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As far as I know most compilers will do fast division by multiplying and then bit shifting to the right. For instance, if you check this SO thread it says that when you ask the Microsoft compiler to do division by 10 it will multiply the dividend by 0x1999999A (which is 2^32/10) and then divide the result by 2^32 (using 32 shifts to the right).

So far so good.

Once I tested the same division by 10 on ARM using GCC, though, the compiler did something slightly different. First it multiplied the dividend by 0x66666667 (2^34/10), then it divided the result by 2^34. Thus far it's the same as Microsoft, except using a higher multiplier. After that, however, it subtracted (dividend/2^31) from the result.

My question: why on the ARM version there's that extra subtraction? Can you give me an numeric example where without that subtraction the result will be wrong?

If you want to check the generated code, it's below (with my comments):

        ldr     r2, [r7, #4] @--this loads the dividend from memory into r2
        movw    r3, #:lower16:1717986919 @--moves the lower 16 bits of the constant 
        movt    r3, #:upper16:1717986919 @--moves the upper 16 bits of the constant
        smull   r1, r3, r3, r2 @--multiply long, put lower 32 bits in r1, higher 32 in r3
        asr     r1, r3, #2 @--r3>>2, then store in r1 (effectively >>34, since r3 was higher 32 bits of multiplication)
        asr     r3, r2, #31 @--dividend>>31, then store in r3
        rsb     r3, r3, r1 @--r1 - r3, store in r3
        str     r3, [r7, #0] @--this stores the result in memory (from r3) 
share|improve this question
It's for negative values, integer division truncates, and just multiplication and shift produce x/10 - 1 for negative x. (Assuming arithmetic right-shift, of course.) – Daniel Fischer Apr 25 '13 at 15:08
I can see that if I make -99 / 10 with the multiplication/shift method I'll get -10 as a result. But if I subtract 1 from that I'll get -11, when what I want is -9 ain't it? – DanielS Apr 25 '13 at 15:19
You subtract -1, i.e. you add 1. – Daniel Fischer Apr 25 '13 at 15:28
up vote 7 down vote accepted

After that, however, it subtracted (dividend/2^31) from the result.

Actually, it subtracts dividend >> 31, which is -1 for negative dividend, and 0 for non-negative dividend, when right-shifting negative integers is arithmetic right-shift (and int is 32 bits wide).

0x6666667 = (2^34 + 6)/10

So for x < 0, we have, writing x = 10*k + r with -10 < r <= 0,

0x66666667 * (10*k+r) = (2^34+6)*k + (2^34 + 6)*r/10 = 2^34*k + 6*k + (2^34+6)*r/10

Now, arithmetic right shift of negative integers yields the floor of v / 2^n, so

(0x66666667 * x) >> 34

results in

k + floor((6*k + (2^34+6)*r/10) / 2^34)

So we need to see that

-2^34 < 6*k + (2^34+6)*r/10 < 0

The right inequality is easy, both k and r are non-positive, and not both are 0.

For the left inequality, a bit more analysis is needed.

r >= -9

so the absolute value of (2^34+6)*r/10 is at most 2^34+6 - (2^34+6)/10.

|k| <= 2^31/10,

so |6*k| <= 3*2^31/5.

And it remains to verify that

6 + 3*2^31/5 < (2^34+6)/10
1288490194   < 1717986919

Yup, true.

share|improve this answer
Thanks for the elaboration. – DanielS Apr 25 '13 at 15:28

x SAR 31 is 0xffffffff (-1) for negative values of x, and 0x00000000 for positive values.

So the rsbis subtracting -1 from the result (which is the same as adding 1) if the dividend was negative.

Let's say your dividend is -60. With just the multiply and shift you'd get the result -7, so it subtracts -1 to get the expected result of -6.

share|improve this answer
Gotcha. Thanks. – DanielS Apr 25 '13 at 15:24

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