int main(int argc, char* argv[]) { ROSE.quiet(1); //Get rid of annoying ST-Dev output. stplib_init(); // initialize merged cad library FILE *out; out = fopen("log.txt", "w"); ROSE.error_reporter()->error_file(out); RoseP21Writer::max_spec_version(PART21_ED3); //We need to use Part21 Edition 3 otherwise references won't be handled properly. RoseP21Writer::preserve_eids=ROSE_TRUE; RoseDesign * testAnchorAndData = ROSE.newDesign("testAnchorAndData"); stplib_put_schema(testAnchorAndData, stplib_schema_ap214); stp_cartesian_point *point =pnew stp_cartesian_point; point->entity_id(321); //Make the entity ID something we can check later. point->name("TestPoint"); point->coordinates()->add(1.01); point->coordinates()->add(2.01); point->coordinates()->add(3.01); testAnchorAndData->addName("TestAnchor", point); testAnchorAndData->save(); RoseDesign * testRefAndAnchor = ROSE.newDesign("testRefAndAnchor"); stplib_put_schema(testRefAndAnchor, stplib_schema_ap214); auto ref = rose_make_ref(testRefAndAnchor, "testAnchorAndData.stp#TestAnchor"); //Manually make the reference point to the other file. ref->entity_id(123); //Just give it an entity id so we can check it later. testRefAndAnchor->addName("ParentAnchor", ref); //Add an anchor which points to the reference. stp_circular_area *area = pnew stp_circular_area; //Make something to test if the reference resolves properly area->name("testarea"); area->radius(2.0); rose_put_ref(ref, area, "centre"); testRefAndAnchor->save(); //Okay, so now we have two files- one with an anchor pointing to a reference, and one with an anchor and the data the anchor points to. Lets see what the anchor in the higher file points to. std::cout << "Anchor " << testRefAndAnchor->nameTable()->listOfKeys()->get(0) <<" points to (should be 123): " <<testRefAndAnchor->nameTable()->listOfValues()->get(0)->entity_id() <<'\n'; //That should output "Anchor ParentAnchor points to: 123" //Now lets merge. //First things first, we close the child design just to be certain we are doing it EXACTLY LIKE MERGE. rose_move_to_trash(testAnchorAndData); testRefAndAnchor->saveAs("testmerge.stp"); rose_move_to_trash(testRefAndAnchor); rose_empty_trash(); //now all of this is out of memory. RoseDesign *parent = ROSE.findDesign("testmerge.stp"); //Open the new file. Don't mess with the files we created earlier. if (!parent) { std::cout << "Shit's f****d\n"; return EXIT_FAILURE; } //Call the URI parser function. RoseCursor * cursor = new RoseCursor; cursor->traverse(parent->reference_section()); cursor->domain(ROSE_DOMAIN(RoseReference));//Go through all the references in parent. All one of them. std::cout << "Cursor size (should be 1): " << cursor->size() <<'\n'; RoseObject * obj = cursor->next(); std::cout << "Reference ID (should be 123): " << obj->entity_id() << '\n'; ref = ROSE_CAST(RoseReference, obj); //Now we have the reference as an actual Reference object instead of a generic RoseObject. std::string file, anchor,dir="./"; URIParse(ref->uri(), file, anchor,dir); std::cout << "file (should be testAnchorAndData.stp): " << file << "\nanchor (should be TestAnchor): " << anchor << "\ndir (should be ./): " << dir << '\n'; std::cout << "Anchor " << parent->nameTable()->listOfKeys()->get(0) << " points to (should be 123): " << parent->nameTable()->listOfValues()->get(0)->entity_id() << '\n'; RoseDesign *child = ROSE.findDesign(file.substr(0, file.find('.')).c_str()); if (!child) { std::cout << "Shit's f****d\n"; return EXIT_FAILURE; } std::cout << "Anchor " << parent->nameTable()->listOfKeys()->get(0) << " points to (should be 123): " << parent->nameTable()->listOfValues()->get(0)->entity_id() << '\n'; obj = child->findObject(anchor.c_str()); //Get the object associated with the anchor std::cout << "Child Object Pointed to by Anchor Entity ID (should be 321): " << obj->entity_id() <<'\n'; obj->move(parent); //move object to parent so we have it in the right place, then resolve references. RoseRefUsage *rru = ref->usage(); //rru is a linked list of all the objects that use ref do { std::cout << "Resolving reference in entity ID: " << rru->user()->entity_id() <<'\n'; int rrureturn = ResolveRRU(rru,obj); if (-1 == rrureturn) break; } while (rru = rru->next_for_ref()); //Do this for anything that uses the reference. //parent->save(); //At this point, the data section references are resolved. You can check the output file if you want to be sure. Just uncomment that save. //Now resolve the reference in the anchor section. DictionaryOfRoseObject * anchors = parent->nameTable(); for (unsigned i = 0, sz = anchors->size(); i < sz; i++) { if (anchors->listOfValues()->get(i) == ref) { std::cout << "anchor " << anchors->listOfKeys()->get(i) << " has an entity ID of (should be 123): " << anchors->listOfValues()->get(i)->entity_id() <<'\n'; anchors->add(anchors->listOfKeys()->get(i), obj); std::cout << "anchor " << anchors->listOfKeys()->get(i) << " has an entity ID of (should be 321): " << anchors->listOfValues()->get(i)->entity_id() << '\n'; } } parent->save(); return EXIT_SUCCESS; }
void Partition::StepConversionAndOutput() { RoseCursor objects; RoseObject* obj; objects.traverse(design_); objects.domain(ROSE_DOMAIN(stp_advanced_brep_shape_representation)); int m = 1; int n = 1; while(obj = objects.next()) { stp_advanced_brep_shape_representation* pt = ROSE_CAST(stp_advanced_brep_shape_representation, obj); SetOfstp_representation_item* items = pt->items(); stp_representation_context* item = pt->context_of_items(); for(size_t i = 0; i < items->size(); i++) { stp_representation_item* it = items->get(i); if(!strcmp("axis2_placement_3d", it->className())) stp_axis2_placement_3d *axis = ROSE_CAST(stp_axis2_placement_3d, it); if(!strcmp("manifold_solid_brep", it->className())) { stp_manifold_solid_brep* solidBrep = ROSE_CAST(stp_manifold_solid_brep, it); stp_closed_shell* shell = solidBrep->outer(); SetOfstp_face* face = shell->cfs_faces(); GetSFaceInfo(face); StepEntity* step = new StepEntity(intersectionFaceList_); step->GenerateHalfSpaceList(); step->GenerateCIT(); step->GenerateHalfCharacteristicPoint(); step->PMCtest(); step->Output(&m, &n, "", vecOut_, false, false, false, false); } if(!strcmp("brep_with_voids", it->className())) { stp_brep_with_voids* voidsBrep = ROSE_CAST(stp_brep_with_voids, it); stp_closed_shell* shell = voidsBrep->outer(); SetOfstp_face* face = shell->cfs_faces(); GetSFaceInfo(face); StepEntity* step = new StepEntity(intersectionFaceList_); step->GenerateHalfSpaceList(); step->GenerateCIT(); step->GenerateHalfCharacteristicPoint(); step->PMCtest(); step->Output(&m, &n, "", vecOut_, false, false, false, false); SetOfstp_oriented_closed_shell* orientedShell = voidsBrep->voids(); for(size_t i = 0; i < orientedShell->size(); i++) { stp_oriented_closed_shell* oriClosedShell = orientedShell->get(i); stp_closed_shell* closeShell = oriClosedShell->closed_shell_element(); SetOfstp_face* face = closeShell->cfs_faces(); GetSFaceInfo(face); StepEntity* step = new StepEntity(intersectionFaceList_); step->GenerateHalfSpaceList(); step->GenerateCIT(); step->GenerateHalfCharacteristicPoint(); step->PMCtest(); step->Output(&m, &n, "", vecOut_, false, false, false, false); } } } } }