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//========= Copyright � 1996-2005, Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
// $NoKeywords: $
//=============================================================================//
#include "stdafx.h"
#include "MapDoc.h"
#include "MapView2D.h"
#include "MapView3D.h"
#include "Tool3D.h"
#include "hammer_mathlib.h"
#include "vgui/Cursor.h"
// memdbgon must be the last include file in a .cpp file!!!
#include <tier0/memdbgon.h>
#pragma warning(disable:4244)
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
Tool3D::Tool3D(void){ m_vPlaneNormal.Init(); m_vPlaneOrigin.Init(); m_bIsTranslating = false;
for ( int i=0;i<2; i++ ) { m_bMouseDown[i] = false; m_bMouseDragged[i] = false; m_vMouseStart[i].Init(); }
m_vMousePos.Init();}
void Tool3D::StartTranslation( CMapView *pView, const Vector2D &vClickPoint, bool bUseDefaultPlane ){ if ( bUseDefaultPlane ) { Vector vecHorz, vecVert,vecThird; pView->GetBestTransformPlane( vecHorz, vecVert,vecThird ); SetTransformationPlane( vec3_origin, vecHorz, vecVert, vecThird ); }
m_vTranslation.Init(); ProjectTranslation( pView, vClickPoint, m_vTranslationStart, 0 ); m_bIsTranslating = true; m_pDocument->UpdateAllViews( MAPVIEW_UPDATE_TOOL );}
bool Tool3D::UpdateTranslation(CMapView *pView, const Vector2D &vPoint, UINT nFlags){ Vector vTransform; ProjectTranslation( pView, vPoint, vTransform, 0 ); vTransform -= m_vTranslationStart; return UpdateTranslation( vTransform, nFlags );}
bool Tool3D::UpdateTranslation(const Vector &vUpdate, UINT flags /* = 0 */){ if ( m_vTranslation == vUpdate ) return false;
m_vTranslation = vUpdate;
m_pDocument->UpdateAllViews( MAPVIEW_UPDATE_TOOL );
return true;}
//-----------------------------------------------------------------------------
// Purpose:
// Input : bSave -
//-----------------------------------------------------------------------------
void Tool3D::FinishTranslation(bool bSave){ m_bIsTranslating = false;
if ( bSave ) { // assume the tool changed an object
m_pDocument->UpdateAllViews( MAPVIEW_UPDATE_OBJECTS ); } else { // just update the tool
m_pDocument->UpdateAllViews( MAPVIEW_UPDATE_TOOL ); }}
void Tool3D::TranslatePoint(Vector& vPos){ vPos += m_vTranslation; // most simple translation
}
int Tool3D::HitTest(CMapView *pView, const Vector &vecWorld, bool bTestHandles){ Vector2D vClient; pView->WorldToClient( vClient, vecWorld ); return HitTest( pView, vClient, bTestHandles );}
bool Tool3D::HitRect(CMapView *pView, const Vector2D &vPoint, const Vector &vCenter, int extent ){ Vector2D vClientCenter; pView->WorldToClient( vClientCenter, vCenter );
if ( vPoint.x < (vClientCenter.x-extent) || vPoint.x > ( vClientCenter.x+extent) ) return false;
if ( vPoint.y < (vClientCenter.y-extent) || vPoint.y > ( vClientCenter.y+extent) ) return false;
return true;}
int Tool3D::GetTransformationAxis(){ if ( fabs( m_vPlaneNormal.x ) == 1 ) { return 0; } else if ( fabs( m_vPlaneNormal.y ) == 1 ) { return 1; } else if ( fabs( m_vPlaneNormal.z ) == 1 ) { return 2; } else return -1;}
void Tool3D::SetTransformationPlane( const Vector &vOrigin, const Vector &vHorz, const Vector &vVert, const Vector &vNormal ){ Assert( DotProduct(vNormal,vVert) == 0 ); Assert( DotProduct(vNormal,vHorz) == 0 ); Assert( vNormal.Length() > 0.9999 && vNormal.Length() < 1.0001 );
m_vPlaneOrigin = vOrigin; m_vPlaneNormal = vNormal; m_vPlaneHorz = vHorz; m_vPlaneVert = vVert;}
unsigned int Tool3D::GetConstraints(unsigned int nKeyFlags){ unsigned int uConstraints = 0;
bool bDisableSnap = (GetKeyState(VK_MENU) & 0x8000)!=0; if ( !bDisableSnap ) { uConstraints |= constrainSnap;
if ( !m_pDocument->IsSnapEnabled() ) { uConstraints |= constrainIntSnap; } }
return uConstraints;}
void Tool3D::ProjectOnTranslationPlane( const Vector &vWorld, Vector &vTransform, int nFlags ){ if ( !nFlags ) { float frac = DotProduct( m_vPlaneNormal, m_vPlaneOrigin-vWorld ); vTransform = vWorld + frac*m_vPlaneNormal; } else { Vector v0 = vWorld - m_vPlaneOrigin; Vector vOut;
if ( !SolveLinearEquation( v0, m_vPlaneHorz, m_vPlaneVert, m_vPlaneNormal, vOut) ) { vTransform.Init(); return; }
if ( nFlags & constrainOnlyHorz ) { vOut.y = 0; }
if ( nFlags & constrainOnlyVert ) { vOut.x = 0; }
if ( nFlags & constrainSnap ) { if ( nFlags & constrainIntSnap ) { // just snap to next integer
vOut.x = rint(vOut.x); vOut.y = rint(vOut.y); } else { // snap to user grid
float flGridSpacing = m_pDocument->GetGridSpacing();
if ( nFlags & constrainHalfSnap ) { flGridSpacing *= 0.5f; } vOut.y = rint(vOut.y / flGridSpacing) * flGridSpacing; vOut.x = rint(vOut.x / flGridSpacing) * flGridSpacing; } }
vTransform = m_vPlaneOrigin + vOut.x * m_vPlaneHorz + vOut.y * m_vPlaneVert; }}
void Tool3D::ProjectTranslation( CMapView *pView, const Vector2D &vPoint, Vector &vTransform, int nFlags ){ Vector vStart, vEnd;
pView->BuildRay( vPoint, vStart, vEnd );
Vector vLine = vEnd-vStart;
if ( !nFlags ) { // simple plane & line intersection
float d1 = DotProduct( m_vPlaneNormal, m_vPlaneOrigin-vStart ); float d2 = DotProduct( m_vPlaneNormal, vLine );
if ( d2 == 0 ) { // line & plane are parallel !
vTransform.Init(); return; }
vTransform = vStart + (d1/d2) *vLine; return; }
Vector v0 = vStart - m_vPlaneOrigin; Vector vOut; if ( !SolveLinearEquation( v0, m_vPlaneHorz, m_vPlaneVert, -vLine, vOut) ) { vTransform.Init(); return; }
if ( nFlags & constrainOnlyHorz ) { vOut.y = 0; }
if ( nFlags & constrainOnlyVert ) { vOut.x = 0; }
if ( nFlags & constrainSnap ) { if ( nFlags & constrainIntSnap ) { // just snap to next integer
vOut.x = rint(vOut.x); vOut.y = rint(vOut.y); } else { // snap to user grid
float flGridSpacing = m_pDocument->GetGridSpacing();
if ( nFlags & constrainHalfSnap ) { flGridSpacing *= 0.5f; }
vOut.y = rint(vOut.y / flGridSpacing) * flGridSpacing; vOut.x = rint(vOut.x / flGridSpacing) * flGridSpacing; } } vTransform = m_vPlaneOrigin + vOut.x * m_vPlaneHorz + vOut.y * m_vPlaneVert;}
bool Tool3D::OnLMouseDown2D( CMapView2D *pView, UINT nFlags, const Vector2D &vPoint ){ m_bMouseDown[MOUSE_LEFT] = true; m_bMouseDragged[MOUSE_LEFT] = false; m_vMousePos = m_vMouseStart[MOUSE_LEFT] = vPoint; pView->SetCapture(); return true;}
bool Tool3D::OnLMouseUp2D( CMapView2D *pView, UINT nFlags, const Vector2D &vPoint ){ m_vMousePos = vPoint; m_bMouseDown[MOUSE_LEFT] = false; m_bMouseDragged[MOUSE_LEFT] = false; ReleaseCapture(); return true;}
bool Tool3D::OnRMouseDown2D( CMapView2D *pView, UINT nFlags, const Vector2D &vPoint ){ m_bMouseDown[MOUSE_RIGHT] = true; m_bMouseDragged[MOUSE_RIGHT] = false; m_vMousePos = m_vMouseStart[MOUSE_RIGHT] = vPoint; pView->SetCapture(); return true;}
bool Tool3D::OnRMouseUp2D( CMapView2D *pView, UINT nFlags, const Vector2D &vPoint ){ m_vMousePos = vPoint; m_bMouseDown[MOUSE_RIGHT] = false; m_bMouseDragged[MOUSE_RIGHT] = false; ReleaseCapture(); return true;}
bool Tool3D::OnMouseMove2D( CMapView2D *pView, UINT nFlags, const Vector2D &vPoint ){ m_vMousePos = vPoint;
for ( int i=0;i<2;i++) { if ( m_bMouseDown[i] ) { if ( !m_bMouseDragged[i] ) { // check if mouse was dragged if button is pressed down
Vector2D sizeDragged = vPoint - m_vMouseStart[i];
if ((abs(sizeDragged.x) > DRAG_THRESHHOLD) || (abs(sizeDragged.y) > DRAG_THRESHHOLD)) { // If here, means we've dragged the mouse
m_bMouseDragged[i] = true; } }
// Make sure the point is visible.
pView->ToolScrollToPoint( vPoint ); } }
return true;}
bool Tool3D::OnLMouseDown3D( CMapView3D *pView, UINT nFlags, const Vector2D &vPoint ){ m_bMouseDown[MOUSE_LEFT] = true; m_bMouseDragged[MOUSE_LEFT] = false; m_vMousePos = m_vMouseStart[MOUSE_LEFT] = vPoint; return true;}
bool Tool3D::OnLMouseUp3D( CMapView3D *pView, UINT nFlags, const Vector2D &vPoint ){ m_vMousePos = vPoint; m_bMouseDown[MOUSE_LEFT] = false; m_bMouseDragged[MOUSE_LEFT] = false; ::ReleaseCapture(); return true;}
bool Tool3D::OnRMouseDown3D( CMapView3D *pView, UINT nFlags, const Vector2D &vPoint ){ m_bMouseDown[MOUSE_RIGHT] = true; m_bMouseDragged[MOUSE_RIGHT] = false; m_vMousePos = m_vMouseStart[MOUSE_RIGHT] = vPoint; return true;}
bool Tool3D::OnRMouseUp3D( CMapView3D *pView, UINT nFlags, const Vector2D &vPoint ){ m_vMousePos = vPoint; m_bMouseDown[MOUSE_RIGHT] = false; m_bMouseDragged[MOUSE_RIGHT] = false; ::ReleaseCapture(); return true;}
bool Tool3D::OnMouseMove3D( CMapView3D *pView, UINT nFlags, const Vector2D &vPoint ){ m_vMousePos = vPoint; for ( int i=0;i<2;i++) { if ( m_bMouseDown[i] ) { if ( !m_bMouseDragged[i] ) { // check if mouse was dragged if button is pressed down
Vector2D sizeDragged = vPoint - m_vMouseStart[i];
if ((abs(sizeDragged.x) > DRAG_THRESHHOLD) || (abs(sizeDragged.y) > DRAG_THRESHHOLD)) { // If here, means we've dragged the mouse
m_bMouseDragged[i] = true; } }
// Make sure the point is visible.
// pView->ToolScrollToPoint( vPoint );
} }
pView->SetCursor( vgui::dc_arrow );
return true;}
void Tool3D::RenderTranslationPlane(CRender *pRender){ pRender->PushRenderMode( RENDER_MODE_WIREFRAME ); pRender->SetDrawColor( Color(128,128,128) );
Vector viewPoint,vOffset; ProjectTranslation( pRender->GetView(), m_vMousePos, viewPoint, constrainSnap );
float fGrid = m_pDocument->GetGridSpacing(); int nSteps = 16;
vOffset = m_vPlaneVert * (fGrid * nSteps); for (int h=-nSteps;h<=nSteps;h++) { Vector pos = viewPoint + ( m_vPlaneHorz * ( fGrid*h ) ); pRender->DrawLine( pos+vOffset, pos-vOffset ); }
vOffset = m_vPlaneHorz * (fGrid * nSteps); for (int v=-nSteps;v<=nSteps;v++) { Vector pos = viewPoint + ( m_vPlaneVert * ( fGrid*v ) ); pRender->DrawLine( pos+vOffset, pos-vOffset ); } pRender->PopRenderMode();}
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