I'm writing a C++ function that is templated on type (either float or double), and uses Eigen::Matrix internally. The function will be using a combination of float, double, and templated type Eigen:Matrix objects. Eigen::Matrix<>::cast() works just fine for double and float, though I'm hitting an odd issue when using it with templated types. See code below:

#include "Eigen/Core"  // Version 3.2.4 (eigen-eigen-10219c95fe65)

template <typename Scalar>
void Foo() {
  Eigen::Matrix<double, 3, 1> mat_d = Eigen::Matrix<double, 3, 1>::Zero();
  Eigen::Matrix<float,  3, 1> mat_f = Eigen::Matrix<float,  3, 1>::Zero();
  Eigen::Matrix<Scalar, 3, 1> mat_s = Eigen::Matrix<Scalar, 3, 1>::Zero();

  mat_d = mat_f.cast<double>();  // Works
  mat_f = mat_f.cast<float>();   // Works

  mat_s = mat_f.cast<Scalar>();  // Works
  mat_s = mat_d.cast<Scalar>();  // Works

  mat_d = mat_s.cast<double>();  // Broken
  mat_f = mat_s.cast<float>();   // Broken

int main() {

Here is the result of compiling:

> g++ casting.cpp
casting.cpp: In function ‘void Foo()’:
casting.cpp:16:22: error: expected primary-expression before ‘double’
   mat_d = mat_s.cast<double>();  // Broken
casting.cpp:16:22: error: expected ‘;’ before ‘double’
casting.cpp:17:22: error: expected primary-expression before ‘float’
   mat_f = mat_s.cast<float>();   // Broken
casting.cpp:17:22: error: expected ‘;’ before ‘float’

Since I'm only ever instantiating the template with Scalar as a double or float, I'd imagine that the Scalar function calls should have the same effect as the hardcoded float/double types.

Some more system info:

Thanks in advance for your help!

  • 4
    mat_d = mat_s.template cast<double>(); – Piotr Skotnicki Apr 20 '15 at 17:23

Thanks, @piotr-s! Looks like this is not an Eigen-specific thing, but more generally just some tricky syntax for calling a templated member functions.

Here's a related question: How to call a template member function?

Here's the answer:

mat_d = mat_s.template cast<double>();

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