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new move value policy
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@ -411,38 +411,63 @@ For this reason, pybind11 provides a several `return value policy` annotations
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that can be passed to the :func:`module::def` and :func:`class_::def`
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functions. The default policy is :enum:`return_value_policy::automatic`.
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+--------------------------------------------------+---------------------------------------------------------------------------+
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| Return value policy | Description |
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+==================================================+===========================================================================+
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| :enum:`return_value_policy::automatic` | Automatic: copy objects returned as values and take ownership of |
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| | objects returned as pointers |
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+--------------------------------------------------+---------------------------------------------------------------------------+
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| :enum:`return_value_policy::automatic_reference` | Automatic variant 2 : copy objects returned as values and reference |
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| | objects returned as pointers |
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+--------------------------------------------------+---------------------------------------------------------------------------+
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| :enum:`return_value_policy::copy` | Create a new copy of the returned object, which will be owned by Python |
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+--------------------------------------------------+---------------------------------------------------------------------------+
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| :enum:`return_value_policy::take_ownership` | Reference the existing object and take ownership. Python will call |
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| | the destructor and delete operator when the reference count reaches zero |
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+--------------------------------------------------+---------------------------------------------------------------------------+
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| :enum:`return_value_policy::reference` | Reference the object, but do not take ownership and defer responsibility |
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| | for deleting it to C++ (dangerous when C++ code at some point decides to |
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| | delete it while Python still has a nonzero reference count) |
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+--------------------------------------------------+---------------------------------------------------------------------------+
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| :enum:`return_value_policy::reference_internal` | Reference the object, but do not take ownership. The object is considered |
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| | be owned by the C++ instance whose method or property returned it. The |
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| | Python object will increase the reference count of this 'parent' by 1 |
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| | to ensure that it won't be deallocated while Python is using the 'child' |
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+--------------------------------------------------+---------------------------------------------------------------------------+
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+--------------------------------------------------+----------------------------------------------------------------------------+
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| Return value policy | Description |
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+==================================================+============================================================================+
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| :enum:`return_value_policy::automatic` | This is the default return value policy, which falls back to the policy |
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| | :enum:`return_value_policy::take_ownership` when the return value is a |
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| | pointer. Otherwise, it uses :enum::`return_value::move` or |
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| | :enum::`return_value::copy` for rvalue and lvalue references, respectively.|
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| | See below for a description of what all of these different policies do. |
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+--------------------------------------------------+----------------------------------------------------------------------------+
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| :enum:`return_value_policy::automatic_reference` | As above, but use policy :enum:`return_value_policy::reference` when the |
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| | return value is a pointer. |
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+--------------------------------------------------+----------------------------------------------------------------------------+
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| :enum:`return_value_policy::take_ownership` | Reference an existing object (i.e. do not create a new copy) and take |
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| | ownership. Python will call the destructor and delete operator when the |
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| | object's reference count reaches zero. Undefined behavior ensues when the |
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| | C++ side does the same.. |
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+--------------------------------------------------+----------------------------------------------------------------------------+
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| :enum:`return_value_policy::copy` | Create a new copy of the returned object, which will be owned by Python. |
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| | This policy is comparably safe because the lifetimes of the two instances |
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| | are decoupled. |
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+--------------------------------------------------+----------------------------------------------------------------------------+
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| :enum:`return_value_policy::move` | Use ``std::move`` to move the return value contents into a new instance |
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| | that will be owned by Python. This policy is comparably safe because the |
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| | lifetimes of the two instances (move source and destination) are decoupled.|
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+--------------------------------------------------+----------------------------------------------------------------------------+
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| :enum:`return_value_policy::reference` | Reference an existing object, but do not take ownership. The C++ side is |
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| | responsible for managing the object's lifetime and deallocating it when |
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| | it is no longer used. Warning: undefined behavior will ensue when the C++ |
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| | side deletes an object that is still referenced by Python. |
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+--------------------------------------------------+----------------------------------------------------------------------------+
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| :enum:`return_value_policy::reference_internal` | Reference the object, but do not take ownership. The object is considered |
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| | be owned by the C++ instance whose method or property returned it. The |
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| | Python object will increase the reference count of this 'parent' by 1 |
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| | to ensure that it won't be deallocated while Python is using the 'child' |
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+--------------------------------------------------+----------------------------------------------------------------------------+
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.. warning::
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Code with invalid call policies might access unitialized memory and free
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Code with invalid call policies might access unitialized memory or free
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data structures multiple times, which can lead to hard-to-debug
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non-determinism and segmentation faults, hence it is worth spending the
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time to understand all the different options above.
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.. note::
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The next section on :ref:`call_policies` discusses *call policies* that can be
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specified *in addition* to a return value policy from the list above. Call
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policies indicate reference relationships that can involve both return values
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and parameters of functions.
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.. note::
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As an alternative to elaborate call policies and lifetime management logic,
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consider using smart pointers (see :ref:`smart_pointers` for details) that
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can be used to share reference count information between C++ and Python.
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See below for an example that uses the
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:enum:`return_value_policy::reference_internal` policy.
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@ -466,6 +491,8 @@ See below for an example that uses the
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}
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.. _call_policies:
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Additional call policies
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========================
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@ -557,6 +584,8 @@ The above signature would imply that Python needs to give up ownership of an
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object that is passed to this function, which is generally not possible (for
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instance, the object might be referenced elsewhere).
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.. _smart_pointers:
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Smart pointers
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==============
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@ -7,8 +7,8 @@ Called Example1 destructor (32)
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Instance 1: Example1[value=320]
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Instance 2: Example1[value=32]
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Called Example1 copy constructor with value 320..
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Called Example1 copy constructor with value 320..
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Called Example1 destructor (320)
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Called Example1 move constructor with value 320..
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Called Example1 destructor (0)
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Example1[value=320]
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Called Example1 destructor (320)
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Example1[value=320]
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@ -3,52 +3,52 @@ Value constructor
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v1 = [1.000000, 2.000000]
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v2 = [3.000000, -1.000000]
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Value constructor
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Copy constructor
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Move constructor
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Destructor.
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Destructor.
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v1+v2 = [4.000000, 1.000000]
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Value constructor
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Copy constructor
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Move constructor
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Destructor.
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Destructor.
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v1-v2 = [-2.000000, 3.000000]
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Value constructor
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Copy constructor
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Move constructor
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Destructor.
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Destructor.
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v1-8 = [-7.000000, -6.000000]
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Value constructor
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Copy constructor
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Move constructor
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Destructor.
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Destructor.
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v1+8 = [9.000000, 10.000000]
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Value constructor
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Copy constructor
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Move constructor
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Destructor.
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Destructor.
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v1*8 = [8.000000, 16.000000]
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Value constructor
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Copy constructor
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Move constructor
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Destructor.
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Destructor.
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v1/8 = [0.125000, 0.250000]
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Value constructor
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Copy constructor
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Move constructor
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Destructor.
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Destructor.
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8-v1 = [7.000000, 6.000000]
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Value constructor
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Copy constructor
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Move constructor
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Destructor.
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Destructor.
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8+v1 = [9.000000, 10.000000]
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Value constructor
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Copy constructor
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Move constructor
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Destructor.
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Destructor.
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8*v1 = [8.000000, 16.000000]
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Value constructor
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Copy constructor
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Move constructor
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Destructor.
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Destructor.
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8/v1 = [8.000000, 4.000000]
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@ -1,13 +1,13 @@
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Value constructor: Creating a sequence with 5 entries
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s = <example.Sequence object at 0x1033bd8d0>
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s = <example.Sequence object at 0x10c786c70>
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len(s) = 5
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s[0], s[3] = 0.000000 0.000000
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12.34 in s: False
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12.34 in s: True
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s[0], s[3] = 12.340000 56.779999
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Value constructor: Creating a sequence with 5 entries
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Copy constructor: Creating a sequence with 5 entries
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Freeing a sequence with 5 entries
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Move constructor: Creating a sequence with 5 entries
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Freeing a sequence with 0 entries
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Value constructor: Creating a sequence with 5 entries
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rev[0], rev[1], rev[2], rev[3], rev[4] = 0.000000 56.779999 0.000000 0.000000 12.340000
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0.0 56.7799987793 0.0 0.0 12.3400001526
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@ -158,6 +158,7 @@ public:
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const std::type_info *type_info,
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const std::type_info *type_info_backup,
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void *(*copy_constructor)(const void *),
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void *(*move_constructor)(const void *),
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const void *existing_holder = nullptr) {
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void *src = const_cast<void *>(_src);
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if (src == nullptr)
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@ -204,6 +205,12 @@ public:
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wrapper->value = copy_constructor(wrapper->value);
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if (wrapper->value == nullptr)
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throw cast_error("return_value_policy = copy, but the object is non-copyable!");
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} else if (policy == return_value_policy::move) {
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wrapper->value = move_constructor(wrapper->value);
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if (wrapper->value == nullptr)
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wrapper->value = copy_constructor(wrapper->value);
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if (wrapper->value == nullptr)
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throw cast_error("return_value_policy = move, but the object is neither movable nor copyable!");
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} else if (policy == return_value_policy::reference) {
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wrapper->owned = false;
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} else if (policy == return_value_policy::reference_internal) {
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@ -243,8 +250,16 @@ public:
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return cast(&src, policy, parent);
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}
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static handle cast(type &&src, return_value_policy policy, handle parent) {
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if (policy == return_value_policy::automatic || policy == return_value_policy::automatic_reference)
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policy = return_value_policy::move;
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return cast(&src, policy, parent);
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}
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static handle cast(const type *src, return_value_policy policy, handle parent) {
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return type_caster_generic::cast(src, policy, parent, src ? &typeid(*src) : nullptr, &typeid(type), ©_constructor);
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return type_caster_generic::cast(
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src, policy, parent, src ? &typeid(*src) : nullptr, &typeid(type),
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©_constructor, &move_constructor);
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}
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template <typename T> using cast_op_type = pybind11::detail::cast_op_type<T>;
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@ -253,11 +268,13 @@ public:
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operator type&() { return *((type *) value); }
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protected:
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template <typename T = type, typename std::enable_if<detail::is_copy_constructible<T>::value, int>::type = 0>
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static void *copy_constructor(const void *arg) {
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return (void *) new type(*((const type *) arg));
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}
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static void *copy_constructor(const void *arg) { return (void *) new type(*((const type *) arg)); }
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template <typename T = type, typename std::enable_if<!detail::is_copy_constructible<T>::value, int>::type = 0>
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static void *copy_constructor(const void *) { return nullptr; }
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template <typename T = type, typename std::enable_if<detail::is_move_constructible<T>::value, int>::type = 0>
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static void *move_constructor(const void *arg) { return (void *) new type(std::move(*((type *) arg))); }
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template <typename T = type, typename std::enable_if<!detail::is_move_constructible<T>::value, int>::type = 0>
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static void *move_constructor(const void *) { return nullptr; }
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};
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template <typename type> class type_caster<std::reference_wrapper<type>> : public type_caster<type> {
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@ -662,6 +679,7 @@ public:
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using type_caster<type>::value;
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using type_caster<type>::temp;
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using type_caster<type>::copy_constructor;
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using type_caster<type>::move_constructor;
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bool load(handle src, bool convert) {
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if (!src || !typeinfo) {
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@ -702,7 +720,7 @@ public:
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return type_caster_generic::cast(
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src.get(), policy, parent,
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src.get() ? &typeid(*src.get()) : nullptr, &typeid(type),
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©_constructor, &src);
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©_constructor, &move_constructor, &src);
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}
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protected:
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@ -141,29 +141,46 @@ typedef Py_ssize_t ssize_t;
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/// Approach used to cast a previously unknown C++ instance into a Python object
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enum class return_value_policy : int {
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/** Automatic: copy objects returned as values and take ownership of objects
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returned as pointers */
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/** This is the default return value policy, which falls back to the policy
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return_value_policy::take_ownership when the return value is a pointer.
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Otherwise, it uses return_value::move or return_value::copy for rvalue
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and lvalue references, respectively. See below for a description of what
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all of these different policies do. */
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automatic = 0,
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/** Automatic variant 2: copy objects returned as values and reference objects
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returned as pointers */
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/** As above, but use policy return_value_policy::reference when the return
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value is a pointer. */
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automatic_reference,
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/** Reference the object and take ownership. Python will call the
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destructor and delete operator when the reference count reaches zero */
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/** Reference an existing object (i.e. do not create a new copy) and take
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ownership. Python will call the destructor and delete operator when the
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object’s reference count reaches zero. Undefined behavior ensues when
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the C++ side does the same.. */
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take_ownership,
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/** Reference the object, but do not take ownership (dangerous when C++ code
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deletes it and Python still has a nonzero reference count) */
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/** Create a new copy of the returned object, which will be owned by
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Python. This policy is comparably safe because the lifetimes of the two
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instances are decoupled. */
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copy,
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/** Use std::move to move the return value contents into a new instance
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that will be owned by Python. This policy is comparably safe because the
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lifetimes of the two instances (move source and destination) are
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decoupled. */
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move,
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/** Reference an existing object, but do not take ownership. The C++ side
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is responsible for managing the object’s lifetime and deallocating it
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when it is no longer used. Warning: undefined behavior will ensue when
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the C++ side deletes an object that is still referenced by Python. */
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reference,
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/** Reference the object, but do not take ownership. The object is considered
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be owned by the C++ instance whose method or property returned it. The
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Python object will increase the reference count of this 'parent' by 1 */
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reference_internal,
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/// Create a new copy of the returned object, which will be owned by Python
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copy
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/** Reference the object, but do not take ownership. The object is
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considered be owned by the C++ instance whose method or property
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returned it. The Python object will increase the reference count of this
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‘parent’ by 1 to ensure that it won’t be deallocated while Python is
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using the ‘child’ */
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reference_internal
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};
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/// Format strings for basic number types
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@ -276,6 +293,12 @@ template <typename T> struct is_copy_constructible {
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static const bool value = std::is_same<std::true_type, decltype(test<T>(nullptr))>::value;
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};
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template <typename T> struct is_move_constructible {
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template <typename T2> static std::true_type test(decltype(new T2(std::declval<typename std::add_rvalue_reference<T2>::type>())) *);
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template <typename T2> static std::false_type test(...);
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static const bool value = std::is_same<std::true_type, decltype(test<T>(nullptr))>::value;
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};
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/// Helper type to replace 'void' in some expressions
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struct void_type { };
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