Compiling the following example with -O2
on Clang 3.9 results in the reproFunction returning garbage (1.9038e+185
) when called in main
:
Code
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;
}
Output
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.
R12
? And how far is it fromR(1, 2)
(in ulp)? Not that will help fix it, I was just wondering...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 byfloat_distance