Compiling the following example with -O2 on Clang 3.9 results in the reproFunction returning garbage (1.9038e+185) when called in main:


double reproFunction(const Eigen::Matrix3d& R_in)
  const Eigen::Matrix3d R = R_in;

  Eigen::Matrix3d Q = R.cwiseAbs();

  if(R(1,2) < 2) {
    Eigen::Vector3d n{0, 1, R(1, 2)};
    double s2 = R(1,2);
    s2 /= n.norm();
  return R(1, 2);

int main() {
  Eigen::Matrix3d R;
  R = Eigen::Matrix3d::Zero(3,3); 

  // This fails - reproFunction(R) returns 0
  R(1, 2) = 0.7;
  double R12 = reproFunction(R);
  bool are_they_equal = (R12 == R(1,2));
  std::cout << "R12 == R(1,2): " << are_they_equal << std::endl;
  std::cout << "R12: " << R12 << std::endl;
  std::cout << "R(1, 2): " << R(1, 2) << std::endl;


R12 == R(1,2): 0
R12: 1.9036e+185
R(1, 2): 0.7

reproFunction, initializes R (which is const) by assignment from R_in. It returns R(1, 2). Between the assignment and the return, reproFunction uses R in several operations, but none of them should be able to change R. Removing any of those operations results in reproFunction returning the correct value.

This behavior does not appear in any of the following cases:

  • The program is compiled with Clang 3.5, Clang 4.0,or g++-5.4.
  • The optimization level is -O1 or lower
  • Eigen 3.2.10 is used instead of Eigen 3.3.3

Now the question: Is this behavior due to a bug I've missed in the code above, a bug in Eigen 3.3.3, or a bug in Clang 3.9?

A self-contained reproduction example can be found at https://github.com/avalenzu/eigen-clang-weirdness.

  • 2
    This sounds a lot like a bug in clang. – chtz Aug 2 '17 at 22:23
  • Just out of curiosity, what is the R12? And how far is it from R(1, 2) (in ulp)? Not that will help fix it, I was just wondering... – Avi Ginsburg Aug 3 '17 at 5:52
  • @AviGinsburg: I've added an output line for the value of R12 above. It appears to be a garbage value, not 0 as I had initially mis-remembered. The ulp distance is ` -2.77422e+18` . The ulp branch of the example repo now prints out result returned by float_distance – Andrés Valenzuela Aug 3 '17 at 13:27
  • 1
    It could be related to that clang's bug. – ggael Aug 6 '17 at 6:41

I could reproduce this with clang 3.9, but not with clang 3.8. I bisected the issue on Eigen's side to this commit from 2016-05-24 21:54:

Bug 256: enable vectorization with unaligned loads/stores. This concerns all architectures and all sizes. This new behavior can be disabled by defining EIGEN_UNALIGNED_VECTORIZE=0

That commit enables vectorized operations on unaligned data.

I still think, this is a bug in clang, but you can work-around it by compiling with


Also, Eigen could be 'fixed' by automatically disabling this feature if clang 3.9 is detected as compiler.

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