void m_WheelModel_compute_and_rebuild_mesh() { m_WheelModel.compute(); m_WheelModel_left_side_disbalance = m_WheelModel.getSpokeForceKgfSideDisbalance(false); m_WheelModel_right_side_disbalance = m_WheelModel.getSpokeForceKgfSideDisbalance(true); double total_disbalance = m_WheelModel_left_side_disbalance + m_WheelModel_right_side_disbalance; if (total_disbalance < m_WheelModel.spokes_count) { m_wheel_quality_Text.text = "Идеальное"; m_wheel_quality_Text.color = new Color(0, 0.8f, 0); } else if (total_disbalance < m_WheelModel.spokes_count * 2) { m_wheel_quality_Text.text = "Хорошее"; m_wheel_quality_Text.color = new Color(0.5f, 0.8f, 0); } else if (total_disbalance < m_WheelModel.spokes_count * 4) { m_wheel_quality_Text.text = "Сойдёт"; m_wheel_quality_Text.color = new Color(0.8f, 0.8f, 0); } else if (total_disbalance < m_WheelModel.spokes_count * 6) { m_wheel_quality_Text.text = "Плохое"; m_wheel_quality_Text.color = new Color(0.8f, 0.5f, 0); } else { m_wheel_quality_Text.text = "Ужасное"; m_wheel_quality_Text.color = new Color(0.8f, 0, 0); }; /* * for (int i=0; i<m_WheelModel.spokes_count; ++i ) * { * Log.g.add( string.Format("{0} {1:0.00}", i, m_WheelModel.getSpokeForceKgf( i )) ); * }*/ double angle_per_section = 360.0 / m_wheel_mesh_sections_count; Points3D[] rim_sections = new Points3D[m_wheel_mesh_sections_count + 1]; for (int i = 0; i < m_wheel_mesh_sections_count + 1; ++i) { Points3D rim_section = m_rim_base_sections[i].copy(); Vector3D rim_center = m_WheelModel.get_rim_center(); Vector3D rim_point = m_WheelModel.getRimPointByAngle(i * angle_per_section, 0, 0); Vector3D rim_bent_egg_point = m_WheelModel.getRimPointByAngle(i * angle_per_section, m_bent_on_every_100kgf, m_egg_on_every_100kgf); Vector3D Y = (rim_center - rim_point).normalized(); Vector3D X = -m_WheelModel.get_rim_cross_axis(); rim_section.rotate(Matrix3x3.fromVerticalVectors(X, Y, X.cross(Y).normalized()), Vector3D.zero); double angle = Vector3D.angleBetween(rim_bent_egg_point - rim_center, rim_point - rim_center); if (angle > Math.PI / 10000) { rim_section.rotate(Y.cross(X).normalized(), angle, Vector3D.zero); } rim_section.move(rim_bent_egg_point); rim_sections[i] = rim_section; } Mesh rim_mesh = MeshCreator.createFromPoints3D(rim_sections); Quaternion wheel_rotation = Quaternion.identity; if (m_wheel_GO != null) { wheel_rotation = m_wheel_GO.transform.rotation; Destroy(m_wheel_GO); m_wheel_GO = null; } if (m_wheel_spoke_wrench_GO != null) { Destroy(m_wheel_spoke_wrench_GO); m_wheel_spoke_wrench_GO = null; } m_wheel_GO = new GameObject("wheel"); m_wheel_GO.layer = layer_wheel; m_wheel_spoke_wrench_GO = Instantiate(m_spoke_wrench_prefab, m_wheel_GO.transform); MeshFilter mf = m_wheel_GO.AddComponent <MeshFilter>(); mf.mesh = rim_mesh; MeshRenderer mr = m_wheel_GO.AddComponent <MeshRenderer>(); mr.material = m_rim_mat; MeshCollider mc = m_wheel_GO.AddComponent <MeshCollider>(); mc.sharedMesh = rim_mesh; if (m_wheel_box_GO != null) { Destroy(m_wheel_box_GO); m_wheel_box_GO = null; } m_wheel_box_GO = new GameObject("wheel_box"); m_wheel_box_GO.layer = layer_wheel_box; BoxCollider wheel_box_GO_BoxCollider = m_wheel_box_GO.AddComponent <BoxCollider>(); wheel_box_GO_BoxCollider.center = mc.bounds.center; wheel_box_GO_BoxCollider.size = mc.bounds.size; //hub Vector3D hub_l = m_WheelModel.get_hub_pos() + new Vector3D(0, 0, 1) * m_WheelModel.axle_length / 2; Vector3D hub_r = m_WheelModel.get_hub_pos() + new Vector3D(0, 0, -1) * m_WheelModel.axle_length / 2; Vector3D hub_lr = hub_r - hub_l; Mesh hub_mesh = MeshCreator.createHub(hub_l, hub_lr.normalized(), 40, 0.005, 0.002 + m_WheelModel.hub_d / 2, m_WheelModel.axle_length, m_WheelModel.l_dish, m_WheelModel.r_dish, 0.005); GameObject hub_GO = new GameObject("hub"); hub_GO.transform.parent = m_wheel_GO.transform; hub_GO.AddComponent <MeshFilter>().mesh = hub_mesh; hub_GO.AddComponent <MeshRenderer>().material = m_hub_mat; m_wheel_nipples_GO = new GameObject[m_WheelModel.spokes_count]; for (int i = 0; i < m_WheelModel.spokes_count; ++i) { Vector3D hub_point = m_WheelModel.get_hub_point(i); Vector3D nip_point = m_WheelModel.getRimPointBySpoke(i, m_bent_on_every_100kgf, m_egg_on_every_100kgf); Vector3D rim_center = m_WheelModel.get_rim_center(); Vector3D nip_hub = hub_point - nip_point; // spokes Mesh spoke_mesh = MeshCreator.createCylinder(0.001, nip_hub.length(), 8, nip_point, nip_hub.normalized(), 0.0); GameObject spoke_GO = new GameObject("spoke"); spoke_GO.transform.parent = m_wheel_GO.transform; spoke_GO.AddComponent <MeshFilter>().mesh = spoke_mesh; spoke_GO.AddComponent <MeshRenderer>().material = m_spoke_mat; //nipple float nipple_rev_deg = (float)m_WheelModel.getNippleRotate(i) * m_WheelModel_force_modifier * Mathf.PI * 2 * Mathf.Rad2Deg; GameObject nipple_GO = Instantiate(m_nipple_prefab); nipple_GO.transform.parent = spoke_GO.transform; nipple_GO.transform.localPosition = nip_point.toVector3(); nipple_GO.transform.localRotation = Quaternion.LookRotation((hub_point - nip_point).normalized().toVector3(), m_WheelModel.get_rim_cross_axis().toVector3()) * Quaternion.AngleAxis(nipple_rev_deg + m_WheelModel_spokes_rev90_offset[i] * 90, -Vector3.forward); m_wheel_nipples_GO[i] = nipple_GO; // eyelets Vector3D eyelet_center = nip_point; Vector3D eyelet_vector = m_WheelModel.get_rim_center() - eyelet_center; double eyelet_inner_dia = 0.0038; double eyelet_outter_dia = 0.0075; double eyelet_torus_circle_radius = (eyelet_outter_dia - eyelet_inner_dia) / 4; int eyelet_half_torus_points_count = 3; int eyelet_section_count = 12; Points3D[] eyelet_sections = new Points3D[eyelet_section_count]; double torus_rad_per_section = 2 * Math.PI / (eyelet_section_count); for (int n_section = 0; n_section < eyelet_section_count; ++n_section) { Points3D eyelet_section = new Points3D(); double torus_rad_per_point = Math.PI / (eyelet_half_torus_points_count - 1); for (int n_point = 0; n_point < eyelet_half_torus_points_count; ++n_point) { eyelet_section.addPoint( new Vector3D(Math.Cos(n_point * torus_rad_per_point) * eyelet_torus_circle_radius, Math.Sin(n_point * torus_rad_per_point) * eyelet_torus_circle_radius, 0) ); } eyelet_section.move(new Vector3D(-(eyelet_inner_dia / 2 + eyelet_torus_circle_radius), 0, 0)); eyelet_section.rotate(new Vector3D(0, 1, 0), n_section * torus_rad_per_section, Vector3D.zero); eyelet_section.rotate(Matrix3x3.getRotationMatrixLookAtYAxis(new Vector3D(0, 0, 1), eyelet_vector.normalized()), Vector3D.zero); eyelet_section.move(eyelet_center); eyelet_sections[n_section] = eyelet_section; } Mesh eyelet_mesh = MeshCreator.createFromLoopPoints3D(eyelet_sections); GameObject eyelet_GO = new GameObject("eyelet"); eyelet_GO.transform.parent = spoke_GO.transform; eyelet_GO.AddComponent <MeshFilter>().mesh = eyelet_mesh; eyelet_GO.AddComponent <MeshRenderer>().material = m_eyelet_mat; Mesh eyelet_low_circle_mesh = MeshCreator.createCircle(eyelet_inner_dia / 2 + eyelet_torus_circle_radius, eyelet_section_count, eyelet_center + eyelet_vector.normalized() * eyelet_torus_circle_radius / 2, eyelet_vector.normalized(), false); GameObject eyelet_low_circle_GO = new GameObject("eyelet_low_circle"); eyelet_low_circle_GO.transform.parent = eyelet_GO.transform; eyelet_low_circle_GO.AddComponent <MeshFilter>().mesh = eyelet_low_circle_mesh; eyelet_low_circle_GO.AddComponent <MeshRenderer>().material = m_eyelet_circle_mat; } m_wheel_GO.transform.rotation = wheel_rotation; m_wheel_spoke_wrench_GO_updateTransformByCurrentSpoke(); }