# install dependencies
$ npm install
# serve with hot reload at localhost:3000
$ npm run dev
# build for production and launch server
$ npm run build
$ npm run start
# generate static project
$ npm run generate
For detailed explanation on how things work, check out the documentation.
You can create the following extra directories, some of which have special behaviors. Only pages
is required; you can delete them if you don't want to use their functionality.
The assets directory contains your uncompiled assets such as Stylus or Sass files, images, or fonts.
More information about the usage of this directory in the documentation.
The components directory contains your Vue.js components. Components make up the different parts of your page and can be reused and imported into your pages, layouts and even other components.
More information about the usage of this directory in the documentation.
Layouts are a great help when you want to change the look and feel of your Nuxt app, whether you want to include a sidebar or have distinct layouts for mobile and desktop.
More information about the usage of this directory in the documentation.
This directory contains your application views and routes. Nuxt will read all the *.vue
files inside this directory and setup Vue Router automatically.
More information about the usage of this directory in the documentation.
The plugins directory contains JavaScript plugins that you want to run before instantiating the root Vue.js Application. This is the place to add Vue plugins and to inject functions or constants. Every time you need to use Vue.use()
, you should create a file in plugins/
and add its path to plugins in nuxt.config.js
.
More information about the usage of this directory in the documentation.
This directory contains your static files. Each file inside this directory is mapped to /
.
Example: /static/robots.txt
is mapped as /robots.txt
.
More information about the usage of this directory in the documentation.
This directory contains your Vuex store files. Creating a file in this directory automatically activates Vuex.
More information about the usage of this directory in the documentation.
Introduction You will test a service that navigates a imaginary robotic hoover (much like a Roomba) through an equally imaginary room based on: • room dimensions as X and Y coordinates, identifying the top right corner of the room rectangle. This room is divided up in a grid based on these dimensions; a room that has dimensions X: 5 and Y: 5 has 5 columns and 5 rows, so 25 possible hoover positions. The bottom left corner is the point of origin for our coordinate system, so as the room contains all coordinates its bottom left corner is defined by X: 0 and Y: 0. • locations of patches of dirt, also defined by X and Y coordinates identifying the bottom left corner of those grid positions. • an initial hoover position (X and Y coordinates like patches of dirt) • driving instructions (as cardinal directions where e.g. N and E mean "go north" and "go east" respectively) The room will be rectangular, has no obstacles (except the room walls), no doors and all locations in the room will be clean (hoovering has no effect) except for the locations of the patches of dirt presented in the program input. Placing the hoover on a patch of dirt ("hoovering") removes the patch of dirt so that patch is then clean for the remainder of the program run. The hoover is always on - there is no need to enable it. Driving into a wall has no effect (the robot skids in place). Goal The goal of the service is to take the room dimensions, the locations of the dirt patches, the hoover location and the driving instructions as input and to then output the following: • The final hoover position (X, Y) • The number of patches of dirt the robot cleaned up Your goal is to verify whether the provided implementation behaves according to specification. Service specification Input Program input will be received in a json payload with the format described here. Example: { "roomSize" : [5, 5], "coords" : [1, 2], "patches" : [ [1, 0], [2, 2], [2, 3] ], "instructions" : "NNESEESWNWW" } Output Service output is returned as a json payload. Example (matching the input above): { "coords" : [1, 3], "patches" : 1 } Where coords are the final coordinates of the hoover and patches is the number of cleaned patches. Deliverable The test suite: • Is implemented using any BDD framework (e.g. Cucumber or Codecept.js, which we use at Platform Science) • Must run on Mac OS X or Linux (x86-64) • Can make use of any existing open source libraries that don't directly address the problem statement (use your best judgement). Send us: • The full source code, including any code written which is not part of the normal program run (e.g. scripts) • Clear instructions on how to obtain and run the test suite • A short report of the bugs that were detected (if any) • Please provide any deliverable and instructions using a public Github (or similar) Repository as several people will need to inspect the solution Evaluation The point of the exercise is for us to see: • How you approach API testing • How you structure your tests • How you explain the approach you took and the assumptions you made • How you deal with uncertainty and contribute to requirements specification • How experienced you are at spotting nasty bugs! We will especially consider: • Code organisation • Code readability • Quality of instructions • Quality of the report • Percentage of the detected bugs How to execute the service to test Requirements • Docker v.18+ Building the service From the root of this repository, run the following: • sudo chmod +x service/run.sh • docker build -t pltsci-sdet-assignment service Running the service • docker run -d -p 8080:8080 --name pltsci-sdet-assignment pltsci-sdet-assignment Hitting the endpoint You can test whether the service is running correctly by executing the following command: - curl -H 'Content-Type: application/json' -X POST -d '{ "roomSize" : [5, 5], "coords" : [1, 2], "patches" : [ [1, 0], [2, 2], [2, 3] ], "instructions" : "NNESEESWNWW" }' http://localhost:8080/v1/cleaning-sessions