Using Visual Studio 2015 C++, 14.0.25431.01 Update 3. I have unexpected behavior in my code. Compile and run with 64bit, Release:

#include <iostream>
#include <stdint.h>

int main(int, char**) {
    for (uint32_t i = 1; i < 3; ++i) {
        uint32_t a = i * 0xfbd1e995;
        uint64_t b = a;

        std::cout << a << " 32bit" << std::endl;
        std::cout << b << " 64bit" << std::endl;

I expect that a and b have the same value, but when I run this I get this output:

4224838037 32bit
4224838037 64bit
4154708778 32bit
8449676074 64bit

It looks like the compiler replaces the 32bit multiplication with a 64bit multiplication. Is it allowed to do that, or is this a compiler bug? Both g++ and clang give me the numbers that I'd expect.

EDIT: I've update my code with a simpler version that has the same problem. Also, I've just submitted a bug report.

  • No repro with gcc and clang. This absolutely should not happen. Edit: Also no repro with VS on rextester. – Baum mit Augen Feb 28 '17 at 14:39
  • Can't reproduce with mingw and visual studio compiler as well. – SingerOfTheFall Feb 28 '17 at 14:40
  • 1
    Same strange results witch Studio 2010 x64 Release – Christian Ammer Feb 28 '17 at 14:42
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    "Is it allowed to do that, or is this a compiler bug?" That would be an extremely serious compiler bug. Are you sure that code is really what you are running? – Baum mit Augen Feb 28 '17 at 14:44
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    I could, as well, reproduce the issue, when using VS2013, and compiling in release mode. – Algirdas Preidžius Feb 28 '17 at 14:47

I could reproduce this on VS2010, and the immediate cause is this:

add ebx, 5BD1E995h  ; this is x
add rdi, 5BD1E995h  ; this is a 64bit version of x

Since it's a 64bit addition, it will just carry into the high 32 bits. This at least makes more sense than conjuring up a 64bit multiplication, it might be a corner case in induction variable elimination but that's just speculation.

Also fun is that it doesn't even save a cast by miscompiling it. The correct value is right there in rbx.

  • 1
    Why does it use add for a multiplication? Anyway it doesn't seem to appear in CL19 anymore. I can only find imul with 1540483477 – phuclv Feb 28 '17 at 15:16
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    I think the compiler tries to be smart and replaces the loop from 0 to 50, where loop counter is multiplied by the constant, with just adding the constant. – martinus Feb 28 '17 at 15:25

It appears that this hotfix fixes the issue, at least for VS 2015:


But it seems that VS 2008, 2010, 2013 are still affected by this bug.


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