Push() public method

public Push ( ) : void
return void
Beispiel #1
0
    void MoveTurtle()
    {
        foreach (char ch in sentence)
        {
            switch (ch)
            {
            case 'F':
                Vector3 startPos = turtle.CrtPosition;
                turtle.Translate();
                Vector3 endPos = turtle.CrtPosition;
                //DrawBranchLine(startPos, endPos);
                DrawBranch(startPos, endPos);
                turtle.MultiplyWidth(scaleFactor);
                break;

            case '+':
                turtle.RotateTheta(GetVariationOfAngle(theta, variance));
                turtle.MultiplyWidth(scaleFactor * 0.75f);
                break;

            case '-':
                turtle.RotateTheta(-GetVariationOfAngle(theta, variance));
                turtle.MultiplyWidth(scaleFactor * 0.75f);
                break;

            case '&':
                turtle.RotatePhi(GetVariationOfAngle(phi, variance));
                turtle.MultiplyWidth(scaleFactor * 0.75f);
                break;

            case '^':
                turtle.RotatePhi(-GetVariationOfAngle(phi, variance));
                turtle.MultiplyWidth(scaleFactor * 0.75f);
                break;

            case '[':
                turtle.Push();
                break;

            case ']':
                //DrawLeafLine(turtle.CrtPosition, turtle.CrtPosition + turtle.GetRotatedTranslation());
                DrawLeaf(turtle.CrtPosition);
                turtle.Pull();
                break;

            default:
                break;
            }
        }
    }
Beispiel #2
0
    // Start is called before the first frame update
    void Start()
    {
        string work = axiom;

        for (int i = 0; i < depth; i++)
        {
            work = Expand(rules, work);
        }

        Turtle turtle = new Turtle(transform.position, transform.rotation * Quaternion.AngleAxis(90.0f, Vector3.left));

        foreach (char c in work)
        {
            foreach (Action action in actions)
            {
                if (action.symbol == c)
                {
                    if (action.pop)
                    {
                        turtle.Pop();
                    }
                    if (action.push)
                    {
                        turtle.Push();
                    }
                    if (action.rotX != 0.0f || action.rotY != 0.0f || action.rotZ != 0.0f)
                    {
                        turtle.Turn(new Vector3(action.rotX, action.rotY, action.rotZ));
                    }
                    if (action.moveZ != 0.0f)
                    {
                        turtle.MoveForward(action.moveZ);
                        if (action.leaf)
                        {
                            Instantiate(leafPrefab, turtle.GetPosition(), turtle.GetRotation());
                        }
                        else
                        {
                            Instantiate(trunkPrefab, turtle.GetPosition(), turtle.GetRotation());
                        }
                    }
                }
            }
        }
    }
Beispiel #3
0
        protected override void LoadContent()
        {
            spriteBatch = new SpriteBatch(GraphicsDevice);
            this.Services.AddService(typeof(SpriteBatch), spriteBatch);

            system = new TreeSystem();

            turtle = new Turtle(this);
            turtle.Operations.Add('a', () => turtle.Draw(dist));
            turtle.Operations.Add('b', () => turtle.Draw(dist));
            turtle.Operations.Add('m', () => turtle.Move(dist));
            turtle.Operations.Add('-', () => turtle.Turn(MathHelper.ToRadians(-angle)));
            turtle.Operations.Add('+', () => turtle.Turn(MathHelper.ToRadians(angle)));
            turtle.Operations.Add('[', () => { turtle.Push(); turtle.Turn(MathHelper.ToRadians(-angle)); });
            turtle.Operations.Add(']', () => { turtle.Pop(); turtle.Turn(MathHelper.ToRadians(angle)); });
            turtle.Drawings.Add(system.Get(level, 1));

            base.LoadContent();
        }
    public void Interpret(out Mesh meshBranches, out Mesh meshLeaves)
    {
        Turtle turtle = new Turtle(Eval(initialWidth));

        foreach (var elem in str){
            switch (elem.symbol){
            case LSElement.LSSymbol.LEAF:
                AddLeaf (turtle.Peek().M,elem.data [0], elem.data [1], turtle.GetDist());
                break;
            case LSElement.LSSymbol.DRAW:
                float movDist = elem.data [0];
                AddCone(turtle.Peek().M, movDist, turtle.GetWidth(), turtle.GetWidth() * elem.data[1], turtle.GetDist());
                turtle.Move(movDist);
                break;
            case LSElement.LSSymbol.TURN:
                turtle.Turn(elem.data[0]);
                break;
            case LSElement.LSSymbol.ROLL:
                turtle.Roll(elem.data[0]);
                break;
            case LSElement.LSSymbol.PUSH_STATE:
                turtle.Push();
                break;
            case LSElement.LSSymbol.POP_STATE:
                turtle.Pop();
                break;
            case LSElement.LSSymbol.WIDTH:
                turtle.SetWidth(elem.data[0]);
                break;
            case LSElement.LSSymbol.GRAVITY:
                turtle.Gravity(elem.data[0]);
                break;
            }
        }

        float max = 0;
        foreach (var u in uvLeafs) {
            max = Mathf.Max (u.x, max);
        }
        for (int i = 0; i < uvs.Count; i++) {
            uvs [i] = new Vector2( uvs [i].x/max,0);
        }
        for (int i = 0; i < uvLeafs.Count; i++) {
            uvLeafs [i] = new Vector2( uvLeafs[i].x/max ,0);
        }

        meshBranches = new Mesh();
        if (vertices.Count >= 65536) {
            Debug.LogError ("Tree - too many verts: "+vertices.Count);
        } else {
            vertCount = vertices.Count;
            meshBranches.vertices = vertices.ToArray ();
            meshBranches.triangles = indices.ToArray ();
            meshBranches.uv = uvs.ToArray ();
            PostprocessMesh (meshBranches);
            //Debug.Log ("vertices "+vertices.Count);
        }
        uvs.Clear();
        vertices.Clear();
        indices.Clear();

        meshLeaves = new Mesh();
        if (verticesLeaf.Count >= 65536) {
            Debug.LogError ("Tree leaves - too many verts: "+verticesLeaf.Count);
        } else {
            vertLeafCount = verticesLeaf.Count;
            meshLeaves.vertices = verticesLeaf.ToArray ();
            meshLeaves.triangles = indicesLeaf.ToArray ();
            meshLeaves.uv = uvLeafs.ToArray ();
            PostprocessMesh (meshLeaves);
        }
        uvLeafs.Clear();
        verticesLeaf.Clear();
        indicesLeaf.Clear();
    }