By: Team Modulo Since: Feb 2020 Licence: MIT
Refer to the guide here.
The Architecture Diagram given above explains the high-level design of the App. Given below is a quick overview of each component.
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The .puml files used to create diagrams in this document can be found in the diagrams folder.
Refer to the Using PlantUML guide to learn how to create and edit diagrams.
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At app launch: Initializes the components in the correct sequence, and connects them up with each other.
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At shut down: Shuts down the components and invokes cleanup method where necessary.
Commons represents a collection of classes used by multiple other components.
The following class plays an important role at the architecture level:
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LogsCenter: Used by many classes to write log messages to the App’s log file.
The rest of the App consists of four components.
Each of the four components
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Defines its API in an
interfacewith the same name as the Component. -
Exposes its functionality using a
{Component Name}Managerclass.
For example, the Logic component (see the class diagram given below) defines it’s API in the Logic.java interface and exposes its functionality using the LogicManager.java class.
The Sequence Diagram below shows how the components interact with each other for the scenario where the user issues the command delete 1.
delete 1 commandThe sections below give more details of each component.
API : Ui.java
The UI consists of a MainWindow that is made up of parts e.g.CommandBox, ResultDisplay, PersonListPanel, StatusBarFooter etc. All these, including the MainWindow, inherit from the abstract UiPart class.
The UI component uses JavaFx UI framework. The layout of these UI parts are defined in matching .fxml files that are in the src/main/resources/view folder. For example, the layout of the MainWindow is specified in MainWindow.fxml
The UI component,
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Executes user commands using the
Logiccomponent. -
Listens for changes to
Modeldata so that the UI can be updated with the modified data.
API :
Logic.java
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Logicuses theAddressBookParserclass to parse the user command. -
This results in a
Commandobject which is executed by theLogicManager. -
The command execution can affect the
Model(e.g. adding a person). -
The result of the command execution is encapsulated as a
CommandResultobject which is passed back to theUi. -
In addition, the
CommandResultobject can also instruct theUito perform certain actions, such as displaying help to the user.
Given below is the Sequence Diagram for interactions within the Logic component for the execute("delete 1") API call.
delete 1 Command|
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The lifeline for DeleteCommandParser should end at the destroy marker (X) but due to a limitation of PlantUML, the lifeline reaches the end of diagram.
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API : ModuloStorage.png
The Model,
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stores a
UserPrefobject that represents the user’s preferences. -
stores the Address Book data.
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exposes an unmodifiable
ObservableList<Person>that can be 'observed' e.g. the UI can be bound to this list so that the UI automatically updates when the data in the list change. -
does not depend on any of the other three components.
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As a more OOP model, we can store a Tag list in Address Book, which Person can reference. This would allow Address Book to only require one Tag object per unique Tag, instead of each Person needing their own Tag object. An example of how such a model may look like is given below.
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API : ModuloStorage.png
The Storage component,
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can save
UserPrefobjects in json format and read it back. -
can save the Address Book data in json format and read it back.
This section describes some noteworthy details on how certain features are implemented.
The undo/redo mechanism is facilitated by VersionedAddressBook.
It extends AddressBook with an undo/redo history, stored internally as an addressBookStateList and currentStatePointer.
Additionally, it implements the following operations:
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VersionedAddressBook#commit()— Saves the current address book state in its history. -
VersionedAddressBook#undo()— Restores the previous address book state from its history. -
VersionedAddressBook#redo()— Restores a previously undone address book state from its history.
These operations are exposed in the Model interface as Model#commitAddressBook(), Model#undoAddressBook() and Model#redoAddressBook() respectively.
Given below is an example usage scenario and how the undo/redo mechanism behaves at each step.
Step 1. The user launches the application for the first time. The VersionedAddressBook will be initialized with the initial address book state, and the currentStatePointer pointing to that single address book state.
Step 2. The user executes delete 5 command to delete the 5th person in the address book. The delete command calls Model#commitAddressBook(), causing the modified state of the address book after the delete 5 command executes to be saved in the addressBookStateList, and the currentStatePointer is shifted to the newly inserted address book state.
Step 3. The user executes add n/David … to add a new person. The add command also calls Model#commitAddressBook(), causing another modified address book state to be saved into the addressBookStateList.
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If a command fails its execution, it will not call Model#commitAddressBook(), so the address book state will not be saved into the addressBookStateList.
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Step 4. The user now decides that adding the person was a mistake, and decides to undo that action by executing the undo command. The undo command will call Model#undoAddressBook(), which will shift the currentStatePointer once to the left, pointing it to the previous address book state, and restores the address book to that state.
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If the currentStatePointer is at index 0, pointing to the initial address book state, then there are no previous address book states to restore. The undo command uses Model#canUndoAddressBook() to check if this is the case. If so, it will return an error to the user rather than attempting to perform the undo.
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The following sequence diagram shows how the undo operation works:
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The lifeline for UndoCommand should end at the destroy marker (X) but due to a limitation of PlantUML, the lifeline reaches the end of diagram.
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The redo command does the opposite — it calls Model#redoAddressBook(), which shifts the currentStatePointer once to the right, pointing to the previously undone state, and restores the address book to that state.
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If the currentStatePointer is at index addressBookStateList.size() - 1, pointing to the latest address book state, then there are no undone address book states to restore. The redo command uses Model#canRedoAddressBook() to check if this is the case. If so, it will return an error to the user rather than attempting to perform the redo.
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Step 5. The user then decides to execute the command list. Commands that do not modify the address book, such as list, will usually not call Model#commitAddressBook(), Model#undoAddressBook() or Model#redoAddressBook(). Thus, the addressBookStateList remains unchanged.
Step 6. The user executes clear, which calls Model#commitAddressBook(). Since the currentStatePointer is not pointing at the end of the addressBookStateList, all address book states after the currentStatePointer will be purged. We designed it this way because it no longer makes sense to redo the add n/David … command. This is the behavior that most modern desktop applications follow.
The following activity diagram summarizes what happens when a user executes a new command:
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Alternative 1 (current choice): Saves the entire address book.
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Pros: Easy to implement.
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Cons: May have performance issues in terms of memory usage.
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Alternative 2: Individual command knows how to undo/redo by itself.
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Pros: Will use less memory (e.g. for
delete, just save the person being deleted). -
Cons: We must ensure that the implementation of each individual command are correct.
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Alternative 1 (current choice): Use a list to store the history of address book states.
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Pros: Easy for new Computer Science student undergraduates to understand, who are likely to be the new incoming developers of our project.
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Cons: Logic is duplicated twice. For example, when a new command is executed, we must remember to update both
HistoryManagerandVersionedAddressBook.
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Alternative 2: Use
HistoryManagerfor undo/redo-
Pros: We do not need to maintain a separate list, and just reuse what is already in the codebase.
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Cons: Requires dealing with commands that have already been undone: We must remember to skip these commands. Violates Single Responsibility Principle and Separation of Concerns as
HistoryManagernow needs to do two different things.
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We are using java.util.logging package for logging. The LogsCenter class is used to manage the logging levels and logging destinations.
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The logging level can be controlled using the
logLevelsetting in the configuration file (See Section 3.4, “Configuration”) -
The
Loggerfor a class can be obtained usingLogsCenter.getLogger(Class)which will log messages according to the specified logging level -
Currently log messages are output through:
Consoleand to a.logfile.
Logging Levels
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SEVERE: Critical problem detected which may possibly cause the termination of the application -
WARNING: Can continue, but with caution -
INFO: Information showing the noteworthy actions by the App -
FINE: Details that is not usually noteworthy but may be useful in debugging e.g. print the actual list instead of just its size
Refer to the guide here.
Refer to the guide here.
Refer to the guide here.
Target user profile:
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has a need to manage their modules and the deadlines for these modules
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prefer desktop apps over other types
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can type fast
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prefers typing over mouse input
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is reasonably comfortable using CLI apps
Value proposition: manage modules and deadlines faster than a typical mouse/GUI driven app
Priorities: High (must have) - * * *, Medium (nice to have) - * *, Low (unlikely to have) - *
| Priority | As a … | I want to … | So that I can… |
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new user |
see usage instructions |
refer to instructions when I forget how to use the App |
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user |
create a deadline |
ensure I do not miss any of my module / assignment deadlines |
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user |
track all my daily events |
never miss any event |
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user |
categorise my work based on module |
don’t have to manually categorise myself |
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user |
can track the tutorials which I have done |
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user |
avoid clashes within my own schedule |
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user |
export my data from this app |
access the data I’ve created from anywhere |
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user |
can assign a maximum number of deadlines within a timeframe |
not get overwhelmed by my assigned workload |
{More to be added}
(For all use cases below, the System is the Modulo and the Actor is the user, unless specified otherwise)
Use case: UC01 - Add a deadline
MSS
Preconditions: Module data file is loaded properly.
Guarantees: Deadline is added, tagged to the correct module and event, with the correct details.
Extensions
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2a. User enters incorrect information.
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2a1. Modulo shows user the correct format for the deadline creation.
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2a2. User enters new information following the correct format.
Use case resumes from step 3.
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MSS
Preconditions: Module data file is loaded properly.
Guarantees: Module is added to the user’s calendar.
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User enters a module code or module name.
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Modulo searches its data files for the closest matching module
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Modulo prompts the user for his/her confirmation
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User enters ‘Y’ to confirm his/her module selection
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Modulo shows the newly created module in the user’s calendar
Use case ends.
Extensions
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1a. User enters incorrect data and the wrong module is found.
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1a1. Steps 2 and 3 are performed.
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1a2. User enters ‘N’ to reject his/her module selection.
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1a3. Steps 1 to 4 are repeated until the correct module is found and User enters ‘Y’.
Use case resumes from step 5.
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1b. User enters invalid data and no modules are found.
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1b1. Modulo informs User that no modules with the given information can be found.
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1b2. Steps 1 to 4 or 1 to 1b1 are repeated until User finds a module.
Use case resumes from step 3.
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4a. User enters something other than ‘Y’.
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4a1. Modulo cancels the request by the User.
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4a2. Modulo informs the User of the cancellation.
Use case ends.
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A NUS student with above-average typing speed for regular English text (i.e. not code, not system admin commands) should be able to accomplish most of the tasks faster using commands than using the mouse.
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Should work on any mainstream OS as long as it has Java 11 or above installed.
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Should be able to run seamlessly with 10 modules’ worth of data.
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Data should be persistent within the local machine and the save file should be editable.
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The application should not require an installer and be for a single user, with its size being smaller than 100mb.
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Object-oriented.
{More to be added}
Given below are instructions to test the app manually.
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These instructions only provide a starting point for testers to work on; testers are expected to do more exploratory testing. |
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Initial launch
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Download the jar file and copy into an empty folder
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Double-click the jar file
Expected: Shows the GUI with a set of sample contacts. The window size may not be optimum.
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Saving window preferences
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Resize the window to an optimum size. Move the window to a different location. Close the window.
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Re-launch the app by double-clicking the jar file.
Expected: The most recent window size and location is retained.
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{ more test cases … }
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Deleting a person while all persons are listed
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Prerequisites: List all persons using the
listcommand. Multiple persons in the list. -
Test case:
delete 1
Expected: First contact is deleted from the list. Details of the deleted contact shown in the status message. Timestamp in the status bar is updated. -
Test case:
delete 0
Expected: No person is deleted. Error details shown in the status message. Status bar remains the same. -
Other incorrect delete commands to try:
delete,delete x(where x is larger than the list size) {give more}
Expected: Similar to previous.
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{ more test cases … }