Difference between revisions of "Java Desktop App - Zoo Management System"
Adelo Vieira (talk | contribs) (→An example of one of the classes) |
Adelo Vieira (talk | contribs) (→A look at the GUI) |
||
Line 377: | Line 377: | ||
<br /> | <br /> | ||
− | == | + | ==Take a look at the GUI== |
<gallery mode=packed-overlay> | <gallery mode=packed-overlay> | ||
File:ZooManagementSystem_GUI_1.png|Main Menu | File:ZooManagementSystem_GUI_1.png|Main Menu |
Revision as of 21:51, 8 December 2020
Contents
Project description
In this project, we have created a GUI Java (Swing) Application for a Zoo Management System:
- You can try the application by downloading the Java Jar file from this link: http://perso.sinfronteras.ws/images/2/27/ZooManagementSystem.jar
- You can also see or download the Java Project from our Github repository at: https://github.com/adeloaleman/JavaDesktopApp-ZooManagementSystem
- If you just want to take a look to the Application GUI, here we show some images that try to describe the most important features of the application.
Our Management System allows users (Zoo Administrators) to manage Animals and Zoo Keepers. Some of the functionalities that have been added to the system are:
- Search for Animals:
- Refine by: Type, Specie, Name, etc.
- Search for Keepers
- Add new animals to the database
- Add new keepers
- Update animals
- Manage aspects such as Medications, Vaccines, Offsprings, etc
- Update keepers
The most important concepts we have applied to build this applications are:
- Design Patters:
- We have implemented a Model-View-Controller MVC
- To facilitate communication between GUI components we have implemented a Mediator Pattern
- GUI Java Swing
- Inheritance, Polymorphism, Upcasting - Downcasting: These were the most important concepts we have learned and implemented in this project. Because animals are broken down into different types (see example below) we had implemented a class-based inheritance model where <Animal> is the super class. We often had to use Downcasting in order to get access to specific behaviors of a subclass into the Animal hierarchy.
- Abstraction
- Encapsulation
- Serialization: We have implemented data persistence through a file using serialization.
The Zoo has a number of Animals. These Animals are broken down into types: Mammal, Reptile, Avian, Aquatic, Insect. For example:
- Mammal:
- Avian
- Bat
- date of birth, date of arrival, fight, gender, ofspring, medication, vaccine, exhibit number
Class diagram
Figure 1: Data example
File:ClassDiagramCCTZoo.pdf Media:ClassDiagramCCTZoo.png
An example of one of the classes
src/cctzoo/model/SetUp.java
package cctzoo.model;
import cctzoo.model.animals.Animal;
import cctzoo.model.animals.Aquatic;
import cctzoo.model.animals.Avian;
import cctzoo.model.animals.CreateAquatic;
import cctzoo.model.animals.CreateAvian;
import cctzoo.model.animals.CreateMammal;
import cctzoo.model.animals.CreateMammalAquatic;
import cctzoo.model.animals.CreateReptile;
import cctzoo.model.animals.CreateReptileAquatic;
import cctzoo.model.animals.Insect;
import cctzoo.model.animals.Mammal;
import cctzoo.model.animals.Medication;
import cctzoo.model.animals.Reptile;
import cctzoo.model.animals.Vacine;
import cctzoo.model.keepers.Keeper;
import java.io.Serializable;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Random;
public class SetUp implements Serializable {
private ArrayList<Animal> myAnimals;
private ArrayList<Medication> myMedication;
private ArrayList<Vacine> myVacines;
private ArrayList<Keeper> myKeepers;
private String[] mammalSpecies = {"Tiger", "Elephant", "Bear", "Deer", "Squirrel", "Armadillo", "Ape", "Hyena", "Lemur", "Simian", "Jirafe", "Leopard", "Ocelot"};
private String[] reptileSpecies = {"Lizard", "Geckos", "Skink", "Gekkota", "Iguanidae", "Chamaleons", "Turtle", "Snake", "Lacertid", "Gila Monster", "Viper", "Tuatara"};
private String[] avianSpecies = {"Parrot", "Owl", "Tucan", "Swallow", "Sparrow", "Goose", "Potoo", "Heron", "Tern", "Bustard", "Kingfisher", "Turaco", "Eagle"};
private String[] mammalAquaticSpecies = {"Dolphin", "Wale","Pinguin", "See Cow", "Otter", "Pinniped", "Rhinoceros", "Seal", "American Beaver", "Manatee", "Capibara", "Hippopotamus" };
private String[] reptileAquatic = {"Crocodile", "Anaconda", "Coral Snake", "North Watter Snake", "Emydidae", "Homalopsis Snake", "Salamander", "Turtle", "Busmaster"};
private String[] names = {"Charlene", "Benny", "Della", "Herietta", "Dixie", "Guadalupe", "Nancy", "Byron", "Cora", "Nora", "Jody", "Blanca", "Sara", "Jeannie", "Ginger", "Dwight", "Bennie", "Ana", "Rex", "Eleanor", "Danielle", "Mack", "Verna", "Erik", "Leona"};
private String[] medication = {"Lovetoin", "Trandoronate", "Afanuma", "Cortimadin", "Tetapitant", "Ablastral", "Bactaxime", "Allokyn", "Sublamin", "Nornex", "Adiline", "Veratasol"};
private String[] vacine = {"AVA-BioThrax", "DTaP", "PCV13", "Rabies", "RV1", "RV5", "Vaccinia", "Tenivac", "MMRV", "Typhoid-Oral", "Flulaval", "MenACWY", "MenB", "Fluzone", "Zostavax"};
private String[] dates = {"03/09/2003", "13/06/1991", "17/02/1988", "09/01/2009", "28/10/1996", "02/08/2002", "31/08/1989", "22/11/1997", "29/06/2014", "10/02/1992", "12/09/2004",
"23/07/2003", "30/09/1993", "22/03/2016", "21/10/1988", "13/02/1990", "07/09/2008", "23/01/2011", "09/11/2015", "14/05/1998", "24/12/2008", "22/12/2011", "21/07/2016",
"25/08/1992", "26/10/2017", "24/04/1988", "14/10/2010", "15/09/1992", "29/01/2015", "09/12/1989", "12/12/1999", "02/05/2003", "17/12/1989", "05/03/2003"};
private String[] keepersNames = {"Jerold Rowser", "Anabelle Lilie", "Tory Linbdlon", "Elli Rinhaldo", "Lemuel Burget", "Jermaine Luong", "Manuela Forester", "Jeannie Yuen", "Bonita Ito", "Chery Meredith", "Gay Kettler", "Wendel Goldner", "Erika Luoma", "Lin Millighan"};
private String[] animalTypes = {"Mammal", "Reptile", "Avian", "Aquatic", "Insect"};
public SetUp() {
myAnimals = new ArrayList<Animal>();
myMedication = new ArrayList<>();
myVacines = new ArrayList<>();
myKeepers = new ArrayList<>();
}
public void setListMedication(int numMed) {
Random r = new Random();
for(int i = 0; i < numMed ; i++) {
myMedication.add(new Medication());
for(int j = 0 ; j < r.nextInt(4); j++) {
myMedication.get(i).addMedication(medication[r.nextInt(medication.length)]);
}
}
}
public void setListVacine(int numbVac) {
Random r = new Random();
for(int i = 0; i < numbVac ; i++) {
myVacines.add(new Vacine());
for(int j = 0 ; j < r.nextInt(4); j++) {
myVacines.get(i).addVacine(vacine[r.nextInt(vacine.length)]);
}
}
}
public void setListAnimals (int numAnimals) {
try {
Random r = new Random();
for (int i = 0; i< numAnimals; i++) {
switch (r.nextInt(5)) {
case 0:
myAnimals.add(new CreateMammal(mammalSpecies[r.nextInt(mammalSpecies.length)], names[r.nextInt(names.length)], dates[r.nextInt(dates.length)],
dates[r.nextInt(dates.length)], r.nextInt(2), myMedication.get(r.nextInt(myMedication.size())), myVacines.get(r.nextInt(myVacines.size()))));
// Down Casting to acces the mammal method furry
CreateMammal c;
c = (CreateMammal) myAnimals.get(myAnimals.size()-1);
c.setFurry(r.nextInt(2));
//Create Offsprings
for (int j = 0; j < r.nextInt(4); j++) {
c.createOffpring(names[r.nextInt(names.length)], dates[r.nextInt(dates.length)],
dates[r.nextInt(dates.length)], r.nextInt(2), myMedication.get(r.nextInt(myMedication.size())), myVacines.get(r.nextInt(myVacines.size())));
//Down Casting to set furry to the Offsprings
CreateMammal d;
d = (CreateMammal) c.getOffsprings().get(j);
d.setFurry(r.nextInt(2));
myAnimals.add(d);
}
break;
case 1:
myAnimals.add(new CreateMammalAquatic(mammalAquaticSpecies[r.nextInt(mammalAquaticSpecies.length)], names[r.nextInt(names.length)], dates[r.nextInt(dates.length)],
dates[r.nextInt(dates.length)], r.nextInt(2), myMedication.get(r.nextInt(myMedication.size())), myVacines.get(r.nextInt(myVacines.size()))));
// Down Casting to acces the mammal Aquatic properties
CreateMammalAquatic mAq;
mAq = (CreateMammalAquatic) myAnimals.get(myAnimals.size()-1);
mAq.setCanBeOutSideWatter(r.nextInt(2));
mAq.setFurry(r.nextInt(2));
//Create Offsprings
for (int j = 0; j < r.nextInt(4); j++) {
mAq.createOffpring(names[r.nextInt(names.length)], dates[r.nextInt(dates.length)],
dates[r.nextInt(dates.length)], r.nextInt(2), myMedication.get(r.nextInt(myMedication.size())), myVacines.get(r.nextInt(myVacines.size())));
//Down Casting to set unique fields to the Offsprings
CreateMammalAquatic mA2;
mA2 = (CreateMammalAquatic) mAq.getOffsprings().get(j);
mA2.setCanBeOutSideWatter(r.nextInt(2));
mA2.setFurry(r.nextInt(2));
myAnimals.add(mA2);
}
break;
case 2:
myAnimals.add(new CreateReptile(reptileSpecies[r.nextInt(reptileSpecies.length)], names[r.nextInt(names.length)], dates[r.nextInt(dates.length)],
dates[r.nextInt(dates.length)], r.nextInt(2), myMedication.get(r.nextInt(myMedication.size())), myVacines.get(r.nextInt(myVacines.size()))));
// Down Casting to acces the Reptile Method
CreateReptile rept;
rept = (CreateReptile) myAnimals.get(myAnimals.size()-1);
rept.setIsVennon(r.nextInt(2));
//Create Offsprings
for (int j = 0; j < r.nextInt(4); j++) {
rept.createOffpring(names[r.nextInt(names.length)], dates[r.nextInt(dates.length)],
dates[r.nextInt(dates.length)], r.nextInt(2), myMedication.get(r.nextInt(myMedication.size())), myVacines.get(r.nextInt(myVacines.size())));
CreateReptile rept2;
rept2 = (CreateReptile) rept.getOffsprings().get(j);
rept2.setIsVennon(r.nextInt(2));
myAnimals.add(rept2);
}
break;
case 3:
myAnimals.add(new CreateAvian(avianSpecies[r.nextInt(avianSpecies.length)], names[r.nextInt(names.length)], dates[r.nextInt(dates.length)],
dates[r.nextInt(dates.length)], r.nextInt(2), myMedication.get(r.nextInt(myMedication.size())), myVacines.get(r.nextInt(myVacines.size()))));
// Down Casting to acces the Avian Method
CreateAvian av;
av = (CreateAvian) myAnimals.get(myAnimals.size()-1);
av.setCanFligh(r.nextInt(2));
av.setHasFeeders(r.nextInt(2));
//Create Offsprings
for (int j = 0; j < r.nextInt(4); j++) {
av.createOffpring(names[r.nextInt(names.length)], dates[r.nextInt(dates.length)],
dates[r.nextInt(dates.length)], r.nextInt(2), myMedication.get(r.nextInt(myMedication.size())), myVacines.get(r.nextInt(myVacines.size())));
CreateAvian av2;
av2 = (CreateAvian) av.getOffsprings().get(j);
av2.setCanFligh(r.nextInt(2));
av2.setHasFeeders(r.nextInt(2));
myAnimals.add(av2);
}
break;
case 4:
myAnimals.add(new CreateReptileAquatic(reptileSpecies[r.nextInt(reptileSpecies.length)], names[r.nextInt(names.length)], dates[r.nextInt(dates.length)],
dates[r.nextInt(dates.length)], r.nextInt(2), myMedication.get(r.nextInt(myMedication.size())), myVacines.get(r.nextInt(myVacines.size()))));
// Down Casting to acces
CreateReptileAquatic ra;
ra = (CreateReptileAquatic) myAnimals.get(myAnimals.size()-1);
ra.canBeOutsideWatter(r.nextInt(2));
ra.isVennon(r.nextInt(2));
//Create Offsprings
for (int j = 0; j < r.nextInt(4); j++) {
ra.createOffpring(names[r.nextInt(names.length)], dates[r.nextInt(dates.length)],
dates[r.nextInt(dates.length)], r.nextInt(2), myMedication.get(r.nextInt(myMedication.size())), myVacines.get(r.nextInt(myVacines.size())));
CreateReptileAquatic ra2;
ra2 = (CreateReptileAquatic) ra.getOffsprings().get(j);
ra2.canBeOutsideWatter(r.nextInt(2));
ra2.isVennon(r.nextInt(2));
myAnimals.add(ra2);
}
}
}
} catch(Exception e) {
System.out.println("An Error has ocurred" + e);
}
}
public void setListKeepers(int numKeepers) {
Random r = new Random();
String type;
for(int i = 0; i < numKeepers ; i++) {
getMyKeepers().add(new Keeper(names[r.nextInt(names.length)], dates[r.nextInt(dates.length)]));
// Every keeper will have at least 2 Qualifications (max 3)
int numero = r.nextInt(3)+1;
for(int j = 0 ; j < numero ; j++) {
do {
type = animalTypes[r.nextInt(animalTypes.length)];
}while(getMyKeepers().get(i).getQualification().contains(type));
getMyKeepers().get(i).addQualification(type);
}
ArrayList<String> repetido = new ArrayList<String>();
int max = r.nextInt(5) + 5;
for(int k = 0 ; k < max; k++) {
ArrayList<String> noqualify = new ArrayList<>(Arrays.asList(animalTypes));
noqualify.removeAll(getMyKeepers().get(i).getQualification());
Animal a = null;
boolean asignado = false;
int c = 0;
while (asignado == false && c < getMyAnimals().size()){
int animalRan = r.nextInt(myAnimals.size());
a = getMyAnimals().get(animalRan);
boolean calificado = true;
int l=0;
while (l < noqualify.size() && calificado == true) {
String noquali = noqualify.get(l);
switch (noquali) {
case "Mammal" :
if(a instanceof Mammal){
calificado = false;
}
break;
case "Reptile" :
if(a instanceof Reptile){
calificado = false;
}
break;
case "Avian" :
if(a instanceof Avian){
calificado = false;
}
break;
case "Aquatic" :
if(a instanceof Aquatic){
calificado = false;
}
break;
case "Insect" :
if(a instanceof Insect){
calificado = false;
}
break;
}
l++;
}
if (calificado == true && !repetido.contains(String.valueOf(animalRan))){
getMyKeepers().get(i).addAnimal(a);
repetido.add(String.valueOf(animalRan));
asignado=true;
}
c++;
}
}
}
}
public ArrayList<Animal> getMyAnimals() {
return myAnimals;
}
public void setMyAnimals(ArrayList<Animal> myAnimals) {
this.myAnimals = myAnimals;
}
public ArrayList<Medication> getMyMedication() {
return myMedication;
}
public ArrayList<Vacine> getMyVacines() {
return myVacines;
}
public void setMyMedication(ArrayList<Medication> myMedication) {
this.myMedication = myMedication;
}
public ArrayList<Keeper> getMyKeepers() {
return myKeepers;
}
}
Take a look at the GUI