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Tcl_Class(3tcl) TclOO Library Functions Tcl_Class(3tcl)


Tcl_ClassGetMetadata, Tcl_ClassSetMetadata, Tcl_CopyObjectInstance, Tcl_GetClassAsObject, Tcl_GetObjectAsClass, Tcl_GetObjectCommand, Tcl_GetObjectFromObj, Tcl_GetObjectName, Tcl_GetObjectNamespace, Tcl_NewObjectInstance, Tcl_ObjectDeleted, Tcl_ObjectGetMetadata, Tcl_ObjectGetMethodNameMapper, Tcl_ObjectSetMetadata, Tcl_ObjectSetMethodNameMapper - manipulate objects and classes


#include <tclOO.h>

Tcl_GetObjectFromObj(interp, objPtr)



Tcl_Obj *
Tcl_GetObjectName(interp, object)


Tcl_Namespace *

Tcl_NewObjectInstance(interp, class, name, nsName, objc, objv, skip)

Tcl_CopyObjectInstance(interp, object, name, nsName)


Tcl_ObjectGetMetadata(object, metaTypePtr)

Tcl_ObjectSetMetadata(object, metaTypePtr, metadata)

Tcl_ClassGetMetadata(class, metaTypePtr)

Tcl_ClassSetMetadata(class, metaTypePtr, metadata)


Tcl_ObjectSetMethodNameMapper(object, methodNameMapper)


Tcl_Interp *interp (in/out)
Interpreter providing the context for looking up or creating an object, and into whose result error messages will be written on failure.
Tcl_Obj *objPtr (in)
The name of the object to look up.
Tcl_Object object (in)
Reference to the object to operate upon.
Tcl_Class class (in)
Reference to the class to operate upon.
const char *name (in)
The name of the object to create, or NULL if a new unused name is to be automatically selected.
const char *nsName (in)
The name of the namespace to create for the object's private use, or NULL if a new unused name is to be automatically selected. The namespace must not already exist.
int objc (in)
The number of elements in the objv array.
Tcl_Obj *const *objv (in)
The arguments to the command to create the instance of the class.
int skip (in)
The number of arguments at the start of the argument array, objv, that are not arguments to any constructors. This allows the generation of correct error messages even when complicated calling patterns are used (e.g., via the next command).
Tcl_ObjectMetadataType *metaTypePtr (in)
The type of metadata being set with Tcl_ClassSetMetadata or retrieved with Tcl_ClassGetMetadata.
ClientData metadata (in)
An item of metadata to attach to the class, or NULL to remove the metadata associated with a particular metaTypePtr.
Tcl_ObjectMapMethodNameProc methodNameMapper (in)
A pointer to a function to call to adjust the mapping of objects and method names to implementations, or NULL when no such mapping is required.


Objects are typed entities that have a set of operations ("methods") associated with them. Classes are objects that can manufacture objects. Each class can be viewed as an object itself; the object view can be retrieved using Tcl_GetClassAsObject which always returns the object when applied to a non-destroyed class, and an object can be viewed as a class with the aid of the Tcl_GetObjectAsClass (which either returns the class, or NULL if the object is not a class). An object may be looked up using the Tcl_GetObjectFromObj function, which either returns an object or NULL (with an error message in the interpreter result) if the object cannot be found. The correct way to look up a class by name is to look up the object with that name, and then to use Tcl_GetObjectAsClass.

Every object has its own command and namespace associated with it. The command may be retrieved using the Tcl_GetObjectCommand function, the name of the object (and hence the name of the command) with Tcl_GetObjectName, and the namespace may be retrieved using the Tcl_GetObjectNamespace function. Note that the Tcl_Obj reference returned by Tcl_GetObjectName is a shared reference. You can also get whether the object has been marked for deletion with Tcl_ObjectDeleted (it returns true if deletion of the object has begun); this can be useful during the processing of methods.

Instances of classes are created using Tcl_NewObjectInstance, which creates an object from any class (and which is internally called by both the create and new methods of the oo::class class). It takes parameters that optionally give the name of the object and namespace to create, and which describe the arguments to pass to the class's constructor (if any). The result of the function will be either a reference to the newly created object, or NULL if the creation failed (when an error message will be left in the interpreter result). In addition, objects may be copied by using Tcl_CopyObjectInstance which creates a copy of an object without running any constructors.

Note that the lifetime management of objects is handled internally within TclOO, and does not use Tcl_Preserve. It is not safe to put a Tcl_Object handle in a C structure with a lifespan different to the object; you should use the object's command name (as retrieved with Tcl_GetObjectName) instead. It is safe to use a Tcl_Object handle for the lifespan of a call of a method on that object; handles do not become invalid while there is an outstanding call on their object (even if the only operation guaranteed to be safe on them is Tcl_ObjectDeleted; the other operations are only guaranteed to work on non-deleted objects).


Every object and every class may have arbitrary amounts of metadata attached to it, which the object or class attaches no meaning to beyond what is described in a Tcl_ObjectMetadataType structure instance. Metadata to be attached is described by the type of the metadata (given in the metaTypePtr argument) and an arbitrary pointer (the metadata argument) that are given to Tcl_ObjectSetMetadata and Tcl_ClassSetMetadata, and a particular piece of metadata can be retrieved given its type using Tcl_ObjectGetMetadata and Tcl_ClassGetMetadata. If the metadata parameter to either Tcl_ObjectSetMetadata or Tcl_ClassSetMetadata is NULL, the metadata is removed if it was attached, and the results of Tcl_ObjectGetMetadata and Tcl_ClassGetMetadata are NULL if the given type of metadata was not attached. It is not an error to request or remove a piece of metadata that was not attached.


The contents of the Tcl_ObjectMetadataType structure are as follows:

typedef const struct {

int version;
const char *name;
Tcl_ObjectMetadataDeleteProc *deleteProc;
Tcl_CloneProc *cloneProc; } Tcl_ObjectMetadataType;

The version field allows for future expansion of the structure, and should always be declared equal to TCL_OO_METADATA_VERSION_CURRENT. The name field provides a human-readable name for the type, and is reserved for debugging.

The deleteProc field gives a function of type Tcl_ObjectMetadataDeleteProc that is used to delete a particular piece of metadata, and is called when the attached metadata is replaced or removed; the field must not be NULL.

The cloneProc field gives a function that is used to copy a piece of metadata (used when a copy of an object is created using Tcl_CopyObjectInstance); if NULL, the metadata will be just directly copied.


Functions matching this signature are used to delete metadata associated with a class or object.

typedef void Tcl_ObjectMetadataDeleteProc(

ClientData metadata);

The metadata argument gives the address of the metadata to be deleted.


Functions matching this signature are used to create copies of metadata associated with a class or object.

typedef int Tcl_CloneProc(

Tcl_Interp *interp,
ClientData srcMetadata,
ClientData *dstMetadataPtr);

The interp argument gives a place to write an error message when the attempt to clone the object is to fail, in which case the clone procedure must also return TCL_ERROR; it should return TCL_OK otherwise. The srcMetadata argument gives the address of the metadata to be cloned, and the cloned metadata should be written into the variable pointed to by dstMetadataPtr; a NULL should be written if the metadata is to not be cloned but the overall object copy operation is still to succeed.


It is possible to control, on a per-object basis, what methods are invoked when a particular method is invoked. Normally this is done by looking up the method name in the object and then in the class hierarchy, but fine control of exactly what the value used to perform the look up is afforded through the ability to set a method name mapper callback via Tcl_ObjectSetMethodNameMapper (and its introspection counterpart, Tcl_ObjectGetMethodNameMapper, which returns the current mapper). The current mapper (if any) is invoked immediately before looking up what chain of method implementations is to be used.


The Tcl_ObjectMapMethodNameProc callback is defined as follows:

typedef int Tcl_ObjectMapMethodNameProc(

Tcl_Interp *interp,
Tcl_Object object,
Tcl_Class *startClsPtr,
Tcl_Obj *methodNameObj);

If the result is TCL_OK, the remapping is assumed to have been done. If the result is TCL_ERROR, an error message will have been left in interp and the method call will fail. If the result is TCL_BREAK, the standard method name lookup rules will be used; the behavior of other result codes is currently undefined. The object parameter says which object is being processed. The startClsPtr parameter points to a variable that contains the first class to provide a definition in the method chain to process, or NULL if the whole chain is to be processed (the argument itself is never NULL); this variable may be updated by the callback. The methodNameObj parameter gives an unshared object containing the name of the method being invoked, as provided by the user; this object may be updated by the callback.


The objPtr argument to Tcl_GetObjectFromObj will not have its reference count manipulated, but this function may modify the interpreter result (to report any error) so interpreter results should not be fed into this without an additional reference being used.

The result of Tcl_GetObjectName is a value that is owned by the object that is regenerated when this function is first called after the object is renamed. If the value is to be retained at all, the caller should increment the reference count.

The first objc values in the objv argument to Tcl_NewObjectInstance are the arguments to pass to the constructor. They must have a reference count of at least 1, and may have their reference counts changed during the running of the constructor. Constructors may modify the interpreter result, which consequently means that interpreter results should not be used as arguments without an additional reference being taken.

The methodNameObj argument to a Tcl_ObjectMapMethodNameProc implementation will be a value with a reference count of at least 1 where at least one reference is not held by the interpreter result. It is expected that method name mappers will only read their methodNameObj arguments.


Method(3tcl), oo::class(3tcl), oo::copy(3tcl), oo::define(3tcl), oo::object(3tcl)


class, constructor, object

0.1 TclOO