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Long.parseLong( string ) throws an error if string is not parsable into long. Is there a way to validate the string faster than using try-catch? Thanks

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What do you mean 'faster'? –  Roman Apr 1 '10 at 20:59

9 Answers 9

up vote 23 down vote accepted

You can create rather complex regular expression but it isn't worth that. Using exceptions here is absolutely normal.

It's natural exceptional situation: you assume that there is an integer in the string but indeed there is something else. Exception should be thrown and handled properly.

If you look inside parseLong code, you'll see that there are many different verifications and operations. If you want to do all that stuff before parsing it'll decrease the performance (if we are talking about parsing millions of numbers because otherwise it doesn't matter). So, the only thing you can do if you really need to improve performance by avoiding exceptions is: copy parseLong implementation to your own function and return NaN instead of throwing exceptions in all correspondent cases.

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@Roman: and there lots of usually pointless and needless things, like working in base others than 10 and parsing digits that are non-ASCII. Which is why you can rewrite a parseBase10AsciiDigitsLong(...) that is faster than the default Long.parseLong. But I'm sure every single brainfart from the Java gods cannot be discussed... –  SyntaxT3rr0r Apr 1 '10 at 22:50

From commons-lang StringUtils:

public static boolean isNumeric(String str) {
    if (str == null) {
        return false;
    int sz = str.length();
    for (int i = 0; i < sz; i++) {
        if (Character.isDigit(str.charAt(i)) == false) {
            return false;
    return true;
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What about negatives, and values outside Long's limits? –  Carl Manaster Apr 1 '10 at 21:04
Oh guys, how about everything? The method gives a basic clue, or is it not enough? –  lexicore Apr 1 '10 at 21:06
Guys/Gals-if any?!!!! Come on . How come calling another method with if condition in a for loop ever be "faster" than try{ Long.parseLong( string ) }catch(Exception e){} - I think the question as well as this answer deserves a down voting. Do not over-engineer –  ring bearer Apr 1 '10 at 21:08
What do you think Long.parseLong(string) does exactly? –  lexicore Apr 1 '10 at 21:12
@ring bearer: Long.parseLong() also supports non-decimal radixes. Therefor what I'd end up with would be a bit simpler and faster. However I agree that catching an exception is fully ok here. Was just trying to answer the original question instead of altering it - just for fun. ps. No offense, surely. I'm sorry if my words could seem like assuming that. –  lexicore Apr 1 '10 at 21:26

I think that's the only way of checking if a String is a valid long value. but you can implement yourself a method to do that, having in mind the biggest long value.

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This case is common for forms and programs where you have the input field and are not sure if the string is a valid number. So using try/catch with your java function is the best thing to do if you understand how try/catch works compared to trying to write the function yourself. In order to setup the try catch block in .NET virtual machine, there is zero instructions of overhead, and it is probably the same in Java. If there are instructions used at the try keyword then these will be minimal, and the bulk of the instructions will be used at the catch part and that only happens in the rare case when the number is not valid.

So while it "seems" like you can write a faster function yourself, you would have to optimize it better than the Java compiler in order to beat the try/catch mechanism you already use, and the benefit of a more optimized function is going to be very minimal since number parsing is quite generic.

If you run timing tests with your compiler and the java catch mechanism you already described, you will probably not notice any above marginal slowdown, and by marginal I mean it should be almost nothing.

Get the java language specification to understand the exceptions more and you will see that using such a technique in this case is perfectly acceptable since it wraps a fairly large and complex function. Adding on those few extra instructions in the CPU for the try part is not going to be such a big deal.

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You could do something like


Using regular expression - to check if String s is full of digits. But what do you stand to gain? another if condition?

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what about negative numbers? or very big numbers which cannot fit in long –  Roman Apr 1 '10 at 21:04
@Roman - I was only trying to give an idea here. Length check and refining of regex can be done. Ex: s.matches("[+|-]\\d*") will take care of + or - signs. The whole point of my answer was- why not still use try/catch instead of redundant under-performing checks? –  ring bearer Apr 1 '10 at 21:13

There are much faster ways to parse a long than Long.parseLong. If you want to see an example of a method that is not optimized then you should look at parseLong :)

Do you really need to take into account "digits" that are non-ASCII?

Do you really need to make several methods calls passing around a radix even tough you're probably parsing base 10?


Using a regexp is not the way to go: it's harder to determine if you're number is too big for a long: how do you use a regexp to determine that 9223372036854775807 can be parsed to a long but that 9223372036854775907 cannot?

That said, the answer to a really fast long parsing method is a state machine and that no matter if you want to test if it's parseable or to parse it. Simply, it's not a generic state machine accepting complex regexp but a hardcoded one.

I can both write you a method that parses a long and another one that determines if a long can be parsed that totally outperforms Long.parseLong().

Now what do you want? A state testing method? In that case a state testing method may not be desirable if you want to avoid computing twice the long.

Simply wrap your call in a try/catch.

And if you really want something faster than the default Long.parseLong, write one that is tailored to your problem: base 10 if you're base 10, not checking digits outside ASCII (because you're probably not interested in Japanese's itchi-ni-yon-go etc.).

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In addition to that I may add that in your problem space, it is very unlikely that by some magic the maximum and minimum long you'd need to parse would exactly match -263+1 and 263 (unless your problem space happens to be the computing space). Which means a custom made state machine can be even better performing than a "normal" parselong, allowing to parse any long from -263+1 to 263 (and, yup, I've (re)written "parse long" much faster than Long.parseLong and they're in production code on a lot of systems ;) –  SyntaxT3rr0r Apr 1 '10 at 22:39

You can use java.util.Scanner

Scanner sc = new Scanner(s);
if (sc.hasNextLong()) {
   long num = sc.nextLong();

This does range checking etc, too. Of course it will say that "99 bottles of beer" hasNextLong(), so if you want to make sure that it only has a long you'd have to do extra checks.

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This is a valid question because there are times when you need to infer what type of data is being represented in a string. For example, you may need to import a large CSV into a database and represent the data types accurately. In such cases, calling Long.parseLong and catching an exception can be too slow.

The following code only handles ASCII decimal:

public class LongParser {
    // Since tryParseLong represents the value as negative during processing, we
    // counter-intuitively want to keep the sign if the result is negative and
    // negate it if it is positive.
    private static final int MULTIPLIER_FOR_NEGATIVE_RESULT = 1;
    private static final int MULTIPLIER_FOR_POSITIVE_RESULT = -1;

    private static final int FIRST_CHARACTER_POSITION = 0;
    private static final int SECOND_CHARACTER_POSITION = 1;
    private static final char NEGATIVE_SIGN_CHARACTER = '-';
    private static final char POSITIVE_SIGN_CHARACTER = '+';
    private static final int DIGIT_MAX_VALUE = 9;
    private static final int DIGIT_MIN_VALUE = 0;
    private static final char ZERO_CHARACTER = '0';
    private static final int RADIX = 10;

     * Parses a string representation of a long significantly faster than
     * <code>Long.ParseLong</code>, and avoids the noteworthy overhead of
     * throwing an exception on failure. Based on the parseInt code from
     * http://nadeausoftware.com/articles/2009/08/java_tip_how_parse_integers_quickly
     * @param stringToParse
     *            The string to try to parse as a <code>long</code>.
     * @return the boxed <code>long</code> value if the string was a valid
     *         representation of a long; otherwise <code>null</code>.
    public static Long tryParseLong(final String stringToParse) {
        if (stringToParse == null || stringToParse.isEmpty()) {
            return null;

        final int inputStringLength = stringToParse.length();
        long value = 0;

         * The absolute value of Long.MIN_VALUE is greater than the absolute
         * value of Long.MAX_VALUE, so during processing we'll use a negative
         * value, then we'll multiply it by signMultiplier before returning it.
         * This allows us to avoid a conditional add/subtract inside the loop.

        int signMultiplier = MULTIPLIER_FOR_POSITIVE_RESULT;

        // Get the first character.
        char firstCharacter = stringToParse.charAt(FIRST_CHARACTER_POSITION);

        if (firstCharacter == NEGATIVE_SIGN_CHARACTER) {
            // The first character is a negative sign.
            if (inputStringLength == 1) {
                // There are no digits.
                // The string is not a valid representation of a long value.
                return null;

            signMultiplier = MULTIPLIER_FOR_NEGATIVE_RESULT;
        } else if (firstCharacter == POSITIVE_SIGN_CHARACTER) {
            // The first character is a positive sign.
            if (inputStringLength == 1) {
                // There are no digits.
                // The string is not a valid representation of a long value.
                return null;
        } else {
            // Store the (negative) digit (although we aren't sure yet if it's
            // actually a digit).
            value = -(firstCharacter - ZERO_CHARACTER);
            if (value > DIGIT_MIN_VALUE || value < -DIGIT_MAX_VALUE) {
                // The first character is not a digit (or a negative sign).
                // The string is not a valid representation of a long value.
                return null;

        // Establish the "maximum" value (actually minimum since we're working
        // with negatives).
        final long rangeLimit = (signMultiplier == MULTIPLIER_FOR_POSITIVE_RESULT)
            ? -Long.MAX_VALUE
            : Long.MIN_VALUE;

        // Capture the maximum value that we can multiply by the radix without
        // overflowing.
        final long maxLongNegatedPriorToMultiplyingByRadix = rangeLimit / RADIX;

        for (int currentCharacterPosition = SECOND_CHARACTER_POSITION;
            currentCharacterPosition < inputStringLength;
            currentCharacterPosition++) {
            // Get the current digit (although we aren't sure yet if it's
            // actually a digit).
            long digit = stringToParse.charAt(currentCharacterPosition)
                    - ZERO_CHARACTER;

            if (digit < DIGIT_MIN_VALUE || digit > DIGIT_MAX_VALUE) {
                // The current character is not a digit.
                // The string is not a valid representation of a long value.
                return null;

            if (value < maxLongNegatedPriorToMultiplyingByRadix) {
                // The value will be out of range if we multiply by the radix.
                // The string is not a valid representation of a long value.
                return null;

            // Multiply by the radix to slide all the previously parsed digits.
            value *= RADIX;

            if (value < (rangeLimit + digit)) {
                // The value would be out of range if we "added" the current
                // digit.
                return null;

            // "Add" the digit to the value.
            value -= digit;

        // Return the value (adjusting the sign if needed).
        return value * signMultiplier;
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You could try using a regular expression to check the form of the string before trying to parse it?

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Yes, regular expressions are indeed very fast. :) –  lexicore Apr 1 '10 at 21:09

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