Optima Interior -

# Create a central top cap (to make solid, but we want open interior? # Actually to be "solid" we need closed mesh. Let's add a top cap with hole? No, solid piece. # We'll create a central upper surface with a pattern.

# Connect outer top ring to inner ring for i in range(segments): i_next = (i + 1) % segments bm.faces.new((verts_top[i], verts_top[i_next], inner_verts[i_next], inner_verts[i]))

# Add subdivision surface for smooth organic interior look mod = obj.modifiers.new(name="Subdivision", type='SUBSURF') mod.levels = 2 mod.render_levels = 2 optima interior

# Create faces between top and bottom rings for i in range(segments): i_next = (i + 1) % segments # Quad between top and bottom bm.faces.new((verts_top[i], verts_top[i_next], verts_bottom[i_next], verts_bottom[i]))

# Write bmesh to mesh bm.to_mesh(mesh) bm.free() # Create a central top cap (to make

import bpy import bmesh import math from mathutils import Vector

# Generate vertices for top and bottom rings verts_top = [] verts_bottom = [] for i in range(segments): angle = 2 * math.pi * i / segments x = radius * math.cos(angle) y = radius * math.sin(angle) # Top ring with gentle undulation (z varies with angle) z_top = height * (0.5 + 0.3 * math.sin(4 * angle)) # 4 lobes v_top = bm.verts.new((x, y, z_top)) verts_top.append(v_top) # Bottom ring (flat) v_bottom = bm.verts.new((x, y, -height/2)) verts_bottom.append(v_bottom) No, solid piece

# Now the mesh is closed (bottom cap, outer walls, top ring, inner cap) # But to make it "solid piece" we need all faces pointing outward. BMesh handles normals but we can recalc.