PHP stores numbers as integers or floats, where the size of the integer is platform dependent (but usally 32 bit, signed). If you need to represent a larger number you should use the BC Math functions.

Using BCM adding two numbers is like:

```
$a = '60850985';
$b = '59150141';
echo bcadd($a, $b);
```

or multiplying:

```
$a = '60850985';
$b = '59150141';
echo bcmul($a, $b);
```

EDIT:

If you want to get, how it should look as a 64-bit signed integer in 1-complement (if there is an overflow), then you have to do some manual conversion to cast the value inside the `-2^63 .. 2^63-1`

range:

For nonnegative values you can for example first cast it to `0 .. 2^64-1`

:

```
$long = bcmod($value, bcpow('2','64'));
```

Then if it's larger than `2^63-1`

then subtract `2^63`

from it, and then subtract this value from `-2^63`

.

For negative values, first add `2^64`

, until the value is positive, then do the above steps.

But the above steps are only needed if you want to check how the string number looks if there was an overflow. Usually you don't need this, and probably you don't even need to use BCM as your numbers will easily fit inside PHP's signed 32-bit integer datatype (for which no casting is needed, conversion is automatical):

```
$a = '123'; // $a is a string
echo $a + 1; // will write 124, $a gets converted into int
```

You can force conversion if you want though:

```
$a = $a+0;
```

or

```
$a = (int)$a;
```

EDIT 2:

You can still use BCM functions to do the math:

```
$long = bcadd($low, bcmul($high, bcpow('2','32')))
// this essentially means:
// $long = $low + $high * 2^32
// which is
// $long = $low + $high << 32
```

Then, if the result is larger than `2^63-1`

you can do some additional BCM calculations, described above to convert the unsigned integer into a signed one.

`120001126`

not`60000564`

. What are you trying? Could you post what you've done? – jrd1 Jan 20 '13 at 22:33