///////////////////////////////////////////////////////////////////////////// // Name: mathplot.cpp // Purpose: Framework for plotting in wxWindows // Original Author: David Schalig // Maintainer: Davide Rondini // Contributors: Jose Luis Blanco, Val Greene // Created: 21/07/2003 // Last edit: 09/09/2007 // Copyright: (c) David Schalig, Davide Rondini // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// #ifdef __GNUG__ // #pragma implementation "plot.h" #pragma implementation "mathplot.h" #endif // For compilers that support precompilation, includes "wx.h". #include //#include // Comment out for release operation: // (Added by J.L.Blanco, Aug 2007) // #define MATHPLOT_DO_LOGGING #ifdef __BORLANDC__ #pragma hdrstop #endif #ifndef WX_PRECOMP #include "wx/object.h" #include "wx/font.h" #include "wx/colour.h" #include "wx/settings.h" #include "wx/sizer.h" #include "wx/log.h" #include "wx/intl.h" #include "wx/dcclient.h" #include "wx/cursor.h" #endif #include #include #include #include #include #include #include #include // used only for debug #include // used for representation of x axes involving date // #include "pixel.xpm" // Memory leak debugging #ifdef _DEBUG #define new DEBUG_NEW #endif // Legend margins #define mpLEGEND_MARGIN 5 #define mpLEGEND_LINEWIDTH 10 // Minimum axis label separation #define mpMIN_X_AXIS_LABEL_SEPARATION 64 #define mpMIN_Y_AXIS_LABEL_SEPARATION 32 // Number of pixels to scroll when scrolling by a line #define mpSCROLL_NUM_PIXELS_PER_LINE 10 // See doxygen comments. double mpWindow::zoomIncrementalFactor = 1.5; //----------------------------------------------------------------------------- // mpLayer //----------------------------------------------------------------------------- IMPLEMENT_ABSTRACT_CLASS(mpLayer, wxObject) mpLayer::mpLayer() : m_type(mpLAYER_UNDEF) { SetPen((wxPen&) *wxBLACK_PEN); SetFont((wxFont&) *wxNORMAL_FONT); m_continuous = FALSE; // Default m_showName = TRUE; // Default m_drawOutsideMargins = TRUE; m_visible = true; } wxBitmap mpLayer::GetColourSquare(int side) { wxBitmap square(side, side, -1); wxColour filler = m_pen.GetColour(); wxBrush brush(filler, wxSOLID); wxMemoryDC dc; dc.SelectObject(square); dc.SetBackground(brush); dc.Clear(); dc.SelectObject(wxNullBitmap); return square; } //----------------------------------------------------------------------------- // mpInfoLayer //----------------------------------------------------------------------------- IMPLEMENT_DYNAMIC_CLASS(mpInfoLayer, mpLayer) mpInfoLayer::mpInfoLayer() { m_dim = wxRect(0,0,1,1); m_brush = *wxTRANSPARENT_BRUSH; m_reference.x = 0; m_reference.y = 0; m_winX = 1; //parent->GetScrX(); m_winY = 1; //parent->GetScrY(); m_type = mpLAYER_INFO; } mpInfoLayer::mpInfoLayer(wxRect rect, const wxBrush* brush) : m_dim(rect) { m_brush = *brush; m_reference.x = rect.x; m_reference.y = rect.y; m_winX = 1; //parent->GetScrX(); m_winY = 1; //parent->GetScrY(); m_type = mpLAYER_INFO; } mpInfoLayer::~mpInfoLayer() { } void mpInfoLayer::UpdateInfo(mpWindow& w, wxEvent& event) { } bool mpInfoLayer::Inside(wxPoint& point) { return m_dim.Contains(point); } void mpInfoLayer::Move(wxPoint delta) { m_dim.SetX(m_reference.x + delta.x); m_dim.SetY(m_reference.y + delta.y); } void mpInfoLayer::UpdateReference() { m_reference.x = m_dim.x; m_reference.y = m_dim.y; } void mpInfoLayer::Plot(wxDC & dc, mpWindow & w) { if (m_visible) { // Adjust relative position inside the window int scrx = w.GetScrX(); int scry = w.GetScrY(); // Avoid dividing by 0 if(scrx == 0) scrx=1; if(scry == 0) scry=1; if ((m_winX != scrx) || (m_winY != scry)) { #ifdef MATHPLOT_DO_LOGGING // wxLogMessage(_("mpInfoLayer::Plot() screen size has changed from %d x %d to %d x %d"), m_winX, m_winY, scrx, scry); #endif if (m_winX > 1) m_dim.x = (int) floor((double)(m_dim.x*scrx/m_winX)); if (m_winY > 1) { m_dim.y = (int) floor((double)(m_dim.y*scry/m_winY)); UpdateReference(); } // Finally update window size m_winX = scrx; m_winY = scry; } dc.SetPen(m_pen); // wxImage image0(wxT("pixel.png"), wxBITMAP_TYPE_PNG); // wxBitmap image1(image0); // wxBrush semiWhite(image1); dc.SetBrush(m_brush); dc.DrawRectangle(m_dim.x, m_dim.y, m_dim.width, m_dim.height); } } wxPoint mpInfoLayer::GetPosition() { return m_dim.GetPosition(); } wxSize mpInfoLayer::GetSize() { return m_dim.GetSize(); } mpInfoCoords::mpInfoCoords() : mpInfoLayer() { } mpInfoCoords::mpInfoCoords(wxRect rect, const wxBrush* brush) : mpInfoLayer(rect, brush) { } mpInfoCoords::~mpInfoCoords() { } void mpInfoCoords::UpdateInfo(mpWindow& w, wxEvent& event) { if (event.GetEventType() == wxEVT_MOTION) { int mouseX = ((wxMouseEvent&)event).GetX(); int mouseY = ((wxMouseEvent&)event).GetY(); /* It seems that Windows port of wxWidgets don't support multi-line test to be drawn in a wxDC. wxGTK instead works perfectly with it. Info on wxForum: http://wxforum.shadonet.com/viewtopic.php?t=3451&highlight=drawtext+eol */ #ifdef _WINDOWS m_content.Printf(wxT("x = %f y = %f"), w.p2x(mouseX), w.p2y(mouseY)); #else m_content.Printf(wxT("x = %f\ny = %f"), w.p2x(mouseX), w.p2y(mouseY)); #endif } } void mpInfoCoords::Plot(wxDC & dc, mpWindow & w) { if (m_visible) { // Adjust relative position inside the window int scrx = w.GetScrX(); int scry = w.GetScrY(); if ((m_winX != scrx) || (m_winY != scry)) { #ifdef MATHPLOT_DO_LOGGING // wxLogMessage(_("mpInfoLayer::Plot() screen size has changed from %d x %d to %d x %d"), m_winX, m_winY, scrx, scry); #endif if (m_winX > 1) m_dim.x = (int) floor((double)(m_dim.x*scrx/m_winX)); if (m_winY > 1) { m_dim.y = (int) floor((double)(m_dim.y*scry/m_winY)); UpdateReference(); } // Finally update window size m_winX = scrx; m_winY = scry; } dc.SetPen(m_pen); // wxImage image0(wxT("pixel.png"), wxBITMAP_TYPE_PNG); // wxBitmap image1(image0); // wxBrush semiWhite(image1); dc.SetBrush(m_brush); dc.SetFont(m_font); int textX, textY; dc.GetTextExtent(m_content, &textX, &textY); if (m_dim.width < textX + 10) m_dim.width = textX + 10; if (m_dim.height < textY + 10) m_dim.height = textY + 10; dc.DrawRectangle(m_dim.x, m_dim.y, m_dim.width, m_dim.height); dc.DrawText(m_content, m_dim.x + 5, m_dim.y + 5); } } mpInfoLegend::mpInfoLegend() : mpInfoLayer() { } mpInfoLegend::mpInfoLegend(wxRect rect, const wxBrush* brush) : mpInfoLayer(rect, brush) { } mpInfoLegend::~mpInfoLegend() { } void mpInfoLegend::UpdateInfo(mpWindow& w, wxEvent& event) { } void mpInfoLegend::Plot(wxDC & dc, mpWindow & w) { if (m_visible) { // Adjust relative position inside the window int scrx = w.GetScrX(); int scry = w.GetScrY(); if ((m_winX != scrx) || (m_winY != scry)) { #ifdef MATHPLOT_DO_LOGGING // wxLogMessage(_("mpInfoLayer::Plot() screen size has changed from %d x %d to %d x %d"), m_winX, m_winY, scrx, scry); #endif if (m_winX > 1) m_dim.x = (int) floor((double)(m_dim.x*scrx/m_winX)); if (m_winY > 1) { m_dim.y = (int) floor((double)(m_dim.y*scry/m_winY)); UpdateReference(); } // Finally update window size m_winX = scrx; m_winY = scry; } // wxImage image0(wxT("pixel.png"), wxBITMAP_TYPE_PNG); // wxBitmap image1(image0); // wxBrush semiWhite(image1); dc.SetBrush(m_brush); dc.SetFont(m_font); const int baseWidth = (mpLEGEND_MARGIN*2 + mpLEGEND_LINEWIDTH); int textX = baseWidth, textY = mpLEGEND_MARGIN; int plotCount = 0; int posY = 0; int tmpX = 0, tmpY = 0; mpLayer* ly = NULL; wxPen lpen; wxString label; for (unsigned int p = 0; p < w.CountAllLayers(); p++) { ly = w.GetLayer(p); if ((ly->GetLayerType() == mpLAYER_PLOT) && (ly->IsVisible())) { label = ly->GetName(); dc.GetTextExtent(label, &tmpX, &tmpY); textX = (textX > (tmpX + baseWidth)) ? textX : (tmpX + baseWidth + mpLEGEND_MARGIN); textY += (tmpY); #ifdef MATHPLOT_DO_LOGGING // wxLogMessage(_("mpInfoLegend::Plot() Adding layer %d: %s"), p, label.c_str()); #endif } } dc.SetPen(m_pen); dc.SetBrush(m_brush); m_dim.width = textX; if (textY != mpLEGEND_MARGIN) { // Don't draw any thing if there are no visible layers textY += mpLEGEND_MARGIN; m_dim.height = textY; dc.DrawRectangle(m_dim.x, m_dim.y, m_dim.width, m_dim.height); for (unsigned int p2 = 0; p2 < w.CountAllLayers(); p2++) { ly = w.GetLayer(p2); if ((ly->GetLayerType() == mpLAYER_PLOT) && (ly->IsVisible())) { label = ly->GetName(); lpen = ly->GetPen(); dc.GetTextExtent(label, &tmpX, &tmpY); dc.SetPen(lpen); //textX = (textX > (tmpX + baseWidth)) ? textX : (tmpX + baseWidth); //textY += (tmpY + mpLEGEND_MARGIN); posY = m_dim.y + mpLEGEND_MARGIN + plotCount*tmpY + (tmpY>>1); dc.DrawLine(m_dim.x + mpLEGEND_MARGIN, // X start coord posY, // Y start coord m_dim.x + mpLEGEND_LINEWIDTH + mpLEGEND_MARGIN, // X end coord posY); //dc.DrawRectangle(m_dim.x + 5, m_dim.y + 5 + plotCount*tmpY, 5, 5); dc.DrawText(label, m_dim.x + baseWidth, m_dim.y + mpLEGEND_MARGIN + plotCount*tmpY); plotCount++; } } } } } //----------------------------------------------------------------------------- // mpLayer implementations - functions //----------------------------------------------------------------------------- IMPLEMENT_ABSTRACT_CLASS(mpFX, mpLayer) mpFX::mpFX(wxString name, int flags) { SetName(name); m_flags = flags; m_type = mpLAYER_PLOT; } void mpFX::Plot(wxDC & dc, mpWindow & w) { if (m_visible) { dc.SetPen( m_pen); wxCoord startPx = m_drawOutsideMargins ? 0 : w.GetMarginLeft(); wxCoord endPx = m_drawOutsideMargins ? w.GetScrX() : w.GetScrX() - w.GetMarginRight(); wxCoord minYpx = m_drawOutsideMargins ? 0 : w.GetMarginTop(); wxCoord maxYpx = m_drawOutsideMargins ? w.GetScrY() : w.GetScrY() - w.GetMarginBottom(); wxCoord iy = 0; if (m_pen.GetWidth() <= 1) { for (wxCoord i = startPx; i < endPx; ++i) { iy = w.y2p( GetY(w.p2x(i))); // Draw the point only if you can draw outside margins or if the point is inside margins if (m_drawOutsideMargins || ((iy >= minYpx) && (iy <= maxYpx))) dc.DrawPoint(i, iy );// (wxCoord) ((w.GetPosY() - GetY( (double)i / w.GetScaleX() + w.GetPosX()) ) * w.GetScaleY())); } } else { for (wxCoord i = startPx; i < endPx; ++i) { iy = w.y2p( GetY(w.p2x(i))); // Draw the point only if you can draw outside margins or if the point is inside margins if (m_drawOutsideMargins || ((iy >= minYpx) && (iy <= maxYpx))) dc.DrawLine( i, iy, i, iy); // wxCoord c = w.y2p( GetY(w.p2x(i)) ); //(wxCoord) ((w.GetPosY() - GetY( (double)i / w.GetScaleX() + w.GetPosX()) ) * w.GetScaleY()); } } if (!m_name.IsEmpty() && m_showName) { dc.SetFont(m_font); wxCoord tx, ty; dc.GetTextExtent(m_name, &tx, &ty); /*if ((m_flags & mpALIGNMASK) == mpALIGN_RIGHT) tx = (w.GetScrX()>>1) - tx - 8; else if ((m_flags & mpALIGNMASK) == mpALIGN_CENTER) tx = -tx/2; else tx = -(w.GetScrX()>>1) + 8; */ if ((m_flags & mpALIGNMASK) == mpALIGN_RIGHT) tx = (w.GetScrX() - tx) - w.GetMarginRight() - 8; else if ((m_flags & mpALIGNMASK) == mpALIGN_CENTER) tx = ((w.GetScrX() - w.GetMarginRight() - w.GetMarginLeft() - tx) / 2) + w.GetMarginLeft(); else tx = w.GetMarginLeft() + 8; dc.DrawText( m_name, tx, w.y2p(GetY(w.p2x(tx))) ); // (wxCoord) ((w.GetPosY() - GetY( (double)tx / w.GetScaleX() + w.GetPosX())) * w.GetScaleY()) ); } } } IMPLEMENT_ABSTRACT_CLASS(mpFY, mpLayer) mpFY::mpFY(wxString name, int flags) { SetName(name); m_flags = flags; m_type = mpLAYER_PLOT; } void mpFY::Plot(wxDC & dc, mpWindow & w) { if (m_visible) { dc.SetPen( m_pen); wxCoord i, ix; wxCoord startPx = m_drawOutsideMargins ? 0 : w.GetMarginLeft(); wxCoord endPx = m_drawOutsideMargins ? w.GetScrX() : w.GetScrX() - w.GetMarginRight(); wxCoord minYpx = m_drawOutsideMargins ? 0 : w.GetMarginTop(); wxCoord maxYpx = m_drawOutsideMargins ? w.GetScrY() : w.GetScrY() - w.GetMarginBottom(); if (m_pen.GetWidth() <= 1) { for (i = minYpx; i < maxYpx; ++i) { ix = w.x2p(GetX(w.p2y(i))); if (m_drawOutsideMargins || ((ix >= startPx) && (ix <= endPx))) dc.DrawPoint(ix, i); } } else { for (i=0;i< w.GetScrY(); ++i) { ix = w.x2p(GetX(w.p2y(i))); if (m_drawOutsideMargins || ((ix >= startPx) && (ix <= endPx))) dc.DrawLine(ix, i, ix, i); // wxCoord c = w.x2p(GetX(w.p2y(i))); //(wxCoord) ((GetX( (double)i / w.GetScaleY() + w.GetPosY()) - w.GetPosX()) * w.GetScaleX()); // dc.DrawLine(c, i, c, i); } } if (!m_name.IsEmpty() && m_showName) { dc.SetFont(m_font); wxCoord tx, ty; dc.GetTextExtent(m_name, &tx, &ty); if ((m_flags & mpALIGNMASK) == mpALIGN_TOP) ty = w.GetMarginTop() + 8; else if ((m_flags & mpALIGNMASK) == mpALIGN_CENTER) ty = ((w.GetScrY() - w.GetMarginTop() - w.GetMarginBottom() - ty) / 2) + w.GetMarginTop(); else ty = w.GetScrY() - 8 - ty - w.GetMarginBottom(); dc.DrawText( m_name, w.x2p(GetX(w.p2y(ty))), ty ); // (wxCoord) ((GetX( (double)i / w.GetScaleY() + w.GetPosY()) - w.GetPosX()) * w.GetScaleX()), -ty); } } } IMPLEMENT_ABSTRACT_CLASS(mpFXY, mpLayer) mpFXY::mpFXY(wxString name, int flags) { SetName(name); m_flags = flags; m_type = mpLAYER_PLOT; } void mpFXY::UpdateViewBoundary(wxCoord xnew, wxCoord ynew) { // Keep track of how many points have been drawn and the bouding box maxDrawX = (xnew > maxDrawX) ? xnew : maxDrawX; minDrawX = (xnew < minDrawX) ? xnew : minDrawX; maxDrawY = (maxDrawY > ynew) ? maxDrawY : ynew; minDrawY = (minDrawY < ynew) ? minDrawY : ynew; //drawnPoints++; } void mpFXY::Plot(wxDC & dc, mpWindow & w) { if (m_visible) { dc.SetPen( m_pen); double x, y; // Do this to reset the counters to evaluate bounding box for label positioning Rewind(); GetNextXY(x, y); maxDrawX = x; minDrawX = x; maxDrawY = y; minDrawY = y; //drawnPoints = 0; Rewind(); wxCoord startPx = m_drawOutsideMargins ? 0 : w.GetMarginLeft(); wxCoord endPx = m_drawOutsideMargins ? w.GetScrX() : w.GetScrX() - w.GetMarginRight(); wxCoord minYpx = m_drawOutsideMargins ? 0 : w.GetMarginTop(); wxCoord maxYpx = m_drawOutsideMargins ? w.GetScrY() : w.GetScrY() - w.GetMarginBottom(); wxCoord ix = 0, iy = 0; if (!m_continuous) { // for some reason DrawPoint does not use the current pen, // so we use DrawLine for fat pens if (m_pen.GetWidth() <= 1) { while (GetNextXY(x, y)) { ix = w.x2p(x); iy = w.y2p(y); if (m_drawOutsideMargins || ((ix >= startPx) && (ix <= endPx) && (iy >= minYpx) && (iy <= maxYpx))) { dc.DrawPoint(ix, iy); UpdateViewBoundary(ix, iy); }; } } else { while (GetNextXY(x, y)) { ix = w.x2p(x); iy = w.y2p(y); if (m_drawOutsideMargins || ((ix >= startPx) && (ix <= endPx) && (iy >= minYpx) && (iy <= maxYpx))) { dc.DrawLine(ix, iy, ix, iy); UpdateViewBoundary(ix, iy); } // dc.DrawLine(cx, cy, cx, cy); } } } else { // Old code wxCoord x0=0,c0=0; bool first = TRUE; while (GetNextXY(x, y)) { wxCoord x1 = w.x2p(x); // (wxCoord) ((x - w.GetPosX()) * w.GetScaleX()); wxCoord c1 = w.y2p(y); // (wxCoord) ((w.GetPosY() - y) * w.GetScaleY()); if (first) { first=FALSE; x0=x1;c0=c1; } bool outUp, outDown; if((x1 >= startPx)&&(x0 <= endPx)) { outDown = (c0 > maxYpx) && (c1 > maxYpx); outUp = (c0 < minYpx) && (c1 < minYpx); if ( !outUp && !outDown ) { dc.DrawLine(x0, c0, x1, c1); UpdateViewBoundary(x1, c1); } } x0=x1; c0=c1; } } if (!m_name.IsEmpty() && m_showName) { dc.SetFont(m_font); wxCoord tx, ty; dc.GetTextExtent(m_name, &tx, &ty); // xxx implement else ... if (!HasBBox()) { // const int sx = w.GetScrX(); // const int sy = w.GetScrY(); if ((m_flags & mpALIGNMASK) == mpALIGN_NW) { tx = minDrawX + 8; ty = maxDrawY + 8; } else if ((m_flags & mpALIGNMASK) == mpALIGN_NE) { tx = maxDrawX - tx - 8; ty = maxDrawY + 8; } else if ((m_flags & mpALIGNMASK) == mpALIGN_SE) { tx = maxDrawX - tx - 8; ty = minDrawY - ty - 8; } else { // mpALIGN_SW tx = minDrawX + 8; ty = minDrawY - ty - 8; } } dc.DrawText( m_name, tx, ty); } } } //----------------------------------------------------------------------------- // mpProfile implementation //----------------------------------------------------------------------------- IMPLEMENT_ABSTRACT_CLASS(mpProfile, mpLayer) mpProfile::mpProfile(wxString name, int flags) { SetName(name); m_flags = flags; m_type = mpLAYER_PLOT; } void mpProfile::Plot(wxDC & dc, mpWindow & w) { if (m_visible) { dc.SetPen( m_pen); wxCoord startPx = m_drawOutsideMargins ? 0 : w.GetMarginLeft(); wxCoord endPx = m_drawOutsideMargins ? w.GetScrX() : w.GetScrX() - w.GetMarginRight(); wxCoord minYpx = m_drawOutsideMargins ? 0 : w.GetMarginTop(); wxCoord maxYpx = m_drawOutsideMargins ? w.GetScrY() : w.GetScrY() - w.GetMarginBottom(); // Plot profile linking subsequent point of the profile, instead of mpFY, which plots simple points. for (wxCoord i = startPx; i < endPx; ++i) { wxCoord c0 = w.y2p( GetY(w.p2x(i)) ); // (wxCoord) ((w.GetYpos() - GetY( (double)i / w.GetXscl() + w.GetXpos()) ) * w.GetYscl()); wxCoord c1 = w.y2p( GetY(w.p2x(i+1)) );//(wxCoord) ((w.GetYpos() - GetY( (double)(i+1) / w.GetXscl() + (w.GetXpos() ) ) ) * w.GetYscl()); // c0 = (c0 <= maxYpx) ? ((c0 >= minYpx) ? c0 : minYpx) : maxYpx; // c1 = (c1 <= maxYpx) ? ((c1 >= minYpx) ? c1 : minYpx) : maxYpx; if (!m_drawOutsideMargins) { c0 = (c0 <= maxYpx) ? ((c0 >= minYpx) ? c0 : minYpx) : maxYpx; c1 = (c1 <= maxYpx) ? ((c1 >= minYpx) ? c1 : minYpx) : maxYpx; } dc.DrawLine(i, c0, i+1, c1); }; if (!m_name.IsEmpty()) { dc.SetFont(m_font); wxCoord tx, ty; dc.GetTextExtent(m_name, &tx, &ty); if ((m_flags & mpALIGNMASK) == mpALIGN_RIGHT) tx = (w.GetScrX() - tx) - w.GetMarginRight() - 8; else if ((m_flags & mpALIGNMASK) == mpALIGN_CENTER) tx = ((w.GetScrX() - w.GetMarginRight() - w.GetMarginLeft() - tx) / 2) + w.GetMarginLeft(); else tx = w.GetMarginLeft() + 8; dc.DrawText( m_name, tx, w.y2p( GetY( w.p2x(tx) ) ) );//(wxCoord) ((w.GetPosY() - GetY( (double)tx / w.GetScaleX() + w.GetPosX())) * w.GetScaleY()) ); } } } //----------------------------------------------------------------------------- // mpLayer implementations - furniture (scales, ...) //----------------------------------------------------------------------------- #define mpLN10 2.3025850929940456840179914546844 IMPLEMENT_DYNAMIC_CLASS(mpScaleX, mpLayer) mpScaleX::mpScaleX(wxString name, int flags, bool ticks, unsigned int type) { SetName(name); SetFont( (wxFont&) *wxSMALL_FONT); SetPen( (wxPen&) *wxGREY_PEN); m_flags = flags; m_ticks = ticks; m_labelType = type; m_type = mpLAYER_AXIS; m_labelFormat = wxT(""); } void mpScaleX::Plot(wxDC & dc, mpWindow & w) { if (m_visible) { dc.SetPen( m_pen); dc.SetFont( m_font); int orgy=0; const int extend = w.GetScrX(); // /2; if (m_flags == mpALIGN_CENTER) orgy = w.y2p(0); //(int)(w.GetPosY() * w.GetScaleY()); if (m_flags == mpALIGN_TOP) { if (m_drawOutsideMargins) orgy = X_BORDER_SEPARATION; else orgy = w.GetMarginTop(); } if (m_flags == mpALIGN_BOTTOM) { if (m_drawOutsideMargins) orgy = X_BORDER_SEPARATION; else orgy = w.GetScrY() - w.GetMarginBottom(); } if (m_flags == mpALIGN_BORDER_BOTTOM ) orgy = w.GetScrY() - 1;//dc.LogicalToDeviceY(0) - 1; if (m_flags == mpALIGN_BORDER_TOP ) orgy = 1;//-dc.LogicalToDeviceY(0); dc.DrawLine( 0, orgy, w.GetScrX(), orgy); // To cut the axis line when draw outside margin is false, use this code /*if (m_drawOutsideMargins == true) dc.DrawLine( 0, orgy, w.GetScrX(), orgy); else dc.DrawLine( w.GetMarginLeft(), orgy, w.GetScrX() - w.GetMarginRight(), orgy); */ const double dig = floor( log( 128.0 / w.GetScaleX() ) / mpLN10 ); const double step = exp( mpLN10 * dig); const double end = w.GetPosX() + (double)extend / w.GetScaleX(); wxCoord tx, ty; wxString s; wxString fmt; int tmp = (int)dig; if (m_labelType == mpX_NORMAL) { if (!m_labelFormat.IsEmpty()) { fmt = m_labelFormat; } else { if (tmp>=1) { fmt = wxT("%.f"); } else { tmp=8-tmp; fmt.Printf(wxT("%%.%df"), tmp >= -1 ? 2 : -tmp); } } } else { // Date and/or time axis representation if (m_labelType == mpX_DATETIME) { fmt = (wxT("%04.0f-%02.0f-%02.0fT%02.0f:%02.0f:%02.0f")); } else if (m_labelType == mpX_DATE) { fmt = (wxT("%04.0f-%02.0f-%02.0f")); } else if ((m_labelType == mpX_TIME) && (end/60 < 2)) { fmt = (wxT("%02.0f:%02.3f")); } else { fmt = (wxT("%02.0f:%02.0f:%02.0f")); } } //double n = floor( (w.GetPosX() - (double)extend / w.GetScaleX()) / step ) * step ; double n0 = floor( (w.GetPosX() /* - (double)(extend - w.GetMarginLeft() - w.GetMarginRight())/ w.GetScaleX() */) / step ) * step ; double n = 0; #ifdef MATHPLOT_DO_LOGGING wxLogMessage(wxT("mpScaleX::Plot: dig: %f , step: %f, end: %f, n: %f"), dig, step, end, n0); #endif wxCoord startPx = m_drawOutsideMargins ? 0 : w.GetMarginLeft(); wxCoord endPx = m_drawOutsideMargins ? w.GetScrX() : w.GetScrX() - w.GetMarginRight(); wxCoord minYpx = m_drawOutsideMargins ? 0 : w.GetMarginTop(); wxCoord maxYpx = m_drawOutsideMargins ? w.GetScrY() : w.GetScrY() - w.GetMarginBottom(); tmp=-65535; int labelH = 0; // Control labels heigth to decide where to put axis name (below labels or on top of axis) int maxExtent = 0; for (n = n0; n < end; n += step) { const int p = (int)((n - w.GetPosX()) * w.GetScaleX()); #ifdef MATHPLOT_DO_LOGGING wxLogMessage(wxT("mpScaleX::Plot: n: %f -> p = %d"), n, p); #endif if ((p >= startPx) && (p <= endPx)) { if (m_ticks) { // draw axis ticks if (m_flags == mpALIGN_BORDER_BOTTOM) dc.DrawLine( p, orgy, p, orgy-4); else dc.DrawLine( p, orgy, p, orgy+4); } else { // draw grid dotted lines m_pen.SetStyle(wxDOT); dc.SetPen(m_pen); if ((m_flags == mpALIGN_BOTTOM) && !m_drawOutsideMargins) { dc.DrawLine( p, orgy+4, p, minYpx ); } else { if ((m_flags == mpALIGN_TOP) && !m_drawOutsideMargins) { dc.DrawLine( p, orgy-4, p, maxYpx ); } else { dc.DrawLine( p, 0/*-w.GetScrY()*/, p, w.GetScrY() ); } } m_pen.SetStyle(wxSOLID); dc.SetPen(m_pen); } // Write ticks labels in s string if (m_labelType == mpX_NORMAL) s.Printf(fmt, n); else if (m_labelType == mpX_DATETIME) { time_t when = (time_t)n; struct tm tm = *localtime(&when); s.Printf(fmt, (double)tm.tm_year+1900, (double)tm.tm_mon+1, (double)tm.tm_mday, (double)tm.tm_hour, (double)tm.tm_min, (double)tm.tm_sec); } else if (m_labelType == mpX_DATE) { time_t when = (time_t)n; struct tm tm = *localtime(&when); s.Printf(fmt, (double)tm.tm_year+1900, (double)tm.tm_mon+1, (double)tm.tm_mday); } else if ((m_labelType == mpX_TIME) || (m_labelType == mpX_HOURS)) { double modulus = fabs(n); double sign = n/modulus; double hh = floor(modulus/3600); double mm = floor((modulus - hh*3600)/60); double ss = modulus - hh*3600 - mm*60; #ifdef MATHPLOT_DO_LOGGING wxLogMessage(wxT("%02.0f Hours, %02.0f minutes, %02.0f seconds"), sign*hh, mm, ss); #endif // MATHPLOT_DO_LOGGING if (fmt.Len() == 20) // Format with hours has 11 chars s.Printf(fmt, sign*hh, mm, floor(ss)); else s.Printf(fmt, sign*mm, ss); } dc.GetTextExtent(s, &tx, &ty); labelH = (labelH <= ty) ? ty : labelH; /* if ((p-tx/2-tmp) > 64) { // Problem about non-regular axis labels if ((m_flags == mpALIGN_BORDER_BOTTOM) || (m_flags == mpALIGN_TOP)) { dc.DrawText( s, p-tx/2, orgy-4-ty); } else { dc.DrawText( s, p-tx/2, orgy+4); } tmp=p+tx/2; } */ maxExtent = (tx > maxExtent) ? tx : maxExtent; // Keep in mind max label width } } // Actually draw labels, taking care of not overlapping them, and distributing them regularly double labelStep = ceil((maxExtent + mpMIN_X_AXIS_LABEL_SEPARATION)/(w.GetScaleX()*step))*step; for (n = n0; n < end; n += labelStep) { const int p = (int)((n - w.GetPosX()) * w.GetScaleX()); #ifdef MATHPLOT_DO_LOGGING wxLogMessage(wxT("mpScaleX::Plot: n_label = %f -> p_label = %d"), n, p); #endif if ((p >= startPx) && (p <= endPx)) { // Write ticks labels in s string if (m_labelType == mpX_NORMAL) s.Printf(fmt, n); else if (m_labelType == mpX_DATETIME) { time_t when = (time_t)n; struct tm tm = *localtime(&when); s.Printf(fmt, (double)tm.tm_year+1900, (double)tm.tm_mon+1, (double)tm.tm_mday, (double)tm.tm_hour, (double)tm.tm_min, (double)tm.tm_sec); } else if (m_labelType == mpX_DATE) { time_t when = (time_t)n; struct tm tm = *localtime(&when); s.Printf(fmt, (double)tm.tm_year+1900, (double)tm.tm_mon+1, (double)tm.tm_mday); } else if ((m_labelType == mpX_TIME) || (m_labelType == mpX_HOURS)) { double modulus = fabs(n); double sign = n/modulus; double hh = floor(modulus/3600); double mm = floor((modulus - hh*3600)/60); double ss = modulus - hh*3600 - mm*60; #ifdef MATHPLOT_DO_LOGGING wxLogMessage(wxT("%02.0f Hours, %02.0f minutes, %02.0f seconds"), sign*hh, mm, ss); #endif // MATHPLOT_DO_LOGGING if (fmt.Len() == 20) // Format with hours has 11 chars s.Printf(fmt, sign*hh, mm, floor(ss)); else s.Printf(fmt, sign*mm, ss); } dc.GetTextExtent(s, &tx, &ty); if ((m_flags == mpALIGN_BORDER_BOTTOM) || (m_flags == mpALIGN_TOP)) { dc.DrawText( s, p-tx/2, orgy-4-ty); } else { dc.DrawText( s, p-tx/2, orgy+4); } } } // Draw axis name dc.GetTextExtent(m_name, &tx, &ty); switch (m_flags) { case mpALIGN_BORDER_BOTTOM: dc.DrawText( m_name, extend - tx - 4, orgy - 8 - ty - labelH); break; case mpALIGN_BOTTOM: { if ((!m_drawOutsideMargins) && (w.GetMarginBottom() > (ty + labelH + 8))) { dc.DrawText( m_name, (endPx - startPx - tx)>>1, orgy + 6 + labelH); } else { dc.DrawText( m_name, extend - tx - 4, orgy - 4 - ty); } } break; case mpALIGN_CENTER: dc.DrawText( m_name, extend - tx - 4, orgy - 4 - ty); break; case mpALIGN_TOP: { if ((!m_drawOutsideMargins) && (w.GetMarginTop() > (ty + labelH + 8))) { dc.DrawText( m_name, (endPx - startPx - tx)>>1, orgy - 6 - ty - labelH); } else { dc.DrawText( m_name, extend - tx - 4, orgy + 4); } } break; case mpALIGN_BORDER_TOP: dc.DrawText( m_name, extend - tx - 4, orgy + 6 + labelH); break; default: break; } } /* if (m_flags != mpALIGN_TOP) { if ((m_flags == mpALIGN_BORDER_BOTTOM) || (m_flags == mpALIGN_TOP)) { dc.DrawText( m_name, extend - tx - 4, orgy - 4 - (ty*2)); } else { dc.DrawText( m_name, extend - tx - 4, orgy - 4 - ty); //orgy + 4 + ty); } }; */ } IMPLEMENT_DYNAMIC_CLASS(mpScaleY, mpLayer) mpScaleY::mpScaleY(wxString name, int flags, bool ticks) { SetName(name); SetFont( (wxFont&) *wxSMALL_FONT); SetPen( (wxPen&) *wxGREY_PEN); m_flags = flags; m_ticks = ticks; m_type = mpLAYER_AXIS; m_labelFormat = wxT(""); } void mpScaleY::Plot(wxDC & dc, mpWindow & w) { if (m_visible) { dc.SetPen( m_pen); dc.SetFont( m_font); int orgx=0; const int extend = w.GetScrY(); // /2; if (m_flags == mpALIGN_CENTER) orgx = w.x2p(0); //(int)(w.GetPosX() * w.GetScaleX()); if (m_flags == mpALIGN_LEFT) { if (m_drawOutsideMargins) orgx = Y_BORDER_SEPARATION; else orgx = w.GetMarginLeft(); } if (m_flags == mpALIGN_RIGHT) { if (m_drawOutsideMargins) orgx = w.GetScrX() - Y_BORDER_SEPARATION; else orgx = w.GetScrX() - w.GetMarginRight(); } if (m_flags == mpALIGN_BORDER_RIGHT ) orgx = w.GetScrX() - 1; //dc.LogicalToDeviceX(0) - 1; if (m_flags == mpALIGN_BORDER_LEFT ) orgx = 1; //-dc.LogicalToDeviceX(0); // Draw line dc.DrawLine( orgx, 0, orgx, extend); // To cut the axis line when draw outside margin is false, use this code /* if (m_drawOutsideMargins == true) dc.DrawLine( orgx, 0, orgx, extend); else dc.DrawLine( orgx, w.GetMarginTop(), orgx, w.GetScrY() - w.GetMarginBottom()); */ const double dig = floor( log( 128.0 / w.GetScaleY() ) / mpLN10 ); const double step = exp( mpLN10 * dig); const double end = w.GetPosY() + (double)extend / w.GetScaleY(); wxCoord tx, ty; wxString s; wxString fmt; int tmp = (int)dig; double maxScaleAbs = fabs(w.GetDesiredYmax()); double minScaleAbs = fabs(w.GetDesiredYmin()); double endscale = (maxScaleAbs > minScaleAbs) ? maxScaleAbs : minScaleAbs; if (m_labelFormat.IsEmpty()) { if ((endscale < 1e4) && (endscale > 1e-3)) fmt = wxT("%.2f"); else fmt = wxT("%.1e"); } else { fmt = m_labelFormat; } /* if (tmp>=1) {*/ // fmt = wxT("%7.5g"); // } // else // { // tmp=8-tmp; // fmt.Printf(wxT("%%.%dg"), (tmp >= -1) ? 2 : -tmp); // } double n = floor( (w.GetPosY() - (double)(extend - w.GetMarginTop() - w.GetMarginBottom())/ w.GetScaleY()) / step ) * step ; /* wxCoord startPx = m_drawOutsideMargins ? 0 : w.GetMarginLeft(); */ wxCoord endPx = m_drawOutsideMargins ? w.GetScrX() : w.GetScrX() - w.GetMarginRight(); wxCoord minYpx = m_drawOutsideMargins ? 0 : w.GetMarginTop(); wxCoord maxYpx = m_drawOutsideMargins ? w.GetScrY() : w.GetScrY() - w.GetMarginBottom(); tmp=65536; int labelW = 0; // Before staring cycle, calculate label height int labelHeigth = 0; s.Printf(fmt,n); dc.GetTextExtent(s, &tx, &labelHeigth); for (;n < end; n += step) { const int p = (int)((w.GetPosY() - n) * w.GetScaleY()); if ((p >= minYpx) && (p <= maxYpx)) { if (m_ticks) { // Draw axis ticks if (m_flags == mpALIGN_BORDER_LEFT) { dc.DrawLine( orgx, p, orgx+4, p); } else { dc.DrawLine( orgx-4, p, orgx, p); //( orgx, p, orgx+4, p); } } else { m_pen.SetStyle(wxDOT); dc.SetPen( m_pen); if ((m_flags == mpALIGN_LEFT) && !m_drawOutsideMargins) { dc.DrawLine( orgx-4, p, endPx, p); } else { if ((m_flags == mpALIGN_RIGHT) && !m_drawOutsideMargins) { dc.DrawLine( minYpx, p, orgx+4, p); } else { dc.DrawLine( 0/*-w.GetScrX()*/, p, w.GetScrX(), p); } } m_pen.SetStyle(wxSOLID); dc.SetPen( m_pen); } // Print ticks labels s.Printf(fmt, n); dc.GetTextExtent(s, &tx, &ty); #ifdef MATHPLOT_DO_LOGGING if (ty != labelHeigth) wxLogMessage(wxT("mpScaleY::Plot: ty(%f) and labelHeigth(%f) differ!"), ty, labelHeigth); #endif labelW = (labelW <= tx) ? tx : labelW; if ((tmp-p+labelHeigth/2) > mpMIN_Y_AXIS_LABEL_SEPARATION) { if ((m_flags == mpALIGN_BORDER_LEFT) || (m_flags == mpALIGN_RIGHT)) dc.DrawText( s, orgx+4, p-ty/2); else dc.DrawText( s, orgx-4-tx, p-ty/2); //( s, orgx+4, p-ty/2); tmp=p-labelHeigth/2; } } } // Draw axis name dc.GetTextExtent(m_name, &tx, &ty); switch (m_flags) { case mpALIGN_BORDER_LEFT: dc.DrawText( m_name, labelW + 8, 4); break; case mpALIGN_LEFT: { if ((!m_drawOutsideMargins) && (w.GetMarginLeft() > (ty + labelW + 8))) { dc.DrawRotatedText( m_name, orgx - 6 - labelW - ty, (maxYpx - minYpx + tx)>>1, 90); } else { dc.DrawText( m_name, orgx + 4, 4); } } break; case mpALIGN_CENTER: dc.DrawText( m_name, orgx + 4, 4); break; case mpALIGN_RIGHT: { if ((!m_drawOutsideMargins) && (w.GetMarginRight() > (ty + labelW + 8))) { dc.DrawRotatedText( m_name, orgx + 6 + labelW, (maxYpx - minYpx + tx)>>1, 90); } else { dc.DrawText( m_name, orgx - tx - 4, 4); } } break; case mpALIGN_BORDER_RIGHT: dc.DrawText( m_name, orgx - 6 - tx -labelW, 4); break; default: break; } } /* if (m_flags != mpALIGN_RIGHT) { dc.GetTextExtent(m_name, &tx, &ty); if (m_flags == mpALIGN_BORDER_LEFT) { dc.DrawText( m_name, orgx-tx-4, -extend + ty + 4); } else { if (m_flags == mpALIGN_BORDER_RIGHT ) dc.DrawText( m_name, orgx-(tx*2)-4, -extend + ty + 4); else dc.DrawText( m_name, orgx + 4, -extend + 4); } }; */ } //----------------------------------------------------------------------------- // mpWindow //----------------------------------------------------------------------------- IMPLEMENT_DYNAMIC_CLASS(mpWindow, wxWindow) BEGIN_EVENT_TABLE(mpWindow, wxWindow) EVT_PAINT ( mpWindow::OnPaint) EVT_SIZE ( mpWindow::OnSize) EVT_SCROLLWIN_THUMBTRACK(mpWindow::OnScrollThumbTrack) EVT_SCROLLWIN_PAGEUP(mpWindow::OnScrollPageUp) EVT_SCROLLWIN_PAGEDOWN(mpWindow::OnScrollPageDown) EVT_SCROLLWIN_LINEUP(mpWindow::OnScrollLineUp) EVT_SCROLLWIN_LINEDOWN(mpWindow::OnScrollLineDown) EVT_SCROLLWIN_TOP(mpWindow::OnScrollTop) EVT_SCROLLWIN_BOTTOM(mpWindow::OnScrollBottom) EVT_MIDDLE_DOWN(mpWindow::OnMouseMiddleDown) // JLB EVT_RIGHT_UP(mpWindow::OnShowPopupMenu) EVT_MOUSEWHEEL(mpWindow::OnMouseWheel ) // JLB EVT_MOTION(mpWindow::OnMouseMove ) // JLB EVT_LEFT_DOWN(mpWindow::OnMouseLeftDown) EVT_LEFT_UP(mpWindow::OnMouseLeftRelease) EVT_MENU( mpID_CENTER, mpWindow::OnCenter) EVT_MENU( mpID_FIT, mpWindow::OnFit) EVT_MENU( mpID_ZOOM_IN, mpWindow::OnZoomIn) EVT_MENU( mpID_ZOOM_OUT, mpWindow::OnZoomOut) EVT_MENU( mpID_LOCKASPECT,mpWindow::OnLockAspect) END_EVENT_TABLE() mpWindow::mpWindow( wxWindow *parent, wxWindowID id, const wxPoint &pos, const wxSize &size, long flag ) : wxWindow( parent, id, pos, size, flag, wxT("mathplot") ) { m_scaleX = m_scaleY = 1.0; m_posX = m_posY = 0; m_desiredXmin=m_desiredYmin=0; m_desiredXmax=m_desiredYmax=1; m_scrX = m_scrY = 64; // Fixed from m_scrX = m_scrX = 64; m_minX = m_minY = 0; m_maxX = m_maxY = 0; m_last_lx= m_last_ly= 0; m_buff_bmp = NULL; m_enableDoubleBuffer = FALSE; m_enableMouseNavigation = TRUE; m_enableLimitedView = FALSE; m_movingInfoLayer = NULL; // Set margins to 0 m_marginTop = 0; m_marginRight = 0; m_marginBottom = 0; m_marginLeft = 0; m_lockaspect = FALSE; m_popmenu.Append( mpID_CENTER, _("Center"), _("Center plot view to this position")); m_popmenu.Append( mpID_FIT, _("Fit"), _("Set plot view to show all items")); m_popmenu.Append( mpID_ZOOM_IN, _("Zoom in"), _("Zoom in plot view.")); m_popmenu.Append( mpID_ZOOM_OUT, _("Zoom out"), _("Zoom out plot view.")); m_popmenu.AppendCheckItem( mpID_LOCKASPECT, _("Lock aspect"), _("Lock horizontal and vertical zoom aspect.")); //m_popmenu.Append( mpID_HELP_MOUSE, _("Show mouse commands..."), _("Show help about the mouse commands.")); m_layers.clear(); SetBackgroundColour( *wxWHITE ); m_bgColour = *wxWHITE; m_fgColour = *wxBLACK; m_enableScrollBars = false; SetSizeHints(128, 128); // J.L.Blanco: Eliminates the "flick" with the double buffer. SetBackgroundStyle( wxBG_STYLE_CUSTOM ); UpdateAll(); } mpWindow::~mpWindow() { // Free all the layers: DelAllLayers( true, false ); if (m_buff_bmp) { delete m_buff_bmp; m_buff_bmp = NULL; } } // Mouse handler, for detecting when the user drag with the right button or just "clicks" for the menu // JLB void mpWindow::OnMouseMiddleDown(wxMouseEvent &event) { m_mouseMClick.x = event.GetX(); m_mouseMClick.y = event.GetY(); } // Process mouse wheel events // JLB void mpWindow::OnMouseWheel( wxMouseEvent &event ) { if (!m_enableMouseNavigation) { event.Skip(); return; } // Scroll vertically or horizontally (this is SHIFT is hold down). int change = - event.GetWheelRotation(); // Opposite direction (More intuitive)! double changeUnitsX = change / m_scaleX; double changeUnitsY = change / m_scaleY; if (event.m_controlDown) { // horizontal scroll SetXView(m_posX + changeUnitsX, m_desiredXmax + changeUnitsX, m_desiredXmin + changeUnitsX); } else if(event.m_shiftDown) { // vertical scroll SetYView(m_posY - changeUnitsY, m_desiredYmax - changeUnitsY, m_desiredYmin - changeUnitsY); } else { // zoom in/out wxPoint clickPt( event.GetX(),event.GetY() ); if (event.GetWheelRotation() > 0) ZoomIn( clickPt ); else ZoomOut( clickPt ); } UpdateAll(); } // If the user "drags" with the right buttom pressed, do "pan" // JLB void mpWindow::OnMouseMove(wxMouseEvent &event) { if (!m_enableMouseNavigation) { event.Skip(); return; } if (event.m_middleDown) { // The change: int Ax= m_mouseMClick.x - event.GetX(); int Ay= m_mouseMClick.y - event.GetY(); // For the next event, use relative to this coordinates. m_mouseMClick.x = event.GetX(); m_mouseMClick.y = event.GetY(); double Ax_units = Ax / m_scaleX; double Ay_units = -Ay / m_scaleY; bool updateRequired = false; updateRequired |= SetXView(m_posX + Ax_units, m_desiredXmax + Ax_units, m_desiredXmin + Ax_units); updateRequired |= SetYView(m_posY + Ay_units, m_desiredYmax + Ay_units, m_desiredYmin + Ay_units); if(updateRequired) UpdateAll(); #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("[mpWindow::OnMouseMove] Ax:%i Ay:%i m_posX:%f m_posY:%f"),Ax,Ay,m_posX,m_posY); #endif } else { if (event.m_leftDown) { if (m_movingInfoLayer == NULL) { wxClientDC dc(this); wxPen pen(*wxBLACK, 1, wxDOT); dc.SetPen(pen); dc.SetBrush(*wxTRANSPARENT_BRUSH); dc.DrawRectangle(m_mouseLClick.x, m_mouseLClick.y, event.GetX() - m_mouseLClick.x, event.GetY() - m_mouseLClick.y); } else { wxPoint moveVector(event.GetX() - m_mouseLClick.x, event.GetY() - m_mouseLClick.y); m_movingInfoLayer->Move(moveVector); } UpdateAll(); } else { wxLayerList::iterator li; for (li = m_layers.begin(); li != m_layers.end(); li++) { if ((*li)->IsInfo() && (*li)->IsVisible()) { mpInfoLayer* tmpLyr = (mpInfoLayer*) (*li); tmpLyr->UpdateInfo(*this, event); // UpdateAll(); RefreshRect(tmpLyr->GetRectangle()); } } /* if (m_coordTooltip) { wxString toolTipContent; toolTipContent.Printf(_("X = %f\nY = %f"), p2x(event.GetX()), p2y(event.GetY())); wxTipWindow** ptr = NULL; wxRect rectBounds(event.GetX(), event.GetY(), 5, 5); wxTipWindow* tip = new wxTipWindow(this, toolTipContent, 100, ptr, &rectBounds); } */ } } event.Skip(); } void mpWindow::OnMouseLeftDown (wxMouseEvent &event) { m_mouseLClick.x = event.GetX(); m_mouseLClick.y = event.GetY(); #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::OnMouseLeftDown() X = %d , Y = %d"), event.GetX(), event.GetY());/*m_mouseLClick.x, m_mouseLClick.y);*/ #endif wxPoint pointClicked = event.GetPosition(); m_movingInfoLayer = IsInsideInfoLayer(pointClicked); if (m_movingInfoLayer != NULL) { #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::OnMouseLeftDown() started moving layer %lx"), (long int) m_movingInfoLayer);/*m_mouseLClick.x, m_mouseLClick.y);*/ #endif } event.Skip(); } void mpWindow::OnMouseLeftRelease (wxMouseEvent &event) { wxPoint release(event.GetX(), event.GetY()); wxPoint press(m_mouseLClick.x, m_mouseLClick.y); if (m_movingInfoLayer != NULL) { m_movingInfoLayer->UpdateReference(); m_movingInfoLayer = NULL; } else { if (release != press) { ZoomRect(press, release); } /*else { if (m_coordTooltip) { wxString toolTipContent; toolTipContent.Printf(_("X = %f\nY = %f"), p2x(event.GetX()), p2y(event.GetY())); SetToolTip(toolTipContent); } } */ } event.Skip(); } void mpWindow::Fit() { if (UpdateBBox()) Fit(m_minX,m_maxX,m_minY,m_maxY ); } // JL void mpWindow::Fit(double xMin, double xMax, double yMin, double yMax, wxCoord *printSizeX,wxCoord *printSizeY) { // Save desired borders: m_desiredXmin=xMin; m_desiredXmax=xMax; m_desiredYmin=yMin; m_desiredYmax=yMax; if (printSizeX!=NULL && printSizeY!=NULL) { // Printer: m_scrX = *printSizeX; m_scrY = *printSizeY; } else { // Normal case (screen): GetClientSize( &m_scrX,&m_scrY); } double Ax,Ay; Ax = xMax - xMin; Ay = yMax - yMin; m_scaleX = (Ax!=0) ? (m_scrX - m_marginLeft - m_marginRight)/Ax : 1; //m_scaleX = (Ax!=0) ? m_scrX/Ax : 1; m_scaleY = (Ay!=0) ? (m_scrY - m_marginTop - m_marginBottom)/Ay : 1; //m_scaleY = (Ay!=0) ? m_scrY/Ay : 1; if (m_lockaspect) { #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::Fit()(lock) m_scaleX=%f,m_scaleY=%f"), m_scaleX,m_scaleY); #endif // Keep the lowest "scale" to fit the whole range required by that axis (to actually "fit"!): double s = m_scaleX < m_scaleY ? m_scaleX : m_scaleY; m_scaleX = s; m_scaleY = s; } // Adjusts corner coordinates: This should be simply: // m_posX = m_minX; // m_posY = m_maxY; // But account for centering if we have lock aspect: m_posX = (xMin+xMax)/2 - ((m_scrX - m_marginLeft - m_marginRight)/2 + m_marginLeft)/m_scaleX ; // m_posX = (xMin+xMax)/2 - (m_scrX/2)/m_scaleX; // m_posY = (yMin+yMax)/2 + ((m_scrY - m_marginTop - m_marginBottom)/2 - m_marginTop)/m_scaleY; // m_posY = (yMin+yMax)/2 + (m_scrY/2)/m_scaleY; m_posY = (yMin+yMax)/2 + ((m_scrY - m_marginTop - m_marginBottom)/2 + m_marginTop)/m_scaleY; // m_posY = (yMin+yMax)/2 + (m_scrY/2)/m_scaleY; #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::Fit() m_desiredXmin=%f m_desiredXmax=%f m_desiredYmin=%f m_desiredYmax=%f"), xMin,xMax,yMin,yMax); wxLogMessage(_("mpWindow::Fit() m_scaleX = %f , m_scrX = %d,m_scrY=%d, Ax=%f, Ay=%f, m_posX=%f, m_posY=%f"), m_scaleX, m_scrX,m_scrY, Ax,Ay,m_posX,m_posY); #endif // It is VERY IMPORTANT to DO NOT call Refresh if we are drawing to the printer!! // Otherwise, the DC dimensions will be those of the window instead of the printer device if (printSizeX==NULL || printSizeY==NULL) UpdateAll(); } // Patch ngpaton void mpWindow::DoZoomInXCalc (const int staticXpixel) { // Preserve the position of the clicked point: double staticX = p2x( staticXpixel ); // Zoom in: m_scaleX = m_scaleX * zoomIncrementalFactor; // Adjust the new m_posx m_posX = staticX - (staticXpixel / m_scaleX); // Adjust desired m_desiredXmin = m_posX; m_desiredXmax = m_posX + (m_scrX - (m_marginLeft + m_marginRight)) / m_scaleX; #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::DoZoomInXCalc() prior X coord: (%f), new X coord: (%f) SHOULD BE EQUAL!!"), staticX, p2x(staticXpixel)); #endif } void mpWindow::DoZoomInYCalc (const int staticYpixel) { // Preserve the position of the clicked point: double staticY = p2y( staticYpixel ); // Zoom in: m_scaleY = m_scaleY * zoomIncrementalFactor; // Adjust the new m_posy: m_posY = staticY + (staticYpixel / m_scaleY); // Adjust desired m_desiredYmax = m_posY; m_desiredYmin = m_posY - (m_scrY - (m_marginTop + m_marginBottom)) / m_scaleY; #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::DoZoomInYCalc() prior Y coord: (%f), new Y coord: (%f) SHOULD BE EQUAL!!"), staticY, p2y(staticYpixel)); #endif } void mpWindow::DoZoomOutXCalc (const int staticXpixel) { // Preserve the position of the clicked point: double staticX = p2x( staticXpixel ); // Zoom out: m_scaleX = m_scaleX / zoomIncrementalFactor; // Adjust the new m_posx/y: m_posX = staticX - (staticXpixel / m_scaleX); // Adjust desired m_desiredXmin = m_posX; m_desiredXmax = m_posX + (m_scrX - (m_marginLeft + m_marginRight)) / m_scaleX; #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::DoZoomOutXCalc() prior X coord: (%f), new X coord: (%f) SHOULD BE EQUAL!!"), staticX, p2x(staticXpixel)); #endif } void mpWindow::DoZoomOutYCalc (const int staticYpixel) { // Preserve the position of the clicked point: double staticY = p2y( staticYpixel ); // Zoom out: m_scaleY = m_scaleY / zoomIncrementalFactor; // Adjust the new m_posx/y: m_posY = staticY + (staticYpixel / m_scaleY); // Adjust desired m_desiredYmax = m_posY; m_desiredYmin = m_posY - (m_scrY - (m_marginTop + m_marginBottom)) / m_scaleY; #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::DoZoomOutYCalc() prior Y coord: (%f), new Y coord: (%f) SHOULD BE EQUAL!!"), staticY, p2y(staticYpixel)); #endif } bool mpWindow::SetXView(double pos, double desiredMax, double desiredMin) { if(m_enableLimitedView && (desiredMax > m_maxX || desiredMin < m_minX)) return false; m_posX = pos; m_desiredXmax = desiredMax; m_desiredXmin = desiredMin; return true; } bool mpWindow::SetYView(double pos, double desiredMax, double desiredMin) { if(m_enableLimitedView && (desiredMax > m_maxY || desiredMin < m_minY)) return false; m_posY = pos; m_desiredYmax = desiredMax; m_desiredYmin = desiredMin; return true; } void mpWindow::ZoomIn(const wxPoint& centerPoint ) { wxPoint c(centerPoint); if (c == wxDefaultPosition) { GetClientSize(&m_scrX, &m_scrY); c.x = (m_scrX - m_marginLeft - m_marginRight)/2 + m_marginLeft; // c.x = m_scrX/2; c.y = (m_scrY - m_marginTop - m_marginBottom)/2 - m_marginTop; // c.y = m_scrY/2; } // Preserve the position of the clicked point: double prior_layer_x = p2x( c.x ); double prior_layer_y = p2y( c.y ); // Zoom in: const double MAX_SCALE = 1e6; double newScaleX = m_scaleX * zoomIncrementalFactor; double newScaleY = m_scaleY * zoomIncrementalFactor; // Baaaaad things happen when you zoom in too much.. if(newScaleX <= MAX_SCALE && newScaleY <= MAX_SCALE) { m_scaleX = newScaleX; m_scaleY = newScaleY; } else { return; } // Adjust the new m_posx/y: m_posX = prior_layer_x - c.x / m_scaleX; m_posY = prior_layer_y + c.y / m_scaleY; m_desiredXmin = m_posX; m_desiredXmax = m_posX + (m_scrX - m_marginLeft - m_marginRight) / m_scaleX; // m_desiredXmax = m_posX + m_scrX / m_scaleX; m_desiredYmax = m_posY; m_desiredYmin = m_posY - (m_scrY - m_marginTop - m_marginBottom) / m_scaleY; // m_desiredYmin = m_posY - m_scrY / m_scaleY; #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::ZoomIn() prior coords: (%f,%f), new coords: (%f,%f) SHOULD BE EQUAL!!"), prior_layer_x,prior_layer_y, p2x(c.x),p2y(c.y)); #endif UpdateAll(); } void mpWindow::ZoomOut(const wxPoint& centerPoint ) { wxPoint c(centerPoint); if (c == wxDefaultPosition) { GetClientSize(&m_scrX, &m_scrY); c.x = (m_scrX - m_marginLeft - m_marginRight)/2 + m_marginLeft; // c.x = m_scrX/2; c.y = (m_scrY - m_marginTop - m_marginBottom)/2 - m_marginTop; // c.y = m_scrY/2; } // Preserve the position of the clicked point: double prior_layer_x = p2x( c.x ); double prior_layer_y = p2y( c.y ); // Zoom out: m_scaleX = m_scaleX / zoomIncrementalFactor; m_scaleY = m_scaleY / zoomIncrementalFactor; // Adjust the new m_posx/y: m_posX = prior_layer_x - c.x / m_scaleX; m_posY = prior_layer_y + c.y / m_scaleY; m_desiredXmin = m_posX; m_desiredXmax = m_posX + (m_scrX - m_marginLeft - m_marginRight) / m_scaleX; // m_desiredXmax = m_posX + m_scrX / m_scaleX; m_desiredYmax = m_posY; m_desiredYmin = m_posY - (m_scrY - m_marginTop - m_marginBottom) / m_scaleY; // m_desiredYmin = m_posY - m_scrY / m_scaleY; if(m_enableLimitedView && (m_desiredXmin < m_minX || m_desiredXmin < m_minX || m_desiredXmax > m_maxX || m_desiredXmax > m_maxX)) { Fit(); } #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::ZoomOut() prior coords: (%f,%f), new coords: (%f,%f) SHOULD BE EQUAL!!"), prior_layer_x,prior_layer_y, p2x(c.x),p2y(c.y)); #endif UpdateAll(); } void mpWindow::ZoomInX() { m_scaleX = m_scaleX * zoomIncrementalFactor; UpdateAll(); } void mpWindow::ZoomOutX() { m_scaleX = m_scaleX / zoomIncrementalFactor; UpdateAll(); } void mpWindow::ZoomInY() { m_scaleY = m_scaleY * zoomIncrementalFactor; UpdateAll(); } void mpWindow::ZoomOutY() { m_scaleY = m_scaleY / zoomIncrementalFactor; UpdateAll(); } void mpWindow::ZoomRect(wxPoint p0, wxPoint p1) { // Compute the 2 corners in graph coordinates: double p0x = p2x(p0.x); double p0y = p2y(p0.y); double p1x = p2x(p1.x); double p1y = p2y(p1.y); // Order them: double zoom_x_min = p0xp1x ? p0x:p1x; double zoom_y_min = p0yp1y ? p0y:p1y; #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("Zoom: (%f,%f)-(%f,%f)"),zoom_x_min,zoom_y_min,zoom_x_max,zoom_y_max); #endif Fit(zoom_x_min,zoom_x_max,zoom_y_min,zoom_y_max); } void mpWindow::LockAspect(bool enable) { m_lockaspect = enable; m_popmenu.Check(mpID_LOCKASPECT, enable); // Try to fit again with the new config: Fit( m_desiredXmin, m_desiredXmax, m_desiredYmin, m_desiredYmax ); } void mpWindow::OnShowPopupMenu(wxMouseEvent &event) { m_clickedX = event.GetX(); m_clickedY = event.GetY(); PopupMenu( &m_popmenu, event.GetX(), event.GetY()); } void mpWindow::OnLockAspect(wxCommandEvent& WXUNUSED(event)) { LockAspect( !m_lockaspect ); } void mpWindow::OnFit(wxCommandEvent& WXUNUSED(event)) { Fit(); } void mpWindow::OnCenter(wxCommandEvent& WXUNUSED(event)) { GetClientSize(&m_scrX, &m_scrY); int centerX = (m_scrX - m_marginLeft - m_marginRight)/2; // + m_marginLeft; // c.x = m_scrX/2; int centerY = (m_scrY - m_marginTop - m_marginBottom)/2; // - m_marginTop; // c.y = m_scrY/2; SetPos( p2x(m_clickedX - centerX), p2y(m_clickedY - centerY) ); //SetPos( p2x(m_clickedX-m_scrX/2), p2y(m_clickedY-m_scrY/2) ); //SetPos( (double)(m_clickedX-m_scrX/2) / m_scaleX + m_posX, (double)(m_scrY/2-m_clickedY) / m_scaleY + m_posY); } void mpWindow::OnZoomIn(wxCommandEvent& WXUNUSED(event)) { ZoomIn( wxPoint(m_mouseMClick.x,m_mouseMClick.y) ); } void mpWindow::OnZoomOut(wxCommandEvent& WXUNUSED(event)) { ZoomOut(); } void mpWindow::OnSize( wxSizeEvent& WXUNUSED(event) ) { // Try to fit again with the new window size: Fit( m_desiredXmin, m_desiredXmax, m_desiredYmin, m_desiredYmax ); #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::OnSize() m_scrX = %d, m_scrY = %d"), m_scrX, m_scrY); #endif // MATHPLOT_DO_LOGGING } bool mpWindow::AddLayer( mpLayer* layer, bool refreshDisplay ) { if (layer != NULL) { m_layers.push_back( layer ); if (refreshDisplay) UpdateAll(); return true; }; return false; } bool mpWindow::DelLayer( mpLayer* layer, bool alsoDeleteObject, bool refreshDisplay ) { wxLayerList::iterator layIt; for (layIt = m_layers.begin(); layIt != m_layers.end(); layIt++) { if (*layIt == layer) { // Also delete the object? if (alsoDeleteObject) delete *layIt; m_layers.erase(layIt); // this deleted the reference only if (refreshDisplay) UpdateAll(); return true; } } return false; } void mpWindow::DelAllLayers( bool alsoDeleteObject, bool refreshDisplay) { while ( m_layers.size()>0 ) { // Also delete the object? if (alsoDeleteObject) delete m_layers[0]; m_layers.erase( m_layers.begin() ); // this deleted the reference only } if (refreshDisplay) UpdateAll(); } // void mpWindow::DoPrepareDC(wxDC& dc) // { // dc.SetDeviceOrigin(x2p(m_minX), y2p(m_maxY)); // } void mpWindow::OnPaint( wxPaintEvent& WXUNUSED(event) ) { wxPaintDC dc(this); dc.GetSize(&m_scrX, &m_scrY); // This is the size of the visible area only! // DoPrepareDC(dc); #ifdef MATHPLOT_DO_LOGGING { int px, py; GetViewStart( &px, &py ); wxLogMessage(_("[mpWindow::OnPaint] vis.area:%ix%i px=%i py=%i"),m_scrX,m_scrY,px,py); } #endif // Selects direct or buffered draw: wxDC *trgDc; // J.L.Blanco @ Aug 2007: Added double buffer support if (m_enableDoubleBuffer) { if (m_last_lx!=m_scrX || m_last_ly!=m_scrY) { if (m_buff_bmp) delete m_buff_bmp; m_buff_bmp = new wxBitmap(m_scrX,m_scrY); m_buff_dc.SelectObject(*m_buff_bmp); m_last_lx=m_scrX; m_last_ly=m_scrY; } trgDc = &m_buff_dc; } else { trgDc = &dc; } // Draw background: //trgDc->SetDeviceOrigin(0,0); trgDc->SetPen( *wxTRANSPARENT_PEN ); wxBrush brush( GetBackgroundColour() ); trgDc->SetBrush( brush ); trgDc->SetTextForeground(m_fgColour); trgDc->DrawRectangle(0,0,m_scrX,m_scrY); // Draw all the layers: //trgDc->SetDeviceOrigin( m_scrX>>1, m_scrY>>1); // Origin at the center wxLayerList::iterator li; for (li = m_layers.begin(); li != m_layers.end(); li++) { (*li)->Plot(*trgDc, *this); }; // If doublebuffer, draw now to the window: if (m_enableDoubleBuffer) { //trgDc->SetDeviceOrigin(0,0); //dc.SetDeviceOrigin(0,0); // Origin at the center dc.Blit(0,0,m_scrX,m_scrY,trgDc,0,0); } /* if (m_coordTooltip) { wxString toolTipContent; wxPoint mousePoint = wxGetMousePosition(); toolTipContent.Printf(_("X = %f\nY = %f"), p2x(mousePoint.x), p2y(mousePoint.y)); SetToolTip(toolTipContent); }*/ // If scrollbars are enabled, refresh them if (m_enableScrollBars) { /* m_scroll.x = (int) floor((m_posX - m_minX)*m_scaleX); m_scroll.y = (int) floor((m_maxY - m_posY )*m_scaleY); Scroll(m_scroll.x, m_scroll.y);*/ // Scroll(x2p(m_posX), y2p(m_posY)); // SetVirtualSize((int) ((m_maxX - m_minX)*m_scaleX), (int) ((m_maxY - m_minY)*m_scaleY)); // int centerX = (m_scrX - m_marginLeft - m_marginRight)/2; // + m_marginLeft; // c.x = m_scrX/2; // int centerY = (m_scrY - m_marginTop - m_marginBottom)/2; // - m_marginTop; // c.y = m_scrY/2; /*SetScrollbars(1, 1, (int) ((m_maxX - m_minX)*m_scaleX), (int) ((m_maxY - m_minY)*m_scaleY));*/ //, x2p(m_posX + centerX/m_scaleX), y2p(m_posY - centerY/m_scaleY), true); } } // void mpWindow::OnScroll2(wxScrollWinEvent &event) // { // #ifdef MATHPLOT_DO_LOGGING // wxLogMessage(_("[mpWindow::OnScroll2] Init: m_posX=%f m_posY=%f, sc_pos = %d"),m_posX,m_posY, event.GetPosition()); // #endif // // If scrollbars are not enabled, Skip operation // if (!m_enableScrollBars) { // event.Skip(); // return; // } // // m_scroll.x = (int) floor((m_posX - m_minX)*m_scaleX); // // m_scroll.y = (int) floor((m_maxY - m_posY /*- m_minY*/)*m_scaleY); // // Scroll(m_scroll.x, m_scroll.y); // // // GetClientSize( &m_scrX, &m_scrY); // //Scroll(x2p(m_desiredXmin), y2p(m_desiredYmin)); // int pixelStep = 1; // if (event.GetOrientation() == wxHORIZONTAL) { // //m_desiredXmin -= (m_scroll.x - event.GetPosition())/m_scaleX; // //m_desiredXmax -= (m_scroll.x - event.GetPosition())/m_scaleX; // m_posX -= (m_scroll.x - event.GetPosition())/m_scaleX; // m_scroll.x = event.GetPosition(); // } // Fit(m_desiredXmin, m_desiredXmax, m_desiredYmin, m_desiredYmax); // // /* int pixelStep = 1; // // if (event.GetOrientation() == wxHORIZONTAL) { // // m_posX -= (px - event.GetPosition())/m_scaleX;//(pixelStep/m_scaleX); // // m_desiredXmax -= (px - event.GetPosition())/m_scaleX;//(pixelStep/m_scaleX); // // m_desiredXmin -= (px - event.GetPosition())/m_scaleX;//(pixelStep/m_scaleX); // // //SetPosX( (double)px / GetScaleX() + m_minX + (double)(width>>1)/GetScaleX()); // // // m_posX = p2x(px); //m_minX + (double)(px /*+ (m_scrX)*/)/GetScaleX(); // // } else { // // m_posY += (py - event.GetPosition())/m_scaleY;//(pixelStep/m_scaleY); // // m_desiredYmax += (py - event.GetPosition())/m_scaleY;//(pixelStep/m_scaleY); // // m_desiredYmax += (py - event.GetPosition())/m_scaleY;//(pixelStep/m_scaleY); // // //SetPosY( m_maxY - (double)py / GetScaleY() - (double)(height>>1)/GetScaleY()); // // //m_posY = m_maxY - (double)py / GetScaleY() - (double)(height>>1)/GetScaleY(); // // // m_posY = p2y(py);//m_maxY - (double)(py /*+ (m_scrY)*/)/GetScaleY(); // // }*/ // #ifdef MATHPLOT_DO_LOGGING // int px, py; // GetViewStart( &px, &py); // wxLogMessage(_("[mpWindow::OnScroll2] End: m_posX = %f, m_posY = %f, px = %f, py = %f"),m_posX, m_posY, px, py); // #endif // // UpdateAll(); // // event.Skip(); // } void mpWindow::SetMPScrollbars(bool status) { // Temporary behaviour: always disable scrollbars m_enableScrollBars = status; //false; if (status == false) { SetScrollbar(wxHORIZONTAL, 0, 0, 0); SetScrollbar(wxVERTICAL, 0, 0, 0); } // else the scroll bars will be updated in UpdateAll(); UpdateAll(); // EnableScrolling(false, false); // m_enableScrollBars = status; // EnableScrolling(status, status); /* m_scroll.x = (int) floor((m_posX - m_minX)*m_scaleX); m_scroll.y = (int) floor((m_posY - m_minY)*m_scaleY);*/ // int scrollWidth = (int) floor((m_maxX - m_minX)*m_scaleX) - m_scrX; // int scrollHeight = (int) floor((m_minY - m_maxY)*m_scaleY) - m_scrY; // /* m_scroll.x = (int) floor((m_posX - m_minX)*m_scaleX); // m_scroll.y = (int) floor((m_maxY - m_posY /*- m_minY*/)*m_scaleY); // int scrollWidth = (int) floor(((m_maxX - m_minX) - (m_desiredXmax - m_desiredXmin))*m_scaleX); // int scrollHeight = (int) floor(((m_maxY - m_minY) - (m_desiredYmax - m_desiredYmin))*m_scaleY); // #ifdef MATHPLOT_DO_LOGGING // wxLogMessage(_("mpWindow::SetMPScrollbars() scrollWidth = %d, scrollHeight = %d"), scrollWidth, scrollHeight); // #endif // if(status) { // SetScrollbars(1, // 1, // scrollWidth, // scrollHeight, // m_scroll.x, // m_scroll.y); // // SetVirtualSize((int) (m_maxX - m_minX), (int) (m_maxY - m_minY)); // } // Refresh(false);*/ }; bool mpWindow::UpdateBBox() { bool first = TRUE; for (wxLayerList::iterator li = m_layers.begin(); li != m_layers.end(); li++) { mpLayer* f = *li; if (f->HasBBox()) { if (first) { first = FALSE; m_minX = f->GetMinX(); m_maxX=f->GetMaxX(); m_minY = f->GetMinY(); m_maxY=f->GetMaxY(); } else { if (f->GetMinX()GetMinX(); if (f->GetMaxX()>m_maxX) m_maxX=f->GetMaxX(); if (f->GetMinY()GetMinY(); if (f->GetMaxY()>m_maxY) m_maxY=f->GetMaxY(); } } //node = node->GetNext(); } #ifdef MATHPLOT_DO_LOGGING wxLogDebug(wxT("[mpWindow::UpdateBBox] Bounding box: Xmin = %f, Xmax = %f, Ymin = %f, YMax = %f"), m_minX, m_maxX, m_minY, m_maxY); #endif // MATHPLOT_DO_LOGGING return first == FALSE; } // void mpWindow::UpdateAll() // { // GetClientSize( &m_scrX,&m_scrY); /* if (m_enableScrollBars) { // The "virtual size" of the scrolled window: const int sx = (int)((m_maxX - m_minX) * GetScaleX()); const int sy = (int)((m_maxY - m_minY) * GetScaleY()); SetVirtualSize(sx, sy); SetScrollRate(1, 1);*/ // const int px = (int)((GetPosX() - m_minX) * GetScaleX());// - m_scrX); //(cx>>1)); // J.L.Blanco, Aug 2007: Formula fixed: // const int py = (int)((m_maxY - GetPosY()) * GetScaleY());// - m_scrY); //(cy>>1)); // int px, py; // GetViewStart(&px0, &py0); // px = (int)((m_posX - m_minX)*m_scaleX); // py = (int)((m_maxY - m_posY)*m_scaleY); // SetScrollbars( 1, 1, sx - m_scrX, sy - m_scrY, px, py, TRUE); // } // Working code // UpdateBBox(); // Refresh( FALSE ); // end working code // Old version /* bool box = UpdateBBox(); if (box) { int cx, cy; GetClientSize( &cx, &cy); // The "virtual size" of the scrolled window: const int sx = (int)((m_maxX - m_minX) * GetScaleX()); const int sy = (int)((m_maxY - m_minY) * GetScaleY()); const int px = (int)((GetPosX() - m_minX) * GetScaleX() - (cx>>1)); // J.L.Blanco, Aug 2007: Formula fixed: const int py = (int)((m_maxY - GetPosY()) * GetScaleY() - (cy>>1)); SetScrollbars( 1, 1, sx, sy, px, py, TRUE); #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("[mpWindow::UpdateAll] Size:%ix%i ScrollBars:%i,%i"),sx,sy,px,py); #endif } FitInside(); Refresh( FALSE ); */ // } void mpWindow::UpdateAll() { if (UpdateBBox()) { if (m_enableScrollBars) { int cx, cy; GetClientSize( &cx, &cy); // Do x scroll bar { // Convert margin sizes from pixels to coordinates double leftMargin = m_marginLeft / m_scaleX; // Calculate the range in coords that we want to scroll over double maxX = (m_desiredXmax > m_maxX) ? m_desiredXmax : m_maxX; double minX = (m_desiredXmin < m_minX) ? m_desiredXmin : m_minX; if ((m_posX + leftMargin) < minX) minX = m_posX + leftMargin; // Calculate scroll bar size and thumb position int sizeX = (int) ((maxX - minX) * m_scaleX); int thumbX = (int)(((m_posX + leftMargin) - minX) * m_scaleX); SetScrollbar(wxHORIZONTAL, thumbX, cx - (m_marginRight + m_marginLeft), sizeX); } // Do y scroll bar { // Convert margin sizes from pixels to coordinates double topMargin = m_marginTop / m_scaleY; // Calculate the range in coords that we want to scroll over double maxY = (m_desiredYmax > m_maxY) ? m_desiredYmax : m_maxY; if ((m_posY - topMargin) > maxY) maxY = m_posY - topMargin; double minY = (m_desiredYmin < m_minY) ? m_desiredYmin : m_minY; // Calculate scroll bar size and thumb position int sizeY = (int)((maxY - minY) * m_scaleY); int thumbY = (int)((maxY - (m_posY - topMargin)) * m_scaleY); SetScrollbar(wxVERTICAL, thumbY, cy - (m_marginTop + m_marginBottom), sizeY); } } } Refresh( FALSE ); } void mpWindow::DoScrollCalc (const int position, const int orientation) { if (orientation == wxVERTICAL) { // Y axis // Get top margin in coord units double topMargin = m_marginTop / m_scaleY; // Calculate maximum Y coord to be shown in the graph double maxY = m_desiredYmax > m_maxY ? m_desiredYmax : m_maxY; // Set new position SetPosY((maxY - (position / m_scaleY)) + topMargin); } else { // X Axis // Get left margin in coord units double leftMargin = m_marginLeft / m_scaleX; // Calculate minimum X coord to be shown in the graph double minX = (m_desiredXmin < m_minX) ? m_desiredXmin : m_minX; // Set new position SetPosX((minX + (position / m_scaleX)) - leftMargin); } } void mpWindow::OnScrollThumbTrack (wxScrollWinEvent &event) { DoScrollCalc(event.GetPosition(), event.GetOrientation()); } void mpWindow::OnScrollPageUp (wxScrollWinEvent &event) { int scrollOrientation = event.GetOrientation(); // Get position before page up int position = GetScrollPos(scrollOrientation); // Get thumb size int thumbSize = GetScrollThumb(scrollOrientation); // Need to adjust position by a page position -= thumbSize; if (position < 0) position = 0; DoScrollCalc(position, scrollOrientation); } void mpWindow::OnScrollPageDown (wxScrollWinEvent &event) { int scrollOrientation = event.GetOrientation(); // Get position before page up int position = GetScrollPos(scrollOrientation); // Get thumb size int thumbSize = GetScrollThumb(scrollOrientation); // Get scroll range int scrollRange = GetScrollRange(scrollOrientation); // Need to adjust position by a page position += thumbSize; if (position > (scrollRange - thumbSize)) position = scrollRange - thumbSize; DoScrollCalc(position, scrollOrientation); } void mpWindow::OnScrollLineUp (wxScrollWinEvent &event) { int scrollOrientation = event.GetOrientation(); // Get position before page up int position = GetScrollPos(scrollOrientation); // Need to adjust position by a line position -= mpSCROLL_NUM_PIXELS_PER_LINE; if (position < 0) position = 0; DoScrollCalc(position, scrollOrientation); } void mpWindow::OnScrollLineDown (wxScrollWinEvent &event) { int scrollOrientation = event.GetOrientation(); // Get position before page up int position = GetScrollPos(scrollOrientation); // Get thumb size int thumbSize = GetScrollThumb(scrollOrientation); // Get scroll range int scrollRange = GetScrollRange(scrollOrientation); // Need to adjust position by a page position += mpSCROLL_NUM_PIXELS_PER_LINE; if (position > (scrollRange - thumbSize)) position = scrollRange - thumbSize; DoScrollCalc(position, scrollOrientation); } void mpWindow::OnScrollTop(wxScrollWinEvent &event) { DoScrollCalc(0, event.GetOrientation()); } void mpWindow::OnScrollBottom(wxScrollWinEvent &event) { int scrollOrientation = event.GetOrientation(); // Get thumb size int thumbSize = GetScrollThumb(scrollOrientation); // Get scroll range int scrollRange = GetScrollRange(scrollOrientation); DoScrollCalc(scrollRange - thumbSize, scrollOrientation); } // End patch ngpaton void mpWindow::SetScaleX(double scaleX) { if (scaleX!=0) m_scaleX=scaleX; UpdateAll(); } // New methods implemented by Davide Rondini unsigned int mpWindow::CountLayers() { //wxNode *node = m_layers.GetFirst(); unsigned int layerNo = 0; for(wxLayerList::iterator li = m_layers.begin(); li != m_layers.end(); li++)//while(node) { if ((*li)->HasBBox()) layerNo++; // node = node->GetNext(); }; return layerNo; } mpLayer* mpWindow::GetLayer(int position) { if ((position >= (int) m_layers.size()) || position < 0) return NULL; return m_layers[position]; } mpLayer* mpWindow::GetLayerByName( const wxString &name) { for (wxLayerList::iterator it=m_layers.begin();it!=m_layers.end();it++) if (! (*it)->GetName().Cmp( name ) ) return *it; return NULL; // Not found } void mpWindow::GetBoundingBox(double* bbox) { bbox[0] = m_minX; bbox[1] = m_maxX; bbox[2] = m_minY; bbox[3] = m_maxY; } bool mpWindow::SaveScreenshot(const wxString& filename, int type, wxSize imageSize, bool fit) { int sizeX, sizeY; int bk_scrX, bk_scrY; if (imageSize == wxDefaultSize) { sizeX = m_scrX; sizeY = m_scrY; } else { sizeX = imageSize.x; sizeY = imageSize.y; bk_scrX = m_scrX; bk_scrY = m_scrY; SetScr(sizeX, sizeY); } wxBitmap screenBuffer(sizeX,sizeY); wxMemoryDC screenDC; screenDC.SelectObject(screenBuffer); screenDC.SetPen( *wxTRANSPARENT_PEN ); wxBrush brush( GetBackgroundColour() ); screenDC.SetBrush( brush ); screenDC.DrawRectangle(0,0,sizeX,sizeY); if (fit) { Fit(m_minX, m_maxX, m_minY, m_maxY, &sizeX, &sizeY); } else { Fit(m_desiredXmin, m_desiredXmax, m_desiredYmin, m_desiredYmax, &sizeX, &sizeY); } // Draw all the layers: wxLayerList::iterator li; for (li = m_layers.begin(); li != m_layers.end(); li++) (*li)->Plot(screenDC, *this); if (imageSize != wxDefaultSize) { // Restore dimensions SetScr(bk_scrX, bk_scrY); Fit(m_desiredXmin, m_desiredXmax, m_desiredYmin, m_desiredYmax, &bk_scrX, &bk_scrY); UpdateAll(); } // Once drawing is complete, actually save screen shot wxImage screenImage = screenBuffer.ConvertToImage(); return screenImage.SaveFile(filename, type); } void mpWindow::SetMargins(int top, int right, int bottom, int left) { m_marginTop = top; m_marginRight = right; m_marginBottom = bottom; m_marginLeft = left; } mpInfoLayer* mpWindow::IsInsideInfoLayer(wxPoint& point) { wxLayerList::iterator li; for (li = m_layers.begin(); li != m_layers.end(); li++) { #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::IsInsideInfoLayer() examinining layer = %p"), (*li)); #endif // MATHPLOT_DO_LOGGING if ((*li)->IsInfo()) { mpInfoLayer* tmpLyr = (mpInfoLayer*) (*li); #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("mpWindow::IsInsideInfoLayer() layer = %p"), (*li)); #endif // MATHPLOT_DO_LOGGING if (tmpLyr->Inside(point)) { return tmpLyr; } } } return NULL; } void mpWindow::SetLayerVisible(const wxString &name, bool viewable) { mpLayer* lx = GetLayerByName(name); if ( lx ) { lx->SetVisible(viewable); UpdateAll(); } } bool mpWindow::IsLayerVisible(const wxString &name ) { mpLayer* lx = GetLayerByName(name); return (lx) ? lx->IsVisible() : false; } void mpWindow::SetLayerVisible(const unsigned int position, bool viewable) { mpLayer* lx = GetLayer(position); if ( lx ) { lx->SetVisible(viewable); UpdateAll(); } } bool mpWindow::IsLayerVisible(const unsigned int position ) { mpLayer* lx = GetLayer(position); return (lx) ? lx->IsVisible() : false; } void mpWindow::SetColourTheme(const wxColour& bgColour, const wxColour& drawColour, const wxColour& axesColour) { SetBackgroundColour(bgColour); SetForegroundColour(drawColour); m_bgColour = bgColour; m_fgColour = drawColour; m_axColour = axesColour; // cycle between layers to set colours and properties to them wxLayerList::iterator li; for (li = m_layers.begin(); li != m_layers.end(); li++) { if ((*li)->GetLayerType() == mpLAYER_AXIS) { wxPen axisPen = (*li)->GetPen(); // Get the old pen to modify only colour, not style or width axisPen.SetColour(axesColour); (*li)->SetPen(axisPen); } if ((*li)->GetLayerType() == mpLAYER_INFO) { wxPen infoPen = (*li)->GetPen(); // Get the old pen to modify only colour, not style or width infoPen.SetColour(drawColour); (*li)->SetPen(infoPen); } } } // void mpWindow::EnableCoordTooltip(bool value) // { // m_coordTooltip = value; // // if (value) GetToolTip()->SetDelay(100); // } /* double mpWindow::p2x(wxCoord pixelCoordX, bool drawOutside ) { if (drawOutside) { return m_posX + pixelCoordX/m_scaleX; } // Draw inside margins double marginScaleX = ((double)(m_scrX - m_marginLeft - m_marginRight))/m_scrX; return m_marginLeft + (m_posX + pixelCoordX/m_scaleX)/marginScaleX; } double mpWindow::p2y(wxCoord pixelCoordY, bool drawOutside ) { if (drawOutside) { return m_posY - pixelCoordY/m_scaleY; } // Draw inside margins double marginScaleY = ((double)(m_scrY - m_marginTop - m_marginBottom))/m_scrY; return m_marginTop + (m_posY - pixelCoordY/m_scaleY)/marginScaleY; } wxCoord mpWindow::x2p(double x, bool drawOutside) { if (drawOutside) { return (wxCoord) ((x-m_posX) * m_scaleX); } // Draw inside margins double marginScaleX = ((double)(m_scrX - m_marginLeft - m_marginRight))/m_scrX; #ifdef MATHPLOT_DO_LOGGING wxLogMessage(wxT("x2p ScrX = %d, marginRight = %d, marginLeft = %d, marginScaleX = %f"), m_scrX, m_marginRight, m_marginLeft, marginScaleX); #endif // MATHPLOT_DO_LOGGING return (wxCoord) (int)(((x-m_posX) * m_scaleX)*marginScaleX) - m_marginLeft; } wxCoord mpWindow::y2p(double y, bool drawOutside) { if (drawOutside) { return (wxCoord) ( (m_posY-y) * m_scaleY); } // Draw inside margins double marginScaleY = ((double)(m_scrY - m_marginTop - m_marginBottom))/m_scrY; #ifdef MATHPLOT_DO_LOGGING wxLogMessage(wxT("y2p ScrY = %d, marginTop = %d, marginBottom = %d, marginScaleY = %f"), m_scrY, m_marginTop, m_marginBottom, marginScaleY); #endif // MATHPLOT_DO_LOGGING return (wxCoord) ((int)((m_posY-y) * m_scaleY)*marginScaleY) - m_marginTop; } */ //----------------------------------------------------------------------------- // mpFXYVector implementation - by Jose Luis Blanco (AGO-2007) //----------------------------------------------------------------------------- IMPLEMENT_DYNAMIC_CLASS(mpFXYVector, mpFXY) // Constructor mpFXYVector::mpFXYVector(wxString name, int flags ) : mpFXY(name,flags) { m_index = 0; m_minX = -1; m_maxX = 1; m_minY = -1; m_maxY = 1; m_type = mpLAYER_PLOT; } void mpFXYVector::Rewind() { m_index = 0; } bool mpFXYVector::GetNextXY(double & x, double & y) { if (m_index>=m_xs.size()) return FALSE; else { x = m_xs[m_index]; y = m_ys[m_index++]; return m_index<=m_xs.size(); } } void mpFXYVector::Clear() { m_xs.clear(); m_ys.clear(); } void mpFXYVector::SetData( const std::vector &xs,const std::vector &ys) { // Check if the data vectora are of the same size if (xs.size() != ys.size()) { wxLogError(_("wxMathPlot error: X and Y vector are not of the same length!")); return; } // Copy the data: m_xs = xs; m_ys = ys; // Update internal variables for the bounding box. if (xs.size()>0) { m_minX = xs[0]; m_maxX = xs[0]; m_minY = ys[0]; m_maxY = ys[0]; std::vector::const_iterator it; for (it=xs.begin();it!=xs.end();it++) { if (*itm_maxX) m_maxX=*it; } for (it=ys.begin();it!=ys.end();it++) { if (*itm_maxY) m_maxY=*it; } } else { m_minX = -1; m_maxX = 1; m_minY = -1; m_maxY = 1; } } //----------------------------------------------------------------------------- // mpText - provided by Val Greene //----------------------------------------------------------------------------- IMPLEMENT_DYNAMIC_CLASS(mpText, mpLayer) /** @param name text to be displayed @param offsetx x position in percentage (0-100) @param offsetx y position in percentage (0-100) */ mpText::mpText( wxString name, int offsetx, int offsety ) { SetName(name); if (offsetx >= 0 && offsetx <= 100) m_offsetx = offsetx; else m_offsetx = 5; if (offsety >= 0 && offsety <= 100) m_offsety = offsety; else m_offsetx = 50; m_type = mpLAYER_INFO; } /** mpText Layer plot handler. This implementation will plot the text adjusted to the visible area. */ void mpText::Plot(wxDC & dc, mpWindow & w) { if (m_visible) { dc.SetPen(m_pen); dc.SetFont(m_font); wxCoord tw=0, th=0; dc.GetTextExtent( GetName(), &tw, &th); // int left = -dc.LogicalToDeviceX(0); // int width = dc.LogicalToDeviceX(0) - left; // int bottom = dc.LogicalToDeviceY(0); // int height = bottom - -dc.LogicalToDeviceY(0); /* dc.DrawText( GetName(), (int)((((float)width/100.0) * m_offsety) + left - (tw/2)), (int)((((float)height/100.0) * m_offsetx) - bottom) );*/ int px = m_offsetx*(w.GetScrX() - w.GetMarginLeft() - w.GetMarginRight())/100; int py = m_offsety*(w.GetScrY() - w.GetMarginTop() - w.GetMarginBottom())/100; dc.DrawText( GetName(), px, py); } } //----------------------------------------------------------------------------- // mpPrintout - provided by Davide Rondini //----------------------------------------------------------------------------- mpPrintout::mpPrintout(mpWindow *drawWindow, const wxChar *title) : wxPrintout(title) { drawn = false; plotWindow = drawWindow; } bool mpPrintout::OnPrintPage(int page) { wxDC *trgDc = GetDC(); if ((trgDc) && (page == 1)) { wxCoord m_prnX, m_prnY; int marginX = 50; int marginY = 50; trgDc->GetSize(&m_prnX, &m_prnY); m_prnX -= (2*marginX); m_prnY -= (2*marginY); trgDc->SetDeviceOrigin(marginX, marginY); #ifdef MATHPLOT_DO_LOGGING wxLogMessage(wxT("Print Size: %d x %d\n"), m_prnX, m_prnY); wxLogMessage(wxT("Screen Size: %d x %d\n"), plotWindow->GetScrX(), plotWindow->GetScrY()); #endif // Set the scale according to the page: plotWindow->Fit( plotWindow->GetDesiredXmin(), plotWindow->GetDesiredXmax(), plotWindow->GetDesiredYmin(), plotWindow->GetDesiredYmax(), &m_prnX, &m_prnY ); // Get the colours of the plotWindow to restore them ath the end wxColour oldBgColour = plotWindow->GetBackgroundColour(); wxColour oldFgColour = plotWindow->GetForegroundColour(); wxColour oldAxColour = plotWindow->GetAxesColour(); // Draw background, ensuring to use white background for printing. trgDc->SetPen( *wxTRANSPARENT_PEN ); // wxBrush brush( plotWindow->GetBackgroundColour() ); wxBrush brush = *wxWHITE_BRUSH; trgDc->SetBrush( brush ); trgDc->DrawRectangle(0,0,m_prnX,m_prnY); // Draw all the layers: //trgDc->SetDeviceOrigin( m_prnX>>1, m_prnY>>1); // Origin at the center mpLayer *layer; for (unsigned int li = 0; li < plotWindow->CountAllLayers(); li++) { layer = plotWindow->GetLayer(li); layer->Plot(*trgDc, *plotWindow); }; // Restore device origin // trgDc->SetDeviceOrigin(0, 0); // Restore colours plotWindow->SetColourTheme(oldBgColour, oldFgColour, oldAxColour); // Restore drawing plotWindow->Fit(plotWindow->GetDesiredXmin(), plotWindow->GetDesiredXmax(), plotWindow->GetDesiredYmin(), plotWindow->GetDesiredYmax(), NULL, NULL); plotWindow->UpdateAll(); } return true; } bool mpPrintout::HasPage(int page) { return (page == 1); } //----------------------------------------------------------------------------- // mpMovableObject - provided by Jose Luis Blanco //----------------------------------------------------------------------------- void mpMovableObject::TranslatePoint( double x,double y, double &out_x, double &out_y ) { double ccos = cos( m_reference_phi ); // Avoid computing cos/sin twice. double csin = sin( m_reference_phi ); out_x = m_reference_x + ccos * x - csin * y; out_y = m_reference_y + csin * x + ccos * y; } // This method updates the buffers m_trans_shape_xs/ys, and the precomputed bounding box. void mpMovableObject::ShapeUpdated() { // Just in case... if (m_shape_xs.size()!=m_shape_ys.size()) { wxLogError(wxT("[mpMovableObject::ShapeUpdated] Error, m_shape_xs and m_shape_ys have different lengths!")); } else { double ccos = cos( m_reference_phi ); // Avoid computing cos/sin twice. double csin = sin( m_reference_phi ); m_trans_shape_xs.resize(m_shape_xs.size()); m_trans_shape_ys.resize(m_shape_xs.size()); std::vector::iterator itXi, itXo; std::vector::iterator itYi, itYo; m_bbox_min_x=1e300; m_bbox_max_x=-1e300; m_bbox_min_y=1e300; m_bbox_max_y=-1e300; for (itXo=m_trans_shape_xs.begin(),itYo=m_trans_shape_ys.begin(),itXi=m_shape_xs.begin(),itYi=m_shape_ys.begin(); itXo!=m_trans_shape_xs.end(); itXo++,itYo++,itXi++,itYi++) { *itXo = m_reference_x + ccos * (*itXi) - csin * (*itYi); *itYo = m_reference_y + csin * (*itXi) + ccos * (*itYi); // Keep BBox: if (*itXo < m_bbox_min_x) m_bbox_min_x = *itXo; if (*itXo > m_bbox_max_x) m_bbox_max_x = *itXo; if (*itYo < m_bbox_min_y) m_bbox_min_y = *itYo; if (*itYo > m_bbox_max_y) m_bbox_max_y = *itYo; } } } void mpMovableObject::Plot(wxDC & dc, mpWindow & w) { if (m_visible) { dc.SetPen( m_pen); std::vector::iterator itX=m_trans_shape_xs.begin(); std::vector::iterator itY=m_trans_shape_ys.begin(); if (!m_continuous) { // for some reason DrawPoint does not use the current pen, // so we use DrawLine for fat pens if (m_pen.GetWidth() <= 1) { while (itX!=m_trans_shape_xs.end()) { dc.DrawPoint( w.x2p(*(itX++)), w.y2p( *(itY++) ) ); } } else { while (itX!=m_trans_shape_xs.end()) { wxCoord cx = w.x2p(*(itX++)); wxCoord cy = w.y2p(*(itY++)); dc.DrawLine(cx, cy, cx, cy); } } } else { wxCoord cx0=0,cy0=0; bool first = TRUE; while (itX!=m_trans_shape_xs.end()) { wxCoord cx = w.x2p(*(itX++)); wxCoord cy = w.y2p(*(itY++)); if (first) { first=FALSE; cx0=cx;cy0=cy; } dc.DrawLine(cx0, cy0, cx, cy); cx0=cx; cy0=cy; } } if (!m_name.IsEmpty() && m_showName) { dc.SetFont(m_font); wxCoord tx, ty; dc.GetTextExtent(m_name, &tx, &ty); if (HasBBox()) { wxCoord sx = (wxCoord) (( m_bbox_max_x - w.GetPosX()) * w.GetScaleX()); wxCoord sy = (wxCoord) ((w.GetPosY() - m_bbox_max_y ) * w.GetScaleY()); tx = sx - tx - 8; ty = sy - 8 - ty; } else { const int sx = w.GetScrX()>>1; const int sy = w.GetScrY()>>1; if ((m_flags & mpALIGNMASK) == mpALIGN_NE) { tx = sx - tx - 8; ty = -sy + 8; } else if ((m_flags & mpALIGNMASK) == mpALIGN_NW) { tx = -sx + 8; ty = -sy + 8; } else if ((m_flags & mpALIGNMASK) == mpALIGN_SW) { tx = -sx + 8; ty = sy - 8 - ty; } else { tx = sx - tx - 8; ty = sy - 8 - ty; } } dc.DrawText( m_name, tx, ty); } } } //----------------------------------------------------------------------------- // mpCovarianceEllipse - provided by Jose Luis Blanco //----------------------------------------------------------------------------- // Called to update the m_shape_xs, m_shape_ys vectors, whenever a parameter changes. void mpCovarianceEllipse::RecalculateShape() { m_shape_xs.clear(); m_shape_ys.clear(); // Preliminar checks: if (m_quantiles<0) { wxLogError(wxT("[mpCovarianceEllipse] Error: quantiles must be non-negative")); return; } if (m_cov_00<0) { wxLogError(wxT("[mpCovarianceEllipse] Error: cov(0,0) must be non-negative")); return; } if (m_cov_11<0) { wxLogError(wxT("[mpCovarianceEllipse] Error: cov(1,1) must be non-negative")); return; } m_shape_xs.resize( m_segments,0 ); m_shape_ys.resize( m_segments,0 ); // Compute the two eigenvalues of the covariance: // ------------------------------------------------- double b = -m_cov_00 - m_cov_11; double c = m_cov_00*m_cov_11 - m_cov_01*m_cov_01; double D = b*b - 4*c; if (D<0) { wxLogError(wxT("[mpCovarianceEllipse] Error: cov is not positive definite")); return; } double eigenVal0 =0.5*( -b + sqrt(D) ); double eigenVal1 =0.5*( -b - sqrt(D) ); // Compute the two corresponding eigenvectors: // ------------------------------------------------- double eigenVec0_x,eigenVec0_y; double eigenVec1_x,eigenVec1_y; if (fabs(eigenVal0 - m_cov_00)>1e-6) { double k1x = m_cov_01 / ( eigenVal0 - m_cov_00 ); eigenVec0_y = 1; eigenVec0_x = eigenVec0_y * k1x; } else { double k1y = m_cov_01 / ( eigenVal0 - m_cov_11 ); eigenVec0_x = 1; eigenVec0_y = eigenVec0_x * k1y; } if (fabs(eigenVal1 - m_cov_00)>1e-6) { double k2x = m_cov_01 / ( eigenVal1 - m_cov_00 ); eigenVec1_y = 1; eigenVec1_x = eigenVec1_y * k2x; } else { double k2y = m_cov_01 / ( eigenVal1 - m_cov_11 ); eigenVec1_x = 1; eigenVec1_y = eigenVec1_x * k2y; } // Normalize the eigenvectors: double len = sqrt( eigenVec0_x*eigenVec0_x + eigenVec0_y*eigenVec0_y ); eigenVec0_x /= len; // It *CANNOT* be zero eigenVec0_y /= len; len = sqrt( eigenVec1_x*eigenVec1_x + eigenVec1_y*eigenVec1_y ); eigenVec1_x /= len; // It *CANNOT* be zero eigenVec1_y /= len; // Take the sqrt of the eigenvalues (required for the ellipse scale): eigenVal0 = sqrt(eigenVal0); eigenVal1 = sqrt(eigenVal1); // Compute the 2x2 matrix M = diag(eigVal) * (~eigVec) (each eigen vector is a row): double M_00 = eigenVec0_x * eigenVal0; double M_01 = eigenVec0_y * eigenVal0; double M_10 = eigenVec1_x * eigenVal1; double M_11 = eigenVec1_y * eigenVal1; // The points of the 2D ellipse: double ang; double Aang = 6.283185308/(m_segments-1); int i; for (i=0,ang=0;i& points_xs, const std::vector& points_ys, bool closedShape ) { if ( points_xs.size()!=points_ys.size() ) { wxLogError(wxT("[mpPolygon] Error: points_xs and points_ys must have the same number of elements")); } else { m_shape_xs = points_xs; m_shape_ys = points_ys; if ( closedShape && points_xs.size()) { m_shape_xs.push_back( points_xs[0] ); m_shape_ys.push_back( points_ys[0] ); } ShapeUpdated(); } } //----------------------------------------------------------------------------- // mpBitmapLayer - provided by Jose Luis Blanco //----------------------------------------------------------------------------- void mpBitmapLayer::GetBitmapCopy( wxImage &outBmp ) const { if (m_validImg) outBmp = m_bitmap; } void mpBitmapLayer::SetBitmap( const wxImage &inBmp, double x, double y, double lx, double ly ) { if (!inBmp.Ok()) { wxLogError(wxT("[mpBitmapLayer] Assigned bitmap is not Ok()!")); } else { m_bitmap = inBmp; //.GetSubBitmap( wxRect(0, 0, inBmp.GetWidth(), inBmp.GetHeight())); m_min_x = x; m_min_y = y; m_max_x = x+lx; m_max_y = y+ly; m_validImg = true; } } void mpBitmapLayer::Plot(wxDC & dc, mpWindow & w) { if (m_visible && m_validImg) { /* 1st: We compute (x0,y0)-(x1,y1), the pixel coordinates of the real outer limits of the image rectangle within the (screen) mpWindow. Note that these coordinates might fall well far away from the real view limits when the user zoom in. 2nd: We compute (dx0,dy0)-(dx1,dy1), the pixel coordinates the rectangle that will be actually drawn into the mpWindow, i.e. the clipped real rectangle that avoids the non-visible parts. (offset_x,offset_y) are the pixel coordinates that correspond to the window point (dx0,dy0) within the image "m_bitmap", and (b_width,b_height) is the size of the bitmap patch that will be drawn. (x0,y0) ................. (x1,y0) . . . . (x0,y1) ................ (x1,y1) (In pixels!!) */ // 1st step ------------------------------- wxCoord x0 = w.x2p(m_min_x); wxCoord y0 = w.y2p(m_max_y); wxCoord x1 = w.x2p(m_max_x); wxCoord y1 = w.y2p(m_min_y); // 2nd step ------------------------------- // Precompute the size of the actual bitmap pixel on the screen (e.g. will be >1 if zoomed in) double screenPixelX = ( x1-x0 ) / (double)m_bitmap.GetWidth(); double screenPixelY = ( y1-y0 ) / (double)m_bitmap.GetHeight(); // The minimum number of pixels that the streched image will overpass the actual mpWindow borders: wxCoord borderMarginX = (wxCoord)(screenPixelX+1); // ceil wxCoord borderMarginY = (wxCoord)(screenPixelY+1); // ceil // The actual drawn rectangle (dx0,dy0)-(dx1,dy1) is (x0,y0)-(x1,y1) clipped: wxCoord dx0=x0,dx1=x1,dy0=y0,dy1=y1; if (dx0<0) dx0=-borderMarginX; if (dy0<0) dy0=-borderMarginY; if (dx1>w.GetScrX()) dx1=w.GetScrX()+borderMarginX; if (dy1>w.GetScrY()) dy1=w.GetScrY()+borderMarginY; // For convenience, compute the width/height of the rectangle to be actually drawn: wxCoord d_width = dx1-dx0+1; wxCoord d_height = dy1-dy0+1; // Compute the pixel offsets in the internally stored bitmap: wxCoord offset_x= (wxCoord) ( (dx0-x0)/screenPixelX ); wxCoord offset_y= (wxCoord) ( (dy0-y0)/screenPixelY ); // and the size in pixel of the area to be actually drawn from the internally stored bitmap: wxCoord b_width = (wxCoord) ( (dx1-dx0+1)/screenPixelX ); wxCoord b_height = (wxCoord) ( (dy1-dy0+1)/screenPixelY ); #ifdef MATHPLOT_DO_LOGGING wxLogMessage(_("[mpBitmapLayer::Plot] screenPixel: x=%f y=%f d_width=%ix%i"),screenPixelX,screenPixelY,d_width,d_height); wxLogMessage(_("[mpBitmapLayer::Plot] offset: x=%i y=%i bmpWidth=%ix%i"),offset_x,offset_y,b_width,b_height); #endif // Is there any visible region? if (d_width>0 && d_height>0) { // Build the scaled bitmap from the image, only if it has changed: if (m_scaledBitmap.GetWidth()!=d_width || m_scaledBitmap.GetHeight()!=d_height || m_scaledBitmap_offset_x != offset_x || m_scaledBitmap_offset_y != offset_y ) { wxRect r(wxRect(offset_x,offset_y,b_width,b_height)); // Just for the case.... if (r.x<0) r.x=0; if (r.y<0) r.y=0; if (r.width>m_bitmap.GetWidth()) r.width=m_bitmap.GetWidth(); if (r.height>m_bitmap.GetHeight()) r.height=m_bitmap.GetHeight(); m_scaledBitmap = wxBitmap( wxBitmap(m_bitmap).GetSubBitmap( r ).ConvertToImage() .Scale(d_width,d_height) ); m_scaledBitmap_offset_x = offset_x; m_scaledBitmap_offset_y = offset_y; } // Draw it: dc.DrawBitmap( m_scaledBitmap, dx0,dy0, true ); } } // Draw the name label if (!m_name.IsEmpty() && m_showName) { dc.SetFont(m_font); wxCoord tx, ty; dc.GetTextExtent(m_name, &tx, &ty); if (HasBBox()) { wxCoord sx = (wxCoord) (( m_max_x - w.GetPosX()) * w.GetScaleX()); wxCoord sy = (wxCoord) ((w.GetPosY() - m_max_y ) * w.GetScaleY()); tx = sx - tx - 8; ty = sy - 8 - ty; } else { const int sx = w.GetScrX()>>1; const int sy = w.GetScrY()>>1; if ((m_flags & mpALIGNMASK) == mpALIGN_NE) { tx = sx - tx - 8; ty = -sy + 8; } else if ((m_flags & mpALIGNMASK) == mpALIGN_NW) { tx = -sx + 8; ty = -sy + 8; } else if ((m_flags & mpALIGNMASK) == mpALIGN_SW) { tx = -sx + 8; ty = sy - 8 - ty; } else { tx = sx - tx - 8; ty = sy - 8 - ty; } } dc.DrawText( m_name, tx, ty); } }