void wxGridCellBoolEditor::BeginEdit(int row, int col, wxGrid* grid)
{
wxASSERT_MSG(m_control,
wxT("The wxGridCellEditor must be created first!"));
if (grid->GetTable()->CanGetValueAs(row, col, wxGRID_VALUE_BOOL))
{
m_value = grid->GetTable()->GetValueAsBool(row, col);
}
else
{
wxString cellval( grid->GetTable()->GetValue(row, col) );
if ( cellval == ms_stringValues[false] )
m_value = false;
else if ( cellval == ms_stringValues[true] )
m_value = true;
else
{
// do not try to be smart here and convert it to true or false
// because we'll still overwrite it with something different and
// this risks to be very surprising for the user code, let them
// know about it
wxFAIL_MSG( wxT("invalid value for a cell with bool editor!") );
}
}
CBox()->SetValue(m_value);
CBox()->SetFocus();
}
void CShape::KillGLLists()
{
if (m_face_gl_list)
{
glDeleteLists(m_face_gl_list, 1);
m_face_gl_list = 0;
}
if (m_edge_gl_list)
{
glDeleteLists(m_edge_gl_list, 1);
m_edge_gl_list = 0;
}
m_box = CBox();
if(m_faces)
{
for(HeeksObj* object = m_faces->GetFirstChild(); object; object = m_faces->GetNextChild())
{
CFace* f = (CFace*)object;
f->KillMarkingGLList();
}
}
}
void wxGridCellBoolEditor::Reset()
{
wxASSERT_MSG(m_control,
wxT("The wxGridCellEditor must be created first!"));
CBox()->SetValue(m_value);
}
CBSPTree::CBSPTree( CModel *model ):
_root(0){
for( int i=0;i<model->Surfaces().size();++i ){
CModelSurface *surf=(CModelSurface*)model->Surfaces()[i]->Copy();
cout<<"Adding surface, verts="<<surf->Vertices().size()<<", tris="<<surf->Triangles().size()<<endl;
_surfaces.push_back( surf );
}
vector<CPolygon*> polys;
for( int i=0;i<_surfaces.size();++i ){
CModelSurface *surf=_surfaces[i];
vector<int> verts(3);
for( vector<CTriangle>::const_iterator it=surf->Triangles().begin();it!=surf->Triangles().end();++it ){
const CTriangle &tri=*it;
verts[0]=tri.vertices[0];
verts[1]=tri.vertices[1];
verts[2]=tri.vertices[2];
CPolygon *poly=new CPolygon( surf,verts );
polys.push_back( new CPolygon( surf,verts ) );
}
}
if( !polys.size() ){
_root=new CBSPNode( CPlane( CVec3(0,1,0),0 ) );
return;
}
_root=new CBSPNode( polys[0]->Plane() );
for( int i=1;i<polys.size();++i ){
_root->InsertPlane( polys[i] );
}
for( int i=0;i<polys.size();++i ){
_root->InsertLeaf( polys[i] );
}
for( int i=0;i<polys.size();++i ){
// _root->InsertPolygon( polys[i] );
}
CPlane plane( CVec3(0,1,0),-5 );
// _root=new CBSPNode( plane,new CBSPNode( 1 ),0 );
_hpSurface=new CModelSurface;
CPolygon *poly=new CPolygon( _hpSurface,plane,CBox( CVec3(-50),CVec3(50) ) );
CBSPNode *bits[2];
_root->Split( poly,bits );
_root=new CBSPNode( plane,bits[0],0 );
for( int i=0;i<polys.size();++i ){
_root->InsertPolygon( polys[i] );
}
}
CBox * CBox::create() {
CBox * pRet = NEW CBox();
if (pRet) {
pRet->autorelease();
return pRet;
}
CC_SAFE_DELETE(pRet);
return NULL;
}
void wxGridCellBoolEditor::StartingKey(wxKeyEvent& event)
{
int keycode = event.GetKeyCode();
switch ( keycode )
{
case WXK_SPACE:
CBox()->SetValue(!CBox()->GetValue());
break;
case '+':
CBox()->SetValue(true);
break;
case '-':
CBox()->SetValue(false);
break;
}
}
///////////////////////////////////////////////////////////////
//
// CSpatialDatabaseImpl::FlushUpdateQueue
//
// Process all entities that have changed since the last call
//
///////////////////////////////////////////////////////////////
void CSpatialDatabaseImpl::FlushUpdateQueue ( void )
{
int iTotalUpdated = 0;
for ( std::map < CElement*, int >::iterator it = m_UpdateQueue.begin (); it != m_UpdateQueue.end (); ++it )
{
CElement* pEntity = it->first;
// Get the new bounding box
SEntityInfo newInfo;
CSphere sphere = pEntity->GetWorldBoundingSphere ();
newInfo.box = CBox ( sphere.vecPosition, fabsf ( sphere.fRadius ) );
// Make everything 2D for now
newInfo.box.vecMin.fZ = SPATIAL_2D_Z;
newInfo.box.vecMax.fZ = SPATIAL_2D_Z;
// Get previous info
if ( SEntityInfo* pOldInfo = MapFind ( m_InfoMap, pEntity ) )
{
// Don't update if bounding box is the same
if ( pOldInfo->box == newInfo.box )
continue;
// Remove old bounding box from tree
m_Tree.Remove ( &pOldInfo->box.vecMin.fX, &pOldInfo->box.vecMax.fX, pEntity );
}
if ( !IsValidSphere ( sphere ) )
continue;
// Add new bounding box
m_Tree.Insert( &newInfo.box.vecMin.fX, &newInfo.box.vecMax.fX, pEntity );
// Update info map
MapSet ( m_InfoMap, pEntity, newInfo );
iTotalUpdated++;
#ifdef SPATIAL_DATABASE_DEBUG_OUTPUTA
OutputDebugLine ( SString ( "SpatialDatabase::UpdateEntity %08x %2.0f,%2.0f,%2.0f %2.0f,%2.0f,%2.0f"
,pEntity
,info.box.vecMin.fX
,info.box.vecMin.fY
,info.box.vecMin.fZ
,info.box.vecMax.fX
,info.box.vecMax.fY
,info.box.vecMax.fZ
) );
#endif
}
m_UpdateQueue.clear ();
#ifdef SPATIAL_DATABASE_DEBUG_OUTPUTB
int iTotalToUpdate = m_UpdateQueue.size ();
if ( iTotalToUpdate )
OutputDebugLine ( SString ( "SpatialDatabase::FlushUpdateQueue TotalToUpdate: %d TotalUpdated: %d m_InfoMap: %d tree: %d ", iTotalToUpdate, iTotalUpdated, m_InfoMap.size (), m_Tree.Count () ) );
#endif
}
void wxGridCellBoolEditor::Show(bool show, wxGridCellAttr *attr)
{
m_control->Show(show);
if ( show )
{
wxColour colBg = attr ? attr->GetBackgroundColour() : *wxLIGHT_GREY;
CBox()->SetBackgroundColour(colBg);
}
}
void CFuzzyVariable::load (ifstream& file) {
string ignore; file >> ignore;
int left, top, right, bottom;
file >> ignore >> left >> top >> right >> bottom;
box = CBox (left, top, right, bottom);
int n; file >> ignore >> n;
for (int i = 0; i < n; i++) mfs.push_back (new CMembershipFunction(file));
}
CWaterline::CWaterline(const std::list<int> &solids, const int tool_number)
:CDepthOp(GetTypeString(), NULL, tool_number, WaterlineType), m_solids(solids)
{
ReadDefaultValues();
// set m_box from the extents of the solids
for(std::list<int>::const_iterator It = solids.begin(); It != solids.end(); It++)
{
int solid = *It;
HeeksObj* object = heeksCAD->GetIDObject(SolidType, solid);
if(object)
{
if(object->GetType() == StlSolidType)
{
object->GetBox(m_params.m_box);
}
else
{
double extents[6];
if(heeksCAD->BodyGetExtents(object, extents))
{
m_params.m_box.Insert(CBox(extents));
}
}
Add(object, NULL);
}
}
m_solids.clear();
SetDepthOpParamsFromBox();
// add tool radius all around the box
if(m_params.m_box.m_valid)
{
CTool *pTool = CTool::Find(m_tool_number);
if(pTool)
{
double extra = pTool->m_params.m_diameter/2 + 0.01;
m_params.m_box.m_x[0] -= extra;
m_params.m_box.m_x[1] -= extra;
m_params.m_box.m_x[3] += extra;
m_params.m_box.m_x[4] += extra;
}
}
}
bool wxGridCellBoolEditor::EndEdit(int WXUNUSED(row),
int WXUNUSED(col),
const wxGrid* WXUNUSED(grid),
const wxString& WXUNUSED(oldval),
wxString *newval)
{
bool value = CBox()->GetValue();
if ( value == m_value )
return false;
m_value = value;
if ( newval )
*newval = GetValue();
return true;
}
//Forwared here from CMirrorSurface
void CMirror::OnRenderScene( CCamera *camera ){
_surface->Instances().clear();
//No recursion yet...
if( camera==_camera ) return;
//frustum clipping.
//Note: CModelSurface still clips itself - add enable/disable clipping for CModelSurface
CBox bounds=RenderMatrix() * CBox( CVec3( -_width/2,-_height/2,0 ),CVec3( _width/2,_height/2,0 ) );
if( !camera->RenderFrustum().Intersects( bounds ) ) return;
const CMat4 &mir=RenderMatrix();
const CMat4 &cam=camera->RenderMatrix();
//put eye into mirror space
CVec3 eye=-mir * cam.t.xyz();
if( eye.z>0 ) return;
//reflect
eye.z=-eye.z;
//projection matrix
float znear=eye.z;
float zfar=256.0f;
float left=(-_width/2-eye.x),right=left+_width;
float bottom=(-_height/2+eye.y),top=bottom+_height;
CMat4 proj=CMat4::FrustumMatrix( left,right,bottom,top,znear,zfar );
//camera matrix
CMat4 mat;
mat.i.x=-1;
mat.k.z=-1;
mat.t.xyz()=eye;
mat=mir * mat;
_camera->SetWorldMatrix( mat );
_camera->SetProjectionMatrix( proj );
CTexture *cb=App.Graphics()->ColorBuffer( 0 );
App.Graphics()->SetColorBuffer( 0,Texture() );
App.Scene()->RenderCamera( _camera );
App.Graphics()->SetColorBuffer( 0,cb );
_surface->Instances().push_back( mir );
}
static void WriteCoords(std::wofstream &ofs)
{
CBox box;
GetWorldBox(box);
if(!box.m_valid)
{
box = CBox(-100, -100, -50, 100, 100, 50);
}
else
{
while(box.Width() < 100){box.m_x[0] -= 5.0; box.m_x[3] += 5.0;}
while(box.Height() < 100){box.m_x[1] -= 5.0; box.m_x[4] += 5.0;}
box.m_x[2] -= 10.0;
}
ofs<<"toolpath.coords = Coords("<<box.MinX()<<", "<<box.MinY()<<", "<<box.MinZ()<<", "<<box.MaxX()<<", "<<box.MaxY()<<", "<<box.MaxZ()<<")\n";
}
///////////////////////////////////////////////////////////////
//
// CClientSpatialDatabaseImpl::FlushUpdateQueue
//
// Process all entities that have changed since the last call
//
///////////////////////////////////////////////////////////////
void CClientSpatialDatabaseImpl::FlushUpdateQueue ( void )
{
std::map < CClientEntity*, int > updateQueueCopy = m_UpdateQueue;
m_UpdateQueue.clear ();
for ( std::map < CClientEntity*, int >::iterator it = updateQueueCopy.begin (); it != updateQueueCopy.end (); ++it )
{
CClientEntity* pEntity = it->first;
// Get the new bounding box
SEntityInfo newInfo;
CSphere sphere = pEntity->GetWorldBoundingSphere ();
newInfo.box = CBox ( sphere.vecPosition, fabsf ( sphere.fRadius ) );
// Make everything 2D for now
newInfo.box.vecMin.fZ = SPATIAL_2D_Z;
newInfo.box.vecMax.fZ = SPATIAL_2D_Z;
// Get previous info
if ( SEntityInfo* pOldInfo = MapFind ( m_InfoMap, pEntity ) )
{
// Don't update if bounding box is the same
if ( pOldInfo->box == newInfo.box )
continue;
// Remove old bounding box from tree
m_Tree.Remove ( &pOldInfo->box.vecMin.fX, &pOldInfo->box.vecMax.fX, pEntity );
}
if ( !IsValidSphere ( sphere ) )
continue;
// Add new bounding box
m_Tree.Insert( &newInfo.box.vecMin.fX, &newInfo.box.vecMax.fX, pEntity );
// Update info map
MapSet ( m_InfoMap, pEntity, newInfo );
}
}
wxString wxGridCellBoolEditor::GetValue() const
{
return ms_stringValues[CBox()->GetValue()];
}
int main(int argc, char** argv)
{
int defw = 640;
int defh = 480;
if (argc == 3)
{
/*the program was run using 3 arguments
argv[0] = name of the executable file
argv[1] = screen width (as a string)
argv[2] = screen height (as a string)
*/
defw = atoi(argv[1]);
defh = atoi(argv[2]);
}
if (!al_init()) return 1; //exit if can't initialize allegro
//initialize most stuff
al_install_keyboard();
al_init_primitives_addon();
//run in a window
al_set_new_display_flags(ALLEGRO_WINDOWED);
//initialize our display and event queue
ALLEGRO_DISPLAY* display = al_create_display(defw, defh);
ALLEGRO_EVENT_QUEUE* eventq = al_create_event_queue();
//this timer will tick once per frame
ALLEGRO_TIMER* framet = al_create_timer(1.0 / 30.0); //30 frames per second
al_start_timer(framet);
//register the event sources so they send events to our queue
al_register_event_source(eventq, al_get_display_event_source(display)); //display/window
al_register_event_source(eventq, al_get_keyboard_event_source()); //keyboard
al_register_event_source(eventq, al_get_timer_event_source(framet)); //fps timer
//this box is our play field (covers the whole screen)
CBox fieldbox(0, 0, defw, defh);
//we setup the ball at the center of the screen with white color
CBall ball(CBox(defw / 2 - 10, defh / 2 - 10, 20, 20), al_map_rgb(255, 255, 255));
//we tell it to move to the left
ball.setXYMovement(-5.0, 0.0);
//we initialize our both players in an array
CPlayer players[2] = {
//red player on the left
CPlayer(CBox(10, defh / 2 - 80 / 2, 20, 80), al_map_rgb(255, 0, 0)),
//blue player on the right
CPlayer(CBox(defw - 10 - 20, defh / 2 - 80 / 2, 20, 80), al_map_rgb(0, 0, 255)),
};
/*when this variable is set to true
the program will quit the main loop
and free the allocated resources
before quitting */
bool exit = false;
while (!exit)
{
al_wait_for_event(eventq, NULL);
ALLEGRO_EVENT ev;
while (al_get_next_event(eventq, &ev))
{
if (ev.type == ALLEGRO_EVENT_TIMER)
{
if (ev.timer.source == framet)
{
//fill the screen with black
al_clear_to_color(al_map_rgb(0, 0, 0));
//move and draw our two players
for (int i = 0; i<2; i++)
{
players[i].move(fieldbox);
players[i].draw();
}
//move, collide and draw the ball
switch (ball.move(fieldbox, players))
{
case 0:
break;
case 1:
players[0].setScore(players[0].getScore() + 1);
ball.setXYMovement(5.0, 0.0);
break;
case 2:
players[1].setScore(players[1].getScore() + 1);
ball.setXYMovement(-5.0, 0.0);
break;
}
ball.draw();
//show what we've drawn
al_flip_display();
}
}
else if (ev.type == ALLEGRO_EVENT_DISPLAY_CLOSE)
{
//quit if the user tries to close the window
if (ev.display.source == display) exit = true;
}
else if (ev.type == ALLEGRO_EVENT_KEY_DOWN)
{
//handle key presses
switch (ev.keyboard.keycode)
{
case ALLEGRO_KEY_W:
players[0].setYMovement(-3.0);
break;
case ALLEGRO_KEY_S:
players[0].setYMovement(3.0);
break;
case ALLEGRO_KEY_UP:
players[1].setYMovement(-3.0);
break;
case ALLEGRO_KEY_DOWN:
players[1].setYMovement(3.0);
break;
case ALLEGRO_KEY_ESCAPE:
exit = true;
break;
case ALLEGRO_EVENT_DISPLAY_CLOSE:
exit = true;
break;
}
}
else if (ev.type == ALLEGRO_EVENT_KEY_UP)
{
int code = ev.keyboard.keycode;
/*avoid clumsy movement making sure the released key corresponds with
the moving direction*/
if (code == ALLEGRO_KEY_W && players[0].getYMovement() < 0)
players[0].setYMovement(0.0);
else if (code == ALLEGRO_KEY_S && players[0].getYMovement() > 0)
players[0].setYMovement(0.0);
else if (code == ALLEGRO_KEY_UP && players[1].getYMovement() < 0)
players[1].setYMovement(0.0);
else if (code == ALLEGRO_KEY_DOWN && players[1].getYMovement() > 0)
players[1].setYMovement(0.0);
}
}
}
al_destroy_event_queue(eventq);
al_destroy_timer(framet);
al_destroy_display(display);
}
void wxGridCellBoolEditor::StartingClick()
{
CBox()->SetValue(!CBox()->GetValue());
}
