Bool VoxelGenerator::Init(GeListNode* node)
{
BaseObject* op = (BaseObject*)node;
BaseContainer* data = op->GetDataInstance();
data->SetFloat(VGEN_SCALE, 0.95);
data->SetFloat(VGEN_THRESHOLD,0.01);
return true;
}
Bool Objectify::Init(GeListNode *node)
{
BaseObject *op = (BaseObject*)node;
BaseContainer *data = op->GetDataInstance();
data->SetReal(TRIANGULATION_MAX_SEARCH_RADIUS,30.);
GePrint("Objectify by http://twitter.com/eight_io for Cinema 4D r14");
prevFrame = 0;
return TRUE;
}
Bool Voxelify::Init(GeListNode *node)
{
BaseObject *op = (BaseObject*)node;
BaseContainer *data = op->GetDataInstance();
//data->SetReal(CTTSPOBJECT_MAXSEG,1000.);
//data->SetReal(CTTSPOBJECT_MINSEG,0.1);
data->SetLong(SPLINEOBJECT_INTERPOLATION,SPLINEOBJECT_INTERPOLATION_ADAPTIVE);
GePrint("Voxelify by http://twitter.com/eight_io for Cinema 4D r14");
return TRUE;
}
// initialize settings
Bool AtomObject::Init(GeListNode *node)
{
BaseObject *op = (BaseObject*)node;
BaseContainer *data = op->GetDataInstance();
data->SetReal(ATOMOBJECT_SRAD,5.0);
data->SetReal(ATOMOBJECT_CRAD,2.0);
data->SetLong(ATOMOBJECT_SUB,8);
data->SetBool(ATOMOBJECT_SINGLE,FALSE);
return TRUE;
}
Bool DropEffector::InitEffector(GeListNode* node)
{
if (!rcol || !node)
return false;
BaseObject* op = (BaseObject*)node;
if (!op)
return false;
BaseContainer* bc = op->GetDataInstance();
if (!bc)
return false;
bc->SetFloat(DROPEFFECTOR_DISTANCE, 1000.0);
return true;
}
Bool VoxelGenerator::Message(GeListNode* node, Int32 type, void* t_data)
{
switch(type)
{
case MSG_DESCRIPTION_COMMAND:
{
DescriptionCommand *dc = (DescriptionCommand*)t_data;
/* Handle Candidate button */
FXAPI::FXServer *server = FXAPI::FXServer::Get(node->GetDocument());
if(!server) break;
BaseObject* op = (BaseObject *)node;
//Effex Scene BaseObject interface from the link field
BaseObject* scene = op->GetDataInstance()->GetObjectLink(VGEN_SCENE, node->GetDocument());
if(dc->id[0].id==VGEN_CHANNEL_SELECTOR && scene)
{
//Get the Effex Scene node which should contain the scalar channel
FXAPI::FXScene* effex_scene = server->GetEffexScene(scene);
if(!effex_scene) break;
/* Create a list of scalar channels that are already in the scene that the user may want to use.
We use GetNodes to search the scene for channels */
std::vector<FXAPI::FXBase*> items;
FXAPI::GetNodes(effex_scene,NULL,items,FXAPI::NodeRetrieveType_ScalarChannel);
/* Create a list of compatible channel types (for the candidate buttons "Create.." submenu) */
FXAPI::FXTypeInfos t_types;
t_types.push_back(FXAPI::FXTypeInfo(EFFEX_CHANNEL_SCALAR,"Scalar Channel")); //The naming part is only for safe-guarding
/* Pass all the info to the Candidate button Popup */
BaseObject *op = (BaseObject*)node;
FXAPI::OpenCandidatePopup(false,items,t_types,op,VGEN_CHANNEL,false,true,0);
return true;
}
}
break;
}
return ObjectData::Message(node,type,t_data);
}
/// ***************************************************************************
/// This function recursive hides or unhides a node and all its following
/// nodes in the same hierarchy level and below object manager and timeline.
/// Only direct children are hidden or revealed, no other branches.
/// @param[in] root The node to start with.
/// @param[in] hide \c true if the hierarchy should be hidden, \c false
/// if it should be revealed by this function.
/// @param[in] doc The BaseDocument to add undos to, if desired. Pass
/// \c nullptr if no undos should be created.
/// @param[in] sameLevel If \c true (default), all objects following *root*
/// in the hierarchy will also be processed by this function.
/// ***************************************************************************
static void HideHierarchy(BaseList2D* root, Bool hide, BaseDocument* doc, Bool sameLevel=true)
{
while (root)
{
if (doc)
doc->AddUndo(UNDOTYPE_BITS, root);
const NBITCONTROL control = (hide ? NBITCONTROL_SET : NBITCONTROL_CLEAR);
root->ChangeNBit(NBIT_OHIDE, control);
root->ChangeNBit(NBIT_TL1_HIDE, control);
root->ChangeNBit(NBIT_TL2_HIDE, control);
root->ChangeNBit(NBIT_TL3_HIDE, control);
root->ChangeNBit(NBIT_TL4_HIDE, control);
root->ChangeNBit(NBIT_THIDE, control);
root->DelBit(BIT_ACTIVE);
Bool hideChildren = true;
if (root->IsInstanceOf(Obase))
{
BaseObject* op = static_cast<BaseObject*>(root);
BaseContainer* bc = op->GetDataInstance();
CriticalAssert(bc);
if (bc->GetString(CONTAINEROBJECT_PROTECTIONHASH).Content())
// Don't modify the hierarchy of "protected" Null-Objects.
hideChildren = false;
else if (ContainerIsProtected(op))
// Don't modify the hierarchy of protected Containers.
hideChildren = false;
}
if (hideChildren)
HideHierarchy(static_cast<BaseList2D*>(root->GetDown()), hide, doc);
if (!sameLevel) break;
root = root->GetNext();
}
}
Bool LiquidToolData::MouseInput(BaseDocument* doc, BaseContainer& data, BaseDraw* bd, EditorWindow* win, const BaseContainer& msg)
{
Float mx = msg.GetFloat(BFM_INPUT_X);
Float my = msg.GetFloat(BFM_INPUT_Y);
Int32 button;
switch (msg.GetInt32(BFM_INPUT_CHANNEL))
{
case BFM_INPUT_MOUSELEFT: button = KEY_MLEFT; break;
case BFM_INPUT_MOUSERIGHT: button = KEY_MRIGHT; break;
default: return true;
}
BaseObject* cl = nullptr, *null = nullptr, *op = nullptr;
Float dx, dy, rad = 5.0;
Bool newmeta = false;
op = BaseObject::Alloc(Osphere);
if (!op)
return false;
null = BaseObject::Alloc(Ometaball);
{
null->GetDataInstance()->SetFloat(METABALLOBJECT_SUBEDITOR, 10.0);
null->MakeTag(Tphong);
}
newmeta = true;
if (newmeta)
{
doc->InsertObject(null, nullptr, nullptr);
doc->SetActiveObject(null);
doc->AddUndo(UNDOTYPE_NEW, null);
DrawViews(DRAWFLAGS_ONLY_ACTIVE_VIEW | DRAWFLAGS_NO_THREAD | DRAWFLAGS_NO_ANIMATION);
}
BaseContainer bc;
BaseContainer device;
win->MouseDragStart(button, mx, my, MOUSEDRAGFLAGS_DONTHIDEMOUSE | MOUSEDRAGFLAGS_NOMOVE);
while (win->MouseDrag(&dx, &dy, &device) == MOUSEDRAGRESULT_CONTINUE)
{
bc = BaseContainer();
win->BfGetInputEvent(BFM_INPUT_MOUSE, &bc);
if (bc.GetInt32(BFM_INPUT_CHANNEL) == BFM_INPUT_MOUSEWHEEL)
{
rad += bc.GetFloat(BFM_INPUT_VALUE) / 120.0;
rad = ClampValue(rad, (Float) 0.1, (Float) MAXRANGE);
GePrint(String::FloatToString(rad));
}
if (dx == 0.0 && dy == 0.0)
continue;
mx += dx;
my += dy;
cl = (BaseObject*)op->GetClone(COPYFLAGS_0, nullptr);
if (!cl)
break;
cl->GetDataInstance()->SetFloat(PRIM_SPHERE_RAD, rad);
cl->SetAbsPos(bd->SW(Vector(mx, my, 500.0)));
cl->InsertUnder(null);
DrawViews(DRAWFLAGS_ONLY_ACTIVE_VIEW | DRAWFLAGS_NO_THREAD | DRAWFLAGS_NO_ANIMATION);
}
if (win->MouseDragEnd() == MOUSEDRAGRESULT_ESCAPE)
{
doc->DoUndo(true);
}
BaseObject::Free(op);
EventAdd();
return true;
}
BaseContainer *ObjectDataM::GetDataInstance(GeListNode *node)
{
BaseObject *op = (BaseObject*)node;
BaseContainer *data = op->GetDataInstance();
return data;
}
// go through every (child) object
static Bool Recurse(HierarchyHelp *hh, BaseThread *bt, BaseObject *main, BaseObject *op, const Matrix &ml, Real srad, Real crad, LONG sub, Bool single)
{
// test if input object if polygonal
if (op->GetType()==Opolygon)
{
BaseObject *tp = NULL;
PolyInfo *pli = NULL;
const Vector *padr = ToPoly(op)->GetPointR();
Vector pa,pb;
LONG pcnt = ToPoly(op)->GetPointCount(),i,side,a=0,b=0;
const CPolygon *vadr = ToPoly(op)->GetPolygonR();
LONG vcnt = ToPoly(op)->GetPolygonCount();
Matrix m;
Neighbor n;
// load names from resource
String pstr = GeLoadString(IDS_ATOM_POINT);
String estr = GeLoadString(IDS_ATOM_EDGE);
// initialize neighbor class
if (!n.Init(pcnt,vadr,vcnt,NULL)) return FALSE;
// create separate objects
// if this option is enabled no polygonal geometry is build - more parametric objects
// are returned instead
if (single)
{
for (i=0; i<pcnt; i++)
{
// alloc sphere primitive
tp=BaseObject::Alloc(Osphere);
if (!tp) return FALSE;
// add phong tag
if (!tp->MakeTag(Tphong)) return FALSE;
tp->SetName(pstr+" "+LongToString(i));
// set object parameters
BaseContainer *bc = tp->GetDataInstance();
bc->SetReal(PRIM_SPHERE_RAD,srad);
bc->SetReal(PRIM_SPHERE_SUB,sub);
// insert as last object under main
tp->InsertUnderLast(main);
// set position in local coordinates
tp->SetRelPos(padr[i]*ml);
}
for (i=0; i<vcnt; i++)
{
// get polygon info for i-th polygon
pli = n.GetPolyInfo(i);
for (side=0; side<4; side++)
{
// only proceed if edge has not already been processed
// and edge really exists (for triangles side 2 from c..d does not exist as c==d)
if (pli->mark[side] || side==2 && vadr[i].c==vadr[i].d) continue;
// alloc cylinder primitive
tp=BaseObject::Alloc(Ocylinder);
if (!tp) return FALSE;
// add phong tag
if (!tp->MakeTag(Tphong)) return FALSE;
switch (side)
{
case 0: a=vadr[i].a; b=vadr[i].b; break;
case 1: a=vadr[i].b; b=vadr[i].c; break;
case 2: a=vadr[i].c; b=vadr[i].d; break;
case 3: a=vadr[i].d; b=vadr[i].a; break;
}
tp->SetName(estr+" "+LongToString(pli->edge[side]));
pa = padr[a]*ml;
pb = padr[b]*ml;
// set object parameters
BaseContainer *bc = tp->GetDataInstance();
bc->SetReal(PRIM_CYLINDER_RADIUS,crad);
bc->SetReal(PRIM_CYLINDER_HEIGHT,Len(pb-pa));
bc->SetReal(PRIM_AXIS,4);
bc->SetLong(PRIM_CYLINDER_CAPS,FALSE);
bc->SetLong(PRIM_CYLINDER_HSUB,1);
bc->SetLong(PRIM_CYLINDER_SEG,sub);
// place cylinder at edge center
tp->SetRelPos((pa+pb)*0.5);
// build edge matrix
m.v3=!(pb-pa);
RectangularSystem(m.v3,&m.v1,&m.v2);
tp->SetRelRot(MatrixToHPB(m, tp->GetRotationOrder()));
// insert as last object under main
tp->InsertUnderLast(main);
}
}
}
else
{
// check if polygonal geometry has to be built
tp = BuildPolyHull(ToPoly(op),ml,srad,crad,sub,hh->GetLOD(),&n,bt);
if (tp)
{
tp->SetName(op->GetName());
tp->InsertUnderLast(main);
// check if isoparm geometry has to be built
if (hh->GetBuildFlags()&BUILDFLAGS_ISOPARM)
{
LineObject *ip = BuildIsoHull(ToPoly(op),ml,srad,crad,sub,hh->GetLOD(),&n,bt);
// isoparm always needs to be set into a polygon object
if (ip) tp->SetIsoparm(ip);
}
}
}
}
for (op=op->GetDown(); op; op=op->GetNext())
if (!Recurse(hh,bt,main,op,ml*op->GetMl(),srad,crad,sub,single)) return FALSE;
// check for user break
return !bt || !bt->TestBreak();
}