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I am doing some sse vector3 math.

Generally, I set the 4th digit of my vector to 1.0f, as this makes most of my math work, but sometimes I need to set it to 0.0f.

So I want to change something like: (32.4f, 21.2f, -4.0f, 1.0f) to (32.4f, 21.2f, -4.0f, 0.0f)

I was wondering what the best method to doing so would be:

  1. Convert to 4 floats, set 4th float, send back to SSE
  2. xor a register with itself, then do 2 shufps
  3. Do all the SSE math with 1.0f and then set the variables to what they should be when finished.
  4. Other?

Note: The vector is already in a SSE register when I need to change it.

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Wouldn't it be nice if they came out with a version of SSE that worked on 3 scalars at a time!! –  David Heffernan Feb 4 '11 at 18:50
    
bit and with 0xfff..ff00000000? –  Anycorn Feb 4 '11 at 19:06

5 Answers 5

up vote 3 down vote accepted

Assuming your original vector is in xmm0:

; xmm0 = [x y z w]
xorps %xmm1, %xmm1         ; [0 0 0 0]
pcmpeqs %xmm2, %xmm2       ; [1 1 1 1] 
movss %xmm1, %xmm2         ; [0 1 1 1]
pshufd $0x20, %xmm1, %xmm2 ; [1 1 1 0]
andps %xmm2, %xmm0         ; [x y z 0]

should be fast since it does not access memory.

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You can generate the mask faster by shifting the register of all-1s to leave the high dword with all-zeros, instead of movss+pshufd. (psrldq %xmm2, 4, or pslldq to shift the other way and leave the low dword zeroed.). Or if you can't spare a register, you could just keep the [1 1 1 0] mask for andps in memory. –  Peter Cordes Jun 19 at 6:15
    
Also, SSE4.1 blendps with a zeroed reg will let you put zeroes in the high element easily, with just two instructions (xorps and blendps). But Jester's pshufhw $0xa4 is really the best, as long as you're sure that the high element is really 1.0f exactly, and thus has a zero word. –  Peter Cordes Jun 21 at 4:29

AND with a constant mask.

In assembly ...

myMask:
.long 0xffffffff, 0xffffffff, 0xffffffff, 0x00000000

...
andps  myMask, %xmm#

where # = {0, 1, 2, ....}

Hope this helps.

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If you want to do it without memory access, you could realize that the value 1 has a zero word in it, and the value zero is all zeroes. So, you can just copy the zero word to the other. If you have the 1 in the highest dword, pshufhw xmm0, xmm0, 0xa4 should do the trick:

(gdb) ni
4       pshufhw $0xa4, %xmm0, %xmm0
(gdb) p $xmm0.v4_float
$4 = {32.4000015, 21.2000008, -4, 1}
(gdb) ni
5       ret
(gdb) p $xmm0.v4_float
$5 = {32.4000015, 21.2000008, -4, 0}

The similar trick for the other locations is left as an excercise to the reader :)

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pinsrw?

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For some reason GCC isn't letting me use "__builtin_ia32_pinsrw" intrinsic - any ideas? –  Pubby Feb 4 '11 at 21:42
    
Try: __builtin_ia32_pinsrw128 –  Bill Lynch Feb 5 '11 at 3:46
    
If memory serves, PINSRW is SSE4 and thus only available to processors that support it. –  Sparky Feb 5 '11 at 22:10
    
@Sparky: SSE1. ref.x86asm.net/coder32.html#x0FC4 –  Bahbar Feb 7 '11 at 11:09

Why not multiply your vector element wise with [1 1 1 0]? I'm pretty sure there is an SSE instruction for element wise multiplication.

Then to go back to a vector with a 1 in the 4th dimension, just add [0 0 0 1]. Again there is an SSE instruction for that, too.

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But how do I get [1 1 1 0] into sse registers in fast way? –  Pubby Feb 5 '11 at 7:47
    
bitwise AND instead of multiply, bitwise OR instead of add. And yeah, other than keeping those constants in memory, there's the problem of generating that value. –  Peter Cordes Jun 21 at 4:24

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