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I've been using java to parse numbers, e.g.

(. Integer parseInt  numberString)

Is there a more clojuriffic way that would handle both integers and floats, and return clojure numbers? I'm not especially worried about performance here, I just want to process a bunch of white space delimited numbers in a file and do something with them, in the most straightforward way possible.

So a file might have lines like:

5  10  0.0002
4  12  0.003

And I'd like to be able to transform the lines into vectors of numbers.

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As a side note, the way you called Java in your post is a unsugared way. Please prefer the sugared way when calling java. (Integer/parseInt number-string), and for instance methods: (.method obj args). – Rayne Apr 14 '10 at 21:02
Adding on top of Rayne's "sweet" suggestion, you can also use (Integer. number-string) to parse a into a java.lang.Integer (and similarly for Long, Double, etc...). – ɲeuroburɳ Aug 27 '13 at 20:07
It would seem that the word "easiest" in the title attracted some answers that are easy and unsafe. Please, unless you want to get hacked, use a number parser that can tolerate malicious strings. – David James Jan 3 at 0:00

7 Answers 7

up vote 37 down vote accepted

If you're very sure that your file contains only numbers, you can use the Clojure reader to parse numbers. This has the benefit of giving you floats or Bignums when needed, too.

user> (read-string "0.002")

This isn't safe if you're parsing arbitrary user-supplied input, because reader macros can be used to execute arbitrary code at read-time and delete your hard drive etc.

If you want one huge vector of numbers, you could cheat and do this:

user> (let [input "5  10  0.002\n4  12  0.003"]
        (read-string (str "[" input "]")))
[5 10 0.0020 4 12 0.0030]

Kind of hacky though. Or there's re-seq:

user> (let [input "5  10  0.002\n4  12  0.003"]
        (map read-string (re-seq #"[\d.]+" input)))
(5 10 0.0020 4 12 0.0030)

Or one vector per line:

user> (let [input "5  10  0.002\n4  12  0.003"]
        (for [line (line-seq (
                              ( input)))]
             (vec (map read-string (re-seq #"[\d.]+" line)))))
([5 10 0.0020] [4 12 0.0030])

I'm sure there are other ways.

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Just what I was looking for, thank you. – Rob Lachlan Apr 14 '10 at 19:35
this method has the useful benefit of properly parsing rational numbers as well. if you modify the re-seq properly (re-seq #"[\d\/\.]+" input) – Jeremy Wall Jun 24 '10 at 3:14
beware of read-string user> (class (read-string "0.5")) = java.lang.Double user> (class (read-string ".5")) = clojure.lang.Symbol – alexguev Jul 15 '12 at 3:30
In modern times, we have the EDN reader, which would be the right tool for this job. – Charles Duffy Dec 11 '13 at 16:29
This is a horrible practice. read-string can execute code. This fact cannot be emphasized enough. For examples and a good explanation of how bad it can be, even with *read-eval* bound to false, see: – ɲeuroburɳ Jun 17 at 14:26

Not sure if this is "the easiest way", but I thought it was kind of fun, so... With a reflection hack, you can access just the number-reading part of Clojure's Reader:

(let [m (.getDeclaredMethod clojure.lang.LispReader
                            (into-array [String]))]
  (.setAccessible m true)
  (defn parse-number [s]
    (.invoke m clojure.lang.LispReader (into-array [s]))))

Then use like so:

user> (parse-number "123")
user> (parse-number "123.5")
user> (parse-number "123/2")
user> (class (parse-number "123"))
user> (class (parse-number "123.5"))
user> (class (parse-number "123/2"))
user> (class (parse-number "123123451451245"))
user> (class (parse-number "123123451451245123514236146"))
user> (parse-number "0x12312345145124")
user> (parse-number "12312345142as36146") ; note the "as" in the middle

Notice how this does not throw the usual NumberFormatException if something goes wrong; you could add a check for nil and throw it yourself if you want.

As for performance, let's have an unscientific microbenchmark (both functions have been "warmed up"; initial runs were slower as usual):

user> (time (dotimes [_ 10000] (parse-number "1234123512435")))
"Elapsed time: 564.58196 msecs"
user> (time (dotimes [_ 10000] (read-string "1234123512435")))
"Elapsed time: 561.425967 msecs"

The obvious disclaimer: clojure.lang.LispReader.matchNumber is a private static method of clojure.lang.LispReader and may be changed or removed at any time.

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+1 for the hackery genius :-) – mikera Apr 12 '11 at 11:31

If you want to be safer, you can use Float/parseFloat

user=> (map #(Float/parseFloat (% 0)) (re-seq #"\d+(\.\d+)?" "1 2.2 3.5"))
(1.0 2.2 3.5)
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In my opinion the best/safest way that works when you want it to for any number and fails when it isn't a number is this:

(defn parse-number
  "Reads a number from a string. Returns nil if not a number."
  (if (re-find #"^-?\d+\.?\d*$" s)
    (read-string s)))


(parse-number "43") ;=> 43
(parse-number "72.02") ;=> 72.02
(parse-number "009.0008") ;=> 9.008
(parse-number "-92837482734982347.00789") ;=> -9.2837482734982352E16
(parse-number "89blah") ;=> nil
(parse-number "z29") ;=> nil
(parse-number "(exploit-me)") ;=> nil

Works for ints, floats/doubles, bignums, etc. If you wanted to add support for reading other notations, simply augment the regex.

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Brian Carper's suggested approach (using read-string) works nicely, but only until you try and parse zero-padded numbers like "010". Observe:

user=> (read-string "010")
user=> (read-string "090")
java.lang.RuntimeException: java.lang.NumberFormatException: Invalid number: 090 (NO_SOURCE_FILE:0)

This is because clojure tries to parse "090" as an octal, and 090 is not a valid octal!

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very good point... this one caught me out before! – mikera Jun 9 '11 at 14:45

I find solussd's answer work great for my code. Based on it, here's an enhancement with support for Scientific notation. Besides, (.trim s) is added so that extra space can be tolerated.

(defn parse-number
  "Reads a number from a string. Returns nil if not a number."
  (if (re-find #"^-?\d+\.?\d*([Ee]\+\d+|[Ee]-\d+|[Ee]\d+)?$" (.trim s))
    (read-string s)))


(parse-number "  4.841192E-002  ")    ;=> 0.04841192
(parse-number "  4.841192e2 ")    ;=> 484.1192
(parse-number "  4.841192E+003 ")    ;=> 4841.192
(parse-number "  4.841192e.2 ")  ;=> nil
(parse-number "  4.841192E ")  ;=> nil
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Use bigint and bigdec

(bigint "1")
(bigint "010") ; returns 10N as expected
(bigint "111111111111111111111111111111111111111111111111111")
(bigdec "11111.000000000000000000000000000000000000000000001")

Clojure's bigint will use primitives when possible, while avoiding regexps, the problem with octal literals or the limited size of the other numeric types, causing (Integer. "10000000000") to fail.

(This last thing happened to me and it was quite confusing: I wrapped it into a parse-int function, and afterwards just assumed that parse-int meant "parse a natural integer" not "parse a 32bit integer")

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