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it2810-webutvikling-h18-prosjekt-3-35

Private Muscle Manager (PMM)

PMM is an iOS and Android application that motivates the user to create exercises and add sessions to the exercise. This data wil be used to plot the progress towards a goal in two graphs. The application will also include a pedometer and a goal. This will motivate the user to achieve and overall health goal and not just exercise muscles which is often a problem for the youth, especially men.

Functionality

  • The pedometer functionality
    • On Android phones it uses your google account
    • On IOS phones it accesses the built in health and fitness application to track steps
    • Accessed from the top of the home screen by clicking on the graph or the logo
    • The daily goal is set to 10 000 steps by default, but can be edited by accessing it
    • The daily goal is saved and retrieved with AsyncStorage
    • It uses time from last midnight to this midnight
    • It updates live if moving with the application turned on or in the background
  • The Exercise functionality
    • Creating a new exercise is accessed from the home screen and opens a new screen for entering values
    • After an exercise has been created it displays them as a list item in the home screen
    • To delete an exercise the user can perform a long press and is asked if they want to delete it
    • When an exercise is clicked it will launch a new screen, allowing the user to add a new session and see the progres through graphs.
    • When a new session is clicked the user must enter a date and how close the user was to the goal
    • It is then added to the graph (in the correct order if between several dates).
    • The first graph displays the progress throughout all of the sessions in the exercise
    • The second graph displays the progress from the last 3 sessions up against the set goal

Wanted Functionality

  • The Exercise functionality
    • Let the user set from and to dates to display only results between some dates in the graph
    • Let the user click on the nodes on the graph to see more about the results
    • Let the user save more data about sessions
    • Let the user edit the exercise

Reasoning Behind Structure and Decision Making

Navigation

Navigation is solved using createStackNavigator() in App.js. We used a simple stack navigation since this application works as a single screen application not needing an advanced type of navigation. Sending props and going to the screen 'CreateExercise' is done using the function below.

//Opens the CreateExereciseScreen 
    openCreateExerciseScreen = () => {
        this.props.navigation.navigate('CreateExercise', {
            createExercise: this.createExercise.bind(this),
            exerciseNames: this.state.exerciseNames,
        })
    }

Retrieving the prop exerciseNames in CreateExerciseScreen is done by calling const uniqueNames = this.props.navigation.getParam('exerciseNames', []) This makes it more intricate to send and get props but is an easy way to handle navigation.

Components

The components are minor parts of the application, like the pedometer sensor or the graphs. We tried to find a nice middle way between splitting functionality into smaller components and keeping them in the different screens. The function

    //A general function that returns a text and and a textinput
    createTextInputView = (keyboardType, defaultValue, title, fieldName) => {
        return (
            <View>
                <TextInput
                    keyboardType={keyboardType}
                    value={this.state[fieldName] == null ? defaultValue : this.state[fieldName]}
                    label={title}
                    onChangeText={(input) => this.setState({[fieldName]:input})}
                    mode={'outlined'}
                    />
            </View>
        );

Could be its own component, but splitting too many things into smaller parts might make the application structure unnecessarily complex with too many parts for such a simple application.

Screens

The screens folder contains all the screens which the user can access. It contains different components and a lot of its own functionality and code we decided to not split into each own component since we felt it didn't make sense.

Styling

Styling is done in each javascript file. We decided to do this instead of having own files since it seems to be the general practice. This helps to keep the css and the code contained together and logical, not having to search between many files or one long one to find what you need.

Use of libraries

We decided to keep the libraries to just what we needed to do what we wanted to do, but not do everything for us.

  • The DateTimePicker is used because it simplifies the selection of dates. It is implemented in basic React Native, but have to use the Platform to check system and use the correct implementation for each system.
import {Platform, StyleSheet} from 'react-native';

const styles = StyleSheet.create({
  height: Platform.OS === 'ios' ? 200 : 100,
});

The DateTimePicker component itself is used in the render function as follows

import DateTimePicker from 'react-native-modal-datetime-picker';

//---------------------------------------------------------------------------

<DateTimePicker
                            date = {today}
                            isVisible = {this.state.isDateTimePickerVisible}
                            onConfirm = {this.handleDatePicked}
                            onCancel = {this.hideDateTimePicker}/>

Reason for passing {this.state.isDateTimePickerVisible, to isVisible, instead of just true is because the picker is always there}

  • The React Native SVG Charts uses React Native SVG and is the pedometer progress graph.

  • The React Native Chart Kit is the graphs in each exercise.

    One needs to implement the third-party charts

    import {
    ProgressChart,
} from 'react-native-chart-kit';

before one configures the visuals

const chartConfig={
    backgroundColor: '#e26a00',
    backgroundGradientFrom: '#fb8c00',
    backgroundGradientTo: '#ffa726',
    decimalPlaces: 2, // optional, defaults to 2dp
    color: (opacity = 1) => `rgba(255, 255, 255, ${opacity})`,
    style: {
        borderRadius: 16
    }
} 

And finally returns the component inside of the render function

return(
        <ProgressChart
            data={graphResults}
            width={screenWidth}
            height={220}
            chartConfig={chartConfig}/>
        );
  • Moment was barely used (Only in PedometerSensor.js), which was regretfully discovered late. Moment is used to easily make date objects, which can be troublesome in JavaScript.
 import moment from 'moment';
 
 //-----------------------------------------------------------------

 const start = moment().subtract(1, 'days').endOf('day').toDate();
        const end = moment().endOf('day').toDate();

Design

We are basing a lot of the design on Google's material design and using the third party library React Native Paper which allows for easy implementation of the material design guidelines as well as edit it in our own way. Paper also gives the application the feeling of it being the same across iOS and Android which is not in basic React Native.

Testing (Jest)

As there hasn’t been a new Update from enzyme, it is currently not compatible with React Native, and hence we ended up using the standard React Test Renderer combined with Jest, since it comes with the library itself, which means it’s always up-to-date and compatible.

This turned out a bit problematic as the documentation for the React Test Renderer is extremely light.

We utilized the create function to create a component tree such that we can set up the different tests. We also chose to use the .toJSON() function instead of the .toTree, as we only saw it necessary to return a JavaScript object representing the HTML output of our React Native components, and not the components structure itself in addition.

The great thing about enzyme is the one can use CSS selectors to find what one needs, but the built in ReactTestRenderer supposedly has the .find() & .findAll(), findByProps() & .findAllByProps(), as well as findByType & findAllByType(). However, we decided that the way we would find components that we wanted tested would be through using expected(), created an instance from the root, and manually searched through he entire tree to find the component we wanted to test, making sure we got what we were after, as it proved to be a bit tricky to access states and props with jest. Example:

alt text

We chose to add on the returnText and assign it to stepsWalked, such that it would be easier to search through root to find the data that we wanted to locate. Its origin:

alt text

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The team also used .toMatchSnapshot() for various pages of the application, to ensure everything was rendered as intended, and unexpected changes would be discovered.

alt text

When testing navigation logic we created a renderer with the react component and important the functions from their respectable files, such that we could see that the structure was as intended. We created a title set to the function, then compared to see if it came from the class which it was supposed to.

alt text

alt text

The team also mocked up functions to see if they got called with the intended arguments:

alt text

Git

Projects

We are using Github's Projects functinality where we have seperated the project into 5 parts, 'To Do', 'Implementing Functionality', 'Implementing Style', 'Implementing Tests', and 'Done'. Where one card from to do will be dragged between them if appropriate. This means that the card 'Implement Jest (Testing)' won't be put in 'Implementing Style' since it is not deemed necessary.

Issues

All the cards from Projects have been used to create issues, the issues will be added in commits. If someone has forgotten to reference the issue in an commit they will comment on the issue/commit and tag the appropriate issue/commit it references.

Known bugs

  • When going to the screen to change a daily goal and press OK it would crash, but changing the value (even to the same as it used to be) would not make it crash. Solved by disabling the button when not changing it.
  • The PedometerSesnor.js has the responsibility to update the steps in the app. If in development and updating the app it will throw an error on Android phones. This is because it somtimes won't call the willUnMount() function which unsubscribes from Google Fit which it retrieves the steps from. This is solved by re-opening the application.
  • If the computer developing has installed some of the libraries it may throw an error about using two views of RNSVG. This is because it calls react-native-svg twice. It can be solved by uninstalling the react-native... libraries and re-installing them.

External libraries

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