# MIT License # # Copyright (c) 2023 Mark McKay # https://github.com/blackears/cyclopsLevelBuilder # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in all # copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. @tool extends CyclopsTool class_name ToolCylinder const TOOL_ID:String = "cylinder" enum ToolState { READY, FIRST_RING, SECOND_RING, DRAG_HEIGHT } var tool_state:ToolState = ToolState.READY #@export var segments:int = 16 #@export var tube:bool = false var settings:ToolCylinderSettings = ToolCylinderSettings.new() var floor_normal:Vector3 var base_center:Vector3 var block_drag_cur:Vector3 var drag_offset:Vector3 var first_ring_radius:float var second_ring_radius:float func _activate(builder:CyclopsLevelBuilder): super._activate(builder) builder.mode = CyclopsLevelBuilder.Mode.OBJECT var global_scene:CyclopsGlobalScene = builder.get_global_scene() global_scene.clear_tool_mesh() func _get_tool_properties_editor()->Control: var res_insp:ResourceInspector = preload("res://addons/cyclops_level_builder/controls/resource_inspector/resource_inspector.tscn").instantiate() res_insp.target = settings return res_insp func _draw_tool(viewport_camera:Camera3D): var global_scene:CyclopsGlobalScene = builder.get_global_scene() global_scene.clear_tool_mesh() global_scene.draw_selected_blocks(viewport_camera) if tool_state == ToolState.FIRST_RING: var bounding_points:PackedVector3Array = MathUtil.create_circle_points(base_center, floor_normal, first_ring_radius, settings.segments) global_scene.draw_loop(bounding_points, true, global_scene.tool_material) global_scene.draw_points(bounding_points, global_scene.tool_material) elif tool_state == ToolState.SECOND_RING: for radius in [first_ring_radius, second_ring_radius]: var bounding_points:PackedVector3Array = MathUtil.create_circle_points(base_center, floor_normal, radius, settings.segments) global_scene.draw_loop(bounding_points, true, global_scene.tool_material) global_scene.draw_points(bounding_points, global_scene.tool_material) elif tool_state == ToolState.DRAG_HEIGHT: var bounding_points:PackedVector3Array = MathUtil.create_circle_points(base_center, floor_normal, first_ring_radius, settings.segments) global_scene.draw_prism(bounding_points, drag_offset, global_scene.tool_material) if settings.tube: bounding_points = MathUtil.create_circle_points(base_center, floor_normal, second_ring_radius, settings.segments) global_scene.draw_prism(bounding_points, drag_offset, global_scene.tool_material) func _gui_input(viewport_camera:Camera3D, event:InputEvent)->bool: if !builder.active_node is CyclopsBlocks: return false var blocks_root:CyclopsBlocks = self.builder.active_node var grid_step_size:float = pow(2, builder.get_global_scene().grid_size) if event is InputEventKey: var e:InputEventKey = event if e.keycode == KEY_ESCAPE: if e.is_pressed(): tool_state = ToolState.READY return true elif event is InputEventMouseButton: var e:InputEventMouseButton = event if e.button_index == MOUSE_BUTTON_LEFT: if e.is_pressed(): var origin:Vector3 = viewport_camera.project_ray_origin(e.position) var dir:Vector3 = viewport_camera.project_ray_normal(e.position) if tool_state == ToolState.READY: tool_state = ToolState.FIRST_RING first_ring_radius = 0 second_ring_radius = 0 var result:IntersectResults = blocks_root.intersect_ray_closest(origin, dir) if result: #print("init base point block") floor_normal = result.normal var p:Vector3 = to_local(result.position, blocks_root.global_transform.inverse(), grid_step_size) base_center = p return true else: #print("init base point empty space") floor_normal = Vector3.UP var start_pos:Vector3 = origin + builder.block_create_distance * dir var p:Vector3 = to_local(start_pos, blocks_root.global_transform.inverse(), grid_step_size) base_center = p return true else: if tool_state == ToolState.FIRST_RING: if settings.tube: tool_state = ToolState.SECOND_RING else: tool_state = ToolState.DRAG_HEIGHT return true elif tool_state == ToolState.SECOND_RING: tool_state = ToolState.DRAG_HEIGHT return true elif tool_state == ToolState.DRAG_HEIGHT: #Create shape var cmd:CommandAddCylinder = CommandAddCylinder.new() cmd.builder = builder #cmd.block_name = GeneralUtil.find_unique_name(builder.active_node, "Block_") cmd.block_name_prefix = "Block_" cmd.blocks_root_path = blocks_root.get_path() cmd.tube = settings.tube cmd.origin = base_center cmd.axis_normal = floor_normal cmd.height = drag_offset.length() if drag_offset.dot(floor_normal) > 0 else - drag_offset.length() if settings.tube: cmd.radius_inner = min(first_ring_radius, second_ring_radius) cmd.radius_outer = max(first_ring_radius, second_ring_radius) else: cmd.radius_inner = first_ring_radius cmd.radius_outer = first_ring_radius cmd.segments = settings.segments cmd.uv_transform = builder.tool_uv_transform cmd.material_path = builder.tool_material_path var undo:EditorUndoRedoManager = builder.get_undo_redo() cmd.add_to_undo_manager(undo) tool_state = ToolState.READY return true elif e.button_index == MOUSE_BUTTON_RIGHT: if tool_state == ToolState.FIRST_RING || tool_state == ToolState.SECOND_RING || tool_state == ToolState.DRAG_HEIGHT: if e.is_pressed(): tool_state = ToolState.READY return true elif e.button_index == MOUSE_BUTTON_WHEEL_UP: if tool_state == ToolState.FIRST_RING || tool_state == ToolState.SECOND_RING || tool_state == ToolState.DRAG_HEIGHT: if e.pressed: settings.segments += 1 return true elif e.button_index == MOUSE_BUTTON_WHEEL_DOWN: if tool_state == ToolState.FIRST_RING || tool_state == ToolState.SECOND_RING || tool_state == ToolState.DRAG_HEIGHT: if e.pressed: settings.segments = max(settings.segments - 1, 3) return true elif event is InputEventMouseMotion: var e:InputEventMouseMotion = event if (e.button_mask & MOUSE_BUTTON_MASK_MIDDLE): return false var origin:Vector3 = viewport_camera.project_ray_origin(e.position) var dir:Vector3 = viewport_camera.project_ray_normal(e.position) var start_pos:Vector3 = origin + builder.block_create_distance * dir var w2l = blocks_root.global_transform.inverse() var origin_local:Vector3 = w2l * origin var dir_local:Vector3 = w2l.basis * dir if tool_state == ToolState.FIRST_RING: var p_isect:Vector3 = MathUtil.intersect_plane(origin, dir, base_center, floor_normal) var p_snapped = to_local(p_isect, blocks_root.global_transform.inverse(), grid_step_size) first_ring_radius = (p_snapped - base_center).length() return true elif tool_state == ToolState.SECOND_RING: var p_isect:Vector3 = MathUtil.intersect_plane(origin, dir, base_center, floor_normal) var p_snapped = to_local(p_isect, blocks_root.global_transform.inverse(), grid_step_size) second_ring_radius = (p_snapped - base_center).length() return true elif tool_state == ToolState.DRAG_HEIGHT: block_drag_cur = MathUtil.closest_point_on_line(origin_local, dir_local, base_center, floor_normal) block_drag_cur = to_local(block_drag_cur, blocks_root.global_transform.inverse(), grid_step_size) drag_offset = block_drag_cur - base_center # var bounding_points:PackedVector3Array = MathUtil.bounding_polygon_3d(base_points, floor_normal) # global_scene.clear_tool_mesh() # global_scene.draw_prism(bounding_points, drag_offset, global_scene.tool_material) return true return super._gui_input(viewport_camera, event)