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// *****************************************************************************
// * This file is part of the FreeFileSync project. It is distributed under *
// * GNU General Public License: https://www.gnu.org/licenses/gpl-3.0 *
// * Copyright (C) Zenju (zenju AT freefilesync DOT org) - All Rights Reserved *
// *****************************************************************************
#include "graph.h"
#include <cassert>
#include <algorithm>
#include <numeric>
#include <zen/basic_math.h>
#include <zen/scope_guard.h>
#include <zen/perf.h>
#include "dc.h"
using namespace zen;
//todo: support zoom via mouse wheel?
namespace zen
{
wxDEFINE_EVENT(EVENT_GRAPH_SELECTION, GraphSelectEvent);
}
double zen::nextNiceNumber(double blockSize) //round to next number which is a convenient to read block size
{
if (blockSize <= 0)
return 0;
const double k = std::floor(std::log10(blockSize));
const double e = std::pow(10, k);
if (numeric::isNull(e))
return 0;
const double a = blockSize / e; //blockSize = a * 10^k with a in [1, 10)
assert(1 <= a && a < 10);
//have a look at leading two digits: "nice" numbers start with 1, 2, 2.5 and 5
const double steps[] = { 1, 2, 2.5, 5, 10 };
return e * numeric::nearMatch(a, std::begin(steps), std::end(steps));
}
namespace
{
wxColor getDefaultColor(size_t pos)
{
switch (pos % 10)
{
//*INDENT-OFF*
case 0: return { 0, 69, 134 }; //blue
case 1: return { 255, 66, 14 }; //red
case 2: return { 255, 211, 32 }; //yellow
case 3: return { 87, 157, 28 }; //green
case 4: return { 126, 0, 33 }; //royal
case 5: return { 131, 202, 255 }; //light blue
case 6: return { 49, 64, 4 }; //dark green
case 7: return { 174, 207, 0 }; //light green
case 8: return { 75, 31, 111 }; //purple
case 9: return { 255, 149, 14 }; //orange
//*INDENT-ON*
}
assert(false);
return *wxBLACK;
}
class ConvertCoord //convert between screen and input data coordinates
{
public:
ConvertCoord(double valMin, double valMax, size_t screenSize) :
min_(valMin),
scaleToReal_(screenSize == 0 ? 0 : (valMax - valMin) / screenSize),
scaleToScr_(numeric::isNull((valMax - valMin)) ? 0 : screenSize / (valMax - valMin)),
outOfBoundsLow_ (-1 * scaleToReal_ + valMin),
outOfBoundsHigh_((screenSize + 1) * scaleToReal_ + valMin) { if (outOfBoundsLow_ > outOfBoundsHigh_) std::swap(outOfBoundsLow_, outOfBoundsHigh_); }
double screenToReal(double screenPos) const //map [0, screenSize] -> [valMin, valMax]
{
return screenPos * scaleToReal_ + min_;
}
double realToScreen(double realPos) const //return screen position in pixel (but with double precision!)
{
return (realPos - min_) * scaleToScr_;
}
int realToScreenRound(double realPos) const //returns -1 and screenSize + 1 if out of bounds!
{
//catch large double values: if double is larger than what int can represent => undefined behavior!
realPos = std::clamp(realPos, outOfBoundsLow_, outOfBoundsHigh_);
return numeric::round(realToScreen(realPos));
}
private:
const double min_;
const double scaleToReal_;
const double scaleToScr_;
double outOfBoundsLow_;
double outOfBoundsHigh_;
};
//enlarge value range to display to a multiple of a "useful" block size
//returns block cound
int widenRange(double& valMin, double& valMax, //in/out
int graphAreaSize, //in pixel
int optimalBlockSizePx, //
const LabelFormatter& labelFmt)
{
if (graphAreaSize <= 0) return 0;
const double minValRangePerBlock = (valMax - valMin) / graphAreaSize;
const double proposedValRangePerBlock = (valMax - valMin) * optimalBlockSizePx / graphAreaSize;
double valRangePerBlock = labelFmt.getOptimalBlockSize(proposedValRangePerBlock);
assert(numeric::isNull(proposedValRangePerBlock) || valRangePerBlock > minValRangePerBlock);
if (numeric::isNull(valRangePerBlock)) //valMin == valMax or strange "optimal block size"
return 1;
//don't allow sub-pixel blocks! => avoid erroneously high GDI render work load!
if (valRangePerBlock < minValRangePerBlock)
valRangePerBlock = std::ceil(minValRangePerBlock / valRangePerBlock) * valRangePerBlock;
double blockMin = std::floor(valMin / valRangePerBlock); //store as double, not int: truncation possible, e.g. if valRangePerBlock == 1
double blockMax = std::ceil (valMax / valRangePerBlock); //
int blockCount = numeric::round(blockMax - blockMin);
assert(blockCount >= 0);
//handle valMin == valMax == integer
if (blockCount <= 0)
{
++blockMax;
blockCount = 1;
}
valMin = blockMin * valRangePerBlock;
valMax = blockMax * valRangePerBlock;
return blockCount;
}
void drawXLabel(wxDC& dc, double xMin, double xMax, int blockCount, const ConvertCoord& cvrtX, const wxRect& graphArea, const wxRect& labelArea, const LabelFormatter& labelFmt)
{
assert(graphArea.width == labelArea.width && graphArea.x == labelArea.x);
if (blockCount <= 0)
return;
wxDCPenChanger dummy(dc, wxPen(wxColor(192, 192, 192), fastFromDIP(1))); //light grey => not accessible! but no big deal...
wxDCTextColourChanger textColor(dc, wxSystemSettings::GetColour(wxSYS_COLOUR_WINDOWTEXT));
const double valRangePerBlock = (xMax - xMin) / blockCount;
for (int i = 1; i < blockCount; ++i)
{
//draw grey vertical lines
const double valX = xMin + i * valRangePerBlock; //step over raw data, not graph area pixels, to not lose precision
const int x = graphArea.x + cvrtX.realToScreenRound(valX);
if (graphArea.height > 0)
dc.DrawLine(wxPoint(x, graphArea.y), wxPoint(x, graphArea.y + graphArea.height)); //wxDC::DrawLine() doesn't draw last pixel
//draw x axis labels
const wxString label = labelFmt.formatText(valX, valRangePerBlock);
const wxSize labelExtent = dc.GetMultiLineTextExtent(label);
dc.DrawText(label, wxPoint(x - labelExtent.GetWidth() / 2, labelArea.y + (labelArea.height - labelExtent.GetHeight()) / 2)); //center
}
}
void drawYLabel(wxDC& dc, double yMin, double yMax, int blockCount, const ConvertCoord& cvrtY, const wxRect& graphArea, const wxRect& labelArea, const LabelFormatter& labelFmt)
{
assert(graphArea.height == labelArea.height && graphArea.y == labelArea.y);
if (blockCount <= 0)
return;
wxDCPenChanger dummy(dc, wxPen(wxColor(192, 192, 192), fastFromDIP(1))); //light grey => not accessible! but no big deal...
wxDCTextColourChanger textColor(dc, wxSystemSettings::GetColour(wxSYS_COLOUR_WINDOWTEXT));
const double valRangePerBlock = (yMax - yMin) / blockCount;
for (int i = 1; i < blockCount; ++i)
{
//draw grey horizontal lines
const double valY = yMin + i * valRangePerBlock; //step over raw data, not graph area pixels, to not lose precision
const int y = graphArea.y + cvrtY.realToScreenRound(valY);
if (graphArea.width > 0)
dc.DrawLine(wxPoint(graphArea.x, y), wxPoint(graphArea.x + graphArea.width, y)); //wxDC::DrawLine() doesn't draw last pixel
//draw y axis labels
const wxString label = labelFmt.formatText(valY, valRangePerBlock);
const wxSize labelExtent = dc.GetMultiLineTextExtent(label);
dc.DrawText(label, wxPoint(labelArea.x + (labelArea.width - labelExtent.GetWidth()) / 2, y - labelExtent.GetHeight() / 2)); //center
}
}
void drawCornerText(wxDC& dc, const wxRect& graphArea, const wxString& txt, Graph2D::PosCorner pos, const wxColor& colorText, const wxColor& colorBack)
{
if (txt.empty()) return;
const wxSize border(fastFromDIP(5), fastFromDIP(2));
//it looks like wxDC::GetMultiLineTextExtent() precisely returns width, but too large a height: maybe they consider "text row height"?
const wxSize boxExtent = dc.GetMultiLineTextExtent(txt) + 2 * border;
wxPoint drawPos = graphArea.GetTopLeft();
switch (pos)
{
case Graph2D::CORNER_TOP_LEFT:
break;
case Graph2D::CORNER_TOP_RIGHT:
drawPos.x += graphArea.width - boxExtent.GetWidth();
break;
case Graph2D::CORNER_BOTTOM_LEFT:
drawPos.y += graphArea.height - boxExtent.GetHeight();
break;
case Graph2D::CORNER_BOTTOM_RIGHT:
drawPos.x += graphArea.width - boxExtent.GetWidth();
drawPos.y += graphArea.height - boxExtent.GetHeight();
break;
}
//add text shadow to improve readability:
wxDCTextColourChanger textColor(dc, colorBack);
dc.DrawText(txt, drawPos + border + wxSize(1, 1) /*better without fastFromDIP()?*/);
textColor.Set(colorText);
dc.DrawText(txt, drawPos + border);
}
//calculate intersection of polygon with half-plane
template <class Function, class Function2>
void cutPoints(std::vector<CurvePoint>& curvePoints, std::vector<char>& oobMarker, Function isInside, Function2 getIntersection, bool doPolygonCut)
{
assert(curvePoints.size() == oobMarker.size());
if (curvePoints.size() != oobMarker.size() || curvePoints.empty()) return;
auto isMarkedOob = [&](size_t index) { return oobMarker[index] != 0; }; //test if point is start of an OOB line
std::vector<CurvePoint> curvePointsTmp;
std::vector<char> oobMarkerTmp;
curvePointsTmp.reserve(curvePoints.size()); //allocating memory for these containers is one
oobMarkerTmp .reserve(oobMarker .size()); //of the more expensive operations of Graph2D!
auto savePoint = [&](const CurvePoint& pt, bool markedOob) { curvePointsTmp.push_back(pt); oobMarkerTmp.push_back(markedOob); };
bool pointInside = isInside(curvePoints[0]);
if (pointInside)
savePoint(curvePoints[0], isMarkedOob(0));
for (size_t index = 1; index < curvePoints.size(); ++index)
{
if (isInside(curvePoints[index]) != pointInside)
{
pointInside = !pointInside;
const CurvePoint is = getIntersection(curvePoints[index - 1], curvePoints[index]); //getIntersection returns "to" when delta is zero
savePoint(is, !pointInside || isMarkedOob(index - 1));
}
if (pointInside)
savePoint(curvePoints[index], isMarkedOob(index));
}
//make sure the output polygon area is correctly shaped if either begin or end points are cut
if (doPolygonCut) //note: impacts min/max height-calculations!
if (curvePoints.size() >= 3)
if (isInside(curvePoints.front()) != pointInside)
{
assert(!oobMarkerTmp.empty());
oobMarkerTmp.back() = true;
const CurvePoint is = getIntersection(curvePoints.back(), curvePoints.front());
savePoint(is, true);
}
curvePointsTmp.swap(curvePoints);
oobMarkerTmp .swap(oobMarker);
}
struct GetIntersectionX
{
GetIntersectionX(double x) : x_(x) {}
CurvePoint operator()(const CurvePoint& from, const CurvePoint& to) const
{
const double deltaX = to.x - from.x;
const double deltaY = to.y - from.y;
return numeric::isNull(deltaX) ? to : CurvePoint{x_, from.y + (x_ - from.x) / deltaX * deltaY};
}
private:
const double x_;
};
struct GetIntersectionY
{
GetIntersectionY(double y) : y_(y) {}
CurvePoint operator()(const CurvePoint& from, const CurvePoint& to) const
{
const double deltaX = to.x - from.x;
const double deltaY = to.y - from.y;
return numeric::isNull(deltaY) ? to : CurvePoint{from.x + (y_ - from.y) / deltaY * deltaX, y_};
}
private:
const double y_;
};
void cutPointsOutsideX(std::vector<CurvePoint>& curvePoints, std::vector<char>& oobMarker, double minX, double maxX, bool doPolygonCut)
{
cutPoints(curvePoints, oobMarker, [&](const CurvePoint& pt) { return pt.x >= minX; }, GetIntersectionX(minX), doPolygonCut);
cutPoints(curvePoints, oobMarker, [&](const CurvePoint& pt) { return pt.x <= maxX; }, GetIntersectionX(maxX), doPolygonCut);
}
void cutPointsOutsideY(std::vector<CurvePoint>& curvePoints, std::vector<char>& oobMarker, double minY, double maxY, bool doPolygonCut)
{
cutPoints(curvePoints, oobMarker, [&](const CurvePoint& pt) { return pt.y >= minY; }, GetIntersectionY(minY), doPolygonCut);
cutPoints(curvePoints, oobMarker, [&](const CurvePoint& pt) { return pt.y <= maxY; }, GetIntersectionY(maxY), doPolygonCut);
}
}
std::vector<CurvePoint> ContinuousCurveData::getPoints(double minX, double maxX, const wxSize& areaSizePx) const
{
std::vector<CurvePoint> points;
const int pixelWidth = areaSizePx.GetWidth();
if (pixelWidth <= 1) return points;
const ConvertCoord cvrtX(minX, maxX, pixelWidth - 1); //map [minX, maxX] to [0, pixelWidth - 1]
const std::pair<double, double> rangeX = getRangeX();
const double screenLow = cvrtX.realToScreen(std::max(rangeX.first, minX)); //=> xLow >= 0
const double screenHigh = cvrtX.realToScreen(std::min(rangeX.second, maxX)); //=> xHigh <= pixelWidth - 1
//if double is larger than what int can represent => undefined behavior!
//=> convert to int *after* checking value range!
if (screenLow <= screenHigh)
{
const int posFrom = std::ceil (screenLow ); //do not step outside [minX, maxX] in loop below!
const int posTo = std::floor(screenHigh); //
//conversion from std::floor/std::ceil double return value to int is loss-free for full value range of 32-bit int! tested successfully on MSVC
for (int i = posFrom; i <= posTo; ++i)
{
const double x = cvrtX.screenToReal(i);
points.emplace_back(CurvePoint{x, getValue(x)});
}
}
return points;
}
std::vector<CurvePoint> SparseCurveData::getPoints(double minX, double maxX, const wxSize& areaSizePx) const
{
std::vector<CurvePoint> points;
const int pixelWidth = areaSizePx.GetWidth();
if (pixelWidth <= 1) return points;
const ConvertCoord cvrtX(minX, maxX, pixelWidth - 1); //map [minX, maxX] to [0, pixelWidth - 1]
const std::pair<double, double> rangeX = getRangeX();
auto addPoint = [&](const CurvePoint& pt)
{
if (!points.empty())
{
if (pt.x <= points.back().x) //allow ascending x-positions only! algorithm below may cause double-insertion after empty x-ranges!
return;
if (addSteps_)
if (pt.y != points.back().y)
points.emplace_back(CurvePoint{pt.x, points.back().y}); //[!] aliasing parameter not yet supported via emplace_back: VS bug! => make copy
}
points.push_back(pt);
};
const int posFrom = cvrtX.realToScreenRound(std::max(rangeX.first, minX));
const int posTo = cvrtX.realToScreenRound(std::min(rangeX.second, maxX));
for (int i = posFrom; i <= posTo; ++i)
{
const double x = cvrtX.screenToReal(i);
std::optional<CurvePoint> ptLe = getLessEq(x);
std::optional<CurvePoint> ptGe = getGreaterEq(x);
//both non-existent and invalid return values are mapped to out of expected range: => check on posLe/posGe NOT ptLe/ptGe in the following!
const int posLe = ptLe ? cvrtX.realToScreenRound(ptLe->x) : i + 1;
const int posGe = ptGe ? cvrtX.realToScreenRound(ptGe->x) : i - 1;
assert(!ptLe || posLe <= i); //check for invalid return values
assert(!ptGe || posGe >= i); //
/* Breakdown of all combinations of posLe, posGe and expected action (n >= 1)
Note: For every empty x-range of at least one pixel, both next and previous points must be saved to keep the interpolating line stable!!!
posLe | posGe | action
+-------+-------+--------
| none | none | break
| i | none | save ptLe; break
| i - n | none | break;
+-------+-------+--------
| none | i | save ptGe; continue
| i | i | save one of ptLe, ptGe; continue
| i - n | i | save ptGe; continue
+-------+-------+--------
| none | i + n | save ptGe; jump to position posGe + 1
| i | i + n | save ptLe; if n == 1: continue; else: save ptGe; jump to position posGe + 1
| i - n | i + n | save ptLe, ptGe; jump to position posGe + 1
+-------+-------+-------- */
if (posGe < i)
{
if (posLe == i)
addPoint(*ptLe);
break;
}
else if (posGe == i) //test if point would be mapped to pixel x-position i
{
if (posLe == i) //
addPoint(x - ptLe->x < ptGe->x - x ? *ptLe : *ptGe);
else
addPoint(*ptGe);
}
else
{
if (posLe <= i)
addPoint(*ptLe);
if (posLe != i || posGe > i + 1)
{
addPoint(*ptGe);
i = posGe; //skip sparse area: +1 will be added by for-loop!
}
}
}
return points;
}
Graph2D::Graph2D(wxWindow* parent,
wxWindowID winid,
const wxPoint& pos,
const wxSize& size,
long style,
const wxString& name) : wxPanel(parent, winid, pos, size, style, name)
{
Bind(wxEVT_PAINT, [this](wxPaintEvent& event) { onPaintEvent(event); });
Bind(wxEVT_SIZE, [this](wxSizeEvent& event) { Refresh(); event.Skip(); });
Bind(wxEVT_ERASE_BACKGROUND, [](wxEraseEvent& event) {}); //https://wiki.wxwidgets.org/Flicker-Free_Drawing
//SetDoubleBuffered(true); slow as hell!
SetBackgroundStyle(wxBG_STYLE_PAINT);
Bind(wxEVT_LEFT_DOWN, [this](wxMouseEvent& event) { onMouseLeftDown(event); });
Bind(wxEVT_MOTION, [this](wxMouseEvent& event) { onMouseMovement(event); });
Bind(wxEVT_LEFT_UP, [this](wxMouseEvent& event) { onMouseLeftUp (event); });
Bind(wxEVT_MOUSE_CAPTURE_LOST, [this](wxMouseCaptureLostEvent& event) { onMouseCaptureLost(event); });
}
void Graph2D::onPaintEvent(wxPaintEvent& event)
{
//wxAutoBufferedPaintDC dc(this); -> this one happily fucks up for RTL layout by not drawing the first column (x = 0)!
BufferedPaintDC dc(*this, doubleBuffer_);
render(dc);
}
void Graph2D::onMouseLeftDown(wxMouseEvent& event)
{
activeSel_ = std::make_unique<MouseSelection>(*this, event.GetPosition());
if (!event.ControlDown())
oldSel_.clear();
Refresh();
}
void Graph2D::onMouseMovement(wxMouseEvent& event)
{
if (activeSel_.get())
{
activeSel_->refCurrentPos() = event.GetPosition(); //corresponding activeSel->refSelection() is updated in Graph2D::render()
Refresh();
}
}
void Graph2D::onMouseLeftUp(wxMouseEvent& event)
{
if (activeSel_.get())
{
if (activeSel_->getStartPos() != activeSel_->refCurrentPos()) //if it's just a single mouse click: discard selection
{
GraphSelectEvent selEvent(activeSel_->refSelection()); //fire off GraphSelectEvent
if (wxEvtHandler* handler = GetEventHandler())
handler->AddPendingEvent(selEvent);
oldSel_.push_back(activeSel_->refSelection()); //commit selection
}
activeSel_.reset();
Refresh();
}
}
void Graph2D::onMouseCaptureLost(wxMouseCaptureLostEvent& event)
{
activeSel_.reset();
Refresh();
}
void Graph2D::setCurve(const std::shared_ptr<CurveData>& data, const CurveAttributes& ca)
{
curves_.clear();
addCurve(data, ca);
}
void Graph2D::addCurve(const std::shared_ptr<CurveData>& data, const CurveAttributes& ca)
{
CurveAttributes newAttr = ca;
if (newAttr.autoColor)
newAttr.setColor(getDefaultColor(curves_.size()));
curves_.emplace_back(data, newAttr);
Refresh();
}
void Graph2D::render(wxDC& dc) const
{
//set label font right at the start so that it is considered by wxDC::GetTextExtent() below!
dc.SetFont(labelFont_);
const wxRect clientRect = GetClientRect(); //DON'T use wxDC::GetSize()! DC may be larger than visible area!
clearArea(dc, clientRect, GetBackgroundColour() /*user-configurable!*/);
//wxPanel::GetClassDefaultAttributes().colBg :
//wxSystemSettings::GetColour(wxSYS_COLOUR_BTNFACE);
const int xLabelHeight = attr_.xLabelHeight ? *attr_.xLabelHeight : GetCharHeight() + fastFromDIP(2) /*margin*/;
const int yLabelWidth = attr_.yLabelWidth ? *attr_.yLabelWidth : dc.GetTextExtent(L"1.23457e+07").x;
/* -----------------------
| | x-label |
-----------------------
|y-label | graph area |
|---------------------- */
wxRect graphArea = clientRect;
int xLabelPosY = clientRect.y;
int yLabelPosX = clientRect.x;
switch (attr_.labelposX)
{
case LABEL_X_TOP:
graphArea.y += xLabelHeight;
graphArea.height -= xLabelHeight;
break;
case LABEL_X_BOTTOM:
xLabelPosY += clientRect.height - xLabelHeight;
graphArea.height -= xLabelHeight;
break;
case LABEL_X_NONE:
break;
}
switch (attr_.labelposY)
{
case LABEL_Y_LEFT:
graphArea.x += yLabelWidth;
graphArea.width -= yLabelWidth;
break;
case LABEL_Y_RIGHT:
yLabelPosX += clientRect.width - yLabelWidth;
graphArea.width -= yLabelWidth;
break;
case LABEL_Y_NONE:
break;
}
assert(attr_.labelposX == LABEL_X_NONE || attr_.labelFmtX);
assert(attr_.labelposY == LABEL_Y_NONE || attr_.labelFmtY);
//paint graph background (excluding label area)
drawFilledRectangle(dc, graphArea, fastFromDIP(1), getBorderColor(), attr_.colorBack);
graphArea.Deflate(fastFromDIP(1));
//set label areas respecting graph area border!
const wxRect xLabelArea(graphArea.x, xLabelPosY, graphArea.width, xLabelHeight);
const wxRect yLabelArea(yLabelPosX, graphArea.y, yLabelWidth, graphArea.height);
const wxPoint graphAreaOrigin = graphArea.GetTopLeft();
//detect x value range
double minX = attr_.minX ? *attr_.minX : std::numeric_limits<double>::infinity(); //automatic: ensure values are initialized by first curve
double maxX = attr_.maxX ? *attr_.maxX : -std::numeric_limits<double>::infinity(); //
for (auto it = curves_.begin(); it != curves_.end(); ++it)
if (const CurveData* curve = it->first.get())
{
const std::pair<double, double> rangeX = curve->getRangeX();
assert(rangeX.first <= rangeX.second + 1.0e-9);
//GCC fucks up badly when comparing two *binary identical* doubles and finds "begin > end" with diff of 1e-18
if (!attr_.minX)
minX = std::min(minX, rangeX.first);
if (!attr_.maxX)
maxX = std::max(maxX, rangeX.second);
}
if (minX <= maxX && maxX - minX < std::numeric_limits<double>::infinity()) //valid x-range
{
const wxSize minimalBlockSizePx = dc.GetTextExtent(L"00");
int blockCountX = 0;
//enlarge minX, maxX to a multiple of a "useful" block size
if (attr_.labelposX != LABEL_X_NONE && attr_.labelFmtX.get())
blockCountX = widenRange(minX, maxX, //in/out
graphArea.width,
minimalBlockSizePx.GetWidth() * 7,
*attr_.labelFmtX);
//get raw values + detect y value range
double minY = attr_.minY ? *attr_.minY : std::numeric_limits<double>::infinity(); //automatic: ensure values are initialized by first curve
double maxY = attr_.maxY ? *attr_.maxY : -std::numeric_limits<double>::infinity(); //
std::vector<std::vector<CurvePoint>> curvePoints(curves_.size());
std::vector<std::vector<char>> oobMarker (curves_.size()); //effectively a std::vector<bool> marking points that start an out-of-bounds line
for (size_t index = 0; index < curves_.size(); ++index)
if (const CurveData* curve = curves_[index].first.get())
{
std::vector<CurvePoint>& points = curvePoints[index];
auto& marker = oobMarker [index];
points = curve->getPoints(minX, maxX, graphArea.GetSize());
marker.resize(points.size()); //default value: false
if (!points.empty())
{
//cut points outside visible x-range now in order to calculate height of visible line fragments only!
const bool doPolygonCut = curves_[index].second.fillMode == CurveAttributes::FILL_POLYGON; //impacts auto minY/maxY!!
cutPointsOutsideX(points, marker, minX, maxX, doPolygonCut);
if (!attr_.minY || !attr_.maxY)
{
auto itPair = std::minmax_element(points.begin(), points.end(), [](const CurvePoint& lhs, const CurvePoint& rhs) { return lhs.y < rhs.y; });
if (!attr_.minY)
minY = std::min(minY, itPair.first->y);
if (!attr_.maxY)
maxY = std::max(maxY, itPair.second->y);
}
}
}
if (minY <= maxY) //valid y-range
{
int blockCountY = 0;
//enlarge minY, maxY to a multiple of a "useful" block size
if (attr_.labelposY != LABEL_Y_NONE && attr_.labelFmtY.get())
blockCountY = widenRange(minY, maxY, //in/out
graphArea.height,
minimalBlockSizePx.GetHeight() * 3,
*attr_.labelFmtY);
if (graphArea.width <= 1 || graphArea.height <= 1)
return;
const ConvertCoord cvrtX(minX, maxX, graphArea.width - 1); //map [minX, maxX] to [0, pixelWidth - 1]
const ConvertCoord cvrtY(maxY, minY, graphArea.height - 1); //map [minY, maxY] to [pixelHeight - 1, 0]
//calculate curve coordinates on graph area
std::vector<std::vector<wxPoint>> drawPoints(curves_.size());
for (size_t index = 0; index < curves_.size(); ++index)
{
auto& cp = curvePoints[index];
//add two artificial points to fill the curve area towards x-axis => do this before cutPointsOutsideY() to handle curve leaving upper bound
if (curves_[index].second.fillMode == CurveAttributes::FILL_CURVE)
if (!cp.empty())
{
cp.emplace_back(CurvePoint{cp.back ().x, minY}); //add lower right and left corners
cp.emplace_back(CurvePoint{cp.front().x, minY}); //[!] aliasing parameter not yet supported via emplace_back: VS bug! => make copy
oobMarker[index].back() = true;
oobMarker[index].push_back(true);
oobMarker[index].push_back(true);
}
//cut points outside visible y-range before calculating pixels:
//1. realToScreenRound() deforms out-of-range values!
//2. pixels that are grossly out of range can be a severe performance problem when drawing on the DC (Windows)
const bool doPolygonCut = curves_[index].second.fillMode != CurveAttributes::FILL_NONE;
cutPointsOutsideY(cp, oobMarker[index], minY, maxY, doPolygonCut);
auto& dp = drawPoints[index];
for (const CurvePoint& pt : cp)
dp.push_back(wxPoint(cvrtX.realToScreenRound(pt.x),
cvrtY.realToScreenRound(pt.y)) + graphAreaOrigin);
}
//update active mouse selection
if (activeSel_)
{
auto widen = [](double* low, double* high)
{
if (*low > *high)
std::swap(low, high);
*low -= 0.5;
*high += 0.5;
};
const wxPoint screenStart = activeSel_->getStartPos() - graphAreaOrigin; //make relative to graphArea
const wxPoint screenCurrent = activeSel_->refCurrentPos() - graphAreaOrigin;
//normalize positions: a mouse selection is symmetric and *not* an half-open range!
double screenFromX = std::clamp(screenStart .x, 0, graphArea.width - 1);
double screenFromY = std::clamp(screenStart .y, 0, graphArea.height - 1);
double screenToX = std::clamp(screenCurrent.x, 0, graphArea.width - 1);
double screenToY = std::clamp(screenCurrent.y, 0, graphArea.height - 1);
widen(&screenFromX, &screenToX); //use full pixel range for selection!
widen(&screenFromY, &screenToY);
//save current selection as "double" coordinates
activeSel_->refSelection().from = CurvePoint{cvrtX.screenToReal(screenFromX),
cvrtY.screenToReal(screenFromY)};
activeSel_->refSelection().to = CurvePoint{cvrtX.screenToReal(screenToX),
cvrtY.screenToReal(screenToY)};
}
//#################### begin drawing ####################
//1. draw colored area under curves
for (auto it = curves_.begin(); it != curves_.end(); ++it)
if (it->second.fillMode != CurveAttributes::FILL_NONE)
if (const std::vector<wxPoint>& points = drawPoints[it - curves_.begin()];
points.size() >= 3)
{
//wxDC::DrawPolygon() draws *transparent* border if wxTRANSPARENT_PEN is used!
//unlike wxDC::DrawRectangle() which just widens inner area!
wxDCPenChanger dummy (dc, wxPen(it->second.fillColor, 1 /*[!] width*/));
wxDCBrushChanger dummy2(dc, it->second.fillColor);
dc.DrawPolygon(static_cast<int>(points.size()), &points[0]);
}
//2. draw all currently set mouse selections (including active selection)
std::vector<SelectionBlock> allSelections = oldSel_;
if (activeSel_)
allSelections.push_back(activeSel_->refSelection());
{
//alpha channel not supported on wxMSW, so draw selection before curves
wxDCBrushChanger dummy(dc, wxColor(168, 202, 236)); //light blue
wxDCPenChanger dummy2(dc, wxPen(wxColor(51, 153, 255), fastFromDIP(1))); //dark blue
auto shrink = [](double* low, double* high)
{
if (*low > *high)
std::swap(low, high);
*low += 0.5;
*high -= 0.5;
if (*low > *high)
*low = *high = (*low + *high) / 2;
};
for (const SelectionBlock& sel : allSelections)
{
//harmonize with active mouse selection above
double screenFromX = cvrtX.realToScreen(sel.from.x);
double screenFromY = cvrtY.realToScreen(sel.from.y);
double screenToX = cvrtX.realToScreen(sel.to.x);
double screenToY = cvrtY.realToScreen(sel.to.y);
shrink(&screenFromX, &screenToX);
shrink(&screenFromY, &screenToY);
screenFromX = std::clamp(screenFromX, 0.0, graphArea.width - 1.0);
screenFromY = std::clamp(screenFromY, 0.0, graphArea.height - 1.0);
screenToX = std::clamp(screenToX, 0.0, graphArea.width - 1.0);
screenToY = std::clamp(screenToY, 0.0, graphArea.height - 1.0);
const wxPoint pixelFrom = wxPoint(numeric::round(screenFromX),
numeric::round(screenFromY)) + graphAreaOrigin;
const wxPoint pixelTo = wxPoint(numeric::round(screenToX),
numeric::round(screenToY)) + graphAreaOrigin;
switch (attr_.mouseSelMode)
{
case SELECT_NONE:
break;
case SELECT_RECTANGLE:
dc.DrawRectangle(wxRect(pixelFrom, pixelTo));
break;
case SELECT_X_AXIS:
dc.DrawRectangle(wxRect(wxPoint(pixelFrom.x, graphArea.y), wxPoint(pixelTo.x, graphArea.y + graphArea.height - 1)));
break;
case SELECT_Y_AXIS:
dc.DrawRectangle(wxRect(wxPoint(graphArea.x, pixelFrom.y), wxPoint(graphArea.x + graphArea.width - 1, pixelTo.y)));
break;
}
}
}
//3. draw labels and background grid
if (attr_.labelFmtX) drawXLabel(dc, minX, maxX, blockCountX, cvrtX, graphArea, xLabelArea, *attr_.labelFmtX);
if (attr_.labelFmtY) drawYLabel(dc, minY, maxY, blockCountY, cvrtY, graphArea, yLabelArea, *attr_.labelFmtY);
//4. finally draw curves
{
dc.SetClippingRegion(graphArea); //prevent thick curves from drawing slightly outside
ZEN_ON_SCOPE_EXIT(dc.DestroyClippingRegion());
for (auto it = curves_.begin(); it != curves_.end(); ++it)
{
wxDCPenChanger dummy(dc, wxPen(it->second.color, it->second.lineWidth));
const size_t index = it - curves_.begin();
const std::vector<wxPoint>& points = drawPoints[index];
const auto& marker = oobMarker [index];
assert(points.size() == marker.size());
//draw all parts of the curve except for the out-of-bounds fragments
size_t drawIndexFirst = 0;
while (drawIndexFirst < points.size())
{
size_t drawIndexLast = std::find(marker.begin() + drawIndexFirst, marker.end(), static_cast<char>(true)) - marker.begin();
if (drawIndexLast < points.size()) ++drawIndexLast;
const int pointCount = static_cast<int>(drawIndexLast - drawIndexFirst);
if (pointCount > 0)
{
if (pointCount >= 2) //on OS X wxWidgets has a nasty assert on this
dc.DrawLines(pointCount, &points[drawIndexFirst]);
dc.DrawPoint(points[drawIndexLast - 1]); //wxDC::DrawLines() doesn't draw last pixel
}
drawIndexFirst = std::find(marker.begin() + drawIndexLast, marker.end(), static_cast<char>(false)) - marker.begin();
}
}
}
//5. draw corner texts
for (const auto& [cornerPos, text] : attr_.cornerTexts)
drawCornerText(dc, graphArea, text, cornerPos, attr_.colorText, attr_.colorBack);
}
}
}
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