# Object layout
## Common header
Each Python object starts with two fields:
* ob_refcnt
* ob_type
which form the header common to all Python objects, for all versions,
and hold the reference count and class of the object, respectively.
## Pre-header
Since the introduction of the cycle GC, there has also been a pre-header.
Before 3.11, this pre-header was two words in size.
It should be considered opaque to all code except the cycle GC.
### 3.13
In 3.13, the values array is embedded into the object, so there is no
need for a values pointer (it is just a fixed offset into the object).
So the pre-header is these two fields:
* weakreflist
* dict_pointer
If the object has no physical dictionary, then the ``dict_pointer``
is set to `NULL`.
In 3.13 only objects with no additional data could have inline values.
That is, instances of classes with `tp_basicsize == sizeof(PyObject)`.
In 3.14, any object whose class has `tp_itemsize == 0` can have inline values.
In both versions, the inline values starts `tp_basicsize` bytes after the object.
<details>
<summary> 3.12 </summary>
### 3.12
In 3.12, the pointer to the list of weak references is added to the
pre-header. In order to make space for it, the ``dict`` and ``values``
pointers are combined into a single tagged pointer:
* weakreflist
* dict_or_values
If the object has no physical dictionary, then the ``dict_or_values``
has its low bit set to one, and points to the values array.
If the object has a physical dictionary, then the ``dict_or_values``
has its low bit set to zero, and points to the dictionary.
The untagged form is chosen for the dictionary pointer, rather than
the values pointer, to enable the (legacy) C-API function
`_PyObject_GetDictPtr(PyObject *obj)` to work.
</details>
<details>
<summary> 3.11 </summary>
### 3.11
In 3.11 the pre-header was extended to include pointers to the VM managed ``__dict__``.
The reason for moving the ``__dict__`` to the pre-header is that it allows
faster access, as it is at a fixed offset, and it also allows object's
dictionaries to be lazily created when the ``__dict__`` attribute is
specifically asked for.
In the 3.11 the non-GC part of the pre-header consists of two pointers:
* dict
* values
The values pointer refers to the ``PyDictValues`` array which holds the
values of the objects's attributes.
Should the dictionary be needed, then ``values`` is set to ``NULL``
and the ``dict`` field points to the dictionary.
</details>
## Layout of a "normal" Python object
A "normal" Python object is one that doesn't inherit from a builtin
class, doesn't have slots.
### 3.13
In 3.13 the values are embedded into the object, as follows:
* weakreflist
* dict_or_values
* GC 1
* GC 2
* ob_refcnt
* ob_type
* Inlined values:
* Flags
* values 0
* values 1
* ...
* Insertion order bytes
This has all the advantages of the layout used in 3.12, plus:
* Access to values is even faster as there is one less load
* Fast access is mostly maintained when the `__dict__` is materialized
![Layout of "normal" object in 3.13](./object_layout_313.png)
For objects with opaque parts defined by a C extension,
the layout is much the same as for 3.12
![Layout of "full" object in 3.13](./object_layout_full_313.png)
<details>
<summary> 3.12 </summary>
### 3.12:
In 3.12, the header and pre-header form the entire object for "normal"
Python objects:
* weakreflist
* dict_or_values
* GC 1
* GC 2
* ob_refcnt
* ob_type
![Layout of "normal" object in 3.12](./object_layout_312.png)
There are several advantages to this layout:
* It allows lazy `__dict__`s, as described above.
* The regular layout allows us to create tailored traversal and deallocation
functions based on layout, rather than inheritance.
* Multiple inheritance works properly,
as the weakrefs and dict are always at the same offset.
The full layout object, with an opaque part defined by a C extension,
and `__slots__` looks like this:
![Layout of "full" object in 3.12](./object_layout_full_312.png)
</details>