DuctTaped_GL/OMesh/OMeshInterface.hpp

/*
Title : Assignment 2 Execution
Author: Edward R. Gonzalez

Description:
Provides a OMesh_HE object interface to make it easier to interact with the Open Mesh library.
*/

#pragma once

#include <math.h>

// DGL
#include "DGL/DGL_Types.hpp"

// OpenMesh
#include <OpenMesh/Core/IO/MeshIO.hh>
#include <OpenMesh/Core/Mesh/TriMesh_ArrayKernelT.hh>
#include <OpenMesh/Core/Mesh/PolyMesh_ArrayKernelT.hh>

// C++
#include "Cpp_Alias.hpp"


namespace OMeshInterface
{
	inline namespace LibraryReferences
	{
		// DGL

		using FaceGL     = DGL::Face      ;
		using FaceList   = DGL::FaceList  ;
		using Vector3    = DGL::Vector3   ;
		using VertexList = DGL::VertexList;

		// OpenMesh

		using EdgeHandle     = OpenMesh::EdgeHandle             ;
		using HE_Mesh        = OpenMesh::TriMesh_ArrayKernelT<> ;
		using HE_MeshPoly    = OpenMesh::PolyMesh_ArrayKernelT<>;
		using FaceHandle     = OpenMesh::FaceHandle             ;
		using HalfEdgeHandle = OpenMesh::HalfedgeHandle         ;
		using IO_Options     = OpenMesh::IO::Options            ;
		using VertexHandle   = OpenMesh::VertexHandle           ;
		using Vertex         = OpenMesh::ArrayKernel::Vertex    ;

		using OpenMesh::IO::read_mesh;

		// Second Order Aliases
		using Point = HE_Mesh::Point;
		using Edge  = HE_Mesh::Edge ;

		using EdgeList = vector<Edge>;

		using EdgeHandles     = vector<EdgeHandle    >;
		using FaceHandles     = vector<FaceHandle    >;
		using HalfEdgeHandles = vector<HalfEdgeHandle>;
		using VertHandles     = vector<VertexHandle  >;

		using std::atan;
	}
	
	double PI() 
	{ 
		return std::atan(1) * 4; 
	}

	class OMesh_HE
	{
	public:

		OMesh_HE() {}

		void Load(string _filePath)
		{
			IO_Options loadOptions;

			bool loadResult, hasFaceNormals, hasVertexNormals;

			oMeshObj.request_vertex_normals();
			oMeshObj.request_face_normals  ();

			loadResult = read_mesh(oMeshObj, _filePath, loadOptions);

			if (loadResult == false)
			{
				throw std::runtime_error("OMesh_HE: Failed to load the mesh.");
			}

			hasFaceNormals   = loadOptions.check(IO_Options::FaceNormal  );
			hasVertexNormals = loadOptions.check(IO_Options::VertexNormal);

			if (!hasVertexNormals)
			{
				oMeshObj.update_vertex_normals ();
			}
			if (!hasFaceNormals)
			{
				oMeshObj.update_face_normals ();
			}

			GenerateVertexList      ();
			GenerateVertexNormalList();
			GenerateFaceNormalList  ();
			GenerateEdgeList        ();
			GenerateFaceList        ();

			return;
		}

		const VertexList& GetVerticies() const
		{
			return verticies;
		}

		const VertexList& GetVertNormals() const 
		{
			return vertNormals;
		}

		const EdgeList& GetEdges() const 
		{
			return edges;
		}

		const FaceList& GetFaces() const
		{
			return faces;
		}

		const VertexList& GetFaceNormals() const 
		{
			return faceNormals;
		}

		const int GetGenus() const 
		{

		}


		void GetInteriorAngle()
		{

		}


		const double GetGuassianCurvature_Discretely()
		{
			double result = 0;

			using FAngleList = vector<float >;
			using AngleList  = vector<double>;

			AngleList vertAngleSumList;

			for (HE_Mesh::VertexIter vertElem = oMeshObj.vertices_begin(); vertElem != oMeshObj.vertices_end(); vertElem++)
			{
				using OutgoingEdgeIter = HE_Mesh::VertexOHalfedgeIter;

				double vertResult = 2 * PI();

				FAngleList interiorAngles;

				double sumOfAngles = 0.0;

				for (OutgoingEdgeIter oEdgeElem = oMeshObj.voh_begin(*vertElem); oEdgeElem != oMeshObj.voh_end(*vertElem); oEdgeElem++)
				{
					/*OutgoingEdgeIter next = oEdgeElem; next++;

					if (next == oMeshObj.voh_end(*vertElem))
					{
						continue;
					}*/

					float angle = oMeshObj.calc_sector_angle(*oEdgeElem);

					//angle *= PI() / 180.0;   // To Radians

					interiorAngles.push_back(angle);

					sumOfAngles += angle;
				}

				vertAngleSumList.push_back(sumOfAngles);

				vertResult -= sumOfAngles;

				result += vertResult;
			}

			return result;
		}


	protected:

		void GenerateVertexList()
		{
			using VertIter = HE_Mesh::VertexIter;

			for (VertIter element = oMeshObj.vertices_begin(); element != oMeshObj.vertices_end(); element++)
			{
				auto vertex = oMeshObj.point(*element);

				verticies.push_back(Vector3(vertex[0], vertex[1], vertex[2]));
			}

			return;
		}

		void GenerateVertexNormalList()
		{
			using VertIter = HE_Mesh::VertexIter;

			for (VertIter element = oMeshObj.vertices_begin(); element != oMeshObj.vertices_end(); element++)
			{
				auto normal = oMeshObj.normal(*element);

				vertNormals.push_back(Vector3(normal[0], normal[1], normal[2]));
			}

			return;
		}

		void GenerateFaceNormalList()
		{
			using FaceIter = HE_Mesh::FaceIter;

			for (FaceIter faceElem = oMeshObj.faces_begin(); faceElem != oMeshObj.faces_end(); faceElem++)
			{
				auto normal = oMeshObj.normal(*faceElem);

				faceNormals.push_back(Vector3(normal[0], normal[1], normal[2]));
			}
		}

		void GenerateEdgeList()
		{
			using EdgeIter = HE_Mesh::EdgeIter;

			for (EdgeIter element = oMeshObj.edges_begin(); element != oMeshObj.edges_end(); element++)
			{
				using OEdge = decltype(oMeshObj.edge(*element));

				OEdge edge = oMeshObj.edge(*element);

				edges.push_back(edge);
			}
		}

		void GenerateFaceList()
		{
			using FaceIterElem = decltype(oMeshObj.faces_begin());

			for (FaceIterElem faceElement = oMeshObj.faces_begin(); faceElement != oMeshObj.faces_end(); faceElement++)
			{
				FaceGL face;

				int index = 0;

				using FaceVertexIter = HE_Mesh::FaceVertexIter;

				for (FaceVertexIter vertElement = oMeshObj.fv_begin(*faceElement); vertElement != oMeshObj.fv_end(*faceElement); vertElement++, index++)
				{
					face.vec[index] = vertElement->idx();
				}

				faces.push_back(face);
			}

			return;
		}

		HE_Mesh oMeshObj;

		VertexList verticies  ;
		VertexList vertNormals;
		VertexList faceNormals;

		HalfEdgeHandles LeftHandles ;
		HalfEdgeHandles RightHandles;

		EdgeList   edges      ;
		FaceList   faces      ;
	};
}
Added comments about the tape holes. 2020-04-07 14:23:28 -07:00			`/*`
			`Title : Assignment 2 Execution`
			`Author: Edward R. Gonzalez`

			`Description:`
			`Provides a OMesh_HE object interface to make it easier to interact with the Open Mesh library.`
			`*/`

Added half cut tape. 2020-04-06 14:40:20 -07:00			`#pragma once`

Added holes to my tape. 2020-04-06 17:09:57 -07:00			`#include <math.h>`

Added half cut tape. 2020-04-06 14:40:20 -07:00			`// DGL`
			`#include "DGL/DGL_Types.hpp"`

			`// OpenMesh`
			`#include <OpenMesh/Core/IO/MeshIO.hh>`
			`#include <OpenMesh/Core/Mesh/TriMesh_ArrayKernelT.hh>`
			`#include <OpenMesh/Core/Mesh/PolyMesh_ArrayKernelT.hh>`

			`// C++`
			`#include "Cpp_Alias.hpp"`


			`namespace OMeshInterface`
			`{`
			`inline namespace LibraryReferences`
			`{`
			`// DGL`

			`using FaceGL = DGL::Face ;`
			`using FaceList = DGL::FaceList ;`
			`using Vector3 = DGL::Vector3 ;`
			`using VertexList = DGL::VertexList;`

			`// OpenMesh`

			`using EdgeHandle = OpenMesh::EdgeHandle ;`
			`using HE_Mesh = OpenMesh::TriMesh_ArrayKernelT<> ;`
			`using HE_MeshPoly = OpenMesh::PolyMesh_ArrayKernelT<>;`
			`using FaceHandle = OpenMesh::FaceHandle ;`
			`using HalfEdgeHandle = OpenMesh::HalfedgeHandle ;`
			`using IO_Options = OpenMesh::IO::Options ;`
			`using VertexHandle = OpenMesh::VertexHandle ;`
			`using Vertex = OpenMesh::ArrayKernel::Vertex ;`

			`using OpenMesh::IO::read_mesh;`

			`// Second Order Aliases`
			`using Point = HE_Mesh::Point;`
			`using Edge = HE_Mesh::Edge ;`

			`using EdgeList = vector<Edge>;`

			`using EdgeHandles = vector<EdgeHandle >;`
			`using FaceHandles = vector<FaceHandle >;`
			`using HalfEdgeHandles = vector<HalfEdgeHandle>;`
			`using VertHandles = vector<VertexHandle >;`

Added holes to my tape. 2020-04-06 17:09:57 -07:00			`using std::atan;`
			`}`
Added half cut tape. 2020-04-06 14:40:20 -07:00
Added holes to my tape. 2020-04-06 17:09:57 -07:00			`double PI()`
			`{`
			`return std::atan(1) * 4;`
			`}`
Added half cut tape. 2020-04-06 14:40:20 -07:00
			`class OMesh_HE`
			`{`
			`public:`

			`OMesh_HE() {}`

			`void Load(string _filePath)`
			`{`
			`IO_Options loadOptions;`

			`bool loadResult, hasFaceNormals, hasVertexNormals;`

			`oMeshObj.request_vertex_normals();`
			`oMeshObj.request_face_normals ();`

			`loadResult = read_mesh(oMeshObj, _filePath, loadOptions);`

			`if (loadResult == false)`
			`{`
			`throw std::runtime_error("OMesh_HE: Failed to load the mesh.");`
			`}`

			`hasFaceNormals = loadOptions.check(IO_Options::FaceNormal );`
			`hasVertexNormals = loadOptions.check(IO_Options::VertexNormal);`

			`if (!hasVertexNormals)`
			`{`
			`oMeshObj.update_vertex_normals ();`
			`}`
			`if (!hasFaceNormals)`
			`{`
			`oMeshObj.update_face_normals ();`
			`}`

			`GenerateVertexList ();`
			`GenerateVertexNormalList();`
			`GenerateFaceNormalList ();`
Added holes to my tape. 2020-04-06 17:09:57 -07:00			`GenerateEdgeList ();`
Added half cut tape. 2020-04-06 14:40:20 -07:00			`GenerateFaceList ();`

			`return;`
			`}`

			`const VertexList& GetVerticies() const`
			`{`
			`return verticies;`
			`}`

			`const VertexList& GetVertNormals() const`
			`{`
			`return vertNormals;`
			`}`

Added holes to my tape. 2020-04-06 17:09:57 -07:00			`const EdgeList& GetEdges() const`
Added half cut tape. 2020-04-06 14:40:20 -07:00			`{`
			`return edges;`
			`}`

			`const FaceList& GetFaces() const`
			`{`
			`return faces;`
			`}`

			`const VertexList& GetFaceNormals() const`
			`{`
			`return faceNormals;`
			`}`

Added holes to my tape. 2020-04-06 17:09:57 -07:00			`const int GetGenus() const`
			`{`

			`}`


			`void GetInteriorAngle()`
			`{`

			`}`


			`const double GetGuassianCurvature_Discretely()`
			`{`
Got the stuff to check those holes in the tape to work properly. 2020-04-07 14:05:39 -07:00			`double result = 0;`
Added holes to my tape. 2020-04-06 17:09:57 -07:00
Got the stuff to check those holes in the tape to work properly. 2020-04-07 14:05:39 -07:00			`using FAngleList = vector<float >;`
Added holes to my tape. 2020-04-06 17:09:57 -07:00			`using AngleList = vector<double>;`

			`AngleList vertAngleSumList;`

			`for (HE_Mesh::VertexIter vertElem = oMeshObj.vertices_begin(); vertElem != oMeshObj.vertices_end(); vertElem++)`
			`{`
			`using OutgoingEdgeIter = HE_Mesh::VertexOHalfedgeIter;`

Got the stuff to check those holes in the tape to work properly. 2020-04-07 14:05:39 -07:00			`double vertResult = 2 * PI();`

Added holes to my tape. 2020-04-06 17:09:57 -07:00			`FAngleList interiorAngles;`

			`double sumOfAngles = 0.0;`

			`for (OutgoingEdgeIter oEdgeElem = oMeshObj.voh_begin(vertElem); oEdgeElem != oMeshObj.voh_end(vertElem); oEdgeElem++)`
			`{`
			`/*OutgoingEdgeIter next = oEdgeElem; next++;`

			`if (next == oMeshObj.voh_end(*vertElem))`
			`{`
			`continue;`
			`}*/`

			`float angle = oMeshObj.calc_sector_angle(*oEdgeElem);`

Got the stuff to check those holes in the tape to work properly. 2020-04-07 14:05:39 -07:00			`//angle *= PI() / 180.0; // To Radians`
Added holes to my tape. 2020-04-06 17:09:57 -07:00
			`interiorAngles.push_back(angle);`

			`sumOfAngles += angle;`
			`}`

			`vertAngleSumList.push_back(sumOfAngles);`

Got the stuff to check those holes in the tape to work properly. 2020-04-07 14:05:39 -07:00			`vertResult -= sumOfAngles;`

			`result += vertResult;`
Added holes to my tape. 2020-04-06 17:09:57 -07:00			`}`

			`return result;`
			`}`


Added half cut tape. 2020-04-06 14:40:20 -07:00			`protected:`

			`void GenerateVertexList()`
			`{`
			`using VertIter = HE_Mesh::VertexIter;`

			`for (VertIter element = oMeshObj.vertices_begin(); element != oMeshObj.vertices_end(); element++)`
			`{`
			`auto vertex = oMeshObj.point(*element);`

			`verticies.push_back(Vector3(vertex[0], vertex[1], vertex[2]));`
			`}`

			`return;`
			`}`

			`void GenerateVertexNormalList()`
			`{`
			`using VertIter = HE_Mesh::VertexIter;`

			`for (VertIter element = oMeshObj.vertices_begin(); element != oMeshObj.vertices_end(); element++)`
			`{`
			`auto normal = oMeshObj.normal(*element);`

			`vertNormals.push_back(Vector3(normal[0], normal[1], normal[2]));`
			`}`

			`return;`
			`}`

			`void GenerateFaceNormalList()`
			`{`
			`using FaceIter = HE_Mesh::FaceIter;`

			`for (FaceIter faceElem = oMeshObj.faces_begin(); faceElem != oMeshObj.faces_end(); faceElem++)`
			`{`
			`auto normal = oMeshObj.normal(*faceElem);`

			`faceNormals.push_back(Vector3(normal[0], normal[1], normal[2]));`
			`}`
			`}`

Added holes to my tape. 2020-04-06 17:09:57 -07:00			`void GenerateEdgeList()`
Added half cut tape. 2020-04-06 14:40:20 -07:00			`{`
			`using EdgeIter = HE_Mesh::EdgeIter;`

Added holes to my tape. 2020-04-06 17:09:57 -07:00			`for (EdgeIter element = oMeshObj.edges_begin(); element != oMeshObj.edges_end(); element++)`
Added half cut tape. 2020-04-06 14:40:20 -07:00			`{`
			`using OEdge = decltype(oMeshObj.edge(*element));`

			`OEdge edge = oMeshObj.edge(*element);`

			`edges.push_back(edge);`
			`}`
			`}`

			`void GenerateFaceList()`
			`{`
			`using FaceIterElem = decltype(oMeshObj.faces_begin());`

			`for (FaceIterElem faceElement = oMeshObj.faces_begin(); faceElement != oMeshObj.faces_end(); faceElement++)`
			`{`
			`FaceGL face;`

			`int index = 0;`

			`using FaceVertexIter = HE_Mesh::FaceVertexIter;`

			`for (FaceVertexIter vertElement = oMeshObj.fv_begin(faceElement); vertElement != oMeshObj.fv_end(faceElement); vertElement++, index++)`
			`{`
			`face.vec[index] = vertElement->idx();`
			`}`

			`faces.push_back(face);`
			`}`

			`return;`
			`}`

			`HE_Mesh oMeshObj;`

			`VertexList verticies ;`
			`VertexList vertNormals;`
			`VertexList faceNormals;`
Added holes to my tape. 2020-04-06 17:09:57 -07:00
			`HalfEdgeHandles LeftHandles ;`
			`HalfEdgeHandles RightHandles;`

Added half cut tape. 2020-04-06 14:40:20 -07:00			`EdgeList edges ;`
			`FaceList faces ;`
			`};`
			`}`