TickMarkDecorator.cc
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/*
* TickMarkDecorator.cc
*
* Created on: Dec 18, 2013
* Author: amdadev
*/
#include "TickMarkDecorator.hh"
#include <iosfwd>
#include <boost/format.hpp>
#include <tuple>
#include "log4cxx/logger.h"
#include "plplot/plplot.h"
#include "boost/exception/all.hpp"
#include "PlotLogger.hh"
#include "TimeAxis.hh"
#include "Page.hh"
#include "Time/TimePlot.hh"
#include "TickPlot.hh"
using boost::tuples::get;
namespace plot {
log4cxx::LoggerPtr TickMarkDecorator::_logger(
log4cxx::Logger::getLogger("AMDA-Kernel.Plot.Time.TickMarkDecorator"));
TickMarkDecorator::TickMarkDecorator (bool isStandalone, PanelPlotOutput* decoratorPlot) :
TimeAxisDecorator(),
_seriesInfoList(),
_valuesFormat("% -4.4G"),
_maxValueLen(0),
_isStandalone(isStandalone),
_decoratorPlot(decoratorPlot) {
_pTimeInfo = TimeInfoPtr(new TimeInfo());
}
TickMarkDecorator::TickMarkDecorator(const TickMarkDecorator& ref_) :
TimeAxisDecorator(ref_), _seriesInfoList(
ref_._seriesInfoList), _valuesFormat(ref_._valuesFormat), _maxValueLen(
ref_._maxValueLen), _isStandalone(ref_._isStandalone), _decoratorPlot(
ref_._decoratorPlot) {
_pTimeInfo = TimeInfoPtr(new TimeInfo(*(ref_._pTimeInfo)));
}
TickMarkDecorator& TickMarkDecorator::operator=(const TickMarkDecorator& ref_) {
if (_pTimeInfo == nullptr) {
_pTimeInfo = boost::shared_ptr<TimeInfo>(
new TimeInfo(*(ref_._pTimeInfo)));
} else {
_pTimeInfo->_timeFormat = ref_._pTimeInfo->_timeFormat;
_pTimeInfo->_timeTitle = ref_._pTimeInfo->_timeTitle;
_pTimeInfo->_min = ref_._pTimeInfo->_min;
_pTimeInfo->_maxLen = ref_._pTimeInfo->_maxLen;
}
_seriesInfoList = ref_._seriesInfoList;
_valuesFormat = ref_._valuesFormat;
_maxValueLen = ref_._maxValueLen;
_isStandalone = ref_._isStandalone;
_decoratorPlot = ref_._decoratorPlot;
return *this;
}
TickMarkDecorator::~TickMarkDecorator() {
}
void TickMarkDecorator::updatePlotArea(PanelPlotOutput* pplot_, Axis* axis_, Bounds& bounds_) {
LOG4CXX_DEBUG(_logger, "TickMarkDecorator Updating plot area : "<<bounds_.toString());
TimeAxis* pAxis = (TimeAxis*) axis_;
// gets plot margins :
Margin m = pplot_->getMargin();
// calculate char size for labels:
Font legendFont(pAxis->_legend._font);
Font panelFont(pplot_->_panel->_font);
if (legendFont._size == 0) {
legendFont = panelFont;
}
CharSize legendSize = pplot_->getCharacterSize(getPlFontScaleFactor(legendFont));
double tickmarkSpace = 0;
if (pAxis->_visible) {
// process room for label tickmarks :
double lineHeight = legendSize.second * 2;
// take into account first space between time label
tickmarkSpace += lineHeight * 1.5;
// reserve space for all series labels :
tickmarkSpace += (lineHeight * _seriesInfoList.size());
} else {
LOG4CXX_DEBUG(_logger, " Axis not visible nothing to do.");
}
// update y and height; x and width are left unchanged.
// origin of viewport is at left,bottom corner.
// to take into account the tickmarks.
bounds_._height -= tickmarkSpace;
// specific case when axis labels are displayed at bottom of the graph. Needs to update y.
if (pAxis->_position == PlotCommon::POS_BOTTOM) {
bounds_._y += tickmarkSpace;
}
// needs to reserve enough space for start date above
CharSize startDateSize = pplot_->getCharacterSize(
getPlFontScaleFactor(pplot_->_panel->_font));
bounds_._height -= startDateSize.second * 3;
bounds_._y += startDateSize.second * 3;
// take margins into account :
// compute what we need for labels at left side :
// reserve same space amount in both side (since text are centered on ticks, only half length is taken into account).
double minspaceleft = std::max((const int) (_pTimeInfo->_maxLen + 1),
(const int) _maxValueLen + 1);
if (legendFont._size > panelFont._size) {
minspaceleft *= legendSize.first;
} else {
CharSize panelSize = pplot_->getCharacterSize(getPlFontScaleFactor(panelFont));
minspaceleft *= panelSize.first;
}
minspaceleft *= 0.5;
double minspaceright = minspaceleft;
// we also need to reserve enough space for start date information
// (only in width, because height is already taken into account in PlotPanelOutput).
if (pAxis->_reverse) {
minspaceright = std::max(minspaceright,
computeStartDateWidth(pplot_, pAxis));
} else {
minspaceleft = std::max(minspaceleft,
computeStartDateWidth(pplot_, pAxis));
}
// LOG4CXX_DEBUG(_logger,"min space="<<minspace<<" margin.left="<<m._left <<" margin.right="<<m._right);
if (m._left < minspaceleft) {
// adjust x bounds :
bounds_._x += (minspaceleft - m._left);
bounds_._width -= (minspaceleft - m._left);
}
if (m._right < minspaceright) {
// adjust only width bounds :
bounds_._width -= (minspaceright - m._right);
}
// specific case of only tickmarks graph
if (pAxis->isOnlyTickmarks()) {
// since there is no graph to plot, reduce plot area to minimum :
bounds_._height = legendSize.second * 2;
}
LOG4CXX_DEBUG(_logger, "Updated plot area : "<<bounds_.toString());
}
double TickMarkDecorator::computeStartDateWidth(PanelPlotOutput* pplot_,
TimeAxis* pAxis_) {
// not very efficient ...
long int lTime = static_cast<long int>(pAxis_->getRange().getMin());
tm * lTimeTm = gmtime(&lTime);
char lTimeChr[80];
// Format date.
size_t datelen =
strftime(lTimeChr, 80,
getPlStartTimeFormat(pAxis_->_timeFormat,
pAxis_->getRange().getMin(),
pAxis_->getRange().getMax()).c_str(), lTimeTm);
CharSize fontSize = pplot_->getCharacterSize(
getPlFontScaleFactor(pplot_->_panel->_font));
return fontSize.first * datelen;
}
void TickMarkDecorator::configure(PanelPlotOutput* pplot_, Axis* axis_, double start_,
double stop_, std::map<std::string, ParameterData> *pParameterValues) {
LOG4CXX_DEBUG(_logger, "TickMarkDecorator::configure");
_pParameterValues = pParameterValues;
// retrieve time axis
TimeAxis* pTimeAxis = (TimeAxis*) axis_;
// configure x axis range
pTimeAxis->setRange(start_, stop_);
// show xAxis or not
pTimeAxis->setOnlyTickmarks(_isStandalone);
setPlFormat(
getPlTimeFormat(pTimeAxis->_timeFormat,
pTimeAxis->getRange().getMin(),
pTimeAxis->getRange().getMax(),
getMajorTickNumber(pTimeAxis,
pTimeAxis->getRange().getMin(),
pTimeAxis->getRange().getMax())));
// install label generator
installLabelGenerator(pplot_, pTimeAxis);
}
void TickMarkDecorator::draw(PanelPlotOutput* pplot_, Axis* axis_,
std::shared_ptr<plstream> pls_) {
// draw a virtual axis for each entry // take into account plot orientation
TimeAxis* pAxis = (TimeAxis*) axis_;
// Get plot area viewport.
Bounds vpBounds;
PLFLT lXMin, lXMax, lYMin, lYMax;
pls_->gvpd(lXMin, lXMax, lYMin, lYMax);
vpBounds._x = lXMin;
vpBounds._y = lYMin;
vpBounds._width = lXMax - lXMin;
vpBounds._height = lYMax - lYMin;
// get windows
Bounds winBounds;
PLFLT xwmin, xwmax, ywmin, ywmax;
pls_->gvpw(xwmin, xwmax, ywmin, ywmax);
winBounds._x = xwmin;
winBounds._y = ywmin;
winBounds._width = xwmax - xwmin;
winBounds._height = ywmax - ywmin;
LOG4CXX_DEBUG(_logger, " viewport :"<<vpBounds.toString());
LOG4CXX_DEBUG(_logger, " window :"<<winBounds.toString());
// tick configuration for this axis :
double xtick = getMajorTickSpace(pAxis, pAxis->getRange().getMin(),
pAxis->getRange().getMax());
int nxsub = getMinorTickNumber(pAxis, pAxis->getRange().getMin(),
pAxis->getRange().getMax(), xtick);
// set color for drawing axis :
Color lInitialColor = changeColor(pls_, pAxis->_color,
pplot_->_panel->_page->_mode);
// Set tick (major and minor) length factor
PLFLT lTickLenFact = PanelPlotOutput::DEFAULT_TICK_LENGTH_FACTOR;
if (!isnan(pAxis->_tick._lengthFactor)) {
lTickLenFact = pAxis->_tick._lengthFactor;
}
// 0 => keep tick height in millimeters.
pls_->smaj(0, lTickLenFact);
pls_->smin(0, lTickLenFact);
// Set font to draw axes.
std::vector<Label::Style> panelStyles;
Font panelFont(pplot_->_panel->_font);
std::vector<Label::Style> legendStyles(pAxis->_legend._style);
Font legendFont(pAxis->_legend._font);
if (legendFont._size == 0) {
// font has not been defined for that axis, used default panel font :
legendFont = panelFont;
legendStyles = panelStyles;
}
pls_->schr(getPlFontDef(legendFont), getPlFontScaleFactor(legendFont));
pls_->sfont(getPlFontFamily(legendFont), getPlFontStyle(legendStyles),
getPlFontWeight(legendStyles));
// viewport translation only along y direction: we translate about n charHeight. So, gets panel character height.
CharSize legendCharSize(pplot_->getCharacterSize(getPlFontScaleFactor(legendFont)));
CharSize panelCharSize(pplot_->getCharacterSize(getPlFontScaleFactor(panelFont)));
// delta is negative when axis is at bottom (which is the default case). positive otherwise.
// (viewport origin is in the left bottom corner of the page).
double yDelta = -legendCharSize.second * 2;
std::string options = "";
int start;
int end;
int dir;
if (pAxis->_position == PlotCommon::POS_TOP) {
options = "mxo"; // options means : m=display above axe, x=do not plot ticks, o=user label function provided.
yDelta = -yDelta; // if axis is displayed on top of graph we have to use an inverse translation delta.
// reverse direction :
start = _seriesInfoList.size() - 1;
end = -1;
dir = -1;
} else {
options = "nxo";// options means : n=display below axe, x=do not plot ticks, o=user label function provided.
start = 0;
end = _seriesInfoList.size();
dir = 1;
}
LOG4CXX_DEBUG(_logger, " viewport translation:"<<yDelta);
LOG4CXX_DEBUG(_logger, " virtual axis options:"<<options);
// store initial delta, as it is also the increment to add to delta at each new serie (see below).
double yInc = yDelta;
// at this point, we change viewport to be able to plot each virtual axis
// (only labels are plotted)...
// We need to take into account tick length.
if (pAxis->_tick._position == Tick::TickPosition::OUTWARDS) {
// set room for tick, tickmarks (graduation) and extra space between tickmarks (graduation) and data time.
yDelta = getVerticalTickLength(pAxis, panelCharSize.second) + yDelta + (0.5 * yInc);
} else {
// for the first serie, we add an extra space (half of yInc) to add a sepration with time labels
yDelta = yDelta + (0.5 * yInc);
}
for (int i = start; i != end; i += dir) {
LOG4CXX_TRACE(_logger, " virtual axis ["<<i<<"]");
// install label generator specific for that virtual axis
pls_->slabelfunc(generateYLabel, _seriesInfoList[i].get());
// translate viewport :
pls_->vpor(vpBounds._x, vpBounds._x + vpBounds._width,
vpBounds._y + yDelta, vpBounds._y + vpBounds._height + yDelta);
// sets windows for new viewport :
pls_->wind(winBounds._x, winBounds._x + winBounds._width, winBounds._y,
winBounds._y + winBounds._height);
pls_->box(options.c_str(), xtick, nxsub, "", 0, 0);
yDelta = yDelta + yInc;
}
// restore viewport.
pls_->vpor(vpBounds._x, vpBounds._x + vpBounds._width, vpBounds._y,
vpBounds._y + vpBounds._height);
// restore window
pls_->wind(winBounds._x, winBounds._x + winBounds._width, winBounds._y,
winBounds._y + winBounds._height);
// Restore initial color.
restoreColor(pls_, lInitialColor, pplot_->_panel->_page->_mode);
}
/**
* @brief Search for each tick time, the closest parameter time in the paramdata_ and store the corresponding value.
* Selected parameter time is in range ]ticktime-step, ticktime+step[ where step is the space between two tick.
* If no such time is found for a given tick, associated value is marked as NaN.
* Note that this algorithm may retrieve same value twice if there is exactly one time between two ticks
* and it is exactly at the middle.
* @param seriesdata_ series data to fill
* @param pAxis_ related axis
* @param paramdata_ related parameter
* @param serieIndex_ series index.
* @return longest label to display for that series (in number of char).
*/
unsigned int TickMarkDecorator::fillSeriesData(SeriesData& seriesdata_,
TimeAxis* pAxis_, ParameterData& paramdata_, AMDA::Common::ParameterIndexComponent serieIndex_) {
LOG4CXX_DEBUG(_logger, " filling series data...");
// string used to compute formattedvalue max length
char formattedValue [40];
unsigned int maxlen = 0;
// time range :
double start = pAxis_->getRange().getMin();
double stop = pAxis_->getRange().getMax();
double step = getMajorTickSpace(pAxis_, start, stop);
LOG4CXX_TRACE(_logger,
" for all ticks between " << start << " and " << stop << " spaced by " << step);
int index = -1;
int size = paramdata_.getSize();
for (double tickTime = start; tickTime <= stop; tickTime += step) {
// search index closest value to that time :
double* ptime = paramdata_.getTimes();
int i = index + 1;
while (i < size && (*(ptime + i) < tickTime)) {
i++;
}
double cur = (i >= size) ? -1 : *(ptime + i);
double prev = (i == 0) ? -1 : *(ptime + i - 1);
if (prev != -1 && prev <= (tickTime - step)) {
prev = -1;
}
if (cur != -1 && cur >= (tickTime + step)) {
cur = -1;
}
if (prev == -1) {
// only cur can be eligible
if (cur == -1) {
index = -1; // no suitable value
} else {
index = i;
}
} else if (cur == -1) {
// only prev can be eligible and it is not -1 due to previous test
index = i - 1;
} else {
// both are eligible, choose closest one :
if ((tickTime - prev) > (cur - tickTime)) {
index = i;
} else {
index = i - 1;
}
}
// time found, retrieve related value or put a nan one:
if (index == -1) {
LOG4CXX_TRACE(_logger,
"updating series data at time:"<<tickTime<<" with value:(NaN)");
seriesdata_[tickTime] = nan("NaN");
// restore last index for next loop :
index = i;
} else {
double value = *(paramdata_.getValues(serieIndex_) + index);
LOG4CXX_TRACE(_logger,
"updating series data at time:"<<tickTime<<" with value :("<<value<<")");
// compute formatted value length :
const unsigned int len = snprintf(formattedValue, 40, getValuesFormat().c_str(), value);
maxlen = std::max((const unsigned int) maxlen, len);
seriesdata_[tickTime] = value;
}
}
return std::min((const unsigned int) maxlen, (const unsigned int) 40);
}
void TickMarkDecorator::installLabelGenerator(PanelPlotOutput* /*pplot_*/, TimeAxis* timeAxis_) {
LOG4CXX_TRACE(_logger, "installing LabelGenerator function");
// axis label :
LOG4CXX_TRACE(_logger, "processing axis : "<< timeAxis_->_legend._text);
// install time format
_pTimeInfo->_timeFormat = getPlFormat();
_pTimeInfo->_timeTitle = timeAxis_->_legend._text;
_pTimeInfo->_min = timeAxis_->getRange().getMin();
unsigned int maxNameLen = _pTimeInfo->_timeTitle.size();
// init maximum value len with formatted time :
if (TimePlot::qsasconfig == NULL) {
configqsas(1. / 86400., 0., 0., 0x0, 1, 1970, 0, 1, 0, 0, 0.,
&TimePlot::qsasconfig);
}
char formattedStr [40];
double v = 200800000000000;
_maxValueLen = strfqsas(formattedStr, 40, _pTimeInfo->_timeFormat.c_str(), v, TimePlot::qsasconfig);
// get decorator parameter value
//_decoratorPlot->getDataFromServer();
// build all series names :
for (auto p : _decoratorPlot->_parameterAxesList) {
const std::string name = p._originalParamId;
LOG4CXX_DEBUG(_logger, " inspecting parameter : " << name);
// list asked series :
for (auto q : p.getYSerieIndexList(_pParameterValues)) {
boost::shared_ptr<SeriesInfo> pSerie =
boost::shared_ptr<SeriesInfo>(new SeriesInfo());
std::ostringstream osstr;
osstr << name;
// display index only if non scalar
if(q.getDim1Index() != -1){
osstr << "[" << q.getDim1Index() ;
if (q.getDim2Index() != -1)
osstr << "," << q.getDim2Index();
osstr << "]";
}
pSerie->_name = osstr.str();
if (pSerie->_name.size() > maxNameLen) {
maxNameLen = pSerie->_name.size();
}
pSerie->_min = timeAxis_->getRange().getMin();
pSerie->_valuesFormat = getValuesFormat();
// get serie at index :
SeriesData data;
_maxValueLen = std::max((const unsigned int) _maxValueLen,
fillSeriesData(data, timeAxis_,
(*_pParameterValues)[p.getYSeriePropertiesAt(q).getParamId()],
q));
pSerie->_data = data;
_seriesInfoList.push_back(pSerie);
}
}
// normalize titles :
_pTimeInfo->_maxLen = maxNameLen;
for (auto p : _seriesInfoList) {
p->_maxLen = maxNameLen;
p->_maxValueLen = _maxValueLen;
}
// no legend for this axe since it is displayed at axis origin:
timeAxis_->_legend._text = ""; //titles.str();
// install label generator for main axe (the one that is displayed)
timeAxis_->_labelGenerator->_data = _pTimeInfo.get();
timeAxis_->_labelGenerator->_function = generateOrbitTimeLabel;
}
/***************************** EXTERNAL METHODS ********************************/
void generateYLabel(PLINT axis, PLFLT value, char *label, PLINT length,
PLPointer data) {
if (axis == PL_X_AXIS) {
if (data == NULL) {
std::cout
<< "WARNING !!!! NO DATA FOUND FOR generateYLabel FUNCTION !!!"
<< std::endl << std::endl;
LOG4CXX_WARN(gLogger,
"WARNING !!!! NO DATA FOUND FOR generateYLabel FUNCTION !!");
return;
}
SeriesInfo* pInfo = static_cast<SeriesInfo*> (data);
// if value equals min, display _name string
// otherwise, format value and display it
if (value == pInfo->_min) {
// do not display min value label
// but display title :
snprintf(label, length, "%*s", pInfo->_maxLen,
pInfo->_name.c_str());
} else {
// display formatted value
std::ostringstream labels;
// loops over each series and display value at this time
auto q = pInfo->_data.find((double) value);
if (q != pInfo->_data.end()) {
// we found it !
labels << boost::format(pInfo->_valuesFormat) % q->second;
} else {
// not found just display Nan indicator
labels << "NaN" << std::endl;
}
snprintf(label, length, "%s", labels.str().c_str());
}
}
}
void generateOrbitTimeLabel(PLINT axis, PLFLT value, char *label, PLINT length,
PLPointer data) {
if (axis == PL_X_AXIS) {
if (data == NULL) {
std::cout
<< "WARNING !!!! NO DATA FOUND FOR generateOrbitTimeLabel FUNCTION !!!"
<< std::endl << std::endl;
LOG4CXX_WARN(gLogger,
"WARNING !!!! NO DATA FOUND FOR generateOrbitTimeLabel FUNCTION !!");
return;
}
TimeInfo* pInfo = static_cast<TimeInfo*> (data);
// get time format and min value
// if value equals min, display an empty string
// otherwise, format time and display formatted time
if (value == pInfo->_min) {
// do not display min value label
// but display title :
snprintf(label, length, "%*s", pInfo->_maxLen,
pInfo->_timeTitle.c_str());
} else {
// display formatted time
std::string timeFormatstr = pInfo->_timeFormat.c_str();
char *timeFormat = new char[timeFormatstr.length() + 1];
strcpy(timeFormat, timeFormatstr.c_str());
if (TimePlot::qsasconfig == NULL) {
configqsas(1. / 86400., 0., 0., 0x0, 1, 1970, 0, 1, 0, 0, 0.,
&TimePlot::qsasconfig);
}
char formattedTime[40];
strfqsas(formattedTime, 40, timeFormat, (double) value,
TimePlot::qsasconfig);
delete[] timeFormat;
snprintf(label, length, "%s", formattedTime);
}
}
}
} /* namespace plot */