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Game Engine

, 20 Nov 2009
A game engine first prototype
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.IO;

using MTV3D65;


namespace gefx
{
    public  class Model
    {
        public enum ModelType
        {
            StaticX,
           
            TVM
           

        };
        public List<TVMesh> Meshes = new List<TVMesh>();
        TV_3DVECTOR InitPozicija = new TV_3DVECTOR(0, 0, 0);
        public const string ALL = "All";
        string itPathMesh;
        public List<gefx.ModelAnim.MeshSceneInfo> MeshInfo = new List<gefx.ModelAnim.MeshSceneInfo>();

        public string GetMeshPath(string MeshName)
        {
            string r = "";
            foreach (gefx.ModelAnim.MeshSceneInfo m in MeshInfo)
            {
                if (m.Name == MeshName)
                {
                    r = m.Path;

                }

            }
            return r;

        }

        public struct Dimensions
        {

            public float X;
            public float Y;
            public float Z;

            public float radius;
            public int NumSlices;
            public int NumStacks;

        };
        public ModelType TypeOf;
        private TVTextureFactory TF;
        private int IDDiffuse;
        private int IDMat;
        private TVMaterialFactory Mats;
        public TV_3DVECTOR GetMeshPosition(string Name)
        {
            TV_3DVECTOR Ret = new TV_3DVECTOR(0, 0, 0);

            foreach (TVMesh mesh in Meshes)
            {
                if (mesh.GetMeshName() == Name)
                {

                    Ret = mesh.GetPosition();
                    break;
                }

            }

            return Ret;

        }
        public void SetMeshPosition(TV_3DVECTOR Position, string Name)
        {
            foreach (TVMesh mesh in Meshes)
            {
                try
                {
                    if (mesh.GetMeshName() == Name)
                    {

                        mesh.SetPosition(Position.x, Position.y, Position.z);
                        break;
                    }
                }
                catch (Exception Exa)
                {


                }
            }

        }
        public void SetMeshRotation(TV_3DVECTOR Rotation, string Name)
        {
            if (Name == ALL)
            {

                foreach (TVMesh Mesh in Meshes)
                {

                    Mesh.SetRotation(Rotation.x, Rotation.y, Rotation.z);

                }
            }
            else
            {
                foreach (TVMesh Mesh in Meshes)
                {
                    if (Mesh.GetMeshName() == Name)
                    {

                        Mesh.SetRotation(Rotation.x, Rotation.y, Rotation.z);
                        break;
                    }


                }

            }
        }
        public void SetMeshRotation(TV_3DVECTOR Rotation, float fbyTime, string Name)
        {
            if (Name == ALL)
            {

                foreach (TVMesh Mesh in Meshes)
                {

                    Mesh.SetRotation(Rotation.x * fbyTime, Rotation.y * fbyTime, Rotation.z * fbyTime);

                }
            }
            else
            {
                foreach (TVMesh Mesh in Meshes)
                {
                    if (Mesh.GetMeshName() == Name)
                    {

                        Mesh.SetRotation(Rotation.x * fbyTime, Rotation.y * fbyTime, Rotation.z * fbyTime);
                        break;
                    }


                }

            }

        }
        public TV_3DVECTOR GetMeshRotation(string Name)
        {
            TV_3DVECTOR Ret = new TV_3DVECTOR(0, 0, 0);

            foreach (TVMesh m in Meshes)
            {
                if (m.GetMeshName() == Name)
                {

                    Ret = m.GetRotation();
                }

            }
            return Ret;

        }
        public void AddTexture(string Name, string TexturePath, string TextureName)
        {
            TF = new TVTextureFactory();
            if (Name == ALL)
            {

                foreach (TVMesh Mesh in Meshes)
                {
                    IDDiffuse = TF.LoadTexture(TexturePath, TextureName, -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
                    Mesh.SetTexture(IDDiffuse);     //Apply the texture to the cube
                }
            }
            else
            {
                foreach (TVMesh Mesh in Meshes)
                {
                    if (Mesh.GetMeshName() == Name)
                    {
                        IDDiffuse = TF.LoadTexture(TexturePath, TextureName, -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
                        Mesh.SetTexture(IDDiffuse);     //Apply the texture to the cube
                        break;
                    }
                }
            }

        }
        public void AddMaterial(string Name)
        {
            Mats = new TVMaterialFactory();

            if (Name == ALL)
            {

                foreach (TVMesh Mesh in Meshes)
                {
                    IDMat = Mats.CreateLightMaterial(1, 1, 1, 1, 0.015f, 1, "basic material" + Mesh.GetMeshName());

                    Mesh.SetMaterial(IDMat, -1);
                    Mesh.SetLightingMode(CONST_TV_LIGHTINGMODE.TV_LIGHTING_NORMAL,
                        0, 1);

                }
            }
            else
            {
                foreach (TVMesh Mesh in Meshes)
                {
                    if (Mesh.GetMeshName() == Name)
                    {
                        IDMat = Mats.CreateLightMaterial(1, 1, 1, 1, 0.015f, 1, "basic material" + Mesh.GetMeshName());

                        Mesh.SetMaterial(IDMat, -1);
                        Mesh.SetLightingMode(CONST_TV_LIGHTINGMODE.TV_LIGHTING_NORMAL,
                            0, 1);

                        break;
                    }
                }
            }

        }
        public void UpdateObjects(string Name)
        {


            if (Name == ALL)
            {

                foreach (TVMesh Mesh in Meshes)
                {
                    Mesh.Update();
                }
            }
            else
            {
                foreach (TVMesh Mesh in Meshes)
                {
                    if (Mesh.GetMeshName() == Name)
                    {
                        Mesh.Update();
                        break;
                    }
                }
            }
        }

        private void ReadMatFile(string Fname)
        {
           
        }

        public void AddMaterialToModel(string FName,string ModelName,ref TVMaterialFactory mat, ref TVGlobals glob)
        {
            string[] para = new string[19];
            string line;
            int counter = 0;
            TextReader tr = new StreamReader(FName);
            while ((line = tr.ReadLine()) != null)
            {
                para[counter] = line;
                counter++;
            }
            string[] D = para[0].Split(',');
            string[] A = para[1].Split(',');
            string[] S = para[2].Split(',');
            string[] P = para[3].Split(',');
            string[] E = para[4].Split(',');
            //"D",0,0,255
            //"A",255,0,0
            //"S",255,255,0
            //"P",0,0,0
            //"E",0,255,0
            tr.Close();

            int i = 0;


            gefx.ModelAnim.MeshSceneInfo Info = new ModelAnim.MeshSceneInfo();

            Info.MaterijalFile = FName;
            Info.Name = ModelName;
            MeshInfo.Add(Info);

            

            foreach (TVMesh m in Meshes)
            {



                if (m.GetMeshName() == ModelName)
                {
                    string Name = System.IO.Path.GetFileName(FName);
                    mat.CreateMaterial("Mat" + Name );
                    mat.SetAmbient(glob.GetMat("Mat" + Name), 
                        (float )System.Convert.ToSingle(A[1]),
                        (float )System.Convert.ToSingle(A[2]),
                        (float )System.Convert.ToSingle(A[3]),
                        1);
                    mat.SetDiffuse(glob.GetMat("Mat" + Name), 
                        (float)System.Convert.ToSingle(D[1]),
                        (float)System.Convert.ToSingle(D[2]),
                        (float)System.Convert.ToSingle(D[3]), 
                        1);
                    mat.SetSpecular(glob.GetMat("Mat" + Name), 
                        (float)System.Convert.ToSingle(S[1]),
                        (float)System.Convert.ToSingle(S[2]),
                        (float)System.Convert.ToSingle(S[3]), 
                        1);
                    mat.SetEmissive(glob.GetMat("Mat" + Name), 
                        (float)System.Convert.ToSingle(E[1]),
                        (float)System.Convert.ToSingle(E[2]),
                        (float)System.Convert.ToSingle(E[3]),
                        1);
                    mat.SetPower(glob.GetMat("Mat" + Name),(float)System.Convert.ToSingle(P[1]));

                    m.SetMaterial(glob.GetMat("Mat" + Name));


                }

            }


        }

        public void AddModel(ref TVScene Scene, ref TVGlobals Globals,
            ModelType Type, string Name, string PathToModel)
        {
            TVMesh Meshin = new TVMesh();
            Mats = new TVMaterialFactory();
            itPathMesh = PathToModel;
            gefx.ModelAnim.MeshSceneInfo Info = new ModelAnim.MeshSceneInfo() ;

            Info.Path = PathToModel;
            Info.Name = Name;
            MeshInfo.Add(Info);
            if (Type == ModelType.TVM )
            {

                Meshin = Scene.CreateMeshBuilder(Name);
                Meshin.LoadTVM(PathToModel, true, true);

                //IDMat = Mats.CreateLightMaterial(1, 1, 1, 1, 0.015f, 1, "basic material" + Name );
                

                //Meshin.SetMaterial(IDMat, -1);
                //Meshin.SetLightingMode(CONST_TV_LIGHTINGMODE.TV_LIGHTING_NORMAL,
                //    0, 1);

                

                Meshin.SetMaterial(Globals.GetMat("Matte"));
                Meshin.SetLightingMode(CONST_TV_LIGHTINGMODE.TV_LIGHTING_BUMPMAPPING_TANGENTSPACE);
                Meshin.SetShadowCast(true, true);
                Meshin.SetMeshName(Name);
                Meshes.Add(Meshin);

            }


            

            if (Type == ModelType.StaticX )
            {

                Meshin = Scene.CreateMeshBuilder(Name);
                Meshin.LoadXFile(PathToModel, true, true);

                Meshin.SetMaterial(Globals.GetMat("Matte"));
                Meshin.SetLightingMode(CONST_TV_LIGHTINGMODE.TV_LIGHTING_BUMPMAPPING_TANGENTSPACE);
                Meshin.SetShadowCast(true, true);
                Meshin.SetMeshName(Name);
                Meshes.Add(Meshin);

            }
            
            

        }
        public void DrawModels(string Para)
        {

            if (Para == "All")
            {

                foreach (TVMesh mesh in Meshes)
                {

                    mesh.Render();

                }

            }
            else
            {

                foreach (TVMesh mesh in Meshes)
                {
                    if (mesh.GetMeshName() == Para)
                    {
                        mesh.Render();
                        break;
                    }

                }

            }

        }

        public TVMesh   GetRefMesh(string Name)  
        {
            TVMesh mm= null ;
            foreach (TVMesh m in Meshes)
            {
                if (m.GetMeshName() == Name)
                {
                    mm= m;
                    break;
                }

            }

            return mm;


        }

        public void RotateModel(float x, float y, float z, string Name)
        {

            if (Name == ALL)
            {

                foreach (TVMesh Mesh in Meshes)
                {

                    Mesh.RotateX(x);
                    Mesh.RotateY(y);
                    Mesh.RotateZ(z);

                }
            }
            else
            {
                foreach (TVMesh Mesh in Meshes)
                {
                    if (Mesh.GetMeshName() == Name)
                    {

                        Mesh.RotateX(x);
                        Mesh.RotateY(y);
                        Mesh.RotateZ(z);
                        break;
                    }


                }

            }
        }
        public void RotateModel(float x, float y, float z, float time, string Name)
        {

            if (Name == ALL)
            {

                foreach (TVMesh Mesh in Meshes)
                {

                    Mesh.RotateX(x * time);
                    Mesh.RotateY(y * time);
                    Mesh.RotateZ(z * time);

                }
            }
            else
            {
                foreach (TVMesh Mesh in Meshes)
                {
                    if (Mesh.GetMeshName() == Name)
                    {

                        Mesh.RotateX(x * time);
                        Mesh.RotateY(y * time);
                        Mesh.RotateZ(z * time);
                        break;
                    }


                }

            }
        }
        public void SetModelScale(float x,float y, float z,string  Name)
        {
            if (Name == ALL)
            {

                foreach (TVMesh Mesh in Meshes)
                {

                    Mesh.SetScale(x, y, z);
                }
            }
            else
            {
                foreach (TVMesh Mesh in Meshes)
                {
                    if (Mesh.GetMeshName() == Name)
                    {
                        Mesh.SetScale(x, y, z);

                        break;
                    }
                }
            }

        }
        public TV_3DVECTOR GetModelScale(string Name)
        {

            TV_3DVECTOR ret= new TV_3DVECTOR(0,0,0);
            foreach (TVMesh Mesh in Meshes)
            {
                if (Mesh.GetMeshName() == Name)
                {
                    ret = Mesh.GetScale();

                    break;
                }
            }
            return ret;

        }
        public int GetModelID(string Name)
        {
            int refint=0;

            foreach (TVMesh Mesh in Meshes)
            {
                if (Mesh.GetMeshName() == Name)
                {
                    refint = Mesh.GetIndex();

                    break;
                }
            }
            return refint;


        }
        public void AddTexture(string Name, string TexturePack,ref TVGlobals Globals)
        {
            TVTextureFactory TextureFactory = new TVTextureFactory();
            foreach (TVMesh Mesh in Meshes)
            {
                if (Mesh.GetMeshName() == Name)
                {
                    TextureFactory.LoadTexture(TexturePack, "Texture" + Name, -1, -1, CONST_TV_COLORKEY.TV_COLORKEY_NO, true);
                    Mesh.SetTexture(Globals.GetTex("Texture" + Name), -1);



                    break;
                }
            }

        }

        public string CheckMousePick(int Mx, int My,ref TVScene Scene)
        {
            TVCollisionResult CollisionResult;
            string Ret = "";

            CollisionResult = Scene.MousePick(Mx, My,
                (int)CONST_TV_OBJECT_TYPE.TV_OBJECT_MESH,
                CONST_TV_TESTTYPE.TV_TESTTYPE_BOUNDINGBOX);
            // Check if we did have a collision with a tank
            if (CollisionResult.IsCollision())
            {
                

                    foreach (TVMesh Mesh in Meshes)
                    {
                        TVMesh colMesh;
                        TV_3DVECTOR Tankpos;
                        TV_3DVECTOR ColMeshpos;

                        colMesh = CollisionResult.GetCollisionMesh();
                        Tankpos = Mesh.GetPosition();
                        ColMeshpos = colMesh.GetPosition();

                        if ((Tankpos.x == ColMeshpos.x) && (Tankpos.z == ColMeshpos.z))
                        {
                            Ret = Mesh.GetMeshName();
                            break;
                        }


                    }

               


                }


            return Ret;

        }

        public void ShowBoundingBox(string Name,bool f)
        {
            if (Name == "All")
            {
                foreach (TVMesh mesh in Meshes)
                {

                    if (mesh != null)
                    {
                        mesh.ShowBoundingBox(f);
                    }
                    

                }

            }
            else
            {

                foreach (TVMesh mesh in Meshes)
                {
                    try
                    {

                        if (mesh.GetMeshName() == Name)
                        {

                            mesh.ShowBoundingBox(f);

                        }
                    }
                    catch (Exception exa)
                    {


                    }

                }
            }
            
        }

        //gefxem.ExplodeMesh EksplozijaModela = new ExplodeMesh();
        //public void ExpoldeModel(string Name, ref TVScene Scene, ref TVGlobals Tvg)
        //{
        //    foreach (TVMesh m in Meshes)
        //    {

        //        if (m.GetMeshName() == Name)
        //        {
        //            EksplozijaModela.Mesh = m;

        //            EksplozijaModela.Scene = Scene;
        //            EksplozijaModela.power = "10";
        //            EksplozijaModela.Tvg = Tvg;

        //            EksplozijaModela.InitObject(m.GetIndex());

        //        }

        //    }

        //}

        public void RemoveModel(string Name,ref TVScene Scene)
        {
            int indexMesh = 0;

            try
            {

                foreach (TVMesh m in Meshes)
                {
                    indexMesh++;
                    if (m.GetMeshName() == Name)
                    {
                        //m.Destroy();
                        Scene.DestroyMesh(m);
                        break;

                    }

                }

                if (indexMesh > 0)
                {
                    TVScene s;
                    
                    Meshes.RemoveAt(indexMesh);
                }
            }
            catch (Exception Exa)
            {

            }
            

        }
    }
}

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Web03 | 2.8.140916.1 | Last Updated 20 Nov 2009
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