Responses for exercises in Exercism.
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Julio Biason 3194d5b11a Exercism: Bird Watcher 3 years ago
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.exercism Exercism: Bird Watcher 3 years ago
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test Exercism: Bird Watcher 3 years ago
HELP.md Exercism: Bird Watcher 3 years ago
HINTS.md Exercism: Bird Watcher 3 years ago
README.md Exercism: Bird Watcher 3 years ago
deps.edn Exercism: Bird Watcher 3 years ago
project.clj Exercism: Bird Watcher 3 years ago

README.md

Bird Watcher

Welcome to Bird Watcher on Exercism's Clojure 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

A vector in Clojure is a sequential, indexed, immutable collection of zero or more values. This means that once a vector has been created, it cannot be modified. Functions for operating on vectors will return a new vector, while the original vector remains unchanged. The values in a vector may be of heterogenous types. Vectors can be defined as follows:

(def empty [])
(def single-value 5)
(def single-value-alternative (vector 5))
(def three-values [a b c]

Elements can be retrieved from a vector using an index. Clojure vectors are zero-based, meaning that the first element's index is always zero:

(def numbers [2 3 5])
;; Read value from vector
(get numbers 2)
;;=> 5
;; Update value in vector
(assoc numbers 2 9)
;;=> [2 3 9]

The original vector is unchanged:

numbers
;;=> [2 3 5]

To remember the updated value, we need to pass it along or capture it in a var:

(def updated-numbers
  (assoc numbers 2 9))
(get updated-numbers 2)
;;=> 9

Instructions

You're an avid bird watcher that keeps track of how many birds have visited your garden in the last seven days.

You have six tasks, all dealing with the numbers of birds that visited your garden.

1. Check what the counts were last week

For comparison purposes, you always keep a copy of last week's counts nearby, which were: 0, 2, 5, 3, 7, 8 and 4. Create a vector containing last week's counts:

last-week
;;=> [0 2 5 3 7 8 4]

2. Check how many birds visited today

Implement the today function to return how many birds visited your garden today. The bird counts are ordered by day, with the first element being the count of the oldest day, and the last element being today's count.

(def birds-per-day [2 5 0 7 4 1])
(today birds-per-day)
;;=> 1

3. Increment today's count

Implement the inc-bird function to increment today's count:

(inc-bird birds-per-day)
;;=> [2 5 0 7 4 2]

4. Check if there was a day with no visiting birds

Implement the day-without-birds? predicate function that returns true if there was a day at which zero birds visited the garden; otherwise, return false:

(day-without-birds? birds-per-day)
;;=> true

5. Calculate the number of visiting birds for the first number of days

Implement the n-days-count function that returns the number of birds that have visited your garden from the start of the week, but limit the count to the specified number of days from the start of the week.

(n-days-count birds-per-day 4)
;;=> 14

6. Calculate the number of busy days

Some days are busier than others. A busy day is one where five or more birds have visited your garden. Implement the busy-days function to return the number of busy days:

(busy-days birds-per-day)
;;=> 2

7. Check for odd week

Over the last year, you've found that some weeks for the same, odd pattern, where the counts alternate between one and zero birds visiting. Implement the odd-week? function that returns true if the bird count pattern of this week matches the odd pattern:

(odd-week? [1 0 1 0 1 0 1])
;;=> true

Source

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