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dft_tools/doc/reference/c++/clef/overload_2.cpp
Olivier Parcollet 3fe400d34c doc : split c++ code from rst
- examples split from the rst file using a python script (split_code).
- Final result for the doc is unchanged.
- examples are compiled and tested with the other tests.
- examples' code have been clang-formatted, with triqs style.
- doc compiles much faster, and with the same options as the rest of the
  test.
- examples are added as tests, so they are run by make test, as simple C
  tests.
- done for the tutorials and the reference.
- autocompile removed (changed into triqs_example directive).
- add triqs_example :
   - make a literal include of the source code.
   - runs the compiled example
   - add, as before, the result to the source code in the doc.
- added the script split_code, used to make the changes automatically,
  maybe for later reuse. (in _tools)
2014-05-31 23:00:16 +02:00

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1.5 KiB
C++

#include <triqs/clef.hpp>
struct Obj {
double v; // put something in it
Obj(double v_) : v(v_) {} // constructor
Obj(Obj const &) = delete; // a non copyable object, to illustrate that we do NOT copy...
// The "normal", non CLEF call operator ....
double operator()(double x) const { return 10 * x; }
// This macro implements properly an overload of the operator ()
TRIQS_CLEF_IMPLEMENT_LAZY_CALL();
// a method
double my_method(double x) const { return 2 * x; }
// CLEF overload
// WARNING : the method MUST be const
TRIQS_CLEF_IMPLEMENT_LAZY_METHOD(Obj, my_method);
// Just to print itself nicely in the expressions
friend std::ostream &operator<<(std::ostream &out, Obj const &x) { return out << "Obj"; }
};
int main() {
Obj f(7);
triqs::clef::placeholder<1> x_;
triqs::clef::placeholder<2> y_;
std::cout << "Clef expression : " << f(y_) + 2 * x_ << std::endl;
std::cout << "Complete evaluation : " << eval(f(x_) + 2 * x_, x_ = 1) << std::endl;
std::cout << "Partial evaluation : " << eval(f(y_) + 2 * x_, y_ = 1) << std::endl;
std::cout << "Complete evalution : " << eval(f(y_) + 2 * x_, x_ = 3, y_ = 1) << std::endl << std::endl;
std::cout << "Clef expression : " << f.my_method(y_) + 2 * x_ << std::endl;
std::cout << "Complete evaluation : " << eval(f.my_method(x_) + 2 * x_, x_ = 1) << std::endl;
std::cout << "Partial evaluation : " << eval(f.my_method(y_) + 2 * x_, y_ = 1) << std::endl;
std::cout << "Complete evalution : " << eval(f.my_method(y_) + 2 * x_, x_ = 3, y_ = 1) << std::endl;
}