forked from bartvdbraak/blender
fd2b115678
- Initialize python types with PyType_Ready, which adds methods to the type dictionary. - use Pythons get/setattro (uses a python string for the attribute rather then char*). Using basic C strings seems nice but internally python converts them to python strings and discards them for most functions that accept char arrays. - Method lookups use the PyTypes dictionary (should be faster then Py_FindMethod) - Renamed __getattr -> py_base_getattro, _getattr -> py_getattro, __repr -> py_base_repr, py_delattro, py_getattro_self etc. From here is possible to put all the parent classes methods into each python types dictionary to avoid nested lookups (api has 4 levels of lookups in some places), tested this but its not ready yet. Simple tests for getting a method within a loop show this to be between 0.5 and 3.2x faster then using Py_FindMethod()
59 lines
1.5 KiB
C++
59 lines
1.5 KiB
C++
#ifndef KX_VEHICLE_WRAPPER
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#define KX_VEHICLE_WRAPPER
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#include "Value.h"
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#include "PHY_DynamicTypes.h"
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class PHY_IVehicle;
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class PHY_IMotionState;
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#include <vector>
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///Python interface to physics vehicles (primarily 4-wheel cars and 2wheel bikes)
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class KX_VehicleWrapper : public PyObjectPlus
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{
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Py_Header;
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virtual PyObject* py_getattro(PyObject *attr);
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virtual int py_setattro(PyObject *attr, PyObject *value);
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std::vector<PHY_IMotionState*> m_motionStates;
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public:
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KX_VehicleWrapper(PHY_IVehicle* vehicle,class PHY_IPhysicsEnvironment* physenv,PyTypeObject *T = &Type);
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virtual ~KX_VehicleWrapper ();
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int getConstraintId();
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KX_PYMETHOD(KX_VehicleWrapper,AddWheel);
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KX_PYMETHOD(KX_VehicleWrapper,GetNumWheels);
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KX_PYMETHOD(KX_VehicleWrapper,GetWheelOrientationQuaternion);
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KX_PYMETHOD(KX_VehicleWrapper,GetWheelRotation);
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KX_PYMETHOD(KX_VehicleWrapper,GetWheelPosition);
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KX_PYMETHOD(KX_VehicleWrapper,GetConstraintId);
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KX_PYMETHOD(KX_VehicleWrapper,GetConstraintType);
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KX_PYMETHOD(KX_VehicleWrapper,SetSteeringValue);
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KX_PYMETHOD(KX_VehicleWrapper,ApplyEngineForce);
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KX_PYMETHOD(KX_VehicleWrapper,ApplyBraking);
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KX_PYMETHOD(KX_VehicleWrapper,SetTyreFriction);
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KX_PYMETHOD(KX_VehicleWrapper,SetSuspensionStiffness);
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KX_PYMETHOD(KX_VehicleWrapper,SetSuspensionDamping);
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KX_PYMETHOD(KX_VehicleWrapper,SetSuspensionCompression);
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KX_PYMETHOD(KX_VehicleWrapper,SetRollInfluence);
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private:
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PHY_IVehicle* m_vehicle;
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PHY_IPhysicsEnvironment* m_physenv;
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};
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#endif //KX_VEHICLE_WRAPPER
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