# GPL # "author": "Pontiac, Fourmadmen, Dreampainter" import bpy from mathutils import * from math import * from bpy.props import * # Create a new mesh (object) from verts/edges/faces. # verts/edges/faces ... List of vertices/edges/faces for the # new mesh (as used in from_pydata). # name ... Name of the new mesh (& object). def create_mesh_object(context, verts, edges, faces, name): # Create new mesh mesh = bpy.data.meshes.new(name) # Make a mesh from a list of verts/edges/faces. mesh.from_pydata(verts, edges, faces) # Update mesh geometry after adding stuff. mesh.update() from bpy_extras import object_utils return object_utils.object_data_add(context, mesh, operator=None) # A very simple "bridge" tool. def createFaces(vertIdx1, vertIdx2, closed=False, flipped=False): faces = [] if not vertIdx1 or not vertIdx2: return None if len(vertIdx1) < 2 and len(vertIdx2) < 2: return None fan = False if (len(vertIdx1) != len(vertIdx2)): if (len(vertIdx1) == 1 and len(vertIdx2) > 1): fan = True else: return None total = len(vertIdx2) if closed: # Bridge the start with the end. if flipped: face = [ vertIdx1[0], vertIdx2[0], vertIdx2[total - 1]] if not fan: face.append(vertIdx1[total - 1]) faces.append(face) else: face = [vertIdx2[0], vertIdx1[0]] if not fan: face.append(vertIdx1[total - 1]) face.append(vertIdx2[total - 1]) faces.append(face) # Bridge the rest of the faces. for num in range(total - 1): if flipped: if fan: face = [vertIdx2[num], vertIdx1[0], vertIdx2[num + 1]] else: face = [vertIdx2[num], vertIdx1[num], vertIdx1[num + 1], vertIdx2[num + 1]] faces.append(face) else: if fan: face = [vertIdx1[0], vertIdx2[num], vertIdx2[num + 1]] else: face = [vertIdx1[num], vertIdx2[num], vertIdx2[num + 1], vertIdx1[num + 1]] faces.append(face) return faces # @todo Clean up vertex&face creation process a bit. def add_gem(r1, r2, seg, h1, h2): """ r1 = pavilion radius r2 = crown radius seg = number of segments h1 = pavilion height h2 = crown height Generates the vertices and faces of the gem """ verts = [] a = 2.0 * pi / seg # Angle between segments offset = a / 2.0 # Middle between segments r3 = ((r1 + r2) / 2.0) / cos(offset) # Middle of crown r4 = (r1 / 2.0) / cos(offset) # Middle of pavilion h3 = h2 / 2.0 # Middle of crown height h4 = -h1 / 2.0 # Middle of pavilion height # Tip vert_tip = len(verts) verts.append(Vector((0.0, 0.0, -h1))) # Middle vertex of the flat side (crown) vert_flat = len(verts) verts.append(Vector((0.0, 0.0, h2))) edgeloop_flat = [] for i in range(seg): s1 = sin(i * a) s2 = sin(offset + i * a) c1 = cos(i * a) c2 = cos(offset + i * a) verts.append((r4 * s1, r4 * c1, h4)) # Middle of pavilion verts.append((r1 * s2, r1 * c2, 0.0)) # Pavilion verts.append((r3 * s1, r3 * c1, h3)) # Middle crown edgeloop_flat.append(len(verts)) verts.append((r2 * s2, r2 * c2, h2)) # Crown faces = [] for index in range(seg): i = index * 4 j = ((index + 1) % seg) * 4 faces.append([j + 2, vert_tip, i + 2, i + 3]) # Tip -> Middle of pav faces.append([j + 2, i + 3, j + 3]) # Middle of pav -> pav faces.append([j + 3, i + 3, j + 4]) # Pav -> Middle crown faces.append([j + 4, i + 3, i + 4, i + 5]) # Crown quads faces.append([j + 4, i + 5, j + 5]) # Middle crown -> crown faces_flat = createFaces([vert_flat], edgeloop_flat, closed=True) faces.extend(faces_flat) return verts, faces def add_diamond(segments, girdle_radius, table_radius, crown_height, pavilion_height): PI_2 = pi * 2.0 z_axis = (0.0, 0.0, -1.0) verts = [] faces = [] height_flat = crown_height height_middle = 0.0 height_tip = -pavilion_height # Middle vertex of the flat side (crown) vert_flat = len(verts) verts.append(Vector((0.0, 0.0, height_flat))) # Tip vert_tip = len(verts) verts.append(Vector((0.0, 0.0, height_tip))) verts_flat = [] verts_girdle = [] for index in range(segments): quat = Quaternion(z_axis, (index / segments) * PI_2) # angle = PI_2 * index / segments # UNUSED # Row for flat side verts_flat.append(len(verts)) vec = quat * Vector((table_radius, 0.0, height_flat)) verts.append(vec) # Row for the middle/girdle verts_girdle.append(len(verts)) vec = quat * Vector((girdle_radius, 0.0, height_middle)) verts.append(vec) # Flat face faces_flat = createFaces([vert_flat], verts_flat, closed=True, flipped=True) # Side face faces_side = createFaces(verts_girdle, verts_flat, closed=True) # Tip faces faces_tip = createFaces([vert_tip], verts_girdle, closed=True) faces.extend(faces_tip) faces.extend(faces_side) faces.extend(faces_flat) return verts, faces class AddDiamond(bpy.types.Operator): """Add a diamond mesh""" bl_idname = "mesh.primitive_diamond_add" bl_label = "Add Diamond" bl_options = {'REGISTER', 'UNDO', 'PRESET'} segments = IntProperty(name="Segments", description="Number of segments for the diamond", min=3, max=256, default=32) girdle_radius = FloatProperty(name="Girdle Radius", description="Girdle radius of the diamond", min=0.01, max=9999.0, default=1.0) table_radius = FloatProperty(name="Table Radius", description="Girdle radius of the diamond", min=0.01, max=9999.0, default=0.6) crown_height = FloatProperty(name="Crown Height", description="Crown height of the diamond", min=0.01, max=9999.0, default=0.35) pavilion_height = FloatProperty(name="Pavilion Height", description="Pavilion height of the diamond", min=0.01, max=9999.0, default=0.8) def execute(self, context): verts, faces = add_diamond(self.segments, self.girdle_radius, self.table_radius, self.crown_height, self.pavilion_height) obj = create_mesh_object(context, verts, [], faces, "Diamond") return {'FINISHED'} class AddGem(bpy.types.Operator): """Add a diamond gem""" bl_idname = "mesh.primitive_gem_add" bl_label = "Add Gem" bl_description = "Create an offset faceted gem" bl_options = {'REGISTER', 'UNDO', 'PRESET'} segments = IntProperty(name="Segments", description="Longitudial segmentation", min=3, max=265, default=8,) pavilion_radius = FloatProperty(name="Radius", description="Radius of the gem", min=0.01, max=9999.0, default=1.0) crown_radius = FloatProperty(name="Table Radius", description="Radius of the table(top)", min=0.01, max=9999.0, default=0.6) crown_height = FloatProperty(name="Table height", description="Height of the top half", min=0.01, max=9999.0, default=0.35) pavilion_height = FloatProperty(name="Pavilion height", description="Height of bottom half", min=0.01, max=9999.0, default=0.8) def execute(self, context): # create mesh verts, faces = add_gem( self.pavilion_radius, self.crown_radius, self.segments, self.pavilion_height, self.crown_height) obj = create_mesh_object(context, verts, [], faces, "Gem") return {'FINISHED'}