In this assignment we will be creating an application to look up farmers markets and their related vendors, products, and sales. We will use CSV files as our database.
Build classes to query the CSV data including objects and methods listed below. Before going into the requirements and methods listed in tiers below, build a system to read the CSV files and turn each row of data into an instance of the appropriate Ruby class.
To manage our data classes we will use a file named /lib/far_mar.rb
. It should look something like:
require 'csv'
require 'time'
require 'lib/market'
# ... require all needed classes
Each class you build will live in the /lib/far_mar/
directory, and belong to the FarMar
module:
module FarMar
class Market
# Your code goes here
end
end
The module provides a namespace for the application. A namespace ensures the classes we create will not 'collide' or 'overlap' with a class that could exist elsewhere in a codebase (like in a gem).
For example, Sale
is a very generic class name that could very realistically exist in many codebases. Creating a module called FarMar
allows us to specify which Sale
we're talking about; FarMar::Sale
is much more explicit and likely to be unique.
Each individual market has many vendors associated with it. The FarMar::Market
data, in order in the CSV, consists of:
- ID - (Fixnum) a unique identifier for that market
- Name - (String) the name of the market (not guaranteed unique)
- Address - (String) street address of the market
- City - (String) city in which the market is located
- County - (String) county in which the market is located
- State - (String) state in which the market is located
- Zip - (String) zipcode in which the market is located
Each vendor belongs to a market, the market_id
field refers to the FarMar::Market
ID field.
Each vendor has many products for sell. The FarMar::Vendor
data, in order in the CSV, consists of:
- ID - (Fixnum) uniquely identifies the vendor
- Name - (String) the name of the vendor (not guaranteed unique)
- No. of Employees - (Fixnum) How many employees the vendor has at the market
- Market_id - (Fixnum) a reference to which market the vendor attends
Each product belongs to a vendor. The vendor_id
field refers to the FarMar::Vendor
ID field. The FarMar::Product
data, in order in the CSV, consists of:
- ID - (Fixnum) uniquely identifies the product
- Name - (String) the name of the product (not guaranteed unique)
- Vendor_id - (Fixnum) a reference to which vendor sells this product
Each sale belongs to a vendor AND a product. The vendor_id
and product_id
fields refer to the FarMar::Vendor
and FarMar::Product
ID fields, respectively. The FarMar::Sale
data, in order in the CSV, consists of:
- ID - (Fixnum) uniquely identifies the product
- Amount - (Fixnum) the amount of the transaction, in cents (i.e., 150 would be $1.50)
- Purchase_time - (Datetime) when the sale was completed
- Vendor_id - (Fixnum) a reference to which vendor completed the sale
- Product_id - (Fixnum) a reference to which product was sold
- You'll be working as an individual on this project.
- Clone the project master repo and create a new branch with your initials.
- Push your branch so it will show in the list of branches on the project master.
- Fork and clone your repository.
- Switch to your branch by doing
git checkout [YOUR BRANCH NAME]
. Do not work on the master branch. cd
into the dir created:$ cd far_mar
- Install needed tools via Terminal:
$ gem install rspec
$ gem install simplecov
- Create a class for each of the data types listed above. Each class should be inside the
FarMar
module.- You should be able to create instances of these classes that know about their associated data file.
- Create your
far_mar.rb
file which will bring together all classes created in the previous step. - Once you have completed your baseline, you must submit a pull-request and get it merged from one your instructors.
For each of the data classes build the following methods:
self.all
- returns a collection of Market instances, representing all of the markets described in the CSVself.find(id)
- returns an instance of Market where the value of theid
field in the CSV matches the passed parameter.
Additional FarMar::Market Methods
vendors
- returns a collection ofFarMar::Vendor
instances that are associated with the market by themarket_id
field.
Additional FarMar::Vendor Methods
market
- returns theFarMar::Market
instance that is associated with this vendor using theFarMar::Vendor
market_id
fieldproducts
- returns a collection ofFarMar::Product
instances that are associated by theFarMar::Product
vendor_id
field.sales
- returns a collection ofFarMar::Sale
instances that are associated by thevendor_id
field.revenue
- returns the the sum of all of the vendor's sales (in cents)self.by_market(market_id)
- returns all of the vendors with the givenmarket_id
Additional FarMar::Product Methods
vendor
- returns theFarMar::Vendor
instance that is associated with this vendor using theFarMar::Product
vendor_id
fieldsales
- returns a collection ofFarMar::Sale
instances that are associated using theFarMar::Sale
product_id
field.number_of_sales
- returns the number of times this product has been sold.self.by_vendor(vendor_id)
- returns all of the products with the givenvendor_id
Additional FarMar::Sale Methods
vendor
- returns theFarMar::Vendor
instance that is associated with this sale using theFarMar::Sale
vendor_id
fieldproduct
- returns theFarMar::Product
instance that is associated with this sale using theFarMar::Sale
product_id
fieldself.between(beginning_time, end_time)
- returns a collection of FarMar::Sale objects where the purchase time is between the two times given as arguments
products
returns a collection ofFarMar::Product
instances that are associated to the market through theFarMar::Vendor
class.self.search(search_term)
returns a collection ofFarMar::Market
instances where the market name or vendor name contain thesearch_term
. For exampleFarMar::Market.search('school')
would return 3 results, one being the market with id 75 (Fox School Farmers FarMar::Market).prefered_vendor
- returns the vendor with the highest revenueprefered_vendor(date)
- returns the vendor with the highest revenue for the given dateworst_vendor
- returns the vendor with the lowest revenueworst_vendor(date)
- returns the vendor with the lowest revenue on the given date
self.most_revenue(n)
returns the top n vendor instances ranked by total revenueself.most_items(n)
returns the top n vendor instances ranked by total number of items soldself.revenue(date)
returns the total revenue for that date across all vendorsrevenue(date)
returns the total revenue for that specific purchase date and vendor instance
self.most_revenue(n)
returns the topn
products instances ranked by total revenue
For All Classes
- Write additional rspec tests for any methods in the data classes that don't already have test coverage.
self.find_by_x(match)
- where X is an attribute, returns a single instance whose X attribute case-insensitive attribute matches the match parameter. For instance, FarMar::Vendor.find_by_name("windler inc") could find a FarMar::Vendor with the name attribute "windler inc" or "Windler Inc".self.find_all_by_x(match)
- works just likefind_by_x
but returns a collection containing all possible matches. For exampleFarMar::Market.find_by_state("WA")
could return all of the FarMar::Market object with"WA"
in their state field.- Create a new class that defines the shared/duplicated methods (i.e.,
find
,all
). Update your data classes to inherit from this new parent class in order to DRY up your code.
You must have 90% test coverage from simplecov
. The HTML files that are generated from simplecov
should not be included in your git repository and therefore in your pull request.
To run your test suite use:
$ rspec