public static boolean couldPutHere(Item it, Posi_tion position, VehicleType ve) { if (position.getX() + it.get_width() > ve.get_width()) { return false; } if (position.getY() + it.get_length() > ve.get_length()) { return false; } return true; }
public void insertData(List<Item> response) { ContentValues[] content_values = new ContentValues[response.size()]; for (int i = 0; i < response.size(); i++) { Item report = response.get(i); content_values[i] = report.getContentValues(); } int integer = getActivity().getContentResolver().bulkInsert(Item.BASE_CONTENT_URI, content_values); }
public void getDocumentsList(int id) { DatabaseHandler dbHandler = new DatabaseHandler(getApplicationContext()); ArrayList<Item> nameWithImage = new ArrayList<Item>(); Item displayDocument = new Item(); Patient patient = dbHandler.getPatient(id); setTitle(patient.get_name() + "'s Documents"); Bitmap bmpImage = null; document_obj doc_obj = new document_obj(); List<document_obj> documentList = dbHandler.getDocuments(id); for (int i = 0; i < documentList.size(); i++) { if ((documentList.get(i).get_doc_name() != null) || (documentList.get(i).get_doc_name() != null)) { displayDocument.setTitle(documentList.get(i).get_doc_name()); displayDocument.setDiagnosis(documentList.get(i).get_doc_path()); if (documentList.get(i).get_bmp() == null) { doc_obj = documentList.get(i); doc_obj = PhotoHelper.addMissingBmp(doc_obj); dbHandler.updateDocument(doc_obj, "0"); } bmpImage = BitmapFactory.decodeByteArray( documentList.get(i).get_bmp(), 0, documentList.get(i).get_bmp().length); displayDocument.setBmp(bmpImage); displayDocument.setPatient_id(documentList.get(i).get_id()); nameWithImage.add(displayDocument); displayDocument = new Item(); } } displayDocuments(nameWithImage); }
public static int getLB(Item it, Posi_tion p, VehicleType ve) { // Can't be placed in vehicle if ((p.getY() + it.get_length() > ve.get_length()) || (p.getX() + it.get_width() > ve.get_width())) return 0; /* * int index = ve.unpacked.indexOf(it); ve.unpacked.remove(index); * ve.packed.add(it); */ int y1 = it.get_length() + p.getY(); int x1 = it.get_width() + p.getX(); int itArea = it.get_length() * it.get_width(); // Situation 1 if (ve.pos.size() == 1) { return remainArea - itArea; } // Situation 2 if (p.getX() == 0) { if (x1 < ve.pos.get(1).getX()) { return remainArea - itArea; } else { return remainArea - itArea - (x1 - ve.pos.get(1).getX()) * (ve.pos.get(0).getY() - ve.pos.get(1).getY()); } } // Situation 3 if (p.getY() == 0) { if (y1 < ve.pos.get(ve.pos.size() - 1).getY()) return remainArea - itArea; else return remainArea - itArea - (p.getX() - ve.pos.get(ve.pos.size() - 2).getX()) * (y1 - ve.pos.get(ve.pos.size() - 2).getY()); } // Situation 4 int ip = ve.pos.indexOf(p); if (x1 < ve.pos.get(ip + 1).getX() && y1 < ve.pos.get(ip - 1).getY()) return remainArea - itArea; else if (y1 >= ve.pos.get(ip - 1).getY()) return remainArea - itArea - (p.getX() - ve.pos.get(ip - 1).getX()) * (y1 - ve.pos.get(ip - 1).getY()); else if (x1 > ve.pos.get(ip + 1).getX()) return remainArea - itArea - (x1 - ve.pos.get(ip + 1).getX()) * (p.getY() - ve.pos.get(ip + 1).getY()); else return 0; }
public static boolean pack(ArrayList<Customer> customers, VehicleType ve) { double u = 0; ArrayList<Item> unpacked = new ArrayList<Item>(); ArrayList<Item> packed = new ArrayList<Item>(); for (Customer c : customers) { for (Item it : c.get_items()) { unpacked.add(it); u += it.get_area(); } } u = u / ve.get_area(); for (Item item : unpacked) { double vi = omega * item.get_area() + (1 - omega) * Math.pow(item.get_area(), p) / u; item.setUi(vi / item.get_area()); } // 1. sorting Collections.sort(unpacked, Item.sort_by_Ui); // 2. loop int size = unpacked.size(); double maxRemainArea = 0; for (int i = 0; i < size; ++i) { int k = -1; Item it = unpacked.get(i); for (int j = 0; j < ve.pos.size(); ++j) { // 3. inside loop you do GetLB if (couldPutHere(it, ve.pos.get(j), ve)) { int res = getLB(it, ve.pos.get(j), ve); if (maxRemainArea < res) { maxRemainArea = res; k = j; } } } if (k != -1) { Posi_tion positon = ve.pos.get(k); unpacked.remove(i); packed.add(it); it.set_item_x(positon.getX()); it.set_item_y(positon.getY()); // reset ve.pos; int x1 = ve.pos.get(k).getX() + it.get_width(); int y1 = ve.pos.get(k).getY() + it.get_length(); int itArea = it.get_length() * it.get_width(); // Situation 1 if (ve.pos.size() == 1) { remainArea = ve.get_area() - itArea; ve.pos.remove(0); ve.pos.add(new Posi_tion(0, it.get_length())); ve.pos.add(new Posi_tion(it.get_width(), 0)); } // Need to find all possible positions to put new item and put all positions in the // arraylist pos. // Situation 2 /* if (ve.pos.get(k).getX() == 0) { if (x1 < ve.pos.get(1).getX()) { ve.remainArea = ve.remainArea - itArea; ve.pos.add(new Position(0, ve.pos.get(0).y + it.get_width())); ve.pos.add(new Position(it.get_length(), veve.pos.sort(new PosComp());.pos.get(0).y)); ve.pos.remove(0); ve.pos.sort(new PosComp()); } else { ve.remainArea = ve.remainArea - itArea - (x1 - ve.pos.get(1).x) * (ve.pos.get(0).y - ve.pos.get(1).y); ve.pos.add(new Position(0, ve.pos.get(0).y + it.get_width())); ve.pos.add(new Position(it.get_length(), ve.pos.get(1).y)); ve.pos.remove(0); ve.pos.sort(new PosComp()); } } // Situation 3 if (ve.pos.get(k).y == 0) { if (y1 < ve.pos.get(ve.pos.size() - 1).y) { ve.remainArea = ve.remainArea - itArea; ve.pos.add(new Position(ve.pos.get(k).x, ve.pos.get(k).y + it.get_width())); ve.pos.add(new Position(x1, 0)); ve.pos.remove(k); ve.pos.sort(new PosComp()); } else { ve.remainArea = ve.remainArea - itArea - (ve.pos.get(k).x - ve.pos .get(ve.pos.size() - 2).x) * (y1 - ve.pos.get(ve.pos.size() - 2).y); ve.pos.add(new Position(ve.pos.get(k - 1).x, y1)); ve.pos.add(new Position(x1, 0)); ve.pos.remove(k); ve.pos.sort(new PosComp()); } } // Situation 4 int ip = ve.pos.indexOf(ve.pos.get(k)); if (x1 < ve.pos.get(ip + 1).x && y1 < ve.pos.get(ip - 1).y) { ve.remainArea = ve.remainArea - itArea; ve.pos.add(new Position(ve.pos.get(k).x, y1)); ve.pos.add(new Position(x1, ve.pos.get(k).y)); ve.pos.remove(k); ve.pos.sort(new PosComp()); } else if (y1 >= ve.pos.get(ip - 1).y) { ve.remainArea = ve.remainArea - itArea - (ve.pos.get(k).x - ve.pos.get(ip - 1).x) * (y1 - ve.pos.get(ip - 1).y); ve.pos.add(new Position(ve.pos.get(k - 1).x, y1)); ve.pos.add(new Position(x1, ve.pos.get(k).y)); ve.pos.remove(k); ve.pos.sort(new PosComp()); } else if (x1 > ve.pos.get(ip + 1).x) { ve.remainArea = ve.remainArea - itArea - (x1 - ve.pos.get(ip + 1).x) * (y1 - ve.pos.get(ip + 1).y); ve.pos.add(new Position(ve.pos.get(k).x, y1)); ve.pos.add(new Position(x1, ve.pos.get(k + 1).y)); ve.pos.remove(k); ve.pos.sort(new PosComp()); } else ;*/ } } if (unpacked.size() != 0) return false; else return true; }