I have a double

double pi = 3.1415;

I want to convert this to a int array

int[] piArray = {3,1,4,1,5};

I came up with this

double pi = 3.1415;
String piString = Double.toString(pi).replace(".", "");
int[] piArray = new int[piString.length()];
for (int i = 0; i <= piString.length()-1; i++)
   piArray[i] = piString.charAt(i) - '0'; 

It's working but I don't like this solution because I think a lot of conversions between datatypes can lead to errors. Is my code even complete or do I need to check for something else?

And how would you approach this problem?

  • You might be interested in base 2 digits, a double as array of 0s and 1s. The Double class has conversion of the bits. Above you could have the power-of-ten in the array: -4 in your example. Doubles are themselves problematic, as the toString could well give "3.14149999998" – Joop Eggen Sep 14 '18 at 9:02
  • Thought about writing a Java 7 answer, but it seems pointless. A foreach of piString.toCharArray and using Character::getNumericValue are the only changes I'd make. Edit: would still need indexes for the int array... – JollyJoker Sep 14 '18 at 11:41
  • What should happend if the number is big? I mean: if the string representation of a number is 1E200 do you want the array to become {1,2,0,0} or {1,0,0,0,0,...,0} with 200 zeros? – Giacomo Alzetta Sep 14 '18 at 13:19
  • What answer do you expect for (say) double d = 0.1? Due to floating point shenanigans this is far from trivial. Furthermore, why do you think that conversion between data types leads to errors? — And lastly, for the future, such questions are better suited for codereview.stackexchange.com. – Konrad Rudolph Sep 14 '18 at 13:43
  • We might be able to give a more meaningful answer if we understood why you are doing this? What will you be doing with the resulting array? – David Dubois Sep 14 '18 at 18:44

I don't know straight way but I think it is simpler:

int[] piArray = String.valueOf(pi)
                      .replaceAll("\\D", "")
  • 1
    Came up with the same solution, you were a bit earlier :) – Glains Sep 14 '18 at 9:01
  • 12
    I have used replaceAll("\\D", "") tough to filter any non digits. – Glains Sep 14 '18 at 9:03
  • Glains post your solution or edit, as i think it's the more robust solution. – fl0w Sep 14 '18 at 9:04
  • 2
    @Eugene if double is 1.13E+21 replaceFirst is not working – Rahim Dastar Sep 14 '18 at 9:19
  • 2
    BigDecimal.valueOf(pi).toPlainString() avoids the exponential form altogether. – Radiodef Sep 14 '18 at 16:12

Since you want to avoid casts, here's the arithmetic way, supposing you only have to deal with positive numbers :

List<Integer> piList = new ArrayList<>();
double current = pi;
while (current > 0) {
    int mostSignificantDigit = (int) current;
    current = (current - mostSignificantDigit) * 10;

Handling negative numbers could be easily done by checking the sign at first then using the same code with current = Math.abs(pi).

Note that due to floating point arithmetics it will give you results you might not expect for values that can't be perfectly represented in binary.

Here's an ideone which illustrates the problem and where you can try my code.

  • 2
    I can’t believe this is the only answer that even mentions floating-point representation. +1 – Konrad Rudolph Sep 14 '18 at 13:41
  • While the arithmetic approach is nice, the problem with imprecise floating point representations makes this pretty useless for real world numbers. When 3.1415 produces a List with 52 values (3, 1, 4, 1, 5, a bunch of zeroes, then what amounts to useless garbage "precision"), you're violating user expectations quite a bit. – ShadowRanger Sep 14 '18 at 14:42
  • 1
    @ShadowRanger yes, definitely agreed. I "remembered" floating point precision problems when testing my solution, and thought my answer would still be of interest anyway (especially if it's homework, in which case I wouldn't be surprised if this problem was what the teacher wanted his students to encounter). A real world arithmetics solution would still be possible by using BigDecimal, but I'm not sure it would have many advantages over the string-based solutions – Aaron Sep 14 '18 at 14:46
  • 1
    @Aaron: Yeah. If the value arrives as a double, you end up with the same problems converting to BigDecimal; BigDecimal's constructor for double preserves the exact decimal representation of the binary floating point value, so the only way BigDecimal helps is if you can change your input type to BigDecimal (pushing the problem to the caller), or perform implicit rounding through string conversion (which just hides the fact that it's all effectively based on string parsing). Your answer isn't wrong (not down-voting), it's just probably not useful for anything but demonstration. – ShadowRanger Sep 14 '18 at 14:52
  • @ShadowRanger The string solution fundamentally also has this problem; it’s less pronounced since the string formatter already provides some handling for it, but it still exists. In a way the string solution just hides a potential bug better, and this is not generally a good idea. – Konrad Rudolph Sep 14 '18 at 17:20
int[] result = Stream.of(pi)
            .flatMap(x -> Arrays.stream(x.split("\\.|")))
            .filter(x -> !x.isEmpty())

Or a safer approach with java-9:

 int[] result = new Scanner(String.valueOf(pi))
  • Can you explain why it is safer, would be interested in that. – Glains Sep 14 '18 at 9:27
  • 2
    @Glains safer that my first approach, which does not take care of 1.13E+21... – Eugene Sep 14 '18 at 9:28
  • Wouldn't it return {1, 1, 3, 2, 1} instead of {1, 1, 3, /* 19 zeroes */} though? Having the list of digits used in scientific notation is quite useless, you can't tell which number it makes if you don't know where the E was. – Aaron Sep 14 '18 at 15:44

You can use in java 8

int[] piArray = piString.chars().map(Character::getNumericValue).toArray();

this would work also

int[] piArray = piString.chars().map(c -> c-'0').toArray();

This solution makes no assumptions and uses string manipulation to get you the result you want. Gets the double, turns it to a string, removes illegal characters, then casts each of the remaining characters into ints and stores them in the array - in the order they appear in the double

        double pi           = 3.1415;
        String temp         = ""+ pi;
        String str          = "";
        String validChars   = "0123456789";

        //this removes all non digit characters 
        //so '.' and '+' and '-' same as string replace(this withThat)
        for(int i =0; i<temp.length(); i++){
          if(validChars.indexOf(temp.charAt(i)) > -1 ){
              str = str +temp.charAt(i);

        int[] result = new int[str.length()];

        for(int i =0; i<str.length(); i++){
          result[i] = Integer.parseInt(""+str.charAt(i));

        return result; //your array of ints

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