"java.lang.IllegalArgumentException: Comparison method violates its general contract!" during comparison [duplicate] - java

Can someone explain me in simple terms, why does this code throw an exception, "Comparison method violates its general contract!", and how do I fix it?
private int compareParents(Foo s1, Foo s2) {
if (s1.getParent() == s2) return -1;
if (s2.getParent() == s1) return 1;
return 0;
}

Your comparator is not transitive.
Let A be the parent of B, and B be the parent of C. Since A > B and B > C, then it must be the case that A > C. However, if your comparator is invoked on A and C, it would return zero, meaning A == C. This violates the contract and hence throws the exception.
It's rather nice of the library to detect this and let you know, rather than behave erratically.
One way to satisfy the transitivity requirement in compareParents() is to traverse the getParent() chain instead of only looking at the immediate ancestor.

Just because this is what I got when I Googled this error, my problem was that I had
if (value < other.value)
return -1;
else if (value >= other.value)
return 1;
else
return 0;
the value >= other.value should (obviously) actually be value > other.value so that you can actually return 0 with equal objects.

The violation of the contract often means that the comparator is not providing the correct or consistent value when comparing objects. For example, you might want to perform a string compare and force empty strings to sort to the end with:
if ( one.length() == 0 ) {
return 1; // empty string sorts last
}
if ( two.length() == 0 ) {
return -1; // empty string sorts last
}
return one.compareToIgnoreCase( two );
But this overlooks the case where BOTH one and two are empty - and in that case, the wrong value is returned (1 instead of 0 to show a match), and the comparator reports that as a violation. It should have been written as:
if ( one.length() == 0 ) {
if ( two.length() == 0 ) {
return 0; // BOth empty - so indicate
}
return 1; // empty string sorts last
}
if ( two.length() == 0 ) {
return -1; // empty string sorts last
}
return one.compareToIgnoreCase( two );

Even if your compareTo is holds transitivity in theory, sometimes subtle bugs mess things up... such as floating point arithmetic error. It happened to me. this was my code:
public int compareTo(tfidfContainer compareTfidf) {
//descending order
if (this.tfidf > compareTfidf.tfidf)
return -1;
else if (this.tfidf < compareTfidf.tfidf)
return 1;
else
return 0;
}
The transitive property clearly holds, but for some reason I was getting the IllegalArgumentException. And it turns out that due to tiny errors in floating point arithmetic, the round-off errors where causing the transitive property to break where they shouldn't! So I rewrote the code to consider really tiny differences 0, and it worked:
public int compareTo(tfidfContainer compareTfidf) {
//descending order
if ((this.tfidf - compareTfidf.tfidf) < .000000001)
return 0;
if (this.tfidf > compareTfidf.tfidf)
return -1;
else if (this.tfidf < compareTfidf.tfidf)
return 1;
return 0;
}

Editing VM Configuration worked for me.
-Djava.util.Arrays.useLegacyMergeSort=true

In our case were were getting this error because we had accidentally flipped the order of comparison of s1 and s2. So watch out for that. It was obviously way more complicated than the following but this is an illustration:
s1 == s2
return 0;
s2 > s1
return 1;
s1 < s2
return -1;

In my case I was doing something like the following:
if (a.someField == null) {
return 1;
}
if (b.someField == null) {
return -1;
}
if (a.someField.equals(b.someField)) {
return a.someOtherField.compareTo(b.someOtherField);
}
return a.someField.compareTo(b.someField);
What I forgot to check was when both a.someField and b.someField are null.

I've seen this happen in a piece of code where the often recurring check for null values was performed:
if(( A==null ) && ( B==null )
return +1;//WRONG: two null values should return 0!!!

Java does not check consistency in a strict sense, only notifies you if it runs into serious trouble. Also it does not give you much information from the error.
I was puzzled with what's happening in my sorter and made a strict consistencyChecker, maybe this will help you:
/**
* #param dailyReports
* #param comparator
*/
public static <T> void checkConsitency(final List<T> dailyReports, final Comparator<T> comparator) {
final Map<T, List<T>> objectMapSmallerOnes = new HashMap<T, List<T>>();
iterateDistinctPairs(dailyReports.iterator(), new IPairIteratorCallback<T>() {
/**
* #param o1
* #param o2
*/
#Override
public void pair(T o1, T o2) {
final int diff = comparator.compare(o1, o2);
if (diff < Compare.EQUAL) {
checkConsistency(objectMapSmallerOnes, o1, o2);
getListSafely(objectMapSmallerOnes, o2).add(o1);
} else if (Compare.EQUAL < diff) {
checkConsistency(objectMapSmallerOnes, o2, o1);
getListSafely(objectMapSmallerOnes, o1).add(o2);
} else {
throw new IllegalStateException("Equals not expected?");
}
}
});
}
/**
* #param objectMapSmallerOnes
* #param o1
* #param o2
*/
static <T> void checkConsistency(final Map<T, List<T>> objectMapSmallerOnes, T o1, T o2) {
final List<T> smallerThan = objectMapSmallerOnes.get(o1);
if (smallerThan != null) {
for (final T o : smallerThan) {
if (o == o2) {
throw new IllegalStateException(o2 + " cannot be smaller than " + o1 + " if it's supposed to be vice versa.");
}
checkConsistency(objectMapSmallerOnes, o, o2);
}
}
}
/**
* #param keyMapValues
* #param key
* #param <Key>
* #param <Value>
* #return List<Value>
*/
public static <Key, Value> List<Value> getListSafely(Map<Key, List<Value>> keyMapValues, Key key) {
List<Value> values = keyMapValues.get(key);
if (values == null) {
keyMapValues.put(key, values = new LinkedList<Value>());
}
return values;
}
/**
* #author Oku
*
* #param <T>
*/
public interface IPairIteratorCallback<T> {
/**
* #param o1
* #param o2
*/
void pair(T o1, T o2);
}
/**
*
* Iterates through each distinct unordered pair formed by the elements of a given iterator
*
* #param it
* #param callback
*/
public static <T> void iterateDistinctPairs(final Iterator<T> it, IPairIteratorCallback<T> callback) {
List<T> list = Convert.toMinimumArrayList(new Iterable<T>() {
#Override
public Iterator<T> iterator() {
return it;
}
});
for (int outerIndex = 0; outerIndex < list.size() - 1; outerIndex++) {
for (int innerIndex = outerIndex + 1; innerIndex < list.size(); innerIndex++) {
callback.pair(list.get(outerIndex), list.get(innerIndex));
}
}
}

If compareParents(s1, s2) == -1 then compareParents(s2, s1) == 1 is expected. With your code it's not always true.
Specifically if s1.getParent() == s2 && s2.getParent() == s1.
It's just one of the possible problems.

In my case, it was an infinite sort.
That is, at first the line moved up according to the condition, and then the same line moved down to the same place.
I added one more condition at the end that unambiguously established the order of the lines.

You can't compare object data like this:s1.getParent() == s2 - this will compare the object references. You should override equals function for Foo class and then compare them like this s1.getParent().equals(s2)

I faced the same issue and I solved it.
//This this your code
private int compareParents(Foo s1, Foo s2) {
if (s1.getParent() == s2) return -1;
if (s2.getParent() == s1) return 1;
return 0;
}
The violation is comparing different things with each other.
//acceptable
compare between s1.getParent() and s2.getParent()
//acceptable
compare between s1 and s2
//NOT acceptable
compare between s1 and s2.getParent()
//NOT acceptable
compare between s1.getParent() and s2
In my code, I wanted to sort addresses by their coordination. In the comparator, I compared between X and Y (by mistake), instead of X and X.
//My code:
private void sortBasedOnX(){
//addresses is a list of addresses where each address has X and Y
addresses.sort((o1, o2) -> {
String a = o1.getAddress().getX();
String b = o2.getAddress().getY(); //<-- this is supposed to be getX
return Integer.parseInt(a)-Integer.parseInt(b);
});
}
//acceptable
compare between o1.getAddress().getX() and o1.getAddress().getX()
//acceptable
compare between o1.getAddress().getY() and o1.getAddress().getY()
//NOT acceptable
compare between o1.getAddress().getX() and o1.getAddress().getY()
//NOT acceptable
compare between o1.getAddress().getX() and o1.getAddress()
//NOT acceptable
compare between o1.getAddress().getX() and o1

Related

java.lang.IllegalArgumentException in java.util.TimSort.mergeLo() [duplicate]

Can someone explain me in simple terms, why does this code throw an exception, "Comparison method violates its general contract!", and how do I fix it?
private int compareParents(Foo s1, Foo s2) {
if (s1.getParent() == s2) return -1;
if (s2.getParent() == s1) return 1;
return 0;
}
Your comparator is not transitive.
Let A be the parent of B, and B be the parent of C. Since A > B and B > C, then it must be the case that A > C. However, if your comparator is invoked on A and C, it would return zero, meaning A == C. This violates the contract and hence throws the exception.
It's rather nice of the library to detect this and let you know, rather than behave erratically.
One way to satisfy the transitivity requirement in compareParents() is to traverse the getParent() chain instead of only looking at the immediate ancestor.
Just because this is what I got when I Googled this error, my problem was that I had
if (value < other.value)
return -1;
else if (value >= other.value)
return 1;
else
return 0;
the value >= other.value should (obviously) actually be value > other.value so that you can actually return 0 with equal objects.
The violation of the contract often means that the comparator is not providing the correct or consistent value when comparing objects. For example, you might want to perform a string compare and force empty strings to sort to the end with:
if ( one.length() == 0 ) {
return 1; // empty string sorts last
}
if ( two.length() == 0 ) {
return -1; // empty string sorts last
}
return one.compareToIgnoreCase( two );
But this overlooks the case where BOTH one and two are empty - and in that case, the wrong value is returned (1 instead of 0 to show a match), and the comparator reports that as a violation. It should have been written as:
if ( one.length() == 0 ) {
if ( two.length() == 0 ) {
return 0; // BOth empty - so indicate
}
return 1; // empty string sorts last
}
if ( two.length() == 0 ) {
return -1; // empty string sorts last
}
return one.compareToIgnoreCase( two );
Even if your compareTo is holds transitivity in theory, sometimes subtle bugs mess things up... such as floating point arithmetic error. It happened to me. this was my code:
public int compareTo(tfidfContainer compareTfidf) {
//descending order
if (this.tfidf > compareTfidf.tfidf)
return -1;
else if (this.tfidf < compareTfidf.tfidf)
return 1;
else
return 0;
}
The transitive property clearly holds, but for some reason I was getting the IllegalArgumentException. And it turns out that due to tiny errors in floating point arithmetic, the round-off errors where causing the transitive property to break where they shouldn't! So I rewrote the code to consider really tiny differences 0, and it worked:
public int compareTo(tfidfContainer compareTfidf) {
//descending order
if ((this.tfidf - compareTfidf.tfidf) < .000000001)
return 0;
if (this.tfidf > compareTfidf.tfidf)
return -1;
else if (this.tfidf < compareTfidf.tfidf)
return 1;
return 0;
}
Editing VM Configuration worked for me.
-Djava.util.Arrays.useLegacyMergeSort=true
In our case were were getting this error because we had accidentally flipped the order of comparison of s1 and s2. So watch out for that. It was obviously way more complicated than the following but this is an illustration:
s1 == s2
return 0;
s2 > s1
return 1;
s1 < s2
return -1;
In my case I was doing something like the following:
if (a.someField == null) {
return 1;
}
if (b.someField == null) {
return -1;
}
if (a.someField.equals(b.someField)) {
return a.someOtherField.compareTo(b.someOtherField);
}
return a.someField.compareTo(b.someField);
What I forgot to check was when both a.someField and b.someField are null.
I've seen this happen in a piece of code where the often recurring check for null values was performed:
if(( A==null ) && ( B==null )
return +1;//WRONG: two null values should return 0!!!
Java does not check consistency in a strict sense, only notifies you if it runs into serious trouble. Also it does not give you much information from the error.
I was puzzled with what's happening in my sorter and made a strict consistencyChecker, maybe this will help you:
/**
* #param dailyReports
* #param comparator
*/
public static <T> void checkConsitency(final List<T> dailyReports, final Comparator<T> comparator) {
final Map<T, List<T>> objectMapSmallerOnes = new HashMap<T, List<T>>();
iterateDistinctPairs(dailyReports.iterator(), new IPairIteratorCallback<T>() {
/**
* #param o1
* #param o2
*/
#Override
public void pair(T o1, T o2) {
final int diff = comparator.compare(o1, o2);
if (diff < Compare.EQUAL) {
checkConsistency(objectMapSmallerOnes, o1, o2);
getListSafely(objectMapSmallerOnes, o2).add(o1);
} else if (Compare.EQUAL < diff) {
checkConsistency(objectMapSmallerOnes, o2, o1);
getListSafely(objectMapSmallerOnes, o1).add(o2);
} else {
throw new IllegalStateException("Equals not expected?");
}
}
});
}
/**
* #param objectMapSmallerOnes
* #param o1
* #param o2
*/
static <T> void checkConsistency(final Map<T, List<T>> objectMapSmallerOnes, T o1, T o2) {
final List<T> smallerThan = objectMapSmallerOnes.get(o1);
if (smallerThan != null) {
for (final T o : smallerThan) {
if (o == o2) {
throw new IllegalStateException(o2 + " cannot be smaller than " + o1 + " if it's supposed to be vice versa.");
}
checkConsistency(objectMapSmallerOnes, o, o2);
}
}
}
/**
* #param keyMapValues
* #param key
* #param <Key>
* #param <Value>
* #return List<Value>
*/
public static <Key, Value> List<Value> getListSafely(Map<Key, List<Value>> keyMapValues, Key key) {
List<Value> values = keyMapValues.get(key);
if (values == null) {
keyMapValues.put(key, values = new LinkedList<Value>());
}
return values;
}
/**
* #author Oku
*
* #param <T>
*/
public interface IPairIteratorCallback<T> {
/**
* #param o1
* #param o2
*/
void pair(T o1, T o2);
}
/**
*
* Iterates through each distinct unordered pair formed by the elements of a given iterator
*
* #param it
* #param callback
*/
public static <T> void iterateDistinctPairs(final Iterator<T> it, IPairIteratorCallback<T> callback) {
List<T> list = Convert.toMinimumArrayList(new Iterable<T>() {
#Override
public Iterator<T> iterator() {
return it;
}
});
for (int outerIndex = 0; outerIndex < list.size() - 1; outerIndex++) {
for (int innerIndex = outerIndex + 1; innerIndex < list.size(); innerIndex++) {
callback.pair(list.get(outerIndex), list.get(innerIndex));
}
}
}
If compareParents(s1, s2) == -1 then compareParents(s2, s1) == 1 is expected. With your code it's not always true.
Specifically if s1.getParent() == s2 && s2.getParent() == s1.
It's just one of the possible problems.
In my case, it was an infinite sort.
That is, at first the line moved up according to the condition, and then the same line moved down to the same place.
I added one more condition at the end that unambiguously established the order of the lines.
You can't compare object data like this:s1.getParent() == s2 - this will compare the object references. You should override equals function for Foo class and then compare them like this s1.getParent().equals(s2)
I faced the same issue and I solved it.
//This this your code
private int compareParents(Foo s1, Foo s2) {
if (s1.getParent() == s2) return -1;
if (s2.getParent() == s1) return 1;
return 0;
}
The violation is comparing different things with each other.
//acceptable
compare between s1.getParent() and s2.getParent()
//acceptable
compare between s1 and s2
//NOT acceptable
compare between s1 and s2.getParent()
//NOT acceptable
compare between s1.getParent() and s2
In my code, I wanted to sort addresses by their coordination. In the comparator, I compared between X and Y (by mistake), instead of X and X.
//My code:
private void sortBasedOnX(){
//addresses is a list of addresses where each address has X and Y
addresses.sort((o1, o2) -> {
String a = o1.getAddress().getX();
String b = o2.getAddress().getY(); //<-- this is supposed to be getX
return Integer.parseInt(a)-Integer.parseInt(b);
});
}
//acceptable
compare between o1.getAddress().getX() and o1.getAddress().getX()
//acceptable
compare between o1.getAddress().getY() and o1.getAddress().getY()
//NOT acceptable
compare between o1.getAddress().getX() and o1.getAddress().getY()
//NOT acceptable
compare between o1.getAddress().getX() and o1.getAddress()
//NOT acceptable
compare between o1.getAddress().getX() and o1

Error in comparator [duplicate]

Can someone explain me in simple terms, why does this code throw an exception, "Comparison method violates its general contract!", and how do I fix it?
private int compareParents(Foo s1, Foo s2) {
if (s1.getParent() == s2) return -1;
if (s2.getParent() == s1) return 1;
return 0;
}
Your comparator is not transitive.
Let A be the parent of B, and B be the parent of C. Since A > B and B > C, then it must be the case that A > C. However, if your comparator is invoked on A and C, it would return zero, meaning A == C. This violates the contract and hence throws the exception.
It's rather nice of the library to detect this and let you know, rather than behave erratically.
One way to satisfy the transitivity requirement in compareParents() is to traverse the getParent() chain instead of only looking at the immediate ancestor.
Just because this is what I got when I Googled this error, my problem was that I had
if (value < other.value)
return -1;
else if (value >= other.value)
return 1;
else
return 0;
the value >= other.value should (obviously) actually be value > other.value so that you can actually return 0 with equal objects.
The violation of the contract often means that the comparator is not providing the correct or consistent value when comparing objects. For example, you might want to perform a string compare and force empty strings to sort to the end with:
if ( one.length() == 0 ) {
return 1; // empty string sorts last
}
if ( two.length() == 0 ) {
return -1; // empty string sorts last
}
return one.compareToIgnoreCase( two );
But this overlooks the case where BOTH one and two are empty - and in that case, the wrong value is returned (1 instead of 0 to show a match), and the comparator reports that as a violation. It should have been written as:
if ( one.length() == 0 ) {
if ( two.length() == 0 ) {
return 0; // BOth empty - so indicate
}
return 1; // empty string sorts last
}
if ( two.length() == 0 ) {
return -1; // empty string sorts last
}
return one.compareToIgnoreCase( two );
Even if your compareTo is holds transitivity in theory, sometimes subtle bugs mess things up... such as floating point arithmetic error. It happened to me. this was my code:
public int compareTo(tfidfContainer compareTfidf) {
//descending order
if (this.tfidf > compareTfidf.tfidf)
return -1;
else if (this.tfidf < compareTfidf.tfidf)
return 1;
else
return 0;
}
The transitive property clearly holds, but for some reason I was getting the IllegalArgumentException. And it turns out that due to tiny errors in floating point arithmetic, the round-off errors where causing the transitive property to break where they shouldn't! So I rewrote the code to consider really tiny differences 0, and it worked:
public int compareTo(tfidfContainer compareTfidf) {
//descending order
if ((this.tfidf - compareTfidf.tfidf) < .000000001)
return 0;
if (this.tfidf > compareTfidf.tfidf)
return -1;
else if (this.tfidf < compareTfidf.tfidf)
return 1;
return 0;
}
Editing VM Configuration worked for me.
-Djava.util.Arrays.useLegacyMergeSort=true
In our case were were getting this error because we had accidentally flipped the order of comparison of s1 and s2. So watch out for that. It was obviously way more complicated than the following but this is an illustration:
s1 == s2
return 0;
s2 > s1
return 1;
s1 < s2
return -1;
In my case I was doing something like the following:
if (a.someField == null) {
return 1;
}
if (b.someField == null) {
return -1;
}
if (a.someField.equals(b.someField)) {
return a.someOtherField.compareTo(b.someOtherField);
}
return a.someField.compareTo(b.someField);
What I forgot to check was when both a.someField and b.someField are null.
I've seen this happen in a piece of code where the often recurring check for null values was performed:
if(( A==null ) && ( B==null )
return +1;//WRONG: two null values should return 0!!!
Java does not check consistency in a strict sense, only notifies you if it runs into serious trouble. Also it does not give you much information from the error.
I was puzzled with what's happening in my sorter and made a strict consistencyChecker, maybe this will help you:
/**
* #param dailyReports
* #param comparator
*/
public static <T> void checkConsitency(final List<T> dailyReports, final Comparator<T> comparator) {
final Map<T, List<T>> objectMapSmallerOnes = new HashMap<T, List<T>>();
iterateDistinctPairs(dailyReports.iterator(), new IPairIteratorCallback<T>() {
/**
* #param o1
* #param o2
*/
#Override
public void pair(T o1, T o2) {
final int diff = comparator.compare(o1, o2);
if (diff < Compare.EQUAL) {
checkConsistency(objectMapSmallerOnes, o1, o2);
getListSafely(objectMapSmallerOnes, o2).add(o1);
} else if (Compare.EQUAL < diff) {
checkConsistency(objectMapSmallerOnes, o2, o1);
getListSafely(objectMapSmallerOnes, o1).add(o2);
} else {
throw new IllegalStateException("Equals not expected?");
}
}
});
}
/**
* #param objectMapSmallerOnes
* #param o1
* #param o2
*/
static <T> void checkConsistency(final Map<T, List<T>> objectMapSmallerOnes, T o1, T o2) {
final List<T> smallerThan = objectMapSmallerOnes.get(o1);
if (smallerThan != null) {
for (final T o : smallerThan) {
if (o == o2) {
throw new IllegalStateException(o2 + " cannot be smaller than " + o1 + " if it's supposed to be vice versa.");
}
checkConsistency(objectMapSmallerOnes, o, o2);
}
}
}
/**
* #param keyMapValues
* #param key
* #param <Key>
* #param <Value>
* #return List<Value>
*/
public static <Key, Value> List<Value> getListSafely(Map<Key, List<Value>> keyMapValues, Key key) {
List<Value> values = keyMapValues.get(key);
if (values == null) {
keyMapValues.put(key, values = new LinkedList<Value>());
}
return values;
}
/**
* #author Oku
*
* #param <T>
*/
public interface IPairIteratorCallback<T> {
/**
* #param o1
* #param o2
*/
void pair(T o1, T o2);
}
/**
*
* Iterates through each distinct unordered pair formed by the elements of a given iterator
*
* #param it
* #param callback
*/
public static <T> void iterateDistinctPairs(final Iterator<T> it, IPairIteratorCallback<T> callback) {
List<T> list = Convert.toMinimumArrayList(new Iterable<T>() {
#Override
public Iterator<T> iterator() {
return it;
}
});
for (int outerIndex = 0; outerIndex < list.size() - 1; outerIndex++) {
for (int innerIndex = outerIndex + 1; innerIndex < list.size(); innerIndex++) {
callback.pair(list.get(outerIndex), list.get(innerIndex));
}
}
}
If compareParents(s1, s2) == -1 then compareParents(s2, s1) == 1 is expected. With your code it's not always true.
Specifically if s1.getParent() == s2 && s2.getParent() == s1.
It's just one of the possible problems.
In my case, it was an infinite sort.
That is, at first the line moved up according to the condition, and then the same line moved down to the same place.
I added one more condition at the end that unambiguously established the order of the lines.
You can't compare object data like this:s1.getParent() == s2 - this will compare the object references. You should override equals function for Foo class and then compare them like this s1.getParent().equals(s2)
I faced the same issue and I solved it.
//This this your code
private int compareParents(Foo s1, Foo s2) {
if (s1.getParent() == s2) return -1;
if (s2.getParent() == s1) return 1;
return 0;
}
The violation is comparing different things with each other.
//acceptable
compare between s1.getParent() and s2.getParent()
//acceptable
compare between s1 and s2
//NOT acceptable
compare between s1 and s2.getParent()
//NOT acceptable
compare between s1.getParent() and s2
In my code, I wanted to sort addresses by their coordination. In the comparator, I compared between X and Y (by mistake), instead of X and X.
//My code:
private void sortBasedOnX(){
//addresses is a list of addresses where each address has X and Y
addresses.sort((o1, o2) -> {
String a = o1.getAddress().getX();
String b = o2.getAddress().getY(); //<-- this is supposed to be getX
return Integer.parseInt(a)-Integer.parseInt(b);
});
}
//acceptable
compare between o1.getAddress().getX() and o1.getAddress().getX()
//acceptable
compare between o1.getAddress().getY() and o1.getAddress().getY()
//NOT acceptable
compare between o1.getAddress().getX() and o1.getAddress().getY()
//NOT acceptable
compare between o1.getAddress().getX() and o1.getAddress()
//NOT acceptable
compare between o1.getAddress().getX() and o1

Comparison method violates its general contract - Java [duplicate]

Can someone explain me in simple terms, why does this code throw an exception, "Comparison method violates its general contract!", and how do I fix it?
private int compareParents(Foo s1, Foo s2) {
if (s1.getParent() == s2) return -1;
if (s2.getParent() == s1) return 1;
return 0;
}
Your comparator is not transitive.
Let A be the parent of B, and B be the parent of C. Since A > B and B > C, then it must be the case that A > C. However, if your comparator is invoked on A and C, it would return zero, meaning A == C. This violates the contract and hence throws the exception.
It's rather nice of the library to detect this and let you know, rather than behave erratically.
One way to satisfy the transitivity requirement in compareParents() is to traverse the getParent() chain instead of only looking at the immediate ancestor.
Just because this is what I got when I Googled this error, my problem was that I had
if (value < other.value)
return -1;
else if (value >= other.value)
return 1;
else
return 0;
the value >= other.value should (obviously) actually be value > other.value so that you can actually return 0 with equal objects.
The violation of the contract often means that the comparator is not providing the correct or consistent value when comparing objects. For example, you might want to perform a string compare and force empty strings to sort to the end with:
if ( one.length() == 0 ) {
return 1; // empty string sorts last
}
if ( two.length() == 0 ) {
return -1; // empty string sorts last
}
return one.compareToIgnoreCase( two );
But this overlooks the case where BOTH one and two are empty - and in that case, the wrong value is returned (1 instead of 0 to show a match), and the comparator reports that as a violation. It should have been written as:
if ( one.length() == 0 ) {
if ( two.length() == 0 ) {
return 0; // BOth empty - so indicate
}
return 1; // empty string sorts last
}
if ( two.length() == 0 ) {
return -1; // empty string sorts last
}
return one.compareToIgnoreCase( two );
Even if your compareTo is holds transitivity in theory, sometimes subtle bugs mess things up... such as floating point arithmetic error. It happened to me. this was my code:
public int compareTo(tfidfContainer compareTfidf) {
//descending order
if (this.tfidf > compareTfidf.tfidf)
return -1;
else if (this.tfidf < compareTfidf.tfidf)
return 1;
else
return 0;
}
The transitive property clearly holds, but for some reason I was getting the IllegalArgumentException. And it turns out that due to tiny errors in floating point arithmetic, the round-off errors where causing the transitive property to break where they shouldn't! So I rewrote the code to consider really tiny differences 0, and it worked:
public int compareTo(tfidfContainer compareTfidf) {
//descending order
if ((this.tfidf - compareTfidf.tfidf) < .000000001)
return 0;
if (this.tfidf > compareTfidf.tfidf)
return -1;
else if (this.tfidf < compareTfidf.tfidf)
return 1;
return 0;
}
Editing VM Configuration worked for me.
-Djava.util.Arrays.useLegacyMergeSort=true
In our case were were getting this error because we had accidentally flipped the order of comparison of s1 and s2. So watch out for that. It was obviously way more complicated than the following but this is an illustration:
s1 == s2
return 0;
s2 > s1
return 1;
s1 < s2
return -1;
In my case I was doing something like the following:
if (a.someField == null) {
return 1;
}
if (b.someField == null) {
return -1;
}
if (a.someField.equals(b.someField)) {
return a.someOtherField.compareTo(b.someOtherField);
}
return a.someField.compareTo(b.someField);
What I forgot to check was when both a.someField and b.someField are null.
I've seen this happen in a piece of code where the often recurring check for null values was performed:
if(( A==null ) && ( B==null )
return +1;//WRONG: two null values should return 0!!!
Java does not check consistency in a strict sense, only notifies you if it runs into serious trouble. Also it does not give you much information from the error.
I was puzzled with what's happening in my sorter and made a strict consistencyChecker, maybe this will help you:
/**
* #param dailyReports
* #param comparator
*/
public static <T> void checkConsitency(final List<T> dailyReports, final Comparator<T> comparator) {
final Map<T, List<T>> objectMapSmallerOnes = new HashMap<T, List<T>>();
iterateDistinctPairs(dailyReports.iterator(), new IPairIteratorCallback<T>() {
/**
* #param o1
* #param o2
*/
#Override
public void pair(T o1, T o2) {
final int diff = comparator.compare(o1, o2);
if (diff < Compare.EQUAL) {
checkConsistency(objectMapSmallerOnes, o1, o2);
getListSafely(objectMapSmallerOnes, o2).add(o1);
} else if (Compare.EQUAL < diff) {
checkConsistency(objectMapSmallerOnes, o2, o1);
getListSafely(objectMapSmallerOnes, o1).add(o2);
} else {
throw new IllegalStateException("Equals not expected?");
}
}
});
}
/**
* #param objectMapSmallerOnes
* #param o1
* #param o2
*/
static <T> void checkConsistency(final Map<T, List<T>> objectMapSmallerOnes, T o1, T o2) {
final List<T> smallerThan = objectMapSmallerOnes.get(o1);
if (smallerThan != null) {
for (final T o : smallerThan) {
if (o == o2) {
throw new IllegalStateException(o2 + " cannot be smaller than " + o1 + " if it's supposed to be vice versa.");
}
checkConsistency(objectMapSmallerOnes, o, o2);
}
}
}
/**
* #param keyMapValues
* #param key
* #param <Key>
* #param <Value>
* #return List<Value>
*/
public static <Key, Value> List<Value> getListSafely(Map<Key, List<Value>> keyMapValues, Key key) {
List<Value> values = keyMapValues.get(key);
if (values == null) {
keyMapValues.put(key, values = new LinkedList<Value>());
}
return values;
}
/**
* #author Oku
*
* #param <T>
*/
public interface IPairIteratorCallback<T> {
/**
* #param o1
* #param o2
*/
void pair(T o1, T o2);
}
/**
*
* Iterates through each distinct unordered pair formed by the elements of a given iterator
*
* #param it
* #param callback
*/
public static <T> void iterateDistinctPairs(final Iterator<T> it, IPairIteratorCallback<T> callback) {
List<T> list = Convert.toMinimumArrayList(new Iterable<T>() {
#Override
public Iterator<T> iterator() {
return it;
}
});
for (int outerIndex = 0; outerIndex < list.size() - 1; outerIndex++) {
for (int innerIndex = outerIndex + 1; innerIndex < list.size(); innerIndex++) {
callback.pair(list.get(outerIndex), list.get(innerIndex));
}
}
}
If compareParents(s1, s2) == -1 then compareParents(s2, s1) == 1 is expected. With your code it's not always true.
Specifically if s1.getParent() == s2 && s2.getParent() == s1.
It's just one of the possible problems.
In my case, it was an infinite sort.
That is, at first the line moved up according to the condition, and then the same line moved down to the same place.
I added one more condition at the end that unambiguously established the order of the lines.
You can't compare object data like this:s1.getParent() == s2 - this will compare the object references. You should override equals function for Foo class and then compare them like this s1.getParent().equals(s2)
I faced the same issue and I solved it.
//This this your code
private int compareParents(Foo s1, Foo s2) {
if (s1.getParent() == s2) return -1;
if (s2.getParent() == s1) return 1;
return 0;
}
The violation is comparing different things with each other.
//acceptable
compare between s1.getParent() and s2.getParent()
//acceptable
compare between s1 and s2
//NOT acceptable
compare between s1 and s2.getParent()
//NOT acceptable
compare between s1.getParent() and s2
In my code, I wanted to sort addresses by their coordination. In the comparator, I compared between X and Y (by mistake), instead of X and X.
//My code:
private void sortBasedOnX(){
//addresses is a list of addresses where each address has X and Y
addresses.sort((o1, o2) -> {
String a = o1.getAddress().getX();
String b = o2.getAddress().getY(); //<-- this is supposed to be getX
return Integer.parseInt(a)-Integer.parseInt(b);
});
}
//acceptable
compare between o1.getAddress().getX() and o1.getAddress().getX()
//acceptable
compare between o1.getAddress().getY() and o1.getAddress().getY()
//NOT acceptable
compare between o1.getAddress().getX() and o1.getAddress().getY()
//NOT acceptable
compare between o1.getAddress().getX() and o1.getAddress()
//NOT acceptable
compare between o1.getAddress().getX() and o1

How does this comparator class work?

I found this comparator class in this site.
Hibernate - SortedSet Mappings
But I can't understand how it works..
Any ideas??
import java.util.Comparator;
public class MyClass implements Comparator<Certificate>{
public int compare(Certificate o1, Certificate o2) {
final int BEFORE = -1;
final int AFTER = 1;
/* To reverse the sorting order, multiple by -1 */
if (o2 == null) {
return BEFORE * -1;
}
Comparable thisCertificate = o1.getName();
Comparable thatCertificate = o2.getName();
if(thisCertificate == null) {
return AFTER * 1;
} else if(thatCertificate == null) {
return BEFORE * -1;
} else {
return thisCertificate.compareTo(thatCertificate) * -1;
}
}
}
This comparator doesn't work at all, since it violates the most basic rules of how a Comparator works.
The implementor must ensure that sgn(compare(x, y)) == -sgn(compare(y, x)) for all x and y
Comparator.compare(x , y) == -Comparator.compare(y,x) isn't valid if x or y is null when using MyClass.
(This implies that compare(x, y) must throw an exception if and only if compare(y, x) throws an exception.)
the case o1 == null isn't handled at all and thus will throw an exception, while the case o2 == null doesn't.
This is far from what a working comparator looks like and can atmost be looked on as a really ugly hack.
This Comparator only works for values that aren't null. In that case it is simply the reverse of the natural order.
It works? In documentation says it is doing reverse sorting,
If we use sort="natural" setting then we do not need to create a separate class because Certificate class already has implemented Comparable interface and hibernate will use compareTo() method defined in Certificate class to compare certificate names. But we are using a custom comparator class MyClass in our mapping file so we would have to create this class based on our sorting algorithm. Let us do descending sorting in this class using this class.
In my understand seems to not be really correct... Except when both certificate names are correct.
public int compare(Certificate o1, Certificate o2) {
final int BEFORE = -1;
final int AFTER = 1;
/* To reverse the sorting order, multiple by -1 */
if (o2 == null) { // if o2 = null > o1 goes first
return BEFORE * -1; // -1 * -1 = 1 so o1 goes first
}
Comparable thisCertificate = o1.getName(); // get o1 name to compare
Comparable thatCertificate = o2.getName(); // get o2 name to compare
if(thisCertificate == null) { // if o1 name is null, o2 goes first
return AFTER * 1; // 1 * 1 = 1 > o1 goes first
} else if(thatCertificate == null) { // if o2 name is null, o1 goes first
return BEFORE * -1; // -1 * -1 = 1 > o1 goes first
} else {
// if both certs names are valid compare them in the usual way
// sorting inversed because of the -1.
return thisCertificate.compareTo(thatCertificate) * -1;
}
}

"Comparison method violates its general contract!"

Can someone explain me in simple terms, why does this code throw an exception, "Comparison method violates its general contract!", and how do I fix it?
private int compareParents(Foo s1, Foo s2) {
if (s1.getParent() == s2) return -1;
if (s2.getParent() == s1) return 1;
return 0;
}
Your comparator is not transitive.
Let A be the parent of B, and B be the parent of C. Since A > B and B > C, then it must be the case that A > C. However, if your comparator is invoked on A and C, it would return zero, meaning A == C. This violates the contract and hence throws the exception.
It's rather nice of the library to detect this and let you know, rather than behave erratically.
One way to satisfy the transitivity requirement in compareParents() is to traverse the getParent() chain instead of only looking at the immediate ancestor.
Just because this is what I got when I Googled this error, my problem was that I had
if (value < other.value)
return -1;
else if (value >= other.value)
return 1;
else
return 0;
the value >= other.value should (obviously) actually be value > other.value so that you can actually return 0 with equal objects.
The violation of the contract often means that the comparator is not providing the correct or consistent value when comparing objects. For example, you might want to perform a string compare and force empty strings to sort to the end with:
if ( one.length() == 0 ) {
return 1; // empty string sorts last
}
if ( two.length() == 0 ) {
return -1; // empty string sorts last
}
return one.compareToIgnoreCase( two );
But this overlooks the case where BOTH one and two are empty - and in that case, the wrong value is returned (1 instead of 0 to show a match), and the comparator reports that as a violation. It should have been written as:
if ( one.length() == 0 ) {
if ( two.length() == 0 ) {
return 0; // BOth empty - so indicate
}
return 1; // empty string sorts last
}
if ( two.length() == 0 ) {
return -1; // empty string sorts last
}
return one.compareToIgnoreCase( two );
Even if your compareTo is holds transitivity in theory, sometimes subtle bugs mess things up... such as floating point arithmetic error. It happened to me. this was my code:
public int compareTo(tfidfContainer compareTfidf) {
//descending order
if (this.tfidf > compareTfidf.tfidf)
return -1;
else if (this.tfidf < compareTfidf.tfidf)
return 1;
else
return 0;
}
The transitive property clearly holds, but for some reason I was getting the IllegalArgumentException. And it turns out that due to tiny errors in floating point arithmetic, the round-off errors where causing the transitive property to break where they shouldn't! So I rewrote the code to consider really tiny differences 0, and it worked:
public int compareTo(tfidfContainer compareTfidf) {
//descending order
if ((this.tfidf - compareTfidf.tfidf) < .000000001)
return 0;
if (this.tfidf > compareTfidf.tfidf)
return -1;
else if (this.tfidf < compareTfidf.tfidf)
return 1;
return 0;
}
Editing VM Configuration worked for me.
-Djava.util.Arrays.useLegacyMergeSort=true
In our case were were getting this error because we had accidentally flipped the order of comparison of s1 and s2. So watch out for that. It was obviously way more complicated than the following but this is an illustration:
s1 == s2
return 0;
s2 > s1
return 1;
s1 < s2
return -1;
In my case I was doing something like the following:
if (a.someField == null) {
return 1;
}
if (b.someField == null) {
return -1;
}
if (a.someField.equals(b.someField)) {
return a.someOtherField.compareTo(b.someOtherField);
}
return a.someField.compareTo(b.someField);
What I forgot to check was when both a.someField and b.someField are null.
I've seen this happen in a piece of code where the often recurring check for null values was performed:
if(( A==null ) && ( B==null )
return +1;//WRONG: two null values should return 0!!!
Java does not check consistency in a strict sense, only notifies you if it runs into serious trouble. Also it does not give you much information from the error.
I was puzzled with what's happening in my sorter and made a strict consistencyChecker, maybe this will help you:
/**
* #param dailyReports
* #param comparator
*/
public static <T> void checkConsitency(final List<T> dailyReports, final Comparator<T> comparator) {
final Map<T, List<T>> objectMapSmallerOnes = new HashMap<T, List<T>>();
iterateDistinctPairs(dailyReports.iterator(), new IPairIteratorCallback<T>() {
/**
* #param o1
* #param o2
*/
#Override
public void pair(T o1, T o2) {
final int diff = comparator.compare(o1, o2);
if (diff < Compare.EQUAL) {
checkConsistency(objectMapSmallerOnes, o1, o2);
getListSafely(objectMapSmallerOnes, o2).add(o1);
} else if (Compare.EQUAL < diff) {
checkConsistency(objectMapSmallerOnes, o2, o1);
getListSafely(objectMapSmallerOnes, o1).add(o2);
} else {
throw new IllegalStateException("Equals not expected?");
}
}
});
}
/**
* #param objectMapSmallerOnes
* #param o1
* #param o2
*/
static <T> void checkConsistency(final Map<T, List<T>> objectMapSmallerOnes, T o1, T o2) {
final List<T> smallerThan = objectMapSmallerOnes.get(o1);
if (smallerThan != null) {
for (final T o : smallerThan) {
if (o == o2) {
throw new IllegalStateException(o2 + " cannot be smaller than " + o1 + " if it's supposed to be vice versa.");
}
checkConsistency(objectMapSmallerOnes, o, o2);
}
}
}
/**
* #param keyMapValues
* #param key
* #param <Key>
* #param <Value>
* #return List<Value>
*/
public static <Key, Value> List<Value> getListSafely(Map<Key, List<Value>> keyMapValues, Key key) {
List<Value> values = keyMapValues.get(key);
if (values == null) {
keyMapValues.put(key, values = new LinkedList<Value>());
}
return values;
}
/**
* #author Oku
*
* #param <T>
*/
public interface IPairIteratorCallback<T> {
/**
* #param o1
* #param o2
*/
void pair(T o1, T o2);
}
/**
*
* Iterates through each distinct unordered pair formed by the elements of a given iterator
*
* #param it
* #param callback
*/
public static <T> void iterateDistinctPairs(final Iterator<T> it, IPairIteratorCallback<T> callback) {
List<T> list = Convert.toMinimumArrayList(new Iterable<T>() {
#Override
public Iterator<T> iterator() {
return it;
}
});
for (int outerIndex = 0; outerIndex < list.size() - 1; outerIndex++) {
for (int innerIndex = outerIndex + 1; innerIndex < list.size(); innerIndex++) {
callback.pair(list.get(outerIndex), list.get(innerIndex));
}
}
}
If compareParents(s1, s2) == -1 then compareParents(s2, s1) == 1 is expected. With your code it's not always true.
Specifically if s1.getParent() == s2 && s2.getParent() == s1.
It's just one of the possible problems.
In my case, it was an infinite sort.
That is, at first the line moved up according to the condition, and then the same line moved down to the same place.
I added one more condition at the end that unambiguously established the order of the lines.
You can't compare object data like this:s1.getParent() == s2 - this will compare the object references. You should override equals function for Foo class and then compare them like this s1.getParent().equals(s2)
I faced the same issue and I solved it.
//This this your code
private int compareParents(Foo s1, Foo s2) {
if (s1.getParent() == s2) return -1;
if (s2.getParent() == s1) return 1;
return 0;
}
The violation is comparing different things with each other.
//acceptable
compare between s1.getParent() and s2.getParent()
//acceptable
compare between s1 and s2
//NOT acceptable
compare between s1 and s2.getParent()
//NOT acceptable
compare between s1.getParent() and s2
In my code, I wanted to sort addresses by their coordination. In the comparator, I compared between X and Y (by mistake), instead of X and X.
//My code:
private void sortBasedOnX(){
//addresses is a list of addresses where each address has X and Y
addresses.sort((o1, o2) -> {
String a = o1.getAddress().getX();
String b = o2.getAddress().getY(); //<-- this is supposed to be getX
return Integer.parseInt(a)-Integer.parseInt(b);
});
}
//acceptable
compare between o1.getAddress().getX() and o1.getAddress().getX()
//acceptable
compare between o1.getAddress().getY() and o1.getAddress().getY()
//NOT acceptable
compare between o1.getAddress().getX() and o1.getAddress().getY()
//NOT acceptable
compare between o1.getAddress().getX() and o1.getAddress()
//NOT acceptable
compare between o1.getAddress().getX() and o1

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