+//#define BASE_STR
+#define BASE_LEFTJ
+//#define RIGHT_STR1
+#define RIGHT_STR2
+//#define LEFT_STR1
+//#define LEFT_STR2
+//#define LEFT_STR3
+//#define LEFT_STR4
+
+#define CON_RAD(r) ((r) * 1.4)
+#define CON_WIDTH 0.04
+
+static Object *gen_base_straight();
+static Object *gen_base_left_junction();
+static Object *gen_base_right_junction();
+static Object *gen_pipeworks();
+static Object *gen_pipe(float x, float y, float rad);
+static Object *gen_pipe_inwall(float x, float y, float rad);
+static Object *gen_pipe_s(float x, float y0, float y1, float rad);
+
+static Mat4 xform;
+
+#define add_object(o) \
+ do { \
+ Object *tmp = o; \
+ if(head) { \
+ tail->next = tmp; \
+ tail = tmp; \
+ } else { \
+ head = tail = tmp; \
+ } \
+ while(tail->next) tail = tail->next; \
+ } while(0)
+
+extern "C" Object *generate()
+{
+ Object *head = 0, *tail = 0;
+
+#ifdef BASE_STR
+ add_object(gen_base_straight());
+#endif
+#ifdef BASE_LEFTJ
+ add_object(gen_base_left_junction());
+#endif
+ add_object(gen_pipeworks());
+ return head;
+}
+
+static Object *gen_base_straight()
+{
+ Object *owalls = new Object;
+ owalls->mesh = new Mesh;
+ gen_box(owalls->mesh, -1, -2, -1, 1, 2);
+
+ xform.rotation_x(deg_to_rad(90));
+ owalls->mesh->apply_xform(xform);
+
+ owalls->mesh->remove_faces(16, 23);
+
+ xform.translation(0, 0.5, 0);
+ owalls->mesh->apply_xform(xform);
+
+ return owalls;
+}
+
+static Object *gen_base_left_junction()
+{
+ Mesh tmp;
+
+ Object *obj = new Object;
+ obj->mesh = new Mesh;
+
+ gen_box(obj->mesh, -1, -2, -1, 1, 3);
+
+ xform.rotation_x(deg_to_rad(90));
+ xform.translate(0, 0.5, 0);
+ obj->mesh->apply_xform(xform);
+
+ obj->mesh->remove_faces(24, 35);
+ obj->mesh->remove_faces(6, 11);
+
+ for(int i=0; i<2; i++) {
+ float sign = i == 0 ? 1.0f : -1.0f;
+ gen_plane(&tmp, 0.5, 1, 1, 1);
+ xform.rotation_y(deg_to_rad(90));
+ xform.translate(-0.5, 0.5, sign * 0.75);
+ tmp.apply_xform(xform);
+ obj->mesh->append(tmp);
+ }
+
+ gen_box(&tmp, -1, -0.5, -1, 1, 1);
+ xform.rotation_z(deg_to_rad(90));
+ xform.translate(-0.75, 0.5, 0);
+ tmp.apply_xform(xform);
+
+ tmp.remove_faces(8, 11);
+
+ obj->mesh->append(tmp);
+
+ return obj;
+}
+
+static Object *gen_pipeworks()
+{
+ Object *head = 0, *tail = 0;
+
+ float start_y = CON_RAD(0.08) + 0.01;
+
+#if defined(RIGHT_STR1) || defined(RIGHT_STR2)
+ add_object(gen_pipe(0.5 - 0.08, start_y, 0.08));
+#endif
+ start_y += (CON_RAD(0.08) + CON_RAD(0.05)) * 0.9;
+
+ for(int i=0; i<3; i++) {
+ float x = 0.5 - CON_RAD(0.05);
+ float y = start_y + i * (CON_RAD(0.05) * 1.8);
+
+#ifdef RIGHT_STR2
+ if(i == 1) {
+ add_object(gen_pipe_inwall(x, y, 0.05));
+ } else {
+ add_object(gen_pipe(x, y, 0.05));
+ }
+#endif
+#ifdef RIGHT_STR1
+ add_object(gen_pipe(x, y, 0.05));
+#endif
+ }
+
+#if defined(LEFT_STR1) || defined(LEFT_STR2) || defined(LEFT_STR3) || defined(LEFT_STR4)
+ //add_object(gen_pipe(-0.5 + 0.08, start_y, 0.08));
+ add_object(gen_pipe(-0.5 + CON_RAD(0.05), 0.8, 0.05));
+#endif
+#ifdef LEFT_STR1
+ add_object(gen_pipe(-0.5 + CON_RAD(0.05), 0.68, 0.05));
+#endif
+#ifdef LEFT_STR2
+ add_object(gen_pipe(-0.5 + CON_RAD(0.05), 0.3, 0.05));
+#endif
+#ifdef LEFT_STR3
+ add_object(gen_pipe_s(-0.5 + CON_RAD(0.05), 0.3, 0.67, 0.05));
+#endif
+#ifdef LEFT_STR4
+ add_object(gen_pipe_s(-0.5 + CON_RAD(0.05), 0.67, 0.3, 0.05));
+#endif
+ return head;
+}
+
+static Object *gen_pipe(float x, float y, float rad)
+{
+ Object *opipe = new Object;
+ opipe->mesh = new Mesh;
+
+
+ for(int i=0; i<2; i++) {
+ Mesh tmp;
+
+ float pipelen = 1 - CON_WIDTH * 2;
+ gen_cylinder(&tmp, rad, pipelen, 6, 1);
+ xform.translation(0, i - pipelen / 2 - CON_WIDTH, 0);
+ tmp.apply_xform(xform);
+ opipe->mesh->append(tmp);
+
+ gen_cylinder(&tmp, CON_RAD(rad), CON_WIDTH, 7, 1, 1);
+ xform.translation(0, 1 - i - CON_WIDTH / 2, 0);
+ tmp.apply_xform(xform);
+ opipe->mesh->append(tmp);
+
+ gen_cylinder(&tmp, CON_RAD(rad), CON_WIDTH, 7, 1, 1);
+ xform.translation(0, 1 - i - CON_WIDTH * 1.5 - pipelen, 0);
+ tmp.apply_xform(xform);
+ opipe->mesh->append(tmp);
+ }
+
+ xform.rotation_x(deg_to_rad(90));
+ opipe->mesh->apply_xform(xform);
+ opipe->xform.translation(x, y, 0);
+
+ return opipe;
+}
+
+static Object *gen_pipe_inwall(float x, float y, float rad)
+{
+ Object *opipe = new Object;
+ opipe->mesh = new Mesh;
+
+ const float pipelen = 0.2;
+ float zoffs = 1.0 - pipelen - CON_WIDTH;
+
+ for(int i=0; i<2; i++) {
+ Mesh tmp;
+ float sign = i == 0 ? 1.0f : -1.0f;
+
+ gen_torus(&tmp, rad * 2.0, rad, 4, 7, 0.25);
+ xform = Mat4::identity;
+ if(i > 0) xform.rotate_y(deg_to_rad(90));
+ xform.translate(rad * 2.0, 0, sign * zoffs);
+ tmp.apply_xform(xform);
+ opipe->mesh->append(tmp);
+
+ gen_cylinder(&tmp, rad, pipelen, 7, 1);
+ xform.rotation_x(deg_to_rad(90));
+ xform.rotate_z(deg_to_rad(90));
+ xform.translate(0, 0, sign * (zoffs + pipelen / 2.0));
+ tmp.apply_xform(xform);
+ opipe->mesh->append(tmp);
+
+ gen_cylinder(&tmp, CON_RAD(rad), CON_WIDTH, 7, 1, 1);
+ xform.rotation_x(deg_to_rad(90));
+ xform.translate(0, 0, sign * (1 - CON_WIDTH / 2.0));
+ tmp.apply_xform(xform);
+ opipe->mesh->append(tmp);
+ }
+
+ opipe->xform.translation(x, y, 0);
+
+ return opipe;
+}
+
+static Object *gen_pipe_s(float x, float y0, float y1, float rad)
+{
+ Mesh tmp;
+ float dist = fabs(y0 - y1);
+ float pipelen = 1.0f - rad * 2.0 - CON_WIDTH / 2.0;
+
+ Object *obj = new Object;
+ obj->mesh = new Mesh;
+
+ for(int i=0; i<2; i++) {
+ float zsign = i == 0 ? 1.0f : -1.0f;
+ float ysign = zsign * (y0 > y1 ? 1.0f : -1.0f);
+
+ gen_torus(&tmp, rad * 2.0, rad, 4, 6, 0.25);
+ xform.rotation_z(deg_to_rad(90) * ysign);
+ if(i != 0) xform.rotate_x(deg_to_rad(y0 < y1 ? -90 : 90));
+ xform.translate(0, ysign * (-dist / 2.0 + rad * 2.0), zsign * rad * 2.0);
+ tmp.apply_xform(xform);
+ obj->mesh->append(tmp);
+
+ gen_cylinder(&tmp, rad, pipelen, 6, 1);
+ xform.rotation_x(deg_to_rad(90));
+ xform.translate(0, ysign * -dist / 2.0, zsign * (pipelen / 2.0 + rad * 2.0));
+ tmp.apply_xform(xform);
+ obj->mesh->append(tmp);
+
+ gen_cylinder(&tmp, CON_RAD(rad), CON_WIDTH, 7, 1, 1);
+ xform.rotation_x(deg_to_rad(90));
+ xform.translate(0, ysign * -dist / 2.0, zsign * (1 - CON_WIDTH / 2.0));
+ tmp.apply_xform(xform);
+ obj->mesh->append(tmp);
+
+ gen_cylinder(&tmp, CON_RAD(rad), CON_WIDTH, 7, 1, 1);
+ xform.rotation_x(deg_to_rad(90));
+ xform.translate(0, ysign * -dist / 2.0, zsign * (rad * 2.0 + CON_WIDTH / 2.0));
+ tmp.apply_xform(xform);
+ obj->mesh->append(tmp);
+ }
+
+ gen_cylinder(&tmp, rad, dist - rad * 4.0, 6, 1);
+ obj->mesh->append(tmp);
+
+ obj->xform.translation(x, (y0 + y1) / 2.0, 0);
+ return obj;
+}