace);

			if (pAxis->isZAxis())
			{
				leftSpace += estimateZAxisWidth(pAxis);
				break;
			}

			// This attribute is used later (in function PanelPlotOutput::drawSeries).
			_plotAreaSideSet[pAxis->_position] = true;

			// Reserve space for ticks labels
			if (pAxis->_showTickMark == true)
				leftSpace += legendCharSizePanel.first * (pAxis->getTickMarkSize().first + 2 * PlPlotUtil::LINE_SPACE_TITLE + 0.25);

			// Reserve space for ticks
			if (pAxis->_tick._position == Tick::TickPosition::OUTWARDS)
			{
				double tickSize = getHorizontalTickLength(pAxis.get(), legendCharSizePanel.second);
				leftSpace += tickSize;
				if (nbAxesBySide[PlotCommon::Position::POS_RIGHT] == 0)
					// add space for oposite axis
					rightSpace += tickSize;
			}

			// Reserve space for legend
			if ((pAxis->_showLegend == true) && (nbLegendRows != 0))
			{
				leftSpace += PlPlotUtil::LINE_SPACE_TITLE * legendCharSizePanel.second * std::get<1>(pageSize) / std::get<0>(pageSize);
				pAxis->setLegendOffset(leftSpace + 0.5 * legendCharSizePanel.second * std::get<1>(pageSize) / std::get<0>(pageSize));
				leftSpace += (nbLegendRows + PlPlotUtil::LINE_SPACE_TITLE * (nbLegendRows + 1)) * legendCharSizePanel.second * std::get<1>(pageSize) / std::get<0>(pageSize);
			}

			break;
		case PlotCommon::Position::POS_RIGHT:
			// Record axis offset used for multi-axes
			pAxis->setAxisOffset(rightSpace);

			if (pAxis->isZAxis())
			{
				rightSpace += estimateZAxisWidth(pAxis);
				break;
			}

			// This attribute is used later (in function PanelPlotOutput::drawSeries).
			_plotAreaSideSet[pAxis->_position] = true;

			// Reserve space for ticks labels
			if (pAxis->_showTickMark == true)
				rightSpace += legendCharSizePanel.first * (pAxis->getTickMarkSize().first + 2 * PlPlotUtil::LINE_SPACE_TITLE + 0.25);

			// Reserve space for ticks
			if (pAxis->_tick._position == Tick::TickPosition::OUTWARDS)
			{
				double tickSize = getHorizontalTickLength(pAxis.get(), legendCharSizePanel.second);
				rightSpace += tickSize;
				if (nbAxesBySide[PlotCommon::Position::POS_LEFT] == 0)
					// add space for oposite axis
					leftSpace += tickSize;
			}

			// Reserve space for legend
			if ((pAxis->_showLegend == true) && (nbLegendRows != 0))
			{
				rightSpace += PlPlotUtil::LINE_SPACE_TITLE * legendCharSizePanel.second * std::get<1>(pageSize) / std::get<0>(pageSize);
				pAxis->setLegendOffset(rightSpace + 0.5 * legendCharSizePanel.second * std::get<1>(pageSize) / std::get<0>(pageSize));
				rightSpace += (nbLegendRows + PlPlotUtil::LINE_SPACE_TITLE * (nbLegendRows + 1)) * legendCharSizePanel.second * std::get<1>(pageSize) / std::get<0>(pageSize);
			}

			break;
		case PlotCommon::Position::POS_CENTER:
		default:
			LOG4CXX_WARN(gLogger, "PanelPlotOutput::drawPlotArea: Unrecognized position for axis '" << pAxis->_position << "'");
		}
	}

	void PanelPlotOutput::reserveSpaceForTextLegend(boost::shared_ptr<TextLegendProperties> &pTextLegendProp, double titleHeight, double &topSpace, double &bottomSpace, double &leftSpace, double &rightSpace)
	{
		int textLegendLinesNb = pTextLegendProp->getTextLinesNb();

		if (textLegendLinesNb == 0)
			return;

		PlPlotUtil::setPlFont(pTextLegendProp->getFont());
		CharSize lCharSizeLegend = PlPlotUtil::getCharacterSizeInPlPage(_panel->_page);

		std::tuple<float, float> pageSize = _panel->_page->getSizeInMm();

		switch (pTextLegendProp->getPosition())
		{
		case TextLegendPosition::POS_LEFT:
			pTextLegendProp->setOffset(leftSpace);
			leftSpace += (textLegendLinesNb + PlPlotUtil::LINE_SPACE_TITLE * (textLegendLinesNb + 1)) * lCharSizeLegend.second * std::get<1>(pageSize) / std::get<0>(pageSize);
			break;
		case TextLegendPosition::POS_RIGHT:
			pTextLegendProp->setOffset(rightSpace);
			rightSpace += (textLegendLinesNb + PlPlotUtil::LINE_SPACE_TITLE * (textLegendLinesNb + 1)) * lCharSizeLegend.second * std::get<1>(pageSize) / std::get<0>(pageSize);
			break;
		case TextLegendPosition::POS_TOP:
			if (_panel->_titlePosition == PlotCommon::Position::POS_TOP)
				pTextLegendProp->setOffset(topSpace - titleHeight);
			else
				pTextLegendProp->setOffset(topSpace);
			topSpace += (textLegendLinesNb + PlPlotUtil::LINE_SPACE_TITLE * (textLegendLinesNb + 1)) * lCharSizeLegend.second;
			break;
		case TextLegendPosition::POS_BOTTOM:
			if (_panel->_titlePosition == PlotCommon::Position::POS_BOTTOM)
				pTextLegendProp->setOffset(bottomSpace - titleHeight);
			else
				pTextLegendProp->setOffset(bottomSpace);
			bottomSpace += (textLegendLinesNb + PlPlotUtil::LINE_SPACE_TITLE * (textLegendLinesNb + 1)) * lCharSizeLegend.second;
			break;
		}
	}

	/**
	 * @brief Compute panel XY ratio used for angular conversions
	 */
	void PanelPlotOutput::computePanelPlotXYRatio(void)
	{
		// panel plot XY ratio = page ratio * plot area bound size ratio
		_panelPlotXYRatio = (std::get<0>(_panel->_page->getSize()) / std::get<1>(_panel->_page->getSize())) * (_plotAreaBounds._width / _plotAreaBounds._height);
	}

	/**
	 * @brief Draw legend for each axis.
	 */
	void PanelPlotOutput::drawLegends(boost::shared_ptr<Axis> &pAxis, PlWindow &pPlWindow, Bounds &pPlotAreaSize)
	{
		LOG4CXX_DEBUG(gLogger, "Drawing legend for axis " << pAxis->_id << " : " << pAxis->_legend.getText());

		// Set legend font
		Font legendFont(pAxis->getLegendFont(this->_panel.get()));
		PlPlotUtil::setPlFont(legendFont);

		// Get legend row info
		std::list<std::pair<std::string, Color>> lines = pAxis->_legend.getLines();

		// Check if there is something to draw !
		if ((pAxis->_visible == true) &&
			(pAxis->_showLegend == true) &&
			(lines.size() != 0))
		{

			Color lInitialColor;
			// If legend has not it's own color set axis color.
			if ((pAxis->_legend.getColor()._colorIndex == -1) && ((pAxis->_legend.getColor()._red == -1) && (pAxis->_legend.getColor()._green == -1) && (pAxis->_legend.getColor()._blue == -1)))
			{
				lInitialColor = changeColor(_pls, pAxis->_color,
											_panel->_page->_mode);
			}
			else
			{
				Color legendColor = pAxis->_legend.getColor();
				lInitialColor = changeColor(_pls, legendColor,
											_panel->_page->_mode);
			}

			// Init position
			double lPosition = PlPlotUtil::LINE_SPACE_TITLE;
			unsigned int lineIndex = 0;

			// Depending on the way to draw legend, for BOTTOM position we have to draw from first legend line to last.
			switch (pAxis->_position)
			{
			case PlotCommon::Position::POS_BOTTOM:

				_pls->vpor(pPlotAreaSize._x,
						   pPlotAreaSize._x + pPlotAreaSize._width,
						   pPlotAreaSize._y - pAxis->getLegendOffset(),
						   pPlotAreaSize._y - pAxis->getLegendOffset() + pPlotAreaSize._height);

				_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow),
						   std::get<2>(pPlWindow), std::get<3>(pPlWindow));

				// Draw lines, beginning by the first one
				for (auto line : lines)
				{
					std::string lineToDraw = line.first;
					if (lineIndex == lines.size() - 1)
					{
						// add unit if defined
						if (!pAxis->getAxisUnits().empty())
						{
							lineToDraw += " (";
							lineToDraw += pAxis->getAxisUnits();
							lineToDraw += ")";
						}
					}
					Color lSavedColor;
					if (line.second.isSet())
					{
						lSavedColor = changeColor(_pls, line.second, _panel->_page->_mode);
					}
					_pls->mtex(getPlSide(pAxis->_position).c_str(), lPosition, 0.5, 0.5, lineToDraw.c_str());
					// Adding more height if needed
					addSpaceForExInd(lineToDraw, lPosition);

					lPosition += (1 + PlPlotUtil::LINE_SPACE_TITLE);
					if (line.second.isSet())
					{
						restoreColor(_pls, lSavedColor, _panel->_page->_mode);
					}
					++lineIndex;
				}
				break;

			case PlotCommon::Position::POS_TOP:
				_pls->vpor(pPlotAreaSize._x,
						   pPlotAreaSize._x + pPlotAreaSize._width,
						   pPlotAreaSize._y + pAxis->getLegendOffset(),
						   pPlotAreaSize._y + pAxis->getLegendOffset() + pPlotAreaSize._height);

				_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow),
						   std::get<2>(pPlWindow), std::get<3>(pPlWindow));

				// Draw lines, beginning by the last one
				for (auto line : boost::adaptors::reverse(lines))
				{
					std::string lineToDraw = line.first;
					if (lineIndex == lines.size() - 1)
					{
						// add unit if defined
						if (!pAxis->getAxisUnits().empty())
						{
							lineToDraw += " (";
							lineToDraw += pAxis->getAxisUnits();
							lineToDraw += ")";
						}
					}
					Color lSavedColor;
					if (line.second.isSet())
					{
						lSavedColor = changeColor(_pls, line.second, _panel->_page->_mode);
					}
					_pls->mtex(getPlSide(pAxis->_position).c_str(), lPosition, 0.5, 0.5, lineToDraw.c_str());
					// Adding more height if needed
					addSpaceForExInd(lineToDraw, lPosition);

					lPosition += (1 + PlPlotUtil::LINE_SPACE_TITLE);
					if (line.second.isSet())
					{
						restoreColor(_pls, lSavedColor, _panel->_page->_mode);
					}
					++lineIndex;
				}
				break;

			case PlotCommon::Position::POS_RIGHT:

				_pls->vpor(pPlotAreaSize._x,
						   pPlotAreaSize._x + pAxis->getLegendOffset() + pPlotAreaSize._width,
						   pPlotAreaSize._y,
						   pPlotAreaSize._y + pPlotAreaSize._height);

				_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow),
						   std::get<2>(pPlWindow), std::get<3>(pPlWindow));

				// Draw lines, beginning by the first one
				for (auto line : lines)
				{
					std::string lineToDraw = line.first;
					if (lineIndex == lines.size() - 1)
					{
						// add unit if defined
						if (!pAxis->getAxisUnits().empty())
						{
							lineToDraw += " (";
							lineToDraw += pAxis->getAxisUnits();
							lineToDraw += ")";
						}
					}
					Color lSavedColor;
					if (line.second.isSet())
					{
						lSavedColor = changeColor(_pls, line.second, _panel->_page->_mode);
					}
					_pls->mtex(getPlSide(pAxis->_position).c_str(), lPosition, 0.5, 0.5, lineToDraw.c_str());
					// Adding more height if needed
					addSpaceForExInd(lineToDraw, lPosition);

					lPosition += (1 + PlPlotUtil::LINE_SPACE_TITLE);
					if (line.second.isSet())
					{
						restoreColor(_pls, lSavedColor, _panel->_page->_mode);
					}
					++lineIndex;
				}

				break;

			case PlotCommon::Position::POS_LEFT:

				_pls->vpor(pPlotAreaSize._x - pAxis->getLegendOffset(),
						   pPlotAreaSize._x + pPlotAreaSize._width,
						   pPlotAreaSize._y,
						   pPlotAreaSize._y + pPlotAreaSize._height);

				_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow),
						   std::get<2>(pPlWindow), std::get<3>(pPlWindow));

				// Draw lines, beginning by the last one
				for (auto line : boost::adaptors::reverse(lines))
				{
					std::string lineToDraw = line.first;
					if (lineIndex == lines.size() - 1)
					{
						// add unit if defined
						if (!pAxis->getAxisUnits().empty())
						{
							lineToDraw += " (";
							lineToDraw += pAxis->getAxisUnits();
							lineToDraw += ")";
						}
					}
					Color lSavedColor;
					if (line.second.isSet())
					{
						lSavedColor = changeColor(_pls, line.second, _panel->_page->_mode);
					}
					_pls->mtex(getPlSide(pAxis->_position).c_str(), lPosition, 0.5, 0.5, lineToDraw.c_str());
					// Adding more height if needed
					addSpaceForExInd(lineToDraw, lPosition);

					lPosition += (1 + PlPlotUtil::LINE_SPACE_TITLE);
					if (line.second.isSet())
					{
						restoreColor(_pls, lSavedColor, _panel->_page->_mode);
					}
					++lineIndex;
				}

				break;

			case PlotCommon::Position::POS_CENTER:
			default:
				LOG4CXX_WARN(gLogger, "PanelPlotOutput::drawPlotArea: Unrecognized position for axis '" << pAxis->_position << "'");
			}

			_pls->vpor(pPlotAreaSize._x,
					   pPlotAreaSize._x + pPlotAreaSize._width,
					   pPlotAreaSize._y,
					   pPlotAreaSize._y + pPlotAreaSize._height);

			_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow),
					   std::get<2>(pPlWindow), std::get<3>(pPlWindow));

			// Restore initial color.
			restoreColor(_pls, lInitialColor, _panel->_page->_mode);
		}
	}

	void PanelPlotOutput::addSpaceForExInd(std::string &legend, double &lPosition){
		if(legend != ""){

			// We check if there is an exponent or an indice
			const char *exponent = std::strstr(legend.c_str(), "#u");
			const char *indice = std::strstr(legend.c_str(), "#d");

			if(exponent || indice)
				lPosition += 1;
		}
	}

	void PanelPlotOutput::drawAxis(boost::shared_ptr<Axis> pAxis, TickConf &pTickConf,
								   std::string pXAxisOptions, std::string pYAxisOptions)
	{
		Color lInitialColor = changeColor(_pls, pAxis->_color, _panel->_page->_mode);

		// Set axis thickness.
		_pls->width(pAxis->_thickness);

		// Set tick (major and minor) length factor
		PLFLT lTickLenFact = DEFAULT_TICK_LENGTH_FACTOR;
		if (!isnan(pAxis->_tick._lengthFactor))
		{
			lTickLenFact = pAxis->_tick._lengthFactor;
		}
		else
		{
			// Nothing to do.
		}
		// 0 => keep tick height in millimeters.
		_pls->smaj(0, lTickLenFact);
		_pls->smin(0, lTickLenFact);

		// if options contains "o" character we need to set label function
		if ((pXAxisOptions.find("o") != std::string::npos) || (pYAxisOptions.find("o") != std::string::npos))
		{
			_pls->slabelfunc(pAxis->_labelGenerator->_function, pAxis->_labelGenerator->_data);
		}

		// Set line style (force to be plain)
		_pls->lsty(static_cast<int>(getPlLineStyle(LineStyle::PLAIN)));

		// Set font to draw axes.
		Font axisFont(pAxis->getLegendFont(this->_panel.get()));
		axisFont.setStyle(Font::Style::NORMAL);
		axisFont.setWeight(Font::Weight::NORMAL);
		PlPlotUtil::setPlFont(axisFont);

		size_t lPos;

		double xMajorTickSpace = std::get<0>(pTickConf);
		double xMinorTickNumber = std::get<1>(pTickConf);
		double yMajorTickSpace = std::get<2>(pTickConf);
		double yMinorTickNumber = std::get<3>(pTickConf);

		// if options contains "a" character we need to draw origin separately.
		if ((lPos = pXAxisOptions.find("a")) != std::string::npos)
		{
			pXAxisOptions.replace(lPos, 1, "");
			_pls->box("a", xMajorTickSpace, xMinorTickNumber, "", yMajorTickSpace, yMinorTickNumber);
		}
		else if ((lPos = pYAxisOptions.find("a")) != std::string::npos)
		{
			pYAxisOptions.replace(lPos, 1, "");
			_pls->box("", xMajorTickSpace, xMinorTickNumber, "a", yMajorTickSpace, yMinorTickNumber);
		}
		else
		{
			// Nothing to do.
		}

		// Draw axis.
		_pls->box(pXAxisOptions.c_str(), xMajorTickSpace, xMinorTickNumber,
				  pYAxisOptions.c_str(), yMajorTickSpace, yMinorTickNumber);

		// Restore initial color.
		restoreColor(_pls, lInitialColor, _panel->_page->_mode);

		// Set axis as drawn.
		pAxis->_drawn = true;
	}

	void PanelPlotOutput::drawXAxis(boost::shared_ptr<Axis> pXAxis, PlWindow &pPlWindow, Bounds &pPlotAreaSize, TickConf &pTickConf)
	{
		// Set option to draw origin.
		std::string lAxisOption = pXAxis->getPlotOpt();
		std::string lTmpAxisOption = "xi";

		// plplot doesn't provide solution to set space between tick and tick mark.
		// To do that we need to play with viewport position and size.
		// So axis will be drawn in two times:
		//		- first draw tick marks
		//		- second draw tick and edge
		// Custom space  between tick marks and tick is only done when tick length is greater than 0.75.
		// Get extra tick mark space (only if they are outwards)
		if (pXAxis->_tick._position == Tick::TickPosition::OUTWARDS)
		{
			float lTickLengthFactor = 0;
			if ((!isnan(pXAxis->_tick._lengthFactor)) && (pXAxis->_tick._lengthFactor > HORIZONTAL_TICK_LENGTH_LIMIT))
			{
				lTickLengthFactor = pXAxis->_tick._lengthFactor;
			}
			else if ((isnan(pXAxis->_tick._lengthFactor)) && (DEFAULT_TICK_LENGTH_FACTOR > HORIZONTAL_TICK_LENGTH_LIMIT))
			{
				lTickLengthFactor = DEFAULT_TICK_LENGTH_FACTOR;
			}

			if (lTickLengthFactor != 0)
			{
				// 1 character size is equal to 0.75 tick length.
				PlPlotUtil::setPlFont(_panel->getFont());
				float lTickMarkSpace = (lTickLengthFactor - HORIZONTAL_TICK_LENGTH_LIMIT) * (PlPlotUtil::getCharacterSizeInPlPage(_panel->_page).second) / (DEFAULT_TICK_LENGTH_FACTOR);

				size_t lPos;

				if ((lPos = lAxisOption.find("m")) != std::string::npos)
				{
					lTmpAxisOption += "m";
					lAxisOption.replace(lPos, 1, "");
				}
				if ((lPos = lAxisOption.find("n")) != std::string::npos)
				{
					lTmpAxisOption += "n";
					lAxisOption.replace(lPos, 1, "");
				}
				if ((lPos = lAxisOption.find("o")) != std::string::npos)
				{
					lTmpAxisOption += "o";
					lAxisOption.replace(lPos, 1, "");
				}
				if ((lPos = lAxisOption.find("d")) != std::string::npos)
				{
					lTmpAxisOption += "d";
					lAxisOption.replace(lPos, 1, "");
				}
				if ((lPos = lAxisOption.find("f")) != std::string::npos)
				{
					lTmpAxisOption += "f";
					lAxisOption.replace(lPos, 1, "");
				}

				if (pXAxis->_position == PlotCommon::Position::POS_BOTTOM)
				{
					_pls->vpor(pPlotAreaSize._x,
							   pPlotAreaSize._x + pPlotAreaSize._width,
							   pPlotAreaSize._y - lTickMarkSpace,
							   pPlotAreaSize._y + pPlotAreaSize._height);
				}
				else
				{
					_pls->vpor(pPlotAreaSize._x,
							   pPlotAreaSize._x + pPlotAreaSize._width,
							   pPlotAreaSize._y,
							   pPlotAreaSize._y + pPlotAreaSize._height + lTickMarkSpace);
				}

				_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow),
						   std::get<2>(pPlWindow), std::get<3>(pPlWindow));

				// Draw tick mark.
				drawAxis(pXAxis, pTickConf, lTmpAxisOption, "");
			}
		}
		// Restore default plot area
		_pls->vpor(pPlotAreaSize._x,
				   pPlotAreaSize._x + pPlotAreaSize._width,
				   pPlotAreaSize._y,
				   pPlotAreaSize._y + pPlotAreaSize._height);
		// Set window.
		_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow),
				   std::get<2>(pPlWindow), std::get<3>(pPlWindow));

		// Check if origin must be drawn.
		if (std::get<0>(pPlWindow) != 0 && std::get<1>(pPlWindow) && pXAxis->_origin == 0)
		{
			lAxisOption += "a";
		}

		// Check if opposite plot area side need to be drawn
		lAxisOption += drawOppositeSide(pXAxis);

		// Draw rest of axis.
		drawAxis(pXAxis, pTickConf, lAxisOption, "");
	}

	void PanelPlotOutput::drawYAxis(boost::shared_ptr<Axis> pYAxis, PlWindow &pPlWindow, Bounds &pPlotAreaSize, TickConf &pTickConf)
	{

		// Get axis offset in case of multi-axes
		double axisOffset = pYAxis->getAxisOffset();

		// Set option to draw origin ("v" is set to have numeric labels parallel to X axis).
		std::string lAxisOption = pYAxis->getPlotOpt();
		std::string lTmpAxisOption = "xiv";

		// plplot doesn't provide solution to set space between tick and tick mark.
		// To do that we need to play with viewport position and size.
		// So axis will be drawn in two times:
		//		- first draw tick marks
		//		- second draw tick and edge
		// Custom space  between tick marks and tick is only done when tick length is greater than 0.5.
		// Get extra tick mark space (only if they are outwards)

		pPlotAreaSize._width = pPlotAreaSize._width;

		if (pYAxis->_tick._position == Tick::TickPosition::OUTWARDS)
		{
			float lTickLengthFactor = 0;
			if ((!isnan(pYAxis->_tick._lengthFactor)) && (pYAxis->_tick._lengthFactor > VERTICAL_TICK_LENGTH_LIMIT))
			{
				lTickLengthFactor = pYAxis->_tick._lengthFactor;
			}
			else if ((isnan(pYAxis->_tick._lengthFactor)) && (DEFAULT_TICK_LENGTH_FACTOR > VERTICAL_TICK_LENGTH_LIMIT))
			{
				lTickLengthFactor = DEFAULT_TICK_LENGTH_FACTOR;
			}

			if (lTickLengthFactor != 0)
			{
				// 1 character size is equal to 0.75 tick length.
				PlPlotUtil::setPlFont(_panel->getFont());
				double lTickMarkSpace = (lTickLengthFactor - VERTICAL_TICK_LENGTH_LIMIT) * (PlPlotUtil::getCharacterSizeInPlPage(_panel->_page).second) / (DEFAULT_TICK_LENGTH_FACTOR);

				size_t lPos;

				if ((lPos = lAxisOption.find("m")) != std::string::npos)
				{
					lTmpAxisOption += "m";
					lAxisOption.replace(lPos, 1, "");
				}
				if ((lPos = lAxisOption.find("n")) != std::string::npos)
				{
					lTmpAxisOption += "n";
					lAxisOption.replace(lPos, 1, "");
				}
				if ((lPos = lAxisOption.find("o")) != std::string::npos)
				{
					lTmpAxisOption += "o";
					lAxisOption.replace(lPos, 1, "");
				}
				if ((lPos = lAxisOption.find("f")) != std::string::npos)
				{
					lTmpAxisOption += "f";
					lAxisOption.replace(lPos, 1, "");
				}
				if (lAxisOption.find("l") != std::string::npos)
				{
					// Do not remove on original axis option
					// because option is needed to draw logarithmic tick.
					lTmpAxisOption += "l";
				}

				// Set plot area used to draw tick mark
				if (pYAxis->_position == PlotCommon::Position::POS_LEFT)
				{
					_pls->vpor(pPlotAreaSize._x - lTickMarkSpace - axisOffset,
							   pPlotAreaSize._x + pPlotAreaSize._width,
							   pPlotAreaSize._y,
							   pPlotAreaSize._y + pPlotAreaSize._height);
				}
				else
				{
					_pls->vpor(pPlotAreaSize._x,
							   pPlotAreaSize._x + pPlotAreaSize._width + lTickMarkSpace + axisOffset,
							   pPlotAreaSize._y,
							   pPlotAreaSize._y + pPlotAreaSize._height);
				}

				_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow),
						   std::get<2>(pPlWindow), std::get<3>(pPlWindow));

				// Draw tick mark.
				drawAxis(pYAxis, pTickConf, "", lTmpAxisOption);
			}
		}

		// Set plot area used to draw tick
		if (pYAxis->_position == PlotCommon::Position::POS_LEFT)
		{
			_pls->vpor(pPlotAreaSize._x - axisOffset,
					   pPlotAreaSize._x + pPlotAreaSize._width,
					   pPlotAreaSize._y,
					   pPlotAreaSize._y + pPlotAreaSize._height);
		}
		else
		{
			_pls->vpor(pPlotAreaSize._x,
					   pPlotAreaSize._x + pPlotAreaSize._width + axisOffset,
					   pPlotAreaSize._y,
					   pPlotAreaSize._y + pPlotAreaSize._height);
		}

		// Set window.
		_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow),
				   std::get<2>(pPlWindow), std::get<3>(pPlWindow));

		// Check if origin must be drawn.
		if (std::get<0>(pPlWindow) != 0 && std::get<1>(pPlWindow) && pYAxis->_origin == 0)
		{
			lAxisOption += "a";
		}

		// Check if opposite plot area side need to be drawn
		lAxisOption += drawOppositeSide(pYAxis);

		// Draw rest of axis.
		drawAxis(pYAxis, pTickConf, "", lAxisOption);

		// Restore default plot area
		_pls->vpor(pPlotAreaSize._x,
				   pPlotAreaSize._x + pPlotAreaSize._width,
				   pPlotAreaSize._y,
				   pPlotAreaSize._y + pPlotAreaSize._height);

		// Set window.
		_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow),
				   std::get<2>(pPlWindow), std::get<3>(pPlWindow));
	}

#define COLORBAR_X_OFFSET 0.01
#define COLORBAR_BODY_WIDTH 0.0375

	double PanelPlotOutput::estimateZAxisWidth(boost::shared_ptr<Axis> pZAxis)
	{
		double axisWidth = (COLORBAR_X_OFFSET + COLORBAR_BODY_WIDTH) * _panel->_bounds._width;

		PlPlotUtil::setPlFont(_panel->getFont());
		CharSize lCharSize = PlPlotUtil::getCharacterSizeInPlPage(_panel->_page);

		int nbLineLegend = pZAxis->_legend.getNbLines();

		if ((pZAxis->_showLegend == true) && (nbLineLegend != 0))
		{
			if (_panel->_page->_orientation == PlotCommon::Orientation::LANDSCAPE)
				axisWidth += lCharSize.second * (2 * nbLineLegend + 1);
			else
				axisWidth += lCharSize.first * (2 * nbLineLegend + 1);
		}

		return axisWidth;
	}

	void PanelPlotOutput::drawZAxis(boost::shared_ptr<Axis> pZAxis, PlWindow &pPlWindow, Bounds &pPlotAreaSize, TickConf & /*pTickConf*/)
	{
		Color lInitialColor;
		_pls->gcol0(0, lInitialColor._red, lInitialColor._green, lInitialColor._blue);

		// Set axis thickness.
		_pls->width(pZAxis->_thickness);

		// Set line style (force to be plain)
		_pls->lsty(static_cast<int>(getPlLineStyle(LineStyle::PLAIN)));

		// Set font to draw axes.
		PlPlotUtil::setPlFont(_panel->getFont());

		std::string lAxisOption = pZAxis->getPlotOpt();
		std::string lAxisLegend = "";
		std::list<std::pair<std::string, Color>> lines = pZAxis->_legend.getLines();
		for (auto line : lines)
		{
			if (line.first.empty())
			{
				continue;
			}
			if (!lAxisLegend.empty())
			{
				lAxisLegend += "\n";
			}
			lAxisLegend += line.first;
		}

		PLFLT colorbar_width, colorbar_height;
		const int cont_color = 0;
		const PLFLT cont_width = 0.0;

		// set legend
		const PLINT n_labels = (lAxisLegend.empty()) ? 0 : 1;
		std::string label = lAxisLegend;

		const char *labels[n_labels];
		if (!lAxisLegend.empty())
			labels[0] = label.c_str();

		// set axis options
		const PLINT n_axis_opts = 1;
		const char *axis_opts[n_axis_opts] = {
			lAxisOption.c_str(),
		};

		PLFLT axis_ticks[n_axis_opts] = {
			0};
		PLINT axis_subticks[n_axis_opts] = {
			0};

		// if options contains "o" character we need to set label function
		if (lAxisOption.find("o") != std::string::npos)
		{
			_pls->slabelfunc(pZAxis->_labelGenerator->_function, pZAxis->_labelGenerator->_data);
		}

		// set nb og colors
		const int nbCol = 20;

		PLINT num_values[1] = {
			nbCol + 1};

		Range r = pZAxis->getRange();

		PLFLT *shedge = new PLFLT[nbCol + 1];

		ShadesTools::computeEdgesLevels(r, nbCol + 1, shedge);

		PLFLT *values[1];
		values[0] = shedge;

		// set color map
		_pls->spal1(
			ColormapManager::getInstance().getColorAxis(pZAxis->_color._colorMapIndex).c_str(), true);

		// set color bar and legend position
		PLINT position = PL_POSITION_OUTSIDE | PL_POSITION_VIEWPORT;
		PLINT label_opts[1];

		switch (pZAxis->_position)
		{
		case PlotCommon::Position::POS_LEFT:
			position |= PL_POSITION_LEFT;
			label_opts[0] = PL_COLORBAR_LABEL_LEFT;
			_pls->vpor(pPlotAreaSize._x - pZAxis->getAxisOffset(), pPlotAreaSize._x + pPlotAreaSize._width, pPlotAreaSize._y, pPlotAreaSize._y + pPlotAreaSize._height);
			break;
		case PlotCommon::Position::POS_RIGHT:
			position |= PL_POSITION_RIGHT;
			label_opts[0] = PL_COLORBAR_LABEL_RIGHT;
			_pls->vpor(pPlotAreaSize._x, pPlotAreaSize._x + pPlotAreaSize._width + pZAxis->getAxisOffset(), pPlotAreaSize._y, pPlotAreaSize._y + pPlotAreaSize._height);
			break;
		default:
		{
			std::stringstream lError;
			lError << "PanelPlotOutput::drawZAxis : Bad Z axis position";
			BOOST_THROW_EXCEPTION(
				PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
		}
		}

		_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow), std::get<2>(pPlWindow), std::get<3>(pPlWindow));

		_pls->colorbar(
			&colorbar_width,
			&colorbar_height,
			PL_COLORBAR_GRADIENT, // PL_COLORBAR_SHADE,
			position,
			0.0, // COLORBAR_X_OFFSET,
			0.0,
			COLORBAR_BODY_WIDTH,
			0.875,
			0, /*bg_color*/
			1,
			1,
			0.0,
			0.0,
			cont_color,
			cont_width,
			n_labels,
			label_opts,
			labels,
			n_axis_opts,
			axis_opts,
			axis_ticks,
			axis_subticks,
			num_values,
			(const PLFLT *const *)values);

		// reset color map
		_pls->spal1(
			ColormapManager::getInstance().get(_panel->_page->_mode,
											   ColormapManager::DEFAULT_COLORMAP_1)
				.c_str(),
			true);

		_pls->scol0(0, lInitialColor._red, lInitialColor._green, lInitialColor._blue);

		delete[] shedge;

		// Restore initial color.
		restoreColor(_pls, lInitialColor, _panel->_page->_mode);

		// Restore default plot area
		_pls->vpor(pPlotAreaSize._x,
				   pPlotAreaSize._x + pPlotAreaSize._width,
				   pPlotAreaSize._y,
				   pPlotAreaSize._y + pPlotAreaSize._height);

		_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow), std::get<2>(pPlWindow), std::get<3>(pPlWindow));

		// Set axis as drawn.
		pZAxis->_drawn = true;
	}

	Range PanelPlotOutput::getXAxisRange(SeriesProperties &pSeries, boost::shared_ptr<Axis> pAxis)
	{

		if (pSeries.hasXAxis() && pAxis.get() == nullptr)
		{
			std::stringstream lError;
			lError << "PanelPlotOutput::drawSeries"
				   << ": X axis with id '"
				   << pSeries.getXAxisId() << "' not found.";
			BOOST_THROW_EXCEPTION(
				PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
		}
		else if (pSeries.hasXAxis())
		{
			// fill X range (plplot window).
			return (pAxis->getRange());
		}
		return Range();
	}

	Range PanelPlotOutput::getYAxisRange(SeriesProperties &pSeries, boost::shared_ptr<Axis> pAxis)
	{

		if (pSeries.hasYAxis() && pAxis.get() == nullptr)
		{
			std::stringstream lError;
			lError << "PanelPlotOutput::drawSeries"
				   << ": Y axis with id '"
				   << pSeries.getYAxisId() << "' not found.";
			BOOST_THROW_EXCEPTION(
				PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
		}
		else if (pSeries.hasYAxis())
		{
			// fill Y range (plplot window).
			return (pAxis->getRange());
		}
		return Range();
	}

	Range PanelPlotOutput::getZAxisRange(SeriesProperties &pSeries, boost::shared_ptr<Axis> pAxis)
	{

		if (pSeries.hasZAxis() && pAxis.get() == nullptr)
		{
			std::stringstream lError;
			lError << "PanelPlotOutput::drawSeries"
				   << ": Z axis with id '"
				   << pSeries.getYAxisId() << "' not found.";
			BOOST_THROW_EXCEPTION(
				PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
		}
		else if (pSeries.hasZAxis())
		{
			// fill Z range (plplot window).
			return (pAxis->getRange());
		}
		return Range();
	}

	/**
	 * Convert an X axis string value to a double X value
	 */
	double PanelPlotOutput::convertXAxisValue(const std::string &value)
	{
		return std::stod(value);
	}

	/**
	 * Convert an Y axis string value to a double Y value
	 */
	double PanelPlotOutput::convertYAxisValue(const std::string &value)
	{
		return std::stod(value);
	}

	/**
	 * Get colored value associated to a data value. Return false if the value is filtered.
	 */
	bool PanelPlotOutput::getColoredValue(double value, double filterMin, double filterMax, bool useLog0AsMin, PLFLT &col)
	{
		boost::shared_ptr<ColorAxis> lZAxis = _panel->getColorAxis();

		if (lZAxis == nullptr)
			return false;

		bool filterMinMax = (isNAN(filterMin) == false) || (isNAN(filterMax) == false);

		Range r = lZAxis->getRange();

		if (isnan(value))
			return false;

		if ((filterMinMax == true) && ((value < filterMin) || (value > filterMax)))
			return false;

		double correctedValue = value;
		if (lZAxis->_scale == Axis::Scale::LOGARITHMIC)
		{
			if (correctedValue <= 0)
			{
				if (useLog0AsMin)
				{
					col = 0;
					return true;
				}
				return false;
			}

			correctedValue = log10(correctedValue);
		}

		if (!lZAxis->_reverse)
			col = (correctedValue - r.getMin()) / (r.getMax() - r.getMin());
		else
			col = (correctedValue - r.getMax()) / (r.getMin() - r.getMax());

		return true;
	}

	/**
	 * Draw list of symbols
	 */
	void PanelPlotOutput::drawSymbols(SymbolType pType, int pSize, double pFactor, Color pColor,
									  int pNbData, double *pXData, double *pYData, double *pZData, double filterZMin, double filterZMax)
	{
		if (pType == SymbolType::NO)
			return;

		Color lInitialColor;

		// Set color.
		lInitialColor = changeColor(_pls, pColor, _panel->_page->_mode);

		PlPlotUtil::setPlFont(_panel->_page->getFont());

		// Set size.
		_pls->ssym(pSize, pFactor);

		// Get colored axis
		boost::shared_ptr<ColorAxis> lZAxis = _panel->getColorAxis();

		// draw symbols
		if ((pZData == NULL) || (lZAxis == nullptr))
			_pls->poin(pNbData, pXData, pYData, static_cast<int>(pType));
		else
		{
			// set color map
			_pls->spal1(
				ColormapManager::getInstance().getColorAxis(lZAxis->_color._colorMapIndex).c_str(), true);

			// get specific colors for min / max values
			Color minValColor = lZAxis->getMinValColor();
			Color maxValColor = lZAxis->getMaxValColor();

			PLFLT col;
			for (int i = 0; i < pNbData; ++i)
			{
				if (!getColoredValue(pZData[i], filterZMin, filterZMax, false, col))
					continue;

				if (col <= 0.)
				{
					if (minValColor.isSet())
					{
						restoreColor(_pls, minValColor, _panel->_page->_mode);
						_pls->poin(1, &pXData[i], &pYData[i], static_cast<int>(pType));
						_pls->spal1(ColormapManager::getInstance().getColorAxis(lZAxis->_color._colorMapIndex).c_str(), true);
					}
					else
					{
						_pls->col1(0);
						_pls->poin(1, &pXData[i], &pYData[i], static_cast<int>(pType));
					}
				}
				else if (col >= 1.)
				{
					if (maxValColor.isSet())
					{
						restoreColor(_pls, maxValColor, _panel->_page->_mode);
						_pls->poin(1, &pXData[i], &pYData[i], static_cast<int>(pType));
						_pls->spal1(ColormapManager::getInstance().getColorAxis(lZAxis->_color._colorMapIndex).c_str(), true);
					}
					else
					{
						_pls->col1(1);
						_pls->poin(1, &pXData[i], &pYData[i], static_cast<int>(pType));
					}
				}
				else
				{
					_pls->col1(col);
					_pls->poin(1, &pXData[i], &pYData[i], static_cast<int>(pType));
				}
			}
		}

		// Restore color.
		restoreColor(_pls, lInitialColor, _panel->_page->_mode);
	}

	/**
	 * Draw list of lines
	 */
	void PanelPlotOutput::drawLines(LineType pType, LineStyle pStyle, int pWidth, Color &pColor,
									int pNbData, double *pXData, double *pYData, double *pZData, double filterZMin, double filterZMax)
	{
		if (pType == LineType::EMPTY)
			return;

		if (pType != LineType::LINE)
		{
			BOOST_THROW_EXCEPTION(PanelPlotOutputException() << AMDA::ex_msg("HISTO line type can't be used in time plot. Use LINE or EMPTY type"));
		}

		Color lInitialColor;

		// Set color.
		lInitialColor = changeColor(_pls, pColor, _panel->_page->_mode);

		// Set line type.
		_pls->lsty(static_cast<int>(getPlLineStyle(pStyle)));

		// Set line thickness.
		_pls->width(pWidth);

		// Get colored axis
		boost::shared_ptr<ColorAxis> lZAxis = _panel->getColorAxis();

		// draw lines.
		if ((pZData == NULL) || (lZAxis == nullptr))
		{
			_pls->line(pNbData, pXData, pYData);
		}
		else
		{
			// set color map
			_pls->spal1(
				ColormapManager::getInstance().getColorAxis(lZAxis->_color._colorMapIndex).c_str(), true);

			// get specific colors for min / max values
			Color minValColor = lZAxis->getMinValColor();
			Color maxValColor = lZAxis->getMaxValColor();

			PLFLT col;
			for (int i = 0; i < pNbData - 1; ++i)
			{
				if (!getColoredValue(pZData[i], filterZMin, filterZMax, false, col))
					continue;

				if (col <= 0.)
				{
					if (minValColor.isSet())
					{
						restoreColor(_pls, minValColor, _panel->_page->_mode);
						_pls->line(2, &pXData[i], &pYData[i]);
						_pls->spal1(ColormapManager::getInstance().getColorAxis(lZAxis->_color._colorMapIndex).c_str(), true);
					}
					else
					{
						_pls->col1(0);
						_pls->line(2, &pXData[i], &pYData[i]);
					}
				}
				else if (col >= 1.)
				{
					if (maxValColor.isSet())
					{
						restoreColor(_pls, maxValColor, _panel->_page->_mode);
						_pls->line(2, &pXData[i], &pYData[i]);
						_pls->spal1(ColormapManager::getInstance().getColorAxis(lZAxis->_color._colorMapIndex).c_str(), true);
					}
					else
					{
						_pls->col1(1);
						_pls->line(2, &pXData[i], &pYData[i]);
					}
				}
				else
				{
					_pls->col1(col);
					_pls->line(2, &pXData[i], &pYData[i]);
				}
			}
		}

		// Restore color.
		restoreColor(_pls, lInitialColor, _panel->_page->_mode);
	}

	/**
	 * Draw a rectangle
	 */
	void PanelPlotOutput::drawRectangle(double xmin, double xmax, double ymin, double ymax, Color &color, double alpha)
	{
		if (!color.isSet())
		{
			return;
		}

		Color lInitialColor;

		// Set color.
		lInitialColor = changeColor(_pls, color, _panel->_page->_mode);

		// Draw rectangle
		PLFLT x[4], y[4];

		x[0] = xmin;
		x[1] = xmin;
		x[2] = xmax;
		x[3] = xmax;
		y[0] = ymin;
		y[1] = ymax;
		y[2] = ymax;
		y[3] = ymin;

		// Fill rectangle
		PLINT icol = 0;
		PLINT r, g, b = 0;
		PLFLT a = 0;
		_pls->gcol0a(icol, r, g, b, a);
		a = alpha;
		_pls->scol0a(icol, r, g, b, a);
		_pls->col0(icol);
		_pls->fill(4, x, y);

		// Restore color.
		restoreColor(_pls, lInitialColor, _panel->_page->_mode);
	}

	/*
	 * @brief Draw a matrix
	 */
	void PanelPlotOutput::drawMatrix(MatrixGrid &matrixGrid, double minDataVal, double maxDataVal,
									 Color minValColor, Color maxValColor, int colorMapIndex, bool useLog0AsMin)
	{
		// set color map
		_pls->spal1(
			ColormapManager::getInstance().getColorAxis(colorMapIndex).c_str(), true);

		Color lInitialColor;
		_pls->gcol0(0, lInitialColor._red, lInitialColor._green, lInitialColor._blue);

		// plot matrix
		PLFLT x[4], y[4];
		PLFLT col;

		for (auto part : matrixGrid)
		{
			x[0] = part.x[0];
			x[1] = part.x[1];
			x[2] = x[1];
			x[3] = x[0];

			y[0] = part.y[0];
			y[1] = y[0];
			y[2] = part.y[1];
			y[3] = y[2];

			if (isNAN(part.value))
				continue;

			if (!part.isColorIndex)
			{
				if (!getColoredValue(part.value, minDataVal, maxDataVal, useLog0AsMin, col))
					continue;
			}
			else
			{
				Color dataValueColor(colorMapIndex, (int)part.value);
				restoreColor(_pls, dataValueColor, _panel->_page->_mode);
				_pls->fill(4, x, y);
				_pls->spal1(ColormapManager::getInstance().getColorAxis(colorMapIndex).c_str(), true);
				continue;
			}

			if (col <= 0.)
			{
				if (minValColor.isSet())
				{
					restoreColor(_pls, minValColor, _panel->_page->_mode);
					_pls->fill(4, x, y);
					_pls->spal1(ColormapManager::getInstance().getColorAxis(colorMapIndex).c_str(), true);
				}
				else
				{
					_pls->col1(0);
					_pls->fill(4, x, y);
				}
			}
			else if (col >= 1.)
			{
				if (maxValColor.isSet())
				{
					restoreColor(_pls, maxValColor, _panel->_page->_mode);
					_pls->fill(4, x, y);
					_pls->spal1(ColormapManager::getInstance().getColorAxis(colorMapIndex).c_str(), true);
				}
				else
				{
					_pls->col1(1);
					_pls->fill(4, x, y);
				}
			}
			else
			{
				_pls->col1(col);
				_pls->fill(4, x, y);
			}
		}

		// restore to initial color context
		_pls->spal1(
			ColormapManager::getInstance().get(_panel->_page->_mode,
											   ColormapManager::DEFAULT_COLORMAP_1)
				.c_str(),
			true);
		_pls->scol0(0, lInitialColor._red, lInitialColor._green, lInitialColor._blue);

		// Restore color.
		restoreColor(_pls, lInitialColor, _panel->_page->_mode);
	}

	/**
	 * Draw errors segments
	 */
	void PanelPlotOutput::drawYErrors(
		LineType pType,
		LineStyle pStyle,
		int pWidth,
		Color &pColor,
		int pNbData,
		double *pXData,
		double *pYMinData,
		double *pYMaxData)
	{
		if (pType == LineType::EMPTY)
			return;

		if (pType != LineType::LINE)
		{
			BOOST_THROW_EXCEPTION(PanelPlotOutputException() << AMDA::ex_msg("HISTO line type can't be used in time plot. Use LINE or EMPTY type"));
		}

		Color lInitialColor;

		// Set color.
		lInitialColor = changeColor(_pls, pColor, _panel->_page->_mode);

		// Set line type.
		_pls->lsty(static_cast<int>(getPlLineStyle(pStyle)));

		// Set line thickness.
		_pls->width(pWidth);

		// Set the default tich with
		_pls->smin(0, 0.5);

		// Draw error bars
		_pls->erry(pNbData, pXData, pYMinData, pYMaxData);

		// Restore color.
		restoreColor(_pls, lInitialColor, _panel->_page->_mode);
	}

	/**
	 * Draws X constant lines linked to axis
	 */
	void PanelPlotOutput::drawXConstantLines(boost::shared_ptr<Axis> pAxis, PlWindow &pPlWindow)
	{
		double x[2], y[2];

		_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow), std::get<2>(pPlWindow), std::get<3>(pPlWindow));

		for (auto constantLine : pAxis->_constantLines)
		{
			if (constantLine->isDrawn())
				continue;
			x[0] = convertXAxisValue(constantLine->getValue());
			x[1] = convertXAxisValue(constantLine->getValue());
			y[0] = std::get<2>(pPlWindow);
			y[1] = std::get<3>(pPlWindow);

			if (pAxis->_scale == Axis::Scale::LOGARITHMIC)
			{
				x[0] = log10(x[0]);
				x[1] = log10(x[1]);
			}

			drawLines(
				LineType::LINE,
				constantLine->getStyle(),
				constantLine->getWidth(),
				constantLine->getColor(),
				2, x, y);

			constantLine->setDrawn(true);
		}
	}

	/**
	 * Draws Y constant lines linked to axis
	 */
	void PanelPlotOutput::drawYConstantLines(boost::shared_ptr<Axis> pAxis, PlWindow &pPlWindow)
	{
		double x[2], y[2];

		_pls->wind(std::get<0>(pPlWindow), std::get<1>(pPlWindow), std::get<2>(pPlWindow), std::get<3>(pPlWindow));

		for (auto constantLine : pAxis->_constantLines)
		{
			if (constantLine->isDrawn())
				continue;

			x[0] = std::get<0>(pPlWindow);
			x[1] = std::get<1>(pPlWindow);
			y[0] = convertYAxisValue(constantLine->getValue());
			y[1] = convertYAxisValue(constantLine->getValue());

			if (pAxis->_scale == Axis::Scale::LOGARITHMIC)
			{
				y[0] = log10(y[0]);
				y[1] = log10(y[1]);
			}

			drawLines(
				LineType::LINE,
				constantLine->getStyle(),
				constantLine->getWidth(),
				constantLine->getColor(),
				2, x, y);

			constantLine->setDrawn(true);
		}
	}

	/**
	 * Draws TextPlots
	 */
	void PanelPlotOutput::drawTextPlots(boost::shared_ptr<Axis> pXAxis, boost::shared_ptr<Axis> pYAxis, PlWindow &pPlWindow, const TextPlots &textPlots)
	{
		double x, y;
		double x1, x2, y1, y2;

		x1 = std::get<0>(pPlWindow);
		x2 = std::get<1>(pPlWindow);
		y1 = std::get<2>(pPlWindow);
		y2 = std::get<3>(pPlWindow);

		_pls->wind(x1, x2, y1, y2);

		for (auto textPlot : textPlots)
		{
			if (textPlot->isDrawn())
				continue;

			if (!textPlot->_xAxisId.empty() && (textPlot->_xAxisId.compare(pXAxis->_id) != 0))
				continue;

			if (!textPlot->_yAxisId.empty() && (textPlot->_yAxisId.compare(pYAxis->_id) != 0))
				continue;

			// Compute x y position for the text
			if (textPlot->_x.find("%") != std::string::npos)
			{
				// Remove % before conversion
				int pos = textPlot->_x.find("%");
				std::string xPos = textPlot->_x;
				xPos.erase(pos);
				// Compute x value as a percent of the x value
				x = x1 + (x2 - x1) * std::stod(xPos) / 100.0;
			}
			else
			{
				x = convertXAxisValue(textPlot->_x);
			}

			if (textPlot->_y.find("%") != std::string::npos)
			{
				// Remove % before conversion
				int pos = textPlot->_y.find("%");
				std::string yPos = textPlot->_y;
				yPos.erase(pos);
				// Compute x value as a percent of the x value
				y = y1 + (y2 - y1) * std::stod(yPos) / 100.0;
			}
			else
			{
				y = convertYAxisValue(textPlot->_y);
			}

			// Select font family, size, style and weight
			PlPlotUtil::setPlFont(textPlot->getFont());

			// Set color
			Color lInitialColor = changeColor(_pls, textPlot->_color, _panel->_page->_mode);

			// Compute dx & dy orientation
			double dx = cos(textPlot->_angle * M_PI / 180) * (x2 - x1) / 10.0;
			double dy = sin(textPlot->_angle * M_PI / 180) * (y2 - y1) / 10.0 * _panelPlotXYRatio;

			// Draw text
			_pls->ptex(x, y, dx, dy, textPlot->_align, textPlot->_text.c_str());

			// Restore initial color.
			restoreColor(_pls, lInitialColor, _panel->_page->_mode);

			textPlot->setDrawn(true);
		}
	}

	/*
	 * @brief Draw interval
	 */
	void PanelPlotOutput::drawSerieInterval(SeriesProperties &pSeries,
											double *xValues, double *yValues, double *timeValues,
											int nbValues, int intervalIndex)
	{
		LOG4CXX_DEBUG(gLogger, "PanelPlotOutput::drawSerieInterval");

		IntervalTickProperties itProps = pSeries.getIntervalTickProperties();

		// Draw Interval ticks if required !
		if (itProps.getMode() == IntervalTickMode::NONE)
			return;

		// Get X and Y axis.
		boost::shared_ptr<Axis> lXAxis(_panel->getAxis(pSeries.getXAxisId()));
		boost::shared_ptr<Axis> lYAxis(_panel->getAxis(pSeries.getYAxisId()));

		Range lXRange = getXAxisRange(pSeries, lXAxis);
		Range lYRange = getYAxisRange(pSeries, lYAxis);

		PlWindow lPlWindow = PlWindow(lXRange.getMin(), lXRange.getMax(), lYRange.getMin(), lYRange.getMax());

		// prepare data for plot
		double xData[2] = {NAN, NAN};
		double yData[2] = {NAN, NAN};
		double timeData[2] = {NAN, NAN};

		// skip NAN values
		for (int i = 0; i < nbValues; ++i)
			if (!isNAN(xValues[i]) && !isNAN(yValues[i]))
			{
				xData[0] = xValues[i];
				yData[0] = yValues[i];
				timeData[0] = timeValues[i];
				break;
			}

		for (int i = nbValues - 1; i >= 0; --i)
			if (!isNAN(xValues[i]) && !isNAN(yValues[i]))
			{
				xData[1] = xValues[i];
				yData[1] = yValues[i];
				timeData[1] = timeValues[i];
				break;
			}

		// draw symbols
		drawSymbols(
			itProps.getSymbol().getType(),
			itProps.getSymbol().getSize(), 1.,
			itProps.getSymbol().getColor(),
			2, (double *)&xData, (double *)&yData, NULL);

		if (itProps.getMode() == IntervalTickMode::SYMBOL_ONLY)
			return;

		// Add start interval info to a list of TextPlot
		TextPlots textPlots;

		TextPlot baseTextPlot;
		baseTextPlot._color = itProps.getColor();
		baseTextPlot.setFont(itProps.getFont());

		boost::shared_ptr<TextPlot> startTextPlot(new TextPlot(baseTextPlot));

		double xPos = (xData[0] - lXRange.getMin()) / (lXRange.getMax() - lXRange.getMin()) * 100;
		startTextPlot->_x = boost::lexical_cast<std::string>(xPos);
		startTextPlot->_x += "%";

		double yPos = (yData[0] - lYRange.getMin()) / (lYRange.getMax() - lYRange.getMin()) * 100 + 1.5;
		startTextPlot->_y = boost::lexical_cast<std::string>(yPos);
		startTextPlot->_y += "%";

		if (itProps.getMode() == IntervalTickMode::INTERVAL_INDEX)
		{
			startTextPlot->_text = "I";
			startTextPlot->_text += std::to_string(intervalIndex);
		}
		else
			startTextPlot->_text = AMDA::TimeUtil::formatTimeDateInIso(timeData[0]);

		textPlots.push_back(startTextPlot);

		if (itProps.getMode() != IntervalTickMode::START_TIME)
		{
			boost::shared_ptr<TextPlot> stopTextPlot(new TextPlot(baseTextPlot));

			xPos = (xData[1] - lXRange.getMin()) / (lXRange.getMax() - lXRange.getMin()) * 100;
			stopTextPlot->_x = boost::lexical_cast<std::string>(xPos);
			stopTextPlot->_x += "%";

			yPos = (yData[1] - lYRange.getMin()) / (lYRange.getMax() - lYRange.getMin()) * 100 + 1.5;
			stopTextPlot->_y = boost::lexical_cast<std::string>(yPos);
			stopTextPlot->_y += "%";

			if (itProps.getMode() == IntervalTickMode::INTERVAL_INDEX)
				stopTextPlot->_text = startTextPlot->_text;
			else
				stopTextPlot->_text = AMDA::TimeUtil::formatTimeDateInIso(timeData[1]);

			textPlots.push_back(stopTextPlot);
		}

		drawTextPlots(lXAxis, lYAxis, lPlWindow, textPlots);
	}

	/**
	 * @brief Draw parameters legend.
	 */
	void PanelPlotOutput::drawParamsLegend(void)
	{
		ParamsLegendProperties &legendProp = _panel->_paramsLegendProperties;

		if (!legendProp.isVisible() || legendProp.isDrawn())
			return;

		std::list<LegendLineProperties> lines = legendProp.getLegendLines();

		if (lines.empty())
			return;

		// init arguments to call pllegend function
		PLINT nbLines = lines.size();

		PLINT opt_array[nbLines];
		PLINT text_colors[nbLines];
		PLINT line_colors[nbLines];
		PLINT line_styles[nbLines];
		PLFLT line_widths[nbLines];
		PLINT symbol_numbers[nbLines];
		PLINT symbol_colors[nbLines];
		PLFLT symbol_scales[nbLines];
		const char *symbols[nbLines];
		const char *texts[nbLines];

		int index = 0;
		std::string symbol_str[nbLines];
		for (auto line : lines)
		{
			opt_array[index] = 0;
			// set line options
			if (!legendProp.isOnlyText() && line.isLineVisible())
			{
				opt_array[index] |= PL_LEGEND_LINE;
				line_colors[index] = legendProp.getColorIndex(_pls.get(), line.getLineProperties().getColor());
				line_styles[index] = static_cast<int>(getPlLineStyle(line.getLineProperties().getStyle()));
				line_widths[index] = line.getLineProperties().getWidth();
			}
			// set symbols options
			if (!legendProp.isOnlyText() && line.isSymbolsVisible())
			{
				opt_array[index] |= PL_LEGEND_SYMBOL;
				symbol_numbers[index] = LEGEND_NB_SYMBOLS_TO_DRAW;
				symbol_colors[index] = legendProp.getColorIndex(_pls.get(), line.getSymbolProperties().getColor());
				symbol_scales[index] = (double)line.getSymbolProperties().getSize() / PlPlotUtil::DEFAULT_CHARACTER_SIZE;
				std::stringstream workingstr;
				workingstr << "#(" << fontTypeToSymSymbol[line.getSymbolProperties().getType()] << ")";
				symbol_str[index] = workingstr.str();
				symbols[index] = symbol_str[index].c_str();
			}

			text_colors[index] = legendProp.getColorIndex(_pls.get(), line.getTextColor(legendProp.isOnlyText()));
			texts[index] = line.getText();
			++index;
		}

		PLFLT legend_width, legend_height;
		PLINT opt = PL_LEGEND_BACKGROUND;

		// show or hide bounding box
		if (legendProp.isBorderVisible())
			opt |= PL_LEGEND_BOUNDING_BOX;

		PLINT position = PL_POSITION_VIEWPORT;
		switch (legendProp.getPosition())
		{
		case ParamsLegendPosition::POS_INSIDE:
			position |= PL_POSITION_INSIDE | PL_POSITION_TOP | PL_POSITION_RIGHT;
			break;
		case ParamsLegendPosition::POS_OUTSIDE:
			position |= PL_POSITION_OUTSIDE | PL_POSITION_RIGHT;
			break;
		default:
			LOG4CXX_WARN(gLogger, "Legend position not implemented => set to POS_INSIDE");
			position |= PL_POSITION_INSIDE | PL_POSITION_TOP | PL_POSITION_RIGHT;
		}

		// define offset
		PLFLT x_offset = 0.0;
		PLFLT y_offset = 0.0;

		switch (legendProp.getPosition())
		{
		case ParamsLegendPosition::POS_INSIDE:
			x_offset = LEGEND_INSIDE_OFFSET;
			y_offset = LEGEND_INSIDE_OFFSET * _panelPlotXYRatio;
			break;
		case ParamsLegendPosition::POS_OUTSIDE:
			x_offset = LEGEND_OUTSIDE_OFFSET;
			y_offset = 0.0;
			break;
		default:
			x_offset = LEGEND_INSIDE_OFFSET;
			y_offset = LEGEND_INSIDE_OFFSET * _panelPlotXYRatio;
		}

		// show or hide line and symbols
		PLFLT plot_width = 0;
		if (!legendProp.isOnlyText())
			plot_width = LEGEND_LINE_SYM_WIDTH;

		// background color = panel color
		PLINT bg_color = legendProp.getColorIndex(_pls.get(), _panel->_backgroundColor);

		// bounding box
		PLINT bb_color = legendProp.getColorIndex(_pls.get(), legendProp.getBorderColor());
		PLINT bb_style = 1;

		// text option
		PLFLT text_offset = 0.0;
		if (!legendProp.isOnlyText())
			text_offset = LEGEND_TEXT_OFFSET;
		PLFLT text_scale = PlPlotUtil::getPlFontScaleFactor(legendProp.getFont());
		PLFLT text_spacing = LEGEND_TEXT_SPACING;
		PLFLT text_justification = LEGEND_TEXT_JUSTIFICATION;

		// colored boxes not used
		PLINT *box_colors = NULL;
		PLINT *box_patterns = NULL;
		PLFLT *box_scales = NULL;
		PLFLT *box_line_widths = NULL;

		// save color
		Color fakeColor;
		Color initialColor = changeColor(_pls, fakeColor,
										 _panel->_page->_mode);

		// set viewport
		_pls->vpor(_plotAreaBounds._x,
				   _plotAreaBounds._x + _plotAreaBounds._width + legendProp.getLeftOffset(),
				   _plotAreaBounds._y,
				   _plotAreaBounds._y + _plotAreaBounds._height);

		// set font
		PlPlotUtil::setPlFont(legendProp.getFont());

		// init cmap0 to draw legend
		std::vector<Color> colors = legendProp.getColorsMap();
		_pls->scmap0n(colors.size());
		index = 0;

		for (auto color : colors)
		{
			_pls->scol0(index, color._red, color._green, color._blue);
			++index;
		}

		// draw tthe legend
		_pls->legend(
			&legend_width,
			&legend_height,
			opt,
			position,
			x_offset,
			y_offset,
			plot_width,
			bg_color,
			bb_color,
			bb_style,
			0, /* nrow */
			0, /* ncolumn */
			nbLines,
			opt_array,
			text_offset,
			text_scale,
			text_spacing,
			text_justification,
			text_colors,
			(const char **)texts,
			box_colors,
			box_patterns,
			box_scales,
			box_line_widths,
			line_colors,
			line_styles,
			line_widths,
			symbol_colors,
			symbol_scales,
			symbol_numbers,
			(const char **)symbols);

		// Restore initial color.
		restoreColor(_pls, initialColor, _panel->_page->_mode);

		legendProp.setDrawn(true);
	}

	/**
	 * @brief Draw text legends.
	 */

	void PanelPlotOutput::drawTextLegends(void)
	{
		double xmin = _plotAreaBounds._x;
		double xmax = _plotAreaBounds._x + _plotAreaBounds._width;
		double ymin = _plotAreaBounds._y;
		double ymax = _plotAreaBounds._y + _plotAreaBounds._height;

		/*bool	leftTextLegendFound		= false;
		bool	rightTextLegendFound 	= false;
		bool	topTextLegendFound 		= false;
		bool	bottomTextLegendFound 	= false;*/

		for (auto textLegend : _panel->_textLegendPropertiesList)
		{
			if (textLegend->isDrawn())
				continue;

			// Set color
			Color initialColor = changeColor(_pls, textLegend->getColor(), _panel->_page->_mode);

			// set font
			PlPlotUtil::setPlFont(textLegend->getFont());

			// If legend at a given position not already drawn :
			//-  Set viewport depending on legend position
			// - Retrieve text lines from text legend and draw them
			// - See calculatePlotArea to know how text legend position are calculated
			std::vector<std::string> textLines = textLegend->getTextLines();
			double disp = 1;

			switch (textLegend->getPosition())
			{
			case TextLegendPosition::POS_LEFT:
				// if (leftTextLegendFound == false) {
				_pls->vpor(xmin - textLegend->getOffset(), xmax, ymin, ymax);
				for (int i = 0; i < (int)textLines.size(); i++)
				{
					_pls->mtex("l", disp, 0.5, 0.5, textLines.at(textLines.size() - 1 - i).c_str());
					disp += 1.5;
				}
				// leftTextLegendFound = true;
				// }
				break;

			case TextLegendPosition::POS_RIGHT:
				// if (rightTextLegendFound == false) {
				_pls->vpor(xmin, xmax + textLegend->getOffset(), ymin, ymax);
				for (int i = 0; i < (int)textLines.size(); i++)
				{
					_pls->mtex("r", disp, 0.5, 0.5, textLines.at(i).c_str());
					disp += 1.5;
				}
				// rightTextLegendFound = true;
				// }
				break;

			case TextLegendPosition::POS_TOP:
				// if (topTextLegendFound == false) {
				_pls->vpor(xmin, xmax, ymin, ymax + textLegend->getOffset());
				for (int i = 0; i < (int)textLines.size(); i++)
				{
					_pls->mtex("t", disp, 0.5, 0.5, textLines.at(textLines.size() - 1 - i).c_str());
					disp += 1.5;
				}
				// topTextLegendFound = true;
				// }
				break;

			case TextLegendPosition::POS_BOTTOM:
				// if (bottomTextLegendFound == false) {
				_pls->vpor(xmin, xmax, ymin - textLegend->getOffset(), ymax);
				for (int i = 0; i < (int)textLines.size(); i++)
				{
					_pls->mtex("b", disp, 0.5, 0.5, textLines.at(i).c_str());
					disp += 1.5;
				}
				// bottomTextLegendFound = true;
				// }
				break;

			default:
				break;
			}

			restoreColor(_pls, initialColor, _panel->_page->_mode);

			textLegend->setDrawn(true);
		}
	}

	/**
	 * Draws Curve
	 */
	void PanelPlotOutput::drawCurvePlot(CurvePlot & /*curvePlot*/)
	{
		// Nothing to do - Deleguate to subclasses
	}

	/**
	 * @brief Write plot context
	 */
	void PanelPlotOutput::writeContext(ContextFileWriter &writer, AMDA::Parameters::TimeIntervalList::iterator currentTimeInterval)
	{
		if (!isStandalone())
			return;

		writer.startElement("panel");
		_panel->writeContext(_pls, writer);

		writer.startElement("parameters");

		for (ParameterAxesList::iterator it = _parameterAxesList.begin();
			 it != _parameterAxesList.end(); ++it)
		{
			AMDA::Parameters::ParameterSPtr originalParam =
				_parameterManager.getParameter(it->_originalParamId);

			double resol = originalParam->getDataWriterTemplate()->getMinSampling();
			std::string resolstr = std::to_string(resol);
			writer.startElement("parameter");
			writer.addAttribute("id", originalParam->getId().c_str());
			writer.addAttribute("MinSampling", resolstr.c_str());
			writer.endElement();
		}
		writer.endElement();

		if (!_parameterAxesList.empty())
		{
			bool hasSpectro = false;
			bool hasSauvaud = false;
			for (auto parameter : _parameterAxesList)
			{
				if (parameter.getSpectroProperties() != nullptr)
				{
					hasSpectro = true;
					break;
				}
				if (parameter.getSauvaudProperties() != nullptr)
				{
					hasSauvaud = true;
					break;
				}
				if (parameter.getIntervalsProperties() != nullptr)
				{
					ParameterSPtr p = _parameterManager.getParameter(parameter._originalParamId);
					AMDA::Info::ParamInfoSPtr paramInfo = AMDA::Info::ParamMgr::getInstance()->getParamInfoFromId(p->getInfoId());
					std::map<std::string, std::string> inputAdditionals = paramInfo->getAdditionInfo();
					std::string ttOrCatPath = inputAdditionals["TTCatToParamPath"];

					// Load TT or Catalog
					std::string lReaderType = TimeTableCatalog::TimeTableCatalogFactory::getInstance().getReaderType(ttOrCatPath);
					if (!lReaderType.empty())
					{
						TimeTableCatalog::Catalog inputTTOrCat;
						inputTTOrCat.read(ttOrCatPath, lReaderType);
						for (std::vector<TimeTableCatalog::TimeInterval>::const_iterator it = inputTTOrCat.getIntervals().begin(); it != inputTTOrCat.getIntervals().end(); ++it)
						{
							double acceptedRatio = 0.005; // if the interval is too small, no more info given
							double timeRatio = (currentTimeInterval->_stopTime - currentTimeInterval->_startTime) / _plotAreaBounds._width;

							std::map<std::string, std::vector<std::string>> data;
							bool needTTWriter = false;
							bool needCatWriter = false;
							double startTime = it->_startTime;
							double stopTime = it->_stopTime;

							if (it->_startTime >= currentTimeInterval->_startTime && it->_stopTime <= currentTimeInterval->_stopTime) // inside the interval
							{
								if (timeRatio * acceptedRatio < (stopTime - startTime) / _plotAreaBounds._width)
								{
									needTTWriter = true;
									data = it->getAllParameterData();
									if (data.size() > 0)
										needCatWriter = true;
								}
							}
							else if (it->_startTime <= currentTimeInterval->_startTime && it->_stopTime <= currentTimeInterval->_stopTime && it->_stopTime >= currentTimeInterval->_startTime) // begins before, ends inside
							{
								startTime = currentTimeInterval->_startTime;
								if (timeRatio * acceptedRatio < (stopTime - startTime) / _plotAreaBounds._width)
								{
									needTTWriter = true;
									data = it->getAllParameterData();
									if (data.size() > 0)
										needCatWriter = true;
								}
							}
							else if (it->_startTime >= currentTimeInterval->_startTime && it->_startTime <= currentTimeInterval->_stopTime && it->_stopTime >= currentTimeInterval->_stopTime) // begins inside, ends after
							{
								stopTime = currentTimeInterval->_stopTime;
								if (timeRatio * acceptedRatio < (stopTime - startTime) / _plotAreaBounds._width)
								{
									needTTWriter = true;
									data = it->getAllParameterData();
									if (data.size() > 0)
										needCatWriter = true;
								}
							}

							if (needTTWriter)
							{
								writer.startElement("intervals");
								writer.addAttribute("name", inputTTOrCat._name.c_str());
								writer.addAttribute("id", std::to_string(it->_index + 1).c_str());
								writer.addAttribute("startTime", std::to_string(startTime).c_str());
								writer.addAttribute("stopTime", std::to_string(stopTime).c_str());
								if (needCatWriter)
								{
									std::string allParams;
									for (auto i : data)
									{
										allParams += i.second[0] + "|";
									}
									writer.addAttribute("params", allParams.c_str());
								}
								writer.endElement();
							}
						}
					}
				}
			}

			writer.startElement("plotArea");
			if (_panel->_page->_orientation == PlotCommon::Orientation::PORTRAIT)
			{
				writer.addAttribute("x", std::to_string(_plotAreaBounds._y * std::get<0>(_panel->_page->getSize())).c_str());
				writer.addAttribute("y", std::to_string(_plotAreaBounds._x * std::get<1>(_panel->_page->getSize())).c_str());
				writer.addAttribute("width", std::to_string(_plotAreaBounds._height * std::get<0>(_panel->_page->getSize())).c_str());
				writer.addAttribute("height", std::to_string(_plotAreaBounds._width * std::get<1>(_panel->_page->getSize())).c_str());
			}
			else
			{
				writer.addAttribute("x", std::to_string(_plotAreaBounds._x * std::get<0>(_panel->_page->getSize())).c_str());
				writer.addAttribute("y", std::to_string(_plotAreaBounds._y * std::get<1>(_panel->_page->getSize())).c_str());
				writer.addAttribute("width", std::to_string(_plotAreaBounds._width * std::get<0>(_panel->_page->getSize())).c_str());
				writer.addAttribute("height", std::to_string(_plotAreaBounds._height * std::get<1>(_panel->_page->getSize())).c_str());
			}

			writer.addAttribute("hasSpectro", hasSpectro ? "true" : "false");
			writer.addAttribute("hasSauvaud", hasSauvaud ? "true" : "false");

			for (Axes::iterator it = _panel->_axes.begin(); it != _panel->_axes.end(); ++it)
			{
				boost::shared_ptr<Axis> lAxis = it->second;

				if (lAxis == nullptr)
					continue;

				if (lAxis->_visible && lAxis->_used)
					lAxis->writeContext(writer);
			}

			writer.endElement();
		}

		writer.endElement();
	}

	/**
	 * @brief Compute the initial plot area for the panel
	 */
	void PanelPlotOutput::preparePlotArea(double /*startTime*/, double /*stopTime*/, int /*intervalIndex*/)
	{
		Bounds panelBounds = _panel->getBoundsInPlPage();
		_plotAreaBounds = panelBounds;
		calculatePlotArea(panelBounds, _plotAreaBounds);
		_panel->_paramsLegendProperties.resetPlot();
	}

	void PanelPlotOutput::fillBackground(std::shared_ptr<plstream> &pls)
	{
		if (_panel->_plotAreaBackgroundColor._red != -1 && _panel->_plotAreaBackgroundColor._green != -1 && _panel->_plotAreaBackgroundColor._blue != -1)
		{
			Color plotAreaBackgroundColor = _panel->_plotAreaBackgroundColor;

			PLINT lInitialRed = -1, lInitialGreen = -1, lInitialBlue = -1;
			// Store initial color in first index.
			pls->gcol0(0, lInitialRed, lInitialGreen, lInitialBlue);
			pls->scol0(0, plotAreaBackgroundColor._red, plotAreaBackgroundColor._green,
					   plotAreaBackgroundColor._blue);
			pls->col0(0);

			// Compute panel coordinate in the page
			Bounds lBounds = _plotAreaBounds;
			// Specify viewport for the panel
			pls->vpor(_plotAreaBounds._x, _plotAreaBounds._x + _plotAreaBounds._width,
					  _plotAreaBounds._y, _plotAreaBounds._y + _plotAreaBounds._height);

			// Set window size.
			pls->wind(0, 1, 0, 1);

			// Fill background.
			PLFLT px[] = {0, 0, 1, 1};
			PLFLT py[] = {0, 1, 1, 0};
			pls->fill(4, px, py);

			pls->col0(0);

			if (lInitialRed != -1 && lInitialGreen != -1 && lInitialBlue != -1)
			{
				pls->scol0(0, lInitialRed, lInitialGreen, lInitialBlue);
			}
		}
	}

	/**
	 * @brief Retrieve plot area bounds for the panel
	 */
	void PanelPlotOutput::getPlotAreaBounds(Bounds &plotAreaBounds)
	{
		plotAreaBounds = _plotAreaBounds;
	}

	/**
	 * @brief Force the plot area horizontal position and width
	 */
	void PanelPlotOutput::forcePlotAreaPosAndWidth(double plotAreaX, double plotAreaWidth)
	{
		_plotAreaBounds._x = plotAreaX;
		_plotAreaBounds._width = plotAreaWidth;
	}

	/**
	 * @brief Retrieve left axis tickMark width
	 */
	int PanelPlotOutput::getLeftAxisTickMarkWidth(void)
	{
		return _leftAxisTickMarkWidth;
	}

	/**
	 * @brief Force left axis tickmark width for the panel
	 */
	void PanelPlotOutput::forceLeftAxisTickMarkWidth(int leftAxisTickMarkWidth)
	{
		for (Axes::iterator it = _panel->_axes.begin(); it != _panel->_axes.end(); ++it)
		{
			boost::shared_ptr<Axis> lAxis = it->second;
			if (lAxis == nullptr)
				continue;
			// Look for a visible fleft Axis with legend and
			if ((lAxis->_visible) && (lAxis->_position == PlotCommon::Position::POS_LEFT))
			{
				lAxis->setFixedTickMarkWidth(leftAxisTickMarkWidth);
			}
		}
	}

	/**
	 * @brief Get nb series to draw by y axis
	 */
	std::map<std::string, int> &PanelPlotOutput::getNbSeriesByYAxis()
	{
		if (!_nbSeriesByYAxisMap.empty())
		{
			return _nbSeriesByYAxisMap;
		}
		SeriesProperties lSeries;
		for (auto parameter : _parameterAxesList)
		{
			for (auto lSeries : parameter.getYSeriePropertiesList())
			{
				if (!lSeries.hasYAxis())
					continue;

				std::string yAxisId = lSeries.getYAxisId();

				if (_nbSeriesByYAxisMap.find(yAxisId) == _nbSeriesByYAxisMap.end())
					_nbSeriesByYAxisMap[yAxisId] = 0;

				_nbSeriesByYAxisMap[yAxisId] += lSeries.getIndexList(_pParameterValues).size();
			}
		}
		return _nbSeriesByYAxisMap;
	}

	/**
	 * @brief draw the plot for the current time interval
	 */
	bool PanelPlotOutput::draw(double startTime, double stopTime, int intervalIndex,
							   bool isFirstInterval, bool isLastInterval)
	{
		// Sets panel plplot viewport, draw background & title for the panel
		_panel->draw(_pls);
		fillBackground(_pls);

		bool noData = true;

		if (_parameterAxesList.empty())
		{
			noData = false; // Do not draw No Data if the panel is empty
			_panel->drawEmptyPanel(_pls);
		}

		if (isFirstInterval)
			_panel->_paramsLegendProperties.resetPlot();

		// Set pointer to ParameterData list
		if (_pParameterValues == NULL)
		{
			std::stringstream lError;
			lError << "PanelPlotOutput::draw - Pointer to parameterValues is not set";
			BOOST_THROW_EXCEPTION(
				PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
		}

		LOG4CXX_DEBUG(gLogger, "Panel bounds = " << _panel->_bounds.toString());
		LOG4CXX_DEBUG(gLogger, "Plot area = " << _plotAreaBounds.toString());

		// Draw spectro
		for (auto parameter : _parameterAxesList)
		{
			if (parameter.getSpectroProperties() != nullptr)
			{
				// draw spectro
				LOG4CXX_DEBUG(gLogger, "Draw a spectro for parameter " << parameter._originalParamId);
				// Draw (configure) window for this series.
				drawSpectro(startTime, stopTime, parameter._originalParamId, *(parameter.getSpectroProperties()));

				ParameterData &data = (*_pParameterValues)[parameter.getSpectroProperties()->getParamId()];

				if (parameter.getSpectroProperties()->getIndexes().empty())
				{
					noData = data.noData();
				}
				else
				{
					for (auto index : parameter.getSpectroProperties()->getIndexes())
					{
						if (noData)
							noData = data.noData(index);
					}
				}
			}
			if (parameter.getSauvaudProperties() != nullptr)
			{
				// draw sauvaud
				LOG4CXX_DEBUG(gLogger, "Draw a sauvaud for parameter " << parameter._originalParamId);
				// Draw (configure) window for this series.
				drawSauvaud(startTime, stopTime, parameter._originalParamId, *(parameter.getSauvaudProperties()), 0, 1, "");

				ParameterData &data = (*_pParameterValues)[parameter.getSauvaudProperties()->getParamId()];

				if (parameter.getSauvaudProperties()->getIndexes().empty())
				{
					noData = data.noData();
				}
				else
				{
					for (auto index : parameter.getSauvaudProperties()->getIndexes())
					{
						if (noData)
							noData = data.noData(index);
					}
				}
			}
		}

		// Draw intervals
		for (auto parameter : _parameterAxesList)
		{
			if (parameter.getIntervalsProperties() != nullptr)
			{
				// draw intervals
				LOG4CXX_DEBUG(gLogger, "Draw intervals for parameter " << parameter._originalParamId);
				// Draw (configure) window for this series.
				drawIntervals(startTime, stopTime, parameter._originalParamId, *(parameter.getIntervalsProperties()));

				ParameterData &data = (*_pParameterValues)[parameter.getIntervalsProperties()->getParamId()];

				if (parameter.getIntervalsProperties()->getIndexes().empty())
				{
					noData = data.noData();
				}
				else
				{
					for (auto index : parameter.getIntervalsProperties()->getIndexes())
					{
						if (noData)
							noData = data.noData(index);
					}
				}
			}
		}

		// Compute panel XY ratio used for angular conversions
		computePanelPlotXYRatio();

		// Draw fill area between parameter and constant or between parameters
		drawFills(startTime, stopTime);

		// Compute nb series to draw by y axis
		std::map<std::string, int> nbSeriesByYAxisMap = getNbSeriesByYAxis();
		SeriesProperties lSeries;
		// Draw series for parameters.
		for (auto parameter : _parameterAxesList)
		{
			// Get series index to draw for parameter
			// Draw each index of parameter
			for (auto lSeries : parameter.getYSeriePropertiesList())
			{
				for (auto lIndex : lSeries.getIndexList(_pParameterValues))
				{
					bool moreThanOneSerieForYAxis = false;
					if (lSeries.hasYAxis())
						moreThanOneSerieForYAxis = (nbSeriesByYAxisMap[lSeries.getYAxisId()] > 1);

					// Draw (configure) window for this series.
					drawSeries(startTime, stopTime, intervalIndex, parameter._originalParamId,
							   lSeries, lIndex, parameter, moreThanOneSerieForYAxis);
					ParameterData &data = (*_pParameterValues)[lSeries.getParamId()];
					if (noData)
					{
						noData = data.noData(lIndex);
					}
				}
			}
		}

		// Draw additional objects
		drawAdditionalObjects();

		// Draw parameter legend
		if (isLastInterval || !_panel->_page->_superposeMode)
			drawParamsLegend();

		// Draw text legends
		drawTextLegends();

		return !noData;
	}
	void PanelPlotOutput::drawSauvaud(double /*startDate*/, double /*stopDate*/, std::string /*pParamId*/,
									  SauvaudProperties &pSauvaud, int subIndex = 0, int subsNumber = 1, std::string opositeLegend = "")
	{
		// Get X, Y and Z axis.
		boost::shared_ptr<Axis> lXAxis(_panel->getAxis(pSauvaud.getXAxisId()));
		boost::shared_ptr<Axis> lYAxis(_panel->getAxis(pSauvaud.getYAxisId()));
		boost::shared_ptr<Axis> lZAxis(_panel->getAxis(pSauvaud.getZAxisId()));

		Range lXRange, lYRange, lZRange;
		if (pSauvaud.hasXAxis() && lXAxis.get() == nullptr)
		{
			std::stringstream lError;
			lError << "PanelPlotOutput::drawSauvaud"
				   << ": X axis with id '"
				   << pSauvaud.getXAxisId() << "' not found.";
			BOOST_THROW_EXCEPTION(
				PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
		}
		else if (pSauvaud.hasXAxis())
		{
			// fill X range (plplot window).
			lXRange = lXAxis->getRange();
		}

		if (pSauvaud.hasYAxis() && lYAxis.get() == nullptr)
		{
			std::stringstream lError;
			lError << "PanelPlotOutput::drawSauvaud"
				   << ": Y axis with id '"
				   << pSauvaud.getYAxisId() << "' not found.";
			BOOST_THROW_EXCEPTION(
				PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
			lYRange = Range();
		}
		else if (pSauvaud.hasYAxis())
		{
			// fill Y range (plplot window).
			lYRange = lYAxis->getRange();
			fixRange(lYRange, lYAxis->_scale == Axis::Scale::LOGARITHMIC);
		}

		if (pSauvaud.hasZAxis() && lZAxis.get() == nullptr)
		{
			std::stringstream lError;
			lError << "PanelPlotOutput::drawSauvaud"
				   << ": Z axis with id '"
				   << pSauvaud.getZAxisId() << "' not found.";
			BOOST_THROW_EXCEPTION(
				PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
			lZRange = Range();
		}
		else if (pSauvaud.hasZAxis())
		{
			// fill Z range (plplot window).
			lZRange = lZAxis->getRange();
		}

		PlWindow lPlWindow;
		lPlWindow = PlWindow(lXRange.getMin(), lXRange.getMax(), lYRange.getMin(), lYRange.getMax());

		// Calculate X and Y tick
		TickConf lTickConf;
		double lXMajorTickSpace = nan("");
		int lXMinorTickNumber = 0;
		double lYMajorTickSpace = nan("");
		int lYMinorTickNumber = 0;

		if (pSauvaud.hasXAxis() && (subIndex == 0))
		{
			// Calculate X tick
			lXMajorTickSpace = getMajorTickSpace(lXAxis.get(),
												 std::get<0>(lPlWindow), std::get<1>(lPlWindow));
			lXMinorTickNumber = getMinorTickNumber(lXAxis.get(),
												   std::get<0>(lPlWindow), std::get<1>(lPlWindow), lXMajorTickSpace);
		}

		if (pSauvaud.hasYAxis() && (subIndex == subsNumber - 1))
		{
			// Calculate Y tick
			lYMajorTickSpace = getMajorTickSpace(lYAxis.get(), std::get<2>(lPlWindow), std::get<3>(lPlWindow));
			lYMinorTickNumber = getMinorTickNumber(lYAxis.get(), std::get<2>(lPlWindow), std::get<3>(lPlWindow),
												   lYMajorTickSpace);
		}

		lTickConf = TickConf(lXMajorTickSpace, lXMinorTickNumber, lYMajorTickSpace, lYMinorTickNumber);
		Bounds areaBounds(_plotAreaBounds);

		double width = _plotAreaBounds._height / (subsNumber + 1);
		if (subsNumber > 0)
		{
			areaBounds._y = _plotAreaBounds._y + subIndex * (width + width / 10);
			areaBounds._height = width;
		}

		// Draw Y axis and legend
		if (pSauvaud.hasYAxis())
		{

			Label label(lYAxis->_legend.getFont(), lYAxis->_legend.getColor());

			Font font_(label.getFont());
			int size_ = font_.getSize();
			if (font_.getSize() == 0)
			{
				size_ = std::round(314.5 * width - 2.7);
				size_ = std::max(size_, 2);
				size_ = std::min(size_, 8);
				font_.setSize(size_);
				label.setFont(font_);
				lYAxis->_legend.setLabel(label);
			}
			bool changed = false;

			// Draw legend for the last spectro.
			if (subIndex == subsNumber - 1)
			{
				lYAxis->setShowTickMark(true);

				PlotCommon::Position pos_ = lYAxis->_position;
				Label label(lYAxis->_legend.getFont(), lYAxis->_legend.getColor());
				Font font_(label.getFont());
				std::string text_ = lYAxis->_legend.getText();
				if (!opositeLegend.empty())
				{
					label._text = opositeLegend;
					changed = true;
				}
				if (lYAxis->_scale == Axis::Scale::LOGARITHMIC && font_.getSize() > 3)
				{
					font_.setSize(3);
					changed = true;
				}
				lYAxis->_legend.clearLabels();
				lYAxis->_legend.setLabel(label);
				switch (pos_)
				{
				case PlotCommon::Position::POS_LEFT:
					lYAxis->_position = PlotCommon::Position::POS_RIGHT;
					break;
				case PlotCommon::Position::POS_RIGHT:
					lYAxis->_position = PlotCommon::Position::POS_LEFT;
					break;
				default:
					break;
				}
				drawYAxis(lYAxis, lPlWindow, areaBounds, lTickConf);
				if (!opositeLegend.empty())
					drawLegends(lYAxis, lPlWindow, areaBounds);
				lYAxis->_position = pos_;
				if (changed)
				{
					font_.setSize(size_);
					label.setFont(font_);
					label._text = text_;
					lYAxis->_legend.clearLabels();
					lYAxis->_legend.setLabel(label);
					changed = false;
				}
				drawLegends(lYAxis, lPlWindow, areaBounds);
			}
			else
			{
				lYAxis->setShowTickMark(false);
				if (subIndex < subsNumber)
					drawYAxis(lYAxis, lPlWindow, areaBounds, lTickConf);

				drawLegends(lYAxis, lPlWindow, areaBounds);
			}
		}

		// Draw Z axis and legend
		if (pSauvaud.hasZAxis() && (lZAxis != nullptr) && !lZAxis->_drawn)
		{
			drawZAxis(lZAxis, lPlWindow, _plotAreaBounds, lTickConf);
		}

		// Draw X axis and legend
		if (pSauvaud.hasXAxis() && subIndex < subsNumber)
		{

			drawXAxis(lXAxis, lPlWindow, areaBounds, lTickConf);

			// Draw legend.
			if (subIndex == 0)
				drawLegends(lXAxis, lPlWindow, areaBounds);
		}
	}
	void PanelPlotOutput::drawSpectro(double /*startDate*/, double /*stopDate*/, std::string /*pParamId*/,
									  SpectroProperties &pSpectro)
	{
		// Get X, Y and Z axis.
		boost::shared_ptr<Axis> lXAxis(_panel->getAxis(pSpectro.getXAxisId()));
		boost::shared_ptr<Axis> lYAxis(_panel->getAxis(pSpectro.getYAxisId()));
		boost::shared_ptr<Axis> lZAxis(_panel->getAxis(pSpectro.getZAxisId()));

		PlWindow lPlWindow;
		Range lXRange, lYRange, lZRange;
		if (pSpectro.hasXAxis() && lXAxis.get() == nullptr)
		{
			std::stringstream lError;
			lError << "PanelPlotOutput::drawSpectro"
				   << ": X axis with id '"
				   << pSpectro.getXAxisId() << "' not found.";
			BOOST_THROW_EXCEPTION(
				PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
		}
		else if (pSpectro.hasXAxis())
		{
			// fill X range (plplot window).
			lXRange = lXAxis->getRange();
		}

		if (pSpectro.hasYAxis() && lYAxis.get() == nullptr)
		{
			std::stringstream lError;
			lError << "PanelPlotOutput::drawSpectro"
				   << ": Y axis with id '"
				   << pSpectro.getYAxisId() << "' not found.";
			BOOST_THROW_EXCEPTION(
				PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
			lYRange = Range();
		}
		else if (pSpectro.hasYAxis())
		{
			// fill Y range (plplot window).
			lYRange = lYAxis->getRange();
			fixRange(lYRange, lYAxis->_scale == Axis::Scale::LOGARITHMIC);
		}

		if (pSpectro.hasZAxis() && lZAxis.get() == nullptr)
		{
			std::stringstream lError;
			lError << "PanelPlotOutput::drawSpectro"
				   << ": Z axis with id '"
				   << pSpectro.getZAxisId() << "' not found.";
			BOOST_THROW_EXCEPTION(
				PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
			lZRange = Range();
		}
		else if (pSpectro.hasZAxis())
		{
			// fill Z range (plplot window).
			lZRange = lZAxis->getRange();
		}

		lPlWindow = PlWindow(lXRange.getMin(), lXRange.getMax(), lYRange.getMin(), lYRange.getMax());

		// Calculate X and Y tick
		TickConf lTickConf;
		double lXMajorTickSpace = nan("");
		int lXMinorTickNumber = 0;
		double lYMajorTickSpace = nan("");
		int lYMinorTickNumber = 0;

		if (pSpectro.hasXAxis())
		{
			// Calculate X tick
			lXMajorTickSpace = getMajorTickSpace(lXAxis.get(),
												 std::get<0>(lPlWindow), std::get<1>(lPlWindow));
			lXMinorTickNumber = getMinorTickNumber(lXAxis.get(),
												   std::get<0>(lPlWindow), std::get<1>(lPlWindow), lXMajorTickSpace);
		}

		if (pSpectro.hasYAxis())
		{
			// Calculate Y tick
			lYMajorTickSpace = getMajorTickSpace(lYAxis.get(), std::get<2>(lPlWindow), std::get<3>(lPlWindow));
			lYMinorTickNumber = getMinorTickNumber(lYAxis.get(), std::get<2>(lPlWindow), std::get<3>(lPlWindow),
												   lYMajorTickSpace);
		}

		lTickConf = TickConf(lXMajorTickSpace, lXMinorTickNumber, lYMajorTickSpace, lYMinorTickNumber);

		// Draw Y axis and legend
		if (pSpectro.hasYAxis() && !lYAxis->_drawn)
		{

			drawYAxis(lYAxis, lPlWindow, _plotAreaBounds, lTickConf);

			// Draw legend.
			drawLegends(lYAxis, lPlWindow, _plotAreaBounds);
		}

		// Draw X axis and legend
		if (pSpectro.hasXAxis() && !lXAxis->_drawn)
		{

			drawXAxis(lXAxis, lPlWindow, _plotAreaBounds, lTickConf);

			// Draw legend.
			drawLegends(lXAxis, lPlWindow, _plotAreaBounds);
		}

		// Draw Z axis and legend
		if (pSpectro.hasZAxis() && (lZAxis != nullptr) && !lZAxis->_drawn)
		{
			drawZAxis(lZAxis, lPlWindow, _plotAreaBounds, lTickConf);
		}
	}

	void PanelPlotOutput::drawIntervals(double /*startDate*/, double /*stopDate*/, std::string /*pParamId*/,
										IntervalsProperties &pIntervals)
	{

		boost::shared_ptr<Axis> lXAxis(_panel->getAxis(pIntervals.getXAxisId()));

		PlWindow lPlWindow;
		Range lXRange, lYRange;
		if (lXAxis.get() == nullptr)
		{
			std::stringstream lError;
			lError << "PanelPlotOutput::drawIntervals"
				   << ": X axis with id '"
				   << pIntervals.getXAxisId() << "' not found.";
			BOOST_THROW_EXCEPTION(
				PanelPlotOutputException() << AMDA::ex_msg(lError.str()));
		}

		lXRange = lXAxis->getRange();

		lYRange = Range(0, 1);

		lPlWindow = PlWindow(lXRange.getMin(), lXRange.getMax(), lYRange.getMin(), lYRange.getMax());

		// Calculate X and Y tick
		TickConf lTickConf;
		double lXMajorTickSpace = nan("");
		int lXMinorTickNumber = 0;
		double lYMajorTickSpace = nan("");
		int lYMinorTickNumber = 0;

		lXMajorTickSpace = getMajorTickSpace(lXAxis.get(),
											 std::get<0>(lPlWindow), std::get<1>(lPlWindow));
		lXMinorTickNumber = getMinorTickNumber(lXAxis.get(),
											   std::get<0>(lPlWindow), std::get<1>(lPlWindow), lXMajorTickSpace);

		lTickConf = TickConf(lXMajorTickSpace, lXMinorTickNumber, lYMajorTickSpace, lYMinorTickNumber);

		// Draw X axis and legend
		if (!lXAxis->_drawn)
		{

			drawXAxis(lXAxis, lPlWindow, _plotAreaBounds, lTickConf);

			// Draw legend.
			drawLegends(lXAxis, lPlWindow, _plotAreaBounds);
		}

		_pls->vpor(_plotAreaBounds._x, _plotAreaBounds._x + _plotAreaBounds._width,
				   _plotAreaBounds._y, _plotAreaBounds._y + _plotAreaBounds._height);
	}

	void PanelPlotOutput::drawFills(double /*startDate*/, double /*stopDate*/)
	{
		// Nothing done here except setting the viewport, see subclasses for specific implementation
		_pls->vpor(_plotAreaBounds._x, _plotAreaBounds._x + _plotAreaBounds._width,
				   _plotAreaBounds._y, _plotAreaBounds._y + _plotAreaBounds._height);
	}

	void PanelPlotOutput::drawSeries(double /*startDate*/, double /*stopDate*/, int /*intervalIndex*/, std::string /*pParamId*/,
									 SeriesProperties &pSeries, AMDA::Common::ParameterIndexComponent /*pParamIndex*/,
									 ParameterAxes & /*param*/, bool /*moreThanOneSerieForAxis*/)
	{
		// Get X, Y and Z axis.
		boost::shared_ptr<Axis> lXAxis(_panel->getAxis(pSeries.getXAxisId()));
		boost::shared_ptr<Axis> lYAxis(_panel->getAxis(pSeries.getYAxisId()));
		boost::shared_ptr<Axis> lZAxis(_panel->getAxis(pSeries.getZAxisId()));

		Range lXRange = getXAxisRange(pSeries, lXAxis);
		Range lYRange = getYAxisRange(pSeries, lYAxis);
		// Range lZRange = getZAxisRange (pSeries, lZAxis);

		PlWindow lPlWindow = PlWindow(lXRange.getMin(), lXRange.getMax(), lYRange.getMin(), lYRange.getMax());

		// Calculate X and Y tick
		TickConf lTickConf;
		double lXMajorTickSpace = nan("");
		int lXMinorTickNumber = 0;
		double lYMajorTickSpace = nan("");
		int lYMinorTickNumber = 0;

		if (pSeries.hasXAxis())
		{
			// Calculate X tick
			lXMajorTickSpace = getMajorTickSpace(lXAxis.get(),
												 std::get<0>(lPlWindow), std::get<1>(lPlWindow));
			lXMinorTickNumber = getMinorTickNumber(lXAxis.get(),
												   std::get<0>(lPlWindow), std::get<1>(lPlWindow), lXMajorTickSpace);
		}

		if (pSeries.hasYAxis())
		{
			// Calculate Y tick
			lYMajorTickSpace = getMajorTickSpace(lYAxis.get(), std::get<2>(lPlWindow), std::get<3>(lPlWindow));
			lYMinorTickNumber = getMinorTickNumber(lYAxis.get(), std::get<2>(lPlWindow), std::get<3>(lPlWindow),
												   lYMajorTickSpace);
		}

		lTickConf = TickConf(lXMajorTickSpace, lXMinorTickNumber, lYMajorTickSpace, lYMinorTickNumber);

		// Draw Y axis and legend
		if (pSeries.hasYAxis() && !lYAxis->_drawn)
		{

			drawYAxis(lYAxis, lPlWindow, _plotAreaBounds, lTickConf);

			// Draw legend.
			drawLegends(lYAxis, lPlWindow, _plotAreaBounds);
		}

		// Draw X axis and legend
		if (pSeries.hasXAxis() && !lXAxis->_drawn)
		{
			drawXAxis(lXAxis, lPlWindow, _plotAreaBounds, lTickConf);

			// Draw legend.
			drawLegends(lXAxis, lPlWindow, _plotAreaBounds);
		}

		// Draw Z axis and legend
		if (pSeries.hasZAxis() && (lZAxis != nullptr) && !lZAxis->_drawn)
		{
			drawZAxis(lZAxis, lPlWindow, _plotAreaBounds, lTickConf);
		}
	}

	void PanelPlotOutput::drawAdditionalObjects()
	{
		for (auto parameter : _parameterAxesList)
		{
			if (parameter.getSpectroProperties() != nullptr)
			{
				boost::shared_ptr<Axis> lXAxis(_panel->getAxis(parameter.getSpectroProperties()->getXAxisId()));
				boost::shared_ptr<Axis> lYAxis(_panel->getAxis(parameter.getSpectroProperties()->getYAxisId()));

				if ((lXAxis == nullptr) || (lYAxis == nullptr))
					continue;

				Range lXRange = lXAxis->getRange();
				Range lYRange = lYAxis->getRange();

				PlWindow lPlWindow = PlWindow(lXRange.getMin(), lXRange.getMax(), lYRange.getMin(), lYRange.getMax());

				if (!lXAxis->_additionalObjDrawn)
					drawXConstantLines(lXAxis, lPlWindow);

				if (!lYAxis->_additionalObjDrawn)
					drawYConstantLines(lYAxis, lPlWindow);

				if (!lXAxis->_additionalObjDrawn || !lYAxis->_additionalObjDrawn)
					drawTextPlots(lXAxis, lYAxis, lPlWindow, _panel->_textPlots);

				lXAxis->_additionalObjDrawn = true;
				lYAxis->_additionalObjDrawn = true;
			}

			if (parameter.getSauvaudProperties() != nullptr)
			{
				boost::shared_ptr<Axis> lXAxis(_panel->getAxis(parameter.getSauvaudProperties()->getXAxisId()));
				boost::shared_ptr<Axis> lYAxis(_panel->getAxis(parameter.getSauvaudProperties()->getYAxisId()));

				if ((lXAxis == nullptr) || (lYAxis == nullptr))
					continue;

				Range lXRange = lXAxis->getRange();
				Range lYRange = lYAxis->getRange();

				PlWindow lPlWindow = PlWindow(lXRange.getMin(), lXRange.getMax(), lYRange.getMin(), lYRange.getMax());

				if (!lXAxis->_additionalObjDrawn)
					drawXConstantLines(lXAxis, lPlWindow);

				if (!lYAxis->_additionalObjDrawn)
					drawYConstantLines(lYAxis, lPlWindow);

				if (!lXAxis->_additionalObjDrawn || !lYAxis->_additionalObjDrawn)
					drawTextPlots(lXAxis, lYAxis, lPlWindow, _panel->_textPlots);

				lXAxis->_additionalObjDrawn = true;
				lYAxis->_additionalObjDrawn = true;
			}
		}

		SeriesProperties lSeries;
		for (auto parameter : _parameterAxesList)
		{
			for (auto lSeries : parameter.getYSeriePropertiesList())
			{
				boost::shared_ptr<Axis> lXAxis(_panel->getAxis(lSeries.getXAxisId()));
				boost::shared_ptr<Axis> lYAxis(_panel->getAxis(lSeries.getYAxisId()));

				if ((lXAxis == nullptr) || (lYAxis == nullptr))
					continue;

				Range lXRange = lXAxis->getRange();
				Range lYRange = lYAxis->getRange();

				PlWindow lPlWindow = PlWindow(lXRange.getMin(), lXRange.getMax(), lYRange.getMin(), lYRange.getMax());

				if (!lXAxis->_additionalObjDrawn)
					drawXConstantLines(lXAxis, lPlWindow);

				if (!lYAxis->_additionalObjDrawn)
					drawYConstantLines(lYAxis, lPlWindow);

				if (!lXAxis->_additionalObjDrawn || !lYAxis->_additionalObjDrawn)
					drawTextPlots(lXAxis, lYAxis, lPlWindow, _panel->_textPlots);

				lXAxis->_additionalObjDrawn = true;
				lYAxis->_additionalObjDrawn = true;
			}
		}

		// Draw curvePlots
		for (auto curvePlot : _panel->_curvePlots)
			drawCurvePlot(*curvePlot);
	}

	void PanelPlotOutput::setPlStream(std::shared_ptr<plstream> &pls)
	{
		_pls = pls;
	}

	std::string PanelPlotOutput::drawOppositeSide(boost::shared_ptr<Axis> pAxis)
	{
		boost::shared_ptr<Axis> lNewAxis;
		std::string lOppositeSide;

		switch (pAxis->_position)
		{
		case PlotCommon::Position::POS_BOTTOM:
			if (pAxis->_visible && !_plotAreaSideSet[PlotCommon::Position::POS_TOP])
			{
				lOppositeSide = "c";
			}
			break;
		case PlotCommon::Position::POS_TOP:
			if (pAxis->_visible && !_plotAreaSideSet[PlotCommon::Position::POS_BOTTOM])
			{
				lOppositeSide = "b";
			}
			break;
		case PlotCommon::Position::POS_LEFT:
			if (pAxis->_visible && !_plotAreaSideSet[PlotCommon::Position::POS_RIGHT])
			{
				lOppositeSide = "c";
			}
			break;
		case PlotCommon::Position::POS_RIGHT:
			if (pAxis->_visible && !_plotAreaSideSet[PlotCommon::Position::POS_LEFT])
			{
				lOppositeSide = "b";
			}
			break;
		case PlotCommon::Position::POS_CENTER:
		default:
			lOppositeSide = "";
		}

		return lOppositeSide;
	}

	/*
	 * Create a sampled parameter from an original parameter and a sampling value
	 */
	AMDA::Parameters::ParameterSPtr PanelPlotOutput::createSampledParameter(AMDA::Parameters::ParameterSPtr &originalParam, float samplingValue, int gap)
	{
		const int userGap = gap == -1 ? originalParam->getGapThreshold(): gap;
		AMDA::Parameters::ParameterSPtr sampledParam = _parameterManager.getSampledParameter(
			originalParam->getId(),
			"classic",
			samplingValue,
			userGap, true);

		if (sampledParam == NULL)
		{
			LOG4CXX_ERROR(gLogger,
						  "ParamOutput::createSampledParameter : cannot create sampled parameter");
			BOOST_THROW_EXCEPTION(
				AMDA::Parameters::ParamOutput_exception());
		}

		LOG4CXX_INFO(gLogger, "ParamOutput::createSampledParameter : sampled parameter : " << sampledParam->getId() << " created");

		return sampledParam;
	}

	/*
	 * Create a sampled parameter from an original parameter and a reference parameter for time definition
	 */
	AMDA::Parameters::ParameterSPtr PanelPlotOutput::createSampledParameterUnderReferenceParameter(AMDA::Parameters::ParameterSPtr &originalParam, AMDA::Parameters::ParameterSPtr &refParam)
	{
		/*if (originalParam == refParam) {
			return originalParam;
		}*/

		AMDA::Parameters::ParameterSPtr sampledParam = _parameterManager.getSampledParameterUnderRefParam(
			originalParam->getId(),
			refParam->getId(), true);

		if (sampledParam == NULL)
		{
			LOG4CXX_ERROR(gLogger,
						  "ParamOutput::createSampledParameterUnderReferenceParameter : cannot create sampled parameter");
			BOOST_THROW_EXCEPTION(
				AMDA::Parameters::ParamOutput_exception());
		}

		LOG4CXX_INFO(gLogger, "ParamOutput::createSampledParameterUnderReferenceParameter : sampled parameter : " << sampledParam->getId() << " created");

		return sampledParam;
	}

	ParameterAxes *PanelPlotOutput::getParameterAxesByColorSerieId(int colorSerieId)
	{
		if (colorSerieId < 0)
			return NULL;

		for (ParameterAxesList::iterator it = _parameterAxesList.begin();
			 it != _parameterAxesList.end(); ++it)
		{
			for (auto serieProp : it->getColorSeriePropertiesList())
			{
				if (serieProp.getId() == colorSerieId)
					return &(*it);
			}
		}

		LOG4CXX_ERROR(gLogger, "ParamOutput::getColorSeriePropertiesById : Not founded : " << colorSerieId);
		return NULL;
	}

	ParameterAxes *PanelPlotOutput::getParameterAxesByXSerieId(int xSerieId)
	{
		for (ParameterAxesList::iterator it = _parameterAxesList.begin();
			 it != _parameterAxesList.end(); ++it)
		{
			for (auto serieProp : it->getXSeriePropertiesList())
			{
				if (serieProp.getId() == xSerieId)
					return &(*it);
			}
		}

		LOG4CXX_ERROR(gLogger, "ParamOutput::getXSeriePropertiesById : Not founded : " << xSerieId);
		return NULL;
	}

	/**
	 * Create parameters needed for this plot.
	 * By default, the creation method create parameters for a time serie.
	 * Override it for other plot type
	 */
	void PanelPlotOutput::createParameters(std::list<std::string> &usedParametersId_)
	{
		// -- for each y serie on each parameter, calculate
		// y serie sampling according to max resolution
		for (ParameterAxesList::iterator it = _parameterAxesList.begin();
			 it != _parameterAxesList.end(); ++it)
		{
			AMDA::Parameters::ParameterSPtr originalParam =
				_parameterManager.getParameter(it->_originalParamId);

			// original parameter sampling
			double samplingValue = getSamplingInTreeParameter(originalParam);

			// For each series
			std::vector<SeriesProperties>::iterator ity;
			for (ity = it->getYSeriePropertiesList().begin(); ity != it->getYSeriePropertiesList().end();
				 ++ity)
			{
				ParameterAxes *colorSerieParameterAxes = getParameterAxesByColorSerieId(ity->getColorSerieId());

				AMDA::Parameters::ParameterSPtr originalColorParam;
				if (colorSerieParameterAxes != NULL)
					originalColorParam = _parameterManager.getParameter(colorSerieParameterAxes->_originalParamId);

				// get corrected sampling value in relation with max resolution
				double correctedSamplingValue = getCorrectedSamplingValue(ity->getMaxResolution(), samplingValue);

				AMDA::Parameters::ParameterSPtr usedParam;

				// create parameter and link to the serie
				switch (ity->getResamplingProperties().getType())
				{
				case ResamplingType::MANUAL:
				{
					// create resampling parameters for param
					usedParam = createSampledParameter(originalParam, ity->getResamplingProperties().getValue());
					break;
				}
				case ResamplingType::AUTO:
				case ResamplingType::YPARAM:
				case ResamplingType::XPARAM:
					if (abs(samplingValue - correctedSamplingValue) > 1.)
					{
						// more than one second between samplingValue and correctedSamplingValue
						//=> use resampling parameter
						usedParam = createSampledParameter(originalParam, correctedSamplingValue);
					}
					else
					{
						// use original parameter
						usedParam = originalParam;
					}
					break;
				}
				// Add used parameter to parameters list
				if (std::find(usedParametersId_.begin(), usedParametersId_.end(), usedParam->getId()) == usedParametersId_.end())
					usedParametersId_.push_back(usedParam->getId());
				// link this paramter to the serie
				ity->setParamId(usedParam->getId());

				ErrorBarProperties &errorBarProp = ity->getErrorBarProperties();

				// Compute min / max re-sampled parameters if min/max error bar are defined for the serie
				if (errorBarProp.getErrorMinMax() != nullptr)
				{

					// Build expression for computed parameter = usedParam - minParam
					AMDA::Parameters::ParameterSPtr originalMinParam = _parameterManager.getParameter(errorBarProp.getErrorMinMax()->getOriginalParamMin());
					AMDA::Parameters::ParameterSPtr minParam = createSampledParameterUnderReferenceParameter(originalMinParam, usedParam);
					std::stringstream minExpr;
					minExpr << "$" << usedParam->getId() << "-$" + minParam->getId();

					// create parameter from expression
					AMDA::Parameters::ParameterSPtr usedMinParam = _parameterManager.getParameterFromExpression(minExpr.str(), originalParam->getGapThreshold(), true);

					if (usedMinParam == nullptr)
					{
						LOG4CXX_ERROR(gLogger, "PanelPlotOutput::createParameters - Cannot create parameter from expression " << minExpr.str());
						continue;
					}

					if (std::find(usedParametersId_.begin(), usedParametersId_.end(), usedMinParam->getId()) == usedParametersId_.end())
						usedParametersId_.push_back(usedMinParam->getId());
					errorBarProp.getErrorMinMax()->setUsedParamMin(usedMinParam->getId());

					// Build expression for computed parameter = usedParam + maxParam
					AMDA::Parameters::ParameterSPtr originalMaxParam = _parameterManager.getParameter(errorBarProp.getErrorMinMax()->getOriginalParamMax());

					AMDA::Parameters::ParameterSPtr maxParam = createSampledParameterUnderReferenceParameter(originalMaxParam, usedParam);
					std::stringstream maxExpr;
					maxExpr << "$" << usedParam->getId() << "+$" + maxParam->getId();

					// create parameter from expression
					AMDA::Parameters::ParameterSPtr usedMaxParam = _parameterManager.getParameterFromExpression(maxExpr.str(), originalParam->getGapThreshold(), true);

					if (usedMaxParam == nullptr)
					{
						LOG4CXX_ERROR(gLogger, "PanelPlotOutput::createParameters - Cannot create parameter from expression " << maxExpr.str());
						continue;
					}

					if (std::find(usedParametersId_.begin(), usedParametersId_.end(), usedMaxParam->getId()) == usedParametersId_.end())
						usedParametersId_.push_back(usedMaxParam->getId());
					errorBarProp.getErrorMinMax()->setUsedParamMax(usedMaxParam->getId());
				}

				if (originalColorParam != nullptr)
				{
					AMDA::Parameters::ParameterSPtr usedColorParam = createSampledParameterUnderReferenceParameter(originalColorParam, usedParam);
					// Add used color parameter to parameters list
					if (std::find(usedParametersId_.begin(), usedParametersId_.end(), usedColorParam->getId()) == usedParametersId_.end())
						usedParametersId_.push_back(usedColorParam->getId());
					// link this color parameter to the y serie
					ity->setColorParamId(usedColorParam->getId());
					// link the used parameter to the color serie
					colorSerieParameterAxes->getColorSeriePropertiesById(ity->getColorSerieId()).addParamId(usedParam->getId(), usedColorParam->getId());
					// activate the Z Axis
					ity->setZAxis(true);
				}
			}

			// For spectro if defined
			std::shared_ptr<SpectroProperties> pSpecProp = it->getSpectroProperties();
			if (pSpecProp != nullptr)
			{
				AMDA::Info::ParamInfoSPtr paramInfo = AMDA::Info::ParamMgr::getInstance()->getParamInfoFromId(originalParam->getInfoId());
				boost::shared_ptr<AMDA::Info::ParamTable> tableSPtr;
				if (paramInfo != nullptr)
					tableSPtr = paramInfo->getTable(pSpecProp->getRelatedDim());
				// get corrected sampling value in relation with max resolution
				double correctedSamplingValue = getCorrectedSamplingValue(pSpecProp->getMaxResolution(), samplingValue);
				AMDA::Parameters::ParameterSPtr usedParam;

				if (abs(samplingValue - correctedSamplingValue) > 1.)
				{
					// more than one second between samplingValue and correctedSamplingValue
					//=> use resampling parameter
					usedParam = createSampledParameter(originalParam, correctedSamplingValue);
					if ((tableSPtr != nullptr) && tableSPtr->isVariable(&_parameterManager))
					{
						for (std::map<std::string, std::string>::iterator it = tableSPtr->getTableParams(&_parameterManager).begin(); it != tableSPtr->getTableParams(&_parameterManager).end(); ++it)
						{
							std::string tableParamKey = it->first;
							std::string tableParamName = it->second;

							AMDA::Parameters::ParameterSPtr originalTableParam = _parameterManager.getParameter(tableParamName);
							AMDA::Parameters::ParameterSPtr usedTableParam = createSampledParameter(originalTableParam, correctedSamplingValue);
							pSpecProp->addTableParam(tableParamKey, usedTableParam->getId());
						}
					}
				}
				else
				{
					// use original parameter
					usedParam = originalParam;
					if ((tableSPtr != nullptr) && tableSPtr->isVariable(&_parameterManager))
					{
						for (std::map<std::string, std::string>::iterator it = tableSPtr->getTableParams(&_parameterManager).begin(); it != tableSPtr->getTableParams(&_parameterManager).end(); ++it)
						{
							std::string tableParamKey = it->first;
							std::string tableParamName = it->second;

							AMDA::Parameters::ParameterSPtr originalTableParam = _parameterManager.getParameter(tableParamName);
							pSpecProp->addTableParam(tableParamKey, originalTableParam->getId());
						}
					}
				}

				// Add used parameter to parameters list
				if (std::find(usedParametersId_.begin(), usedParametersId_.end(), usedParam->getId()) == usedParametersId_.end())
					usedParametersId_.push_back(usedParam->getId());
				pSpecProp->setParamId(usedParam->getId());
				// Add table parameters to parameters list
				for (std::map<std::string, std::string>::iterator it = pSpecProp->getTableParams().begin(); it != pSpecProp->getTableParams().end(); ++it)
				{
					std::string tableParamId = it->second;

					if (std::find(usedParametersId_.begin(), usedParametersId_.end(), tableParamId) == usedParametersId_.end())
						usedParametersId_.push_back(tableParamId);
				}
			}

			// For sauvaud if defined
			std::shared_ptr<SauvaudProperties> pSauvaudProp = it->getSauvaudProperties();
			if (pSauvaudProp != nullptr)
			{
				AMDA::Info::ParamInfoSPtr paramInfo = AMDA::Info::ParamMgr::getInstance()->getParamInfoFromId(originalParam->getInfoId());
				boost::shared_ptr<AMDA::Info::ParamTable> tableSPtr;
				if (paramInfo != nullptr)
					tableSPtr = paramInfo->getTable(pSauvaudProp->getRelatedDim());
				// get corrected sampling value in relation with max resolution
				double correctedSamplingValue = getCorrectedSamplingValue(pSauvaudProp->getMaxResolution(), samplingValue);
				AMDA::Parameters::ParameterSPtr usedParam;

				if (abs(samplingValue - correctedSamplingValue) > 1.)
				{
					// more than one second between samplingValue and correctedSamplingValue
					//=> use resampling parameter
					usedParam = createSampledParameter(originalParam, correctedSamplingValue);
					if ((tableSPtr != nullptr) && tableSPtr->isVariable(&_parameterManager))
					{
						for (std::map<std::string, std::string>::iterator it = tableSPtr->getTableParams(&_parameterManager).begin(); it != tableSPtr->getTableParams(&_parameterManager).end(); ++it)
						{
							std::string tableParamKey = it->first;
							std::string tableParamName = it->second;

							AMDA::Parameters::ParameterSPtr originalTableParam = _parameterManager.getParameter(tableParamName);
							AMDA::Parameters::ParameterSPtr usedTableParam = createSampledParameter(originalTableParam, correctedSamplingValue);
							pSauvaudProp->addTableParam(tableParamKey, usedTableParam->getId());
						}
					}
				}
				else
				{
					// use original parameter
					usedParam = originalParam;
					if ((tableSPtr != nullptr) && tableSPtr->isVariable(&_parameterManager))
					{
						for (std::map<std::string, std::string>::iterator it = tableSPtr->getTableParams(&_parameterManager).begin(); it != tableSPtr->getTableParams(&_parameterManager).end(); ++it)
						{
							std::string tableParamKey = it->first;
							std::string tableParamName = it->second;

							AMDA::Parameters::ParameterSPtr originalTableParam = _parameterManager.getParameter(tableParamName);
							pSauvaudProp->addTableParam(tableParamKey, originalTableParam->getId());
						}
					}
				}

				// Add used parameter to parameters list
				if (std::find(usedParametersId_.begin(), usedParametersId_.end(), usedParam->getId()) == usedParametersId_.end())
					usedParametersId_.push_back(usedParam->getId());
				pSauvaudProp->setParamId(usedParam->getId());
				// Add table parameters to parameters list
				for (std::map<std::string, std::string>::iterator it = pSauvaudProp->getTableParams().begin(); it != pSauvaudProp->getTableParams().end(); ++it)
				{
					std::string tableParamId = it->second;

					if (std::find(usedParametersId_.begin(), usedParametersId_.end(), tableParamId) == usedParametersId_.end())
						usedParametersId_.push_back(tableParamId);
				}
			}

			// For intervals if defined
			std::shared_ptr<IntervalsProperties> pIntProp = it->getIntervalsProperties();
			if (pIntProp != nullptr)
			{
				// get corrected sampling value in relation with max resolution
				double correctedSamplingValue = getCorrectedSamplingValue(pIntProp->getMaxResolution(), samplingValue);
				AMDA::Parameters::ParameterSPtr usedParam;

				if (abs(samplingValue - correctedSamplingValue) > 1.)
				{
					// more than one second between samplingValue and correctedSamplingValue
					//=> use resampling parameter
					usedParam = createSampledParameter(originalParam, correctedSamplingValue);
				}
				else
				{
					// use original parameter
					usedParam = originalParam;
				}

				// Add used parameter to parameters list
				if (std::find(usedParametersId_.begin(), usedParametersId_.end(), usedParam->getId()) == usedParametersId_.end())
					usedParametersId_.push_back(usedParam->getId());
				pIntProp->setParamId(usedParam->getId());
			}
		}
	}

	/**
	 * Gets sampling value from resolution (point-per-plot) according to
	 * the plot time interval and the base parameter sampling value.
	 */
	double PanelPlotOutput::getCorrectedSamplingValue(int maxResolution, double samplingValue)
	{
		double timeInt = 0.;
		if (_panel->_page->_superposeMode)
		{
			// merge all intervals size
			TimeIntervalList::iterator crtTimeInterval = _parameterManager.getInputIntervals()->begin();
			while (crtTimeInterval != _parameterManager.getInputIntervals()->end())
			{
				timeInt += (crtTimeInterval->_stopTime - crtTimeInterval->_startTime);
				++crtTimeInterval;
			}
		}
		else
		{
			// find the biggest intervals size
			TimeIntervalList::iterator crtTimeInterval = _parameterManager.getInputIntervals()->begin();
			while (crtTimeInterval != _parameterManager.getInputIntervals()->end())
			{
				if ((crtTimeInterval->_stopTime - crtTimeInterval->_startTime) > timeInt)
					timeInt = crtTimeInterval->_stopTime - crtTimeInterval->_startTime;
				++crtTimeInterval;
			}
		}

		if ((timeInt == 0) || (maxResolution == -1) || (timeInt / samplingValue < maxResolution))
		{
			return samplingValue;
		}
		// get the exact sampling
		double correctedSampling = timeInt / maxResolution;
		// rounded it to the next int sampling
		double roundedSampling = (int)correctedSampling;
		if (roundedSampling < correctedSampling)
		{
			roundedSampling += 1;
		}
		return roundedSampling;
	}

	/**
	 * @brief Get the list of indexes used for a parameter
	 */
	std::vector<AMDA::Common::ParameterIndexComponent> PanelPlotOutput::getParamUsedIndexes(std::string paramId,
																							int dim1Size, int dim2Size)
	{
		std::vector<AMDA::Common::ParameterIndexComponent> indexes;
		for (ParameterAxesList::iterator paramAxeIt = _parameterAxesList.begin();
			 paramAxeIt != _parameterAxesList.end(); ++paramAxeIt)
		{
			// get indexes for spectro
			std::shared_ptr<SpectroProperties> pSpecProp = paramAxeIt->getSpectroProperties();
			if (pSpecProp != nullptr)
			{
				if (pSpecProp->getParamId() == paramId)
				{
					if (pSpecProp->getIndexes().empty())
					{
						// get used indexes by the spectro thanks to the index definition in the request
						AMDA::Common::ParameterIndexComponentList indexList;
						AMDA::Common::ParameterIndexesTool::parse(pSpecProp->getIndexDef(),
																  dim1Size, dim2Size, indexList);
						pSpecProp->setIndexes(indexList);
					}

					for (auto index : pSpecProp->getIndexes())
					{
						if (std::find(indexes.begin(), indexes.end(), index) != indexes.end())
							continue;
						indexes.push_back(index);
					}
				}
			}

			// get indexes for spectro
			std::shared_ptr<SauvaudProperties> pSauvaudProp = paramAxeIt->getSauvaudProperties();
			if (pSauvaudProp != nullptr)
			{
				if (pSauvaudProp->getParamId() == paramId)
				{
					if (pSauvaudProp->getIndexes().empty())
					{
						// get used indexes by the spectro thanks to the index definition in the request
						AMDA::Common::ParameterIndexComponentList indexList;
						AMDA::Common::ParameterIndexesTool::parse(pSauvaudProp->getIndexDef(),
																  dim1Size, dim2Size, indexList);
						pSauvaudProp->setIndexes(indexList);
					}

					for (auto index : pSauvaudProp->getIndexes())
					{
						if (std::find(indexes.begin(), indexes.end(), index) != indexes.end())
							continue;
						indexes.push_back(index);
					}
				}
			}

			// get indexes for intervals
			std::shared_ptr<IntervalsProperties> pIntProp = paramAxeIt->getIntervalsProperties();
			if (pIntProp != nullptr)
			{
				if (pIntProp->getParamId() == paramId)
				{
					if (pIntProp->getIndexes().empty())
					{
						// get used indexes by the intervals thanks to the index definition in the request
						AMDA::Common::ParameterIndexComponentList indexList;
						AMDA::Common::ParameterIndexesTool::parse(pIntProp->getIndexDef(),
																  dim1Size, dim2Size, indexList);
						pIntProp->setIndexes(indexList);
					}

					for (auto index : pIntProp->getIndexes())
					{
						if (std::find(indexes.begin(), indexes.end(), index) != indexes.end())
							continue;
						indexes.push_back(index);
					}
				}
			}

			// get indexes for series of this ParameterAxe
			std::vector<AMDA::Common::ParameterIndexComponent> seriesIndexes = paramAxeIt->getParamUsedIndexes(paramId);

			for (AMDA::Common::ParameterIndexComponent index : seriesIndexes)
			{
				if ((index.getDim1Index() == -1) && (index.getDim2Index() == -1))
				{
					//-1 => all indexes
					indexes.clear();
					indexes.push_back(AMDA::Common::ParameterIndexComponent(-1, -1));
					return indexes;
				}
				if (std::find(indexes.begin(), indexes.end(), index) != indexes.end())
					continue;
				indexes.push_back(index);
			}
		}

		if (indexes.empty())
			indexes.push_back(AMDA::Common::ParameterIndexComponent(-1, -1));

		return indexes;
	}

	/*
	 * @brief Set pointer to params values
	 */
	void PanelPlotOutput::setParameterValues(std::map<std::string, ParameterData> *pParameterValues)
	{
		_pParameterValues = pParameterValues;
	}

	/*
	 * @brief Set a pointer to the time intervals list
	 */
	void PanelPlotOutput::setTimeIntervalListPtr(AMDA::Parameters::TimeIntervalList *timeIntervalListPtr)
	{
		_timeIntervalListPtr = timeIntervalListPtr;
	}

	/*
	 * @brief Get computed values (in relation with the y axis definition) for a y serie and a time interval
	 * Do not forget to delete computedValues !!
	 * Don't delete timeValues !!
	 */
	bool PanelPlotOutput::getComputedValuesFromSerieAndInterval(double startDate, double stopDate, SeriesProperties &rSeriesProperties,
																AMDA::Common::ParameterIndexComponent index, double **computedValues, double **timeValues, int &nbValues)
	{
		LOG4CXX_DEBUG(gLogger, "PanelPlotOutput::getComputedValuesFromSerieAndInterval");
		// get parameter data for this serie
		ParameterData &data = (*_pParameterValues)[rSeriesProperties.getParamId()];

		// get original data for interval [startDate, stopDate]
		int startIndex;
		data.getIntervalBounds(startDate, stopDate, startIndex, nbValues);

		if (nbValues == 0)
		{
			LOG4CXX_DEBUG(gLogger, "PanelPlotOutput::getComputedValuesFromSerieAndInterval - Cannot find data for serie with id " << rSeriesProperties.getId());
			return false;
		}

		double *valuesInterval = data.getValues(index, startIndex);

		// get computed data for interval [startDate, stopDate] in relation with the serie y axis
		(*computedValues) = _panel->getAxis(rSeriesProperties.getYAxisId())->getComputedValues(valuesInterval, nbValues, rSeriesProperties.getMin(), rSeriesProperties.getMax());

		// get time values
		(*timeValues) = &data.getTimes()[startIndex];

		return true;
	}

	/*
	 * @brief Get computed values (in relation with the color axis definition) for a color serie and a time interval
	 * Do not forget to delete computedValues !!
	 * Don't delete timeValues !!
	 */
	bool PanelPlotOutput::getColoredComputedValuesFromSerieAndInterval(double startDate, double stopDate, SeriesProperties &rSeriesProperties,
																	   double **computedValues, double **timeValues, int &nbValues)
	{
		LOG4CXX_DEBUG(gLogger, "PanelPlotOutput::getColoredComputedValuesFromSerieAndInterval");
		// get parameter data for this color serie
		ParameterData &data = (*_pParameterValues)[rSeriesProperties.getColorParamId()];

		ParameterAxes *colorSerieParameterAxes = getParameterAxesByColorSerieId(rSeriesProperties.getColorSerieId());

		if (colorSerieParameterAxes == NULL)
		{
			LOG4CXX_DEBUG(gLogger, "PanelPlotOutput::getColoredComputedValuesFromSerieAndInterval - Cannot retrieve parameter axe");
			return false;
		}

		ColorSeriesProperties &colorSerieProp = colorSerieParameterAxes->getColorSeriePropertiesById(rSeriesProperties.getColorSerieId());

		// get original data for interval [startDate, stopDate]
		int startIndex;
		data.getIntervalBounds(startDate, stopDate, startIndex, nbValues);

		if (nbValues == 0)
		{
			LOG4CXX_DEBUG(gLogger, "PanelPlotOutput::getColoredComputedValuesFromSerieAndInterval - Cannot find data for color serie with id " << colorSerieProp.getId());
			return false;
		}

		double *valuesInterval = data.getValues(colorSerieProp.getIndex(), startIndex);

		// get computed data for interval [startDate, stopDate] in relation with the color axis
		(*computedValues) = _panel->getColorAxis()->getComputedValues(
			valuesInterval,
			nbValues,
			colorSerieProp.getMin(),
			colorSerieProp.getMax());

		// get time values
		(*timeValues) = &data.getTimes()[startIndex];

		return true;
	}

	/*
	 * @brief Get computed values (in relation with the y axis definition) for a y serie and a time interval
	 * Do not forget to delete computedValues !!
	 * Don't delete timeValues !!
	 */
	bool PanelPlotOutput::getErrorComputedValuesFromSerieAndInterval(double startDate, double stopDate, SeriesProperties &rSeriesProperties,
																	 AMDA::Common::ParameterIndexComponent &pParamIndex,
																	 double **minComputedValues, double **minTimeValues, int &nbMinValues,
																	 double **maxComputedValues, double **maxTimeValues, int &nbMaxValues)
	{
		LOG4CXX_DEBUG(gLogger, "PanelPlotOutput::getErrorComputedValuesFromSrieAndInterval");

		ErrorBarProperties &errorBarProp = rSeriesProperties.getErrorBarProperties();
		if (errorBarProp.getErrorMinMax() == nullptr)
			return false;

		// get parameter dataMin for this color bar
		ParameterData &dataMin = (*_pParameterValues)[errorBarProp.getErrorMinMax()->getUsedParamMin()];

		if(((pParamIndex.getDim1Index() != -1) && (pParamIndex.getDim1Index() >= dataMin.getDim1Size())) || ((pParamIndex.getDim2Index() != -1) && (pParamIndex.getDim2Index() >= dataMin.getDim2Size()))){
			LOG4CXX_ERROR(gLogger, "PanelPlotOutput::getErrorComputedValuesFromSerieAndInterval - Errorbar index outside of parameter index");
			return false;
		}
		// get original min data for interval [startDate, stopDate]
		int minStartIndex;
		dataMin.getIntervalBounds(startDate, stopDate, minStartIndex, nbMinValues);

		if (nbMinValues == 0)
		{
			LOG4CXX_ERROR(gLogger, "PanelPlotOutput::getErrorComputedValuesFromSerieAndInterval - Cannot get min data for error bar");
			return false;
		}

		double *minValuesInterval = dataMin.getValues(pParamIndex, minStartIndex);
		// get computed min data for interval [startDate, stopDate] in relation with the serie y axis
		(*minComputedValues) = _panel->getAxis(rSeriesProperties.getYAxisId())->getComputedValues(minValuesInterval, nbMinValues, rSeriesProperties.getMin(), rSeriesProperties.getMax());

		// get time values
		(*minTimeValues) = &dataMin.getTimes()[minStartIndex];

		// get parameter dataMax for this color bar
		ParameterData &dataMax = (*_pParameterValues)[errorBarProp.getErrorMinMax()->getUsedParamMax()];

		// get original max data for interval [startDate, stopDate]
		int maxStartIndex;
		dataMax.getIntervalBounds(startDate, stopDate, maxStartIndex, nbMaxValues);

		if (nbMaxValues == 0)
		{
			LOG4CXX_ERROR(gLogger, "PanelPlotOutput::getErrorComputedValuesFromSerieAndInterval - Cannot get max data for error bar");
			delete[](*minComputedValues);
			return false;
		}

		double *maxValuesInterval = dataMax.getValues(pParamIndex, maxStartIndex);

		// get computed max data for interval [startDate, stopDate] in relation with the serie y axis
		(*maxComputedValues) = _panel->getAxis(rSeriesProperties.getYAxisId())->getComputedValues(maxValuesInterval, nbMaxValues, rSeriesProperties.getMin(), rSeriesProperties.getMax());

		// get time values
		(*maxTimeValues) = &dataMax.getTimes()[maxStartIndex];

		return true;
	}

	/*
	 * @brief Return the color to draw the line of a serie
	 */
	Color PanelPlotOutput::getSerieLineColor(SeriesProperties &rSeriesProperties, bool moreThanOneSerieForAxis)
	{
		Color lLineColor = rSeriesProperties.getLineProperties().getColor();

		if ((lLineColor._colorIndex == -1) &&
			(lLineColor._red == -1) &&
			(lLineColor._green == -1) &&
			(lLineColor._blue == -1))
		{
			// if line color not defined, try to use the serie color
			lLineColor = rSeriesProperties.getColor();

			if ((lLineColor._colorIndex == -1) &&
				(lLineColor._red == -1) &&
				(lLineColor._green == -1) &&
				(lLineColor._blue == -1))
			{
				// if color not defined
				if (!_panel->_page->_superposeMode && !moreThanOneSerieForAxis)
				{
					lLineColor = _panel->getAxis(rSeriesProperties.getYAxisId())->_color;
				}
				else
				{
					// get a default color
					getDefaultColor(_panel->_page->_mode, _automaticSerieColorCursor, lLineColor);
				}
			}
		}

		return lLineColor;
	}

	/*
	 * @brief Return the color to draw the symbols of a serie
	 */
	Color PanelPlotOutput::getSerieSymbolColor(SeriesProperties &rSeriesProperties, Color &pLineColor)
	{
		Color lSymbolColor = rSeriesProperties.getSymbolProperties().getColor();

		if ((lSymbolColor._colorIndex == -1) &&
			(lSymbolColor._red == -1) &&
			(lSymbolColor._green == -1) &&
			(lSymbolColor._blue == -1))
		{
			// if not defined, use the line color
			lSymbolColor = pLineColor;
		}

		return lSymbolColor;
	}

	/**
	 * @brief Configure params legend.
	 */
	void PanelPlotOutput::configureParamsLegend(double startTime, double stopTime, int intervalIndex)
	{
		_panel->_paramsLegendProperties.resetPlot();

		for (auto parameter : _parameterAxesList)
		{
			for (auto lSeries : parameter.getYSeriePropertiesList())
			{
				for (auto lIndex : lSeries.getIndexList(_pParameterValues))
				{
					// for the legend configuration, we don't need to know the line and symbol colors
					Color fakeColor(0, 0, 0);

					addSerieToParamsLegend(lSeries, lIndex, parameter._originalParamId,
										   fakeColor, fakeColor, startTime, stopTime, intervalIndex);
				}
			}
		}
	}

	/**
	 * @brief Add a serie to the param legend
	 */
	void PanelPlotOutput::addSerieToParamsLegend(SeriesProperties &lSeriesProperties,
												 AMDA::Common::ParameterIndexComponent &index, std::string originalParamId,
												 Color &lineColor, Color &symbolColor,
												 double startTime, double stopTime, int intervalIndex)
	{
		if (!_panel->_paramsLegendProperties.isVisible())
			return;

		LOG4CXX_DEBUG(gLogger, "PanelPlotOutput::addSerieToParamsLegend");

		std::stringstream fullLegendText;
		if (_panel->_paramsLegendProperties.isParamInfoVisible())
		{
			// add params info
			fullLegendText << getSerieParamsLegendString(lSeriesProperties, index, originalParamId);
		}

		if (_panel->_paramsLegendProperties.isIntervalInfoVisible())
		{
			// add interval info
			if (!fullLegendText.str().empty())
				fullLegendText << "; ";
			switch (_panel->_paramsLegendProperties.getIntervalInfoType())
			{
			case ParamsLegendProperties::IntervalInfoType::INDEX:
				fullLegendText << "I";
				fullLegendText << intervalIndex;
				break;
			case ParamsLegendProperties::IntervalInfoType::STARTSTOP:
				fullLegendText << "[";
				fullLegendText << AMDA::TimeUtil::formatTimeDateInIso(startTime);
				fullLegendText << ", ";
				fullLegendText << AMDA::TimeUtil::formatTimeDateInIso(stopTime);
				fullLegendText << "]";
			}
		}

		// push this legend to the params legend properties
		_panel->_paramsLegendProperties.addSerie(lSeriesProperties,
												 fullLegendText.str().c_str(), lineColor, symbolColor);
	}

	/*
	 * @brief Return the associated params legend to a serie
	 */
	std::string PanelPlotOutput::getSerieParamsLegendString(SeriesProperties &rSeriesProperties,
															AMDA::Common::ParameterIndexComponent &index, std::string originalParamId)
	{
		// Retrieve ParamInfo Manager
		ParamMgr *piMgr = ParamMgr::getInstance();

		// Try to retrieve informations from paramInfo
		ParameterSPtr p = _parameterManager.getParameter(rSeriesProperties.getParamId());
		ParamInfoSPtr paramInfo = piMgr->getParamInfoFromId(p->getInfoId());

		// Build parameter text legend depending on the availability of paramInfo
		std::stringstream paramLegendText;

		if (paramInfo)
		{
			if ((index.getDim1Index() == -1) && (index.getDim2Index() == -1))
			{
				// parameter legend text = short_name
				paramLegendText << paramInfo->getShortName();
			}
			else
			{
				if (paramInfo->getComponents(index).empty() == false)
					// parameter legend text = components at index lIndex]
					paramLegendText << paramInfo->getComponents(index);
				else
				{
					// parameter legend text = short_name [lIndex]
					paramLegendText << paramInfo->getShortName() << "[" << index.getDim1Index();
					if (index.getDim2Index() != -1)
						paramLegendText << "," << index.getDim2Index();
					paramLegendText << "]";
				}
			}
		}
		else
		{
			if ((index.getDim1Index() == -1) && (index.getDim2Index() == -1))
				// parameter legend text = _originalParamId
				paramLegendText << originalParamId;
			else
			{
				// parameter legend text = _originalParamId [lIndex]
				paramLegendText << originalParamId << "[" << index.getDim1Index();
				if (index.getDim2Index() != -1)
					paramLegendText << "," << index.getDim2Index();
				paramLegendText << "]";
			}
		}

		return paramLegendText.str();
	}

	/*
	 * Dumps properties for test.
	 */
	void PanelPlotOutput::dump(std::ostream &out)
	{
		out << *(_panel->_page) << std::endl;
		out << *_panel << std::endl;
		std::string prefix = "parameter.";
		for (auto parameter : _parameterAxesList)
		{
			parameter.dump(out, prefix);
		}
	}

	void PanelPlotOutput::writeDataFile(){}

} /* namespace plot */