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234 lines
7.1 KiB
234 lines
7.1 KiB
// Univariate Polynomials over the rational numbers.
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#ifndef _CL_UNIVPOLY_RATIONAL_H
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#define _CL_UNIVPOLY_RATIONAL_H
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#include "cln/ring.h"
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#include "cln/univpoly.h"
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#include "cln/number.h"
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#include "cln/rational_class.h"
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#include "cln/integer_class.h"
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#include "cln/rational_ring.h"
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namespace cln {
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// Normal univariate polynomials with stricter static typing:
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// `cl_RA' instead of `cl_ring_element'.
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#ifdef notyet
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typedef cl_UP_specialized<cl_RA> cl_UP_RA;
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typedef cl_univpoly_specialized_ring<cl_RA> cl_univpoly_rational_ring;
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//typedef cl_heap_univpoly_specialized_ring<cl_RA> cl_heap_univpoly_rational_ring;
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#else
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class cl_heap_univpoly_rational_ring;
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class cl_univpoly_rational_ring : public cl_univpoly_ring {
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public:
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// Default constructor.
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cl_univpoly_rational_ring () : cl_univpoly_ring () {}
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// Copy constructor.
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cl_univpoly_rational_ring (const cl_univpoly_rational_ring&);
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// Assignment operator.
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cl_univpoly_rational_ring& operator= (const cl_univpoly_rational_ring&);
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// Automatic dereferencing.
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cl_heap_univpoly_rational_ring* operator-> () const
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{ return (cl_heap_univpoly_rational_ring*)heappointer; }
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};
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// Copy constructor and assignment operator.
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CL_DEFINE_COPY_CONSTRUCTOR2(cl_univpoly_rational_ring,cl_univpoly_ring)
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CL_DEFINE_ASSIGNMENT_OPERATOR(cl_univpoly_rational_ring,cl_univpoly_rational_ring)
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class cl_UP_RA : public cl_UP {
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public:
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const cl_univpoly_rational_ring& ring () const { return The(cl_univpoly_rational_ring)(_ring); }
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// Conversion.
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CL_DEFINE_CONVERTER(cl_ring_element)
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// Destructive modification.
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void set_coeff (uintL index, const cl_RA& y);
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void finalize();
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// Evaluation.
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const cl_RA operator() (const cl_RA& y) const;
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public: // Ability to place an object at a given address.
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void* operator new (size_t size) { return malloc_hook(size); }
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void* operator new (size_t size, void* ptr) { (void)size; return ptr; }
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void operator delete (void* ptr) { free_hook(ptr); }
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};
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class cl_heap_univpoly_rational_ring : public cl_heap_univpoly_ring {
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SUBCLASS_cl_heap_univpoly_ring()
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// High-level operations.
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void fprint (std::ostream& stream, const cl_UP_RA& x)
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{
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cl_heap_univpoly_ring::fprint(stream,x);
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}
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bool equal (const cl_UP_RA& x, const cl_UP_RA& y)
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{
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return cl_heap_univpoly_ring::equal(x,y);
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}
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const cl_UP_RA zero ()
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{
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return The2(cl_UP_RA)(cl_heap_univpoly_ring::zero());
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}
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bool zerop (const cl_UP_RA& x)
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{
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return cl_heap_univpoly_ring::zerop(x);
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}
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const cl_UP_RA plus (const cl_UP_RA& x, const cl_UP_RA& y)
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{
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return The2(cl_UP_RA)(cl_heap_univpoly_ring::plus(x,y));
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}
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const cl_UP_RA minus (const cl_UP_RA& x, const cl_UP_RA& y)
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{
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return The2(cl_UP_RA)(cl_heap_univpoly_ring::minus(x,y));
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}
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const cl_UP_RA uminus (const cl_UP_RA& x)
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{
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return The2(cl_UP_RA)(cl_heap_univpoly_ring::uminus(x));
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}
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const cl_UP_RA one ()
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{
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return The2(cl_UP_RA)(cl_heap_univpoly_ring::one());
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}
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const cl_UP_RA canonhom (const cl_I& x)
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{
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return The2(cl_UP_RA)(cl_heap_univpoly_ring::canonhom(x));
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}
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const cl_UP_RA mul (const cl_UP_RA& x, const cl_UP_RA& y)
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{
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return The2(cl_UP_RA)(cl_heap_univpoly_ring::mul(x,y));
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}
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const cl_UP_RA square (const cl_UP_RA& x)
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{
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return The2(cl_UP_RA)(cl_heap_univpoly_ring::square(x));
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}
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const cl_UP_RA expt_pos (const cl_UP_RA& x, const cl_I& y)
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{
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return The2(cl_UP_RA)(cl_heap_univpoly_ring::expt_pos(x,y));
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}
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const cl_UP_RA scalmul (const cl_RA& x, const cl_UP_RA& y)
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{
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return The2(cl_UP_RA)(cl_heap_univpoly_ring::scalmul(cl_ring_element(cl_RA_ring,x),y));
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}
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sintL degree (const cl_UP_RA& x)
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{
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return cl_heap_univpoly_ring::degree(x);
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}
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sintL ldegree (const cl_UP_RA& x)
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{
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return cl_heap_univpoly_ring::ldegree(x);
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}
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const cl_UP_RA monomial (const cl_RA& x, uintL e)
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{
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return The2(cl_UP_RA)(cl_heap_univpoly_ring::monomial(cl_ring_element(cl_RA_ring,x),e));
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}
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const cl_RA coeff (const cl_UP_RA& x, uintL index)
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{
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return The(cl_RA)(cl_heap_univpoly_ring::coeff(x,index));
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}
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const cl_UP_RA create (sintL deg)
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{
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return The2(cl_UP_RA)(cl_heap_univpoly_ring::create(deg));
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}
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void set_coeff (cl_UP_RA& x, uintL index, const cl_RA& y)
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{
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cl_heap_univpoly_ring::set_coeff(x,index,cl_ring_element(cl_RA_ring,y));
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}
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void finalize (cl_UP_RA& x)
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{
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cl_heap_univpoly_ring::finalize(x);
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}
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const cl_RA eval (const cl_UP_RA& x, const cl_RA& y)
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{
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return The(cl_RA)(cl_heap_univpoly_ring::eval(x,cl_ring_element(cl_RA_ring,y)));
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}
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private:
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// No need for any constructors.
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cl_heap_univpoly_rational_ring ();
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};
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// Lookup of polynomial rings.
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inline const cl_univpoly_rational_ring find_univpoly_ring (const cl_rational_ring& r)
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{ return The(cl_univpoly_rational_ring) (find_univpoly_ring((const cl_ring&)r)); }
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inline const cl_univpoly_rational_ring find_univpoly_ring (const cl_rational_ring& r, const cl_symbol& varname)
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{ return The(cl_univpoly_rational_ring) (find_univpoly_ring((const cl_ring&)r,varname)); }
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// Operations on polynomials.
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// Add.
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inline const cl_UP_RA operator+ (const cl_UP_RA& x, const cl_UP_RA& y)
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{ return x.ring()->plus(x,y); }
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// Negate.
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inline const cl_UP_RA operator- (const cl_UP_RA& x)
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{ return x.ring()->uminus(x); }
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// Subtract.
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inline const cl_UP_RA operator- (const cl_UP_RA& x, const cl_UP_RA& y)
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{ return x.ring()->minus(x,y); }
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// Multiply.
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inline const cl_UP_RA operator* (const cl_UP_RA& x, const cl_UP_RA& y)
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{ return x.ring()->mul(x,y); }
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// Squaring.
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inline const cl_UP_RA square (const cl_UP_RA& x)
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{ return x.ring()->square(x); }
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// Exponentiation x^y, where y > 0.
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inline const cl_UP_RA expt_pos (const cl_UP_RA& x, const cl_I& y)
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{ return x.ring()->expt_pos(x,y); }
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// Scalar multiplication.
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#if 0 // less efficient
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inline const cl_UP_RA operator* (const cl_I& x, const cl_UP_RA& y)
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{ return y.ring()->mul(y.ring()->canonhom(x),y); }
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inline const cl_UP_RA operator* (const cl_UP_RA& x, const cl_I& y)
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{ return x.ring()->mul(x.ring()->canonhom(y),x); }
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#endif
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inline const cl_UP_RA operator* (const cl_I& x, const cl_UP_RA& y)
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{ return y.ring()->scalmul(x,y); }
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inline const cl_UP_RA operator* (const cl_UP_RA& x, const cl_I& y)
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{ return x.ring()->scalmul(y,x); }
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inline const cl_UP_RA operator* (const cl_RA& x, const cl_UP_RA& y)
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{ return y.ring()->scalmul(x,y); }
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inline const cl_UP_RA operator* (const cl_UP_RA& x, const cl_RA& y)
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{ return x.ring()->scalmul(y,x); }
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// Coefficient.
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inline const cl_RA coeff (const cl_UP_RA& x, uintL index)
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{ return x.ring()->coeff(x,index); }
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// Destructive modification.
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inline void set_coeff (cl_UP_RA& x, uintL index, const cl_RA& y)
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{ x.ring()->set_coeff(x,index,y); }
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inline void finalize (cl_UP_RA& x)
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{ x.ring()->finalize(x); }
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inline void cl_UP_RA::set_coeff (uintL index, const cl_RA& y)
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{ ring()->set_coeff(*this,index,y); }
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inline void cl_UP_RA::finalize ()
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{ ring()->finalize(*this); }
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// Evaluation. (No extension of the base ring allowed here for now.)
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inline const cl_RA cl_UP_RA::operator() (const cl_RA& y) const
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{
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return ring()->eval(*this,y);
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}
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// Derivative.
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inline const cl_UP_RA deriv (const cl_UP_RA& x)
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{ return The2(cl_UP_RA)(deriv((const cl_UP&)x)); }
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#endif
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CL_REQUIRE(cl_RA_ring)
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// Returns the n-th Legendre polynomial (n >= 0).
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extern const cl_UP_RA legendre (sintL n);
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} // namespace cln
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#endif /* _CL_UNIVPOLY_RATIONAL_H */
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