extends MeshInstance var Point = preload("res://point.tscn") var TopoLoader = preload("res://TopoLoader.gd") var TextureLoader = preload("res://TextureLoader.gd") #var grid = load("res://tex/grid.png") var latMin:float = 0 var latMax:float = 1 var lonMin:float = 0.0 var lonMax:float = 1.0 var resolution:int = 512 var radius:float = 10 var origin:Vector3 func setParams(latMinIN, latMaxIN, lonMinIN, lonMaxIN, resolutionIN, radiusIN:float): latMin = latMinIN latMax = latMaxIN lonMin = lonMinIN lonMax = lonMaxIN resolution = resolutionIN radius = radiusIN func _ready(): pass #genMesh called from chunk #self.genMesh() func genMesh(): #print("generating Mesh:") #print("latMin: " + str(latMin)) #print("latMax: " + str(latMax)) #print("lonMin: " + str(lonMin)) #print("lonMax: " + str(lonMax)) #print("resolution: " + str(resolution)) var verts = convertToCartesian(genSphereCoords()) var arr = [] arr.resize(Mesh.ARRAY_MAX) arr[Mesh.ARRAY_VERTEX] = verts arr[Mesh.ARRAY_TEX_UV] = genUV() arr[Mesh.ARRAY_NORMAL] = genNormals(verts) arr[Mesh.ARRAY_INDEX] = genIndex() mesh = Mesh.new() mesh.add_surface_from_arrays(Mesh.PRIMITIVE_TRIANGLES, arr) var mat = SpatialMaterial.new() #mat.albedo_color = Color(0.7,0.7,0.7,1) var texl = TextureLoader.new() mat.albedo_texture = texl.loadTexture(latMin, lonMin) mesh.surface_set_material(0,mat) .create_trimesh_collision() var drawBubbles = false if drawBubbles: var i = 0.0 for vert in verts: var point = Point.instance() point.translate(vert) var pointMat = SpatialMaterial.new()#point.mesh.surface_get_material(0) mat.albedo_color = Color(i,0,0,1) i+=0.1 point.mesh.surface_set_material(0,pointMat) .get_parent().add_child(point) func genNormals(verts:PoolVector3Array): var normals = PoolVector3Array() normals.resize(len(verts)) var v_idx = 0 for vert in verts: normals[v_idx] = vert.normalized() v_idx+=1 #print("normals") #print(len(normals)) return normals func genUV(): var uvs = PoolVector2Array() uvs.resize((resolution+1) * (resolution+1)) var v_idx = 0 for _y in range(0,resolution+1): for _x in range(0,resolution+1): var y = float(_y) var x = float(_x) var devider = float(resolution+1) uvs[v_idx] = Vector2(x/devider,1-(y/devider)) v_idx+=1 #for v_idx in range(0,(resolution+1) * (resolution+1)): # var y = v_idx / resolution # var x = v_idx % resolution # uvs[v_idx]=Vector2(clamp(x, 0, resolution),clamp(y, 0, resolution)) #print("uv") #print(len(uvs)) return uvs func genIndex(): var indices = PoolIntArray() indices.resize(6* ((resolution) * (resolution))) var i_idx = 0 for row in range(0, resolution): for col in range(0,resolution): var v_idx = row*(resolution+1)+col indices[i_idx] = v_idx i_idx+=1 indices[i_idx] = v_idx + resolution +1 i_idx+=1 indices[i_idx] = v_idx + 1 i_idx+=1 indices[i_idx] = v_idx + resolution+1 i_idx+=1 indices[i_idx] = v_idx + resolution + 2 i_idx+=1 indices[i_idx] = v_idx + 1 i_idx+=1 #print("indices") #print(len(indices)) return indices func genSphereCoords(): var tl = TopoLoader.new() add_child(tl) tl.open(latMin, lonMin) tl.cacheArea(latMin, latMax, lonMin, lonMax) var verts = PoolVector3Array() var size = (resolution+1) * (resolution+1)#(lonMax-lonMin)*resolution * (latMax-latMin)*resolution verts.resize(size) var lonStep = (lonMax - lonMin)/resolution var latStep = (latMax - latMin)/resolution var v_idx = 0 for y in range(0,resolution+1): for x in range(0,resolution+1): var lat = latMin+latStep*y var lon = lonMin+lonStep*x verts[v_idx] = Vector3(lat, lon, radius+tl.read(lat,lon)) v_idx+=1 tl.close() return verts func convertToCartesian(verts:PoolVector3Array): var carVerts = PoolVector3Array() carVerts.resize(len(verts)) var v_idx = 0 for vert in verts: if not origin: origin = vert carVerts[v_idx] = Common.latLonToGlobal(vert, Vector3())#, origin) v_idx+=1 #print("Cartesian") #print(len(carVerts)) return carVerts