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Simple solutions to clojure koans

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This commit is contained in:
Manas Karekar 2013-03-03 04:46:32 -05:00
parent 784ff0166a
commit 3d6d81c63a
8 changed files with 78 additions and 78 deletions
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14
src/koans/01_equalities.clj
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@ -1,21 +1,21 @@
(meditations (meditations
"We shall contemplate truth by testing reality, via equality" "We shall contemplate truth by testing reality, via equality"
(= __ true) (= true true)
"To understand reality, we must compare our expectations against reality" "To understand reality, we must compare our expectations against reality"
(= __ (+ 1 1)) (= 2 (+ 1 1))
"You can test equality of many things" "You can test equality of many things"
(= (+ 3 4) __ (+ 2 __)) (= (+ 3 4) 7 (+ 2 5))
"Some things may appear different, but be the same" "Some things may appear different, but be the same"
(= 2 2/1 __) (= 2 2/1 4/2)
"You cannot generally float to heavens of integers" "You cannot generally float to heavens of integers"
(= __ (= 2 2.0)) (= false (= 2 2.0))
"But a looser equality is also possible" "But a looser equality is also possible"
(== 2.0 2 __) (== 2.0 2 4/2)
"When things cannot be equal, they must be different" "When things cannot be equal, they must be different"
(not= :fill-in-the-blank __)) (not= :fill-in-the-blank :not))

20
src/koans/02_lists.clj
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@ -1,34 +1,34 @@
(meditations (meditations
"Lists can be expressed by function or a quoted form" "Lists can be expressed by function or a quoted form"
(= '(__ __ __ __ __) (list 1 2 3 4 5)) (= '(1 2 3 4 5) (list 1 2 3 4 5))
"They are Clojure seqs (sequences), so they allow access to the first" "They are Clojure seqs (sequences), so they allow access to the first"
(= __ (first '(1 2 3 4 5))) (= 1 (first '(1 2 3 4 5)))
"As well as the rest" "As well as the rest"
(= __ (rest '(1 2 3 4 5))) (= [2 3 4 5] (rest '(1 2 3 4 5)))
"The rest when nothing is left is empty" "The rest when nothing is left is empty"
(= __ (rest '(100))) (= [] (rest '(100)))
"And construction by adding an element to the front is simple" "And construction by adding an element to the front is simple"
(= __ (cons :a '(:b :c :d :e))) (= '(:a :b :c :d :e) (cons :a '(:b :c :d :e)))
"Conjoining an element to a list can be done in the reverse order" "Conjoining an element to a list can be done in the reverse order"
(= __ (conj '(:a :b :c :d :e) 0)) (= '(0 :a :b :c :d :e) (conj '(:a :b :c :d :e) 0))
"You can use a list like a stack to get the first element" "You can use a list like a stack to get the first element"
(= __ (peek '(:a :b :c :d :e))) (= :a (peek '(:a :b :c :d :e)))
"Or the others" "Or the others"
(= __ (pop '(:a :b :c :d :e))) (= '(:b :c :d :e) (pop '(:a :b :c :d :e)))
"But watch out if you try to pop nothing" "But watch out if you try to pop nothing"
(= __ (try (= "No dice!" (try
(pop '()) (pop '())
(catch IllegalStateException e "No dice!"))) (catch IllegalStateException e "No dice!")))
"The rest of nothing isn't so strict" "The rest of nothing isn't so strict"
(= __ (try (= () (try
(rest '()) (rest '())
(catch IllegalStateException e "No dice!")))) (catch IllegalStateException e "No dice!"))))

22
src/koans/03_vectors.clj
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@ -1,33 +1,33 @@
(meditations (meditations
"You can use vectors in clojure to create an 'Array' like structure" "You can use vectors in clojure to create an 'Array' like structure"
(= __ (count [42])) (= 1 (count [42]))
"You can create a vector in several ways" "You can create a vector in several ways"
(= __ (vec nil)) (= [] (vec nil))
"And populate it in either of these ways" "And populate it in either of these ways"
(= __ (vec '(1))) (= [1] (vec '(1)))
"There is another way as well" "There is another way as well"
(= __ (vector nil)) (= [nil] (vector nil))
"But you can populate it with any number of elements at once" "But you can populate it with any number of elements at once"
(= [1 __] (vec '(1 2))) (= [1 2] (vec '(1 2)))
"And add to it as well" "And add to it as well"
(= __ (conj (vec nil) 333)) (= [333] (conj (vec nil) 333))
"You can get the first element of a vector like so" "You can get the first element of a vector like so"
(= __ (first [:peanut :butter :and :jelly])) (= :peanut (first [:peanut :butter :and :jelly]))
"And the last in a similar fashion" "And the last in a similar fashion"
(= __ (last [:peanut :butter :and :jelly])) (= :jelly (last [:peanut :butter :and :jelly]))
"Or any index if you wish" "Or any index if you wish"
(= __ (nth [:peanut :butter :and :jelly] 3)) (= :jelly (nth [:peanut :butter :and :jelly] 3))
"You can also slice a vector" "You can also slice a vector"
(= __ (subvec [:peanut :butter :and :jelly] 1 3)) (= [:butter :and] (subvec [:peanut :butter :and :jelly] 1 3))
"Equality with collections is in terms of values" "Equality with collections is in terms of values"
(= (list 1 2 3) (vector 1 2 __))) (= (list 1 2 3) (vector 1 2 3)))

12
src/koans/04_sets.clj
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@ -1,18 +1,18 @@
(meditations (meditations
"You can create a set in two ways" "You can create a set in two ways"
(= #{} (set __)) (= #{} (set nil))
"They are another important data structure in clojure" "They are another important data structure in clojure"
(= __ (count #{1 2 3})) (= 3 (count #{1 2 3}))
"Remember that a set is a 'set'" "Remember that a set is a 'set'"
(= __ (set '(1 1 2 2 3 3 4 4 5 5))) (= #{1 2 3 4 5} (set '(1 1 2 2 3 3 4 4 5 5)))
"You can ask clojure for the union of two sets" "You can ask clojure for the union of two sets"
(= __ (clojure.set/union #{1 2 3 4} #{2 3 5})) (= #{1 2 3 4 5} (clojure.set/union #{1 2 3 4} #{2 3 5}))
"And also the intersection" "And also the intersection"
(= __ (clojure.set/intersection #{1 2 3 4} #{2 3 5})) (= #{2 3} (clojure.set/intersection #{1 2 3 4} #{2 3 5}))
"But don't forget about the difference" "But don't forget about the difference"
(= __ (clojure.set/difference #{1 2 3 4 5} #{2 3 5}))) (= #{1 4} (clojure.set/difference #{1 2 3 4 5} #{2 3 5})))

32
src/koans/05_maps.clj
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@ -1,50 +1,50 @@
(meditations (meditations
"There are two ways to create maps" "There are two ways to create maps"
(= __ (hash-map)) (= {} (hash-map))
"Maps in clojure associate keys with values" "Maps in clojure associate keys with values"
(= __ (count (hash-map))) (= 0 (count (hash-map)))
"A value must be supplied for each key" "A value must be supplied for each key"
(= {:a 1} (hash-map :a __)) (= {:a 1} (hash-map :a 1))
"The size is the number of entries" "The size is the number of entries"
(= __ (count {:a 1 :b 2})) (= 2 (count {:a 1 :b 2}))
"You can look up the value for a given key" "You can look up the value for a given key"
(= __ (get {:a 1 :b 2} :b)) (= 2 (get {:a 1 :b 2} :b))
"Maps can be used as lookup functions" "Maps can be used as lookup functions"
(= __ ({:a 1 :b 2} :a)) (= 1 ({:a 1 :b 2} :a))
"And so can keywords" "And so can keywords"
(= __ (:a {:a 1 :b 2})) (= 1 (:a {:a 1 :b 2}))
"But map keys need not be keywords" "But map keys need not be keywords"
(= __ ({2006 "Torino" 2010 "Vancouver" 2014 "Sochi"} 2010)) (= "Vancouver" ({2006 "Torino" 2010 "Vancouver" 2014 "Sochi"} 2010))
"You may not be able to find an entry for a key" "You may not be able to find an entry for a key"
(= __ (get {:a 1 :b 2} :c)) (= nil (get {:a 1 :b 2} :c))
"But you can provide your own default" "But you can provide your own default"
(= __ (get {:a 1 :b 2} :c :key-not-found)) (= :key-not-found (get {:a 1 :b 2} :c :key-not-found))
"You can find out if a key is present" "You can find out if a key is present"
(= __ (contains? {:a nil :b nil} :b)) (= true (contains? {:a nil :b nil} :b))
"Or if it is missing" "Or if it is missing"
(= __ (contains? {:a nil :b nil} :c)) (= false (contains? {:a nil :b nil} :c))
"Maps are immutable, but you can create a new, 'changed' version" "Maps are immutable, but you can create a new, 'changed' version"
(= {1 "January" 2 __} (assoc {1 "January" } 2 "February")) (= {1 "January" 2 "February"} (assoc {1 "January" } 2 "February"))
"You can also 'remove' an entry" "You can also 'remove' an entry"
(= {__ __} (dissoc {1 "January" 2 "February"} 2)) (= {1 "January"} (dissoc {1 "January" 2 "February"} 2))
"Often you will need to get the keys (which will be in hash order)" "Often you will need to get the keys (which will be in hash order)"
(= (list __ __ __) (= (list 2006 2010 2014)
(sort (keys {2006 "Torino" 2010 "Vancouver" 2014 "Sochi"}))) (sort (keys {2006 "Torino" 2010 "Vancouver" 2014 "Sochi"})))
"Or the values" "Or the values"
(= (list "Sochi" "Torino" __) (= (list "Sochi" "Torino" "Vancouver")
(sort (vals {2006 "Torino" 2010 "Vancouver" 2014 "Sochi"})))) (sort (vals {2006 "Torino" 2010 "Vancouver" 2014 "Sochi"}))))

16
src/koans/06_functions.clj
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@ -5,25 +5,25 @@
(meditations (meditations
"Functions are often defined before they are used" "Functions are often defined before they are used"
(= __ (multiply-by-ten 2)) (= 20 (multiply-by-ten 2))
"But they can also be defined inline" "But they can also be defined inline"
(= __ ((fn [n] (* __ n)) 2)) (= 20 ((fn [n] (* 10 n)) 2))
"Or using even shorter syntax" "Or using even shorter syntax"
(= __ (#(* 15 %) __)) (= 20 (#(* 10 %) 2))
"Short anonymous functions may take multiple arguments" "Short anonymous functions may take multiple arguments"
(= __ (#(+ %1 %2 %3) 4 5 6)) (= 15 (#(+ %1 %2 %3) 4 5 6))
"One function can beget another" "One function can beget another"
(= __ ((fn [] (= 9 ((fn []
((fn [a b] (__ a b)) ((fn [a b] (+ a b))
4 5)))) 4 5))))
"Higher-order functions take function arguments" "Higher-order functions take function arguments"
(= 25 (___ (= 25 ((fn [func] (func 5))
(fn [n] (* n n)))) (fn [n] (* n n))))
"But they are often better written using the names of functions" "But they are often better written using the names of functions"
(= 25 (___ square))) (= 25 ((defn square5 [square] (square 5)) square)))

20
src/koans/07_conditionals.clj
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@ -9,38 +9,38 @@
(meditations (meditations
"You will face many decisions" "You will face many decisions"
(= __ (if (false? (= 4 5)) (= :a (if (false? (= 4 5))
:a :a
:b)) :b))
"Some of them leave you no alternative" "Some of them leave you no alternative"
(= __ (if (> 4 3) (= [] (if (> 4 3)
[])) []))
"And in such a situation you may have nothing" "And in such a situation you may have nothing"
(= __ (if (nil? 0) (= nil (if (nil? 0)
[:a :b :c])) [:a :b :c]))
"In others your alternative may be interesting" "In others your alternative may be interesting"
(= :glory (if (not (empty? ())) (= :glory (if (not (empty? ()))
:doom :doom
__)) :glory))
"You may have a multitude of possible paths" "You may have a multitude of possible paths"
(let [x 5] (let [x 5]
(= :your-road (cond (= x __) :road-not-taken (= :your-road (cond (= x 2) :road-not-taken
(= x __) :another-road-not-taken (= x 3) :another-road-not-taken
:else __))) :else :your-road)))
"Or your fate may be sealed" "Or your fate may be sealed"
(= __ (if-not (zero? __) (= 'doom (if-not (zero? 1)
'doom 'doom
'doom)) 'doom))
"In case of emergency, sound the alarms" "In case of emergency, sound the alarms"
(= :sirens (= :sirens
(explain-defcon-level __)) (explain-defcon-level :cocked-pistol))
"But admit it when you don't know what to do" "But admit it when you don't know what to do"
(= __ (= :say-what?
(explain-defcon-level :yo-mama))) (explain-defcon-level :yo-mama)))

20
src/koans/08_higher_order_functions.clj
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@ -1,32 +1,32 @@
(meditations (meditations
"The map function relates a sequence to another" "The map function relates a sequence to another"
(= [__ __ __] (map (fn [x] (* 4 x)) [1 2 3])) (= [4 8 12] (map (fn [x] (* 4 x)) [1 2 3]))
"You may create that mapping" "You may create that mapping"
(= [1 4 9 16 25] (map (fn [x] __) [1 2 3 4 5])) (= [1 4 9 16 25] (map (fn [x] (* x x)) [1 2 3 4 5]))
"Or use the names of existing functions" "Or use the names of existing functions"
(= __ (map nil? [:a :b nil :c :d])) (= [false false true false false] (map nil? [:a :b nil :c :d]))
"A filter can be strong" "A filter can be strong"
(= __ (filter (fn [x] false) '(:anything :goes :here))) (= [] (filter (fn [x] false) '(:anything :goes :here)))
"Or very weak" "Or very weak"
(= __ (filter (fn [x] true) '(:anything :goes :here))) (= [:anything :goes :here] (filter (fn [x] true) '(:anything :goes :here)))
"Or somewhere in between" "Or somewhere in between"
(= [10 20 30] (filter (fn [x] __) [10 20 30 40 50 60 70 80])) (= [10 20 30] (filter (fn [x] (< x 40)) [10 20 30 40 50 60 70 80]))
"Maps and filters may be combined" "Maps and filters may be combined"
(= [10 20 30] (map (fn [x] __) (filter (fn [x] __) [1 2 3 4 5 6 7 8]))) (= [10 20 30] (map (fn [x] (* 10 x)) (filter (fn [x] (< x 4)) [1 2 3 4 5 6 7 8])))
"Reducing can increase the result" "Reducing can increase the result"
(= __ (reduce (fn [a b] (* a b)) [1 2 3 4])) (= 24 (reduce (fn [a b] (* a b)) [1 2 3 4]))
"You can start somewhere else" "You can start somewhere else"
(= 2400 (reduce (fn [a b] (* a b)) __ [1 2 3 4])) (= 2400 (reduce (fn [a b] (* a b)) 100 [1 2 3 4]))
"Numbers are not the only things one can reduce" "Numbers are not the only things one can reduce"
(= "longest" (reduce (fn [a b] (= "longest" (reduce (fn [a b]
(if (< __ __) b a)) (if (< (count a) (count b)) b a))
["which" "word" "is" "longest"]))) ["which" "word" "is" "longest"])))