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ouput Eigen matrices in matlab / octave compatible format
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| /* | |
| * this stuff can go in a header to make std::complex<> available | |
| */ | |
| /* compile: | |
| clang++ -std=c++11 test3.cpp -I eigen/ -DEIGEN_TOO | |
| */ | |
| typedef double real_t; | |
| #include <iostream> | |
| #include <complex> | |
| template <typename Tp> | |
| struct cxwrap : public std::complex<Tp> { | |
| typedef std::complex<Tp> base_t; | |
| using base_t::base_t; | |
| cxwrap<Tp>(const base_t & cx) : base_t(cx) {} | |
| operator base_t() { return *this; } | |
| using base_t::operator+=; | |
| using base_t::operator-=; | |
| using base_t::operator*=; | |
| using base_t::operator/=; | |
| using base_t::operator=; | |
| using base_t::real; | |
| using base_t::imag; | |
| template <class T, class CharT, class Traits> | |
| friend std::basic_ostream<CharT, Traits>& | |
| operator<<(std::basic_ostream<CharT, Traits>& os, | |
| const cxwrap<T>& x); | |
| }; | |
| #ifdef EIGEN_TOO | |
| #include <Eigen/Dense> | |
| namespace Eigen { | |
| template<typename _Real> struct NumTraits<cxwrap<_Real> > | |
| : NumTraits<std::complex<_Real> > {}; | |
| } | |
| typedef cxwrap<real_t> complext; | |
| #endif | |
| /* | |
| * below here can go in a .cpp file | |
| */ | |
| template <class T, class CharT, class Traits> | |
| std::basic_ostream<CharT, Traits>& | |
| operator<<(std::basic_ostream<CharT, Traits>& o, | |
| const cxwrap<T>& x) | |
| { | |
| std::basic_ostringstream<CharT, Traits> s; | |
| s.flags(o.flags()); | |
| s.imbue(o.getloc()); | |
| s.precision(o.precision()); | |
| s << x.real() << std::showpos << x.imag() << "i"; | |
| return o << s.str(); | |
| } | |
| #include <Eigen/Dense> | |
| //using namespace std::literals::complex_literals; | |
| int main(int argc, char * argv[]) | |
| { | |
| Eigen::Matrix<complext, 3,3> x; | |
| Eigen::IOFormat NormalFmt; | |
| Eigen::IOFormat OctaveFmt(Eigen::StreamPrecision, 0, ", ", ";\n", "", "", "[", "]"); | |
| complext y = std::complex<double>(1,2); | |
| //y = 1.0 + 1i; | |
| //srand((unsigned int) time(0)); | |
| x.setRandom(); | |
| std::cout << sinh(y) << "\n"; | |
| std::cout << "------------------------\n"; | |
| std::cout << x << "\n"; | |
| std::cout << "------------------------\n"; | |
| std::cout << (x+x).format(NormalFmt) << "\n"; | |
| std::cout << "------------------------\n"; | |
| std::cout << (x*x).format(OctaveFmt) << "\n"; | |
| std::cout << "------------------------\n"; | |
| } |
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