Bank

Summary

When designing a big system, we like to base our design on the way that the system will be used. That way, user stories and acceptance criteria become much more than just a finish line: they are a guiding principle for the entire system.

This solves a variety of problems. For example, it eliminates over-engineering (since we only write what we know the user needs). Starting at the public interface moves risk away from the end of the project (nobody wants an integration nightmare when deadline day is looming).

This Kata aims to distill that experience into a problem that can be knocked on the head in a couple of hours, writing a primitive bank account program. In this case, our user interface is just some public methods - assume we're writing a library. But the same principles hold.

It's a fantastic way to practice using acceptance tests to guide your design. If done correctly, the result will be a system that evolves itself with no extraneous effort and no nasty surprises at the end. You will see how the outside-in way of working can be a powerful way of creating object-oriented software.

You can attempt this using Mockist or Classicist TDD, but we find that it's especially well suited to a Mockist approach. Consider using Sandro Mancuso's screencast implementation as a reference.

Instructions

Write a class named Account that implements the following public interface:

public interface AccountService
{
void deposit(int amount)
void withdraw(int amount)
void printStatement()
}

Rules

  • You cannot change the public interface of this class.

Desired Behaviour

Here's the specification for an acceptance test that expresses the desired behaviour for this

Given a client makes a deposit of 1000 on 10-01-2012
And a deposit of 2000 on 13-01-2012
And a withdrawal of 500 on 14-01-2012
When they print their bank statement
Then they would see:

Date       || Amount || Balance
14/01/2012 || -500 || 2500
13/01/2012 || 2000 || 3000
10/01/2012 || 1000 || 1000

Notes

  • We're using ints for the money amounts to keep the auxiliaries as simple as possible. In a real system, we would always use a datatype with guaranteed arbitrary precision, but doing so here would distract from the main purpose of the exercise.
  • Don't worry about spacing and indentation in the statement output. (You could instruct your acceptance test to ignore whitespace if you wanted to.)
  • Use the acceptance test to guide your progress towards the solution. Sandro does this by making all unimplemented methods throw an exception, so that he can immediately see what remains to be implemented when he runs the acceptance test.
  • When in doubt, go for the simplest solution!

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