|
|
// Simple vectors of rational numbers.
#ifndef _CL_SV_RATIONAL_H
#define _CL_SV_RATIONAL_H
#include "cln/number.h"
#include "cln/SV_real.h"
#include "cln/rational_class.h"
#include "cln/io.h"
namespace cln {
// A vector of rational numbers is just a normal vector of real numbers.
typedef cl_heap_SV<cl_RA> cl_heap_SV_RA;
struct cl_SV_RA : public cl_SV<cl_RA,cl_SV_R> { public: // Constructors.
cl_SV_RA () : cl_SV<cl_RA,cl_SV_R> ((cl_heap_SV_RA*) (cl_heap_SV_number*) cl_null_SV_number) {}; cl_SV_RA (const cl_SV_RA&); explicit cl_SV_RA (uintL len) : cl_SV<cl_RA,cl_SV_R> ((cl_heap_SV_RA*) cl_make_heap_SV_number(len)) {}; // Assignment operators.
cl_SV_RA& operator= (const cl_SV_RA&); // Private pointer manipulations.
cl_SV_RA (cl_heap_SV_RA* p) : cl_SV<cl_RA,cl_SV_R> (p) {} cl_SV_RA (cl_private_thing p) : cl_SV<cl_RA,cl_SV_R> (p) {} }; inline cl_SV_RA::cl_SV_RA (const cl_SV_RA& x) : cl_SV<cl_RA,cl_SV_R> (as_cl_private_thing(x)) {} CL_DEFINE_ASSIGNMENT_OPERATOR(cl_SV_RA,cl_SV_RA)
// Copy a simple vector.
inline const cl_SV_RA copy (const cl_SV_RA& vector) { return The(cl_SV_RA) (copy((const cl_SV_R&) vector)); }
// Output.
inline void fprint (std::ostream& stream, const cl_SV_RA& x) { extern cl_print_flags default_print_flags; extern void print_vector (std::ostream& stream, const cl_print_flags& flags, void (* fun) (std::ostream&, const cl_print_flags&, const cl_number&), const cl_SV_number& vector); extern void print_rational (std::ostream& stream, const cl_print_flags& flags, const cl_RA& z); print_vector(stream, default_print_flags, (void (*) (std::ostream&, const cl_print_flags&, const cl_number&)) (void (*) (std::ostream&, const cl_print_flags&, const cl_RA&)) &print_rational, x); } CL_DEFINE_PRINT_OPERATOR(cl_SV_RA)
} // namespace cln
#endif /* _CL_SV_RAATIONAL_H */
|