I use a custom complex type with Eigen. This type is a wrapper around Boost.Multiprecision's `mpfr_float`

type. MPFR is a heap-allocated type in my uses (variable precision), so temporaries are *very* expensive. Hence, I have all my constructors marked `explicit`

.

I have a test case to check compilation using certain operations, a currently failing one which looks like this:

```
BOOST_AUTO_TEST_CASE(self_multiplication_mpfr_int)
{
using T = bertini::mpfr_complex;
T q(1);
int a(1);
Eigen::Matrix<T, Eigen::Dynamic, Eigen::Dynamic> A(2,2);
A << T(2), T(1), T(1), T(2);
A*=a; // this line fails to compile
}
```

I have provided a number of extensions to Eigen, most importantly to this post being

```
namespace eigen{ namespace internal{
template<>
struct scalar_product_traits<int,bertini::complex>
{
enum { Defined = 1 };
typedef bertini::complex ReturnType;
};
template<>
struct scalar_product_traits<bertini::complex, int>
{
enum { Defined = 1 };
typedef bertini::complex ReturnType;
};
}} // namespaces
```

See https://forum.kde.org/viewtopic.php?f=74&t=111176 for more information on this `scalar_product_traits`

. I have added these for all sensible types in my world, `int`

, `long`

, `bmp::mpz_int`

, `bmp::mpfr_float`

(the corresponding real type), etc.

My compiler errors (clang on OSX) look like

```
test/library_compatibility/eigen.cpp:478:4: error: no viable overloaded '*='
A*=a;
~^ ~
/Users/ofloveandhate/code/eigen/Eigen/src/Core/DenseBase.h:388:14: note: candidate function not viable: no known conversion from 'int' to 'const Scalar' (aka 'const bertini::complex') for 1st argument
Derived& operator*=(const Scalar& other);
^
/Users/ofloveandhate/code/eigen/Eigen/src/Core/MatrixBase.h:183:14: note: candidate template ignored: could not match 'EigenBase<type-parameter-0-0>' against 'int'
Derived& operator*=(const EigenBase<OtherDerived>& other);
^
```

I feel a MWE would be way too long to include here, so instead I can refer you to my repo, if necessary. my Eigen version is 3.3, rev 10428.

My question is:
**Is this an Eigen thing, or do I need to add another bit of code to my Eigen extensions to make my custom type play nicely with *= and /=?**

`operator*`

is implemented for mixed types (if they are compatible according to`scalar_product_traits`

).`A=A*a`

should work though.