MWS_2021_s439489/unity_artifitial_world-st/Assets/Scripts/TurtleLSystem.cs

using System.Collections;
using System.Collections.Generic;
using System.IO;
using UnityEditor;
using UnityEngine;
using ConsoleLSystem;
using System;


abstract public class TurtleLSystem : MonoBehaviour
{
    public string LSystemPath;

    public uint steps;

    public Dictionary<string, Func<float[], Tuple<GameObject, Matrix4x4>>> turtleInterpretation = new Dictionary<string, Func<float[], Tuple<GameObject, Matrix4x4>>>();

    private List<GameObject> gameObjects = new List<GameObject>();

    private Mesh getCylinder(int quality,float width,float length) {
        Mesh mesh = new Mesh();
        //mesh.triangles 
        var points = new List<Vector3>();
        var normals = new List<Vector3>();
        var indices = new List<int>();
        for (float i = 0; i < quality; i++) {
            points.Add(new Vector3(Mathf.Cos((i / quality) * 2 * Mathf.PI) * width, 0, Mathf.Sin((i / quality) * 2 * Mathf.PI) * width));
        }
        for (float i = 0; i < quality; i++) {
            points.Add(new Vector3(Mathf.Cos((i / quality) * 2 * Mathf.PI) * width, length, Mathf.Sin((i / quality) * 2 * Mathf.PI) * width));
        }
        //points.Add(new Vector3(0,0,0));
        //points.Add(new Vector3(0, length, 0));

        for (float i = 0; i < quality; i++) {
            normals.Add(new Vector3(Mathf.Cos((i / quality) * 2 * Mathf.PI) * width, 0, Mathf.Sin((i / quality) * 2 * Mathf.PI) * width));
        }
        for (float i = 0; i < quality; i++) {
            normals.Add(new Vector3(Mathf.Cos((i / quality) * 2 * Mathf.PI) * width, 0, Mathf.Sin((i / quality) * 2 * Mathf.PI) * width));
        }

        //for (int i = 0; i < quality; i++) {
        //    indices.Add(i);
        //    indices.Add((i + 1) % quality);
        //    indices.Add(quality * 2);
        //}
        //for (int i = 0; i < quality; i++) {
        //    indices.Add((i + 1) % quality + quality);
        //    indices.Add(i + quality);
        //    indices.Add(quality * 2 + 1);
        //}
        for (int i = 0; i < quality; i++) {
            indices.Add((i + 1) % quality);
            indices.Add(i);
            indices.Add(i + quality);

            indices.Add(i + quality);
            indices.Add((i + 1) % quality + quality);
            indices.Add((i + 1) % quality);
        }
        mesh.vertices = points.ToArray();
        mesh.triangles = indices.ToArray();
        mesh.normals = normals.ToArray();
        return mesh;
    }

    private LSystemEvaluator evaluator = null;

    private void parseRules(StreamReader sr) {

    }
    public void evaluate() {
        for (int i=0; i < steps; i++) {
            evaluator.rewrite();
        }
        Debug.Log(evaluator.lSystemString.ToString());
    }
    private GameObject prepeareGameObject(string name, GameObject gameObject,Matrix4x4 transformation) {
        var instance = Instantiate(gameObject);
        instance.name = String.Format("LSystem Literal {0}", name);
        instance.tag = "LSystemLiteral";
        instance.transform.parent = this.gameObject.transform;
        instance.transform.position = transformation.ExtractPosition() + transformation.MultiplyPoint(instance.transform.position);
        instance.transform.rotation *= transformation.ExtractRotation();
        instance.transform.localScale = Vector3.Scale(transformation.ExtractScale(), instance.transform.localScale);
        return instance;

    }
    void createModelsRecursive(LSystemNode node, Matrix4x4 transformation) {
        while (node != null) {
            Matrix4x4 new_transformation=transformation;
            Func<float[], Tuple<GameObject, Matrix4x4>> interpretation;
            var name = node.literal.name;
            if (turtleInterpretation.TryGetValue(name, out interpretation) || turtleInterpretation.TryGetValue("*.*", out interpretation)) {
                var result = interpretation(node.literal.values);
                new_transformation = new_transformation * result.Item2;
                if (result.Item1 != null) {
                    var instance = prepeareGameObject(name, result.Item1, new_transformation);
                }
                //gameObjects.Add(gameObject);
                //remove scale, rather unnecesary
                new_transformation = new_transformation * Matrix4x4.Scale(result.Item2.ExtractScale()).inverse;
            }
            foreach (var child in node.children) {
                createModelsRecursive(child, new_transformation);
            }
            node = node.mainChild;
            transformation = new_transformation;
        }
    }
    private void clearObjects() {
        //var objects = Resources.FindObjectsOfTypeAll<GameObject>().Where(obj => obj.name == "Name");
        foreach (GameObject gameObject in GameObject.FindGameObjectsWithTag("LSystemLiteral")) {
            DestroyImmediate(gameObject);

        }
        gameObjects = new List<GameObject>();
    }

    public void present() {
        clearObjects();
        createModelsRecursive(evaluator.lSystemString, Matrix4x4.identity);
    }
    abstract protected void initLiteralInterpretation();
    public void loadFile() {
        clearObjects();
        var sr = new StreamReader(LSystemPath);
        evaluator = LSystemFileParser.parseLSystem(sr);
        sr.Close();
        turtleInterpretation = new Dictionary<string, Func<float[], Tuple<GameObject, Matrix4x4>>>();
        initLiteralInterpretation();
    }
    public void evaluateAndPresent() {
        evaluate();
        present();
        Debug.Log(evaluator.lSystemString.ToString().Length);
        //x.name = "aaa";
       
        //Instantiate(x,Matrix4x4.identity);
    }

    
    // Start is called before the first frame update
    void Start()
    {
        
    }

    // Update is called once per frame
    void Update()
    {
        
    }
}
cw1 2021-03-13 17:35:25 +01:00			`using System.Collections;`
			`using System.Collections.Generic;`
			`using System.IO;`
			`using UnityEditor;`
			`using UnityEngine;`
			`using ConsoleLSystem;`
			`using System;`



			`abstract public class TurtleLSystem : MonoBehaviour`
			`{`
			`public string LSystemPath;`

			`public uint steps;`

			`public Dictionary<string, Func<float[], Tuple<GameObject, Matrix4x4>>> turtleInterpretation = new Dictionary<string, Func<float[], Tuple<GameObject, Matrix4x4>>>();`

			`private List<GameObject> gameObjects = new List<GameObject>();`

			`private Mesh getCylinder(int quality,float width,float length) {`
			`Mesh mesh = new Mesh();`
			`//mesh.triangles`
			`var points = new List<Vector3>();`
			`var normals = new List<Vector3>();`
			`var indices = new List<int>();`
			`for (float i = 0; i < quality; i++) {`
			`points.Add(new Vector3(Mathf.Cos((i / quality) * 2 * Mathf.PI) * width, 0, Mathf.Sin((i / quality) * 2 * Mathf.PI) * width));`
			`}`
			`for (float i = 0; i < quality; i++) {`
			`points.Add(new Vector3(Mathf.Cos((i / quality) * 2 * Mathf.PI) * width, length, Mathf.Sin((i / quality) * 2 * Mathf.PI) * width));`
			`}`
			`//points.Add(new Vector3(0,0,0));`
			`//points.Add(new Vector3(0, length, 0));`

			`for (float i = 0; i < quality; i++) {`
			`normals.Add(new Vector3(Mathf.Cos((i / quality) * 2 * Mathf.PI) * width, 0, Mathf.Sin((i / quality) * 2 * Mathf.PI) * width));`
			`}`
			`for (float i = 0; i < quality; i++) {`
			`normals.Add(new Vector3(Mathf.Cos((i / quality) * 2 * Mathf.PI) * width, 0, Mathf.Sin((i / quality) * 2 * Mathf.PI) * width));`
			`}`

			`//for (int i = 0; i < quality; i++) {`
			`// indices.Add(i);`
			`// indices.Add((i + 1) % quality);`
			`// indices.Add(quality * 2);`
			`//}`
			`//for (int i = 0; i < quality; i++) {`
			`// indices.Add((i + 1) % quality + quality);`
			`// indices.Add(i + quality);`
			`// indices.Add(quality * 2 + 1);`
			`//}`
			`for (int i = 0; i < quality; i++) {`
			`indices.Add((i + 1) % quality);`
			`indices.Add(i);`
			`indices.Add(i + quality);`

			`indices.Add(i + quality);`
			`indices.Add((i + 1) % quality + quality);`
			`indices.Add((i + 1) % quality);`
			`}`
			`mesh.vertices = points.ToArray();`
			`mesh.triangles = indices.ToArray();`
			`mesh.normals = normals.ToArray();`
			`return mesh;`
			`}`

			`private LSystemEvaluator evaluator = null;`

			`private void parseRules(StreamReader sr) {`

			`}`
			`public void evaluate() {`
			`for (int i=0; i < steps; i++) {`
			`evaluator.rewrite();`
			`}`
			`Debug.Log(evaluator.lSystemString.ToString());`
			`}`
			`private GameObject prepeareGameObject(string name, GameObject gameObject,Matrix4x4 transformation) {`
			`var instance = Instantiate(gameObject);`
			`instance.name = String.Format("LSystem Literal {0}", name);`
			`instance.tag = "LSystemLiteral";`
			`instance.transform.parent = this.gameObject.transform;`
			`instance.transform.position = transformation.ExtractPosition() + transformation.MultiplyPoint(instance.transform.position);`
			`instance.transform.rotation *= transformation.ExtractRotation();`
			`instance.transform.localScale = Vector3.Scale(transformation.ExtractScale(), instance.transform.localScale);`
			`return instance;`

			`}`
			`void createModelsRecursive(LSystemNode node, Matrix4x4 transformation) {`
			`while (node != null) {`
			`Matrix4x4 new_transformation=transformation;`
			`Func<float[], Tuple<GameObject, Matrix4x4>> interpretation;`
			`var name = node.literal.name;`
			`if (turtleInterpretation.TryGetValue(name, out interpretation) \|\| turtleInterpretation.TryGetValue(".", out interpretation)) {`
			`var result = interpretation(node.literal.values);`
			`new_transformation = new_transformation * result.Item2;`
			`if (result.Item1 != null) {`
			`var instance = prepeareGameObject(name, result.Item1, new_transformation);`
			`}`
			`//gameObjects.Add(gameObject);`
			`//remove scale, rather unnecesary`
			`new_transformation = new_transformation * Matrix4x4.Scale(result.Item2.ExtractScale()).inverse;`
			`}`
			`foreach (var child in node.children) {`
			`createModelsRecursive(child, new_transformation);`
			`}`
			`node = node.mainChild;`
			`transformation = new_transformation;`
			`}`
			`}`
			`private void clearObjects() {`
			`//var objects = Resources.FindObjectsOfTypeAll<GameObject>().Where(obj => obj.name == "Name");`
			`foreach (GameObject gameObject in GameObject.FindGameObjectsWithTag("LSystemLiteral")) {`
			`DestroyImmediate(gameObject);`

			`}`
			`gameObjects = new List<GameObject>();`
			`}`

			`public void present() {`
			`clearObjects();`
			`createModelsRecursive(evaluator.lSystemString, Matrix4x4.identity);`
			`}`
			`abstract protected void initLiteralInterpretation();`
			`public void loadFile() {`
			`clearObjects();`
			`var sr = new StreamReader(LSystemPath);`
			`evaluator = LSystemFileParser.parseLSystem(sr);`
			`sr.Close();`
			`turtleInterpretation = new Dictionary<string, Func<float[], Tuple<GameObject, Matrix4x4>>>();`
			`initLiteralInterpretation();`
			`}`
			`public void evaluateAndPresent() {`
			`evaluate();`
			`present();`
			`Debug.Log(evaluator.lSystemString.ToString().Length);`
			`//x.name = "aaa";`

			`//Instantiate(x,Matrix4x4.identity);`
			`}`


			`// Start is called before the first frame update`
			`void Start()`
			`{`

			`}`

			`// Update is called once per frame`
			`void Update()`
			`{`

			`}`
			`}`