/* this file has been autogenerated by vtkNodeJsWrap */ /* editing this might proof futile */ #define VTK_WRAPPING_CXX #define VTK_STREAMS_FWD_ONLY #include #include "vtkImageSpatialAlgorithmWrap.h" #include "vtkImageAnisotropicDiffusion3DWrap.h" #include "vtkObjectWrap.h" #include "../../plus/plus.h" using namespace v8; extern Nan::Persistent vtkNodeJsNoWrap; Nan::Persistent VtkImageAnisotropicDiffusion3DWrap::ptpl; VtkImageAnisotropicDiffusion3DWrap::VtkImageAnisotropicDiffusion3DWrap() { } VtkImageAnisotropicDiffusion3DWrap::VtkImageAnisotropicDiffusion3DWrap(vtkSmartPointer _native) { native = _native; } VtkImageAnisotropicDiffusion3DWrap::~VtkImageAnisotropicDiffusion3DWrap() { } void VtkImageAnisotropicDiffusion3DWrap::Init(v8::Local exports) { Nan::SetAccessor(exports, Nan::New("vtkImageAnisotropicDiffusion3D").ToLocalChecked(), ConstructorGetter); Nan::SetAccessor(exports, Nan::New("ImageAnisotropicDiffusion3D").ToLocalChecked(), ConstructorGetter); } void VtkImageAnisotropicDiffusion3DWrap::ConstructorGetter( v8::Local property, const Nan::PropertyCallbackInfo& info) { InitPtpl(); info.GetReturnValue().Set(Nan::New(ptpl)->GetFunction()); } void VtkImageAnisotropicDiffusion3DWrap::InitPtpl() { if (!ptpl.IsEmpty()) return; v8::Local tpl = Nan::New(New); VtkImageSpatialAlgorithmWrap::InitPtpl( ); tpl->Inherit(Nan::New(VtkImageSpatialAlgorithmWrap::ptpl)); tpl->SetClassName(Nan::New("VtkImageAnisotropicDiffusion3DWrap").ToLocalChecked()); tpl->InstanceTemplate()->SetInternalFieldCount(1); Nan::SetPrototypeMethod(tpl, "CornersOff", CornersOff); Nan::SetPrototypeMethod(tpl, "cornersOff", CornersOff); Nan::SetPrototypeMethod(tpl, "CornersOn", CornersOn); Nan::SetPrototypeMethod(tpl, "cornersOn", CornersOn); Nan::SetPrototypeMethod(tpl, "EdgesOff", EdgesOff); Nan::SetPrototypeMethod(tpl, "edgesOff", EdgesOff); Nan::SetPrototypeMethod(tpl, "EdgesOn", EdgesOn); Nan::SetPrototypeMethod(tpl, "edgesOn", EdgesOn); Nan::SetPrototypeMethod(tpl, "FacesOff", FacesOff); Nan::SetPrototypeMethod(tpl, "facesOff", FacesOff); Nan::SetPrototypeMethod(tpl, "FacesOn", FacesOn); Nan::SetPrototypeMethod(tpl, "facesOn", FacesOn); Nan::SetPrototypeMethod(tpl, "GetClassName", GetClassName); Nan::SetPrototypeMethod(tpl, "getClassName", GetClassName); Nan::SetPrototypeMethod(tpl, "GetCorners", GetCorners); Nan::SetPrototypeMethod(tpl, "getCorners", GetCorners); Nan::SetPrototypeMethod(tpl, "GetDiffusionFactor", GetDiffusionFactor); Nan::SetPrototypeMethod(tpl, "getDiffusionFactor", GetDiffusionFactor); Nan::SetPrototypeMethod(tpl, "GetDiffusionThreshold", GetDiffusionThreshold); Nan::SetPrototypeMethod(tpl, "getDiffusionThreshold", GetDiffusionThreshold); Nan::SetPrototypeMethod(tpl, "GetEdges", GetEdges); Nan::SetPrototypeMethod(tpl, "getEdges", GetEdges); Nan::SetPrototypeMethod(tpl, "GetFaces", GetFaces); Nan::SetPrototypeMethod(tpl, "getFaces", GetFaces); Nan::SetPrototypeMethod(tpl, "GetGradientMagnitudeThreshold", GetGradientMagnitudeThreshold); Nan::SetPrototypeMethod(tpl, "getGradientMagnitudeThreshold", GetGradientMagnitudeThreshold); Nan::SetPrototypeMethod(tpl, "GetNumberOfIterations", GetNumberOfIterations); Nan::SetPrototypeMethod(tpl, "getNumberOfIterations", GetNumberOfIterations); Nan::SetPrototypeMethod(tpl, "GradientMagnitudeThresholdOff", GradientMagnitudeThresholdOff); Nan::SetPrototypeMethod(tpl, "gradientMagnitudeThresholdOff", GradientMagnitudeThresholdOff); Nan::SetPrototypeMethod(tpl, "GradientMagnitudeThresholdOn", GradientMagnitudeThresholdOn); Nan::SetPrototypeMethod(tpl, "gradientMagnitudeThresholdOn", GradientMagnitudeThresholdOn); Nan::SetPrototypeMethod(tpl, "IsA", IsA); Nan::SetPrototypeMethod(tpl, "isA", IsA); Nan::SetPrototypeMethod(tpl, "NewInstance", NewInstance); Nan::SetPrototypeMethod(tpl, "newInstance", NewInstance); Nan::SetPrototypeMethod(tpl, "SafeDownCast", SafeDownCast); Nan::SetPrototypeMethod(tpl, "safeDownCast", SafeDownCast); Nan::SetPrototypeMethod(tpl, "SetCorners", SetCorners); Nan::SetPrototypeMethod(tpl, "setCorners", SetCorners); Nan::SetPrototypeMethod(tpl, "SetDiffusionFactor", SetDiffusionFactor); Nan::SetPrototypeMethod(tpl, "setDiffusionFactor", SetDiffusionFactor); Nan::SetPrototypeMethod(tpl, "SetDiffusionThreshold", SetDiffusionThreshold); Nan::SetPrototypeMethod(tpl, "setDiffusionThreshold", SetDiffusionThreshold); Nan::SetPrototypeMethod(tpl, "SetEdges", SetEdges); Nan::SetPrototypeMethod(tpl, "setEdges", SetEdges); Nan::SetPrototypeMethod(tpl, "SetFaces", SetFaces); Nan::SetPrototypeMethod(tpl, "setFaces", SetFaces); Nan::SetPrototypeMethod(tpl, "SetGradientMagnitudeThreshold", SetGradientMagnitudeThreshold); Nan::SetPrototypeMethod(tpl, "setGradientMagnitudeThreshold", SetGradientMagnitudeThreshold); Nan::SetPrototypeMethod(tpl, "SetNumberOfIterations", SetNumberOfIterations); Nan::SetPrototypeMethod(tpl, "setNumberOfIterations", SetNumberOfIterations); #ifdef VTK_NODE_PLUS_VTKIMAGEANISOTROPICDIFFUSION3DWRAP_INITPTPL VTK_NODE_PLUS_VTKIMAGEANISOTROPICDIFFUSION3DWRAP_INITPTPL #endif ptpl.Reset( tpl ); } void VtkImageAnisotropicDiffusion3DWrap::New(const Nan::FunctionCallbackInfo& info) { if(!info.IsConstructCall()) { Nan::ThrowError("Constructor not called in a construct call."); return; } if(info.Length() == 0) { vtkSmartPointer native = vtkSmartPointer::New(); VtkImageAnisotropicDiffusion3DWrap* obj = new VtkImageAnisotropicDiffusion3DWrap(native); obj->Wrap(info.This()); } else { if(info[0]->ToObject() != vtkNodeJsNoWrap ) { Nan::ThrowError("Parameter Error"); return; } } info.GetReturnValue().Set(info.This()); } void VtkImageAnisotropicDiffusion3DWrap::CornersOff(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } native->CornersOff(); } void VtkImageAnisotropicDiffusion3DWrap::CornersOn(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } native->CornersOn(); } void VtkImageAnisotropicDiffusion3DWrap::EdgesOff(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } native->EdgesOff(); } void VtkImageAnisotropicDiffusion3DWrap::EdgesOn(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } native->EdgesOn(); } void VtkImageAnisotropicDiffusion3DWrap::FacesOff(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } native->FacesOff(); } void VtkImageAnisotropicDiffusion3DWrap::FacesOn(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } native->FacesOn(); } void VtkImageAnisotropicDiffusion3DWrap::GetClassName(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); char const * r; if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } r = native->GetClassName(); info.GetReturnValue().Set(Nan::New(r).ToLocalChecked()); } void VtkImageAnisotropicDiffusion3DWrap::GetCorners(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); int r; if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } r = native->GetCorners(); info.GetReturnValue().Set(Nan::New(r)); } void VtkImageAnisotropicDiffusion3DWrap::GetDiffusionFactor(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); double r; if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } r = native->GetDiffusionFactor(); info.GetReturnValue().Set(Nan::New(r)); } void VtkImageAnisotropicDiffusion3DWrap::GetDiffusionThreshold(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); double r; if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } r = native->GetDiffusionThreshold(); info.GetReturnValue().Set(Nan::New(r)); } void VtkImageAnisotropicDiffusion3DWrap::GetEdges(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); int r; if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } r = native->GetEdges(); info.GetReturnValue().Set(Nan::New(r)); } void VtkImageAnisotropicDiffusion3DWrap::GetFaces(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); int r; if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } r = native->GetFaces(); info.GetReturnValue().Set(Nan::New(r)); } void VtkImageAnisotropicDiffusion3DWrap::GetGradientMagnitudeThreshold(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); int r; if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } r = native->GetGradientMagnitudeThreshold(); info.GetReturnValue().Set(Nan::New(r)); } void VtkImageAnisotropicDiffusion3DWrap::GetNumberOfIterations(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); int r; if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } r = native->GetNumberOfIterations(); info.GetReturnValue().Set(Nan::New(r)); } void VtkImageAnisotropicDiffusion3DWrap::GradientMagnitudeThresholdOff(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } native->GradientMagnitudeThresholdOff(); } void VtkImageAnisotropicDiffusion3DWrap::GradientMagnitudeThresholdOn(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } native->GradientMagnitudeThresholdOn(); } void VtkImageAnisotropicDiffusion3DWrap::IsA(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() > 0 && info[0]->IsString()) { Nan::Utf8String a0(info[0]); int r; if(info.Length() != 1) { Nan::ThrowError("Too many parameters."); return; } r = native->IsA( *a0 ); info.GetReturnValue().Set(Nan::New(r)); return; } Nan::ThrowError("Parameter mismatch"); } void VtkImageAnisotropicDiffusion3DWrap::NewInstance(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); vtkImageAnisotropicDiffusion3D * r; if(info.Length() != 0) { Nan::ThrowError("Too many parameters."); return; } r = native->NewInstance(); VtkImageAnisotropicDiffusion3DWrap::InitPtpl(); v8::Local argv[1] = { Nan::New(vtkNodeJsNoWrap) }; v8::Local cons = Nan::New(VtkImageAnisotropicDiffusion3DWrap::ptpl)->GetFunction(); v8::Local wo = cons->NewInstance(1, argv); VtkImageAnisotropicDiffusion3DWrap *w = new VtkImageAnisotropicDiffusion3DWrap(); w->native = r; w->Wrap(wo); info.GetReturnValue().Set(wo); } void VtkImageAnisotropicDiffusion3DWrap::SafeDownCast(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() > 0 && info[0]->IsObject() && (Nan::New(VtkObjectWrap::ptpl))->HasInstance(info[0])) { VtkObjectWrap *a0 = ObjectWrap::Unwrap(info[0]->ToObject()); vtkImageAnisotropicDiffusion3D * r; if(info.Length() != 1) { Nan::ThrowError("Too many parameters."); return; } r = native->SafeDownCast( (vtkObject *) a0->native.GetPointer() ); VtkImageAnisotropicDiffusion3DWrap::InitPtpl(); v8::Local argv[1] = { Nan::New(vtkNodeJsNoWrap) }; v8::Local cons = Nan::New(VtkImageAnisotropicDiffusion3DWrap::ptpl)->GetFunction(); v8::Local wo = cons->NewInstance(1, argv); VtkImageAnisotropicDiffusion3DWrap *w = new VtkImageAnisotropicDiffusion3DWrap(); w->native = r; w->Wrap(wo); info.GetReturnValue().Set(wo); return; } Nan::ThrowError("Parameter mismatch"); } void VtkImageAnisotropicDiffusion3DWrap::SetCorners(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() > 0 && info[0]->IsInt32()) { if(info.Length() != 1) { Nan::ThrowError("Too many parameters."); return; } native->SetCorners( info[0]->Int32Value() ); return; } Nan::ThrowError("Parameter mismatch"); } void VtkImageAnisotropicDiffusion3DWrap::SetDiffusionFactor(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() > 0 && info[0]->IsNumber()) { if(info.Length() != 1) { Nan::ThrowError("Too many parameters."); return; } native->SetDiffusionFactor( info[0]->NumberValue() ); return; } Nan::ThrowError("Parameter mismatch"); } void VtkImageAnisotropicDiffusion3DWrap::SetDiffusionThreshold(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() > 0 && info[0]->IsNumber()) { if(info.Length() != 1) { Nan::ThrowError("Too many parameters."); return; } native->SetDiffusionThreshold( info[0]->NumberValue() ); return; } Nan::ThrowError("Parameter mismatch"); } void VtkImageAnisotropicDiffusion3DWrap::SetEdges(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() > 0 && info[0]->IsInt32()) { if(info.Length() != 1) { Nan::ThrowError("Too many parameters."); return; } native->SetEdges( info[0]->Int32Value() ); return; } Nan::ThrowError("Parameter mismatch"); } void VtkImageAnisotropicDiffusion3DWrap::SetFaces(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() > 0 && info[0]->IsInt32()) { if(info.Length() != 1) { Nan::ThrowError("Too many parameters."); return; } native->SetFaces( info[0]->Int32Value() ); return; } Nan::ThrowError("Parameter mismatch"); } void VtkImageAnisotropicDiffusion3DWrap::SetGradientMagnitudeThreshold(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() > 0 && info[0]->IsInt32()) { if(info.Length() != 1) { Nan::ThrowError("Too many parameters."); return; } native->SetGradientMagnitudeThreshold( info[0]->Int32Value() ); return; } Nan::ThrowError("Parameter mismatch"); } void VtkImageAnisotropicDiffusion3DWrap::SetNumberOfIterations(const Nan::FunctionCallbackInfo& info) { VtkImageAnisotropicDiffusion3DWrap *wrapper = ObjectWrap::Unwrap(info.Holder()); vtkImageAnisotropicDiffusion3D *native = (vtkImageAnisotropicDiffusion3D *)wrapper->native.GetPointer(); if(info.Length() > 0 && info[0]->IsInt32()) { if(info.Length() != 1) { Nan::ThrowError("Too many parameters."); return; } native->SetNumberOfIterations( info[0]->Int32Value() ); return; } Nan::ThrowError("Parameter mismatch"); }