# Sort on a string that may contain a number

I need to write a Java Comparator class that compares Strings, however with one twist. If the two strings it is comparing are the same at the beginning and end of the string are the same, and the middle part that differs is an integer, then compare based on the numeric values of those integers. For example, I want the following strings to end up in order they're shown:

• aaa
• bbb 3 ccc
• bbb 12 ccc
• ccc 11
• ddd
• eee 3 ddd jpeg2000 eee
• eee 12 ddd jpeg2000 eee

As you can see, there might be other integers in the string, so I can't just use regular expressions to break out any integer. I'm thinking of just walking the strings from the beginning until I find a bit that doesn't match, then walking in from the end until I find a bit that doesn't match, and then comparing the bit in the middle to the regular expression "[0-9]+", and if it compares, then doing a numeric comparison, otherwise doing a lexical comparison.

Is there a better way?

Update I don't think I can guarantee that the other numbers in the string, the ones that may match, don't have spaces around them, or that the ones that differ do have spaces.

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The Alphanum Algorithm

From the website

"People sort strings with numbers differently than software. Most sorting algorithms compare ASCII values, which produces an ordering that is inconsistent with human logic. Here's how to fix it."

Edit: Here's a link to the Java Comparator Implementation from that site.

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This doesn't entirely solve the problem - you'd need to tokenise the string to be sorted and sort using this algorithm on each piece individually. –  Nick Johnson Sep 19 '08 at 20:06
Note: Paul accepted your answer but my algorithm sticks more closely to his problem (the way it explained it!), for cases like "Allegia 51B Clasteron". Not a problem, he choose whatever fit his needs, and this Alphanum implementation is fine (and multilanguage!), I just wanted to point that out. :-P –  PhiLho Oct 25 '08 at 8:34
Very nice, thanks. –  Michael-O Jun 27 '13 at 10:59
how to use this ?? –  jenuine Jan 17 at 10:45

Split the string into runs of letters and numbers, so "foo 12 bar" becomes the list ("foo", 12, "bar"), then use the list as the sort key. This way the numbers will be ordered in numerical order, not alphabetical.

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In your given example, the numbers you want to compare have spaces around them while the other numbers do not, so why would a regular expression not work?

bbb 12 ccc

vs.

eee 12 ddd jpeg2000 eee

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I think you'll have to do the comparison on a character-by-character fashion. Grab a character, if it's a number character, keep grabbing, then reassemble to characters into a single number string and convert it into an `int`. Repeat on the other string, and only then do the comparison.

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I realize you're in java, but you can take a look at how StrCmpLogicalW works. It's what Explorer uses to sort filenames in Windows. You can look at the WINE implementation here.

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Ian Griffiths of Microsoft has a C# implementation he calls Natural Sorting. Porting to Java should be fairly easy, easier than from C anyway!

UPDATE: There seems to be a Java example on eekboom that does this, see the "compareNatural" and use that as your comparer to sorts.

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If you're writing a comparator class, you should implement your own compare method that will compare two strings character by character. This compare method should check if you're dealing with alphabetic characters, numeric characters, or mixed types (including spaces). You'll have to define how you want a mixed type to act, whether numbers come before alphabetic characters or after, and where spaces fit in etc.

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On Linux glibc provides strverscmp(), it's also available from gnulib for portability. However truly "human" sorting has lots of other quirks like "The Beatles" being sorted as "Beatles, The". There is no simple solution to this generic problem.

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Short answer: based on the context, I can't tell whether this is just some quick-and-dirty code for personal use, or a key part of Goldman Sachs' latest internal accounting software, so I'll open by saying: eww. That's a rather funky sorting algorithm; try to use something a bit less "twisty" if you can.

The two issues that immediately come to mind in your case are performance, and correctness. Informally, make sure it's fast, and make sure your algorithm is a total ordering.

(Of course, if you're not sorting more than about 100 items, you can probably disregard this paragraph.) Performance matters, as the speed of the comparator will be the largest factor in the speed of your sort (assuming the sort algorithm is "ideal" to the typical list). In your case, the comparator's speed will depend mainly on the size of the string. The strings seem to be fairly short, so they probably won't dominate as much as the size of your list.

Turning each string into a string-number-string tuple and then sorting this list of tuples, as suggested in another answer, will fail in some of your cases, since you apparently will have strings with multiple numbers appearing.

The other problem is correctness. Specifically, if the algorithm you described will ever permit A > B > ... > A, then your sort will be non-deterministic. In your case, I fear that it might, though I can't prove it. Consider some parsing cases such as:

``````  aa 0 aa
aa 23aa
aa 2a3aa
aa 113aa
aa 113 aa
a 1-2 a
a 13 a
a 12 a
a 2-3 a
a 21 a
a 2.3 a
``````
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Interesting little challenge, I enjoyed solving it.

Here is my take at the problem:

``````String[] strs =
{
"eee 5 ddd jpeg2001 eee",
"eee 123 ddd jpeg2000 eee",
"ddd",
"aaa 5 yy 6",
"ccc 555",
"bbb 3 ccc",
"bbb 9 a",
"",
"eee 4 ddd jpeg2001 eee",
"ccc 11",
"bbb 12 ccc",
"aaa 5 yy 22",
"aaa",
"eee 3 ddd jpeg2000 eee",
"ccc 5",
};

Pattern splitter = Pattern.compile("(\\d+|\\D+)");

public class InternalNumberComparator implements Comparator
{
public int compare(Object o1, Object o2)
{
// I deliberately use the Java 1.4 syntax,
// all this can be improved with 1.5's generics
String s1 = (String)o1, s2 = (String)o2;
// We split each string as runs of number/non-number strings
ArrayList sa1 = split(s1);
ArrayList sa2 = split(s2);
// Nothing or different structure
if (sa1.size() == 0 || sa1.size() != sa2.size())
{
// Just compare the original strings
return s1.compareTo(s2);
}
int i = 0;
String si1 = "";
String si2 = "";
// Compare beginning of string
for (; i < sa1.size(); i++)
{
si1 = (String)sa1.get(i);
si2 = (String)sa2.get(i);
if (!si1.equals(si2))
break;  // Until we find a difference
}
// No difference found?
if (i == sa1.size())
return 0; // Same strings!

// Try to convert the different run of characters to number
int val1, val2;
try
{
val1 = Integer.parseInt(si1);
val2 = Integer.parseInt(si2);
}
catch (NumberFormatException e)
{
return s1.compareTo(s2);  // Strings differ on a non-number
}

// Compare remainder of string
for (i++; i < sa1.size(); i++)
{
si1 = (String)sa1.get(i);
si2 = (String)sa2.get(i);
if (!si1.equals(si2))
{
return s1.compareTo(s2);  // Strings differ
}
}

// Here, the strings differ only on a number
return val1 < val2 ? -1 : 1;
}

ArrayList split(String s)
{
ArrayList r = new ArrayList();
Matcher matcher = splitter.matcher(s);
while (matcher.find())
{
String m = matcher.group(1);
}
return r;
}
}

Arrays.sort(strs, new InternalNumberComparator());
``````

This algorithm need much more testing, but it seems to behave rather nicely.

[EDIT] I added some more comments to be clearer. I see there are much more answers than when I started to code this... But I hope I provided a good starting base and/or some ideas.

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I don't think this exact implementation would correctly sort "aaa 3 aaa" and "aaa 12 aaa", as they have different lengths and would thus be sorted as pure strings, not as numerically required. –  Dov Wasserman Oct 24 '08 at 2:50
Dov, re-read the code or, better, test it. I compare the lengths of the strings before the first number, then I compare the numbers numerically. I give a test code, and "bbb n ccc" is exactly the case you rise. –  PhiLho Oct 25 '08 at 8:30

The Alphanum algrothim is nice, but it did not match requirements for a project I'm working on. I need to be able to sort negative numbers and decimals correctly. Here is the implementation I came up. Any feedback would be much appreciated.

``````public class StringAsNumberComparator implements Comparator<String> {

public static final String NUMBER_PATTERN = "(\\-?\\d+\\.\\d+)|(\\-?\\.\\d+)|(\\-?\\d+)";

/**
* Splits strings into parts sorting each instance of a number as a number if there is
* a matching number in the other String.
*
* For example A1B, A2B, A11B, A11B1, A11B2, A11B11 will be sorted in that order instead
* of alphabetically which will sort A1B and A11B together.
*/
public int compare(String str1, String str2) {
if(str1 == null || str2 == null) {
return 0;
}

List<String> split1 = split(str1);
List<String> split2 = split(str2);
int diff = 0;

for(int i = 0; diff == 0 && i < split1.size() && i < split2.size(); i++) {
String token1 = split1.get(i);
String token2 = split2.get(i);

if(token1.matches(NUMBER_PATTERN) && token2.matches(NUMBER_PATTERN)) {
diff = (int) Math.signum(Double.parseDouble(token1) - Double.parseDouble(token2));
} else {
diff = token1.compareToIgnoreCase(token2);
}
}
if(diff != 0) {
return diff;
} else {
return split1.size() - split2.size();
}
}

/**
* Splits a string into strings and number tokens.
*/
private List<String> split(String s) {
List<String> list = new ArrayList<String>();
Scanner scanner = new Scanner(s);
int index = 0;
String num = null;
while((num = scanner.findInLine(NUMBER_PATTERN)) != null) {
int indexOfNumber = s.indexOf(num, index);
if(indexOfNumber > index) {
}
index = indexOfNumber + num.length();
}
if(index < s.length()) {
}
return list;
}
}
``````

PS. I wanted to use the java.lang.String.split() method and use "lookahead/lookbehind" to keep the tokens, but I could not get it to work with the regular expression I was using.

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interesting problem, and here my proposed solution:

``````import java.util.Collections;
import java.util.Vector;

public class CompareToken implements Comparable<CompareToken>
{
int valN;
String valS;
String repr;

public String toString() {
return repr;
}

public CompareToken(String s) {
int l = 0;
char data[] = new char[s.length()];
repr = s;
valN = 0;
for (char c : s.toCharArray()) {
if(Character.isDigit(c))
valN = valN * 10 + (c - '0');
else
data[l++] = c;
}

valS = new String(data, 0, l);
}

public int compareTo(CompareToken b) {
int r = valS.compareTo(b.valS);
if (r != 0)
return r;

return valN - b.valN;
}

public static void main(String [] args) {
String [] strings = {
"aaa",
"bbb3ccc",
"bbb12ccc",
"ccc 11",
"ddd",
"eee3dddjpeg2000eee",
"eee12dddjpeg2000eee"
};

Vector<CompareToken> data = new Vector<CompareToken>();
for(String s : strings)