/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2009 Jean-Pierre Charras, jaen-pierre.charras@gipsa-lab.inpg.com * Copyright (C) 2007-2011 Wayne Stambaugh * Copyright (C) 1992-2011 KiCad Developers, see AUTHORS.txt for contributors. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, you may find one here: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ /** * @file drawpanel.cpp */ #include "fctsys.h" #include "appl_wxstruct.h" #include "gr_basic.h" #include "common.h" #include "macros.h" #include "id.h" #include "class_drawpanel.h" #include "class_base_screen.h" #include "wxstruct.h" #include "kicad_device_context.h" #define CURSOR_SIZE 12 // Cursor size in pixels #define CLIP_BOX_PADDING 2 /* Definitions for enabling and disabling debugging features in drawpanel.cpp. * Please don't forget to turn these off before making any commits to Launchpad. */ #define DEBUG_SHOW_CLIP_RECT 0 // Set to 1 to draw clipping rectangle. /** * Trace mask used to enable or disable the trace output of coordinates during drawing * functions. The coordinate dumping can be turned on by setting the WXTRACE environment * variable to "kicad_dump_coords". See the wxWidgets documentation on wxLogTrace for * more information. */ #define KICAD_TRACE_COORDS wxT( "kicad_dump_coords" ) // Events used by EDA_DRAW_PANEL BEGIN_EVENT_TABLE( EDA_DRAW_PANEL, wxScrolledWindow ) EVT_LEAVE_WINDOW( EDA_DRAW_PANEL::OnMouseLeaving ) EVT_MOUSEWHEEL( EDA_DRAW_PANEL::OnMouseWheel ) EVT_MOUSE_EVENTS( EDA_DRAW_PANEL::OnMouseEvent ) EVT_CHAR( EDA_DRAW_PANEL::OnKeyEvent ) EVT_CHAR_HOOK( EDA_DRAW_PANEL::OnKeyEvent ) EVT_PAINT( EDA_DRAW_PANEL::OnPaint ) EVT_ERASE_BACKGROUND( EDA_DRAW_PANEL::OnEraseBackground ) EVT_SCROLLWIN( EDA_DRAW_PANEL::OnScroll ) EVT_ACTIVATE( EDA_DRAW_PANEL::OnActivate ) EVT_MENU_RANGE( ID_PAN_UP, ID_PAN_RIGHT, EDA_DRAW_PANEL::OnPan ) END_EVENT_TABLE() /***********************************************************************/ /* EDA_DRAW_PANEL base functions (EDA_DRAW_PANEL is the main panel)*/ /***********************************************************************/ EDA_DRAW_PANEL::EDA_DRAW_PANEL( EDA_DRAW_FRAME* parent, int id, const wxPoint& pos, const wxSize& size ) : wxScrolledWindow( parent, id, pos, size, wxBORDER | wxHSCROLL | wxVSCROLL ) { wxASSERT( parent ); m_scrollIncrementX = MIN( size.x / 8, 10 ); m_scrollIncrementY = MIN( size.y / 8, 10 ); SetBackgroundColour( MakeColour( g_DrawBgColor ) ); #if KICAD_USE_BUFFERED_DC || KICAD_USE_BUFFERED_PAINTDC SetBackgroundStyle( wxBG_STYLE_CUSTOM ); #endif m_ClipBox.SetSize( size ); m_ClipBox.SetX( 0 ); m_ClipBox.SetY( 0 ); m_CanStartBlock = -1; // Command block can start if >= 0 m_AbortEnable = m_AbortRequest = false; m_AutoPAN_Enable = true; m_IgnoreMouseEvents = 0; m_mouseCaptureCallback = NULL; m_endMouseCaptureCallback = NULL; if( wxGetApp().m_EDA_Config ) wxGetApp().m_EDA_Config->Read( wxT( "AutoPAN" ), &m_AutoPAN_Enable, true ); m_AutoPAN_Request = false; m_Block_Enable = false; #ifdef __WXMAC__ m_defaultCursor = m_currentCursor = wxCURSOR_CROSS; m_showCrossHair = false; #else m_defaultCursor = m_currentCursor = wxCURSOR_ARROW; m_showCrossHair = true; #endif m_cursorLevel = 0; m_PrintIsMirrored = false; } EDA_DRAW_PANEL::~EDA_DRAW_PANEL() { wxGetApp().m_EDA_Config->Write( wxT( "AutoPAN" ), m_AutoPAN_Enable ); } EDA_DRAW_FRAME* EDA_DRAW_PANEL::GetParent() { return ( EDA_DRAW_FRAME* ) wxWindow::GetParent(); } BASE_SCREEN* EDA_DRAW_PANEL::GetScreen() { EDA_DRAW_FRAME* parentFrame = GetParent(); return parentFrame->GetScreen(); } void EDA_DRAW_PANEL::DrawCrossHair( wxDC* aDC, int aColor ) { if( m_cursorLevel != 0 || aDC == NULL || !m_showCrossHair ) return; wxPoint Cursor = GetScreen()->GetCrossHairPosition(); GRSetDrawMode( aDC, GR_XOR ); if( GetParent()->m_CursorShape == 1 ) /* Draws a crosshair. */ { wxSize clientSize = GetClientSize(); wxPoint lineStart = wxPoint( Cursor.x, aDC->DeviceToLogicalY( 0 ) ); wxPoint lineEnd = wxPoint( Cursor.x, aDC->DeviceToLogicalY( clientSize.y ) ); GRLine( &m_ClipBox, aDC, lineStart, lineEnd, 0, aColor ); // Y axis lineStart = wxPoint( aDC->DeviceToLogicalX( 0 ), Cursor.y ); lineEnd = wxPoint( aDC->DeviceToLogicalX( clientSize.x ), Cursor.y ); GRLine( &m_ClipBox, aDC, lineStart, lineEnd, 0, aColor ); // X axis } else { int len = aDC->DeviceToLogicalXRel( CURSOR_SIZE ); GRLine( &m_ClipBox, aDC, Cursor.x - len, Cursor.y, Cursor.x + len, Cursor.y, 0, aColor ); GRLine( &m_ClipBox, aDC, Cursor.x, Cursor.y - len, Cursor.x, Cursor.y + len, 0, aColor ); } } void EDA_DRAW_PANEL::CrossHairOff( wxDC* DC ) { DrawCrossHair( DC ); --m_cursorLevel; } void EDA_DRAW_PANEL::CrossHairOn( wxDC* DC ) { ++m_cursorLevel; DrawCrossHair( DC ); if( m_cursorLevel > 0 ) // Shouldn't happen, but just in case .. m_cursorLevel = 0; } int EDA_DRAW_PANEL::GetZoom() { return GetScreen()->GetZoom(); } void EDA_DRAW_PANEL::SetZoom( int zoom ) { GetScreen()->SetZoom( zoom ); } wxRealPoint EDA_DRAW_PANEL::GetGrid() { return GetScreen()->GetGridSize(); } bool EDA_DRAW_PANEL::IsPointOnDisplay( const wxPoint& aPosition ) { wxPoint pos; EDA_RECT display_rect; INSTALL_UNBUFFERED_DC( dc, this ); // Refresh the clip box to the entire screen size. SetClipBox( dc ); display_rect = m_ClipBox; // Slightly decreased the size of the useful screen area to avoid drawing limits. #define PIXEL_MARGIN 8 display_rect.Inflate( -PIXEL_MARGIN ); return display_rect.Contains( aPosition ); } void EDA_DRAW_PANEL::RefreshDrawingRect( const EDA_RECT& aRect, bool aEraseBackground ) { INSTALL_UNBUFFERED_DC( dc, this ); wxRect rect = aRect; rect.x = dc.LogicalToDeviceX( rect.x ); rect.y = dc.LogicalToDeviceY( rect.y ); rect.width = dc.LogicalToDeviceXRel( rect.width ); rect.height = dc.LogicalToDeviceYRel( rect.height ); wxLogTrace( KICAD_TRACE_COORDS, wxT( "Refresh area: drawing (%d, %d, %d, %d), device (%d, %d, %d, %d)" ), aRect.GetX(), aRect.GetY(), aRect.GetWidth(), aRect.GetHeight(), rect.x, rect.y, rect.width, rect.height ); RefreshRect( rect, aEraseBackground ); } wxPoint EDA_DRAW_PANEL::GetScreenCenterLogicalPosition() { wxSize size = GetClientSize() / 2; INSTALL_UNBUFFERED_DC( dc, this ); return wxPoint( dc.DeviceToLogicalX( size.x ), dc.DeviceToLogicalY( size.y ) ); } void EDA_DRAW_PANEL::MoveCursorToCrossHair() { MoveCursor( GetScreen()->GetCrossHairPosition() ); } void EDA_DRAW_PANEL::MoveCursor( const wxPoint& aPosition ) { int x, y, xPpu, yPpu; wxPoint screenPos, drawingPos; wxRect clientRect( wxPoint( 0, 0 ), GetClientSize() ); INSTALL_UNBUFFERED_DC( dc, this ); screenPos.x = dc.LogicalToDeviceX( aPosition.x ); screenPos.y = dc.LogicalToDeviceY( aPosition.y ); // Scroll if the requested mouse position cursor is outside the drawing area. if( !clientRect.Contains( screenPos ) ) { GetViewStart( &x, &y ); GetScrollPixelsPerUnit( &xPpu, &yPpu ); CalcUnscrolledPosition( screenPos.x, screenPos.y, &drawingPos.x, &drawingPos.y ); wxLogTrace( KICAD_TRACE_COORDS, wxT( "MoveCursor() initial screen position(%d, %d) " ) \ wxT( "rectangle(%d, %d, %d, %d) view(%d, %d)" ), screenPos.x, screenPos.y, clientRect.x, clientRect.y, clientRect.width, clientRect.height, x, y ); if( screenPos.y < clientRect.GetTop() ) y -= m_scrollIncrementY * yPpu; else if( screenPos.y > clientRect.GetBottom() ) y += m_scrollIncrementY * yPpu; else if( clientRect.GetRight() < screenPos.x ) x += m_scrollIncrementX * xPpu; else x -= m_scrollIncrementX * xPpu; Scroll( x, y ); CalcScrolledPosition( drawingPos.x, drawingPos.y, &screenPos.x, &screenPos.y ); wxLogTrace( KICAD_TRACE_COORDS, wxT( "MoveCursor() scrolled screen position(%d, %d) view(%d, %d)" ), screenPos.x, screenPos.y, x, y ); } WarpPointer( screenPos.x, screenPos.y ); } void EDA_DRAW_PANEL::OnActivate( wxActivateEvent& event ) { m_CanStartBlock = -1; // Block Command can't start event.Skip(); } void EDA_DRAW_PANEL::OnScroll( wxScrollWinEvent& event ) { int id = event.GetEventType(); int dir; int x, y; int ppux, ppuy; int unitsX, unitsY; int maxX, maxY; GetViewStart( &x, &y ); GetScrollPixelsPerUnit( &ppux, &ppuy ); GetVirtualSize( &unitsX, &unitsY ); maxX = unitsX; maxY = unitsY; unitsX /= ppux; unitsY /= ppuy; dir = event.GetOrientation(); // wxHORIZONTAL or wxVERTICAL if( id == wxEVT_SCROLLWIN_LINEUP ) { if( dir == wxHORIZONTAL ) { x -= m_scrollIncrementX; if( x < 0 ) x = 0; } else { y -= m_scrollIncrementY; if( y < 0 ) y = 0; } } else if( id == wxEVT_SCROLLWIN_LINEDOWN ) { if( dir == wxHORIZONTAL ) { x += m_scrollIncrementX; if( x > maxX ) x = maxX; } else { y += m_scrollIncrementY; if( y > maxY ) y = maxY; } } else if( id == wxEVT_SCROLLWIN_THUMBTRACK ) { if( dir == wxHORIZONTAL ) x = event.GetPosition(); else y = event.GetPosition(); } else { event.Skip(); return; } wxLogTrace( KICAD_TRACE_COORDS, wxT( "Setting scroll bars ppuX=%d, ppuY=%d, unitsX=%d, unitsY=%d, posX=%d, posY=%d" ), ppux, ppuy, unitsX, unitsY, x, y ); Scroll( x/ppux, y/ppuy ); event.Skip(); } void EDA_DRAW_PANEL::SetClipBox( wxDC& aDC, const wxRect* aRect ) { wxRect clipBox; // Use the entire visible device area if no clip area was defined. if( aRect == NULL ) { BASE_SCREEN* Screen = GetScreen(); if( !Screen ) return; Screen->m_StartVisu = CalcUnscrolledPosition( wxPoint( 0, 0 ) ); clipBox.SetSize( GetClientSize() ); int scrollX, scrollY; double scalar = Screen->GetScalingFactor(); scrollX = wxRound( Screen->GetGridSize().x * scalar ); scrollY = wxRound( Screen->GetGridSize().y * scalar ); m_scrollIncrementX = MAX( GetClientSize().x / 8, scrollX ); m_scrollIncrementY = MAX( GetClientSize().y / 8, scrollY ); Screen->m_ScrollbarPos.x = GetScrollPos( wxHORIZONTAL ); Screen->m_ScrollbarPos.y = GetScrollPos( wxVERTICAL ); } else { clipBox = *aRect; } // Pad clip box in device units. clipBox.Inflate( CLIP_BOX_PADDING ); // Convert from device units to drawing units. m_ClipBox.m_Pos = wxPoint( aDC.DeviceToLogicalX( clipBox.x ), aDC.DeviceToLogicalY( clipBox.y ) ); m_ClipBox.m_Size = wxSize( aDC.DeviceToLogicalXRel( clipBox.width ), aDC.DeviceToLogicalYRel( clipBox.height ) ); wxLogTrace( KICAD_TRACE_COORDS, wxT( "Device clip box=(%d, %d, %d, %d), Logical clip box=(%d, %d, %d, %d)" ), clipBox.x, clipBox.y, clipBox.width, clipBox.height, m_ClipBox.m_Pos.x, m_ClipBox.m_Pos.y, m_ClipBox.m_Size.x, m_ClipBox.m_Size.y ); } void EDA_DRAW_PANEL::EraseScreen( wxDC* DC ) { GRSetDrawMode( DC, GR_COPY ); GRSFilledRect( NULL, DC, m_ClipBox.GetX(), m_ClipBox.GetY(), m_ClipBox.GetRight(), m_ClipBox.GetBottom(), 0, g_DrawBgColor, g_DrawBgColor ); /* Set to one (1) to draw bounding box validate bounding box calculation. */ #if DEBUG_SHOW_CLIP_RECT EDA_RECT bBox = m_ClipBox; GRRect( NULL, DC, bBox.GetOrigin().x, bBox.GetOrigin().y, bBox.GetEnd().x, bBox.GetEnd().y, 0, LIGHTMAGENTA ); #endif } void EDA_DRAW_PANEL::DoPrepareDC( wxDC& dc ) { wxScrolledWindow::DoPrepareDC( dc ); if( GetScreen() != NULL ) { double scale = GetScreen()->GetScalingFactor(); dc.SetUserScale( scale, scale ); wxPoint pt = GetScreen()->m_DrawOrg; dc.SetLogicalOrigin( pt.x, pt.y ); } SetClipBox( dc ); // Reset the clip box to the entire screen. GRResetPenAndBrush( &dc ); dc.SetBackgroundMode( wxTRANSPARENT ); } void EDA_DRAW_PANEL::OnPaint( wxPaintEvent& event ) { if( GetScreen() == NULL ) { event.Skip(); return; } INSTALL_PAINTDC( paintDC, this ); wxRect region = GetUpdateRegion().GetBox(); SetClipBox( paintDC, ®ion ); ReDraw( &paintDC, true ); } void EDA_DRAW_PANEL::ReDraw( wxDC* DC, bool erasebg ) { BASE_SCREEN* Screen = GetScreen(); if( Screen == NULL ) return; if( ( g_DrawBgColor != WHITE ) && ( g_DrawBgColor != BLACK ) ) g_DrawBgColor = BLACK; if( g_DrawBgColor == WHITE ) { g_XorMode = GR_NXOR; g_GhostColor = BLACK; } else { g_XorMode = GR_XOR; g_GhostColor = WHITE; } if( erasebg ) EraseScreen( DC ); GRResetPenAndBrush( DC ); DC->SetBackground( *wxBLACK_BRUSH ); DC->SetBackgroundMode( wxSOLID ); GetParent()->RedrawActiveWindow( DC, erasebg ); // Verfies that the clipping is working correctly. If these two sets of numbers are // not the same or really close. The clipping algorithms are broken. wxLogTrace( KICAD_TRACE_COORDS, wxT( "Clip box: (%d, %d, %d, %d), Draw extents (%d, %d, %d, %d)" ), m_ClipBox.GetX(), m_ClipBox.GetY(), m_ClipBox.GetRight(), m_ClipBox.GetBottom(), DC->MinX(), DC->MinY(), DC->MaxX(), DC->MaxY() ); } void EDA_DRAW_PANEL::DrawBackGround( wxDC* DC ) { int axis_color = BLUE; BASE_SCREEN* screen = GetScreen(); GRSetDrawMode( DC, GR_COPY ); if( GetParent()->IsGridVisible() ) DrawGrid( DC ); /* Draw axis */ if( GetParent()->m_Draw_Axis ) { /* Draw the Y axis */ GRDashedLine( &m_ClipBox, DC, 0, -screen->ReturnPageSize().y, 0, screen->ReturnPageSize().y, 0, axis_color ); /* Draw the X axis */ GRDashedLine( &m_ClipBox, DC, -screen->ReturnPageSize().x, 0, screen->ReturnPageSize().x, 0, 0, axis_color ); } if( GetParent()->m_Draw_Auxiliary_Axis ) DrawAuxiliaryAxis( DC, GR_COPY ); if( GetParent()->m_Draw_Grid_Axis ) DrawGridAxis( DC, GR_COPY ); } void EDA_DRAW_PANEL::DrawGrid( wxDC* aDC ) { #define MIN_GRID_SIZE 10 // min grid size in pixels to allow drawing BASE_SCREEN* screen = GetScreen(); wxRealPoint gridSize; wxSize screenSize; wxPoint org; wxRealPoint screenGridSize; /* The grid must be visible. this is possible only is grid value * and zoom value are sufficient */ gridSize = screen->GetGridSize(); screen->m_StartVisu = CalcUnscrolledPosition( wxPoint( 0, 0 ) ); screenSize = GetClientSize(); screenGridSize.x = aDC->LogicalToDeviceXRel( wxRound( gridSize.x ) ); screenGridSize.y = aDC->LogicalToDeviceYRel( wxRound( gridSize.y ) ); org = m_ClipBox.m_Pos; if( screenGridSize.x < MIN_GRID_SIZE || screenGridSize.y < MIN_GRID_SIZE ) { screenGridSize.x *= 2.0; screenGridSize.y *= 2.0; gridSize.x *= 2.0; gridSize.y *= 2.0; } if( screenGridSize.x < MIN_GRID_SIZE || screenGridSize.y < MIN_GRID_SIZE ) return; org = screen->GetNearestGridPosition( org, &gridSize ); // Setting the nearest grid position can select grid points outside the clip box. // Incrementing the start point by one grid step should prevent drawing grid points // outside the clip box. if( org.x < m_ClipBox.GetX() ) org.x += wxRound( gridSize.x ); if( org.y < m_ClipBox.GetY() ) org.y += wxRound( gridSize.y ); #if ( defined( __WXMAC__ ) || 1 ) // Use a pixel based draw to display grid. There are a lot of calls, so the cost is // high and grid is slowly drawn on some platforms. Please note that this should // always be enabled until the bitmap based solution below is fixed. GRSetColorPen( aDC, GetParent()->GetGridColor() ); int xpos; double right = ( double ) m_ClipBox.GetRight(); double bottom = ( double ) m_ClipBox.GetBottom(); for( double x = (double) org.x; x <= right; x += gridSize.x ) { xpos = wxRound( x ); for( double y = (double) org.y; y <= bottom; y += gridSize.y ) { aDC->DrawPoint( xpos, wxRound( y ) ); } } #else /* This is fast only if the Blit function is fast. Not true on all platforms. * * A first grid column is drawn in a temporary bitmap, and after is duplicated using * the Blit function (copy from a screen area to an other screen area). */ wxMemoryDC tmpDC; wxBitmap tmpBM( 1, aDC->LogicalToDeviceYRel( m_ClipBox.GetHeight() ) ); tmpDC.SelectObject( tmpBM ); tmpDC.SetLogicalFunction( wxCOPY ); tmpDC.SetBackground( wxBrush( GetBackgroundColour() ) ); tmpDC.Clear(); tmpDC.SetPen( MakeColour( GetParent()->GetGridColor() ) ); double usx, usy; int lox, loy, dox, doy; aDC->GetUserScale( &usx, &usy ); aDC->GetLogicalOrigin( &lox, &loy ); aDC->GetDeviceOrigin( &dox, &doy ); // Create a dummy DC for coordinate translation because the actual DC scale and origin // must be reset in order to work correctly. wxBitmap tmpBitmap( 1, 1 ); wxMemoryDC scaleDC( tmpBitmap ); scaleDC.SetUserScale( usx, usy ); scaleDC.SetLogicalOrigin( lox, loy ); scaleDC.SetDeviceOrigin( dox, doy ); double bottom = ( double ) m_ClipBox.GetBottom(); // Draw a column of grid points. for( double y = (double) org.y; y <= bottom; y += gridSize.y ) { tmpDC.DrawPoint( 0, scaleDC.LogicalToDeviceY( wxRound( y ) ) ); } // Reset the device context scale and origin and restore on exit. EDA_BLIT_NORMALIZER blitNorm( aDC ); // Mask of everything but the grid points. tmpDC.SelectObject( wxNullBitmap ); tmpBM.SetMask( new wxMask( tmpBM, GetBackgroundColour() ) ); tmpDC.SelectObject( tmpBM ); double right = m_ClipBox.GetRight(); // Blit the column for each row of the damaged region. for( double x = (double) org.x; x <= right; x += gridSize.x ) { aDC->Blit( scaleDC.LogicalToDeviceX( wxRound( x ) ), scaleDC.LogicalToDeviceY( m_ClipBox.m_Pos.y ), 1, tmpBM.GetHeight(), &tmpDC, 0, 0, wxCOPY, true ); } #endif } void EDA_DRAW_PANEL::DrawAuxiliaryAxis( wxDC* aDC, int aDrawMode ) { if( GetParent()->m_Auxiliary_Axis_Position == wxPoint( 0, 0 ) ) return; int Color = DARKRED; BASE_SCREEN* screen = GetScreen(); GRSetDrawMode( aDC, aDrawMode ); /* Draw the Y axis */ GRDashedLine( &m_ClipBox, aDC, GetParent()->m_Auxiliary_Axis_Position.x, -screen->ReturnPageSize().y, GetParent()->m_Auxiliary_Axis_Position.x, screen->ReturnPageSize().y, 0, Color ); /* Draw the X axis */ GRDashedLine( &m_ClipBox, aDC, -screen->ReturnPageSize().x, GetParent()->m_Auxiliary_Axis_Position.y, screen->ReturnPageSize().x, GetParent()->m_Auxiliary_Axis_Position.y, 0, Color ); } void EDA_DRAW_PANEL::DrawGridAxis( wxDC* aDC, int aDrawMode ) { BASE_SCREEN* screen = GetScreen(); if( !GetParent()->m_Draw_Grid_Axis || ( screen->m_GridOrigin.x == 0 && screen->m_GridOrigin.y == 0 ) ) return; int Color = GetParent()->GetGridColor(); GRSetDrawMode( aDC, aDrawMode ); /* Draw the Y axis */ GRDashedLine( &m_ClipBox, aDC, screen->m_GridOrigin.x, -screen->ReturnPageSize().y, screen->m_GridOrigin.x, screen->ReturnPageSize().y, 0, Color ); /* Draw the X axis */ GRDashedLine( &m_ClipBox, aDC, -screen->ReturnPageSize().x, screen->m_GridOrigin.y, screen->ReturnPageSize().x, screen->m_GridOrigin.y, 0, Color ); } bool EDA_DRAW_PANEL::OnRightClick( wxMouseEvent& event ) { wxPoint pos; wxMenu MasterMenu; INSTALL_UNBUFFERED_DC( dc, this ); pos = event.GetLogicalPosition( dc ); if( !GetParent()->OnRightClick( pos, &MasterMenu ) ) return false; GetParent()->AddMenuZoomAndGrid( &MasterMenu ); pos = event.GetPosition(); m_IgnoreMouseEvents = true; PopupMenu( &MasterMenu, pos ); MoveCursorToCrossHair(); m_IgnoreMouseEvents = false; return true; } void EDA_DRAW_PANEL::OnMouseLeaving( wxMouseEvent& event ) { if( m_mouseCaptureCallback == NULL ) // No command in progress. m_AutoPAN_Request = false; if( !m_AutoPAN_Enable || !m_AutoPAN_Request || m_IgnoreMouseEvents ) return; // Auto pan if mouse is leave working area: wxSize size = GetClientSize(); if( ( size.x < event.GetX() ) || ( size.y < event.GetY() ) || ( event.GetX() <= 0) || ( event.GetY() <= 0 ) ) { wxCommandEvent cmd( wxEVT_COMMAND_MENU_SELECTED, ID_POPUP_ZOOM_CENTER ); cmd.SetEventObject( this ); GetEventHandler()->ProcessEvent( cmd ); } event.Skip(); } void EDA_DRAW_PANEL::OnMouseWheel( wxMouseEvent& event ) { if( m_IgnoreMouseEvents ) return; wxRect rect = wxRect( wxPoint( 0, 0 ), GetClientSize() ); /* Ignore scroll events if the cursor is outside the drawing area. */ if( event.GetWheelRotation() == 0 || !GetParent()->IsEnabled() || !rect.Contains( event.GetPosition() ) ) { wxLogTrace( KICAD_TRACE_COORDS, wxT( "OnMouseWheel() position(%d, %d) rectangle(%d, %d, %d, %d)" ), event.GetPosition().x, event.GetPosition().y, rect.x, rect.y, rect.width, rect.height ); event.Skip(); return; } INSTALL_UNBUFFERED_DC( dc, this ); GetScreen()->SetCrossHairPosition( event.GetLogicalPosition( dc ) ); wxCommandEvent cmd( wxEVT_COMMAND_MENU_SELECTED ); cmd.SetEventObject( this ); // This is a zoom in or out command if( event.GetWheelRotation() > 0 ) { if( event.ShiftDown() && !event.ControlDown() ) cmd.SetId( ID_PAN_UP ); else if( event.ControlDown() && !event.ShiftDown() ) cmd.SetId( ID_PAN_LEFT ); else cmd.SetId( ID_POPUP_ZOOM_IN ); } else if( event.GetWheelRotation() < 0 ) { if( event.ShiftDown() && !event.ControlDown() ) cmd.SetId( ID_PAN_DOWN ); else if( event.ControlDown() && !event.ShiftDown() ) cmd.SetId( ID_PAN_RIGHT ); else cmd.SetId( ID_POPUP_ZOOM_OUT ); } GetEventHandler()->ProcessEvent( cmd ); event.Skip(); } void EDA_DRAW_PANEL::OnMouseEvent( wxMouseEvent& event ) { /* Used to inhibit a response to a mouse left button release, after a double click * (when releasing the left button at the end of the second click. Used in Eeschema * to inhibit a mouse left release command when switching between hierarchical sheets * on a double click. */ static bool ignoreNextLeftButtonRelease = false; static EDA_DRAW_PANEL* LastPanel = NULL; int localrealbutt = 0, localbutt = 0; BASE_SCREEN* screen = GetScreen(); if( !screen ) return; /* Adjust value to filter mouse displacement before consider the drag * mouse is really a drag command, not just a movement while click */ #define MIN_DRAG_COUNT_FOR_START_BLOCK_COMMAND 5 /* Count the drag events. Used to filter mouse moves before starting a * block command. A block command can be started only if * MinDragEventCount > MIN_DRAG_COUNT_FOR_START_BLOCK_COMMAND * and m_CanStartBlock >= 0 * in order to avoid spurious block commands. */ static int MinDragEventCount; if( event.Leaving() ) { m_CanStartBlock = -1; } if( !IsMouseCaptured() ) // No mouse capture in progress. m_AutoPAN_Request = false; if( GetParent()->IsActive() ) SetFocus(); else return; if( !event.IsButton() && !event.Moving() && !event.Dragging() ) { return; } if( event.RightDown() ) { OnRightClick( event ); return; } if( m_IgnoreMouseEvents ) return; if( event.LeftIsDown() ) localrealbutt |= GR_M_LEFT_DOWN; if( event.MiddleIsDown() ) localrealbutt |= GR_M_MIDDLE_DOWN; if( event.LeftDown() ) localbutt = GR_M_LEFT_DOWN; if( event.ButtonDClick( 1 ) ) localbutt = GR_M_LEFT_DOWN | GR_M_DCLICK; if( event.MiddleDown() ) localbutt = GR_M_MIDDLE_DOWN; localrealbutt |= localbutt; /* compensation default wxGTK */ INSTALL_UNBUFFERED_DC( DC, this ); DC.SetBackground( *wxBLACK_BRUSH ); /* Compute the cursor position in drawing (logical) units. */ screen->SetMousePosition( event.GetLogicalPosition( DC ) ); int kbstat = 0; if( event.ShiftDown() ) kbstat |= GR_KB_SHIFT; if( event.ControlDown() ) kbstat |= GR_KB_CTRL; if( event.AltDown() ) kbstat |= GR_KB_ALT; // Calling Double Click and Click functions : if( localbutt == (int) ( GR_M_LEFT_DOWN | GR_M_DCLICK ) ) { GetParent()->OnLeftDClick( &DC, screen->RefPos( true ) ); // inhibit a response to the mouse left button release, // because we have a double click, and we do not want a new // OnLeftClick command at end of this Double Click ignoreNextLeftButtonRelease = true; } else if( event.LeftUp() ) { // A block command is in progress: a left up is the end of block // or this is the end of a double click, already seen if( screen->m_BlockLocate.m_State == STATE_NO_BLOCK && !ignoreNextLeftButtonRelease ) GetParent()->OnLeftClick( &DC, screen->RefPos( true ) ); ignoreNextLeftButtonRelease = false; } if( !event.LeftIsDown() ) { /* be sure there is a response to a left button release command * even when a LeftUp event is not seen. This happens when a * double click opens a dialog box, and the release mouse button * is made when the dialog box is open. */ ignoreNextLeftButtonRelease = false; } if( event.ButtonUp( wxMOUSE_BTN_MIDDLE ) && (screen->m_BlockLocate.m_State == STATE_NO_BLOCK) ) { // The middle button has been released, with no block command: // We use it for a zoom center at cursor position command wxCommandEvent cmd( wxEVT_COMMAND_MENU_SELECTED, ID_POPUP_ZOOM_CENTER ); cmd.SetEventObject( this ); GetEventHandler()->ProcessEvent( cmd ); } /* Calling the general function on mouse changes (and pseudo key commands) */ GetParent()->GeneralControl( &DC, event.GetLogicalPosition( DC ), 0 ); /*******************************/ /* Control of block commands : */ /*******************************/ // Command block can't start if mouse is dragging a new panel if( LastPanel != this ) { MinDragEventCount = 0; m_CanStartBlock = -1; } /* A new command block can start after a release buttons * and if the drag is enough * This is to avoid a false start block when a dialog box is dismissed, * or when changing panels in hierarchy navigation * or when clicking while and moving mouse */ if( !event.LeftIsDown() && !event.MiddleIsDown() ) { MinDragEventCount = 0; m_CanStartBlock = 0; /* Remember the last cursor position when a drag mouse starts * this is the last position ** before ** clicking a button * this is useful to start a block command from the point where the * mouse was clicked first * (a filter creates a delay for the real block command start, and * we must remember this point) */ m_CursorStartPos = screen->GetCrossHairPosition(); } if( m_Block_Enable && !(localbutt & GR_M_DCLICK) ) { if( !screen->IsBlockActive() ) { screen->m_BlockLocate.SetOrigin( m_CursorStartPos ); } if( event.LeftDown() || event.MiddleDown() ) { if( screen->m_BlockLocate.m_State == STATE_BLOCK_MOVE ) { m_AutoPAN_Request = false; GetParent()->HandleBlockPlace( &DC ); ignoreNextLeftButtonRelease = true; } } else if( ( m_CanStartBlock >= 0 ) && ( event.LeftIsDown() || event.MiddleIsDown() ) && !IsMouseCaptured() ) { // Mouse is dragging: if no block in progress, start a block command. if( screen->m_BlockLocate.m_State == STATE_NO_BLOCK ) { // Start a block command int cmd_type = kbstat; if( event.MiddleIsDown() ) cmd_type |= MOUSE_MIDDLE; /* A block command is started if the drag is enough. A small * drag is ignored (it is certainly a little mouse move when * clicking) not really a drag mouse */ if( MinDragEventCount < MIN_DRAG_COUNT_FOR_START_BLOCK_COMMAND ) MinDragEventCount++; else { if( !GetParent()->HandleBlockBegin( &DC, cmd_type, m_CursorStartPos ) ) { // should not occurs: error GetParent()->DisplayToolMsg( wxT( "EDA_DRAW_PANEL::OnMouseEvent() Block Error" ) ); } else { m_AutoPAN_Request = true; SetCursor( wxCURSOR_SIZING ); } } } } if( event.ButtonUp( wxMOUSE_BTN_LEFT ) || event.ButtonUp( wxMOUSE_BTN_MIDDLE ) ) { /* Release the mouse button: end of block. * The command can finish (DELETE) or have a next command (MOVE, * COPY). However the block command is canceled if the block * size is small because a block command filtering is already * made, this case happens, but only when the on grid cursor has * not moved. */ #define BLOCK_MINSIZE_LIMIT 1 bool BlockIsSmall = ( ABS( screen->m_BlockLocate.GetWidth() ) < BLOCK_MINSIZE_LIMIT ) && ( ABS( screen->m_BlockLocate.GetHeight() ) < BLOCK_MINSIZE_LIMIT ); if( (screen->m_BlockLocate.m_State != STATE_NO_BLOCK) && BlockIsSmall ) { if( m_endMouseCaptureCallback ) { m_endMouseCaptureCallback( this, &DC ); m_AutoPAN_Request = false; } SetCursor( m_currentCursor ); } else if( screen->m_BlockLocate.m_State == STATE_BLOCK_END ) { m_AutoPAN_Request = false; GetParent()->HandleBlockEnd( &DC ); SetCursor( m_currentCursor ); if( screen->m_BlockLocate.m_State == STATE_BLOCK_MOVE ) { m_AutoPAN_Request = true; SetCursor( wxCURSOR_HAND ); } } } } // End of block command on a double click // To avoid an unwanted block move command if the mouse is moved while double clicking if( localbutt == (int) ( GR_M_LEFT_DOWN | GR_M_DCLICK ) ) { if( !screen->IsBlockActive() && IsMouseCaptured() ) { m_endMouseCaptureCallback( this, &DC ); } } #if 0 wxString msg_debug; msg_debug.Printf( " block state %d, cmd %d", screen->m_BlockLocate.m_State, screen->m_BlockLocate.m_Command ); GetParent()->PrintMsg( msg_debug ); #endif LastPanel = this; } void EDA_DRAW_PANEL::OnKeyEvent( wxKeyEvent& event ) { int localkey; wxPoint pos; localkey = event.GetKeyCode(); switch( localkey ) { case WXK_CONTROL: case WXK_CAPITAL: case WXK_SHIFT: case WXK_NUMLOCK: case WXK_LBUTTON: case WXK_RBUTTON: case WXK_ALT: return; case WXK_ESCAPE: m_AbortRequest = true; if( IsMouseCaptured() ) EndMouseCapture(); else EndMouseCapture( ID_NO_TOOL_SELECTED, m_defaultCursor, wxEmptyString ); break; } if( event.ControlDown() ) localkey |= GR_KB_CTRL; if( event.AltDown() ) localkey |= GR_KB_ALT; if( event.ShiftDown() && (event.GetKeyCode() > 256) ) localkey |= GR_KB_SHIFT; /* Normalize keys code to easily handle keys from Ctrl+A to Ctrl+Z * They have an ascii code from 1 to 27 remapped * to GR_KB_CTRL + 'A' to GR_KB_CTRL + 'Z' */ if( (localkey > GR_KB_CTRL) && (localkey <= GR_KB_CTRL+26) ) localkey += 'A' - 1; INSTALL_UNBUFFERED_DC( DC, this ); BASE_SCREEN* Screen = GetScreen(); // Some key commands use the current mouse position: refresh it. pos = wxGetMousePosition() - GetScreenPosition(); // Compute the cursor position in drawing units. Also known as logical units to wxDC. pos = wxPoint( DC.DeviceToLogicalX( pos.x ), DC.DeviceToLogicalY( pos.y ) ); Screen->SetMousePosition( pos ); GetParent()->GeneralControl( &DC, pos, localkey ); } void EDA_DRAW_PANEL::OnPan( wxCommandEvent& event ) { int x, y; int ppux, ppuy; int unitsX, unitsY; int maxX, maxY; GetViewStart( &x, &y ); GetScrollPixelsPerUnit( &ppux, &ppuy ); GetVirtualSize( &unitsX, &unitsY ); maxX = unitsX; maxY = unitsY; unitsX /= ppux; unitsY /= ppuy; switch( event.GetId() ) { case ID_PAN_UP: y -= m_scrollIncrementY; break; case ID_PAN_DOWN: y += m_scrollIncrementY; break; case ID_PAN_LEFT: x -= m_scrollIncrementX; break; case ID_PAN_RIGHT: x += m_scrollIncrementX; break; default: wxLogDebug( wxT( "Unknown ID %d in EDA_DRAW_PANEL::OnPan()." ), event.GetId() ); } if( x < 0 ) x = 0; if( y < 0 ) y = 0; if( x > maxX ) x = maxX; if( y > maxY ) y = maxY; Scroll( x/ppux, y/ppuy ); } void EDA_DRAW_PANEL::EndMouseCapture( int id, int cursor, const wxString& title, bool aCallEndFunc ) { if( m_mouseCaptureCallback && m_endMouseCaptureCallback && aCallEndFunc ) { INSTALL_UNBUFFERED_DC( dc, this ); m_endMouseCaptureCallback( this, &dc ); } m_mouseCaptureCallback = NULL; m_endMouseCaptureCallback = NULL; m_AutoPAN_Request = false; if( id != -1 && cursor != -1 ) { wxASSERT( cursor > wxCURSOR_NONE && cursor < wxCURSOR_MAX ); GetParent()->SetToolID( id, cursor, title ); } }