#include "BPy_Freestyle.h" #include "BPy_BBox.h" #include "BPy_BinaryPredicate0D.h" #include "BPy_BinaryPredicate1D.h" #include "BPy_ContextFunctions.h" #include "BPy_FrsMaterial.h" #include "BPy_FrsNoise.h" #include "BPy_Id.h" #include "BPy_IntegrationType.h" #include "BPy_Interface0D.h" #include "BPy_Interface1D.h" #include "BPy_Iterator.h" #include "BPy_MediumType.h" #include "BPy_Nature.h" #include "BPy_Operators.h" #include "BPy_SShape.h" #include "BPy_StrokeAttribute.h" #include "BPy_StrokeShader.h" #include "BPy_UnaryFunction0D.h" #include "BPy_UnaryFunction1D.h" #include "BPy_UnaryPredicate0D.h" #include "BPy_UnaryPredicate1D.h" #include "BPy_ViewMap.h" #include "BPy_ViewShape.h" #ifdef __cplusplus extern "C" { #endif /////////////////////////////////////////////////////////////////////////////////////////// //------------------------ MODULE FUNCTIONS ---------------------------------- #include "FRS_freestyle.h" #include "bpy_rna.h" /* pyrna_struct_CreatePyObject() */ static char Freestyle_getCurrentScene___doc__[] = ".. function:: getCurrentScene()\n" "\n" " Returns the current scene.\n" "\n" " :return: The current scene.\n" " :rtype: :class:`bpy.types.Scene`\n"; static PyObject *Freestyle_getCurrentScene( PyObject *self ) { if (!freestyle_scene) { PyErr_SetString(PyExc_TypeError, "current scene not available"); return NULL; } PointerRNA ptr_scene; RNA_pointer_create(NULL, &RNA_Scene, freestyle_scene, &ptr_scene); return pyrna_struct_CreatePyObject(&ptr_scene); } #include "BKE_texture.h" /* do_colorband() */ static char Freestyle_evaluateColorRamp___doc__[] = ".. function:: evaluateColorRamp(ramp, in)\n" "\n" " Evaluate a color ramp at a point in the interval 0 to 1.\n" "\n" " :arg ramp: Color ramp object.\n" " :type ramp: :class:`bpy.types.ColorRamp`\n" " :arg in: Value in the interval 0 to 1.\n" " :type in: float\n" " :return: color in RGBA format.\n" " :rtype: Tuple of 4 float values\n"; static PyObject *Freestyle_evaluateColorRamp( PyObject *self, PyObject *args ) { BPy_StructRNA *py_srna; ColorBand *coba; float in, out[4]; if(!( PyArg_ParseTuple(args, "O!f", &pyrna_struct_Type, &py_srna, &in) )) return NULL; if(!RNA_struct_is_a(py_srna->ptr.type, &RNA_ColorRamp)) { PyErr_SetString(PyExc_TypeError, "1st argument is not a ColorRamp object"); return NULL; } coba = (ColorBand *)py_srna->ptr.data; if (!do_colorband(coba, in, out)) { PyErr_SetString(PyExc_ValueError, "failed to evaluate the color ramp"); return NULL; } return Py_BuildValue("(f,f,f,f)", out[0], out[1], out[2], out[3]); } #include "BKE_colortools.h" /* curvemapping_evaluateF() */ static char Freestyle_evaluateCurveMappingF___doc__[] = ".. function:: evaluateCurveMappingF(cumap, cur, value)\n" "\n" " Evaluate a curve mapping at a point in the interval 0 to 1.\n" "\n" " :arg cumap: Curve mapping object.\n" " :type cumap: :class:`bpy.types.CurveMapping`\n" " :arg cur: Index of the curve to be used (0 <= cur <= 3).\n" " :type cur: int\n" " :arg value: Input value in the interval 0 to 1.\n" " :type value: float\n" " :return: Mapped output value.\n" " :rtype: float\n"; static PyObject *Freestyle_evaluateCurveMappingF( PyObject *self, PyObject *args ) { BPy_StructRNA *py_srna; CurveMapping *cumap; int cur; float value; if(!( PyArg_ParseTuple(args, "O!if", &pyrna_struct_Type, &py_srna, &cur, &value) )) return NULL; if(!RNA_struct_is_a(py_srna->ptr.type, &RNA_CurveMapping)) { PyErr_SetString(PyExc_TypeError, "1st argument is not a CurveMapping object"); return NULL; } if (cur < 0 || cur > 3) { PyErr_SetString(PyExc_ValueError, "2nd argument is out of range"); return NULL; } cumap = (CurveMapping *)py_srna->ptr.data; return PyFloat_FromDouble(curvemapping_evaluateF(cumap, cur, value)); } /*-----------------------Freestyle module docstring----------------------------*/ static char module_docstring[] = "The Blender Freestyle module\n\n"; /*-----------------------Freestyle module method def---------------------------*/ static PyMethodDef module_functions[] = { {"getCurrentScene", ( PyCFunction ) Freestyle_getCurrentScene, METH_NOARGS, Freestyle_getCurrentScene___doc__}, {"evaluateColorRamp", ( PyCFunction ) Freestyle_evaluateColorRamp, METH_VARARGS, Freestyle_evaluateColorRamp___doc__}, {"evaluateCurveMappingF", ( PyCFunction ) Freestyle_evaluateCurveMappingF, METH_VARARGS, Freestyle_evaluateCurveMappingF___doc__}, {NULL, NULL, 0, NULL} }; /*-----------------------Freestyle module definition---------------------------*/ static PyModuleDef module_definition = { PyModuleDef_HEAD_INIT, "Freestyle", module_docstring, -1, module_functions }; //-------------------MODULE INITIALIZATION-------------------------------- PyObject *Freestyle_Init( void ) { PyObject *module; // initialize modules module = PyModule_Create(&module_definition); if (!module) return NULL; PyDict_SetItemString(PySys_GetObject("modules"), module_definition.m_name, module); // attach its classes (adding the object types to the module) // those classes have to be initialized before the others MediumType_Init( module ); Nature_Init( module ); BBox_Init( module ); BinaryPredicate0D_Init( module ); BinaryPredicate1D_Init( module ); ContextFunctions_Init( module ); FrsMaterial_Init( module ); FrsNoise_Init( module ); Id_Init( module ); IntegrationType_Init( module ); Interface0D_Init( module ); Interface1D_Init( module ); Iterator_Init( module ); Operators_Init( module ); SShape_Init( module ); StrokeAttribute_Init( module ); StrokeShader_Init( module ); UnaryFunction0D_Init( module ); UnaryFunction1D_Init( module ); UnaryPredicate0D_Init( module ); UnaryPredicate1D_Init( module ); ViewMap_Init( module ); ViewShape_Init( module ); return module; } /////////////////////////////////////////////////////////////////////////////////////////// #ifdef __cplusplus } #endif