// python wrapper for vtkHyperTreeGridContour // #define VTK_WRAPPING_CXX #define VTK_STREAMS_FWD_ONLY #include "vtkPythonArgs.h" #include "vtkPythonOverload.h" #include "vtkConfigure.h" #include #include #include "vtkVariant.h" #include "vtkIndent.h" #include "vtkHyperTreeGridContour.h" extern "C" { VTK_ABI_EXPORT void PyVTKAddFile_vtkHyperTreeGridContour(PyObject *); } extern "C" { VTK_ABI_EXPORT PyObject *PyvtkHyperTreeGridContour_ClassNew(); } #ifndef DECLARED_PyvtkHyperTreeGridAlgorithm_ClassNew extern "C" { PyObject *PyvtkHyperTreeGridAlgorithm_ClassNew(); } #define DECLARED_PyvtkHyperTreeGridAlgorithm_ClassNew #endif static const char *PyvtkHyperTreeGridContour_Doc = "vtkHyperTreeGridContour - Extract cells from a hyper tree grid where\nselected scalar value is within given range.\n\n" "Superclass: vtkHyperTreeGridAlgorithm\n\n" "This filter extracts cells from a hyper tree grid that satisfy the\n" "following contour: a cell is considered to be within range if its\n" "value for the active scalar is within a specified range (inclusive).\n" "The output remains a hyper tree grid.\n\n" "@sa\n" "vtkHyperTreeGrid vtkHyperTreeGridAlgorithm vtkContourFilter\n\n" "@par Thanks: This class was written by Guenole Harel and\n" "Jacques-Bernard Lekien 2014 This class was revised by Philippe Pebay,\n" "2016 This work was supported by Commissariat a l'Energie Atomique\n" "(CEA/DIF)\n\n"; static PyObject * PyvtkHyperTreeGridContour_IsTypeOf(PyObject *, PyObject *args) { vtkPythonArgs ap(args, "IsTypeOf"); char *temp0 = nullptr; PyObject *result = nullptr; if (ap.CheckArgCount(1) && ap.GetValue(temp0)) { int tempr = vtkHyperTreeGridContour::IsTypeOf(temp0); if (!ap.ErrorOccurred()) { result = ap.BuildValue(tempr); } } return result; } static PyObject * PyvtkHyperTreeGridContour_IsA(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "IsA"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); char *temp0 = nullptr; PyObject *result = nullptr; if (op && ap.CheckArgCount(1) && ap.GetValue(temp0)) { int tempr = (ap.IsBound() ? op->IsA(temp0) : op->vtkHyperTreeGridContour::IsA(temp0)); if (!ap.ErrorOccurred()) { result = ap.BuildValue(tempr); } } return result; } static PyObject * PyvtkHyperTreeGridContour_SafeDownCast(PyObject *, PyObject *args) { vtkPythonArgs ap(args, "SafeDownCast"); vtkObjectBase *temp0 = nullptr; PyObject *result = nullptr; if (ap.CheckArgCount(1) && ap.GetVTKObject(temp0, "vtkObjectBase")) { vtkHyperTreeGridContour *tempr = vtkHyperTreeGridContour::SafeDownCast(temp0); if (!ap.ErrorOccurred()) { result = ap.BuildVTKObject(tempr); } } return result; } static PyObject * PyvtkHyperTreeGridContour_NewInstance(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "NewInstance"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); PyObject *result = nullptr; if (op && ap.CheckArgCount(0)) { vtkHyperTreeGridContour *tempr = (ap.IsBound() ? op->NewInstance() : op->vtkHyperTreeGridContour::NewInstance()); if (!ap.ErrorOccurred()) { result = ap.BuildVTKObject(tempr); if (result && PyVTKObject_Check(result)) { PyVTKObject_GetObject(result)->UnRegister(0); PyVTKObject_SetFlag(result, VTK_PYTHON_IGNORE_UNREGISTER, 1); } } } return result; } static PyObject * PyvtkHyperTreeGridContour_SetLocator(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "SetLocator"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); vtkIncrementalPointLocator *temp0 = nullptr; PyObject *result = nullptr; if (op && ap.CheckArgCount(1) && ap.GetVTKObject(temp0, "vtkIncrementalPointLocator")) { if (ap.IsBound()) { op->SetLocator(temp0); } else { op->vtkHyperTreeGridContour::SetLocator(temp0); } if (!ap.ErrorOccurred()) { result = ap.BuildNone(); } } return result; } static PyObject * PyvtkHyperTreeGridContour_GetLocator(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "GetLocator"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); PyObject *result = nullptr; if (op && ap.CheckArgCount(0)) { vtkIncrementalPointLocator *tempr = (ap.IsBound() ? op->GetLocator() : op->vtkHyperTreeGridContour::GetLocator()); if (!ap.ErrorOccurred()) { result = ap.BuildVTKObject(tempr); } } return result; } static PyObject * PyvtkHyperTreeGridContour_CreateDefaultLocator(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "CreateDefaultLocator"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); PyObject *result = nullptr; if (op && ap.CheckArgCount(0)) { if (ap.IsBound()) { op->CreateDefaultLocator(); } else { op->vtkHyperTreeGridContour::CreateDefaultLocator(); } if (!ap.ErrorOccurred()) { result = ap.BuildNone(); } } return result; } static PyObject * PyvtkHyperTreeGridContour_GetMTime(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "GetMTime"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); PyObject *result = nullptr; if (op && ap.CheckArgCount(0)) { unsigned long tempr = (ap.IsBound() ? op->GetMTime() : op->vtkHyperTreeGridContour::GetMTime()); if (!ap.ErrorOccurred()) { result = ap.BuildValue(tempr); } } return result; } static PyObject * PyvtkHyperTreeGridContour_SetValue(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "SetValue"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); int temp0; double temp1; PyObject *result = nullptr; if (op && ap.CheckArgCount(2) && ap.GetValue(temp0) && ap.GetValue(temp1)) { if (ap.IsBound()) { op->SetValue(temp0, temp1); } else { op->vtkHyperTreeGridContour::SetValue(temp0, temp1); } if (!ap.ErrorOccurred()) { result = ap.BuildNone(); } } return result; } static PyObject * PyvtkHyperTreeGridContour_GetValue(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "GetValue"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); int temp0; PyObject *result = nullptr; if (op && ap.CheckArgCount(1) && ap.GetValue(temp0)) { double tempr = (ap.IsBound() ? op->GetValue(temp0) : op->vtkHyperTreeGridContour::GetValue(temp0)); if (!ap.ErrorOccurred()) { result = ap.BuildValue(tempr); } } return result; } static PyObject * PyvtkHyperTreeGridContour_GetValues_s1(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "GetValues"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); PyObject *result = nullptr; if (op && ap.CheckArgCount(0)) { double *tempr = (ap.IsBound() ? op->GetValues() : op->vtkHyperTreeGridContour::GetValues()); if (!ap.ErrorOccurred()) { result = ap.BuildValue(tempr); } } return result; } static PyObject * PyvtkHyperTreeGridContour_GetValues_s2(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "GetValues"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); int size0 = ap.GetArgSize(0); vtkPythonArgs::Array store0(2*size0); double *temp0 = store0.Data(); double *save0 = (size0 == 0 ? nullptr : temp0 + size0); PyObject *result = nullptr; if (op && ap.CheckArgCount(1) && ap.GetArray(temp0, size0)) { ap.SaveArray(temp0, save0, size0); if (ap.IsBound()) { op->GetValues(temp0); } else { op->vtkHyperTreeGridContour::GetValues(temp0); } if (ap.ArrayHasChanged(temp0, save0, size0) && !ap.ErrorOccurred()) { ap.SetArray(0, temp0, size0); } if (!ap.ErrorOccurred()) { result = ap.BuildNone(); } } return result; } static PyObject * PyvtkHyperTreeGridContour_GetValues(PyObject *self, PyObject *args) { int nargs = vtkPythonArgs::GetArgCount(self, args); switch(nargs) { case 0: return PyvtkHyperTreeGridContour_GetValues_s1(self, args); case 1: return PyvtkHyperTreeGridContour_GetValues_s2(self, args); } vtkPythonArgs::ArgCountError(nargs, "GetValues"); return nullptr; } static PyObject * PyvtkHyperTreeGridContour_SetNumberOfContours(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "SetNumberOfContours"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); int temp0; PyObject *result = nullptr; if (op && ap.CheckArgCount(1) && ap.GetValue(temp0)) { if (ap.IsBound()) { op->SetNumberOfContours(temp0); } else { op->vtkHyperTreeGridContour::SetNumberOfContours(temp0); } if (!ap.ErrorOccurred()) { result = ap.BuildNone(); } } return result; } static PyObject * PyvtkHyperTreeGridContour_GetNumberOfContours(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "GetNumberOfContours"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); PyObject *result = nullptr; if (op && ap.CheckArgCount(0)) { int tempr = (ap.IsBound() ? op->GetNumberOfContours() : op->vtkHyperTreeGridContour::GetNumberOfContours()); if (!ap.ErrorOccurred()) { result = ap.BuildValue(tempr); } } return result; } static PyObject * PyvtkHyperTreeGridContour_GenerateValues_s1(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "GenerateValues"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); int temp0; const int size1 = 2; double temp1[2]; double save1[2]; PyObject *result = nullptr; if (op && ap.CheckArgCount(2) && ap.GetValue(temp0) && ap.GetArray(temp1, size1)) { ap.SaveArray(temp1, save1, size1); if (ap.IsBound()) { op->GenerateValues(temp0, temp1); } else { op->vtkHyperTreeGridContour::GenerateValues(temp0, temp1); } if (ap.ArrayHasChanged(temp1, save1, size1) && !ap.ErrorOccurred()) { ap.SetArray(1, temp1, size1); } if (!ap.ErrorOccurred()) { result = ap.BuildNone(); } } return result; } static PyObject * PyvtkHyperTreeGridContour_GenerateValues_s2(PyObject *self, PyObject *args) { vtkPythonArgs ap(self, args, "GenerateValues"); vtkObjectBase *vp = ap.GetSelfPointer(self, args); vtkHyperTreeGridContour *op = static_cast(vp); int temp0; double temp1; double temp2; PyObject *result = nullptr; if (op && ap.CheckArgCount(3) && ap.GetValue(temp0) && ap.GetValue(temp1) && ap.GetValue(temp2)) { if (ap.IsBound()) { op->GenerateValues(temp0, temp1, temp2); } else { op->vtkHyperTreeGridContour::GenerateValues(temp0, temp1, temp2); } if (!ap.ErrorOccurred()) { result = ap.BuildNone(); } } return result; } static PyObject * PyvtkHyperTreeGridContour_GenerateValues(PyObject *self, PyObject *args) { int nargs = vtkPythonArgs::GetArgCount(self, args); switch(nargs) { case 2: return PyvtkHyperTreeGridContour_GenerateValues_s1(self, args); case 3: return PyvtkHyperTreeGridContour_GenerateValues_s2(self, args); } vtkPythonArgs::ArgCountError(nargs, "GenerateValues"); return nullptr; } static PyMethodDef PyvtkHyperTreeGridContour_Methods[] = { {"IsTypeOf", PyvtkHyperTreeGridContour_IsTypeOf, METH_VARARGS, "V.IsTypeOf(string) -> int\nC++: static vtkTypeBool IsTypeOf(const char *type)\n\nReturn 1 if this class type is the same type of (or a subclass\nof) the named class. Returns 0 otherwise. This method works in\ncombination with vtkTypeMacro found in vtkSetGet.h.\n"}, {"IsA", PyvtkHyperTreeGridContour_IsA, METH_VARARGS, "V.IsA(string) -> int\nC++: vtkTypeBool IsA(const char *type) override;\n\nReturn 1 if this class is the same type of (or a subclass of) the\nnamed class. Returns 0 otherwise. This method works in\ncombination with vtkTypeMacro found in vtkSetGet.h.\n"}, {"SafeDownCast", PyvtkHyperTreeGridContour_SafeDownCast, METH_VARARGS, "V.SafeDownCast(vtkObjectBase) -> vtkHyperTreeGridContour\nC++: static vtkHyperTreeGridContour *SafeDownCast(\n vtkObjectBase *o)\n\n"}, {"NewInstance", PyvtkHyperTreeGridContour_NewInstance, METH_VARARGS, "V.NewInstance() -> vtkHyperTreeGridContour\nC++: vtkHyperTreeGridContour *NewInstance()\n\n"}, {"SetLocator", PyvtkHyperTreeGridContour_SetLocator, METH_VARARGS, "V.SetLocator(vtkIncrementalPointLocator)\nC++: void SetLocator(vtkIncrementalPointLocator *)\n\nSet / get a spatial locator for merging points. By default, an\ninstance of vtkMergePoints is used.\n"}, {"GetLocator", PyvtkHyperTreeGridContour_GetLocator, METH_VARARGS, "V.GetLocator() -> vtkIncrementalPointLocator\nC++: virtual vtkIncrementalPointLocator *GetLocator()\n\nSet / get a spatial locator for merging points. By default, an\ninstance of vtkMergePoints is used.\n"}, {"CreateDefaultLocator", PyvtkHyperTreeGridContour_CreateDefaultLocator, METH_VARARGS, "V.CreateDefaultLocator()\nC++: void CreateDefaultLocator()\n\nCreate default locator. Used to create one when none is\nspecified. The locator is used to merge coincident points.\n"}, {"GetMTime", PyvtkHyperTreeGridContour_GetMTime, METH_VARARGS, "V.GetMTime() -> int\nC++: vtkMTimeType GetMTime() override;\n\nModified GetMTime Because we delegate to vtkContourValues.\n"}, {"SetValue", PyvtkHyperTreeGridContour_SetValue, METH_VARARGS, "V.SetValue(int, float)\nC++: void SetValue(int, double)\n\nMethods (inlined) to set / get contour values.\n"}, {"GetValue", PyvtkHyperTreeGridContour_GetValue, METH_VARARGS, "V.GetValue(int) -> float\nC++: double GetValue(int)\n\nMethods (inlined) to set / get contour values.\n"}, {"GetValues", PyvtkHyperTreeGridContour_GetValues, METH_VARARGS, "V.GetValues() -> (float, ...)\nC++: double *GetValues()\nV.GetValues([float, ...])\nC++: void GetValues(double *)\n\nMethods (inlined) to set / get contour values.\n"}, {"SetNumberOfContours", PyvtkHyperTreeGridContour_SetNumberOfContours, METH_VARARGS, "V.SetNumberOfContours(int)\nC++: void SetNumberOfContours(int)\n\nMethods (inlined) to set / get contour values.\n"}, {"GetNumberOfContours", PyvtkHyperTreeGridContour_GetNumberOfContours, METH_VARARGS, "V.GetNumberOfContours() -> int\nC++: int GetNumberOfContours()\n\nMethods (inlined) to set / get contour values.\n"}, {"GenerateValues", PyvtkHyperTreeGridContour_GenerateValues, METH_VARARGS, "V.GenerateValues(int, [float, float])\nC++: void GenerateValues(int, double[2])\nV.GenerateValues(int, float, float)\nC++: void GenerateValues(int, double, double)\n\nMethods (inlined) to set / get contour values.\n"}, {nullptr, nullptr, 0, nullptr} }; static PyTypeObject PyvtkHyperTreeGridContour_Type = { PyVarObject_HEAD_INIT(&PyType_Type, 0) "vtkFiltersHyperTreePython.vtkHyperTreeGridContour", // tp_name sizeof(PyVTKObject), // tp_basicsize 0, // tp_itemsize PyVTKObject_Delete, // tp_dealloc 0, // tp_print nullptr, // tp_getattr nullptr, // tp_setattr nullptr, // tp_compare PyVTKObject_Repr, // tp_repr nullptr, // tp_as_number nullptr, // tp_as_sequence nullptr, // tp_as_mapping nullptr, // tp_hash nullptr, // tp_call PyVTKObject_String, // tp_str PyObject_GenericGetAttr, // tp_getattro PyObject_GenericSetAttr, // tp_setattro &PyVTKObject_AsBuffer, // tp_as_buffer Py_TPFLAGS_DEFAULT|Py_TPFLAGS_HAVE_GC|Py_TPFLAGS_BASETYPE, // tp_flags PyvtkHyperTreeGridContour_Doc, // tp_doc PyVTKObject_Traverse, // tp_traverse nullptr, // tp_clear nullptr, // tp_richcompare offsetof(PyVTKObject, vtk_weakreflist), // tp_weaklistoffset nullptr, // tp_iter nullptr, // tp_iternext nullptr, // tp_methods nullptr, // tp_members PyVTKObject_GetSet, // tp_getset nullptr, // tp_base nullptr, // tp_dict nullptr, // tp_descr_get nullptr, // tp_descr_set offsetof(PyVTKObject, vtk_dict), // tp_dictoffset nullptr, // tp_init nullptr, // tp_alloc PyVTKObject_New, // tp_new PyObject_GC_Del, // tp_free nullptr, // tp_is_gc nullptr, // tp_bases nullptr, // tp_mro nullptr, // tp_cache nullptr, // tp_subclasses nullptr, // tp_weaklist VTK_WRAP_PYTHON_SUPPRESS_UNINITIALIZED }; static vtkObjectBase *PyvtkHyperTreeGridContour_StaticNew() { return vtkHyperTreeGridContour::New(); } PyObject *PyvtkHyperTreeGridContour_ClassNew() { PyVTKClass_Add( &PyvtkHyperTreeGridContour_Type, PyvtkHyperTreeGridContour_Methods, "vtkHyperTreeGridContour", &PyvtkHyperTreeGridContour_StaticNew); PyTypeObject *pytype = &PyvtkHyperTreeGridContour_Type; if ((pytype->tp_flags & Py_TPFLAGS_READY) != 0) { return (PyObject *)pytype; } #if !defined(VTK_PY3K) && PY_VERSION_HEX >= 0x02060000 pytype->tp_flags |= Py_TPFLAGS_HAVE_NEWBUFFER; #endif pytype->tp_base = (PyTypeObject *)PyvtkHyperTreeGridAlgorithm_ClassNew(); PyType_Ready(pytype); return (PyObject *)pytype; } void PyVTKAddFile_vtkHyperTreeGridContour( PyObject *dict) { PyObject *o; o = PyvtkHyperTreeGridContour_ClassNew(); if (o && PyDict_SetItemString(dict, "vtkHyperTreeGridContour", o) != 0) { Py_DECREF(o); } }