Comparing two arrays to have equal values (duplicated or not, type-juggling taking into account) can be done by using `array_diff()`

into both directions:

```
!array_diff($a, $b) && !array_diff($b, $a);
```

This gives `TRUE`

if both arrays have the same values (after type-juggling). `FALSE`

otherwise. Examples:

```
function array_equal_values(array $a, array $b) {
return !array_diff($a, $b) && !array_diff($b, $a);
}
array_equal_values([1], []); # FALSE
array_equal_values([], [1]); # FALSE
array_equal_values(['1'], [1]); # TRUE
array_equal_values(['1'], [1, 1, '1']); # TRUE
```

As this example shows, `array_diff`

leaves array keys out of the equation and does not care about the order of values either and neither about if values are duplicated or not.

If duplication has to make a difference, this becomes more tricky. As far as "simple" values are concerned (only string and integer values work), `array_count_values()`

comes into play to gather information about which value is how often inside an array. This information can be easily compared with `==`

:

```
array_count_values($a) == array_count_values($b);
```

This gives `TRUE`

if both arrays have the same values (after type-juggling) for the same amount of time. `FALSE`

otherwise. Examples:

```
function array_equal_values(array $a, array $b) {
return array_count_values($a) == array_count_values($b);
}
array_equal_values([2, 1], [1, 2]); # TRUE
array_equal_values([2, 1, 2], [1, 2, 2]); # TRUE
array_equal_values(['2', '2'], [2, '2.0']); # FALSE
array_equal_values(['2.0', '2'], [2, '2.0']); # TRUE
```

This can be further optimized by comparing the count of the two arrays first which is relatively cheap and a quick test to tell most arrays apart when counting value duplication makes a difference.

These examples so far are partially limited to string and integer values and no strict comparison is possible with `array_diff`

either. More dedicated for strict comparison is `array_search`

. So values need to be counted and indexed so that they can be compared as just turning them into a key (as `array_search`

does) won't make it.

This is a bit more work. However in the end the comparison is the same as earlier:

```
$count($a) == $count($b);
```

It's just `$count`

that makes the difference:

```
$table = [];
$count = function (array $array) use (&$table) {
$exit = (bool)$table;
$result = [];
foreach ($array as $value) {
$key = array_search($value, $table, true);
if (FALSE !== $key) {
if (!isset($result[$key])) {
$result[$key] = 1;
} else {
$result[$key]++;
}
continue;
}
if ($exit) {
break;
}
$key = count($table);
$table[$key] = $value;
$result[$key] = 1;
}
return $result;
};
```

This keeps a table of values so that both arrays can use the same index. Also it's possible to exit early the first time in the second array a new value is experienced.

This function can also add the *strict* context by having an additional parameter. And by adding another additional parameter would then allow to enable looking for duplicates or not. The full example:

```
function array_equal_values(array $a, array $b, $strict = FALSE, $allow_duplicate_values = TRUE) {
$add = (int)!$allow_duplicate_values;
if ($add and count($a) !== count($b)) {
return FALSE;
}
$table = [];
$count = function (array $array) use (&$table, $add, $strict) {
$exit = (bool)$table;
$result = [];
foreach ($array as $value) {
$key = array_search($value, $table, $strict);
if (FALSE !== $key) {
if (!isset($result[$key])) {
$result[$key] = 1;
} else {
$result[$key] += $add;
}
continue;
}
if ($exit) {
break;
}
$key = count($table);
$table[$key] = $value;
$result[$key] = 1;
}
return $result;
};
return $count($a) == $count($b);
}
```

Usage Examples:

```
array_equal_values(['2.0', '2', 2], ['2', '2.0', 2], TRUE); # TRUE
array_equal_values(['2.0', '2', 2, 2], ['2', '2.0', 2], TRUE); # TRUE
array_equal_values(['2.0', '2', 2, 2], ['2', '2.0', 2], TRUE, FALSE); # FALSE
array_equal_values(['2'], ['2'], TRUE, FALSE); # TRUE
array_equal_values([2], ['2', 2]); # TRUE
array_equal_values([2], ['2', 2], FALSE); # TRUE
array_equal_values([2], ['2', 2], FALSE, TRUE); # FALSE
```

in the same order, or just that they contain the same elements? For the former, karim79's answer is correct; otherwise, the answers advocating ordinary == will suffice. – Rob May 23 '09 at 16:14