CRhinoCommand::result CCommandSampleOrientOnCrv::RunCommand( const CRhinoCommandContext& context )
{
CRhinoCommand::result rc = CRhinoCommand::success;
CRhinoXformObjectList object_list;
rc = SelectObjects( object_list );
if( rc != CRhinoCommand::success )
return rc;
ON_Plane base_plane;
rc = GetBasePlane( base_plane );
if( rc != CRhinoCommand::success )
return rc;
const ON_Curve* path_curve = NULL;
rc = GetPathCurve( path_curve );
if( rc != CRhinoCommand::success )
return rc;
BOOL bCopy = FALSE;
COrientOnCrvXform get;
get.SetCommandPrompt( L"New base point on curve" );
get.AddCommandOptionToggle( RHCMDOPTNAME(L"Copy"), RHCMDOPTVALUE(L"No"), RHCMDOPTVALUE(L"Yes"), bCopy, &bCopy );
get.AddCommandOptionToggle( RHCMDOPTNAME(L"Perpendicular"), RHCMDOPTVALUE(L"No"), RHCMDOPTVALUE(L"Yes"), m_perp_mode, &m_perp_mode );
get.AppendObjects( object_list );
get.Constrain( *path_curve );
get.AcceptNothing();
get.SetPathCurve( path_curve );
get.SetBasePlane( base_plane );
for(;;)
{
get.EnablePerpMode( m_perp_mode );
CRhinoGet::result res = get.GetXform();
if( res == CRhinoGet::point )
{
ON_Xform xform;
if( get.CalculateTransform(get.View()->Viewport(), get.Point(), xform) )
{
TransformObjects( context.m_doc, object_list, xform, TRUE );
context.m_doc.Redraw();
}
if( bCopy )
continue;
break;
}
else if( res == CRhinoGet::option )
continue;
else if( res == CRhinoGet::nothing )
return CRhinoCommand::nothing;
else
return CRhinoCommand::cancel;
}
return CRhinoCommand::success;
}
CRhinoCommand::result CCommandSampleMeshDir::RunCommand( const CRhinoCommandContext& context )
{
CRhinoGetObject go;
go.SetGeometryFilter( CRhinoObject::mesh_object | CRhinoObject::surface_object | CRhinoObject::polysrf_object | CRhinoObject::instance_reference );
go.SetCommandPrompt( L"Select mesh, surface, or polysurface objects" );
go.GetObjects(1,0);
if( go.Result() != CRhinoGet::object )
return CRhinoCommand::cancel;
int i = 0;
ON_SimpleArray<const CRhinoObject*> objects( go.ObjectCount() );
for( i = 0; i < go.ObjectCount(); i++ )
objects.Append( go.Object(i).Object() );
ON_ClassArray<CRhinoObjRef> render_meshes;
int count = RhinoGetRenderMeshes( objects, render_meshes, true, false );
if( count > 0 )
{
CMeshDirDrawCallback callback;
callback.m_mesh_list.Reserve( count );
for( i = 0; i < render_meshes.Count(); i++ )
{
const ON_Mesh* mesh = render_meshes[i].Mesh();
if( mesh )
callback.m_mesh_list.AppendNew().SetMesh( mesh );
}
CRhinoGetOption go;
go.SetCommandPrompt( L"Press Enter when done" );
go.AcceptNothing();
go.AddCommandOptionToggle( RHCMDOPTNAME(L"FaceNormals"), RHCMDOPTVALUE(L"No"), RHCMDOPTVALUE(L"Yes"), m_draw_face_normals, &m_draw_face_normals );
go.AddCommandOptionToggle( RHCMDOPTNAME(L"VertexNormals"), RHCMDOPTVALUE(L"No"), RHCMDOPTVALUE(L"Yes"), m_draw_vertex_normals, &m_draw_vertex_normals );
CRhinoGet::result res = CRhinoGet::nothing;
for( ;; )
{
callback.m_draw_face_normals = m_draw_face_normals;
callback.m_draw_vertex_normals = m_draw_vertex_normals;
CRhinoView::AddDrawCallback( &callback );
context.m_doc.Redraw( CRhinoView::regenerate_display_hint );
res = go.GetOption();
CRhinoView::RemoveDrawCallback( &callback );
if( res == CRhinoGet::option )
continue;
break;
}
}
context.m_doc.Redraw( CRhinoView::regenerate_display_hint );
return CRhinoCommand::success;
}
CRhinoCommand::result CCommandSampleDrawBitmap::RunCommand( const CRhinoCommandContext& context )
{
CRhinoCommandOptionValue enable_opts[] = { RHCMDOPTVALUE(L"Yes"), RHCMDOPTVALUE(L"No"), RHCMDOPTVALUE(L"Toggle") };
for(;;)
{
bool bEnable = m_conduit.IsEnabled();
int current_index = bEnable ? 0 : 1;
CRhinoGetOption go;
go.SetCommandPrompt( L"Choose command option" );
go.AddCommandOptionList( RHCMDOPTNAME(L"Enable"), 3, enable_opts, current_index );
go.AcceptNothing();
CRhinoGet::result res = go.GetOption();
if( res == CRhinoGet::option )
{
const CRhinoCommandOption* option = go.Option();
if( 0 == option )
return CRhinoCommand::failure;
current_index = option->m_list_option_current;
if( 0 == current_index )
{
if( !bEnable )
{
m_conduit.Enable();
context.m_doc.Regen();
}
}
else if( 1 == current_index )
{
if( bEnable )
{
m_conduit.Disable();
context.m_doc.Regen();
}
}
else // if( 2 == current_index )
{
if( bEnable )
m_conduit.Disable();
else
m_conduit.Enable();
context.m_doc.Regen();
}
continue;
}
break;
}
return CRhinoCommand::success;
}
CRhinoCommand::result CCommandSampleTabbedDockBar::RunCommand( const CRhinoCommandContext& context )
{
ON_UUID tabId = CSampleTabbedDockBarDialog::ID();
if( context.IsInteractive() )
{
CRhinoTabbedDockBarDialog::OpenDockbarTab( tabId );
}
else
{
bool bVisible = CRhinoTabbedDockBarDialog::IsTabVisible( tabId );
ON_wString str;
str.Format( L"%s is %s. New value", LocalCommandName(), bVisible ? L"visible" : L"hidden" );
CRhinoGetOption go;
go.SetCommandPrompt( str );
int h_option = go.AddCommandOption( RHCMDOPTNAME(L"Hide") );
int s_option = go.AddCommandOption( RHCMDOPTNAME(L"Show") );
int t_option = go.AddCommandOption( RHCMDOPTNAME(L"Toggle") );
go.GetOption();
if( go.CommandResult() != CRhinoCommand::success )
return go.CommandResult();
const CRhinoCommandOption* option = go.Option();
if( 0 == option )
return CRhinoCommand::failure;
int option_index = option->m_option_index;
if( h_option == option_index && bVisible )
CRhinoTabbedDockBarDialog::ShowDockbarTab( tabId, false );
else if( s_option == option_index && !bVisible )
CRhinoTabbedDockBarDialog::ShowDockbarTab( tabId, true );
else if( t_option == option_index )
CRhinoTabbedDockBarDialog::ShowDockbarTab( tabId, !bVisible );
}
return CRhinoCommand::success;
}
CRhinoCommand::result CCommandSamplePan::RunCommand( const CRhinoCommandContext& context )
{
const CRhinoAppViewSettings& view_settings = RhinoApp().AppSettings().ViewSettings();
double d = view_settings.m_pan_increment;
if (view_settings.m_pan_reverse_keyboard)
d = -d;
CRhinoGetOption go;
go.SetCommandPrompt(L"Select pan option");
go.AcceptNothing();
const int down_option_index = go.AddCommandOption(RHCMDOPTNAME(L"Down"));
const int left_option_index = go.AddCommandOption(RHCMDOPTNAME(L"Left"));
const int right_option_index = go.AddCommandOption(RHCMDOPTNAME(L"Right"));
const int up_option_index = go.AddCommandOption(RHCMDOPTNAME( L"Up"));
const int in_option_index = go.AddCommandOption(RHCMDOPTNAME(L"In"));
const int out_option_index = go.AddCommandOption(RHCMDOPTNAME(L"Out"));
for(;;)
{
CRhinoGet::result res = go.GetOption();
if (res != CRhinoGet::option)
break;
CRhinoView* view = go.View();
const CRhinoCommandOption* option = go.Option();
if (0 != view && 0 != option && 0.0 != d)
{
CRhinoViewport* viewport = &(view->ActiveViewport());
if (0 != viewport && viewport->View().m_bLockedProjection)
viewport = &(view->MainViewport());
if (0 != viewport)
{
if (down_option_index == option->m_option_index)
viewport->DownUpDolly(-d);
else if (up_option_index == option->m_option_index)
viewport->DownUpDolly(d);
else if (left_option_index == option->m_option_index)
viewport->LeftRightDolly(-d);
else if (right_option_index == option->m_option_index)
viewport->LeftRightDolly(d);
else if (in_option_index == option->m_option_index)
viewport->InOutDolly(d);
else if (out_option_index == option->m_option_index)
viewport->InOutDolly(-d);
}
view->Redraw();
RhinoApp().SetActiveView(view);
}
}
return CRhinoCommand::success;
}
CRhinoCommand::result CCommandSampleMenuToggle::RunCommand( const CRhinoCommandContext& context )
{
BOOL bVisible = SampleMenuPlugIn().IsSampleMenuVisible();
ON_wString str;
str.Format( L"%s is %s. New value", LocalCommandName(), bVisible ? L"visible" : L"hidden" );
CRhinoGetOption go;
go.SetCommandPrompt( str );
int h_option = go.AddCommandOption( RHCMDOPTNAME(L"Hide") );
int s_option = go.AddCommandOption( RHCMDOPTNAME(L"Show") );
int t_option = go.AddCommandOption( RHCMDOPTNAME(L"Toggle") );
go.GetOption();
if( go.CommandResult() != CRhinoCommand::success )
return go.CommandResult();
const CRhinoCommandOption* option = go.Option();
if( 0 == option )
return CRhinoCommand::failure;
int option_index = option->m_option_index;
if( h_option == option_index && bVisible )
SampleMenuPlugIn().HideSampleMenu();
else if( s_option == option_index && !bVisible )
SampleMenuPlugIn().ShowSampleMenu();
else if( t_option == option_index )
{
if( bVisible )
SampleMenuPlugIn().HideSampleMenu();
else
SampleMenuPlugIn().ShowSampleMenu();
}
return CRhinoCommand::success;
}
CRhinoCommand::result CCommandSamplePrePostSelect::RunCommand( const CRhinoCommandContext& context )
{
double dValue = m_dValue;
int nValue = m_nValue;
CRhinoGetObject go;
go.SetGeometryFilter( CRhinoGetObject::curve_object );
go.EnableGroupSelect( TRUE );
go.EnableSubObjectSelect( FALSE );
/*int d_option_index =*/ go.AddCommandOptionNumber(
RHCMDOPTNAME(L"Double"), &dValue, L"Double value", FALSE, 1.0, 99.9 );
/*int n_option_index =*/ go.AddCommandOptionInteger(
RHCMDOPTNAME(L"Integer"), &nValue, L"Integer value", 1, 99 );
bool bHavePreselectedObjects = false;
for( ;; )
{
CRhinoGet::result res = go.GetObjects( 1, 0 );
if( res == CRhinoGet::option )
{
go.EnablePreSelect( FALSE );
go.EnableAlreadySelectedObjectSelect( true );
go.EnableClearObjectsOnEntry( false );
go.EnableDeselectAllBeforePostSelect( false );
go.EnableUnselectObjectsOnExit( false );
continue;
}
else if( res != CRhinoGet::object )
return CRhinoCommand::cancel;
if( go.ObjectsWerePreSelected() )
{
bHavePreselectedObjects = true;
go.EnablePreSelect( FALSE );
go.EnableAlreadySelectedObjectSelect( true );
go.EnableClearObjectsOnEntry( false );
go.EnableDeselectAllBeforePostSelect( false );
go.EnableUnselectObjectsOnExit( false );
continue;
}
break;
}
if( bHavePreselectedObjects )
{
// Normally, pre-selected objects will remain selected, when a
// command finishes, and post-selected objects will be unselected.
// This this way of picking, it is possible to have a combination
// of pre-selected and post-selected. So, to make sure everything
// "looks the same", lets unselect everything before finishing
// the command.
for( int i = 0; i < go.ObjectCount(); i++ )
{
const CRhinoObject* object = go.Object(i).Object();
if( 0 != object )
object->Select( false );
}
context.m_doc.Redraw();
}
int object_count = go.ObjectCount();
m_dValue = dValue;
m_nValue = nValue;
RhinoApp().Print( L"Select object count = %d\n", object_count );
RhinoApp().Print( L"Value of double = %f\n", m_dValue );
RhinoApp().Print( L"Value of integer = %d\n", m_nValue );
return CRhinoCommand::success;
}
CRhinoCommand::result CCommandSampleCageEdit::RunCommand( const CRhinoCommandContext& context )
{
ON_Workspace ws;
CRhinoCommand::result rc = CRhinoCommand::success;
// Get the captive object
CRhinoGetObject go;
go.SetCommandPrompt( L"Select captive surface or polysurface" );
go.SetGeometryFilter( CRhinoGetObject::surface_object | CRhinoGetObject::polysrf_object );
go.GetObjects( 1, 1 );
rc = go.CommandResult();
if( CRhinoCommand::success != rc )
return rc;
const CRhinoObject* captive = go.Object(0).Object();
if( 0 == captive )
return CRhinoCommand::failure;
// Define the control line
ON_Line line;
CArgsRhinoGetLine args;
rc = RhinoGetLine( args, line );
if( CRhinoCommand::success != rc )
return rc;
// Get the curve parameters
int degree = 3;
int cv_count = 4;
for(;;)
{
CRhinoGetOption gl;
gl.SetCommandPrompt( L"NURBS Parameters" );
gl.AcceptNothing();
int d_opt = gl.AddCommandOptionInteger( RHCMDOPTNAME(L"Degree"), °ree, L"Curve degree", 1.0, 100.0 );
int p_opt = gl.AddCommandOptionInteger( RHCMDOPTNAME(L"PointCount"), &cv_count, L"Number of control points", 2.0, 100.0 );
gl.GetOption();
rc = gl.CommandResult();
if( CRhinoCommand::success != rc )
return rc;
if( CRhinoGet::nothing == gl.Result() )
break;
if( cv_count <= degree )
{
if( CRhinoGet::option != gl.Result() )
continue;
const CRhinoCommandOption* opt = go.Option();
if( 0 == opt )
continue;
if( d_opt == opt->m_option_index )
cv_count = degree + 1;
else
degree = cv_count - 1;
}
}
// Set up morph control
ON_MorphControl* control = new ON_MorphControl();
control->m_varient = 1; // 1= curve
// Specify the source line curve
control->m_nurbs_curve0.Create( 3, false, 2, 2 );
control->m_nurbs_curve0.MakeClampedUniformKnotVector();
control->m_nurbs_curve0.SetCV( 0, line.from );
control->m_nurbs_curve0.SetCV( 1, line.to );
// Specify the destination NURBS curve
control->m_nurbs_curve.Create( 3, false, degree + 1, cv_count );
control->m_nurbs_curve.MakeClampedUniformKnotVector();
double* g = ws.GetDoubleMemory( control->m_nurbs_curve.m_cv_count );
control->m_nurbs_curve.GetGrevilleAbcissae( g );
ON_Interval d = control->m_nurbs_curve.Domain();
double s = 0.0;
int i;
for( i = 0; i < control->m_nurbs_curve.m_cv_count; i++ )
{
s = d.NormalizedParameterAt( g[i] );
control->m_nurbs_curve.SetCV( i, line.PointAt(s) );
}
// Make sure domains match
s = line.Length();
if( s > ON_SQRT_EPSILON )
control->m_nurbs_curve0.SetDomain( 0.0, s );
d = control->m_nurbs_curve0.Domain();
control->m_nurbs_curve.SetDomain( d[0], d[1] );
// Create the morph control object
CRhinoMorphControl* control_object = new CRhinoMorphControl();
control_object->SetControl( control );
context.m_doc.AddObject( control_object );
// Set up the capture
RhinoCaptureObject( control_object, const_cast<CRhinoObject*>(captive) );
// Clean up display
context.m_doc.UnselectAll();
// Turn on the control grips
control_object->EnableGrips( true );
context.m_doc.Redraw( CRhinoView::mark_display_hint );
return rc;
}
CRhinoCommand::result CCommandSampleConvertQuadsToTriangles::RunCommand( const CRhinoCommandContext& context )
{
CRhinoGetObject go;
go.SetCommandPrompt( L"Select meshes to convert" );
go.SetGeometryFilter( CRhinoObject::mesh_object );
if( go.GetObjects(1,0) != CRhinoGet::object )
return CRhinoCommand::cancel;
CRhinoGetOption gs;
gs.AcceptNothing();
gs.SetCommandPrompt( L"Delete input?" );
gs.SetDefaultString( (m_delete_input)?L"Yes":L"No" );
int n_index = gs.AddCommandOption( RHCMDOPTNAME(L"No") );
int y_index = gs.AddCommandOption( RHCMDOPTNAME(L"Yes") );
switch( gs.GetOption() )
{
case CRhinoGet::option:
if( gs.Option()->m_option_index == n_index )
m_delete_input = false;
else
m_delete_input = true;
break;
case CRhinoGet::string:
case CRhinoGet::nothing:
break;
default:
return CRhinoCommand::cancel;
}
int num_converted = 0;
for( int i = 0; i < go.ObjectCount(); i++ )
{
CRhinoObjRef objref = go.Object(i);
if( const CRhinoObject* pObject = objref.Object() )
{
if( const ON_Mesh* pMesh = ON_Mesh::Cast(pObject->Geometry()) )
{
ON_Mesh mesh(*pMesh);
if( mesh.QuadCount() <= 0 )
continue;
if( !mesh.ConvertQuadsToTriangles() )
continue;
const CRhinoMeshObject* mesh_object = NULL;
if( m_delete_input )
mesh_object = context.m_doc.ReplaceObject( objref, mesh );
else
mesh_object = context.m_doc.AddMeshObject( mesh );
if( mesh_object )
num_converted++;
}
}
}
if( num_converted > 0 )
context.m_doc.Redraw();
RhinoApp().Print( L"%d meshes selected, %d meshes converted.\n", go.ObjectCount(), num_converted );
return CRhinoCommand::success;
}
CRhinoCommand::result CCommandTestUVMesh::RunCommand( const CRhinoCommandContext& context )
{
bool bDeleteInput = false;
CRhinoGetObject go;
go.SetCommandPrompt(L"Select untrimmed surface");
go.AddCommandOptionInteger(RHCMDOPTNAME(L"U"), &m_U, 0, 2);
go.AddCommandOptionInteger(RHCMDOPTNAME(L"V"), &m_V, 0, 2);
go.AddCommandOptionToggle(RHCMDOPTNAME(L"DeleteInput"), RHCMDOPTVALUE(L"No"), RHCMDOPTVALUE(L"Yes"), bDeleteInput, &bDeleteInput);
go.SetGeometryFilter(CRhinoGetObject::surface_object);
go.SetGeometryAttributeFilter(CRhinoGetObject::untrimmed_surface);
CRhinoGet::result rs = CRhinoGet::no_result;
while (CRhinoGet::cancel != rs && CRhinoGet::nothing != rs && CRhinoGet::object != rs)
rs = go.GetObjects(1,1);
if (CRhinoGet::cancel == rs)
return CRhinoCommand::cancel;
if (0 == go.ObjectCount())
return CRhinoCommand::failure;
const CRhinoObject* pObj = go .Object(0).Object();
if (0 == pObj)
return CRhinoCommand::failure;
const ON_BrepFace* pBrepFace = go.Object(0).Face();
if (0 == pBrepFace)
return CRhinoCommand::failure;
const ON_Surface* pSurf = pBrepFace->SurfaceOf();
if (0 == pSurf)
return CRhinoCommand::failure;
ON_SimpleArray<double>UArray(m_U+1);
ON_SimpleArray<double>VArray(m_V+1);
double UDist, VDist;
UDist = (pSurf->Domain(0).m_t[1]-pSurf->Domain(0).m_t[0])/m_U;
VDist = (pSurf->Domain(1).m_t[1]-pSurf->Domain(1).m_t[0])/m_V;
int i;
for (i=0; i <= m_U; i++)
UArray.Append(pSurf->Domain(0).m_t[0] + i*UDist);
for (i=0; i <= m_V; i++)
VArray.Append(pSurf->Domain(1).m_t[0] + i*VDist);
//If m_U or m_V are large then there can be a slight difference between
//pSurf->Domain(0).m_t[0] + (m_U-1)*UDist and pSurf->Domain(0).m_t[1]
//ON_MeshSurface requires it to be less than or equal to pSurf->Domain(0).m_t[1]
//05/24/06 TimH Fix for RR21194
double* d = UArray.Last();
if (pSurf->Domain(0).m_t[1] < *d)
*d = pSurf->Domain(0).m_t[1];
d = VArray.Last();
if (pSurf->Domain(1).m_t[1] < *d)
*d = pSurf->Domain(1).m_t[1];
ON_Mesh* pMeshOut = ON_MeshSurface(*pSurf, m_U+1, UArray.Array(), m_V+1, VArray.Array());
if (0 == pMeshOut)
return CRhinoCommand::failure;
CRhinoMeshObject* pMeshObj = new CRhinoMeshObject(pObj->Attributes());
if (0 == pMeshObj)
{
delete pMeshOut;
return CRhinoCommand::failure;
}
pMeshObj->SetMesh(pMeshOut);
if (true == bDeleteInput)
context.m_doc.ReplaceObject(pObj, pMeshObj);
else
context.m_doc.AddObject(pMeshObj);
context.m_doc.Redraw();
return CRhinoCommand::success;
}
