ButtonNode

Inheritance:

Methods of ButtonNode:

Methods of DataNode:

Methods of PandaNode:

Methods of TypedWritable:

Methods of TypedObject:

Methods of Namable:

Methods of ReferenceCount:

Constants in PandaNode:

getButtonMap
ButtonHandle ButtonNode::get_button_map(int index) const;

Description: Returns the ButtonHandle that was previously associated with the given index number by a call to set_button_map(), or ButtonHandle::none() if no button was associated.

getButtonState
bool ButtonNode::get_button_state(int index) const;

Description: Returns true if the indicated button (identified by its index number) is currently known to be down, or false if it is up or unknown.

getClassType
static TypeHandle ButtonNode::get_class_type(void);

Undocumented function.

getNumButtons
int ButtonNode::get_num_buttons(void) const;

Description: Returns the number of buttons known to the ButtonNode. This includes those buttons whose state has been seen, as well as buttons that have been associated with a ButtonHandle even if their state is unknown. This number may change as more buttons are discovered.

isButtonKnown
bool ButtonNode::is_button_known(int index) const;

Description: Returns true if the state of the indicated button is known, or false if we have never heard anything about this particular button.

isValid
bool ButtonNode::is_valid(void) const;

Filename: buttonNode.I Created by: drose (12Mar02)
PANDA 3D SOFTWARE Copyright (c) 2001 - 2004, Disney Enterprises, Inc. All rights reserved
All use of this software is subject to the terms of the Panda 3d Software license. You should have received a copy of this license along with this source code; you will also find a current copy of the license at http://etc.cmu.edu/panda3d/docs/license/ .
To contact the maintainers of this program write to panda3d-general@lists.sourceforge.net .
Description: Returns true if the ButtonNode is valid and connected to a server, false otherwise.

setButtonMap
void ButtonNode::set_button_map(int index, ButtonHandle button);

Description: Associates the indicated ButtonHandle with the button of the indicated index number. When the given button index changes state, a corresponding ButtonEvent will be generated with the given ButtonHandle. Pass ButtonHandle::none() to turn off any association.
It is not necessary to call this if you simply want to query the state of the various buttons by index number; this is only necessary in order to generate ButtonEvents when the buttons change state.

getClassType
static TypeHandle DataNode::get_class_type(void);

Undocumented function.

writeConnections
void DataNode::write_connections(ostream &out) const;

Description: Writes to the indicated ostream a list of all the connections currently showing between this DataNode and its parent(s).

writeInputs
void DataNode::write_inputs(ostream &out) const;

Description: Writes to the indicated ostream a list of all the inputs this DataNode might expect to receive.

writeOutputs
void DataNode::write_outputs(ostream &out) const;

Description: Writes to the indicated ostream a list of all the outputs this DataNode might generate.

addChild
void PandaNode::add_child(PandaNode *child_node, int sort = (0), Thread *current_thread = ((get_current_thread())));

Description: Adds a new child to the node. The child is added in the relative position indicated by sort; if all children have the same sort index, the child is added at the end.
If the same child is added to a node more than once, the previous instance is first removed.

addStashed
void PandaNode::add_stashed(PandaNode *child_node, int sort = (0), Thread *current_thread = ((get_current_thread())));

Description: Adds a new child to the node, directly as a stashed child. The child is not added in the normal sense, but will be revealed if unstash_child() is called on it later.
If the same child is added to a node more than once, the previous instance is first removed.
This can only be called from the top pipeline stage (i.e. from App).

adjustDrawMask
void PandaNode::adjust_draw_mask(BitMask< unsigned int, 32 > show_mask, BitMask< unsigned int, 32 > hide_mask, BitMask< unsigned int, 32 > clear_mask);

Description: Adjusts the hide/show bits of this particular node.
These three parameters can be used to adjust the _draw_control_mask and _draw_show_mask independently, which work together to provide per-camera visibility for the node and its descendents.
_draw_control_mask indicates the bits in _draw_show_mask that are significant. Each different bit corresponds to a different camera (and these bits are assigned via Camera::set_camera_mask()).
Where _draw_control_mask has a 1 bit, a 1 bit in _draw_show_mask indicates the node is visible to that camera, and a 0 bit indicates the node is hidden to that camera. Where _draw_control_mask is 0, the node is hidden only if a parent node is hidden.
The meaning of the three parameters is as follows:
* Wherever show_mask is 1, _draw_show_mask and
_draw_control_mask will be set 1. Thus, show_mask indicates the set of cameras to which the node should be shown.
* Wherever hide_mask is 1, _draw_show_mask will be
set 0 and _draw_control_mask will be set 1. Thus, hide_mask indicates the set of cameras from which the node should be hidden.
* Wherever clear_mask is 1, _draw_control_mask will
be set 0. Thus, clear_mask indicates the set of cameras from which the hidden state should be inherited from a parent.

asLight
virtual Light *PandaNode::as_light(void);

Description: Cross-casts the node to a Light pointer, if it is one of the four kinds of Light nodes, or returns NULL if it is not.

clearAttrib
void PandaNode::clear_attrib(TypeHandle type);

Description: Removes the render attribute of the given type from this node. This node, and the subgraph below, will now inherit the indicated render attribute from the nodes above this one.

clearBounds
void PandaNode::clear_bounds(void);

Description: Reverses the effect of a previous call to set_bounds(), and allows the node's bounding volume to be automatically computed once more based on the contents of the node.

clearEffect
void PandaNode::clear_effect(TypeHandle type);

Description: Removes the render effect of the given type from this node.

clearEffects
void PandaNode::clear_effects(Thread *current_thread = ((get_current_thread())));

Description: Resets this node to have no render effects.

clearPythonTag
void PandaNode::clear_python_tag(string const &key);

Description: Removes the Python object defined for this key on this particular node. After a call to clear_python_tag(), has_python_tag() will return false for the indicated key.

clearState
void PandaNode::clear_state(Thread *current_thread = ((get_current_thread())));

Description: Resets this node to leave the render state alone. Nodes at this level and below will once again inherit their render state unchanged from the nodes above this level.

clearTag
void PandaNode::clear_tag(string const &key, Thread *current_thread = ((get_current_thread())));

Description: Removes the value defined for this key on this particular node. After a call to clear_tag(), has_tag() will return false for the indicated key.

clearTransform
void PandaNode::clear_transform(Thread *current_thread = ((get_current_thread())));

Description: Resets the transform on this node to the identity transform.

compareTags
int PandaNode::compare_tags(PandaNode const *other) const;

Description: Returns a number less than 0, 0, or greater than 0, to indicate the similarity of tags between this node and the other one. If this returns 0, the tags are identical. If it returns other than 0, then the tags are different; and the nodes may be sorted into a consistent (but arbitrary) ordering based on this number.

copyAllProperties
void PandaNode::copy_all_properties(PandaNode *other);

Description: Copies the TransformState, RenderState, RenderEffects, tags, Python tags, and the show/hide state from the other node onto this one. Typically this is used to prepare a node to replace another node in the scene graph (also see replace_node()).

copyChildren
void PandaNode::copy_children(PandaNode *other, Thread *current_thread = ((get_current_thread())));

Description: Makes another instance of all the children of the other node, copying them to this node.

copySubgraph
PointerTo< PandaNode > PandaNode::copy_subgraph(Thread *current_thread = ((get_current_thread()))) const;

Description: Allocates and returns a complete copy of this PandaNode and the entire scene graph rooted at this PandaNode. Some data may still be shared from the original (e.g. vertex index tables), but nothing that will impede normal use of the PandaNode.

copyTags
void PandaNode::copy_tags(PandaNode *other);

HAVE_PYTHON
Description: Copies all of the tags stored on the other node onto this node. If a particular tag exists on both nodes, the contents of this node's value is replaced by that of the other.

countNumDescendants
int PandaNode::count_num_descendants(void) const;

Description: Returns the number of nodes at and below this level.

findChild
int PandaNode::find_child(PandaNode *node, Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the index of the indicated child node, if it is a child, or -1 if it is not.

findParent
int PandaNode::find_parent(PandaNode *node, Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the index of the indicated parent node, if it is a parent, or -1 if it is not.

findStashed
int PandaNode::find_stashed(PandaNode *node, Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the index of the indicated stashed node, if it is a stashed child, or -1 if it is not.

getAllCameraMask
static BitMask< unsigned int, 32 > PandaNode::get_all_camera_mask(void);

Description: Returns a DrawMask that is appropriate for rendering to all cameras.

getAttrib
RenderAttrib const *PandaNode::get_attrib(TypeHandle type) const;

Description: Returns the render attribute of the indicated type, if it is defined on the node, or NULL if it is not. This checks only what is set on this particular node level, and has nothing to do with what render attributes may be inherited from parent nodes.

getBounds
ConstPointerTo< BoundingVolume > PandaNode::get_bounds(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the external bounding volume of this node: a bounding volume that contains the user bounding volume, the internal bounding volume, and all of the children's bounding volumes.
Description: This flavor of get_bounds() return the external bounding volume, and also fills in seq with the bounding volume's current sequence number. When this sequence number changes, it indicates that the bounding volume might have changed, e.g. because some nested child's bounding volume has changed.
Although this might occasionally increment without changing the bounding volume, the bounding volume will never change without incrementing this counter, so as long as this counter remains unchanged you can be confident the bounding volume is also unchanged.

getChild
PandaNode *PandaNode::get_child(int n, Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the nth child node of this node. See get_num_children(). Also see get_children(), if your intention is to iterate through the complete list of children; get_children() is preferable in this case.

getChildSort
int PandaNode::get_child_sort(int n, Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the sort index of the nth child node of this node (that is, the number that was passed to add_child()). See get_num_children().

getClassType
static TypeHandle PandaNode::get_class_type(void);

Undocumented function.

getDrawControlMask
BitMask< unsigned int, 32 > PandaNode::get_draw_control_mask(void) const;

Description: Returns the set of bits in draw_show_mask that are considered meaningful. See adjust_draw_mask().

getDrawShowMask
BitMask< unsigned int, 32 > PandaNode::get_draw_show_mask(void) const;

Description: Returns the hide/show bits of this particular node. See adjust_draw_mask().

getEffect
RenderEffect const *PandaNode::get_effect(TypeHandle type) const;

Description: Returns the render effect of the indicated type, if it is defined on the node, or NULL if it is not.

getEffects
RenderEffects const *PandaNode::get_effects(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the complete RenderEffects that will be applied to this node.

getFancyBits
int PandaNode::get_fancy_bits(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the union of all of the enum FancyBits values corresponding to the various "fancy" attributes that are set on the node. If this returns 0, the node has nothing interesting about it. This is intended to speed traversal by quickly skipping past nodes that don't particularly affect the render state.

getInternalBounds
ConstPointerTo< BoundingVolume > PandaNode::get_internal_bounds(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the node's internal bounding volume. This is the bounding volume around the node alone, without including children. If the user has called set_bounds(), it will be the specified bounding volume.
Description: Returns the node's internal bounding volume. This is the bounding volume around the node alone, without including children.

getInternalVertices
int PandaNode::get_internal_vertices(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the total number of vertices that will be rendered by this particular node alone, not accounting for its children.
This may not include all vertices for certain dynamic effects.

getIntoCollideMask
BitMask< unsigned int, 32 > PandaNode::get_into_collide_mask(void) const;

Description: Returns the "into" collide mask for this node.

getLegalCollideMask
virtual BitMask< unsigned int, 32 > PandaNode::get_legal_collide_mask(void) const;

Description: Returns the subset of CollideMask bits that may be set for this particular type of PandaNode. For most nodes, this is 0; it doesn't make sense to set a CollideMask for most kinds of nodes.
For nodes that can be collided with, such as GeomNode and CollisionNode, this returns all bits on.

getNestedVertices
int PandaNode::get_nested_vertices(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the total number of vertices that will be rendered by this node and all of its descendents.
This is not necessarily an accurate count of vertices that will actually be rendered, since this will include all vertices of all LOD's, and it will also include hidden nodes. It may also omit or only approximate certain kinds of dynamic geometry. However, it will not include stashed nodes.

getNetCollideMask
BitMask< unsigned int, 32 > PandaNode::get_net_collide_mask(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the union of all into_collide_mask() values set at CollisionNodes at this level and below.

getNetDrawControlMask
BitMask< unsigned int, 32 > PandaNode::get_net_draw_control_mask(void) const;

Description: Returns the set of bits in get_net_draw_show_mask() that have been explicitly set via adjust_draw_mask(), rather than implicitly inherited.
A 1 bit in any position of this mask indicates that (a) this node has renderable children, and (b) some child of this node has made an explicit hide() or show_through() call for the corresponding bit.

getNetDrawShowMask
BitMask< unsigned int, 32 > PandaNode::get_net_draw_show_mask(void) const;

Description: Returns the union of all draw_show_mask values--of renderable nodes only--at this level and below. If any bit in this mask is 0, there is no reason to traverse below this node for a camera with the corresponding camera_mask.
The bits in this mask that do not correspond to a 1 bit in the net_draw_control_mask are meaningless (and will be set to 1). For bits that *do* correspond to a 1 bit in the net_draw_control_mask, a 1 bit indicates that at least one child should be visible, while a 0 bit indicates that all children are hidden.

getNumChildren
int PandaNode::get_num_children(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the number of child nodes this node has. The order of the child nodes *is* meaningful and is based on the sort number that was passed to add_child(), and also on the order in which the nodes were added.

getNumParents
int PandaNode::get_num_parents(Thread *current_thread = ((get_current_thread()))) const;

Filename: pandaNode.I Created by: drose (20Feb02)
PANDA 3D SOFTWARE Copyright (c) 2001 - 2004, Disney Enterprises, Inc. All rights reserved
All use of this software is subject to the terms of the Panda 3d Software license. You should have received a copy of this license along with this source code; you will also find a current copy of the license at http://etc.cmu.edu/panda3d/docs/license/ .
To contact the maintainers of this program write to panda3d-general@lists.sourceforge.net .
Description: Returns the number of parent nodes this node has. If this number is greater than 1, the node has been multiply instanced. The order of the parent nodes is not meaningful and is not related to the order in which the node was instanced to them.

getNumStashed
int PandaNode::get_num_stashed(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the number of stashed nodes this node has. These are former children of the node that have been moved to the special stashed list via stash_child().

getOffClipPlanes
ConstPointerTo< RenderAttrib > PandaNode::get_off_clip_planes(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns a ClipPlaneAttrib which represents the union of all of the clip planes that have been turned *off* at this level and below.

getOverallBit
static BitMask< unsigned int, 32 > PandaNode::get_overall_bit(void);

Description: Returns the special bit that, when specifically cleared in the node's DrawMask, indicates that the node is hidden to all cameras, regardless of the remaining DrawMask bits.

getParent
PandaNode *PandaNode::get_parent(int n, Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the nth parent node of this node. See get_num_parents(). Also see get_parents(), if your intention is to iterate through the complete list of parents; get_parents() is preferable in this case.

getPrevTransform
TransformState const *PandaNode::get_prev_transform(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the transform that has been set as this node's "previous" position. See set_prev_transform().

getPythonTag
PyObject *PandaNode::get_python_tag(string const &key) const;

Description: Retrieves the Python object that was previously set on this node for the particular key, if any. If no value has been previously set, returns None.

getStashed
PandaNode *PandaNode::get_stashed(int n, Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the nth stashed child of this node. See get_num_stashed(). Also see get_stashed(), if your intention is to iterate through the complete list of stashed children; get_stashed() is preferable in this case.
Description: Returns an object that can be used to walk through the list of children of the node. When you intend to visit multiple children, using this is slightly faster than calling get_stashed() directly on the PandaNode, since this object avoids reopening the PipelineCycler each time.
This object also protects you from self-modifying loops (e.g. adding or removing children during traversal), since a virtual copy of the children is made ahead of time. The virtual copy is fast--it is a form of copy-on-write, so the list is not actually copied unless it is modified during the traversal.

getStashedSort
int PandaNode::get_stashed_sort(int n, Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the sort index of the nth stashed node of this node (that is, the number that was passed to add_child()). See get_num_stashed().

getState
RenderState const *PandaNode::get_state(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the complete RenderState that will be applied to all nodes at this level and below, as set on this node. This returns only the RenderState set on this particular node, and has nothing to do with state that might be inherited from above.

getTag
string PandaNode::get_tag(string const &key, Thread *current_thread = ((get_current_thread()))) const;

Description: Retrieves the user-defined value that was previously set on this node for the particular key, if any. If no value has been previously set, returns the empty string.

getTransform
TransformState const *PandaNode::get_transform(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the transform that has been set on this particular node. This is not the net transform from the root, but simply the transform on this particular node.

hasAttrib
bool PandaNode::has_attrib(TypeHandle type) const;

Description: Returns true if there is a render attribute of the indicated type defined on this node, or false if there is not.

hasDirtyPrevTransform
bool PandaNode::has_dirty_prev_transform(void) const;

Description: Returns true if this node has the _dirty_prev_transform flag set, which indicates its _prev_transform is different from its _transform value (in pipeline stage 0). In this case, the node will be visited by reset_prev_transform().

hasEffect
bool PandaNode::has_effect(TypeHandle type) const;

Description: Returns true if there is a render effect of the indicated type defined on this node, or false if there is not.

hasPythonTag
bool PandaNode::has_python_tag(string const &key) const;

Description: Returns true if a Python object has been defined on this node for the particular key (even if that object is None), or false if no object has been set.

hasTag
bool PandaNode::has_tag(string const &key, Thread *current_thread = ((get_current_thread()))) const;

Description: Returns true if a value has been defined on this node for the particular key (even if that value is the empty string), or false if no value has been set.

hasTags
bool PandaNode::has_tags(void) const;

HAVE_PYTHON
Description: Returns true if the node has any tags (or any Python tags) at all, false if it has none.

isFinal
bool PandaNode::is_final(Thread *current_thread = ((get_current_thread()))) const;

Description: Returns the current state of the "final" flag. Initially, this flag is off (false), but it may be changed by an explicit call to set_final(). See set_final().

isGeomNode
virtual bool PandaNode::is_geom_node(void) const;

Description: A simple downcast check. Returns true if this kind of node happens to inherit from GeomNode, false otherwise.
This is provided as a a faster alternative to calling is_of_type(GeomNode::get_class_type()), since this test is so important to rendering.

isLodNode
virtual bool PandaNode::is_lod_node(void) const;

Description: A simple downcast check. Returns true if this kind of node happens to inherit from LODNode, false otherwise.
This is provided as a a faster alternative to calling is_of_type(LODNode::get_class_type()).

isOverallHidden
bool PandaNode::is_overall_hidden(void) const;

Description: Returns true if the node has been hidden to all cameras by clearing its overall bit.

listTags
void PandaNode::list_tags(ostream &out, string const &separator = ("\n")) const;

Description: Writes a list of all the tag keys assigned to the node to the indicated stream. Writes one instance of the separator following each key (but does not write a terminal separator). The value associated with each key is not written.
This is mainly for the benefit of the realtime user, to see the list of all of the associated tag keys.

ls
void PandaNode::ls(ostream &out, int indent_level) const;

Description: Lists all the nodes at and below the current path hierarchically.

markBoundsStale
void PandaNode::mark_bounds_stale(Thread *current_thread = ((get_current_thread()))) const;

Description: Indicates that the bounding volume, or something that influences the bounding volume (or any of the other things stored in CData, like net_collide_mask), may have changed for this node, and that it must be recomputed.
With no parameters, this means to iterate through all stages including and upstream of the current pipeline stage.
This method is intended for internal use; usually it is not necessary for a user to call this directly. It will be called automatically by derived classes when appropriate.

markInternalBoundsStale
void PandaNode::mark_internal_bounds_stale(Thread *current_thread = ((get_current_thread())));

Description: Should be called by a derived class to mark the internal bounding volume stale, so that recompute_internal_bounds() will be called when the bounding volume is next requested.
Description: Should be called by a derived class to mark the internal bounding volume stale, so that compute_internal_bounds() will be called when the bounding volume is next requested.
With no parameters, this means to iterate through all stages including and upstream of the current pipeline stage.
It is normally not necessary to call this method directly; each node should be responsible for calling it when its internals have changed.

output
virtual void PandaNode::output(ostream &out) const;

Description:

removeAllChildren
void PandaNode::remove_all_children(Thread *current_thread = ((get_current_thread())));

Description: Removes all the children from the node at once, including stashed children.
This can only be called from the top pipeline stage (i.e. from App).

removeChild
void PandaNode::remove_child(int child_index, Thread *current_thread = ((get_current_thread())));

Description: Removes the nth child from the node.
Description: Removes the indicated child from the node. Returns true if the child was removed, false if it was not already a child of the node. This will also successfully remove the child if it had been stashed.

removeStashed
void PandaNode::remove_stashed(int child_index, Thread *current_thread = ((get_current_thread())));

Description: Removes the nth stashed child from the node.

replaceChild
bool PandaNode::replace_child(PandaNode *orig_child, PandaNode *new_child, Thread *current_thread = ((get_current_thread())));

Description: Searches for the orig_child node in the node's list of children, and replaces it with the new_child instead. Returns true if the replacement is made, or false if the node is not a child or if there is some other problem.

replaceNode
void PandaNode::replace_node(PandaNode *other);

Description: Inserts this node into the scene graph in place of the other one, and removes the other node. All scene graph attributes (TransformState, RenderState, etc.) are copied to this node.
All children are moved to this node, and removed from the old node. The new node is left in the same place in the old node's parent's list of children.
Even NodePaths that reference the old node are updated in-place to reference the new node instead.
This method is intended to be used to replace a node of a given type in the scene graph with a node of a different type.

resetAllPrevTransform
static void PandaNode::reset_all_prev_transform(Thread *current_thread = ((get_current_thread())));

Description: Visits all nodes in the world with the _dirty_prev_transform flag--that is, all nodes whose _prev_transform is different from the _transform in pipeline stage 0--and resets the _prev_transform to be the same as _transform.

resetPrevTransform
void PandaNode::reset_prev_transform(Thread *current_thread = ((get_current_thread())));

Description: Resets the transform that represents this node's "previous" position to the same as the current transform. This is not the same thing as clearing it to identity.

setAttrib
void PandaNode::set_attrib(RenderAttrib const *attrib, int override = (0));

Description: Adds the indicated render attribute to the scene graph on this node. This attribute will now apply to this node and everything below. If there was already an attribute of the same type, it is replaced.

setBound
void PandaNode::set_bound(BoundingVolume const *volume);

A node has three bounding volumes: an "external" bounding volume that represents the node and all of its children, an "internal" bounding volume which represents only the node itself (and is usually empty, unless a specific node type sets it otherwise), and a "user" bounding volume which is specified by the user. We define set_bounds() and get_bounds() functions so that set_bounds() sets the user bounding volume, while get_bounds() returns the external bounding volume. Although it might seem strange and confusing to do this, this is actually the natural way the user thinks about nodes and bounding volumes.
Description: Deprecated. Use set_bounds() instead.

setBounds
void PandaNode::set_bounds(BoundingVolume const *volume);

A node has three bounding volumes: an "external" bounding volume that represents the node and all of its children, an "internal" bounding volume which represents only the node itself (and is usually empty, unless a specific node type sets it otherwise), and a "user" bounding volume which is specified by the user. We define set_bounds() and get_bounds() functions so that set_bounds() sets the user bounding volume, while get_bounds() returns the external bounding volume. Although it might seem strange and confusing to do this, this is actually the natural way the user thinks about nodes and bounding volumes.
Description: Resets the bounding volume so that it is the indicated volume. When it is explicitly set, the bounding volume will no longer be automatically computed according to the contents of the node itself, for nodes like GeomNodes and TextNodes that contain substance (but the bounding volume will still be automatically expanded to include its children).
Call clear_bounds() if you would like to return the bounding volume to its default behavior later.

setEffect
void PandaNode::set_effect(RenderEffect const *effect);

Description: Adds the indicated render effect to the scene graph on this node. If there was already an effect of the same type, it is replaced.

setEffects
void PandaNode::set_effects(RenderEffects const *effects, Thread *current_thread = ((get_current_thread())));

Description: Sets the complete RenderEffects that will be applied this node. This completely replaces whatever has been set on this node via repeated calls to set_attrib().

setFinal
void PandaNode::set_final(bool flag);

Description: Sets the "final" flag on this PandaNode. If this is true, than no bounding volume need be tested below it; a positive intersection with this node's bounding volume is deemed to be a positive intersection with all geometry inside.
This is useful to quickly force a larger bounding volume around a node when the GeomNodes themselves are inaccurate for some reason, without forcing a recompute of every nested bounding volume. It's also helpful when the bounding volume is tricked by some special properties, like billboards, that may move geometry out of its bounding volume otherwise.

setIntoCollideMask
void PandaNode::set_into_collide_mask(BitMask< unsigned int, 32 > mask);

Description: Sets the "into" CollideMask.
This specifies the set of bits that must be shared with a CollisionNode's "from" CollideMask in order for the CollisionNode to detect a collision with this particular node.
The actual CollideMask that will be set is masked by the return value from get_legal_collide_mask(). Thus, the into_collide_mask cannot be set to anything other than nonzero except for those types of nodes that can be collided into, such as CollisionNodes and GeomNodes.

setOverallHidden
void PandaNode::set_overall_hidden(bool overall_hidden);

Description: Sets or clears the hidden flag. When the hidden flag is true, the node and all of its children are invisible to all cameras, regardless of the setting of any draw masks. Setting the hidden flag to false restores the previous visibility as established by the draw masks.
This actually works by twiddling the reserved _overall_bit in the node's draw mask, which has special meaning.

setPrevTransform
void PandaNode::set_prev_transform(TransformState const *transform, Thread *current_thread = ((get_current_thread())));

Description: Sets the transform that represents this node's "previous" position, one frame ago, for the purposes of detecting motion for accurate collision calculations.

setPythonTag
void PandaNode::set_python_tag(string const &key, PyObject *value);

Description: Associates an arbitrary Python object with a user-defined key which is stored on the node. This is similar to set_tag(), except it can store any Python object instead of just a string. However, the Python object is not recorded to a bam file.
Each unique key stores a different string value. There is no effective limit on the number of different keys that may be stored or on the length of any one key's value.

setState
void PandaNode::set_state(RenderState const *state, Thread *current_thread = ((get_current_thread())));

Description: Sets the complete RenderState that will be applied to all nodes at this level and below. (The actual state that will be applied to lower nodes is based on the composition of RenderStates from above this node as well). This completely replaces whatever has been set on this node via repeated calls to set_attrib().

setTag
void PandaNode::set_tag(string const &key, string const &value, Thread *current_thread = ((get_current_thread())));

Description: Associates a user-defined value with a user-defined key which is stored on the node. This value has no meaning to Panda; but it is stored indefinitely on the node until it is requested again.
Each unique key stores a different string value. There is no effective limit on the number of different keys that may be stored or on the length of any one key's value.

setTransform
void PandaNode::set_transform(TransformState const *transform, Thread *current_thread = ((get_current_thread())));

Description: Sets the transform that will be applied to this node and below. This defines a new coordinate space at this point in the scene graph and below.

stashChild
bool PandaNode::stash_child(PandaNode *child_node, Thread *current_thread = ((get_current_thread())));

Description: Stashes the indicated child node. This removes the child from the list of active children and puts it on a special list of stashed children. This child node no longer contributes to the bounding volume of the PandaNode, and is not visited in normal traversals. It is invisible and uncollidable. The child may later be restored by calling unstash_child().
This function returns true if the child node was successfully stashed, or false if it was not a child of the node in the first place (e.g. it was previously stashed).
This can only be called from the top pipeline stage (i.e. from App).

stealChildren
void PandaNode::steal_children(PandaNode *other, Thread *current_thread = ((get_current_thread())));

Description: Moves all the children from the other node onto this node.

unstashChild
bool PandaNode::unstash_child(PandaNode *child_node, Thread *current_thread = ((get_current_thread())));

Description: Returns the indicated stashed node to normal child status. This removes the child from the list of stashed children and puts it on the normal list of active children. This child node once again contributes to the bounding volume of the PandaNode, and will be visited in normal traversals. It is visible and collidable.
This function returns true if the child node was successfully stashed, or false if it was not a child of the node in the first place (e.g. it was previously stashed).
This can only be called from the top pipeline stage (i.e. from App).

write
virtual void PandaNode::write(ostream &out, int indent_level) const;

Description:

getClassType
static TypeHandle TypedWritable::get_class_type(void);

Undocumented function.

getClassType
static TypeHandle TypedObject::get_class_type(void);

Undocumented function.

getType
virtual TypeHandle TypedObject::get_type(void) const = 0;

Derived classes should override this function to return get_class_type().

getTypeIndex
int TypedObject::get_type_index(void) const;

Description: Returns the internal index number associated with this object's TypeHandle, a unique number for each different type. This is equivalent to get_type().get_index().

isExactType
bool TypedObject::is_exact_type(TypeHandle handle) const;

Description: Returns true if the current object is the indicated type exactly.

isOfType
bool TypedObject::is_of_type(TypeHandle handle) const;

Description: Returns true if the current object is or derives from the indicated type.

clearName
void Namable::clear_name(void);

Description: Resets the Namable's name to empty.

getClassType
static TypeHandle Namable::get_class_type(void);

Undocumented function.

getName
string const &Namable::get_name(void) const;

Description:

hasName
bool Namable::has_name(void) const;

Description: Returns true if the Namable has a nonempty name set, false if the name is empty.

operator =
Namable &Namable::operator =(Namable const &other);

Description:

output
void Namable::output(ostream &out) const;

In the absence of any definition to the contrary, outputting a Namable will write out its name.
Description: Outputs the Namable. This function simply writes the name to the output stream; most Namable derivatives will probably redefine this.

setName
void Namable::set_name(string const &name);

Description:

getClassType
static TypeHandle ReferenceCount::get_class_type(void);

Undocumented function.

getRefCount
int ReferenceCount::get_ref_count(void) const;

Description: Returns the current reference count.

ref
void ReferenceCount::ref(void) const;

Description: Explicitly increments the reference count. User code should avoid using ref() and unref() directly, which can result in missed reference counts. Instead, let a PointerTo object manage the reference counting automatically.
This function is const, even though it changes the object, because generally fiddling with an object's reference count isn't considered part of fiddling with the object. An object might be const in other ways, but we still need to accurately count the number of references to it.

testRefCountIntegrity
bool ReferenceCount::test_ref_count_integrity(void) const;

Description: Does some easy checks to make sure that the reference count isn't completely bogus. Returns true if ok, false otherwise.

testRefCountNonzero
bool ReferenceCount::test_ref_count_nonzero(void) const;

Description: Does some easy checks to make sure that the reference count isn't zero, or completely bogus. Returns true if ok, false otherwise.

unref
bool ReferenceCount::unref(void) const;

Description: Explicitly decrements the reference count. Note that the object will not be implicitly deleted by unref() simply because the reference count drops to zero. (Having a member function delete itself is problematic; plus, we don't have a virtual destructor anyway.) However, see the helper function unref_delete().
User code should avoid using ref() and unref() directly, which can result in missed reference counts. Instead, let a PointerTo object manage the reference counting automatically.
This function is const, even though it changes the object, because generally fiddling with an object's reference count isn't considered part of fiddling with the object. An object might be const in other ways, but we still need to accurately count the number of references to it.
The return value is true if the new reference count is nonzero, false if it is zero.