some warnings in OGL; fixed bug in wxChoice git-svn-id: https://svn.wxwidgets.org/svn/wx/wxWidgets/trunk@974 c3d73ce0-8a6f-49c7-b76d-6d57e0e08775
517 lines
15 KiB
C++
517 lines
15 KiB
C++
/////////////////////////////////////////////////////////////////////////////
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// Name: canvas.cpp
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// Purpose: Shape canvas class
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// Author: Julian Smart
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// Modified by:
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// Created: 12/07/98
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// RCS-ID: $Id$
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// Copyright: (c) Julian Smart
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// Licence: wxWindows licence
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/////////////////////////////////////////////////////////////////////////////
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#ifdef __GNUG__
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#pragma implementation "canvas.h"
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#endif
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// For compilers that support precompilation, includes "wx.h".
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#include <wx/wxprec.h>
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#ifdef __BORLANDC__
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#pragma hdrstop
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#endif
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#ifndef WX_PRECOMP
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#include <wx/wx.h>
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#endif
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#include <wx/wxexpr.h>
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#if wxUSE_IOSTREAMH
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#include <iostream.h>
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#else
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#include <iostream>
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#endif
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#include <ctype.h>
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#include <math.h>
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#include <stdlib.h>
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#include "basic.h"
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#include "basicp.h"
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#include "canvas.h"
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#include "ogldiag.h"
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#include "misc.h"
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#include "lines.h"
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#include "composit.h"
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#define CONTROL_POINT_SIZE 6
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// Control point types
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// Rectangle and most other shapes
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#define CONTROL_POINT_VERTICAL 1
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#define CONTROL_POINT_HORIZONTAL 2
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#define CONTROL_POINT_DIAGONAL 3
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// Line
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#define CONTROL_POINT_ENDPOINT_TO 4
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#define CONTROL_POINT_ENDPOINT_FROM 5
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#define CONTROL_POINT_LINE 6
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extern wxCursor *g_oglBullseyeCursor;
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IMPLEMENT_DYNAMIC_CLASS(wxShapeCanvas, wxScrolledWindow)
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BEGIN_EVENT_TABLE(wxShapeCanvas, wxScrolledWindow)
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EVT_PAINT(wxShapeCanvas::OnPaint)
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EVT_MOUSE_EVENTS(wxShapeCanvas::OnMouseEvent)
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END_EVENT_TABLE()
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// Object canvas
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wxShapeCanvas::wxShapeCanvas(wxWindow *parent, wxWindowID id, const wxPoint& pos, const wxSize& size, long style):
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wxScrolledWindow(parent, id, pos, size, style)
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{
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m_shapeDiagram = NULL;
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m_dragState = NoDragging;
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m_draggedShape = NULL;
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m_oldDragX = 0;
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m_oldDragY = 0;
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m_firstDragX = 0;
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m_firstDragY = 0;
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m_checkTolerance = TRUE;
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}
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wxShapeCanvas::~wxShapeCanvas()
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{
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}
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void wxShapeCanvas::OnPaint(wxPaintEvent& event)
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{
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wxPaintDC dc(this);
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PrepareDC(dc);
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dc.Clear();
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if (GetDiagram())
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GetDiagram()->Redraw(dc);
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}
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void wxShapeCanvas::OnMouseEvent(wxMouseEvent& event)
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{
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wxClientDC dc(this);
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PrepareDC(dc);
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wxPoint logPos(event.GetLogicalPosition(dc));
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double x, y;
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x = (double) logPos.x;
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y = (double) logPos.y;
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int keys = 0;
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if (event.ShiftDown())
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keys = keys | KEY_SHIFT;
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if (event.ControlDown())
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keys = keys | KEY_CTRL;
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bool dragging = event.Dragging();
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// Check if we're within the tolerance for mouse movements.
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// If we're very close to the position we started dragging
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// from, this may not be an intentional drag at all.
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if (dragging)
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{
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int dx = abs(dc.LogicalToDeviceX((long) (x - m_firstDragX)));
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int dy = abs(dc.LogicalToDeviceY((long) (y - m_firstDragY)));
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if (m_checkTolerance && (dx <= GetDiagram()->GetMouseTolerance()) && (dy <= GetDiagram()->GetMouseTolerance()))
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{
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return;
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}
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else
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// If we've ignored the tolerance once, then ALWAYS ignore
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// tolerance in this drag, even if we come back within
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// the tolerance range.
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m_checkTolerance = FALSE;
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}
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// Dragging - note that the effect of dragging is left entirely up
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// to the object, so no movement is done unless explicitly done by
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// object.
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if (dragging && m_draggedShape && m_dragState == StartDraggingLeft)
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{
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m_dragState = ContinueDraggingLeft;
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// If the object isn't m_draggable, transfer message to canvas
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if (m_draggedShape->Draggable())
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m_draggedShape->GetEventHandler()->OnBeginDragLeft((double)x, (double)y, keys, m_draggedAttachment);
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else
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{
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m_draggedShape = NULL;
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OnBeginDragLeft((double)x, (double)y, keys);
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}
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m_oldDragX = x; m_oldDragY = y;
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}
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else if (dragging && m_draggedShape && m_dragState == ContinueDraggingLeft)
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{
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// Continue dragging
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m_draggedShape->GetEventHandler()->OnDragLeft(FALSE, m_oldDragX, m_oldDragY, keys, m_draggedAttachment);
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m_draggedShape->GetEventHandler()->OnDragLeft(TRUE, (double)x, (double)y, keys, m_draggedAttachment);
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m_oldDragX = x; m_oldDragY = y;
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}
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else if (event.LeftUp() && m_draggedShape && m_dragState == ContinueDraggingLeft)
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{
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m_dragState = NoDragging;
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m_checkTolerance = TRUE;
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m_draggedShape->GetEventHandler()->OnDragLeft(FALSE, m_oldDragX, m_oldDragY, keys, m_draggedAttachment);
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m_draggedShape->GetEventHandler()->OnEndDragLeft((double)x, (double)y, keys, m_draggedAttachment);
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m_draggedShape = NULL;
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}
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else if (dragging && m_draggedShape && m_dragState == StartDraggingRight)
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{
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m_dragState = ContinueDraggingRight;
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if (m_draggedShape->Draggable())
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m_draggedShape->GetEventHandler()->OnBeginDragRight((double)x, (double)y, keys, m_draggedAttachment);
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else
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{
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m_draggedShape = NULL;
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OnBeginDragRight((double)x, (double)y, keys);
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}
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m_oldDragX = x; m_oldDragY = y;
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}
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else if (dragging && m_draggedShape && m_dragState == ContinueDraggingRight)
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{
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// Continue dragging
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m_draggedShape->GetEventHandler()->OnDragRight(FALSE, m_oldDragX, m_oldDragY, keys, m_draggedAttachment);
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m_draggedShape->GetEventHandler()->OnDragRight(TRUE, (double)x, (double)y, keys, m_draggedAttachment);
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m_oldDragX = x; m_oldDragY = y;
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}
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else if (event.RightUp() && m_draggedShape && m_dragState == ContinueDraggingRight)
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{
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m_dragState = NoDragging;
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m_checkTolerance = TRUE;
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m_draggedShape->GetEventHandler()->OnDragRight(FALSE, m_oldDragX, m_oldDragY, keys, m_draggedAttachment);
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m_draggedShape->GetEventHandler()->OnEndDragRight((double)x, (double)y, keys, m_draggedAttachment);
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m_draggedShape = NULL;
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}
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// All following events sent to canvas, not object
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else if (dragging && !m_draggedShape && m_dragState == StartDraggingLeft)
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{
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m_dragState = ContinueDraggingLeft;
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OnBeginDragLeft((double)x, (double)y, keys);
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m_oldDragX = x; m_oldDragY = y;
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}
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else if (dragging && !m_draggedShape && m_dragState == ContinueDraggingLeft)
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{
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// Continue dragging
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OnDragLeft(FALSE, m_oldDragX, m_oldDragY, keys);
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OnDragLeft(TRUE, (double)x, (double)y, keys);
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m_oldDragX = x; m_oldDragY = y;
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}
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else if (event.LeftUp() && !m_draggedShape && m_dragState == ContinueDraggingLeft)
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{
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m_dragState = NoDragging;
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m_checkTolerance = TRUE;
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OnDragLeft(FALSE, m_oldDragX, m_oldDragY, keys);
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OnEndDragLeft((double)x, (double)y, keys);
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m_draggedShape = NULL;
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}
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else if (dragging && !m_draggedShape && m_dragState == StartDraggingRight)
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{
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m_dragState = ContinueDraggingRight;
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OnBeginDragRight((double)x, (double)y, keys);
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m_oldDragX = x; m_oldDragY = y;
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}
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else if (dragging && !m_draggedShape && m_dragState == ContinueDraggingRight)
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{
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// Continue dragging
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OnDragRight(FALSE, m_oldDragX, m_oldDragY, keys);
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OnDragRight(TRUE, (double)x, (double)y, keys);
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m_oldDragX = x; m_oldDragY = y;
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}
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else if (event.RightUp() && !m_draggedShape && m_dragState == ContinueDraggingRight)
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{
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m_dragState = NoDragging;
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m_checkTolerance = TRUE;
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OnDragRight(FALSE, m_oldDragX, m_oldDragY, keys);
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OnEndDragRight((double)x, (double)y, keys);
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m_draggedShape = NULL;
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}
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// Non-dragging events
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else if (event.IsButton())
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{
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m_checkTolerance = TRUE;
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// Find the nearest object
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int attachment = 0;
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wxShape *nearest_object = FindShape(x, y, &attachment);
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if (nearest_object) // Object event
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{
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if (event.LeftDown())
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{
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m_draggedShape = nearest_object;
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m_draggedAttachment = attachment;
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m_dragState = StartDraggingLeft;
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m_firstDragX = x;
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m_firstDragY = y;
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}
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else if (event.LeftUp())
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{
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// N.B. Only register a click if the same object was
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// identified for down *and* up.
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if (nearest_object == m_draggedShape)
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nearest_object->GetEventHandler()->OnLeftClick((double)x, (double)y, keys, attachment);
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m_draggedShape = NULL;
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m_dragState = NoDragging;
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}
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else if (event.LeftDClick())
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{
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nearest_object->GetEventHandler()->OnLeftDoubleClick((double)x, (double)y, keys, attachment);
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m_draggedShape = NULL;
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m_dragState = NoDragging;
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}
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else if (event.RightDown())
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{
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m_draggedShape = nearest_object;
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m_draggedAttachment = attachment;
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m_dragState = StartDraggingRight;
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m_firstDragX = x;
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m_firstDragY = y;
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}
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else if (event.RightUp())
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{
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if (nearest_object == m_draggedShape)
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nearest_object->GetEventHandler()->OnRightClick((double)x, (double)y, keys, attachment);
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m_draggedShape = NULL;
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m_dragState = NoDragging;
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}
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}
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else // Canvas event (no nearest object)
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{
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if (event.LeftDown())
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{
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m_draggedShape = NULL;
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m_dragState = StartDraggingLeft;
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m_firstDragX = x;
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m_firstDragY = y;
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}
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else if (event.LeftUp())
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{
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OnLeftClick((double)x, (double)y, keys);
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m_draggedShape = NULL;
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m_dragState = NoDragging;
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}
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else if (event.RightDown())
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{
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m_draggedShape = NULL;
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m_dragState = StartDraggingRight;
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m_firstDragX = x;
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m_firstDragY = y;
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}
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else if (event.RightUp())
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{
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OnRightClick((double)x, (double)y, keys);
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m_draggedShape = NULL;
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m_dragState = NoDragging;
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}
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}
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}
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}
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/*
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* Try to find a sensitive object, working up the hierarchy of composites.
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*
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*/
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wxShape *wxShapeCanvas::FindFirstSensitiveShape(double x, double y, int *new_attachment, int op)
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{
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wxShape *image = FindShape(x, y, new_attachment);
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if (!image) return NULL;
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wxShape *actualImage = FindFirstSensitiveShape1(image, op);
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if (actualImage)
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{
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double dist;
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// Find actual attachment
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actualImage->HitTest(x, y, new_attachment, &dist);
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}
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return actualImage;
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}
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wxShape *wxShapeCanvas::FindFirstSensitiveShape1(wxShape *image, int op)
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{
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if (image->GetSensitivityFilter() & op)
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return image;
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if (image->GetParent())
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return FindFirstSensitiveShape1(image->GetParent(), op);
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return NULL;
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}
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// Helper function: TRUE if 'contains' wholly contains 'contained'.
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static bool WhollyContains(wxShape *contains, wxShape *contained)
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{
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double xp1, yp1, xp2, yp2;
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double w1, h1, w2, h2;
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double left1, top1, right1, bottom1, left2, top2, right2, bottom2;
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xp1 = contains->GetX(); yp1 = contains->GetY(); xp2 = contained->GetX(); yp2 = contained->GetY();
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contains->GetBoundingBoxMax(&w1, &h1);
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contained->GetBoundingBoxMax(&w2, &h2);
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left1 = (double)(xp1 - (w1 / 2.0));
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top1 = (double)(yp1 - (h1 / 2.0));
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right1 = (double)(xp1 + (w1 / 2.0));
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bottom1 = (double)(yp1 + (h1 / 2.0));
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left2 = (double)(xp2 - (w2 / 2.0));
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top2 = (double)(yp2 - (h2 / 2.0));
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right2 = (double)(xp2 + (w2 / 2.0));
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bottom2 = (double)(yp2 + (h2 / 2.0));
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return ((left1 <= left2) && (top1 <= top2) && (right1 >= right2) && (bottom1 >= bottom2));
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}
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wxShape *wxShapeCanvas::FindShape(double x, double y, int *attachment, wxClassInfo *info, wxShape *notObject)
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{
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double nearest = 100000.0;
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int nearest_attachment = 0;
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wxShape *nearest_object = NULL;
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// Go backward through the object list, since we want:
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// (a) to have the control points drawn LAST to overlay
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// the other objects
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// (b) to find the control points FIRST if they exist
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wxNode *current = GetDiagram()->GetShapeList()->Last();
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while (current)
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{
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wxShape *object = (wxShape *)current->Data();
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double dist;
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int temp_attachment;
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// First pass for lines, which might be inside a container, so we
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// want lines to take priority over containers. This first loop
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// could fail if we clickout side a line, so then we'll
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// try other shapes.
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if (object->IsShown() &&
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object->IsKindOf(CLASSINFO(wxLineShape)) &&
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object->HitTest(x, y, &temp_attachment, &dist) &&
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((info == NULL) || object->IsKindOf(info)) &&
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(!notObject || !notObject->HasDescendant(object)))
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{
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// A line is trickier to spot than a normal object.
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// For a line, since it's the diagonal of the box
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// we use for the hit test, we may have several
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// lines in the box and therefore we need to be able
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// to specify the nearest point to the centre of the line
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// as our hit criterion, to give the user some room for
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// manouevre.
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if (dist < nearest)
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{
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nearest = dist;
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nearest_object = object;
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nearest_attachment = temp_attachment;
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}
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}
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if (current)
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current = current->Previous();
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}
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current = GetDiagram()->GetShapeList()->Last();
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while (current)
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{
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wxShape *object = (wxShape *)current->Data();
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double dist;
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int temp_attachment;
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// On second pass, only ever consider non-composites or divisions. If children want to pass
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// up control to the composite, that's up to them.
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if (object->IsShown() && (object->IsKindOf(CLASSINFO(wxDivisionShape)) || !object->IsKindOf(CLASSINFO(wxCompositeShape)))
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&& object->HitTest(x, y, &temp_attachment, &dist) && ((info == NULL) || object->IsKindOf(info)) &&
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(!notObject || !notObject->HasDescendant(object)))
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{
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if (!object->IsKindOf(CLASSINFO(wxLineShape)))
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{
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// If we've hit a container, and we have already found a line in the
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// first pass, then ignore the container in case the line is in the container.
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// Check for division in case line straddles divisions (i.e. is not wholly contained).
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if (!nearest_object || !(object->IsKindOf(CLASSINFO(wxDivisionShape)) || WhollyContains(object, nearest_object)))
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{
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nearest = dist;
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nearest_object = object;
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nearest_attachment = temp_attachment;
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current = NULL;
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}
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}
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}
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if (current)
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current = current->Previous();
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}
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*attachment = nearest_attachment;
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return nearest_object;
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}
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/*
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* Higher-level events called by OnEvent
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*
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*/
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void wxShapeCanvas::OnLeftClick(double x, double y, int keys)
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{
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}
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void wxShapeCanvas::OnRightClick(double x, double y, int keys)
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{
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}
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void wxShapeCanvas::OnDragLeft(bool draw, double x, double y, int keys)
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{
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}
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void wxShapeCanvas::OnBeginDragLeft(double x, double y, int keys)
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{
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}
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void wxShapeCanvas::OnEndDragLeft(double x, double y, int keys)
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{
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}
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void wxShapeCanvas::OnDragRight(bool draw, double x, double y, int keys)
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{
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}
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void wxShapeCanvas::OnBeginDragRight(double x, double y, int keys)
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{
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}
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void wxShapeCanvas::OnEndDragRight(double x, double y, int keys)
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{
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}
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void wxShapeCanvas::AddShape(wxShape *object, wxShape *addAfter)
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{ GetDiagram()->AddShape(object, addAfter); }
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void wxShapeCanvas::InsertShape(wxShape *object)
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{ GetDiagram()->InsertShape(object); }
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void wxShapeCanvas::RemoveShape(wxShape *object)
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{ GetDiagram()->RemoveShape(object); }
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bool wxShapeCanvas::GetQuickEditMode()
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{ return GetDiagram()->GetQuickEditMode(); }
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void wxShapeCanvas::Redraw(wxDC& dc)
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{ GetDiagram()->Redraw(dc); }
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void wxShapeCanvas::Snap(double *x, double *y)
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{ GetDiagram()->Snap(x, y); }
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