void create_any_cylinder(stp_advanced_brep_shape_representation * advsol, double diam, double hei, double radius){
//Variable to create radius entity for various entities used
double temp = diam / 2.0;
double maj_rad = temp - radius;
if (radius > (temp)){ //Makes sure that the filet doesn't degenerate the solid
printf("Filet radius too large");
return;
}
if (temp == radius){ //Creates a sphere at bottom of cylinder instead of toroid
//Cartesian_point declarations
stp_cartesian_point* p1 = pnew stp_cartesian_point; //#23
p1->name("");
p1->coordinates()->add(temp);
p1->coordinates()->add(0);
p1->coordinates()->add(radius);
stp_cartesian_point* p2 = pnew stp_cartesian_point; //#25
p2->name("");
p2->coordinates()->add(temp);
p2->coordinates()->add(0);
p2->coordinates()->add(hei);
stp_cartesian_point* p3 = pnew stp_cartesian_point; //#28
p3->name("");
p3->coordinates()->add(temp);
p3->coordinates()->add(0);
p3->coordinates()->add(0);
stp_cartesian_point* p4 = pnew stp_cartesian_point; //#34, #137, #150
p4->name("");
p4->coordinates()->add(0);
p4->coordinates()->add(0);
p4->coordinates()->add(0);
stp_cartesian_point* p5 = pnew stp_cartesian_point; //#39
p5->name("");
p5->coordinates()->add(6.28318530718);
p5->coordinates()->add(0);
stp_cartesian_point* p6 = pnew stp_cartesian_point; //#46, #74, #101, #121, #156
p6->name("");
p6->coordinates()->add(0);
p6->coordinates()->add(0);
stp_cartesian_point* p7 = pnew stp_cartesian_point; //#55, #68
p7->name("");
p7->coordinates()->add(0);
p7->coordinates()->add(0);
p7->coordinates()->add(hei);
stp_cartesian_point* p8 = pnew stp_cartesian_point; //#61
p8->name("");
p8->coordinates()->add(0);
p8->coordinates()->add(hei);
stp_cartesian_point* p9 = pnew stp_cartesian_point; //#83, #96
p9->name("");
p9->coordinates()->add(0);
p9->coordinates()->add(0);
p9->coordinates()->add(radius);
stp_cartesian_point* p10 = pnew stp_cartesian_point; //#89
p10->name("");
p10->coordinates()->add(0);
p10->coordinates()->add(radius);
stp_cartesian_point* p11 = pnew stp_cartesian_point; //#111
p11->name("");
p11->coordinates()->add(maj_rad);
p11->coordinates()->add(0);
p11->coordinates()->add(0);
stp_cartesian_point* p12 = pnew stp_cartesian_point; //#115
p12->name("");
p12->coordinates()->add(maj_rad);
p12->coordinates()->add(0);
p12->coordinates()->add(radius);
stp_cartesian_point* p13 = pnew stp_cartesian_point; //#122, #143
p13->name("");
p13->coordinates()->add(0);
p13->coordinates()->add(1.570796326795);
stp_cartesian_point* p14 = pnew stp_cartesian_point; //#127
p14->name("");
p14->coordinates()->add(-6.28318530718);
p14->coordinates()->add(0);
stp_cartesian_point* p15 = pnew stp_cartesian_point; //#128
p15->name("");
p15->coordinates()->add(-6.28318530718);
p15->coordinates()->add(1.570796326795);
//Vertex Point Declarations
stp_vertex_point * vp1 = pnew stp_vertex_point; //#22
vp1->vertex_geometry(p1);
stp_vertex_point * vp2 = pnew stp_vertex_point; //#24
vp2->vertex_geometry(p2);
stp_vertex_point * vp3 = pnew stp_vertex_point; //#110
vp3->vertex_geometry(p11);
//Direction Declarations
stp_direction * dir1 = pnew stp_direction; //#30, #35, #56, #69, #84, #138, #151
dir1->direction_ratios()->add(0);
dir1->direction_ratios()->add(0);
dir1->direction_ratios()->add(1);
stp_direction * dir2 = pnew stp_direction; //#36, #57, #70, #85, #98, #117, #139, #152
dir2->direction_ratios()->add(1);
dir2->direction_ratios()->add(0);
dir2->direction_ratios()->add(0);
stp_direction * dir3 = pnew stp_direction; //#41, #48
dir3->direction_ratios()->add(0);
dir3->direction_ratios()->add(1);
stp_direction * dir4 = pnew stp_direction; //#63, #75, #91, #157
dir4->direction_ratios()->add(1);
dir4->direction_ratios()->add(0);
stp_direction * dir5 = pnew stp_direction; //#97
dir5->direction_ratios()->add(0);
dir5->direction_ratios()->add(0);
dir5->direction_ratios()->add(-1);
stp_direction * dir6 = pnew stp_direction; //#103, #145
dir6->direction_ratios()->add(-1);
dir6->direction_ratios()->add(0);
stp_direction * dir7 = pnew stp_direction; //#116
dir7->direction_ratios()->add(0);
dir7->direction_ratios()->add(1);
dir7->direction_ratios()->add(0);
//Axis2_placement_2d and selects
stp_axis2_placement_2d * a2p2d = pnew stp_axis2_placement_2d;
a2p2d->location(p6);
a2p2d->ref_direction(dir4);
stp_axis2_placement * a2p1 = pnew stp_axis2_placement; //#73
rose_put_nested_object(a2p1, a2p2d);
//Axis2_placement_3d and selects
stp_axis2_placement_3d * a2p3d = pnew stp_axis2_placement_3d("", p4, dir1, dir2); //#33
stp_axis2_placement * a2p3 = pnew stp_axis2_placement;
rose_put_nested_object(a2p3, a2p3d);
stp_axis2_placement_3d * a2p3d2 = pnew stp_axis2_placement_3d("", p7, dir1, dir2); //#54, #67
stp_axis2_placement * a2p4 = pnew stp_axis2_placement;
rose_put_nested_object(a2p4, a2p3d2);
stp_axis2_placement_3d * a2p3d3 = pnew stp_axis2_placement_3d("", p9, dir1, dir2); //#82
stp_axis2_placement * a2p5 = pnew stp_axis2_placement;
rose_put_nested_object(a2p5, a2p3d3);
stp_axis2_placement_3d * a2p3d4 = pnew stp_axis2_placement_3d("", p9, dir5, dir2); //#95
//Planes
stp_plane * plane1 = pnew stp_plane; //#66
plane1->position(a2p3d2);
//Vectors
stp_vector * vec1 = pnew stp_vector; //#29
vec1->orientation(dir1);
vec1->magnitude(1);
stp_vector * vec2 = pnew stp_vector; //#40, #47
vec2->orientation(dir3);
vec2->magnitude(1);
stp_vector * vec3 = pnew stp_vector; //#62, #90
vec3->orientation(dir4);
vec3->magnitude(1);
stp_vector * vec4 = pnew stp_vector; //#102, #144
vec4->orientation(dir6);
vec4->magnitude(1);
//Lines
stp_line * l1 = pnew stp_line; //#27
l1->pnt(p3);
l1->dir(vec1);
stp_line * l2 = pnew stp_line; //#38
l2->pnt(p5);
l2->dir(vec2);
stp_line * l3 = pnew stp_line; //#45
l3->pnt(p6);
l3->dir(vec2);
stp_line * l4 = pnew stp_line; //#60
l4->pnt(p8);
l4->dir(vec3);
stp_line * l5 = pnew stp_line; //#88
l5->pnt(p10);
l5->dir(vec3);
stp_line * l6 = pnew stp_line; //#100
l6->pnt(p6);
l6->dir(vec4);
//Circles
stp_circle * circ1 = pnew stp_circle; //#53
circ1->position(a2p4);
circ1->radius(temp);
stp_circle * circ2 = pnew stp_circle; //#72
circ2->position(a2p1);
circ2->radius(temp);
stp_circle * circ3 = pnew stp_circle; //#81
circ3->position(a2p5);
circ3->radius(temp);
stp_circle * circ4 = pnew stp_circle; //#113
circ4->position(a2p5);
circ4->radius(temp);
//Surface Geometry
stp_cylindrical_surface * cs1 = pnew stp_cylindrical_surface; //#32
cs1->position(a2p3d);
cs1->radius(temp);
stp_spherical_surface * ts1 = pnew stp_spherical_surface; //#94
ts1->position(a2p3d4);
ts1->radius(temp);
//Geometric Representation Context
stp_geometric_representation_context * rc1 = pnew stp_geometric_representation_context;
rc1->context_identifier("REPRESENTATION_CONTEXT('2D SPACE','')");
rc1->context_type("PARAMETRIC_REPRESENTATION_CONTEXT()");
rc1->coordinate_space_dimension(2);
//B_Spline Curve with Knots
stp_b_spline_curve_with_knots * bscwk1 = pnew stp_b_spline_curve_with_knots;
bscwk1->degree(1);
bscwk1->control_points_list()->add(p6);
bscwk1->control_points_list()->add(p13);
bscwk1->curve_form(stp_b_spline_curve_form_unspecified);
bscwk1->closed_curve(0);
bscwk1->self_intersect(0);
bscwk1->knot_multiplicities()->add(2);
bscwk1->knot_multiplicities()->add(2);
bscwk1->knots()->add(0);
bscwk1->knots()->add(1.570796326795);
bscwk1->knot_spec(stp_knot_type_piecewise_bezier_knots);
stp_b_spline_curve_with_knots * bscwk2 = pnew stp_b_spline_curve_with_knots;
bscwk2->degree(1);
bscwk2->control_points_list()->add(p14);
bscwk2->control_points_list()->add(p15);
bscwk2->curve_form(stp_b_spline_curve_form_unspecified);
bscwk2->closed_curve(0);
bscwk2->self_intersect(0);
bscwk2->knot_multiplicities()->add(2);
bscwk2->knot_multiplicities()->add(2);
bscwk2->knots()->add(0);
bscwk2->knots()->add(1.570796326795);
bscwk2->knot_spec(stp_knot_type_piecewise_bezier_knots);
//Definitional Representation
stp_definitional_representation * dr1 = pnew stp_definitional_representation; //#37
dr1->items()->add(l2);
dr1->context_of_items(rc1);
stp_definitional_representation * dr2 = pnew stp_definitional_representation; //#44
dr2->items()->add(l3);
dr2->context_of_items(rc1);
stp_definitional_representation * dr3 = pnew stp_definitional_representation; //#59
dr3->items()->add(l4);
dr3->context_of_items(rc1);
stp_definitional_representation * dr4 = pnew stp_definitional_representation; //#71
dr4->items()->add(circ2);
dr4->context_of_items(rc1);
stp_definitional_representation * dr5 = pnew stp_definitional_representation; //#87
dr5->items()->add(l5);
dr5->context_of_items(rc1);
stp_definitional_representation * dr6 = pnew stp_definitional_representation; //#99
dr6->items()->add(l6);
dr6->context_of_items(rc1);
stp_definitional_representation * dr7 = pnew stp_definitional_representation; //#119
dr7->items()->add(bscwk1);
dr7->context_of_items(rc1);
stp_definitional_representation * dr8 = pnew stp_definitional_representation; //#125
dr8->items()->add(bscwk2);
dr8->context_of_items(rc1);
//Pcurve definitions and selects
stp_pcurve * pc1 = pnew stp_pcurve;
pc1->basis_surface(cs1);
pc1->reference_to_curve(dr1);
stp_pcurve_or_surface * pcos1 = pnew stp_pcurve_or_surface; //#31
rose_put_nested_object(pcos1, pc1);
stp_pcurve * pc2 = pnew stp_pcurve;
pc2->basis_surface(cs1);
pc2->reference_to_curve(dr2);
stp_pcurve_or_surface * pcos2 = pnew stp_pcurve_or_surface; //#43
rose_put_nested_object(pcos2, pc2);
stp_pcurve * pc3 = pnew stp_pcurve;
pc3->basis_surface(cs1);
pc3->reference_to_curve(dr3);
stp_pcurve_or_surface * pcos3 = pnew stp_pcurve_or_surface; //#58
rose_put_nested_object(pcos3, pc3);
stp_pcurve * pc4 = pnew stp_pcurve;
pc4->basis_surface(plane1);
pc4->reference_to_curve(dr4);
stp_pcurve_or_surface * pcos4 = pnew stp_pcurve_or_surface; //#65
rose_put_nested_object(pcos4, pc4);
stp_pcurve * pc5 = pnew stp_pcurve;
pc5->basis_surface(cs1);
pc5->reference_to_curve(dr5);
stp_pcurve_or_surface * pcos5 = pnew stp_pcurve_or_surface; //#86
rose_put_nested_object(pcos5, pc5);
stp_pcurve * pc6 = pnew stp_pcurve;
pc6->basis_surface(ts1);
pc6->reference_to_curve(dr6);
stp_pcurve_or_surface * pcos6 = pnew stp_pcurve_or_surface; //#93
rose_put_nested_object(pcos6, pc6);
stp_pcurve * pc7 = pnew stp_pcurve;
pc7->basis_surface(ts1);
pc7->reference_to_curve(dr7);
stp_pcurve_or_surface * pcos7 = pnew stp_pcurve_or_surface; //#118
rose_put_nested_object(pcos7, pc7);
stp_pcurve * pc8 = pnew stp_pcurve;
pc8->basis_surface(ts1);
pc8->reference_to_curve(dr8);
stp_pcurve_or_surface * pcos8 = pnew stp_pcurve_or_surface; //#124
rose_put_nested_object(pcos8, pc8);
//Surface Curves
stp_surface_curve * sc1 = pnew stp_surface_curve; //#52
sc1->curve_3d(circ1);
sc1->associated_geometry()->add(pcos3);
sc1->associated_geometry()->add(pcos4);
sc1->master_representation(stp_preferred_surface_curve_representation_pcurve_s1);
stp_surface_curve * sc2 = pnew stp_surface_curve; //#80
sc2->curve_3d(circ3);
sc2->associated_geometry()->add(pcos5);
sc2->associated_geometry()->add(pcos6);
sc2->master_representation(stp_preferred_surface_curve_representation_pcurve_s1);
stp_seam_curve * seam1 = pnew stp_seam_curve; //#26
seam1->curve_3d(l1);
seam1->associated_geometry()->add(pcos1);
seam1->associated_geometry()->add(pcos2);
seam1->master_representation(stp_preferred_surface_curve_representation_pcurve_s1);
stp_seam_curve * seam2 = pnew stp_seam_curve; //#112
seam2->curve_3d(circ4);
seam2->associated_geometry()->add(pcos7);
seam2->associated_geometry()->add(pcos8);
seam2->master_representation(stp_preferred_surface_curve_representation_pcurve_s1);
//Edge Curve definition
stp_edge_curve * ec1 = pnew stp_edge_curve; //#21
ec1->edge_start(vp1);
ec1->edge_end(vp2);
ec1->edge_geometry(seam1);
ec1->same_sense(1);
stp_edge_curve * ec2 = pnew stp_edge_curve; //#51
ec2->edge_start(vp2);
ec2->edge_end(vp2);
ec2->edge_geometry(sc1);
ec2->same_sense(1);
stp_edge_curve * ec3 = pnew stp_edge_curve; //#79
ec3->edge_start(vp1);
ec3->edge_end(vp1);
ec3->edge_geometry(sc2);
ec3->same_sense(1);
stp_edge_curve * ec4 = pnew stp_edge_curve; //#109
ec4->edge_start(vp1);
ec4->edge_end(vp3);
ec4->edge_geometry(seam2);
ec4->same_sense(1);
//Oriented Edge Definitions
stp_oriented_edge * oe1 = pnew stp_oriented_edge; //#20
oe1->edge_element(ec1);
oe1->orientation(1);
stp_oriented_edge * oe2 = pnew stp_oriented_edge; //#50
oe2->edge_element(ec2);
oe2->orientation(0);
stp_oriented_edge * oe3 = pnew stp_oriented_edge; //#77
oe3->edge_element(ec1);
oe3->orientation(0);
stp_oriented_edge * oe4 = pnew stp_oriented_edge; //#78
oe4->edge_element(ec3);
oe4->orientation(1);
stp_oriented_edge * oe5 = pnew stp_oriented_edge; //#108
oe5->edge_element(ec4);
oe5->orientation(0);
stp_oriented_edge * oe6 = pnew stp_oriented_edge; //#130
oe6->edge_element(ec3);
oe6->orientation(1);
stp_oriented_edge * oe7 = pnew stp_oriented_edge; //#131
oe7->edge_element(ec4);
oe7->orientation(1);
stp_oriented_edge * oe9 = pnew stp_oriented_edge; //#162
oe9->edge_element(ec2);
oe9->orientation(1);
//Edge Loop definition and Axis2 Placements
stp_edge_loop * el1 = pnew stp_edge_loop; //#19
el1->edge_list()->add(oe1);
el1->edge_list()->add(oe2);
el1->edge_list()->add(oe3);
el1->edge_list()->add(oe4);
stp_edge_loop * el2 = pnew stp_edge_loop; //#107
el2->edge_list()->add(oe5);
el2->edge_list()->add(oe6);
el2->edge_list()->add(oe7);
stp_edge_loop * el3 = pnew stp_edge_loop; //#161
el3->edge_list()->add(oe9);
//Face bounds and surface declarations
stp_face_bound * b1 = pnew stp_face_bound; //#18
b1->bound(el1);
b1->orientation(1);
stp_face_bound * b2 = pnew stp_face_bound; //#106
b2->bound(el2);
b2->orientation(0);
stp_face_bound * b3 = pnew stp_face_bound; //#160
b3->bound(el3);
b3->orientation(1);
//Advanced Faces declarations
stp_advanced_face * f1 = pnew stp_advanced_face; //#17
f1->bounds()->add(b1);
f1->face_geometry(cs1);
f1->same_sense(1);
stp_advanced_face * f2 = pnew stp_advanced_face; //#105
f2->bounds()->add(b2);
f2->face_geometry(ts1);
f2->same_sense(1);
stp_advanced_face * f3 = pnew stp_advanced_face; //#159
f3->bounds()->add(b3);
f3->face_geometry(plane1);
f3->same_sense(1);
//Closed Shell Declaration
stp_closed_shell * sh = pnew stp_closed_shell;
sh->cfs_faces()->add(f1);
sh->cfs_faces()->add(f2);
sh->cfs_faces()->add(f3);
//Manifold solid brep and axis2_placement_3d
stp_manifold_solid_brep * brep = pnew stp_manifold_solid_brep;
brep->outer(sh);
advsol->items()->add(a2p3d); //Add everything to the shape rep
advsol->items()->add(brep);
return;
}
else{ //Creates any other type of cylinder with a filet on the bottom
//Cartesian_point declarations
stp_cartesian_point* p1 = pnew stp_cartesian_point; //#23
p1->name("");
p1->coordinates()->add(temp);
p1->coordinates()->add(0);
p1->coordinates()->add(radius);
stp_cartesian_point* p2 = pnew stp_cartesian_point; //#25
p2->name("");
p2->coordinates()->add(temp);
p2->coordinates()->add(0);
p2->coordinates()->add(hei);
stp_cartesian_point* p3 = pnew stp_cartesian_point; //#28
p3->name("");
p3->coordinates()->add(temp);
p3->coordinates()->add(0);
p3->coordinates()->add(0);
stp_cartesian_point* p4 = pnew stp_cartesian_point; //#34, #137, #150
p4->name("");
p4->coordinates()->add(0);
p4->coordinates()->add(0);
p4->coordinates()->add(0);
stp_cartesian_point* p5 = pnew stp_cartesian_point; //#39
p5->name("");
p5->coordinates()->add(6.28318530718);
p5->coordinates()->add(0);
stp_cartesian_point* p6 = pnew stp_cartesian_point; //#46, #74, #101, #121, #156
p6->name("");
p6->coordinates()->add(0);
p6->coordinates()->add(0);
stp_cartesian_point* p7 = pnew stp_cartesian_point; //#55, #68
p7->name("");
p7->coordinates()->add(0);
p7->coordinates()->add(0);
p7->coordinates()->add(hei);
stp_cartesian_point* p8 = pnew stp_cartesian_point; //#61
p8->name("");
p8->coordinates()->add(0);
p8->coordinates()->add(hei);
stp_cartesian_point* p9 = pnew stp_cartesian_point; //#83, #96
p9->name("");
p9->coordinates()->add(0);
p9->coordinates()->add(0);
p9->coordinates()->add(radius);
stp_cartesian_point* p10 = pnew stp_cartesian_point; //#89
p10->name("");
p10->coordinates()->add(0);
p10->coordinates()->add(radius);
stp_cartesian_point* p11 = pnew stp_cartesian_point; //#111
p11->name("");
p11->coordinates()->add(maj_rad);
p11->coordinates()->add(0);
p11->coordinates()->add(0);
stp_cartesian_point* p12 = pnew stp_cartesian_point; //#115
p12->name("");
p12->coordinates()->add(maj_rad);
p12->coordinates()->add(0);
p12->coordinates()->add(radius);
stp_cartesian_point* p13 = pnew stp_cartesian_point; //#122, #143
p13->name("");
p13->coordinates()->add(0);
p13->coordinates()->add(1.570796326795);
stp_cartesian_point* p14 = pnew stp_cartesian_point; //#127
p14->name("");
p14->coordinates()->add(-6.28318530718);
p14->coordinates()->add(0);
stp_cartesian_point* p15 = pnew stp_cartesian_point; //#128
p15->name("");
p15->coordinates()->add(-6.28318530718);
p15->coordinates()->add(1.570796326795);
//Vertex Point Declarations
stp_vertex_point * vp1 = pnew stp_vertex_point; //#22
vp1->vertex_geometry(p1);
stp_vertex_point * vp2 = pnew stp_vertex_point; //#24
vp2->vertex_geometry(p2);
stp_vertex_point * vp3 = pnew stp_vertex_point; //#110
vp3->vertex_geometry(p11);
//Direction Declarations
stp_direction * dir1 = pnew stp_direction; //#30, #35, #56, #69, #84, #138, #151
dir1->direction_ratios()->add(0);
dir1->direction_ratios()->add(0);
dir1->direction_ratios()->add(1);
stp_direction * dir2 = pnew stp_direction; //#36, #57, #70, #85, #98, #117, #139, #152
dir2->direction_ratios()->add(1);
dir2->direction_ratios()->add(0);
dir2->direction_ratios()->add(0);
stp_direction * dir3 = pnew stp_direction; //#41, #48
dir3->direction_ratios()->add(0);
dir3->direction_ratios()->add(1);
stp_direction * dir4 = pnew stp_direction; //#63, #75, #91, #157
dir4->direction_ratios()->add(1);
dir4->direction_ratios()->add(0);
stp_direction * dir5 = pnew stp_direction; //#97
dir5->direction_ratios()->add(0);
dir5->direction_ratios()->add(0);
dir5->direction_ratios()->add(-1);
stp_direction * dir6 = pnew stp_direction; //#103, #145
dir6->direction_ratios()->add(-1);
dir6->direction_ratios()->add(0);
stp_direction * dir7 = pnew stp_direction; //#116
dir7->direction_ratios()->add(0);
dir7->direction_ratios()->add(1);
dir7->direction_ratios()->add(0);
//Axis2_placement_2d and selects
stp_axis2_placement_2d * a2p2d = pnew stp_axis2_placement_2d;
a2p2d->location(p6);
a2p2d->ref_direction(dir4);
stp_axis2_placement * a2p1 = pnew stp_axis2_placement; //#73
rose_put_nested_object(a2p1, a2p2d);
stp_axis2_placement_2d * a2p2d2 = pnew stp_axis2_placement_2d;
a2p2d2->location(p6);
a2p2d2->ref_direction(dir4);
stp_axis2_placement * a2p2 = pnew stp_axis2_placement; //#155
rose_put_nested_object(a2p2, a2p2d2);
//Axis2_placement_3d and selects
stp_axis2_placement_3d * a2p3d = pnew stp_axis2_placement_3d("", p4, dir1, dir2); //#33
stp_axis2_placement * a2p3 = pnew stp_axis2_placement;
rose_put_nested_object(a2p3, a2p3d);
stp_axis2_placement_3d * a2p3d2 = pnew stp_axis2_placement_3d("", p7, dir1, dir2); //#54, #67
stp_axis2_placement * a2p4 = pnew stp_axis2_placement;
rose_put_nested_object(a2p4, a2p3d2);
stp_axis2_placement_3d * a2p3d3 = pnew stp_axis2_placement_3d("", p9, dir1, dir2); //#82
stp_axis2_placement * a2p5 = pnew stp_axis2_placement;
rose_put_nested_object(a2p5, a2p3d3);
stp_axis2_placement_3d * a2p3d4 = pnew stp_axis2_placement_3d("", p9, dir5, dir2); //#95
stp_axis2_placement_3d * a2p3d5 = pnew stp_axis2_placement_3d("", p12, dir7, dir2); //#114
stp_axis2_placement_3d * a2p3d6 = pnew stp_axis2_placement_3d("", p4, dir1, dir2); //#136, #149
stp_axis2_placement * a2p6 = pnew stp_axis2_placement;
rose_put_nested_object(a2p6, a2p3d6);
//Planes
stp_plane * plane1 = pnew stp_plane; //#66
plane1->position(a2p3d2);
stp_plane * plane2 = pnew stp_plane; //#148
plane2->position(a2p3d6);
//Vectors
stp_vector * vec1 = pnew stp_vector; //#29
vec1->orientation(dir1);
vec1->magnitude(1);
stp_vector * vec2 = pnew stp_vector; //#40, #47
vec2->orientation(dir3);
vec2->magnitude(1);
stp_vector * vec3 = pnew stp_vector; //#62, #90
vec3->orientation(dir4);
vec3->magnitude(1);
stp_vector * vec4 = pnew stp_vector; //#102, #144
vec4->orientation(dir6);
vec4->magnitude(1);
//Lines
stp_line * l1 = pnew stp_line; //#27
l1->pnt(p3);
l1->dir(vec1);
stp_line * l2 = pnew stp_line; //#38
l2->pnt(p5);
l2->dir(vec2);
stp_line * l3 = pnew stp_line; //#45
l3->pnt(p6);
l3->dir(vec2);
stp_line * l4 = pnew stp_line; //#60
l4->pnt(p8);
l4->dir(vec3);
stp_line * l5 = pnew stp_line; //#88
l5->pnt(p10);
l5->dir(vec3);
stp_line * l6 = pnew stp_line; //#100
l6->pnt(p6);
l6->dir(vec4);
stp_line * l7 = pnew stp_line; //#142
l7->pnt(p13);
l7->dir(vec4);
//Circles
stp_circle * circ1 = pnew stp_circle; //#53
circ1->position(a2p4);
circ1->radius(temp);
stp_circle * circ2 = pnew stp_circle; //#72
circ2->position(a2p1);
circ2->radius(temp);
stp_circle * circ3 = pnew stp_circle; //#81
circ3->position(a2p5);
circ3->radius(temp);
stp_circle * circ4 = pnew stp_circle; //#113
circ4->position(a2p3);
circ4->radius(temp - radius);
stp_circle * circ5 = pnew stp_circle; //#135
circ5->position(a2p6);
circ5->radius(temp - radius);
stp_circle * circ6 = pnew stp_circle; //#154
circ6->position(a2p2);
circ6->radius(temp - radius);
//Surface Geometry
stp_cylindrical_surface * cs1 = pnew stp_cylindrical_surface; //#32
cs1->position(a2p3d);
cs1->radius(temp);
stp_toroidal_surface * ts1 = pnew stp_toroidal_surface; //#94
ts1->position(a2p3d4);
ts1->major_radius(maj_rad);
ts1->minor_radius(radius);
//Geometric Representation Context
stp_geometric_representation_context * rc1 = pnew stp_geometric_representation_context;
rc1->context_identifier("REPRESENTATION_CONTEXT('2D SPACE','')");
rc1->context_type("PARAMETRIC_REPRESENTATION_CONTEXT()");
rc1->coordinate_space_dimension(2);
//B_Spline Curve with Knots
stp_b_spline_curve_with_knots * bscwk1 = pnew stp_b_spline_curve_with_knots;
bscwk1->degree(1);
bscwk1->control_points_list()->add(p6);
bscwk1->control_points_list()->add(p13);
bscwk1->curve_form(stp_b_spline_curve_form_unspecified);
bscwk1->closed_curve(0);
bscwk1->self_intersect(0);
bscwk1->knot_multiplicities()->add(2);
bscwk1->knot_multiplicities()->add(2);
bscwk1->knots()->add(0);
bscwk1->knots()->add(1.570796326795);
bscwk1->knot_spec(stp_knot_type_piecewise_bezier_knots);
stp_b_spline_curve_with_knots * bscwk2 = pnew stp_b_spline_curve_with_knots;
bscwk2->degree(1);
bscwk2->control_points_list()->add(p14);
bscwk2->control_points_list()->add(p15);
bscwk2->curve_form(stp_b_spline_curve_form_unspecified);
bscwk2->closed_curve(0);
bscwk2->self_intersect(0);
bscwk2->knot_multiplicities()->add(2);
bscwk2->knot_multiplicities()->add(2);
bscwk2->knots()->add(0);
bscwk2->knots()->add(1.570796326795);
bscwk2->knot_spec(stp_knot_type_piecewise_bezier_knots);
//Definitional Representation
stp_definitional_representation * dr1 = pnew stp_definitional_representation; //#37
dr1->items()->add(l2);
dr1->context_of_items(rc1);
stp_definitional_representation * dr2 = pnew stp_definitional_representation; //#44
dr2->items()->add(l3);
dr2->context_of_items(rc1);
stp_definitional_representation * dr3 = pnew stp_definitional_representation; //#59
dr3->items()->add(l4);
dr3->context_of_items(rc1);
stp_definitional_representation * dr4 = pnew stp_definitional_representation; //#71
dr4->items()->add(circ2);
dr4->context_of_items(rc1);
stp_definitional_representation * dr5 = pnew stp_definitional_representation; //#87
dr5->items()->add(l5);
dr5->context_of_items(rc1);
stp_definitional_representation * dr6 = pnew stp_definitional_representation; //#99
dr6->items()->add(l6);
dr6->context_of_items(rc1);
stp_definitional_representation * dr7 = pnew stp_definitional_representation; //#119
dr7->items()->add(bscwk1);
dr7->context_of_items(rc1);
stp_definitional_representation * dr8 = pnew stp_definitional_representation; //#125
dr8->items()->add(bscwk2);
dr8->context_of_items(rc1);
stp_definitional_representation * dr9 = pnew stp_definitional_representation; //#141
dr9->items()->add(l7);
dr9->context_of_items(rc1);
stp_definitional_representation * dr10 = pnew stp_definitional_representation; //#153
dr10->items()->add(circ6);
dr10->context_of_items(rc1);
//Pcurve definitions and selects
stp_pcurve * pc1 = pnew stp_pcurve;
pc1->basis_surface(cs1);
pc1->reference_to_curve(dr1);
stp_pcurve_or_surface * pcos1 = pnew stp_pcurve_or_surface; //#31
rose_put_nested_object(pcos1, pc1);
stp_pcurve * pc2 = pnew stp_pcurve;
pc2->basis_surface(plane1);
pc2->reference_to_curve(dr2);
stp_pcurve_or_surface * pcos2 = pnew stp_pcurve_or_surface; //#43
rose_put_nested_object(pcos2, pc2);
stp_pcurve * pc3 = pnew stp_pcurve;
pc3->basis_surface(cs1);
pc3->reference_to_curve(dr3);
stp_pcurve_or_surface * pcos3 = pnew stp_pcurve_or_surface; //#58
rose_put_nested_object(pcos3, pc3);
stp_pcurve * pc4 = pnew stp_pcurve;
pc4->basis_surface(plane1);
pc4->reference_to_curve(dr4);
stp_pcurve_or_surface * pcos4 = pnew stp_pcurve_or_surface; //#65
rose_put_nested_object(pcos4, pc4);
stp_pcurve * pc5 = pnew stp_pcurve;
pc5->basis_surface(cs1);
pc5->reference_to_curve(dr5);
stp_pcurve_or_surface * pcos5 = pnew stp_pcurve_or_surface; //#86
rose_put_nested_object(pcos5, pc5);
stp_pcurve * pc6 = pnew stp_pcurve;
pc6->basis_surface(ts1);
pc6->reference_to_curve(dr6);
stp_pcurve_or_surface * pcos6 = pnew stp_pcurve_or_surface; //#93
rose_put_nested_object(pcos6, pc6);
stp_pcurve * pc7 = pnew stp_pcurve;
pc7->basis_surface(ts1);
pc7->reference_to_curve(dr7);
stp_pcurve_or_surface * pcos7 = pnew stp_pcurve_or_surface; //#118
rose_put_nested_object(pcos7, pc7);
stp_pcurve * pc8 = pnew stp_pcurve;
pc8->basis_surface(ts1);
pc8->reference_to_curve(dr8);
stp_pcurve_or_surface * pcos8 = pnew stp_pcurve_or_surface; //#124
rose_put_nested_object(pcos8, pc8);
stp_pcurve * pc9 = pnew stp_pcurve;
pc9->basis_surface(ts1);
pc9->reference_to_curve(dr9);
stp_pcurve_or_surface * pcos9 = pnew stp_pcurve_or_surface; //#140
rose_put_nested_object(pcos9, pc9);
stp_pcurve * pc10 = pnew stp_pcurve;
pc10->basis_surface(plane2);
pc10->reference_to_curve(dr10);
stp_pcurve_or_surface * pcos10 = pnew stp_pcurve_or_surface; //#147
rose_put_nested_object(pcos10, pc10);
//Surface Curves
stp_surface_curve * sc1 = pnew stp_surface_curve; //#52
sc1->curve_3d(circ1);
sc1->associated_geometry()->add(pcos3);
sc1->associated_geometry()->add(pcos4);
sc1->master_representation(stp_preferred_surface_curve_representation_pcurve_s1);
stp_surface_curve * sc2 = pnew stp_surface_curve; //#80
sc2->curve_3d(circ3);
sc2->associated_geometry()->add(pcos5);
sc2->associated_geometry()->add(pcos6);
sc2->master_representation(stp_preferred_surface_curve_representation_pcurve_s1);
stp_surface_curve * sc3 = pnew stp_surface_curve; //#134
sc3->curve_3d(circ5);
sc3->associated_geometry()->add(pcos9);
sc3->associated_geometry()->add(pcos10);
sc3->master_representation(stp_preferred_surface_curve_representation_pcurve_s1);
stp_seam_curve * seam1 = pnew stp_seam_curve; //#26
seam1->curve_3d(l1);
seam1->associated_geometry()->add(pcos1);
seam1->associated_geometry()->add(pcos2);
seam1->master_representation(stp_preferred_surface_curve_representation_pcurve_s1);
stp_seam_curve * seam2 = pnew stp_seam_curve; //#112
seam2->curve_3d(circ4);
seam2->associated_geometry()->add(pcos7);
seam2->associated_geometry()->add(pcos8);
seam2->master_representation(stp_preferred_surface_curve_representation_pcurve_s1);
//Edge Curve definition
stp_edge_curve * ec1 = pnew stp_edge_curve; //#21
ec1->edge_start(vp1);
ec1->edge_end(vp2);
ec1->edge_geometry(seam1);
ec1->same_sense(1);
stp_edge_curve * ec2 = pnew stp_edge_curve; //#51
ec2->edge_start(vp2);
ec2->edge_end(vp2);
ec2->edge_geometry(sc1);
ec2->same_sense(1);
stp_edge_curve * ec3 = pnew stp_edge_curve; //#79
ec3->edge_start(vp1);
ec3->edge_end(vp1);
ec3->edge_geometry(sc2);
ec3->same_sense(1);
stp_edge_curve * ec4 = pnew stp_edge_curve; //#109
ec4->edge_start(vp1);
ec4->edge_end(vp3);
ec4->edge_geometry(seam2);
ec4->same_sense(1);
stp_edge_curve * ec5 = pnew stp_edge_curve; //#133
ec5->edge_start(vp3);
ec5->edge_end(vp3);
ec5->edge_geometry(sc3);
ec5->same_sense(1);
//Oriented Edge Definitions
stp_oriented_edge * oe1 = pnew stp_oriented_edge; //#20
oe1->edge_element(ec1);
oe1->orientation(1);
stp_oriented_edge * oe2 = pnew stp_oriented_edge; //#50
oe2->edge_element(ec2);
oe2->orientation(0);
stp_oriented_edge * oe3 = pnew stp_oriented_edge; //#77
oe3->edge_element(ec1);
oe3->orientation(0);
stp_oriented_edge * oe4 = pnew stp_oriented_edge; //#78
oe4->edge_element(ec3);
oe4->orientation(1);
stp_oriented_edge * oe5 = pnew stp_oriented_edge; //#108
oe5->edge_element(ec4);
oe5->orientation(0);
stp_oriented_edge * oe6 = pnew stp_oriented_edge; //#130
oe6->edge_element(ec3);
oe6->orientation(1);
stp_oriented_edge * oe7 = pnew stp_oriented_edge; //#131
oe7->edge_element(ec4);
oe7->orientation(1);
stp_oriented_edge * oe8 = pnew stp_oriented_edge; //#132
oe8->edge_element(ec5);
oe8->orientation(0);
stp_oriented_edge * oe9 = pnew stp_oriented_edge; //#162
oe9->edge_element(ec2);
oe9->orientation(1);
stp_oriented_edge * oe10 = pnew stp_oriented_edge; //#166
oe10->edge_element(ec5);
oe10->orientation(1);
//Edge Loop definition and Axis2 Placements
stp_edge_loop * el1 = pnew stp_edge_loop; //#19
el1->edge_list()->add(oe1);
el1->edge_list()->add(oe2);
el1->edge_list()->add(oe3);
el1->edge_list()->add(oe4);
stp_edge_loop * el2 = pnew stp_edge_loop; //#107
el2->edge_list()->add(oe5);
el2->edge_list()->add(oe6);
el2->edge_list()->add(oe7);
el2->edge_list()->add(oe8);
stp_edge_loop * el3 = pnew stp_edge_loop; //#161
el3->edge_list()->add(oe9);
stp_edge_loop * el4 = pnew stp_edge_loop; //#165
el4->edge_list()->add(oe10);
//Face bounds and surface declarations
stp_face_bound * b1 = pnew stp_face_bound; //#18
b1->bound(el1);
b1->orientation(1);
stp_face_bound * b2 = pnew stp_face_bound; //#106
b2->bound(el2);
b2->orientation(0);
stp_face_bound * b3 = pnew stp_face_bound; //#160
b3->bound(el3);
b3->orientation(1);
stp_face_bound * b4 = pnew stp_face_bound; //#164
b4->bound(el4);
b4->orientation(0);
//Advanced Faces declarations
stp_advanced_face * f1 = pnew stp_advanced_face; //#17
f1->bounds()->add(b1);
f1->face_geometry(cs1);
f1->same_sense(1);
stp_advanced_face * f2 = pnew stp_advanced_face; //#105
f2->bounds()->add(b2);
f2->face_geometry(ts1);
f2->same_sense(1);
stp_advanced_face * f3 = pnew stp_advanced_face; //#159
f3->bounds()->add(b3);
f3->face_geometry(plane1);
f3->same_sense(1);
stp_advanced_face * f4 = pnew stp_advanced_face; //#163
f4->bounds()->add(b4);
f4->face_geometry(plane2);
f4->same_sense(0);
//Closed Shell Declaration
stp_closed_shell * sh = pnew stp_closed_shell;
sh->cfs_faces()->add(f1);
sh->cfs_faces()->add(f2);
sh->cfs_faces()->add(f3);
sh->cfs_faces()->add(f4);
//Manifold solid brep and axis2_placement_3d
stp_manifold_solid_brep * brep = pnew stp_manifold_solid_brep;
brep->outer(sh);
advsol->items()->add(a2p3d); //Add everything to the shape rep
advsol->items()->add(brep);
return;
}
}
//the x, y, and z points here are the middle of the top face of the cylinder
void create_any_cylinder(stp_advanced_brep_shape_representation * advsol, const double &diam,
const double &hei, const double &x, const double &y, const double &z, const char *color){
//Variable to create radius entity for various entities used
double temp = diam / 2.0;
//Final axis placements and cartesian points/vectors
stp_cartesian_point* p1 = pnew stp_cartesian_point;
p1->name("");
p1->coordinates()->add(x);
p1->coordinates()->add(y);
p1->coordinates()->add(z-hei);
stp_direction * dir1 = pnew stp_direction;
dir1->direction_ratios()->add(0);
dir1->direction_ratios()->add(0);
dir1->direction_ratios()->add(1);
stp_direction * dir2 = pnew stp_direction;
dir2->direction_ratios()->add(1);
dir2->direction_ratios()->add(0);
dir2->direction_ratios()->add(0);
stp_axis2_placement_3d * a2p32 = pnew stp_axis2_placement_3d("", p1, dir1, dir2);
stp_axis2_placement * a2p4 = pnew stp_axis2_placement;
rose_put_nested_object(a2p4, a2p32);
stp_cylindrical_surface * cs1 = pnew stp_cylindrical_surface;
cs1->position(a2p32);
cs1->radius(temp);
stp_cartesian_point* p5 = pnew stp_cartesian_point;
p5->name("");
p5->coordinates()->add(x);
p5->coordinates()->add(y);
p5->coordinates()->add(z);
stp_vector * vec1 = pnew stp_vector;
vec1->orientation(dir1);
vec1->magnitude(1);
stp_axis2_placement_3d* ap3d = pnew stp_axis2_placement_3d("", p5, dir1, dir2);
stp_axis2_placement * a2p1 = pnew stp_axis2_placement;
rose_put_nested_object(a2p1, ap3d);
//Pcurve and surface geometry definition
stp_cartesian_point* p3 = pnew stp_cartesian_point;
p3->name("");
p3->coordinates()->add(x+temp);
p3->coordinates()->add(y);
p3->coordinates()->add(z);
//needed
stp_circle * circ1 = pnew stp_circle;
circ1->position(a2p1);
circ1->radius(temp);
//needed
stp_cartesian_point* p4 = pnew stp_cartesian_point;
p4->name("");
p4->coordinates()->add(x+temp);
p4->coordinates()->add(y);
p4->coordinates()->add(z-hei);
stp_line * l1 = pnew stp_line;
l1->pnt(p4);
l1->dir(vec1);
//needed
stp_circle * circ2 = pnew stp_circle;
circ2->position(a2p4);
circ2->radius(temp);
//Vertex Point and Surface Curve definition
stp_vertex_point * vp1 = pnew stp_vertex_point;
vp1->vertex_geometry(p3);
//needed
stp_vertex_point * vp2 = pnew stp_vertex_point;
vp2->vertex_geometry(p4);
//Edge Curve definition
stp_edge_curve * ec1 = pnew stp_edge_curve;
ec1->edge_start(vp1);
ec1->edge_end(vp1);
ec1->edge_geometry(circ1);
ec1->same_sense(1);
stp_edge_curve * ec2 = pnew stp_edge_curve;
ec2->edge_start(vp2);
ec2->edge_end(vp1);
ec2->edge_geometry(l1);
ec2->same_sense(1);
stp_edge_curve * ec3 = pnew stp_edge_curve;
ec3->edge_start(vp2);
ec3->edge_end(vp2);
ec3->edge_geometry(circ2);
ec3->same_sense(1);
//Oriented Edge Definitions
stp_oriented_edge * oe1 = pnew stp_oriented_edge;
oe1->edge_element(ec1);
oe1->orientation(0);
stp_oriented_edge * oe2 = pnew stp_oriented_edge;
oe2->edge_element(ec2);
oe2->orientation(0);
stp_oriented_edge * oe3 = pnew stp_oriented_edge;
oe3->edge_element(ec3);
oe3->orientation(1);
stp_oriented_edge * oe4 = pnew stp_oriented_edge;
oe4->edge_element(ec2);
oe4->orientation(1);
stp_oriented_edge * oe5 = pnew stp_oriented_edge;
oe5->edge_element(ec1);
oe5->orientation(1);
stp_oriented_edge * oe6 = pnew stp_oriented_edge;
oe6->edge_element(ec3);
oe6->orientation(0);
//Edge Loop definition and Axis2 Placements
stp_edge_loop * el1 = pnew stp_edge_loop;
el1->edge_list()->add(oe1);
el1->edge_list()->add(oe2);
el1->edge_list()->add(oe3);
el1->edge_list()->add(oe4);
stp_edge_loop * el2 = pnew stp_edge_loop;
el2->edge_list()->add(oe5);
stp_cartesian_point* p2 = pnew stp_cartesian_point;
p2->name("");
p2->coordinates()->add(x);
p2->coordinates()->add(y);
p2->coordinates()->add(z-hei);
stp_axis2_placement_3d * a2p33 = pnew stp_axis2_placement_3d("", p2, dir1, dir2);
stp_edge_loop * el3 = pnew stp_edge_loop;
el3->edge_list()->add(oe6);
//Face bounds and surface declarations
stp_face_bound * b1 = pnew stp_face_bound;
b1->bound(el1);
b1->orientation(1);
stp_face_bound * b2 = pnew stp_face_bound;
b2->bound(el2);
b2->orientation(1);
stp_plane * plane1 = pnew stp_plane;
plane1->position(a2p33);
stp_face_bound * b3 = pnew stp_face_bound;
b3->bound(el3);
b3->orientation(1);
stp_plane * plane2 = pnew stp_plane;
plane2->position(a2p32);
//Advanced Faces declarations
stp_advanced_face * f1 = pnew stp_advanced_face;
f1->bounds()->add(b1);
f1->face_geometry(cs1);
f1->same_sense(1);
stp_advanced_face * f2 = pnew stp_advanced_face;
f2->bounds()->add(b2);
f2->face_geometry(plane1);
f2->same_sense(1);
stp_advanced_face * f3 = pnew stp_advanced_face;
f3->bounds()->add(b3);
f3->face_geometry(plane2);
f3->same_sense(0);
//Closed Shell Declaration
stp_closed_shell * sh = pnew stp_closed_shell;
sh->cfs_faces()->add(f1);
sh->cfs_faces()->add(f2);
sh->cfs_faces()->add(f3);
//Manifold solid brep and axis2_placement_3d
stp_manifold_solid_brep * brep = pnew stp_manifold_solid_brep;
brep->outer(sh);
advsol->items()->add(brep);
if (color)
{
color_face (f1, color);
color_face (f2, color);
color_face (f3, color);
}
return;
}
void create_any_cylinder(stp_advanced_brep_shape_representation * advsol, double diam, double hei){
//Variable to create radius entity for various entities used
double temp = diam / 2.0;
//Final axis placements and cartesian points/vectors
stp_cartesian_point* p1 = pnew stp_cartesian_point;
p1->name("");
p1->coordinates()->add(0);
p1->coordinates()->add(0);
p1->coordinates()->add(0);
stp_direction * dir1 = pnew stp_direction;
dir1->direction_ratios()->add(0);
dir1->direction_ratios()->add(0);
dir1->direction_ratios()->add(1);
stp_direction * dir2 = pnew stp_direction;
dir2->direction_ratios()->add(1);
dir2->direction_ratios()->add(0);
dir2->direction_ratios()->add(0);
stp_axis2_placement_3d * a2p32 = pnew stp_axis2_placement_3d("", p1, dir1, dir2);
stp_axis2_placement * a2p4 = pnew stp_axis2_placement;
rose_put_nested_object(a2p4, a2p32);
stp_cylindrical_surface * cs1 = pnew stp_cylindrical_surface;
cs1->position(a2p32);
cs1->radius(temp);
stp_direction * dir5 = pnew stp_direction;
dir5->direction_ratios()->add(1);
dir5->direction_ratios()->add(0);
stp_direction * dir6 = pnew stp_direction;
dir6->direction_ratios()->add(0);
dir6->direction_ratios()->add(1);
stp_cartesian_point* p5 = pnew stp_cartesian_point;
p5->name("");
p5->coordinates()->add(0);
p5->coordinates()->add(0);
p5->coordinates()->add(hei);
stp_cartesian_point* p6 = pnew stp_cartesian_point;
p6->name("");
p6->coordinates()->add(0);
p6->coordinates()->add(hei);
stp_cartesian_point* p10 = pnew stp_cartesian_point;
p10->name("");
p10->coordinates()->add(0);
p10->coordinates()->add(0);
stp_vector * vec2 = pnew stp_vector;
vec2->orientation(dir5);
vec2->magnitude(1);
stp_axis2_placement_2d * a2p2d2 = pnew stp_axis2_placement_2d;
a2p2d2->location(p10);
a2p2d2->ref_direction(dir5);
stp_axis2_placement * a2p3 = pnew stp_axis2_placement;
rose_put_nested_object(a2p3, a2p2d2);
stp_cartesian_point* p7 = pnew stp_cartesian_point;
p7->name("");
p7->coordinates()->add(6.28318530718);
p7->coordinates()->add(0);
stp_vector * vec3 = pnew stp_vector;
vec3->orientation(dir6);
vec3->magnitude(1);
//Line and circle definitions
stp_line * l2 = pnew stp_line;
l2->pnt(p6);
l2->dir(vec2);
stp_geometric_representation_context * rc1 = pnew stp_geometric_representation_context;
rc1->context_identifier("REPRESENTATION_CONTEXT('2D SPACE','')");
rc1->context_type("PARAMETRIC_REPRESENTATION_CONTEXT()");
rc1->coordinate_space_dimension(2);
stp_axis2_placement_3d * a2p34 = pnew stp_axis2_placement_3d("", p5, dir1, dir2);
stp_circle * circ3 = pnew stp_circle;
circ3->position(a2p3);
circ3->radius(temp);
stp_line * l3 = pnew stp_line;
l3->pnt(p7);
l3->dir(vec3);
stp_line * l4 = pnew stp_line;
l4->pnt(p10);
l4->dir(vec3);
stp_line * l5 = pnew stp_line;
l5->pnt(p10);
l5->dir(vec2);
stp_circle * circ4 = pnew stp_circle;
circ4->position(a2p3);
circ4->radius(temp);
//Definitional Representation and plane/vector definitions
stp_definitional_representation * dr6 = pnew stp_definitional_representation;
dr6->items()->add(circ4);
dr6->context_of_items(rc1);
stp_plane * plane4 = pnew stp_plane;
plane4->position(a2p32);
stp_definitional_representation * dr5 = pnew stp_definitional_representation;
dr5->items()->add(l5);
dr5->context_of_items(rc1);
stp_axis2_placement_2d * a2p2d = pnew stp_axis2_placement_2d;
a2p2d->location(p10);
a2p2d->ref_direction(dir5);
stp_axis2_placement * a2p2 = pnew stp_axis2_placement;
rose_put_nested_object(a2p2, a2p2d);
stp_definitional_representation * dr4 = pnew stp_definitional_representation;
dr4->items()->add(l4);
dr4->context_of_items(rc1);
stp_definitional_representation * dr3 = pnew stp_definitional_representation;
dr3->items()->add(l3);
dr3->context_of_items(rc1);
stp_vector * vec1 = pnew stp_vector;
vec1->orientation(dir1);
vec1->magnitude(1);
stp_definitional_representation * dr2 = pnew stp_definitional_representation;
dr2->items()->add(circ3);
dr2->context_of_items(rc1);
stp_plane * plane3 = pnew stp_plane;
plane3->position(a2p34);
stp_definitional_representation * dr1 = pnew stp_definitional_representation;
dr1->items()->add(l2);
dr1->context_of_items(rc1);
stp_axis2_placement_3d* ap3d = pnew stp_axis2_placement_3d("", p5, dir1, dir2);
stp_axis2_placement * a2p1 = pnew stp_axis2_placement;
rose_put_nested_object(a2p1, ap3d);
//Pcurve and surface geometry definition
stp_cartesian_point* p3 = pnew stp_cartesian_point;
p3->name("");
p3->coordinates()->add(temp);
p3->coordinates()->add(0);
p3->coordinates()->add(hei);
stp_circle * circ1 = pnew stp_circle;
circ1->position(a2p1);
circ1->radius(temp);
stp_pcurve * pc1 = pnew stp_pcurve;
pc1->basis_surface(cs1);
pc1->reference_to_curve(dr1);
stp_pcurve_or_surface * pcos1 = pnew stp_pcurve_or_surface;
rose_put_nested_object(pcos1, pc1);
stp_pcurve * pc2 = pnew stp_pcurve;
pc2->basis_surface(plane3);
pc2->reference_to_curve(dr2);
stp_pcurve_or_surface * pcos2 = pnew stp_pcurve_or_surface;
rose_put_nested_object(pcos2, pc2);
stp_cartesian_point* p4 = pnew stp_cartesian_point;
p4->name("");
p4->coordinates()->add(temp);
p4->coordinates()->add(0);
p4->coordinates()->add(0);
stp_line * l1 = pnew stp_line;
l1->pnt(p4);
l1->dir(vec1);
stp_pcurve * pc3 = pnew stp_pcurve;
pc3->basis_surface(cs1);
pc3->reference_to_curve(dr3);
stp_pcurve_or_surface * pcos3 = pnew stp_pcurve_or_surface;
rose_put_nested_object(pcos3, pc3);
stp_pcurve * pc4 = pnew stp_pcurve;
pc4->basis_surface(cs1);
pc4->reference_to_curve(dr4);
stp_pcurve_or_surface * pcos4 = pnew stp_pcurve_or_surface;
rose_put_nested_object(pcos4, pc4);
stp_circle * circ2 = pnew stp_circle;
circ2->position(a2p4);
circ2->radius(temp);
stp_pcurve * pc5 = pnew stp_pcurve;
pc5->basis_surface(cs1);
pc5->reference_to_curve(dr5);
stp_pcurve_or_surface * pcos5 = pnew stp_pcurve_or_surface;
rose_put_nested_object(pcos5, pc5);
stp_pcurve * pc6 = pnew stp_pcurve;
pc6->basis_surface(plane4);
pc6->reference_to_curve(dr6);
stp_pcurve_or_surface * pcos6 = pnew stp_pcurve_or_surface;
rose_put_nested_object(pcos6, pc6);
//Vertex Point and Surface Curve definition
stp_vertex_point * vp1 = pnew stp_vertex_point;
vp1->vertex_geometry(p3);
stp_surface_curve * sc1 = pnew stp_surface_curve;
sc1->curve_3d(circ1);
sc1->associated_geometry()->add(pcos1);
sc1->associated_geometry()->add(pcos2);
sc1->master_representation(stp_preferred_surface_curve_representation_pcurve_s1);
stp_vertex_point * vp2 = pnew stp_vertex_point;
vp2->vertex_geometry(p4);
stp_seam_curve * seam1 = pnew stp_seam_curve;
seam1->curve_3d(l1);
seam1->associated_geometry()->add(pcos3);
seam1->associated_geometry()->add(pcos4);
seam1->master_representation(stp_preferred_surface_curve_representation_pcurve_s1);
stp_surface_curve * sc2 = pnew stp_surface_curve;
sc2->curve_3d(circ2);
sc2->associated_geometry()->add(pcos5);
sc2->associated_geometry()->add(pcos6);
sc2->master_representation(stp_preferred_surface_curve_representation_pcurve_s1);
//Edge Curve definition
stp_edge_curve * ec1 = pnew stp_edge_curve;
ec1->edge_start(vp1);
ec1->edge_end(vp1);
ec1->edge_geometry(sc1);
ec1->same_sense(1);
stp_edge_curve * ec2 = pnew stp_edge_curve;
ec2->edge_start(vp2);
ec2->edge_end(vp1);
ec2->edge_geometry(seam1);
ec2->same_sense(1);
stp_edge_curve * ec3 = pnew stp_edge_curve;
ec3->edge_start(vp2);
ec3->edge_end(vp2);
ec3->edge_geometry(sc2);
ec3->same_sense(1);
//Oriented Edge Definitions
stp_oriented_edge * oe1 = pnew stp_oriented_edge;
oe1->edge_element(ec1);
oe1->orientation(0);
stp_oriented_edge * oe2 = pnew stp_oriented_edge;
oe2->edge_element(ec2);
oe2->orientation(0);
stp_oriented_edge * oe3 = pnew stp_oriented_edge;
oe3->edge_element(ec3);
oe3->orientation(1);
stp_oriented_edge * oe4 = pnew stp_oriented_edge;
oe4->edge_element(ec2);
oe4->orientation(1);
stp_oriented_edge * oe5 = pnew stp_oriented_edge;
oe5->edge_element(ec1);
oe5->orientation(1);
stp_oriented_edge * oe6 = pnew stp_oriented_edge;
oe6->edge_element(ec3);
oe6->orientation(0);
//Edge Loop definition and Axis2 Placements
stp_edge_loop * el1 = pnew stp_edge_loop;
el1->edge_list()->add(oe1);
el1->edge_list()->add(oe2);
el1->edge_list()->add(oe3);
el1->edge_list()->add(oe4);
stp_edge_loop * el2 = pnew stp_edge_loop;
el2->edge_list()->add(oe5);
stp_cartesian_point* p2 = pnew stp_cartesian_point;
p2->name("");
p2->coordinates()->add(0);
p2->coordinates()->add(0);
p2->coordinates()->add(hei);
stp_axis2_placement_3d * a2p33 = pnew stp_axis2_placement_3d("", p2, dir1, dir2);
stp_edge_loop * el3 = pnew stp_edge_loop;
el3->edge_list()->add(oe6);
//Face bounds and surface declarations
stp_face_bound * b1 = pnew stp_face_bound;
b1->bound(el1);
b1->orientation(1);
stp_face_bound * b2 = pnew stp_face_bound;
b2->bound(el2);
b2->orientation(1);
stp_plane * plane1 = pnew stp_plane;
plane1->position(a2p33);
stp_face_bound * b3 = pnew stp_face_bound;
b3->bound(el3);
b3->orientation(1);
stp_plane * plane2 = pnew stp_plane;
plane2->position(a2p32);
//Advanced Faces declarations
stp_advanced_face * f1 = pnew stp_advanced_face;
f1->bounds()->add(b1);
f1->face_geometry(cs1);
f1->same_sense(1);
stp_advanced_face * f2 = pnew stp_advanced_face;
f2->bounds()->add(b2);
f2->face_geometry(plane1);
f2->same_sense(1);
stp_advanced_face * f3 = pnew stp_advanced_face;
f3->bounds()->add(b3);
f3->face_geometry(plane2);
f3->same_sense(0);
//Closed Shell Declaration
stp_closed_shell * sh = pnew stp_closed_shell;
sh->cfs_faces()->add(f1);
sh->cfs_faces()->add(f2);
sh->cfs_faces()->add(f3);
//Manifold solid brep and axis2_placement_3d
stp_manifold_solid_brep * brep = pnew stp_manifold_solid_brep;
brep->outer(sh);
stp_axis2_placement_3d* a2p5 = pnew stp_axis2_placement_3d("", p1, dir1, dir2);
advsol->items()->add(a2p5);
advsol->items()->add(brep);
return;
}
