Esempio n. 1
0
        private void CreateRenderMeshes()
        {
            ResetRenderMeshes();

            if (m_precomputedCollisionMeshes.Count > 0)
            {
                var renderMeshes = new List <UnityEngine.Mesh>();
                var renderColors = new List <Color>();

                var prevState = Random.state;
                Random.InitState(GetInstanceID());
                foreach (var collisionMesh in PrecomputedCollisionMeshes)
                {
                    var meshes = collisionMesh.CreateRenderMeshes(transform);
                    renderMeshes.AddRange(meshes);
                    var color = Random.ColorHSV();
                    renderColors.AddRange(Enumerable.Repeat(color, meshes.Length));
                }
                Random.state = prevState;

                m_renderMeshes = renderMeshes.ToArray();
                m_renderColors = renderColors.ToArray();
            }
            else
            {
                // Avoid rendering of meshes that hasn't been modified. To render
                // these it's possible to do:
                //     m_renderMeshes = SourceObjects;
                //     var prevState = Random.state;
                //     Random.InitState( GetInstanceID() );
                //     var color = Random.ColorHSV();
                //     m_renderColors = Enumerable.Repeat( color, m_renderMeshes.Length ).ToArray();
                //     Random.state = prevState;
            }
        }
Esempio n. 2
0
        public void Split()
        {
            var scale    = transform.localScale / 1.5f;
            var ballLeft = Instantiate(
                gameObject,
                rigidbody2d.position + Vector2.left / 4f,
                Quaternion.identity,
                gameManager.transform);

            var ballRight = Instantiate(
                gameObject,
                rigidbody2d.position + Vector2.right / 4f,
                Quaternion.identity,
                gameManager.transform);

            ballLeft.transform.localScale  = scale;
            ballRight.transform.localScale = scale;

            var randomColor = Random.ColorHSV(
                0f, 1f, 1f, 1f, 0.5f, 1f);

            ballLeft.GetComponent <SpriteRenderer>().color  = randomColor;
            ballRight.GetComponent <SpriteRenderer>().color = randomColor;

            ballLeft.GetComponent <Ball>().StartForce  = new Vector2(-2, 5);
            ballRight.GetComponent <Ball>().StartForce = new Vector2(2, 5);

            gameManager.Events.EventScored();

            gameManager.Balls.Add(ballLeft);
            gameManager.Balls.Add(ballRight);

            Destroy(gameObject);
        }
Esempio n. 3
0
        public Nav2dNode(Vector3 worldPos)
        {
            this.worldPos  = worldPos;
            this.neighbors = new C5.HashSet <Nav2dNode>();

            zone = Random.ColorHSV();
        }
Esempio n. 4
0
    private void Start()
    {
        foreach (var item in loopScrollRects)
        {
            item.OnInstantiateNextItem = OnInstantiateNextItem;
        }

        for (int i = 0; i < 100; i++)
        {
            gridDatas.Add(new LSR_GridData()
            {
                index  = i,
                number = Random.Range(0, 1000),
                color  = Random.ColorHSV(0f, 1f, 1f, 1f, 0.5f, 1f)
            });
        }

        foreach (var item in loopScrollRects)
        {
            item.prefabSource = new LoopScrollPrefabSource()
            {
                prefab   = prefab,
                poolSize = 5
            };
            item.totalCount = gridDatas.Count;
            item.RefillCells();
        }
    }
Esempio n. 5
0
 public override void Initialize()
 {
     _bonus            = _bonus == 0 ? Random.Range(1, 11) : _bonus;
     _startFlyPosition = transform.localPosition.x - transform.localScale.x;
     _material         = GetComponent <Renderer>().material;
     _material.color   = Random.ColorHSV();
 }
    /*
     * IEnumerator syncEvenSecond() {
     *      int millisecond_remain = c;
     *      if (DateTime.UtcNow.Second % 2 == 0) {
     *              yield return new WaitForSeconds ((float)(millisecond_remain / 1000 + 1.0f));
     *              InvokeRepeating ("SpawnCube", spawnTime, spawnTime);
     *      } else {
     *              yield return new WaitForSeconds((float)(millisecond_remain / 1000));
     *              InvokeRepeating ("SpawnCube", spawnTime, spawnTime);
     *      }
     * }
     */
    void SpawnCube()
    {
        if (distance <= 10)
        {
            distance++;
        }

        var instantiatedObject = GameObject.Instantiate(cubeObject, cubeObject.transform.position + (cubeObject.transform.right * distance), cubeObject.transform.rotation);

        instantiatedObject.transform.parent = cubeContainerObject.transform;
        instantiatedObject.GetComponent <MeshRenderer>().material.color = Random.ColorHSV(0f, 1f, 1f, 1f, 0.5f, 1f);

        if (cubeContainerObject.transform.childCount > 10)
        {
            Destroy(cubeContainerObject.transform.GetChild(0).gameObject);
            for (int i = 0; i < cubeContainerObject.transform.childCount; i++)
            {
                cubeContainerObject.transform.GetChild(i).Translate(-cubeObject.transform.right * 1);
            }
        }

        /*localGameObjectList.Add (instantiatedObject);
         * if (localGameObjectList.Count > 10) {
         *      localGameObjectList.RemoveAt (0);
         * }*/
    }
Esempio n. 7
0
    void Awake()
    {
        _collider = GetComponent <BoxCollider2D>();
        _rb       = GetComponent <Rigidbody2D>();

        GetComponent <SpriteRenderer>().color = Random.ColorHSV();
    }
        private async void Start()
        {
            Camera.main.orthographicSize   = GameFieldSize.y / 2f;
            Camera.main.transform.position = new Vector3(GameFieldSize.x / 2f, GameFieldSize.y / 2f, Camera.main.transform.position.z);

            GameObject     gameFieldGo             = new GameObject("GameField");
            SpriteRenderer gameFieldSpriteRenderer = gameFieldGo.AddComponent <SpriteRenderer>();

            gameFieldSpriteRenderer.sprite       = SquareSprite;
            gameFieldSpriteRenderer.sortingOrder = -1;
            gameFieldSpriteRenderer.color        = Color.black;
            gameFieldGo.transform.localScale     = new Vector3(GameFieldSize.x, GameFieldSize.y, 1f);
            gameFieldGo.transform.position       = GameFieldSize * 0.5f;

            // Pick nice random color for this player
            this.color = Random.ColorHSV(0, 1, 1, 1, 1, 1);

            // The private key is used to sign transactions sent to the DAppChain.
            // Usually you'd generate one private key per player, or let them provide their own.
            // In this sample we just generate a new key every time.
            var privateKey = CryptoUtils.GeneratePrivateKey();
            var publicKey  = CryptoUtils.PublicKeyFromPrivateKey(privateKey);

            this.client = new TileChainContractClient(privateKey, publicKey, Debug.unityLogger);
            this.client.TileMapStateUpdated += ClientOnTileMapStateUpdated;

            await ConnectClient();
        }
Esempio n. 9
0
        private void CreateCubes()
        {
            int   cubesCount = _config.CubesCount;
            float respRadius = _config.RespRadius;
            float respHeight = _config.RespHeight;

            for (int i = 0; i < cubesCount; i++)
            {
                var cube = _factory.Create <Cube>("Cube", transform);
                if (cube == null)
                {
                    return;
                }
                var pos = Random.insideUnitCircle * respRadius;
                cube.transform.localPosition = new Vector3(pos.x, respHeight, pos.y);
                cube.CollisionEnter         += OnCubeCollisionEnter;

                var color = Random.ColorHSV();
                cube.SetColor(color);

                _cubes.Add(cube);

                if (_mainMenu != null)
                {
                    _mainMenu.AddButton(i, color);
                }
            }
        }
Esempio n. 10
0
    IEnumerator SpawnEnemyCoroutine()
    {
        int enemyNumber = 0;

        while (true)
        {
            float waitTime = Random.Range(minSpawnTime, maxSpawnTime);
            yield return(new WaitForSeconds(waitTime));

            if (playerTransform == null)
            {
                yield break;
            }

            float   playerDistance = Random.Range(minSpawnRange, maxSpawnRange);
            Vector2 newPosition    = (Vector2)playerTransform.position +
                                     Random.insideUnitCircle.normalized * playerDistance;

            GameObject newEnemy = Instantiate(enemyPrefab, newPosition, Quaternion.identity);
            newEnemy.name = string.Format("Enemy #{0:00}", enemyNumber++);

            newEnemy.GetComponent <SpriteRenderer>().color = Random.ColorHSV();

            S06_Enemy enemy = newEnemy.AddComponent <S06_Enemy>();
            enemy.player       = playerTransform;
            enemy.enemySpeed   = Random.Range(minEnemySpeed, maxEnemySpeed);
            enemy.killDistance = killDistance;
        }
    }
Esempio n. 11
0
 private void RandomizeColors()
 {
     foreach (var mat in GetComponentsInChildren <MeshRenderer>())
     {
         mat.material.color = Random.ColorHSV();
     }
 }
Esempio n. 12
0
    private void GenerateIsland()
    {
        if (islanderToSpawn.Count == 0)
        {
            return;
        }
        foreach (var person in islanderToSpawn)
        {
            if (spawnLocations.Count == 0)
            {
                return;                                           // if there are no locations to spawn at dont spawn.
            }
            var locId    = Random.Range(0, spawnLocations.Count); // pick random location from list
            var location = spawnLocations[locId];
            var position = location.position;
            var islander = Instantiate(person, position, quaternion.identity, location);

            var color = Random.ColorHSV(0f, 1f, 1f, 1f, 0.5f, 1f);
            var stats = islander.GetComponent <Islander>();
            stats.SetShirtColor(color);
            stats._islanderData.personalityType = types[Random.Range(0, types.Length)];
            var tentLoc = location.GetChild(0);
            var tentID  = Random.Range(0, tentsToSpawn.Count);
            var tent    = Instantiate(tentsToSpawn[tentID], tentLoc.position, quaternion.identity, tentLoc);

            tent.GetComponentInChildren <MeshRenderer>().material.color = color;
            spawnLocations.RemoveAt(locId); // remove location from possible spawn locations
        }
    }
Esempio n. 13
0
        private void Start()
        {
            morphGod         = FindObjectOfType <MorphGod>();
            randomTargets    = new List <TransformStruct>();
            morphGod.botPool = new Queue <MicroBot>();
            poolToList       = new List <MicroBot>();
            for (int i = 0; i < 1800; i++)
            {
                var newPoolObject = GameObject.CreatePrimitive(PrimitiveType.Sphere);
                newPoolObject.transform.SetParent(morphGod.gameObject.transform);
                newPoolObject.transform.position   = transform.position;
                newPoolObject.transform.localScale = new Vector3(0.3f, 0.3f, 0.3f);
                newPoolObject.TryGetComponent(out Renderer _r);
                var _color = Random.ColorHSV();
                _r.material.color = _color;
                _r.material.EnableKeyword("_EMISSION");

                _r.material.SetColor(EmissionColor, _color * 2f);

                randomTargets.Add(new TransformStruct(new Vector3(Random.Range(30, -30), 0, Random.Range(30, -30)),
                                                      new Vector3(Random.Range(90, -90), Random.Range(90, -90), Random.Range(90, -90))));

                newPoolObject.name = i.ToString() + " Pool";
                newPoolObject.SetActive(true);
                morphGod.botPool.Enqueue(new MicroBot(null, newPoolObject.transform,
                                                      _r.material.color));
            }


            poolToList = morphGod.botPool.ToList();
            moving     = true;
            Invoke(nameof(StopInit), 5f);
        }
    private void GenerateMaterials()
    {
        Scene.Materials.Clear();

        var materialCount = Rand.Range(MaterialCountMinMax);

        for (var i = 0; i < materialCount; i++)
        {
            var material    = new SceneMaterial();
            var color       = Random.ColorHSV();
            var colorVector = new Vector3(color.r, color.g, color.b);
            var isMetallic  = Rand.Chance(MetallicChance);
            var specular    = Rand.Range(SpecularRange);
            if (isMetallic)
            {
                material.Albedo   = colorVector * specular;
                material.Specular = colorVector;
            }
            else
            {
                material.Albedo   = colorVector;
                material.Specular = Vector3.zero;
            }
            Scene.Materials.Add(material);
        }

        if (materialComputeBuffer != null)
        {
            materialComputeBuffer.Release();
        }
        MakeBuffer(ref materialComputeBuffer, materialCount, Scene.Materials[0].Stride, Scene.Materials.ToArray());
    }
    private void AddVideoObject()
    {
        var newCam = new GameObject($"Camera{objectIndex}").AddComponent <Camera>();

        newCam.backgroundColor = Random.ColorHSV();
        newCam.transform.SetParent(cameraParent);
        cameras.Add(newCam);
        var newSource = new GameObject($"SourceImage{objectIndex}").AddComponent <RawImage>();

        newSource.transform.SetParent(sourceImageParent);
        sourceImages.Add(newSource);
        var newReceive = new GameObject($"ReceiveImage{objectIndex}").AddComponent <RawImage>();

        newReceive.transform.SetParent(receiveImageParent);
        receiveImages.Add(newReceive);

        try
        {
            videoStreamTrackList.Add(newCam.CaptureStreamTrack(width, height, 0));
            newSource.texture = newCam.targetTexture;
        }
        catch (Exception e)
        {
            Debug.LogError(e.Message);
            HangUp();
            return;
        }

        objectIndex++;
        addTracksButton.interactable = true;
    }
Esempio n. 16
0
 public void ReadyUp()
 {
     if (!ready)
     {
         defaultAction = new float[actionRange.Length];
         for (var i = 0; i < actionRange.Length; i++)
         {
             defaultAction[i] = actionRange[i].getDefaultInRange();
         }
         goal       = Instantiate(goalPrefab);
         agent      = GetComponent <Transform>();
         areaCenter = area.GetComponent <Transform>().position;
         agentRb    = agent.GetComponent <Rigidbody>();
         SetColor(Random.ColorHSV(0f, 1f, 0.5f, 1f, 0.75f, 1f));
         ready = true;
         // agentRb.maxAngularVelocity = 1.0f;
         selfGoalCollider = goal.GetComponent <BoxCollider>();
         pidRotationController.Reset();
         pidVelocityController.Reset();
         goalRadius     = goal.GetComponent <SphereCollider>().radius;
         areaDimensions = Vector3.Scale(
             area.transform.localScale,
             area.transform.GetChild(0).GetComponent <MeshFilter>().mesh.bounds.size
             );
     }
 }
        void OnAdd(ReorderableList list)
        {
            var standardColorList = new List <Color>(s_StandardColors);

            for (int i = 0; i < list.serializedProperty.arraySize; i++)
            {
                var item = list.serializedProperty.GetArrayElementAtIndex(i);
                standardColorList.Remove(item.FindPropertyRelative(nameof(SemanticSegmentationLabelEntry.color)).colorValue);
            }
            var index = list.serializedProperty.arraySize;

            list.serializedProperty.InsertArrayElementAtIndex(index);
            var element       = list.serializedProperty.GetArrayElementAtIndex(index);
            var labelProperty = element.FindPropertyRelative(nameof(SemanticSegmentationLabelEntry.label));

            labelProperty.stringValue = "";
            var colorProperty = element.FindPropertyRelative(nameof(SemanticSegmentationLabelEntry.color));

            if (standardColorList.Any())
            {
                colorProperty.colorValue = standardColorList.First();
            }
            else
            {
                colorProperty.colorValue = Random.ColorHSV(0, 1, .5f, 1, 1, 1);
            }

            serializedObject.ApplyModifiedProperties();
            EditorUtility.SetDirty(target);
        }
Esempio n. 18
0
        public Vector3 GeneratePoint()
        {
            Vector3 result = Vector3.one;

            for (int i = 0; i < 100; i++)
            {
                var x            = Random.Range(_sizeOfPlatform.x - (_sizeOfPlatform.z / 2), _sizeOfPlatform.x + (_sizeOfPlatform.z / 2));
                var y            = 0.5f;
                var z            = Random.Range(_sizeOfPlatform.y - (_sizeOfPlatform.w / 2), _sizeOfPlatform.y + (_sizeOfPlatform.w / 2));
                var checkPoint   = new Vector3(x, y, z);
                var _            = new Collider[2];
                int numColliders = Physics.OverlapSphereNonAlloc(checkPoint, 2.0f, _);
                if (numColliders == 1)
                {
                    if (_isEnabledViewSpawnPoint)
                    {
                        var point = Instantiate(_prefab, checkPoint, Quaternion.identity);
                        point.name = ManagerName.SPAWNPOINT;
                        point.GetComponent <MeshRenderer>().material.color = Random.ColorHSV();
                    }
                    return(checkPoint);
                }
            }

            return(result);
        }
Esempio n. 19
0
    private void RandomSpawn()
    {
        for (int i = 0; i < shapeCount; i++)
        {
            float r = Random.Range(-1, 1);

            Shape sp = SpawnShape(r < 0 ? sphereResource : cubeResource, RandomPositionInBounds(worldBounds.bounds),
                                  Quaternion.identity,
                                  Random.Range(0, 5) * Vector3.one, Random.ColorHSV());
            int recheckCount = 10;
            while (IsOverlapping(sp) && recheckCount > 0)
            {
                sp.transform.position = RandomPositionInBounds(worldBounds.bounds);
                recheckCount--;
            }

            if (r < 0)
            {
                spheres.Add(sp);
            }
            else
            {
                cubes.Add(sp);
            }
        }
    }
Esempio n. 20
0
 void IAction.Action()
 {
     if (TryGetComponent(out Renderer renderer))
     {
         renderer.material.color = Random.ColorHSV();
     }
 }
Esempio n. 21
0
    void Start()
    {
        var path = Path.Combine(Application.dataPath, fontDataPath);

        if (File.Exists(path))
        {
            var source = File.ReadAllText(path);

            fontData = JsonConvert.DeserializeObject <MSDFFontData>(source);

            MeshInfo info = MSDFTextMesh.GetMeshInfo("hello", fontData, true);
            Debug.Log(info.uvs.Length);
        }

        //numTextGroups = GetTextGroupCount();

        textSettings = new TextSettings[1];

        var text = "";

        for (var i = 0; i < textSettings.Length; ++i)
        {
            text            = quotes[Random.Range(0, quotes.Count)];
            textSettings[i] = new TextSettings(text, MSDFTextMesh.GetMeshInfo(text, fontData, true));
        }

        instanceMesh = CreateMesh();

        instanceMaterial = new Material(Shader.Find("Unlit/InstanceShader"));
        instanceMaterial.SetColor("_Color", Random.ColorHSV());
        instanceMaterial.SetTexture("_MainTex", msdfTexture);

        argsBuffer = new ComputeBuffer(1, args.Length * sizeof(uint), ComputeBufferType.IndirectArguments);
        UpdateBuffers();
    }
Esempio n. 22
0
    private void CreateCube(int x, int z)
    {
        GameObject cube = new GameObject("Cube", typeof(MeshFilter), typeof(MeshRenderer), typeof(BoxCollider));

        cube.GetComponent <MeshFilter>().mesh       = mesh;
        cube.GetComponent <MeshRenderer>().material = material;
        var tempMaterial = new Material(cube.GetComponent <MeshRenderer>().sharedMaterial);

        var localScaleOrig = cube.transform.localScale;

        cube.transform.parent = cubeContainer.transform;
        var transformPosition = cube.transform.position;

        transformPosition = new Vector3(x, transformPosition.y, z);
        localScaleOrig    = new Vector3(localScaleOrig.x + scale - 1, localScaleOrig.y, localScaleOrig.z + scale - 1);

        var localScaleNew = localScaleOrig;
        var position      = transformPosition;

        float randomHeight = Random.Range(minHeight, maxHeight);

        localScaleOrig            = new Vector3(localScaleNew.x, randomHeight, localScaleNew.x);
        cube.transform.localScale = localScaleOrig;
        transformPosition         = new Vector3(position.x, randomHeight / 2, position.z);
        cube.transform.position   = transformPosition;

        Color color = Random.ColorHSV(colorHueMin, colorHueMax, colorSatMin, colorSatMax, colorValMin, colorValMax);

        tempMaterial.color = color;
        cube.GetComponent <MeshRenderer>().sharedMaterial = tempMaterial;

        objects.Add(cube);
    }
Esempio n. 23
0
        public void SetupPlayer()
        {
            BoltLog.Info("SetupPlayer");

            localPlayer = this;

            nameInput.interactable = true;
            remoteIcone.gameObject.SetActive(false);
            localIcone.gameObject.SetActive(true);

            removePlayerButton.gameObject.SetActive(false);
            removePlayerButton.interactable = false;

            ChangeReadyButtonColor(JoinColor);

            readyButton.transform.GetChild(0).GetComponent <Text>().text = "JOIN";
            readyButton.interactable = true;

            //we switch from simple name display to name input
            colorButton.interactable = true;
            nameInput.interactable   = true;

            nameInput.onEndEdit.RemoveAllListeners();
            //            nameInput.onEndEdit.AddListener((text => { playerName = text; }));

            colorButton.onClick.RemoveAllListeners();
            colorButton.onClick.AddListener(() => { playerColor = Random.ColorHSV(); });

            readyButton.onClick.RemoveAllListeners();
            readyButton.onClick.AddListener(OnReadyClicked);

            OnClientReady(state.Ready);
        }
Esempio n. 24
0
    private void CreateSnake(int snakeSize, Vector3 position, bool changeColor)
    {
        _snakeSegmentList = new List <SnakeBodyPart>();

        if (changeColor)
        {
            _tailColor = Random.ColorHSV();
        }

        for (int i = 0; i < snakeSize - 1; i++)
        {
            var tailInstance = Instantiate(_snakeTailPrefab, position, Quaternion.identity);
            tailInstance.LastPostion = position;
            tailInstance.SetOnCollisionCallback(OnTailCollision);
            tailInstance.transform.SetParent(this.transform);
            position.x += size;
            tailInstance.SetColor(_tailColor);
            _snakeSegmentList.Add(tailInstance);
        }

        var headInstance = Instantiate(_snakeHeadPrefab, position, Quaternion.identity);

        headInstance.SetOnCollisionCallback(OnHeadCollision);
        headInstance.transform.SetParent(this.transform);
        _snakeSegmentList.Insert(0, headInstance);
    }
Esempio n. 25
0
 private void Start()
 {
     if (_back)
     {
         _back.color = Random.ColorHSV();
     }
 }
Esempio n. 26
0
    private void SetUpScene()
    {
        List <Sphere> spheres = new List <Sphere>();

        // Add a number of random spheres
        for (int i = 0; i < SpheresMax; i++)
        {
            Sphere sphere = new Sphere();
            // Radius and radius
            sphere.radius = SphereRadius.x + Random.value * (SphereRadius.y - SphereRadius.x);
            Vector2 randomPos = Random.insideUnitCircle * SpherePlacementRadius;
            sphere.position = new Vector3(randomPos.x, sphere.radius, randomPos.y);
            // Reject spheres that are intersecting others
            foreach (Sphere other in spheres)
            {
                float minDist = sphere.radius + other.radius;
                if (Vector3.SqrMagnitude(sphere.position - other.position) < minDist * minDist)
                {
                    goto SkipSphere;
                }
            }
            // Albedo and specular color
            Color color = Random.ColorHSV();
            bool  metal = Random.value < 0.5f;
            sphere.albedo   = metal ? Vector3.zero : new Vector3(color.r, color.g, color.b);
            sphere.specular = metal ? new Vector3(color.r, color.g, color.b) : Vector3.one * 0.04f;
            // Add the sphere to the list
            spheres.Add(sphere);
SkipSphere:
            continue;
        }
        // Assign to compute buffer
        _sphereBuffer = new ComputeBuffer(spheres.Count, 40);
        _sphereBuffer.SetData(spheres);
    }
Esempio n. 27
0
        void Start()
        {
            _sprite  = GetComponent <SpriteRenderer>();
            hueIndex = 0f;

            if (IsRoot())
            {
                deadCleanup = Random.Range(info.deadCleanupInterval.x, info.deadCleanupInterval.y);
                baseScale   = Random.Range(info.startScale.x, info.startScale.y);
                seeds       = Mathf.CeilToInt(Random.Range(info.startSeeds.x, info.startSeeds.y));
#if UNITY_EDITOR
                hueIndex = Utils.Remap(sea.debugLight, 0f, 1000f, 0f, 1f);;
#else
                hueIndex = Utils.Remap(sea.lightSensorData.value, 0f, 1000f, 0f, 1f);
#endif
            }
            else
            {
                deadCleanup = parent.deadCleanup;
                baseScale   = 1f * info.branchScaleDecay;
                hueIndex    = parent.hueIndex;
            }
            transform.localScale = Vector3.one * baseScale;
            chanceToBranch       = 0f;
            chanceToStop         = 0f;
            hasStopped           = false;
            nextRollTime         = CalculateTimeToNextRoll();
            health = 1f;
            isDead = false;
            // color calculations for this coral piece
            float value = 1f - Utils.Remap(depthLevel, 0f, info.maxDepthLevel, 0.2f, 0.8f);
            _sprite.color            = Random.ColorHSV(hueIndex, hueIndex, saturation.x, saturation.y, value, value);
            _sprite.sortingLayerName = "Alive";
        }
Esempio n. 28
0
    private void SetUpScene()
    {
        Random.InitState(SphereSeed);
        List <Sphere> spheres = new List <Sphere>();

        // Add a number of random spheres
        for (int i = 0; i < SpheresMax; i++)
        {
            Sphere sphere = new Sphere();

            // Radius and radius
            sphere.radius = SphereRadius.x + Random.value * (SphereRadius.y - SphereRadius.x);
            Vector2 randomPos = Random.insideUnitCircle * SpherePlacementRadius;
            sphere.position = new Vector3(randomPos.x, sphere.radius, randomPos.y);

            // Reject spheres that are intersecting others
            foreach (Sphere other in spheres)
            {
                float minDist = sphere.radius + other.radius;
                if (Vector3.SqrMagnitude(sphere.position - other.position) < minDist * minDist)
                {
                    goto SkipSphere;
                }
            }

            // Albedo and specular color
            Color color  = Random.ColorHSV();
            float chance = Random.value;
            if (chance < 0.8f)
            {
                bool metal = chance < 0.4f;
                sphere.albedo     = metal ? Vector4.zero : new Vector4(color.r, color.g, color.b);
                sphere.specular   = metal ? new Vector4(color.r, color.g, color.b) : new Vector4(0.04f, 0.04f, 0.04f);
                sphere.smoothness = Random.value;
            }
            else
            {
                Color emission = Random.ColorHSV(0, 1, 0, 1, 3.0f, 8.0f);
                sphere.emission = new Vector3(emission.r, emission.g, emission.b);
            }

            // Add the sphere to the list
            spheres.Add(sphere);

SkipSphere:
            continue;
        }

        // Assign to compute buffer
        if (_sphereBuffer != null)
        {
            _sphereBuffer.Release();
        }
        if (spheres.Count > 0)
        {
            _sphereBuffer = new ComputeBuffer(spheres.Count, 56);
            _sphereBuffer.SetData(spheres);
        }
    }
 private static Color RandomColor()
 {
     return(Random.ColorHSV(
                hueMin:        0f, hueMax:        1f,
                saturationMin: 0.5f, saturationMax: 1f,
                valueMin:      0.8f, valueMax:      1f
                ));
 }
Esempio n. 30
0
 public void Action()
 {
     _color = Random.ColorHSV();
     if (TryGetComponent(out Renderer renderer))
     {
         renderer.material.color = _color;
     }
 }