# Understanding javascript binary parser

In looking at this question I was trying to figure out this function

``````_shl: function (a, b){
for (++b; --b; a = ((a %= 0x7fffffff + 1) & 0x40000000) == 0x40000000 ? a * 2 : (a - 0x40000000) * 2 + 0x7fffffff + 1);
return a;
}
``````

I figured out the javascript syntax and also found an uncompressed version of the function used in a md5 javascript implementation

``````function shl1(a) {
a=a%(0x7fffffff+1);
if (a&0x40000000==0x40000000)
{
a-=0x40000000;
a*=2;
a+=(0x7fffffff+1);
} else
a*=2;
return a;
}

function shl(a,b) {
a=integer(a);
b=integer(b);
for (var i=0;i<b;i++) a=shl1(a);
return a;
}
``````

My question is what is significant about `0x40000000` and `0x7fffffff`. I somewhat understand the idea of a bitwise shift, but I am lost about the importance of these two numbers.

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The `0x7fffffff` is, in binary, a `0` followed by 31 `1`s. Adding one to it gives `0x80000000`, a `1` followed by 31 `0`s. I don't know why the direct constant isn't there. `%`ing by `0x80000000` will cut off the 32nd and all higher bits.

The `0x40000000` is, in binary, a `0`, a `1`, and then 30 `0`s. `&`ing with `0x40000000` and checking for equality to `0x40000000` checks whether that 31st bit (counting from the right this time) is set.

As far as I can tell, the section `(a - 0x40000000) * 2 + 0x7fffffff + 1)` should be the same as `a`. Not sure why the extended code is required.

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`0x7fffffff` represents the first 31 bits of `1` (reading from RHS). So `0x7fffffff+1` is 32 bits `1`'s.

`0x40000000` represents `1000000000000000000000000000000` where the `1` is the 31st bit (reading RTL).

This has to do with manipulating 32 bit data block, I assume.

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