continueing on polynomials
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@ -56,6 +56,94 @@ r.resize(rhs.degree()-1,true);
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}
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template <typename T>
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NRMat<T> Sylvester(const Polynomial<T> &p, const Polynomial<T> &q)
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{
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int nm=p.degree()+q.degree();
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NRMat<T> a(nm,nm);
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a.clear();
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for(int i=0; i<q.degree(); ++i)
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for(int j=p.degree(); j>=0; --j)
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a(i,i+p.degree()-j)=p[j];
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for(int i=0; i<p.degree(); ++i)
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for(int j=q.degree(); j>=0; --j)
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a(q.degree()+i,i+q.degree()-j)=q[j];
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return a;
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}
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template <typename T>
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NRMat<T> Polynomial<T>::companion() const
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{
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if((*this)[degree()]==(T)0) laerror("zero coefficient at highest degree - simplify first");
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NRMat<T> a(degree(),degree());
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a.clear();
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for(int i=0; i<degree(); ++i) a(degree()-1,i) = -(*this)[i];
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for(int i=0; i<degree()-1; ++i) a(i,i+1) = (*this)[degree()];
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return a;
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}
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template<>
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NRVec<typename LA_traits<int>::complextype> Polynomial<int>::roots() const
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{
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laerror("roots not implemented for integer polynomials");
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return NRVec<typename LA_traits<int>::complextype>(1);
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}
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template <typename T>
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NRVec<typename LA_traits<T>::complextype> Polynomial<T>::roots() const
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{
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NRMat<T> a=this->companion();
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NRVec<typename LA_traits<T>::complextype> r(degree());
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gdiagonalize(a,r,NULL,NULL);
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return r;
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}
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template <typename T>
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NRVec<T> Polynomial<T>::realroots(const typename LA_traits<T>::normtype thr) const
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{
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NRVec<typename LA_traits<T>::complextype> r = roots();
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NRVec<T> rr(degree());
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int nr=0;
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for(int i=0; i<degree(); ++i)
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{
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if(abs(r[i].imag())<thr)
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{
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rr[nr++] = r[i].real();
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}
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}
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rr.resize(nr,true);
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rr.sort();
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return rr;
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}
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template <typename T>
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Polynomial<T> lagrange_interpolation(const NRVec<T> &x, const NRVec<T> &y)
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{
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if(x.size()!=y.size()) laerror("vectors of different length in lagrange_interpolation");
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if(x.size()<1) laerror("empty vector in lagrange_interpolation");
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if(x.size()==1)
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{
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Polynomial<T> p(0);
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p[0]=y[0];
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return p;
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}
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int n=x.size()-1;
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Polynomial<T> p(n);
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p.clear();
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for(int i=0; i<=n; ++i)
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{
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T prod=(T)1;
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for(int j=0; j<=n; ++j) if(j!=i) prod *= (x[i]-x[j]);
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if(prod==(T)0) laerror("repeated x-value in lagrange_interpolation");
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Polynomial<T> tmp=polyfromroots(x,i);
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p += tmp * y[i] / prod;
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}
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return p;
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}
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/***************************************************************************//**
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/***************************************************************************//**
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* forced instantization in the corresponding object file
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* forced instantization in the corresponding object file
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******************************************************************************/
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******************************************************************************/
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@ -64,10 +152,13 @@ template class Polynomial<double>;
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template class Polynomial<std::complex<double> >;
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template class Polynomial<std::complex<double> >;
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#define INSTANTIZE(T) \
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#define INSTANTIZE(T) \
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template NRMat<T> Sylvester(const Polynomial<T> &p, const Polynomial<T> &q); \
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template Polynomial<T> lagrange_interpolation(const NRVec<T> &x, const NRVec<T> &y); \
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INSTANTIZE(int)
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//INSTANTIZE(double)
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INSTANTIZE(double)
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INSTANTIZE(std::complex<double>)
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39
polynomial.h
39
polynomial.h
@ -22,6 +22,7 @@
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#include "la_traits.h"
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#include "la_traits.h"
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#include "vec.h"
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#include "vec.h"
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#include "nonclass.h"
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namespace LA {
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namespace LA {
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@ -78,6 +79,7 @@ public:
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while(n>0 && abs((*this)[n])<thr) --n;
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while(n>0 && abs((*this)[n])<thr) --n;
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resize(n,true);
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resize(n,true);
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};
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};
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void normalize() {if((*this)[degree()]==(T)0) laerror("zero coefficient at highest degree - simplify first"); *this /= (*this)[degree()];};
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Polynomial shifted(const int shift) const
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Polynomial shifted(const int shift) const
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{
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{
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if(shift==0) return *this;
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if(shift==0) return *this;
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@ -127,9 +129,11 @@ public:
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void polydiv(const Polynomial &rhs, Polynomial &q, Polynomial &r) const;
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void polydiv(const Polynomial &rhs, Polynomial &q, Polynomial &r) const;
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Polynomial operator/(const Polynomial &rhs) const {Polynomial q,r; polydiv(rhs,q,r); return q;};
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Polynomial operator/(const Polynomial &rhs) const {Polynomial q,r; polydiv(rhs,q,r); return q;};
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Polynomial operator%(const Polynomial &rhs) const {Polynomial q,r; polydiv(rhs,q,r); return r;};
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Polynomial operator%(const Polynomial &rhs) const {Polynomial q,r; polydiv(rhs,q,r); return r;};
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NRMat<T> companion() const; //matrix which has this characteristic polynomial
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NRVec<typename LA_traits<T>::complextype> roots() const; //implemented for complex<double> and double only
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NRVec<T> realroots(const typename LA_traits<T>::normtype thr) const;
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//gcd, lcm
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//@@@gcd, lcm euler and svd
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//roots, interpolation ... special only for real->complex - declare only and implent only template specialization in .cc
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};
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};
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@ -148,12 +152,43 @@ sum += p[0];
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return sum;
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return sum;
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}
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}
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template <typename T, typename C>
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NRVec<C> values(const Polynomial<T> &p, const NRVec<C> &x)
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{
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NRVec<C> r(x.size());
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for(int i=0; i<x.size(); ++i) r[i]=value(p,x[i]);
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return r;
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}
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//scalar+-polynomial
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//scalar+-polynomial
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template <typename T>
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template <typename T>
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inline Polynomial<T> operator+(const T &a, const Polynomial<T> &rhs) {return Polynomial<T>(rhs)+=a;}
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inline Polynomial<T> operator+(const T &a, const Polynomial<T> &rhs) {return Polynomial<T>(rhs)+=a;}
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template <typename T>
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template <typename T>
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inline Polynomial<T> operator-(const T &a, const Polynomial<T> &rhs) {return Polynomial<T>(rhs)-=a;}
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inline Polynomial<T> operator-(const T &a, const Polynomial<T> &rhs) {return Polynomial<T>(rhs)-=a;}
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//Sylvester matrix
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template <typename T>
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extern NRMat<T> Sylvester(const Polynomial<T> &p, const Polynomial<T> &q);
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//polynomial from given roots
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template <typename T>
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Polynomial<T> polyfromroots(const NRVec<T> &roots, const int skip= -1)
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{
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Polynomial<T> p(0);
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p[0]=(T)1;
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for(int i=0; i<roots.size(); ++i)
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if(i!=skip)
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p = p.shifted(1) - p * roots[i];
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return p;
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}
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template <typename T>
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extern Polynomial<T> lagrange_interpolation(const NRVec<T> &x, const NRVec<T> &y);
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}//namespace
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}//namespace
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#endif
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#endif
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29
t.cc
29
t.cc
@ -2167,7 +2167,7 @@ cout <<Sn;
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if(!Sn.is_valid()) laerror("internal error in Sn character calculation");
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if(!Sn.is_valid()) laerror("internal error in Sn character calculation");
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}
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}
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if(1)
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if(0)
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{
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{
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int n,m;
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int n,m;
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double x;
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double x;
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@ -2187,6 +2187,8 @@ Polynomial<double> z=value(p,q); //p(q(x))
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Polynomial<double> y=value(q,p);
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Polynomial<double> y=value(q,p);
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cout <<p;
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cout <<p;
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cout <<q;
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cout <<q;
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cout <<q.companion();
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cout<<Sylvester(p,q);
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cout <<a;
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cout <<a;
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cout <<b;
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cout <<b;
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cout <<r;
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cout <<r;
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@ -2201,5 +2203,30 @@ cout << (value(p,u)*value(q,u) -value(r,u)).norm()<<endl;
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}
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}
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if(0)
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{
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int n;
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cin >>n ;
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NRVec<double> r(n);
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r.randomize(1.);
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r.sort(0);
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Polynomial<double> p=polyfromroots(r);
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cout <<p;
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cout <<r;
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cout <<p.realroots(1e-10);
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}
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if(1)
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{
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int n;
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cin >>n ;
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NRVec<double> x(n+1),y(n+1);
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x.randomize(1.);
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y.randomize(1.);
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Polynomial<double> p=lagrange_interpolation(x,y);
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cout <<x<<y<<p;
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NRVec<double> yy=values(p,x);
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cout<<"interpolation error= "<<(y-yy).norm()<<endl;
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}
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}
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}
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