/usr/include/vtk-7.1/vtkObject.h is in libvtk7-dev 7.1.1+dfsg1-2.
This file is owned by root:root, with mode 0o644.
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Program: Visualization Toolkit
Module: vtkObject.h
Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
All rights reserved.
See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notice for more information.
=========================================================================*/
/**
* @class vtkObject
* @brief abstract base class for most VTK objects
*
* vtkObject is the base class for most objects in the visualization
* toolkit. vtkObject provides methods for tracking modification time,
* debugging, printing, and event callbacks. Most objects created
* within the VTK framework should be a subclass of vtkObject or one
* of its children. The few exceptions tend to be very small helper
* classes that usually never get instantiated or situations where
* multiple inheritance gets in the way. vtkObject also performs
* reference counting: objects that are reference counted exist as
* long as another object uses them. Once the last reference to a
* reference counted object is removed, the object will spontaneously
* destruct.
*
* @warning
* Note: in VTK objects should always be created with the New() method
* and deleted with the Delete() method. VTK objects cannot be
* allocated off the stack (i.e., automatic objects) because the
* constructor is a protected method.
*
* @sa
* vtkCommand vtkTimeStamp
*/
#ifndef vtkObject_h
#define vtkObject_h
#include "vtkCommonCoreModule.h" // For export macro
#include "vtkObjectBase.h"
#include "vtkSetGet.h"
#include "vtkTimeStamp.h"
#include "vtkWeakPointerBase.h" // needed for vtkWeakPointer
class vtkSubjectHelper;
class vtkCommand;
class VTKCOMMONCORE_EXPORT vtkObject : public vtkObjectBase
{
public:
vtkBaseTypeMacro(vtkObject,vtkObjectBase);
/**
* Create an object with Debug turned off, modified time initialized
* to zero, and reference counting on.
*/
static vtkObject *New();
#ifdef _WIN32
// avoid dll boundary problems
void* operator new( size_t tSize );
void operator delete( void* p );
#endif
/**
* Turn debugging output on.
*/
virtual void DebugOn();
/**
* Turn debugging output off.
*/
virtual void DebugOff();
/**
* Get the value of the debug flag.
*/
bool GetDebug();
/**
* Set the value of the debug flag. A true value turns debugging on.
*/
void SetDebug(bool debugFlag);
/**
* This method is called when vtkErrorMacro executes. It allows
* the debugger to break on error.
*/
static void BreakOnError();
/**
* Update the modification time for this object. Many filters rely on
* the modification time to determine if they need to recompute their
* data. The modification time is a unique monotonically increasing
* unsigned long integer.
*/
virtual void Modified();
/**
* Return this object's modified time.
*/
virtual vtkMTimeType GetMTime();
/**
* Methods invoked by print to print information about the object
* including superclasses. Typically not called by the user (use
* Print() instead) but used in the hierarchical print process to
* combine the output of several classes.
*/
void PrintSelf(ostream& os, vtkIndent indent) VTK_OVERRIDE;
//@{
/**
* This is a global flag that controls whether any debug, warning
* or error messages are displayed.
*/
static void SetGlobalWarningDisplay(int val);
static void GlobalWarningDisplayOn(){vtkObject::SetGlobalWarningDisplay(1);};
static void GlobalWarningDisplayOff()
{vtkObject::SetGlobalWarningDisplay(0);};
static int GetGlobalWarningDisplay();
//@}
//@{
/**
* Allow people to add/remove/invoke observers (callbacks) to any VTK
* object. This is an implementation of the subject/observer design
* pattern. An observer is added by specifying an event to respond to
* and a vtkCommand to execute. It returns an unsigned long tag which
* can be used later to remove the event or retrieve the command.
* When events are invoked, the observers are called in the order they
* were added. If a priority value is specified, then the higher
* priority commands are called first. A command may set an abort
* flag to stop processing of the event. (See vtkCommand.h for more
* information.)
*/
unsigned long AddObserver(unsigned long event, vtkCommand *,
float priority=0.0f);
unsigned long AddObserver(const char *event, vtkCommand *,
float priority=0.0f);
vtkCommand *GetCommand(unsigned long tag);
void RemoveObserver(vtkCommand*);
void RemoveObservers(unsigned long event, vtkCommand *);
void RemoveObservers(const char *event, vtkCommand *);
int HasObserver(unsigned long event, vtkCommand *);
int HasObserver(const char *event, vtkCommand *);
//@}
void RemoveObserver(unsigned long tag);
void RemoveObservers(unsigned long event);
void RemoveObservers(const char *event);
void RemoveAllObservers(); //remove every last one of them
int HasObserver(unsigned long event);
int HasObserver(const char *event);
//@{
/**
* Overloads to AddObserver that allow developers to add class member
* functions as callbacks for events. The callback function can
* be one of these two types:
* \code
* void foo(void);\n
* void foo(vtkObject*, unsigned long, void*);
* \endcode
* If the callback is a member of a vtkObjectBase-derived object,
* then the callback will automatically be disabled if the object
* destructs (but the observer will not automatically be removed).
* If the callback is a member of any other type of object, then
* the observer must be removed before the object destructs or else
* its dead pointer will be used the next time the event occurs.
* Typical usage of these functions is as follows:
* \code
* SomeClassOfMine* observer = SomeClassOfMine::New();\n
* to_observe->AddObserver(event, observer, \&SomeClassOfMine::SomeMethod);
* \endcode
* Note that this does not affect the reference count of a
* vtkObjectBase-derived \c observer, which can be safely deleted
* with the observer still in place. For non-vtkObjectBase observers,
* the observer should never be deleted before it is removed.
* Return value is a tag that can be used to remove the observer.
*/
template <class U, class T>
unsigned long AddObserver(unsigned long event,
U observer, void (T::*callback)(), float priority=0.0f)
{
vtkClassMemberCallback<T> *callable =
new vtkClassMemberCallback<T>(observer, callback);
// callable is deleted when the observer is cleaned up (look at
// vtkObjectCommandInternal)
return this->AddTemplatedObserver(event, callable, priority);
}
template <class U, class T>
unsigned long AddObserver(unsigned long event,
U observer, void (T::*callback)(vtkObject*, unsigned long, void*),
float priority=0.0f)
{
vtkClassMemberCallback<T> *callable =
new vtkClassMemberCallback<T>(observer, callback);
// callable is deleted when the observer is cleaned up (look at
// vtkObjectCommandInternal)
return this->AddTemplatedObserver(event, callable, priority);
}
//@}
//@{
/**
* Allow user to set the AbortFlagOn() with the return value of the callback
* method.
*/
template <class U, class T>
unsigned long AddObserver(unsigned long event,
U observer, bool (T::*callback)(vtkObject*, unsigned long, void*),
float priority=0.0f)
{
vtkClassMemberCallback<T> *callable =
new vtkClassMemberCallback<T>(observer, callback);
// callable is deleted when the observer is cleaned up (look at
// vtkObjectCommandInternal)
return this->AddTemplatedObserver(event, callable, priority);
}
//@}
//@{
/**
* This method invokes an event and return whether the event was
* aborted or not. If the event was aborted, the return value is 1,
* otherwise it is 0.
*/
int InvokeEvent(unsigned long event, void *callData);
int InvokeEvent(const char *event, void *callData);
//@}
int InvokeEvent(unsigned long event) { return this->InvokeEvent(event, NULL); };
int InvokeEvent(const char *event) { return this->InvokeEvent(event, NULL); };
protected:
vtkObject();
~vtkObject() VTK_OVERRIDE;
// See vtkObjectBase.h.
void RegisterInternal(vtkObjectBase*, vtkTypeBool check) VTK_OVERRIDE;
void UnRegisterInternal(vtkObjectBase*, vtkTypeBool check) VTK_OVERRIDE;
bool Debug; // Enable debug messages
vtkTimeStamp MTime; // Keep track of modification time
vtkSubjectHelper *SubjectHelper; // List of observers on this object
//@{
/**
* These methods allow a command to exclusively grab all events. (This
* method is typically used by widgets to grab events once an event
* sequence begins.) These methods are provided in support of the
* public methods found in the class vtkInteractorObserver. Note that
* these methods are designed to support vtkInteractorObservers since
* they use two separate vtkCommands to watch for mouse and keypress events.
*/
void InternalGrabFocus(vtkCommand *mouseEvents, vtkCommand *keypressEvents=NULL);
void InternalReleaseFocus();
//@}
private:
vtkObject(const vtkObject&) VTK_DELETE_FUNCTION;
void operator=(const vtkObject&) VTK_DELETE_FUNCTION;
/**
* Following classes (vtkClassMemberCallbackBase,
* vtkClassMemberCallback, and vtkClassMemberHanderPointer)
* along with vtkObjectCommandInternal are for supporting
* templated AddObserver() overloads that allow developers
* to add event callbacks that are class member functions.
*/
class vtkClassMemberCallbackBase
{
public:
//@{
/**
* Called when the event is invoked
*/
virtual bool operator()(vtkObject*, unsigned long, void*) = 0;
virtual ~vtkClassMemberCallbackBase(){}
};
//@}
//@{
/**
* This is a weak pointer for vtkObjectBase and a regular
* void pointer for everything else
*/
template<class T>
class vtkClassMemberHandlerPointer
{
public:
void operator=(vtkObjectBase *o)
{
// The cast is needed in case "o" has multi-inheritance,
// to offset the pointer to get the vtkObjectBase.
if ((this->VoidPointer = dynamic_cast<T*>(o)) == 0)
{
// fallback to just using its vtkObjectBase as-is.
this->VoidPointer = o;
}
this->WeakPointer = o;
this->UseWeakPointer = true;
}
void operator=(void *o)
{
this->VoidPointer = o;
this->WeakPointer = 0;
this->UseWeakPointer = false;
}
T *GetPointer()
{
if (this->UseWeakPointer && !this->WeakPointer.GetPointer())
{
return 0;
}
return static_cast<T*>(this->VoidPointer);
}
private:
vtkWeakPointerBase WeakPointer;
void *VoidPointer;
bool UseWeakPointer;
};
//@}
//@{
/**
* Templated member callback.
*/
template <class T>
class vtkClassMemberCallback : public vtkClassMemberCallbackBase
{
vtkClassMemberHandlerPointer<T> Handler;
void (T::*Method1)();
void (T::*Method2)(vtkObject*, unsigned long, void*);
bool (T::*Method3)(vtkObject*, unsigned long, void*);
//@}
public:
vtkClassMemberCallback(T* handler, void (T::*method)())
{
this->Handler = handler;
this->Method1 = method;
this->Method2 = NULL;
this->Method3 = NULL;
}
vtkClassMemberCallback(
T* handler, void (T::*method)(vtkObject*, unsigned long, void*))
{
this->Handler = handler;
this->Method1 = NULL;
this->Method2 = method;
this->Method3 = NULL;
}
vtkClassMemberCallback(
T* handler, bool (T::*method)(vtkObject*, unsigned long, void*))
{
this->Handler = handler;
this->Method1 = NULL;
this->Method2 = NULL;
this->Method3 = method;
}
~vtkClassMemberCallback() VTK_OVERRIDE { }
// Called when the event is invoked
bool operator()(
vtkObject* caller, unsigned long event, void* calldata) VTK_OVERRIDE
{
T *handler = this->Handler.GetPointer();
if (handler)
{
if (this->Method1)
{
(handler->*this->Method1)();
}
else if (this->Method2)
{
(handler->*this->Method2)(caller, event, calldata);
}
else if (this->Method3)
{
return (handler->*this->Method3)(caller, event, calldata);
}
}
return false;
}
};
//@{
/**
* Called by templated variants of AddObserver.
*/
unsigned long AddTemplatedObserver(
unsigned long event, vtkClassMemberCallbackBase* callable, float priority);
// Friend to access AddTemplatedObserver().
friend class vtkObjectCommandInternal;
//@}
};
#endif
// VTK-HeaderTest-Exclude: vtkObject.h
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