exercism/elixir/top-secret
Danil Negrienko 3ab71444f5 top-secret 2024-03-07 09:29:22 -05:00
..
.exercism top-secret 2024-03-07 09:29:22 -05:00
lib top-secret 2024-03-07 09:29:22 -05:00
test top-secret 2024-03-07 09:29:22 -05:00
.formatter.exs top-secret 2024-03-07 09:29:22 -05:00
.gitignore top-secret 2024-03-07 09:29:22 -05:00
HELP.md top-secret 2024-03-07 09:29:22 -05:00
HINTS.md top-secret 2024-03-07 09:29:22 -05:00
README.md top-secret 2024-03-07 09:29:22 -05:00
mix.exs top-secret 2024-03-07 09:29:22 -05:00

README.md

Top Secret

Welcome to Top Secret on Exercism's Elixir Track. If you need help running the tests or submitting your code, check out HELP.md. If you get stuck on the exercise, check out HINTS.md, but try and solve it without using those first :)

Introduction

AST

The Abstract Syntax Tree (AST), also called a quoted expression, is a way to represent code as data.

Each node in the AST is a three-element tuple.

# AST representation of:
# 2 + 3
{:+, [], [2, 3]}

The first element, an atom, is the operation. The second element, a keyword list, is the metadata. The third element is a list of arguments, which contains other nodes. Literal values such as integers, atoms, and strings are represented in the AST as themselves instead of three-element tuples.

Turning code into ASTs

Changing Elixir code to ASTs and ASTs back to code is part of the standard library. You can find functions for working with ASTs in the modules Code (e.g. to change a string with code to an AST) and Macro (e.g. to traverse the AST or change it to a string).

Note that all of the functions in the standard library use the name "quoted" to mean the AST (short for quoted expression).

The special form for turning code into an AST is called quote. It accepts a code block and returns its AST.

quote do
  2 + 3 - 1
end

# => {:-, [], [
#      {:+, [], [2, 3]},
#      1
#    ]}

Use cases

The ability to represent code as an AST is at the heart of metaprogramming in Elixir. Macros, which is a way to write Elixir code that produces Elixir code, work by returning ASTs as output.

Another use case for ASTs is static code analysis, like Exercism's own tool, the Analyzer, which you might already know as the little bot that leaves comments on your solutions.

Instructions

You're part of a task force fighting against corporate espionage. You have a secret informer at Shady Company X, which you suspect of stealing secrets from its competitors.

Your informer, Agent Ex, is an Elixir developer. She is encoding secret messages in her code.

To decode her secret messages:

  • Take all functions (public and private) in the order they're defined in.
  • For each function, take the first n characters from its name, where n is the function's arity.

1. Turn code into data

Implement the TopSecret.to_ast/1 function. It should take a string with Elixir code and return its AST.

TopSecret.to_ast("div(4, 3)")
# => {:div, [line: 1], [4, 3]}

2. Parse a single AST node

Implement the TopSecret.decode_secret_message_part/2 function. It should take an AST node and an accumulator for the secret message (a list). It should return a tuple with the AST node unchanged as the first element, and the accumulator as the second element.

If the operation of the AST node is defining a function (def or defp), prepend the function name (changed to a string) to the accumulator. If the operation is something else, return the accumulator unchanged.

ast_node = TopSecret.to_ast("defp cat(a, b, c), do: nil")
TopSecret.decode_secret_message_part(ast_node, ["day"])
# => {ast_node, ["cat", "day"]}

ast_node = TopSecret.to_ast("10 + 3")
TopSecret.decode_secret_message_part(ast_node, ["day"])
# => {ast_node, ["day"]}

This function doesn't need to do any recursive calls to check the whole AST, only the given node. We will traverse the whole AST with built-in tools in the last step.

3. Decode the secret message part from function definition

Extend the TopSecret.decode_secret_message_part/2 function. If the operation in the AST node is defining a function, don't return the whole function name. Instead, check the function's arity. Then, return only first n character from the name, where n is the arity.

ast_node = TopSecret.to_ast("defp cat(a, b), do: nil")
TopSecret.decode_secret_message_part(ast_node, ["day"])
# => {ast_node, ["ca", "day"]}

ast_node = TopSecret.to_ast("defp cat(), do: nil")
TopSecret.decode_secret_message_part(ast_node, ["day"])
# => {ast_node, ["", "day"]}

4. Fix the decoding for functions with guards

Extend the TopSecret.decode_secret_message_part/2 function. Make sure the function's name and arity is correctly detected for function definitions that use guards.

ast_node = TopSecret.to_ast("defp cat(a, b) when is_nil(a), do: nil")
TopSecret.decode_secret_message_part(ast_node, ["day"])
# => {ast_node, ["ca", "day"]}

5. Decode the full secret message

Implement the TopSecret.decode_secret_message/1 function. It should take a string with Elixir code and return the secret message as a string decoded from all function definitions found in the code. Make sure to reuse functions defined in previous steps.

code = """
defmodule MyCalendar do
  def busy?(date, time) do
    Date.day_of_week(date) != 7 and
      time.hour in 10..16
  end

  def yesterday?(date) do
    Date.diff(Date.utc_today, date)
  end
end
"""

TopSecret.decode_secret_message(code)
# => "buy"

Source

Created by

  • @jiegillet
  • @angelikatyborska