# What does this float formula mean?

OK, I was given a formula to determine a float value between 0.0 and 1.0 using i and j (coordinates of a value in a 2D array). I simply want to know exactly what this formula does. It makes no sense to me. I have implemented it in its own function where the int values of i and j are passed as parameters. Can someone provide an explanation? I don't HAVE to understand it, as he gave it to us just to use as is, but I really want to know.

``````float col = float (((i & 0x08) == 0) ^ ((j & 0x08) == 0));
``````

What exactly is going on here?

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You can usually figure out a complex expression by breaking it down into its component parts. Which part don't you understand? –  Oliver Charlesworth Jan 16 '13 at 3:00
This one is actually not obvious at all. I can't figure it out myself after 2 min. So I'll +1 for it. –  Mysticial Jan 16 '13 at 3:02
In this case, `&` is the bitwise AND operator. `0x08` is a hexadecimal value which is just the number `8`. –  Mysticial Jan 16 '13 at 3:05
It's not a function, it's explicit type conversion. –  Petr Budnik Jan 16 '13 at 3:17
The intent, which you'd probably see if you implemented it, is to draw a chessboard (assuming width and height are 64). In fact, the expression could have been written, perhaps no less mysteriously, as `((i^j)&8)/8.0` –  rici Jan 16 '13 at 3:32

There are a lot of Boolean and bitwise boolean operators here.. Let me try to answer in parts.. Lets first split into pieces

`A:(i & 0x08)`
Performing bitwise and on i - basically and is performed on each bit of i and 0x08( 1000 in binary)

`B:A==0`
Check if the bitwise and is false for EVERY BIT Basically checks if the 4th bit from the last is 0

`C: B ^ B'`
Bitwise XOR- returns 1 if one of them and not both of them is true (bitwise)

`D:float(C)`
Easy one, casts C to float.

End result - No idea..

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The result, if plotted with `i,j` as the x,y coordinates, will be a checkerboard with squares of 8x8 pixels.

The `i & 0x08` and `j & 0x08` are just testing a single bit of each axis. That bit will change state every 8 pixels.

The `== 0` will convert each result to a boolean, which evaluates to either a 0 or 1. It also inverts the result, but I don't think that's relevant in the overall formula.

The `^` exclusive-or operator will return 0 if the two are the same, or 1 if they're different. That's how you get the checkerboard - the result alternates each time either `i` or `j` crosses a boundary.

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+1! Do you have mind reading powers? –  mvp Jan 16 '13 at 4:17
@mvp no, and it appears I can't read either. Looking back over the comments to the original question, it seems someone reached the same conclusion 43 minutes before I did. –  Mark Ransom Jan 16 '13 at 4:29
I see - it is by @rici. Still, you cared to actually type this great answer here. –  mvp Jan 16 '13 at 4:34
@mvp, thanks for the compliment. I always strive to leave great answers but some attempts are more successful than others. Lots of practice helps, I've been at this for 5 years now. You might find this interesting: codinghorror.com/blog/2011/02/how-to-write-without-writing.html –  Mark Ransom Jan 16 '13 at 4:54
``````float col = float (((i & 0x08) == 0) ^ ((j & 0x08) == 0));
``````

`& 0x08` does a bitwise and with 8, which means it extracts the 4th least signficant bit (1 is the least, then 2, 4, 8) from the numbers `i` and `j`. The `^` is an exclusive OR operation: if both bits are the same the result is 0, if they differ the result is 1. That's promoted to a `float` by the outside `= float(...)`, so `col` becomes `0.0` if `i` and `j` are the same, but `1.0` if they differ.

Why might it be useful? That depends on what `i` and `j` are. Presumably, the 4th bit encodes some specific condition or flag (a boolean), for example: whether a person is male or female. The `&` operation extracts that, then the `^` says "do they differ?". Why might you want a boolean expression converted to a float? Not many good reasons to be honest - you can always let the conversion be done implicitly at the place it's used as in (assuming male/female):

``````bool hetero = i & 0x08 ^ j & 0x08;
float estimated_children_from_coupling = 1.3 * hetero;  // same as hetero ? 1.3 : 0;
``````
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Note: that's not a C-style cast (that would be `(float)blah`). –  Oliver Charlesworth Jan 16 '13 at 3:12
@OliCharlesworth: ah true... C's rusty. Thanks –  Tony D Jan 16 '13 at 3:24

In short, "col = 1.0" if "i" OR "j" is equal to 0x08 (decimal 8).

(i & 0x08): not zero if "i == 0x08", zero otherwise (i & 0x08) == 0: 1/true if "i != 0x08", 0/false if "i == 0x08" same for "j"

Hence the "exclusive or" (^ operator) of the 2 sides will be true of either of them is true, but not both, which happens when i OR j is 0x08.

Finally, it casts the result to float for whatever the reason.

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