progressing on contfrac
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78
contfrac.cc
78
contfrac.cc
@ -20,6 +20,7 @@
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#include <stdio.h>
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#include <string.h>
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#include <math.h>
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#include <list>
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namespace LA {
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@ -132,6 +133,67 @@ for(int i=1; i<=n; ++i) //truncate if possible
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}
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template <typename T>
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ContFrac<T> Homographic<T>::value(const ContFrac<T>&x) const
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{
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Homographic<T> h(*this);
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std::list<T> l;
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for(int i=0; i<=x.length()+1; ++i) //scan all input
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{
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//digest next input term
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Homographic<T> hnew;
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if(i>x.length()||i!=0&&x[i]==0) //input is infinity
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{
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hnew.x[0][0]=hnew.x[0][1]=h.x[0][1];
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hnew.x[1][0]=hnew.x[1][1]=h.x[1][1];
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}
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else
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{
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hnew.x[0][0]=h.x[0][1];
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hnew.x[1][0]=h.x[1][1];
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hnew.x[0][1]=h.x[0][0]+h.x[0][1]*x[i];
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hnew.x[1][1]=h.x[1][0]+h.x[1][1]*x[i];
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}
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//std::cout<<"hnew\n"<< hnew.x[0][0]<<" "<< hnew.x[0][1]<<"\n"<< hnew.x[1][0]<<" "<< hnew.x[1][1]<<"\n";
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//check if we are ready to output
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bool inf=0;
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T q0,q1;
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if(hnew.x[1][0]==0) inf=1; else q0=hnew.x[0][0]/hnew.x[1][0];
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if(hnew.x[1][1]==0) inf=1; else q1=hnew.x[0][1]/hnew.x[1][1];
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while(!inf && q0==q1) //ready to output
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{
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l.push_back(q0);
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//std::cout <<"out "<<q0<<std::endl;
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Homographic<T> hnew2;
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hnew2.x[0][0]=hnew.x[1][0];
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hnew2.x[0][1]=hnew.x[1][1];
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hnew2.x[1][0]=hnew.x[0][0]-hnew.x[1][0]*q0;
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hnew2.x[1][1]=hnew.x[0][1]-hnew.x[1][1]*q0;
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//std::cout<<"hnew2\n"<< hnew2.x[0][0]<<" "<< hnew2.x[0][1]<<"\n"<< hnew2.x[1][0]<<" "<< hnew2.x[1][1]<<"\n";
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hnew=hnew2;
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inf=0;
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if(hnew.x[1][0]==0) inf=1; else q0=hnew.x[0][0]/hnew.x[1][0];
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if(hnew.x[1][1]==0) inf=1; else q1=hnew.x[0][1]/hnew.x[1][1];
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}
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//termination
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if(hnew.x[1][0]==0&&hnew.x[1][1]==0) //terminate
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{
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//std::cout<<"terminate at "<<i<<"\n";
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if(i<=x.length()) laerror("unexpected termination in Homographic::value");
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break;
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}
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h=hnew;
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}
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//std::cout <<"size= "<<l.size()<<std::endl;
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return ContFrac<T>(l);
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}
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/***************************************************************************//**
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* forced instantization in the corresponding object file
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******************************************************************************/
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@ -142,6 +204,22 @@ template class ContFrac<unsigned long>;
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template class ContFrac<long long>;
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template class ContFrac<unsigned long long>;
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template class Homographic<int>;
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template class Homographic<unsigned int>;
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template class Homographic<long>;
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template class Homographic<unsigned long>;
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template class Homographic<long long>;
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template class Homographic<unsigned long long>;
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template class BiHomographic<int>;
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template class BiHomographic<unsigned int>;
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template class BiHomographic<long>;
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template class BiHomographic<unsigned long>;
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template class BiHomographic<long long>;
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template class BiHomographic<unsigned long long>;
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#define INSTANTIZE(T) \
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55
contfrac.h
55
contfrac.h
@ -29,7 +29,12 @@ namespace LA {
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//NOTE: 0 on any position >0 means actually infinity; simplify() shortens the vector
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//presently implements just conversion to/from rationals and floats
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//maybe implement arithmetic by Gosper's method cf. https://perl.plover.com/classes/cftalk/TALK
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//
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template <typename T>
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class ContFrac;
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//@@@basic rational arithmetics
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template <typename T>
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class Rational {
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public:
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@ -37,8 +42,26 @@ public:
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T den;
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Rational(const T p, const T q) : num(p),den(q) {};
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explicit Rational(const T (&a)[2]) :num(a[0]), den(a[1]) {};
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Rational(const ContFrac<T> &cf) {cf.convergent(&num,&den);};
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};
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template <typename T>
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std::ostream & operator<<(std::ostream &s, const Rational<T> &x)
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{
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s<<x.num<<"/"<<x.den;
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return s;
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}
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template <typename T>
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class Homographic;
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template <typename T>
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class BiHomographic;
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//@@@implement iterator and rewrite Homographic<T>::value
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template <typename T>
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class ContFrac : public NRVec<T> {
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private:
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@ -50,7 +73,7 @@ public:
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ContFrac(const int n) : NRVec<T>(n+1) {};
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ContFrac(double x, const int n, const T thres=0); //might yield a non-canonical form
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ContFrac(const T p, const T q); //should yield a canonical form
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ContFrac(const Rational<T> r) : ContFrac(r.num,r.den) {};
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ContFrac(const Rational<T> &r) : ContFrac(r.num,r.den) {};
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void canonicalize();
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void convergent(T *p, T*q, const int trunc= -1) const;
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@ -65,6 +88,36 @@ public:
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if(preserve) for(int i=nold+1; i<=n;++i) (*this)[i]=0;
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}
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ContFrac operator+(const Rational<T> &rhs) const {Homographic<T> h({{rhs.num,rhs.den},{rhs.den,0}}); return h.value(*this);};
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ContFrac operator-(const Rational<T> &rhs) const {Homographic<T> h({{-rhs.num,rhs.den},{rhs.den,0}}); return h.value(*this);};
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ContFrac operator*(const Rational<T> &rhs) const {Homographic<T> h({{0,rhs.num},{rhs.den,0}}); return h.value(*this);};
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ContFrac operator/(const Rational<T> &rhs) const {Homographic<T> h({{0,rhs.den},{rhs.num,0}}); return h.value(*this);};
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};
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//for Gosper's arithmetic
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template <typename T>
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class Homographic {
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public:
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T x[2][2]; //{{a,b},{c,d}} for (a+b.z)/(c+d.z)
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Homographic(){};
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explicit Homographic(const T (&a)[2][2]) {memcpy(x,a,2*2*sizeof(T));};
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ContFrac<T> value(const ContFrac<T>&x) const;
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};
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template <typename T>
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class BiHomographic {
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public:
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T x[2][2][2];
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BiHomographic(){};
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explicit BiHomographic(const T (&a)[2][2][2]) {memcpy(x,a,2*2*2*sizeof(T));};
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ContFrac<T> value(const ContFrac<T>&x, const ContFrac<T>&y) const;
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};
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#include "permutation.h"
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#include <stdio.h>
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#include <string.h>
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#include <list>
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namespace LA {
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12
t.cc
12
t.cc
@ -2431,7 +2431,7 @@ NRMat<double> mm=m.permuted_rows(p);
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cout <<mm;
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}
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if(1)
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if(0)
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{
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double x;
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cin >>x;
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@ -2463,5 +2463,15 @@ double zzz=zz.value();
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cout <<z<<" "<<zzz<<endl;
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}
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if(1)
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{
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Rational<int> r({11,101});
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ContFrac<int> x(r);
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ContFrac<int> y= x+Rational<int>({2,3});
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cout<<Rational<int>(y)<<endl;
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ContFrac<int> z= x*Rational<int>({2,3});
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cout<<Rational<int>(z)<<endl;
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}
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}
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