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The first example:

$x = array("a" => 1, "b" => 2); 
$y = array("b" => 1, "a" => 2);
$xLessY = ($x < $y);
$xGreaterY = ($x > $y);
var_dump($xLessY, $xGreaterY);

Result: $xLessY = true, $xGreaterY = true

The second example:

$x = array("a" => 2, "b" => 1); 
$y = array("b" => 2, "a" => 1);
$xLessY = ($x < $y);
$xGreaterY = ($x > $y);
var_dump($xLessY, $xGreaterY);

Result: $xLessY = false, $xGreaterY = false

According to documentation on http://docs.php.net/manual/en/language.operators.comparison.php:

if key from operand 1 is not found in operand 2 then arrays are uncomparable, otherwise - compare value by value

In our case each key from array $x is present in array $y, so $x and $y are comparable. See also the example from documentation:

// Arrays are compared like this with standard comparison operators
function standard_array_compare($op1, $op2)
{
    if (count($op1) < count($op2)) {
        return -1; // $op1 < $op2
    } elseif (count($op1) > count($op2)) {
        return 1; // $op1 > $op2
    }
    foreach ($op1 as $key => $val) {
        if (!array_key_exists($key, $op2)) {
            return null; // uncomparable
        } elseif ($val < $op2[$key]) {
            return -1;
        } elseif ($val > $op2[$key]) {
            return 1;
        }
    }
    return 0; // $op1 == $op2
}

This behaviour is really strange: $x is less than $y and at the same time $x is greater than $y (the first example) and two arrays are comparable.

I think this is because php always compares starting from the one definite side of sign '<'. I mean: for ($x < $y) php takes $x as operand 1, for ($x > $y) it takes $y as operand 1. Although I didn't find anything about this behaviour in documentation.
What are your thoughts on this?

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I suspect that you might be right about how whichever value is on the pointy end of < gets used as the 1st operand. Of course, you can find the answer for sure if you look at the PHP source code... –  Cupcake Jun 25 '11 at 20:42

3 Answers 3

Your assumption is correct. The > operator is parsed as

|   expr '>' expr { zend_do_binary_op(ZEND_IS_SMALLER, &$$, &$3, &$1 TSRMLS_CC); }

This basically says, X > Y is equivalent to not X < Y, which is of course wrong when the comparison is not commutative. Consider reporting this on bugs.php.net.

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Commutative? X > Y being commutative means that X > Y is equivalent Y > X. Plus, you say "the comparison (which comparison btw) not being commutative" implies X > Y not being equivalent to not X < Y. Follows from contraposition that X > Y being equivalent to not X < Y implies the comparison being commutative, which is obviously a nonsensical statement. Plus, the bug is not there, because the manual states that the two operand are indeed comparable, so one would expect antisymmetry, which is not verified because $x > $y and $y > $x is true with $x != $y. –  Artefacto Jun 25 '11 at 23:05
    
I agree there's no sensible way to order associative arrays, but this doesn't mean having some arbitrary order set up is not useful -- for instance, many algorithms depend on the data being ordered. However, the current state of affairs is that not only there isn't a total order in the universe of arrays, but also the arrays for which the manual states there's a well-defined order don't actually have consistency between < and >. –  Artefacto Jun 26 '11 at 1:37

I wouldn't say the bug is in $x > $y being substituted for $y < $x.

Sure, if you implemented $x > $y in a way that the arguments did not exchange positions when passed to the comparison function, you would solve this particular problem. But you get another in return.

Right now you have:

$x < $y <=> cmp($x, $y) == -1
$x > $y <=> cmp($y, $x) == -1

Because the first key of the first argument is always compared first, both conditions are true if reset($x) < $y[key($x)] and reset($y) < $x[key($y)].

But consider another implementation, which would solve this problem:

$x < $y <=> cmp($x, $y) == -1
$x > $y <=> cmp($x, $y) == +1

Now < and > are consistent when the order of the operands is fixed, but we now get weird behavior when we swap the operands because we could still have cmp($x, $y) == -1 and cmp($y, $x) == -1, which would mean $x < $y and $y < $x would both be true.

In sum, the only solution would be to fix the comparison function so that its behavior was antisymmetric, i.e. so that cmp($x, $y) == - cmp($y, $x), at least within a set of elements that are claimed to be comparable.

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I think this behaviour $x < $y == -1 and $y < $x == -1 is more understandable in case unordered arrays. And this is more consistent with the documentation. –  Andy Jun 26 '11 at 9:07
    
Maybe this is not a bug, but they should document that –  Andy Jun 26 '11 at 9:29

I may be wrong but I don't think you can compare arrays that way. I always assumed one can check for equality or inequality, but not compare quantities with < and >.

The man page on array operators seems to confirm this.

share|improve this answer
    
There is another man page. See the table "Comparison with Various Types" and the text below: "Array with fewer members is smaller, if key from operand 1 is not found in operand 2 then arrays are uncomparable, otherwise - compare value by value (see following example)". And there is also the example (standard_array_compare function) that I wrote –  Andy Jun 25 '11 at 21:47

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