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What are some common mistakes made by Clojure developers, and how can we avoid them?

For example; newcomers to Clojure think that the contains? function works the same as java.util.Collection#contains. However, contains? will only work similarly when used with indexed collections like maps and sets and you're looking for a given key:

(contains? {:a 1 :b 2} :b)
;=> true
(contains? {:a 1 :b 2} 2)
;=> false
(contains? #{:a 1 :b 2} :b)
;=> true

When used with numerically indexed collections (vectors, arrays) contains? only checks that the given element is within the valid range of indexes (zero-based):

(contains? [1 2 3 4] 4)
;=> false
(contains? [1 2 3 4] 0)
;=> true

If given a list, contains? will never return true.

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3  
Just FYI, for those Clojure devs looking for java.util.Collection#contains type functionality, check out clojure.contrib.seq-utils/includes? From the docs: Usage: (includes? coll x). Returns true if coll contains something equal (with =) to x, in linear time. –  rcampbell Jan 7 '10 at 15:22
10  
You seem to have missed the fact that those questions are Community Wiki –  anon Jan 7 '10 at 15:54
3  
I love how the Perl question just has to be out of step with all the others :) –  Ether Jan 13 '10 at 4:32
4  
For Clojure devs looking for contains, I'd recommend not following rcampbell's advice. seq-utils has long since been deprecated and that function was never useful to begin with. You can use Clojure's some function or, better yet, just use contains itself. Clojure collections implement java.util.Collection. (.contains [1 2 3] 2) => true –  Rayne Mar 20 '12 at 2:37
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closed as not constructive by casperOne Dec 20 '11 at 16:26

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8 Answers

Literal Octals

At one point I was reading in a matrix which used leading zeros to maintain proper rows and columns. Mathematically this is correct, since leading zero obviously don't alter the underlying value. Attempts to define a var with this matrix, however, would fail mysteriously with:

java.lang.NumberFormatException: Invalid number: 08

which totally baffled me. The reason is that Clojure treats literal integer values with leading zeros as octals, and there is no number 08 in octal.

I should also mention that Clojure supports traditional Java hexadecimal values via the 0x prefix. You can also use any base between 2 and 36 by using the "base+r+value" notation, such as 2r101010 or 36r16 which are 42 base ten.


Trying to return literals in an anonymous function literal

This works:

user> (defn foo [key val]
    {key val})
#'user/foo
user> (foo :a 1)
{:a 1}

so I believed this would also work:

(#({%1 %2}) :a 1)

but it fails with:

java.lang.IllegalArgumentException: Wrong number of args passed to: PersistentArrayMap

because the #() reader macro gets expanded to

(fn [%1 %2] ({%1 %2}))  

with the map literal wrapped in parenthesis. Since it's the first element, it's treated as a function (which a literal map actually is), but no required arguments (such as a key) are provided. In summary, the anonymous function literal does not expand to

(fn [%1 %2] {%1 %2})  ; notice the lack of parenthesis

and so you can't have any literal value ([], :a, 4, %) as the body of the anonymous function.

Two solutions have been given in the comments. Brian Carper suggests using sequence implementation constructors (array-map, hash-set, vector) like so:

(#(array-map %1 %2) :a 1)

while Dan shows that you can use the identity function to unwrap the outer parenthesis:

(#(identity {%1 %2}) :a 1)

Brian's suggestion actually brings me to my next mistake...


Thinking that hash-map or array-map determine the unchanging concrete map implementation

Consider the following:

user> (class (hash-map))
clojure.lang.PersistentArrayMap
user> (class (hash-map :a 1))
clojure.lang.PersistentHashMap
user> (class (assoc (apply array-map (range 2000)) :a :1))
clojure.lang.PersistentHashMap

While you generally won't have to worry about the concrete implementation of a Clojure map, you should know that functions which grow a map - like assoc or conj - can take a PersistentArrayMap and return a PersistentHashMap, which performs faster for larger maps.


Using a function as the recursion point rather than a loop to provide initial bindings

When I started out, I wrote a lot of functions like this:

; Project Euler #3
(defn p3 
  ([] (p3 775147 600851475143 3))
  ([i n times]
    (if (and (divides? i n) (fast-prime? i times)) i
      (recur (dec i) n times))))

When in fact loop would have been more concise and idiomatic for this particular function:

; Elapsed time: 387 msecs
(defn p3 [] {:post [(= % 6857)]}
  (loop [i 775147 n 600851475143 times 3]
    (if (and (divides? i n) (fast-prime? i times)) i
      (recur (dec i) n times))))

Notice that I replaced the empty argument, "default constructor" function body (p3 775147 600851475143 3) with a loop + initial binding. The recur now rebinds the loop bindings (instead of the fn parameters) and jumps back to the recursion point (loop, instead of fn).


Referencing "phantom" vars

I'm speaking about the type of var you might define using the REPL - during your exploratory programming - then unknowingly reference in your source. Everything works fine until you reload the namespace (perhaps by closing your editor) and later discover a bunch of unbound symbols referenced throughout your code. This also happens frequently when you're refactoring, moving a var from one namespace to another.


Treating the for list comprehension like an imperative for loop

Essentially you're creating a lazy list based on existing lists rather than simply performing a controlled loop. Clojure's doseq is actually more analogous to imperative foreach looping constructs.

One example of how they're different is the ability to filter which elements they iterate over using arbitrary predicates:

user> (for [n '(1 2 3 4) :when (even? n)] n)
(2 4)

user> (for [n '(4 3 2 1) :while (even? n)] n)
(4)

Another way they're different is that they can operate on infinite lazy sequences:

user> (take 5 (for [x (iterate inc 0) :when (> (* x x) 3)] (* 2 x)))
(4 6 8 10 12)

They also can handle more than one binding expression, iterating over the rightmost expression first and working its way left:

user> (for [x '(1 2 3) y '(\a \b \c)] (str x y))
("1a" "1b" "1c" "2a" "2b" "2c" "3a" "3b" "3c")

There's also no break or continue to exit prematurely.


Overuse of structs

I come from an OOPish background so when I started Clojure my brain was still thinking in terms of objects. I found myself modeling everything as a struct because its grouping of "members", however loose, made me feel comfortable. In reality, structs should mostly be considered an optimization; Clojure will share the keys and some lookup information to conserve memory. You can further optimize them by defining accessors to speed up the key lookup process.

Overall you don't gain anything from using a struct over a map except for performance, so the added complexity might not be worth it.


Using unsugared BigDecimal constructors

I needed a lot of BigDecimals and was writing ugly code like this:

(let [foo (BigDecimal. "1") bar (BigDecimal. "42.42") baz (BigDecimal. "24.24")]

when in fact Clojure supports BigDecimal literals by appending M to the number:

(= (BigDecimal. "42.42") 42.42M) ; true

Using the sugared version cuts out a lot of the bloat. In the comments, twils mentioned that you can also use the bigdec and bigint functions to be more explicit, yet remain concise.


Using the Java package naming conversions for namespaces

This isn't actually a mistake per se, but rather something that goes against the idiomatic structure and naming of a typical Clojure project. My first substantial Clojure project had namespace declarations - and corresponding folder structures - like this:

(ns com.14clouds.myapp.repository)

which bloated up my fully-qualified function references:

(com.14clouds.myapp.repository/load-by-name "foo")

To complicate things even more, I used a standard Maven directory structure:

|-- src/
|   |-- main/
|   |   |-- java/
|   |   |-- clojure/
|   |   |-- resources/
|   |-- test/
...

which is more complex than the "standard" Clojure structure of:

|-- src/
|-- test/
|-- resources/

which is the default of Leiningen projects and Clojure itself.


Maps utilize Java's equals() rather than Clojure's = for key matching

Originally reported by chouser on IRC, this usage of Java's equals() leads to some unintuitive results:

user> (= (int 1) (long 1))
true
user> ({(int 1) :found} (int 1) :not-found)
:found
user> ({(int 1) :found} (long 1) :not-found)
:not-found

Since both Integer and Long instances of 1 are printed the same by default, it can be difficult to detect why your map isn't returning any values. This is especially true when you pass your key through a function which, perhaps unbeknownst to you, returns a long.

It should be noted that using Java's equals() instead of Clojure's = is essential for maps to conform to the java.util.Map interface.


I'm using Programming Clojure by Stuart Halloway, Practical Clojure by Luke VanderHart, and the help of countless Clojure hackers on IRC and the mailing list to help along my answers.

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1  
All of the reader macros have a normal function version. You could do (#(hash-set %1 %2) :a 1) or in this case (hash-set :a 1). –  Brian Carper Jan 7 '10 at 21:35
2  
You could also 'remove' the additional parentheses with identity: (#(identity {%1 %2}) :a 1) –  Dan Jan 8 '10 at 10:46
    
You could also use do: (#(do {%1 %2}) :a 1). –  Michał Marczyk Jan 8 '10 at 13:59
    
@Michał - I don't like this solution as much as the previous ones because do implies that a side effect is taking place, when in fact this isn't the case here. –  rcampbell Jan 8 '10 at 14:06
    
@rrc7cz: Well, in reality, there's no need to use an anonymous function here at all, since using hash-map directly (as in (hash-map :a 1) or (map hash-map keys vals)) is more readable and doesn't imply that something special and as-of-yet unimplemented in a named function is taking place (which the use of #(...) does imply, I find). In fact, overusing anonymous fns is a gotcha to think about in itself. :-) OTOH, I sometimes use do in super-concise anonymous functions which are side-effect free... It tends to be obvious that they are at a single glance. A matter of taste, I guess. –  Michał Marczyk Jan 8 '10 at 14:31
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Forgetting to force evaluation of lazy seqs

Lazy seqs aren't evaluated unless you ask them to be evaluated. You might expect this to print something, but it doesn't.

user=> (defn foo [] (map println [:foo :bar]) nil)
#'user/foo
user=> (foo)
nil

The map is never evaluated, it's silently discarded, because it's lazy. You have to use one of doseq, dorun, doall etc. to force evaluation of lazy sequences for side-effects.

user=> (defn foo [] (doseq [x [:foo :bar]] (println x)) nil)
#'user/foo
user=> (foo)
:foo
:bar
nil
user=> (defn foo [] (dorun (map println [:foo :bar])) nil)
#'user/foo
user=> (foo)
:foo
:bar
nil

Using a bare map at the REPL kind of looks like it works, but it only works because the REPL forces evaluation of lazy seqs itself. This can make the bug even harder to notice, because your code works at the REPL and doesn't work from a source file or inside a function.

user=> (map println [:foo :bar])
(:foo
:bar
nil nil)
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+1. This bit me, but in a more insidious manner: I was evaluating (map ...) from within (binding ...) and wondering why new binding values do not apply. –  Alex B Feb 9 '10 at 2:41
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I'm a Clojure noob. More advanced users may have more interesting problems.

trying to print infinite lazy sequences.

I knew what I was doing with my lazy sequences, but for debugging purposes I inserted some print/prn/pr calls, temporarily having forgotten what it is I was printing. Funny, why's my PC all hung up?

trying to program Clojure imperatively.

There is some temptation to create a whole lot of refs or atoms and write code that constantly mucks with their state. This can be done, but it's not a good fit. It may also have poor performance, and rarely benefit from multiple cores.

trying to program Clojure 100% functionally.

A flip side to this: Some algorithms really do want a bit of mutable state. Religiously avoiding mutable state at all costs may result in slow or awkward algorithms. It takes judgement and a bit of experience to make the decision.

trying to do too much in Java.

Because it's so easy to reach out to Java, it's sometimes tempting to use Clojure as a scripting language wrapper around Java. Certainly you'll need to do exactly this when using Java library functionality, but there's little sense in (e.g.) maintaining data structures in Java, or using Java data types such as collections for which there are good equivalents in Clojure.

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Lots of things already mentioned. I'll just add one more.

Clojure if treats Java Boolean objects always as true even if it's value is false. So if you have a java land function that returns a java Boolean value, make sure you do not check it directly (if java-bool "Yes" "No") but rather (if (boolean java-bool) "Yes" "No").

I got burned by this with clojure.contrib.sql library that returns database boolean fields as java Boolean objects.

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6  
Note that (if java.lang.Boolean/FALSE (println "foo")) doesn't print foo. (if (java.lang.Boolean. "false") (println "foo")) does, though, whereas (if (boolean (java.lang.Boolean "false")) (println "foo")) does not... Quite confusing indeed! –  Michał Marczyk Jan 11 '10 at 17:49
    
It seems to work as expected in Clojure 1.4.0: (assert (= :false (if Boolean/FALSE :true :false))) –  Jakub Holý Oct 28 '12 at 10:32
    
I also got burned by this one recently when doing (filter :mykey coll) where :mykey's values where Booleans - works as expected with Clojure-created collections, but NOT with deserialized collections, when serialized using default Java serialization - because those Booleans are deserialized as new Boolean(), and sadly (new Boolean(true) != java.lang.Boolean/TRUE) –  Hendekagon Jul 6 '13 at 0:07
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Keeping your head in loops.
You risk running out of memory if you loop over the elements of a potentially very large, or infinite, lazy sequence while keeping a reference to the first element.

Forgetting there's no TCO.
Regular tail-calls consume stack space, and they will overflow if you're not careful. Clojure has 'recur and 'trampoline to handle many of the cases where optimized tail-calls would be used in other languages, but these techniques have to be intentionally applied.

Not-quite-lazy sequences.
You may build a lazy sequence with 'lazy-seq or 'lazy-cons (or by building upon higher level lazy APIs), but if you wrap it in 'vec or pass it through some other function that realizes the sequence, then it will no longer be lazy. Both the stack and the heap can be overflown by this.

Putting mutable things in refs.
You can technically do it, but only the object reference in the ref itself is governed by the STM - not the referred object and its fields (unless they are immutable and point to other refs). So whenever possible, prefer to only immutable objects in refs. Same thing goes for atoms.

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3  
the upcoming development branch goes a long way towards reducing the first item by erasing references to objects in a function once they become locally unreachable. –  Arthur Ulfeldt Jan 7 '10 at 18:32
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using loop ... recur to process sequences when map will do.

(defn work [data]
    (do-stuff (first data))
    (recur (rest data)))

vs.

(map do-stuff data)

The map function (in the latest branch) uses chunked sequences and many other optimizations. Also, because this function is frequently run, the Hotspot JIT usually has it optimized and ready to go with out any "warm up time".

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These two versions are actually not equivalent. Your work function is equivalent to (doseq [item data] (do-stuff item)). (Besides the fact, that loop in work never ends.) –  kotarak Jan 11 '10 at 12:26
    
yes, the first one breaks laziness on its arguments. the resulting seq will have the same values though it no longer be a lazy seq. –  Arthur Ulfeldt Jan 11 '10 at 18:34
    
+1! I wrote numerous small recursive functions only to find another day that these all could be generalised by using map and/or reduce. –  progo Jan 30 '11 at 15:42
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Collection types have different behaviors for some operations:

user=> (conj '(1 2 3) 4)    
(4 1 2 3)                 ;; new element at the front
user=> (conj [1 2 3] 4) 
[1 2 3 4]                 ;; new element at the back

user=> (into '(3 4) (list 5 6 7))
(7 6 5 3 4)
user=> (into [3 4] (list 5 6 7)) 
[3 4 5 6 7]

Working with strings can be confusing (I still don't quite get them). Specifically, strings are not the same as sequences of characters, even though sequence functions work on them:

user=> (filter #(> (int %) 96) "abcdABCDefghEFGH")
(\a \b \c \d \e \f \g \h)

To get a string back out, you'd need to do:

user=> (apply str (filter #(> (int %) 96) "abcdABCDefghEFGH"))
"abcdefgh"
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too many parantheses, especially with void java method call inside which results in NPE:

public void foo() {}

((.foo))

results in NPE from outer parantheses because inner parantheses evaluate to nil.

public int bar() { return 5; }

((.bar)) 

results in the easier to debug:

java.lang.Integer cannot be cast to clojure.lang.IFn
  [Thrown class java.lang.ClassCastException]
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