public void generate() { // Get the terrain data of the currently active terrain var terrainData = Terrain.activeTerrain.terrainData; // A new ridged multifractal generator var generator = new RidgedMultifractal(frequency, lacu, octaves, (int)(Random.value * 0xffffff), QualityMode.High); // The thresholded output -- choose either 0.0 or 1.0, based on the output var clamped = new LibNoise.Operator.Select(new Const(0.0f), new Const(1.0f), generator); // Set the threshold and falloff rate clamped.SetBounds(0f, threshold); clamped.FallOff = falloff; // Create a 2D noise generator for the terrain heightmap, using the generator we just created var noise = new Noise2D(terrainData.heightmapResolution, clamped); // Generate a plane from [0, 1] on x, [0, 1] on y noise.GeneratePlanar(0, 1, 0, 1); // Get the data in an array so we can use it to set the heights // var data = noise.GetData(true, 0, 0, true); var data = noise.GetNormalizedData(); // .. and actually set the heights terrainData.SetHeights(0, 0, data); }
private static List<LoadedModule> GetModules(XmlNodeList moduleList) { List<LoadedModule> loadedModules = new List<LoadedModule>(); foreach (XmlNode node in moduleList) { string id = node.Attributes["guid"].Value; Point position = new Point(double.Parse(node.Attributes["position"].Value.Split(',')[0]), double.Parse(node.Attributes["position"].Value.Split(',')[1])); ModuleBase module = null; List<string> links = new List<string>(); switch (node.Attributes["type"].Value) { case "Billow": Billow billow = new Billow(); billow.Frequency = double.Parse(node.SelectSingleNode("Frequency").InnerText); billow.Lacunarity = double.Parse(node.SelectSingleNode("Lacunarity").InnerText); billow.OctaveCount = int.Parse(node.SelectSingleNode("OctaveCount").InnerText); billow.Persistence = double.Parse(node.SelectSingleNode("Persistence").InnerText); billow.Quality = (QualityMode)Enum.Parse(typeof(QualityMode), node.SelectSingleNode("Quality").InnerText); billow.Seed = int.Parse(node.SelectSingleNode("Seed").InnerText); module = billow; break; case "Checker": module = new Checker(); break; case "Const": Const con = new Const(); con.Value = double.Parse(node.SelectSingleNode("Value").InnerText); module = con; break; case "Cylinders": Cylinders cylinder = new Cylinders(); cylinder.Frequency = double.Parse(node.SelectSingleNode("Frequency").InnerText); module = cylinder; break; case "Perlin": Perlin perlin = new Perlin(); perlin.Frequency = double.Parse(node.SelectSingleNode("Frequency").InnerText); perlin.Lacunarity = double.Parse(node.SelectSingleNode("Lacunarity").InnerText); perlin.OctaveCount = int.Parse(node.SelectSingleNode("OctaveCount").InnerText); perlin.Persistence = double.Parse(node.SelectSingleNode("Persistence").InnerText); perlin.Quality = (QualityMode)Enum.Parse(typeof(QualityMode), node.SelectSingleNode("Quality").InnerText); perlin.Seed = int.Parse(node.SelectSingleNode("Seed").InnerText); module = perlin; break; case "RidgedMultifractal": RidgedMultifractal ridgedMF = new RidgedMultifractal(); ridgedMF.Frequency = double.Parse(node.SelectSingleNode("Frequency").InnerText); ridgedMF.Lacunarity = double.Parse(node.SelectSingleNode("Lacunarity").InnerText); ridgedMF.OctaveCount = int.Parse(node.SelectSingleNode("OctaveCount").InnerText); ridgedMF.Quality = (QualityMode)Enum.Parse(typeof(QualityMode), node.SelectSingleNode("Quality").InnerText); ridgedMF.Seed = int.Parse(node.SelectSingleNode("Seed").InnerText); module = ridgedMF; break; case "Spheres": Spheres spheres = new Spheres(); spheres.Frequency = double.Parse(node.SelectSingleNode("Frequency").InnerText); module = spheres; break; case "Voronoi": Voronoi voronoi = new Voronoi(); voronoi.Frequency = double.Parse(node.SelectSingleNode("Frequency").InnerText); voronoi.Displacement = double.Parse(node.SelectSingleNode("Displacement").InnerText); voronoi.UseDistance = bool.Parse(node.SelectSingleNode("UseDistance").InnerText); voronoi.Seed = int.Parse(node.SelectSingleNode("Seed").InnerText); module = voronoi; break; case "Abs": module = new Abs(); XmlNode absInputs = node.SelectSingleNode("ModuleInputs"); links.Add(absInputs.SelectSingleNode("Input").InnerText); break; case "Add": module = new Add(); XmlNode addInputs = node.SelectSingleNode("ModuleInputs"); links.Add(addInputs.SelectSingleNode("Left").InnerText); links.Add(addInputs.SelectSingleNode("Right").InnerText); break; case "Blend": module = new Blend(); XmlNode blendInputs = node.SelectSingleNode("ModuleInputs"); links.Add(blendInputs.SelectSingleNode("Left").InnerText); links.Add(blendInputs.SelectSingleNode("Right").InnerText); links.Add(blendInputs.SelectSingleNode("Operator").InnerText); break; case "Cache": module = new Cache(); XmlNode cacheInputs = node.SelectSingleNode("ModuleInputs"); links.Add(cacheInputs.SelectSingleNode("Input").InnerText); break; case "Clamp": Clamp clamp = new Clamp(); clamp.Maximum = double.Parse(node.SelectSingleNode("Maximum").InnerText); clamp.Minimum = double.Parse(node.SelectSingleNode("Minimum").InnerText); module = clamp; XmlNode clampInputs = node.SelectSingleNode("ModuleInputs"); links.Add(clampInputs.SelectSingleNode("Input").InnerText); break; case "Curve": Curve curve = new Curve(); module = curve; foreach (XmlNode cpNode in node.SelectSingleNode("ControlPoints").ChildNodes) { double x = double.Parse(cpNode.InnerText.Split(',')[0]); double y = double.Parse(cpNode.InnerText.Split(',')[1]); curve.Add(x, y); } XmlNode curveInputs = node.SelectSingleNode("ModuleInputs"); links.Add(curveInputs.SelectSingleNode("Input").InnerText); break; case "Displace": module = new Displace(); XmlNode displaceInputs = node.SelectSingleNode("ModuleInputs"); links.Add(displaceInputs.SelectSingleNode("Primary").InnerText); links.Add(displaceInputs.SelectSingleNode("X").InnerText); links.Add(displaceInputs.SelectSingleNode("Y").InnerText); links.Add(displaceInputs.SelectSingleNode("Z").InnerText); break; case "Exponent": Exponent exponent = new Exponent(); exponent.Value = double.Parse(node.SelectSingleNode("Value").InnerText); module = exponent; XmlNode exponentInputs = node.SelectSingleNode("ModuleInputs"); links.Add(exponentInputs.SelectSingleNode("Input").InnerText); break; case "Invert": module = new Invert(); XmlNode invertInputs = node.SelectSingleNode("ModuleInputs"); links.Add(invertInputs.SelectSingleNode("Input").InnerText); break; case "Max": module = new Max(); XmlNode maxInputs = node.SelectSingleNode("ModuleInputs"); links.Add(maxInputs.SelectSingleNode("Left").InnerText); links.Add(maxInputs.SelectSingleNode("Right").InnerText); break; case "Min": module = new Min(); XmlNode minInputs = node.SelectSingleNode("ModuleInputs"); links.Add(minInputs.SelectSingleNode("Left").InnerText); links.Add(minInputs.SelectSingleNode("Right").InnerText); break; case "Multiply": module = new Multiply(); XmlNode multiplyInputs = node.SelectSingleNode("ModuleInputs"); links.Add(multiplyInputs.SelectSingleNode("Left").InnerText); links.Add(multiplyInputs.SelectSingleNode("Right").InnerText); break; case "Power": module = new Power(); XmlNode powerInputs = node.SelectSingleNode("ModuleInputs"); links.Add(powerInputs.SelectSingleNode("Left").InnerText); links.Add(powerInputs.SelectSingleNode("Right").InnerText); break; case "Rotate": Rotate rotate = new Rotate(); rotate.X = double.Parse(node.SelectSingleNode("X").InnerText); rotate.Y = double.Parse(node.SelectSingleNode("Y").InnerText); rotate.Z = double.Parse(node.SelectSingleNode("Z").InnerText); module = rotate; XmlNode rotateInputs = node.SelectSingleNode("ModuleInputs"); links.Add(rotateInputs.SelectSingleNode("Input").InnerText); break; case "Scale": Scale scale = new Scale(); scale.X = double.Parse(node.SelectSingleNode("X").InnerText); scale.Y = double.Parse(node.SelectSingleNode("Y").InnerText); scale.Z = double.Parse(node.SelectSingleNode("Z").InnerText); module = scale; XmlNode scaleInputs = node.SelectSingleNode("ModuleInputs"); links.Add(scaleInputs.SelectSingleNode("Input").InnerText); break; case "ScaleBias": ScaleBias scaleBias = new ScaleBias(); scaleBias.Scale = double.Parse(node.SelectSingleNode("Scale").InnerText); scaleBias.Bias = double.Parse(node.SelectSingleNode("Bias").InnerText); module = scaleBias; XmlNode scaleBiasInputs = node.SelectSingleNode("ModuleInputs"); links.Add(scaleBiasInputs.SelectSingleNode("Input").InnerText); break; case "Select": Select select = new Select(); select.Minimum = double.Parse(node.SelectSingleNode("Minimum").InnerText); select.Maximum = double.Parse(node.SelectSingleNode("Maximum").InnerText); select.FallOff = double.Parse(node.SelectSingleNode("FallOff").InnerText); module = select; XmlNode selectInputs = node.SelectSingleNode("ModuleInputs"); links.Add(selectInputs.SelectSingleNode("Primary").InnerText); links.Add(selectInputs.SelectSingleNode("Secondary").InnerText); links.Add(selectInputs.SelectSingleNode("Controller").InnerText); break; case "Subtract": module = new Subtract(); XmlNode subtractInputs = node.SelectSingleNode("ModuleInputs"); links.Add(subtractInputs.SelectSingleNode("Left").InnerText); links.Add(subtractInputs.SelectSingleNode("Right").InnerText); break; case "Terrace": Terrace terrace = new Terrace(); module = terrace; foreach (XmlNode cpNode in node.SelectSingleNode("ControlPoints").ChildNodes) { terrace.Add(double.Parse(cpNode.InnerText)); } XmlNode terraceInputs = node.SelectSingleNode("ModuleInputs"); links.Add(terraceInputs.SelectSingleNode("Input").InnerText); break; case "Translate": Translate translate = new Translate(); translate.X = double.Parse(node.SelectSingleNode("X").InnerText); translate.Y = double.Parse(node.SelectSingleNode("Y").InnerText); translate.Z = double.Parse(node.SelectSingleNode("Z").InnerText); module = translate; XmlNode translateInputs = node.SelectSingleNode("ModuleInputs"); links.Add(translateInputs.SelectSingleNode("Input").InnerText); break; case "Turbulence": Turbulence turbulence = new Turbulence(); turbulence.Frequency = double.Parse(node.SelectSingleNode("Frequency").InnerText); turbulence.Power = double.Parse(node.SelectSingleNode("Power").InnerText); turbulence.Roughness = int.Parse(node.SelectSingleNode("Roughness").InnerText); turbulence.Seed = int.Parse(node.SelectSingleNode("Seed").InnerText); module = turbulence; XmlNode turbulenceInputs = node.SelectSingleNode("ModuleInputs"); links.Add(turbulenceInputs.SelectSingleNode("Input").InnerText); break; case "Final": module = new Final(); XmlNode finalInputs = node.SelectSingleNode("ModuleInputs"); links.Add(finalInputs.SelectSingleNode("Input").InnerText); break; default: break; } LoadedModule lm = new LoadedModule(id, module, position, links); loadedModules.Add(lm); } return loadedModules; }