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I have an array of (unsigned-byte 32) that contains quite a bit of data, some of it in floating point format. That is, some of the bytes are handled as integers containing bit fields, while some of them as 32-bit floating point numbers.

I need to both read and write the data in the array.

Unfortunately, the function sb-kernel:make-single-float takes in an argument of (signed-byte 32), and sb-kernel:single-float-bits returns a signed word as well, so they are not directly compatible with my vector. On the other hand, converting the vector to contain signed bytes would make the bit field operations painful.

This far, I have written

(defun u32-to-sf (x)
  (declare (optimize (speed 3) (compilation-speed 0) (debug 0))
           (type (unsigned-byte 32) x))
  (if (>= x #x80000000)
      (sb-kernel:make-single-float (- x #x100000000))
      (sb-kernel:make-single-float x)))

which does the correct thing, but the generated assembly does look ugly with its conditional jump and unnecessary comparisons and subtractions.

Any ideas on how to convince sbcl to simply accept the bitwise contents of the unsigned-byte as the bitwise contents for the float-to-be?

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2 Answers 2

up vote 3 down vote accepted

You might (declare (optimize (safety 0)) (type (signed-byte 32) x))). That seems to produce much shorter assembly (it even optimizes the unused if branch away) and the same results. I would propose to really scrutinize the assembly and to secure this with thorough regression tests, though.

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Indeed, that does produce the correct assembly code. The whole if is unnecessary in this case, of course. But then again, this is a bit hackish solution and while it works with the current version, I don't think it is generally safe to assume it will work also in the future. Good enough for the time being, though - thanks! –  jlahd Dec 20 '13 at 10:58

The number #x100000000 is not a fixnum:

* (sb-kernel::fixnump #x100000000)

therefore the SBCL compiler, given the - operation, will always revert to a generic subtraction in spite of your type declarations. (Note that a lisp fixnum will generally be a bit or two fewer than the machine integer size to account for a type tag.)

Your simplest solution might to be convert to or compile SBCL for a 64 bit machine. Here is a comment from the change log:

minor(?) incompatible(?) change: The default fixnum width on 64-bit targets is now 63 bits (up from 61).
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Sorry, but this answer really, really misses the point. I am running sbcl on a 64-bit machine, and fixnum range is not the issue here. Please reread the question. –  jlahd Dec 20 '13 at 10:50
The 'generated code looks ugly' and I suggested a way to avoid a generic-subtract and somehow that 'really really misses the point'?! So it wasn't the correct answer; but it didn't 'miss the point.' You could have said 'sorry, I should have mentioned, I'm already running on a 64 bit machine'. –  GoZoner Dec 20 '13 at 21:05

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