I am developing some linear algebra code that that is templated on the matrix coefficient type. One of the possible types is a class to do modular arithmetic, naively implemented as follows:

```
template<typename val_t> // `val_t` is an integer type
class Modular
{
val_t val_;
static val_t modulus_;
public:
Modular(const val_t& value) : val_(value) { };
static void global_set_modulus(const val_t& modulus) { modulus_ = modulus; };
Modular<val_t>& operator=(const Modular<val_t>& other) { val_ = other.val_; return *this; }
Modular<val_t>& operator+=(const Modular<val_t>& other) { val_ += other.val_; val_ %= modulus_; return *this; }
Modular<val_t>& operator-=(const Modular<val_t>& other) { val_ -= other.val_; val_ %= modulus_; return *this; }
Modular<val_t>& operator*=(const Modular<val_t>& other) { val_ *= other.val_; val_ %= modulus_; return *this; }
Modular<val_t>& operator/=(const Modular<val_t>& other) { val_ *= other.inverse().val_; val_ %= modulus_; return *this; }
friend Modular<val_t> operator+(const Modular<val_t>& a, const Modular<val_t>& b) { return Modular<val_t>((a.val_ + b.val_) % Modular<val_t>::modulus_); };
friend Modular<val_t> operator-(const Modular<val_t>& a, const Modular<val_t>& b) { return Modular<val_t>((a.val_ - b.val_) % Modular<val_t>::modulus_); };
// ...etc.
};
```

However, when the program runs with the `Modular<int>`

coefficients, it is several
times slower than when it runs with `int`

coefficients.

What are the things that I should change in the "Modular" class in order to gain maximum performance?

For instance, is it possible to optimize expressions like `a*b + c*d`

to `(a.val_*b.val_ + c.val_*d.val_) % modulus`

, and instead of the obvious:

```
(((a.val_*b.val_) % modulus) + ((c.val_*d.val_ % modulus) % modulus) % modulus)
```

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