tool extends EditorPlugin const MdiGizmoPlugin = preload("res://addons/mesh_data_resource_editor/MDIGizmoPlugin.gd") const MDIEdGui = preload("res://addons/mesh_data_resource_editor/MDIEd.tscn") var gizmo_plugin = MdiGizmoPlugin.new() var mdi_ed_gui : Control var active_gizmos : Array var current_mesh_data_instance : MeshDataInstance = null func _enter_tree(): #print("_enter_tree") gizmo_plugin = MdiGizmoPlugin.new() mdi_ed_gui = MDIEdGui.instance() mdi_ed_gui.plugin = self active_gizmos = [] gizmo_plugin.plugin = self add_control_to_container(EditorPlugin.CONTAINER_SPATIAL_EDITOR_SIDE_RIGHT, mdi_ed_gui) mdi_ed_gui.hide() add_spatial_gizmo_plugin(gizmo_plugin) set_input_event_forwarding_always_enabled() func _exit_tree(): #print("_exit_tree") remove_spatial_gizmo_plugin(gizmo_plugin) #remove_control_from_container(EditorPlugin.CONTAINER_SPATIAL_EDITOR_SIDE_RIGHT, mdi_ed_gui) mdi_ed_gui.queue_free() pass #func enable_plugin(): # print("enable_plugin") # pass # #func disable_plugin(): # print("disable_plugin") # remove_spatial_gizmo_plugin(gizmo_plugin) # remove_control_from_container(EditorPlugin.CONTAINER_SPATIAL_EDITOR_SIDE_RIGHT, mdi_ed_gui) # mdi_ed_gui.queue_free() func handles(object): #print("disable_plugin") if object is MeshDataInstance: return true return false func edit(object): var mdi : MeshDataInstance = object as MeshDataInstance current_mesh_data_instance = mdi if mdi: mdi_ed_gui.set_mesh_data_resource(mdi.mesh_data) func make_visible(visible): #print("make_visible") if visible: mdi_ed_gui.show() else: #mdi_ed_gui.hide() #figure out how to hide it when something else gets selected, don't hide on unselect pass func get_plugin_name(): return "mesh_data_resource_editor" #func forward_spatial_gui_input(camera, event): # return forward_spatial_gui_input(0, camera, event) func register_gizmo(gizmo): active_gizmos.append(gizmo) func unregister_gizmo(gizmo): for i in range(active_gizmos.size()): if active_gizmos[i] == gizmo: active_gizmos.remove(i) return func set_translate(on : bool) -> void: for g in active_gizmos: g.set_translate(on) func set_scale(on : bool) -> void: for g in active_gizmos: g.set_scale(on) func set_rotate(on : bool) -> void: for g in active_gizmos: g.set_rotate(on) func set_axis_x(on : bool) -> void: for g in active_gizmos: g.set_axis_x(on) func set_axis_y(on : bool) -> void: for g in active_gizmos: g.set_axis_y(on) func set_axis_z(on : bool) -> void: for g in active_gizmos: g.set_axis_z(on) func uv_unwrap() -> void: var mdr : MeshDataResource = null if current_mesh_data_instance && current_mesh_data_instance.mesh_data: #current_mesh_data_instance.mesh_data.uv_unwrap() mdr = current_mesh_data_instance.mesh_data if !mdr: return var mesh : Array = mdr.get_array() # partition the meshes along the already existing seams (no new vertices) var partitioned_meshes : Array = partition_mesh(mesh) for m in partitioned_meshes: #m.print() m.unwrap() class STriangle: var i1 : int = 0 var i2 : int = 0 var i3 : int = 0 var index : int = 0 var v1 : Vector3 var v2 : Vector3 var v3 : Vector3 var vn1 : Vector3 var vn2 : Vector3 var vn3 : Vector3 var uv1 : Vector2 var uv2 : Vector2 var uv3 : Vector2 var n1 : Vector3 var n2 : Vector3 var n3 : Vector3 var neighbour_v1_v2 : int = -1 var neighbour_v2_v3 : int = -1 var neighbour_v1_v3 : int = -1 var face_normal : Vector3 var basis : Basis func set_indices(pi1 : int, pi2 : int, pi3 : int, pindex : int): i1 = pi1 i2 = pi2 i3 = pi3 index = pindex func set_vertices(pv1 : Vector3, pv2 : Vector3, pv3 : Vector3): v1 = pv1 v2 = pv2 v3 = pv3 #for debugging func set_normals(pn1 : Vector3, pn2 : Vector3, pn3 : Vector3): n1 = pn1 n2 = pn2 n3 = pn3 func is_neighbour(pi1 : int, pi2 : int, pi3 : int) -> bool: var c : int = 0 if i1 == pi1 || i1 == pi2 || i1 == pi3: c += 1 if i2 == pi1 || i2 == pi2 || i2 == pi3: c += 1 if i3 == pi1 || i3 == pi2 || i3 == pi3: c += 1 if c >= 1: return true else: return false func project_vertices() -> void: vn3 = v3 - v2 vn1 = v1 - v2 vn2 = Vector3() #v2 - v2 face_normal = vn1.cross(vn3).normalized() # face normal has to end up the y coordinate in the world coordinate system a.k.a 0 1 0 # then triangle is in x, z plane basis = Basis(vn1.normalized(), face_normal, vn3.normalized()) basis = basis.orthonormalized() vn1 = basis.xform_inv(vn1) vn2 = basis.xform_inv(vn2) vn3 = basis.xform_inv(vn3) #these are not real uvs yet, just projections of the vertices to a 2d plane (v2 is at the origin) #where the plane is parallel to our triangle uv1 = Vector2(vn1.x, vn1.z) uv2 = Vector2(vn2.x, vn2.z) uv3 = Vector2(vn3.x, vn3.z) func has_edge(pi1 : int, pi2 : int): if i1 == pi1 || i2 == pi1 || i3 == pi1: if i1 == pi2 || i2 == pi2 || i3 == pi2: return true return false func print(): print("[ Tri: " + str(i1) + ", " + str(i2) + ", " + str(i3) + ", " + str(index) + " ]") func print_verts(): print("[ Tri vets: " + str(v1) + ", " + str(v2) + ", " + str(v3) + " ]") func print_nverts(): print("[ Tri nvets: " + str(vn1) + ", " + str(vn2) + ", " + str(vn3) + " ]") func print_uvs(): print("[ Tri uvs: " + str(uv1) + ", " + str(uv2) + ", " + str(uv3) + " ]") func print_normals(): print("[ Tri normals: " + str(n1) + ", " + str(n2) + ", " + str(n3) + " ]") func print_neighbours(): print("[ Tri neighbours: " + str(neighbour_v1_v2) + ", " + str(neighbour_v2_v3) + ", " + str(neighbour_v1_v3) + " ]") class SMesh: var indices : PoolIntArray var vertices : PoolVector3Array var uvs : PoolVector2Array var triangles : Array func is_triangle_neighbour(tri : STriangle) -> bool: for t in triangles: if t.is_neighbour(tri.i1, tri.i2, tri.i3): return true return false func try_to_merge(o : SMesh) -> bool: for t in o.triangles: if is_triangle_neighbour(t): triangles.append_array(o.triangles) return true return false func unwrap(): project_vertices() find_neighbours() func project_vertices(): for t in triangles: t.project_vertices() func find_neighbours(): for i in range(triangles.size()): var t = triangles[i] t.neighbour_v1_v2 = find_neighbour(i, t.i1, t.i2) t.neighbour_v2_v3 = find_neighbour(i, t.i2, t.i3) t.neighbour_v1_v3 = find_neighbour(i, t.i1, t.i3) func find_neighbour(current_index : int, i1 : int, i2 : int): for i in range(triangles.size()): if current_index == i: continue if triangles[i].has_edge(i1, i2): return i return -1 func print(): print("[ SMesh:") for t in triangles: t.print() print("]") func partition_mesh(mesh : Array) -> Array: var meshes : Array = Array() if mesh.size() != ArrayMesh.ARRAY_MAX: return meshes var vertices : PoolVector3Array = mesh[ArrayMesh.ARRAY_VERTEX] #for debugging var normals : PoolVector3Array = mesh[ArrayMesh.ARRAY_NORMAL] var indices : PoolIntArray = mesh[ArrayMesh.ARRAY_INDEX] if vertices.size() == 0: return meshes if indices.size() == 0: return meshes var tricount : int = indices.size() / 3 for it in range(tricount): var iit : int = it * 3 var tri : STriangle = STriangle.new() tri.set_indices(indices[iit], indices[iit + 1], indices[iit + 2], it) tri.set_vertices(vertices[indices[iit]], vertices[indices[iit + 1]], vertices[indices[iit + 2]]) tri.set_normals(normals[indices[iit]], normals[indices[iit + 1]], normals[indices[iit + 2]]) var found : bool = false for m in meshes: if m.is_triangle_neighbour(tri): m.triangles.append(tri) found = true break if !found: var sm : SMesh = SMesh.new() sm.triangles.append(tri) meshes.append(sm) var changed : bool = true while changed: changed = false for i in range(meshes.size() - 1): if meshes[i].try_to_merge(meshes[i + 1]): changed = true meshes.remove(i + 1) break for m in meshes: m.vertices = vertices m.indices = indices m.uvs.resize(vertices.size()) return meshes #func forward_spatial_gui_input(camera, event): # for g in active_gizmos: # if g.forward_spatial_gui_input(0, camera, event): # return true # # return false func forward_spatial_gui_input(index, camera, event): for g in active_gizmos: if g.forward_spatial_gui_input(index, camera, event): return true return false