Refer to Providing a C API for an Extension Module for more information on using these objects.
在 3.1 版被加入.
This subtype of PyObject represents an opaque value, useful for C
extension modules who need to pass an opaque value (as a void*
pointer) through Python code to other C code. It is often used to make a C
function pointer defined in one module available to other modules, so the
regular import mechanism can be used to access C APIs defined in dynamically
loaded modules.
The type of a destructor callback for a capsule. Defined as:
typedef void (*PyCapsule_Destructor)(PyObject *);
See PyCapsule_New() for the semantics of PyCapsule_Destructor
callbacks.
Return true if its argument is a PyCapsule. This function always
succeeds.
Create a PyCapsule encapsulating the pointer. The pointer
argument may not be NULL.
On failure, set an exception and return NULL.
The name string may either be NULL or a pointer to a valid C string. If
non-NULL, this string must outlive the capsule. (Though it is permitted to
free it inside the destructor.)
If the destructor argument is not NULL, it will be called with the
capsule as its argument when it is destroyed.
If this capsule will be stored as an attribute of a module, the name should
be specified as modulename.attributename. This will enable other modules
to import the capsule using PyCapsule_Import().
Retrieve the pointer stored in the capsule. On failure, set an exception
and return NULL.
The name parameter must compare exactly to the name stored in the capsule.
If the name stored in the capsule is NULL, the name passed in must also
be NULL. Python uses the C function strcmp() to compare capsule
names.
Return the current destructor stored in the capsule. On failure, set an
exception and return NULL.
It is legal for a capsule to have a NULL destructor. This makes a NULL
return code somewhat ambiguous; use PyCapsule_IsValid() or
PyErr_Occurred() to disambiguate.
Return the current context stored in the capsule. On failure, set an
exception and return NULL.
It is legal for a capsule to have a NULL context. This makes a NULL
return code somewhat ambiguous; use PyCapsule_IsValid() or
PyErr_Occurred() to disambiguate.
Return the current name stored in the capsule. On failure, set an exception
and return NULL.
It is legal for a capsule to have a NULL name. This makes a NULL return
code somewhat ambiguous; use PyCapsule_IsValid() or
PyErr_Occurred() to disambiguate.
Import a pointer to a C object from a capsule attribute in a module. The
name parameter should specify the full name to the attribute, as in
module.attribute. The name stored in the capsule must match this
string exactly.
Return the capsule's internal pointer on success. On failure, set an
exception and return NULL.
在 3.3 版的變更: no_block has no effect anymore.
Determines whether or not capsule is a valid capsule. A valid capsule is
non-NULL, passes PyCapsule_CheckExact(), has a non-NULL pointer
stored in it, and its internal name matches the name parameter. (See
PyCapsule_GetPointer() for information on how capsule names are
compared.)
In other words, if PyCapsule_IsValid() returns a true value, calls to
any of the accessors (any function starting with PyCapsule_Get) are
guaranteed to succeed.
Return a nonzero value if the object is valid and matches the name passed in.
Return 0 otherwise. This function will not fail.
Set the context pointer inside capsule to context.
Return 0 on success. Return nonzero and set an exception on failure.
Set the destructor inside capsule to destructor.
Return 0 on success. Return nonzero and set an exception on failure.
Set the name inside capsule to name. If non-NULL, the name must
outlive the capsule. If the previous name stored in the capsule was not
NULL, no attempt is made to free it.
Return 0 on success. Return nonzero and set an exception on failure.
Set the void pointer inside capsule to pointer. The pointer may not be
NULL.
Return 0 on success. Return nonzero and set an exception on failure.