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contructors from braced list for permutations and polynomials

This commit is contained in:
Jiri Pittner 2021-10-28 20:44:05 +02:00
parent d96531f340
commit 9c6ab037cf
5 changed files with 21 additions and 0 deletions
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1
mat.h
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@ -1325,6 +1325,7 @@ template<typename T>
class NRMat_from1 : public NRMat<T> { class NRMat_from1 : public NRMat<T> {
public: public:
NRMat_from1(): NRMat<T>() {}; NRMat_from1(): NRMat<T>() {};
template<int R, int C> explicit NRMat_from1(const T (&a)[R][C]) : NRMat<T>(a) {};
explicit NRMat_from1(const int n): NRMat<T>(n) {}; explicit NRMat_from1(const int n): NRMat<T>(n) {};
explicit NRMat_from1(const NRSMat_from1<T> &rhs) : NRMat<T>(rhs) {}; explicit NRMat_from1(const NRSMat_from1<T> &rhs) : NRMat<T>(rhs) {};
NRMat_from1(const NRMat<T> &rhs): NRMat<T>(rhs) {};//!< be able to convert the parent class transparently to this NRMat_from1(const NRMat<T> &rhs): NRMat<T>(rhs) {};//!< be able to convert the parent class transparently to this

7
permutation.h
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@ -41,6 +41,7 @@ class NRPerm : public NRVec_from1<T> {
public: public:
//basic constructors //basic constructors
NRPerm(): NRVec_from1<T>() {}; NRPerm(): NRVec_from1<T>() {};
template<int SIZE> explicit NRPerm(const T (&a)[SIZE]) : NRVec_from1<T>(a) {};
NRPerm(const int n) : NRVec_from1<T>(n) {}; NRPerm(const int n) : NRVec_from1<T>(n) {};
NRPerm(const NRVec_from1<T> &rhs): NRVec_from1<T>(rhs) {}; NRPerm(const NRVec_from1<T> &rhs): NRVec_from1<T>(rhs) {};
NRPerm(const T *a, const int n): NRVec_from1<T>(a, n) {}; NRPerm(const T *a, const int n): NRVec_from1<T>(a, n) {};
@ -74,6 +75,8 @@ template <typename T>
class CyclePerm : public NRVec_from1<NRVec_from1<T> > { class CyclePerm : public NRVec_from1<NRVec_from1<T> > {
public: public:
CyclePerm() : NRVec_from1<NRVec_from1<T> >() {}; CyclePerm() : NRVec_from1<NRVec_from1<T> >() {};
template<int SIZE> explicit CyclePerm(const NRVec_from1<T> (&a)[SIZE]) : NRVec_from1<NRVec_from1<T> >(a) {};
//NOTE - how to do it so that direct nested brace initializer would work?
explicit CyclePerm(const NRPerm<T> &rhs); explicit CyclePerm(const NRPerm<T> &rhs);
bool is_valid() const; //is it really a permutation bool is_valid() const; //is it really a permutation
@ -132,6 +135,7 @@ template <typename T>
class CompressedPartition : public NRVec_from1<T> { class CompressedPartition : public NRVec_from1<T> {
public: public:
CompressedPartition(): NRVec_from1<T>() {}; CompressedPartition(): NRVec_from1<T>() {};
template<int SIZE> explicit CompressedPartition(const T (&a)[SIZE]) : NRVec_from1<T>(a) {};
CompressedPartition(const int n) : NRVec_from1<T>(n) {}; CompressedPartition(const int n) : NRVec_from1<T>(n) {};
T sum() const {T s=0; for(int i=1; i<=this->size(); ++i) s += i*(*this)[i]; return s;} T sum() const {T s=0; for(int i=1; i<=this->size(); ++i) s += i*(*this)[i]; return s;}
T nparts() const {T s=0; for(int i=1; i<=this->size(); ++i) s += (*this)[i]; return s;} T nparts() const {T s=0; for(int i=1; i<=this->size(); ++i) s += (*this)[i]; return s;}
@ -151,6 +155,7 @@ template <typename T>
class Partition : public NRVec_from1<T> { class Partition : public NRVec_from1<T> {
public: public:
Partition(): NRVec_from1<T>() {}; Partition(): NRVec_from1<T>() {};
template<int SIZE> explicit Partition(const T (&a)[SIZE]) : NRVec_from1<T>(a) {};
Partition(const int n) : NRVec_from1<T>(n) {}; Partition(const int n) : NRVec_from1<T>(n) {};
T nparts() const {T s=0; for(int i=1; i<=this->size(); ++i) if((*this)[i]) ++s; return s;} T nparts() const {T s=0; for(int i=1; i<=this->size(); ++i) if((*this)[i]) ++s; return s;}
bool is_valid() const {if(this->size() != this->sum()) return false; for(int i=2; i<=this->size(); ++i) if((*this)[i]>(*this)[i-1]) return false; return true; } bool is_valid() const {if(this->size() != this->sum()) return false; for(int i=2; i<=this->size(); ++i) if((*this)[i]>(*this)[i-1]) return false; return true; }
@ -179,6 +184,8 @@ class YoungTableaux : public NRVec_from1<NRVec_from1<T> > {
public: public:
YoungTableaux() : NRVec_from1<NRVec_from1<T> >() {}; YoungTableaux() : NRVec_from1<NRVec_from1<T> >() {};
explicit YoungTableaux(const Partition<T> &frame); explicit YoungTableaux(const Partition<T> &frame);
template<int SIZE> explicit YoungTableaux(const NRVec_from1<T> (&a)[SIZE]) : NRVec_from1<NRVec_from1<T> >(a) {};
//NOTE - how to do it so that direct nested brace initializer would work?
bool is_valid() const; //check whether its shape forms a partition bool is_valid() const; //check whether its shape forms a partition
int nrows() const {return this->size();} int nrows() const {return this->size();}

1
polynomial.h
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@ -32,6 +32,7 @@ template <typename T>
class Polynomial : public NRVec<T> { class Polynomial : public NRVec<T> {
public: public:
Polynomial(): NRVec<T>() {}; Polynomial(): NRVec<T>() {};
template<int SIZE> Polynomial(const T (&a)[SIZE]) : NRVec<T>(a) {};
Polynomial(const NRVec<T> &v) : NRVec<T>(v) {}; //allow implicit conversion from NRVec Polynomial(const NRVec<T> &v) : NRVec<T>(v) {}; //allow implicit conversion from NRVec
Polynomial(const int n) : NRVec<T>(n+1) {}; Polynomial(const int n) : NRVec<T>(n+1) {};
Polynomial(const T &a, const int n) : NRVec<T>(n+1) {NRVec<T>::clear(); (*this)[0]=a;}; Polynomial(const T &a, const int n) : NRVec<T>(n+1) {NRVec<T>::clear(); (*this)[0]=a;};

11
t.cc
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@ -23,6 +23,7 @@
#include "vecmat3.h" #include "vecmat3.h"
#include "quaternion.h" #include "quaternion.h"
#include "permutation.h" #include "permutation.h"
#include "polynomial.h"
using namespace std; using namespace std;
using namespace LA_Vecmat3; using namespace LA_Vecmat3;
@ -2298,16 +2299,26 @@ if(1)
{ {
NRVec<int> v({1,2,3,4}); NRVec<int> v({1,2,3,4});
cout <<v; cout <<v;
NRVec_from1<int> vv({1,2});
cout <<vv;
v.resize(0); v.resize(0);
cout<<v; cout<<v;
NRMat<int> m({{1,2,3},{4,5,6}}); NRMat<int> m({{1,2,3},{4,5,6}});
cout<<m; cout<<m;
NRMat_from1<int> mm({{1,2,3},{4,5,6}});
cout<<mm;
Vec3<double> x({1,2,3}); Vec3<double> x({1,2,3});
cout<<x<<endl; cout<<x<<endl;
Mat3<double> y({{1,2,3},{4,5,6},{7,8,9}}); Mat3<double> y({{1,2,3},{4,5,6},{7,8,9}});
cout <<y<<endl; cout <<y<<endl;
Quaternion<double> q({1,2,3,4}); Quaternion<double> q({1,2,3,4});
cout<<q<<endl; cout<<q<<endl;
NRPerm<int> p({1,4,2,3});
cout <<p<<endl;
CyclePerm<int> c({NRVec_from1({1,2}),NRVec_from1({3,4,5})});
cout <<c;
Polynomial<double> pp({1,2,3,4,5});
cout<<pp;
} }

1
vec.h
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@ -441,6 +441,7 @@ template<typename T>
class NRVec_from1 : public NRVec<T> { class NRVec_from1 : public NRVec<T> {
public: public:
NRVec_from1(): NRVec<T>() {}; NRVec_from1(): NRVec<T>() {};
template<int SIZE> NRVec_from1(const T (&a)[SIZE]) : NRVec<T>(a) {};
explicit NRVec_from1(const int n): NRVec<T>(n) {}; explicit NRVec_from1(const int n): NRVec<T>(n) {};
NRVec_from1(const NRVec<T> &rhs): NRVec<T>(rhs) {};//!< be able to convert the parent class transparently to this NRVec_from1(const NRVec<T> &rhs): NRVec<T>(rhs) {};//!< be able to convert the parent class transparently to this
NRVec_from1(const T &a, const int n): NRVec<T>(a, n) {}; NRVec_from1(const T &a, const int n): NRVec<T>(a, n) {};