125 lines
3.0 KiB
C++
125 lines
3.0 KiB
C++
/* $Id: monoms.h 148 2005-04-19 15:12:26Z kamenik $ */
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/* Copyright 2004, Ondra Kamenik */
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#ifndef MONOMS_H
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#define MONOMS_H
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#include <vector>
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#include <random>
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#include "int_sequence.hh"
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#include "gs_tensor.hh"
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#include "t_container.hh"
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#include "sparse_tensor.hh"
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#include "Vector.hh"
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class IntGenerator
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{
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int maxim{5};
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double probab{0.3};
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std::mt19937 mtgen;
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std::uniform_real_distribution<> dis;
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public:
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IntGenerator() = default;
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void init(int nf, int ny, int nv, int nw, int nu, int mx, double prob);
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int get();
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};
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extern IntGenerator intgen;
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class Monom : public IntSequence
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{
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public:
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Monom(int len); // generate a random monom
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Monom(int len, int item); // generate monom whose items are the given item
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double deriv(const IntSequence &vars) const;
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// this = this*m^ex (in monomial sense)
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void multiplyWith(int ex, const Monom &m);
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void print() const;
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};
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class Monom2Vector;
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class Monom1Vector
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{
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friend class Monom2Vector;
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int nx;
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int len;
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std::vector<Monom> x;
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public:
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Monom1Vector(int nxx, int l);
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~Monom1Vector() = default;
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void deriv(const IntSequence &c, Vector &out) const;
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FGSTensor *deriv(int dim) const;
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void print() const;
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};
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//class Monom3Vector;
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class Monom2Vector
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{
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int ny, nu;
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int len;
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std::vector<Monom> y, u;
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public:
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// generate random vector of monom two vector
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Monom2Vector(int nyy, int nuu, int l);
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// calculate g(x(y,u))
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Monom2Vector(const Monom1Vector &g, const Monom2Vector &xmon);
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~Monom2Vector() = default;
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void deriv(const Symmetry &s, const IntSequence &c, Vector &out) const;
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FGSTensor *deriv(const Symmetry &s) const;
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FGSContainer *deriv(int maxdim) const;
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void print() const;
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};
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class Monom4Vector
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{
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int len;
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int nx1, nx2, nx3, nx4;
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std::vector<Monom> x1, x2, x3, x4;
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public:
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/* random for g(y,u,sigma) */
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Monom4Vector(int l, int ny, int nu);
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/* random for G(y,u,u',sigma) */
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Monom4Vector(int l, int ny, int nu, int nup);
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/* random for f(y+,y,y-,u) */
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Monom4Vector(int l, int nbigg, int ng, int ny, int nu);
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/* substitution f(G(y,u,u',sigma),g(y,u,sigma),y,u) */
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Monom4Vector(const Monom4Vector &f, const Monom4Vector &bigg,
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const Monom4Vector &g);
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~Monom4Vector() = default;
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FSSparseTensor *deriv(int dim) const;
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FGSTensor *deriv(const Symmetry &s) const;
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void deriv(const Symmetry &s, const IntSequence &coor, Vector &out) const;
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void print() const;
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protected:
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void init_random();
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};
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struct SparseDerivGenerator
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{
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int maxdimen;
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FGSContainer bigg;
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FGSContainer g;
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FGSContainer rcont;
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FSSparseTensor **const ts;
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SparseDerivGenerator(int nf, int ny, int nu, int nup, int nbigg, int ng,
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int mx, double prob, int maxdim);
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~SparseDerivGenerator();
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};
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struct DenseDerivGenerator
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{
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int maxdimen;
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FGSContainer *xcont;
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FGSContainer *rcont;
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FGSTensor **const ts;
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UGSContainer *uxcont;
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UGSTensor **const uts;
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DenseDerivGenerator(int ng, int nx, int ny, int nu,
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int mx, double prob, int maxdim);
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void unfold();
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~DenseDerivGenerator();
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};
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#endif
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