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First of all, I'm not sure if solution even exists. I spent more than a couple of hours trying to come up with one, so beware.

The problem:

r1 contains an arbitrary integer, flags are not set according to its value. Set r0 to 1 if r1 is 0x80000000, to 0 otherwise, using only two instructions.

It's easy to do that in 3 instructions (there are many ways), however doing it in 2 seems very hard, and may very well be impossible.

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Any restrictions on architecture version? That could affect whether or not there is a solution. –  Michael Madsen Jun 2 '10 at 20:29
it's more of a question of curiosity now for me, not of a practical application, so any arch is fine –  Ivan Tarasov Jun 2 '10 at 20:51
Thought about this a good amount over the last day, and I'm pretty confident it's not possible. Lots of ways to get there in 3 instructions, but as asked, I can't think of a way to do it in 2. –  Dan Jun 4 '10 at 23:34

5 Answers 5

something like

SMMUL r0,r1,r1
MOV r0,r0,lsr #30
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nice answer, SMMUL has four operands, yes? maybe SMMUL r2,r0,r1,r1. I think r0 will end up with 1,2, or 3 though if the msbit of r1 is set. –  dwelch Jun 5 '10 at 1:02
Arm's doccumentation describes SMMUL as signed top word multiplication, so it's listed as a 3 register opcode. My thinking is: 0x80000000 x 0x80000000. gives 0x40000000 in the top word, so a 30 place shift will bring that bit30 to bit0. (No arm V6 architecture here to test it on) –  Martin Jun 5 '10 at 7:24
@dwelch: you're thinking of SMULL. SMMUL is an ARMv6 instruction that just gives the top 32 bits of the result. –  Mike Seymour Jun 6 '10 at 20:55
Thanks, good to know. Either way though, the upper two bits of your result can be 1, 2, or 3 depending on the other bits in r1, you still need a third instruction to orr those lower two bits together to get the result. –  dwelch Jun 8 '10 at 0:37
@dwelch: the largest result you can get from squaring a signed number is (-2^31)^2 = 2^62; any value other than 0x80000000 will give a smaller (and non-negative) result. In your 4-bit example, you're doing an unsigned multiplication; a signed multiplication will interpret 0xF as -1, giving a result of 0x01. So these two instructions do indeed give the correct result, with no need for a third. –  Mike Seymour Jun 8 '10 at 11:42

Here's a partial solution that gives the correct answer in the top bit of r0, so it is available as a shifter operand (r0 lsr #31).

; r0 = r1 & -r1
rsb r0, r1, #0
and r0, r0, r1

This works because 0 and 0x80000000 are the only numbers that retain their sign bits when negated. I'm fairly sure an exact solution is impossible.

EDIT: no, it's not impossible. See Martin's answer.

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Nice trick with the negation. Unfortunately extracting the highest bit requires the 3rd instruction (or modification of the instruction that uses the result, which's not always possible). –  Ivan Tarasov Jun 4 '10 at 18:12
I thought about this problem the whole day and I'm sure a two instruction solution is impossible as well. –  Nils Pipenbrinck Jun 4 '10 at 19:36
adds  r0, r1, #0x80000000 ; if r1 is 0x80000000, r0 will now hold 0
movne r0, #1              ; otherwise, set r0 to 1

This is equivalent to:

unsigned int r0, r1;
r0 = r1 + 0x80000000; // 32 bits, so top bit will be lost on overflow
if (r0 != 0)
    r0 = 1;
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You inverted the result: the problem specification required 1 in r0 when r1==0x80000000, and 0 otherwise, and you are setting r0 to 0 on r1==0x80000000 and to 1 otherwise, which is a much simpler problem (that's one of the approaches to get the job done in 3 instructions). –  Ivan Tarasov Mar 21 '11 at 22:05
You're right. I should've known it couldn't be that simple! –  Eric Miller Mar 22 '11 at 12:32

Something like:

mov r0,r1,lsr #31

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That will set r0 to 1 as long as r1 has its high bit set. That's not what the OP is asking for. –  Michael Madsen Jun 2 '10 at 20:38
ahh, I see I was looking at the bit not the value –  dwelch Jun 3 '10 at 3:41

Tough puzzle if one wants to use "fast" instructions. I can't quite come up with a solution, but can offer a couple more 'notions':

; If goal were to have value of zero if $80000000 and something else otherwise:
  adds r0,r1,r1 ; Overflow only if $80000000
  movvc r0,#whatever

; If goal were to have value of $80000000 if $80000000 and zero otherwise
  subs r0,r1,#0  ; Overflow only if $80000000
  movvc r0,#0 ; Or whatever

; If the goal were to have value of $7FFFFFFF if $80000000 and zero otherwise
  adds r0,r1,r1,asr #31 ; Overflow only if $80000000
  movvc r0,#0

; If carry were known to be set beforehand
  addcs r0,r1,r1 ; Overflow only if $80000000 (value is 1)
  movvc r0,#0

; If register r2 were known to hold #1
  adds r0,r1,r1,asr #31
  ; If $80000000, MSB and carry set
  sbc r0,r2,r0,lsr #31

None of those is a perfect solution, but they're interesting.

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