This is project E of the WS 2016 JavaScript Technology seminar.
-
npm install -g cordova ionic -
In
./ionic2runnpm installto install node packages -
In
./serverrunnpm installto install node packages
Run ionic serve in the ./ionic2 folder to start the server at http://localhost:8100.
-
docker build -t ???goers/catchemall . -
docker run -p 8080:8080 ???goers/catchemall -
Go to
http://localhost:8080
-
In
./ionic2runnpm run build:browser -
In
./serverrunnpm start -
Go to
http://localhost:8080
First make sure that the Android SDK is installed and that ANDROID_HOME is set.
-
In
./ionic2runnpm run build:android -
The final app apk can be found at
./ionic2/platforms/android/build/outputs/apk/android-debug.apk.
To install the app connect your Android phone with your computer and run adb install android-debug.apk.
In ./server run npm test for server tests.
In ./ionic2 run npm test for frontend/app tests.
Now that we have tons of data about ??? (what they are, where they are, what’s their relationship, what they can transform into, which attacks they can perform, aso) we want to integrate it all into a comprehensive website.
This website should contain sections about each ??? and its details. Additionally, the website should register the user’s location and tell the user how close is that the predicted ??? to him/her.
Additionally you will be incorporating the apps that were created by project B,C and D into the website. Your group will need to create automated builds and testing for this apps and use continuous integration to pull in new changes in the code repositories. Apps from projects B-D should be packaged and made available on NPM. Ideally when you completed these tasks the webapp component would integrate the apps by “requiring’ them.
Here is a possible user story: when a user opens the website or the app the current location of the user will be shown. Additionally, the website/app will show automatically where the ???s that are currently active are and where the ???s that we predict to active in the nearest future (i.e. within half a day) will be located (all of this will be available from the app developed in project D). Hopefully, the website will be somewhat crowded by that data. Then, there needs to be a menu bar or something available (e.g. above the map or on the right side to it) that will list currently active or predicted ???s. Clicking on one of them will make other ???s on the map disappear, except of this clicked one. Separate web pages would allow the search and presentation of individual ???s and the information we gathered about them, including third party data (project A) and twitter analysis (project C)
First you will need to put all the apps developed in Projects B, C and D into the website that is developed in Project E. In this project you will pull the code from each project repository, compile it with the set of dependencies and package the apps, so that they can be easily called from the web site developed in project E. Then you will create the website that will publish all apps and enable the user interaction described above as well as possible interapp interactions.
- Create the shell of an Model-View-Control website
- Create the menus that will load the apps created in projects B-D
- Create the user interaction controls for the apps integrated and enable them
- Create an absolutely awesome UX/UI for the website with a really useful homepage :)
- Make arrangements to host the web site on a host that can scale for traffic demands (preferably there should be no cost associated with this step. Check Heroku, AWS, etc). We (mentors) can * also help with university resources.
Our team consists of presentation groups 6, 9 and 10.
- @AlexanderLill Alexander Lill (Group 6)
- @philbu Philippe Buschmann (Group 6)
- @MajorBreakfast Josef Brandl (Group 6)
- @WoH Wolfgang Hobmaier (Group 9)
- @Georrgi Georgi Aylov (Group 9)
- @johartl Jochen Hartl (Group 9)
- @mfkaptan Mustafa Kaptan (Group 10)
- @Lugitan Gilles Tanson (Group 10)