* Interface to sequences of expression pairs. */
/*
- * GiNaC Copyright (C) 1999 Johannes Gutenberg University Mainz, Germany
+ * GiNaC Copyright (C) 1999-2015 Johannes Gutenberg University Mainz, Germany
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
-#ifndef __GINAC_EXPAIRSEQ_H__
-#define __GINAC_EXPAIRSEQ_H__
+#ifndef GINAC_EXPAIRSEQ_H
+#define GINAC_EXPAIRSEQ_H
-#include <vector>
-#include <list>
-
-// CINT needs <algorithm> to work properly with <vector> and <list>
-//#include <algorithm>
+#include "expair.h"
+#include "indexed.h"
-#include <ginac/expair.h>
+#include <vector>
-#ifndef NO_GINAC_NAMESPACE
namespace GiNaC {
-#endif // ndef NO_GINAC_NAMESPACE
-//#define EXPAIRSEQ_USE_HASHTAB
+typedef std::vector<expair> epvector; ///< expair-vector
+typedef epvector::iterator epp; ///< expair-vector pointer
-typedef vector<expair> epvector;
-typedef epvector::iterator epviter;
-
-inline void iter_swap(epvector::iterator it1, epvector::iterator it2)
-{
- (*it1).rest.swap((*it2).rest);
- (*it1).coeff.swap((*it2).coeff);
-}
-
-typedef epvector::iterator epp;
-typedef list<epp> epplist;
-typedef vector<epplist> epplistvector;
+/** Complex conjugate every element of an epvector. Returns zero if this
+ * does not change anything. */
+epvector* conjugateepvector(const epvector&);
/** A sequence of class expair.
* This is used for time-critical classes like sums and products of terms
* since handling a list of coeff and rest is much faster than handling a
- * list of products or powers, respectively. (Incidentally, Maple does it
- * the same way.) */
+ * list of products or powers, respectively. (Not incidentally, Maple does it
+ * the same way, maybe others too.) The semantics is (at least) twofold:
+ * one for addition and one for multiplication and several methods have to
+ * be overridden by derived classes to reflect the change in semantics.
+ * However, most functionality turns out to be shared between addition and
+ * multiplication, which is the reason why there is this base class. */
class expairseq : public basic
{
-// member functions
-
- // default constructor, destructor, copy constructor assignment operator and helpers
-public:
- expairseq() : basic(TINFO_expairseq)
-#ifdef EXPAIRSEQ_USE_HASHTAB
- , hashtabsize(0)
-#endif // def EXPAIRSEQ_USE_HASHTAB
- {
- }
- ~expairseq()
- {
- destroy(0);
- }
- expairseq(expairseq const & other);
- expairseq const & operator=(expairseq const & other);
-protected:
- void copy(expairseq const & other);
- void destroy(bool call_parent)
- {
- if (call_parent) basic::destroy(call_parent);
- };
+ GINAC_DECLARE_REGISTERED_CLASS(expairseq, basic)
- // other constructors
+ // other constructors
public:
- expairseq(ex const & lh, ex const & rh);
- expairseq(exvector const & v);
- expairseq(epvector const & v, ex const & oc);
- expairseq(epvector * vp, ex const & oc); // vp will be deleted
-
- // functions overriding virtual functions from bases classes
+ expairseq(const ex & lh, const ex & rh);
+ expairseq(const exvector & v);
+ expairseq(const epvector & v, const ex & oc, bool do_index_renaming = false);
+ expairseq(epvector && vp, const ex & oc, bool do_index_renaming = false);
+
+ // functions overriding virtual functions from base classes
public:
- basic * duplicate() const;
- void print(ostream & os, unsigned upper_precedence=0) const;
- void printraw(ostream & os) const;
- void printtree(ostream & os, unsigned indent) const;
- bool info(unsigned inf) const;
- int nops() const;
- ex op(int const i) const;
- ex & let_op(int const i);
- ex eval(int level=0) const;
- ex evalf(int level=0) const;
- ex normal(lst &sym_lst, lst &repl_lst, int level=0) const;
- ex diff(symbol const & s) const;
- ex subs(lst const & ls, lst const & lr) const;
+ unsigned precedence() const override {return 10;}
+ bool info(unsigned inf) const override;
+ size_t nops() const override;
+ ex op(size_t i) const override;
+ ex map(map_function & f) const override;
+ ex eval(int level=0) const override;
+ ex to_rational(exmap & repl) const override;
+ ex to_polynomial(exmap & repl) const override;
+ bool match(const ex & pattern, exmap& repl_lst) const override;
+ ex subs(const exmap & m, unsigned options = 0) const override;
+ ex conjugate() const override;
+
+ void archive(archive_node& n) const override;
+ void read_archive(const archive_node& n, lst& syms) override;
protected:
- int compare_same_type(basic const & other) const;
- bool is_equal_same_type(basic const & other) const;
- unsigned return_type(void) const;
- unsigned calchash(void) const;
- ex expand(unsigned options=0) const;
-
- // new virtual functions which can be overridden by derived classes
+ bool is_equal_same_type(const basic & other) const override;
+ unsigned return_type() const override;
+ unsigned calchash() const override;
+ ex expand(unsigned options=0) const override;
+
+ // new virtual functions which can be overridden by derived classes
protected:
- virtual ex thisexpairseq(epvector const & v, ex const & oc) const;
- virtual ex thisexpairseq(epvector * vp, ex const & oc) const;
- virtual void printseq(ostream & os, char delim, unsigned this_precedence,
- unsigned upper_precedence) const;
- virtual void printpair(ostream & os, expair const & p,
- unsigned upper_precedence) const;
- virtual expair split_ex_to_pair(ex const & e) const;
- virtual expair combine_ex_with_coeff_to_pair(ex const & e,
- ex const & c) const;
- virtual expair combine_pair_with_coeff_to_pair(expair const & p,
- ex const & c) const;
- virtual ex recombine_pair_to_ex(expair const & p) const;
- virtual bool expair_needs_further_processing(epp it);
- virtual ex default_overall_coeff(void) const;
- virtual void combine_overall_coeff(ex const & c);
- virtual void combine_overall_coeff(ex const & c1, ex const & c2);
- virtual bool can_make_flat(expair const & p) const;
-
- // non-virtual functions in this class
+ virtual ex thisexpairseq(const epvector & v, const ex & oc, bool do_index_renaming = false) const;
+ virtual ex thisexpairseq(epvector && vp, const ex & oc, bool do_index_renaming = false) const;
+ virtual void printseq(const print_context & c, char delim,
+ unsigned this_precedence,
+ unsigned upper_precedence) const;
+ virtual void printpair(const print_context & c, const expair & p,
+ unsigned upper_precedence) const;
+ virtual expair split_ex_to_pair(const ex & e) const;
+ virtual expair combine_ex_with_coeff_to_pair(const ex & e,
+ const ex & c) const;
+ virtual expair combine_pair_with_coeff_to_pair(const expair & p,
+ const ex & c) const;
+ virtual ex recombine_pair_to_ex(const expair & p) const;
+ virtual bool expair_needs_further_processing(epp it);
+ virtual ex default_overall_coeff() const;
+ virtual void combine_overall_coeff(const ex & c);
+ virtual void combine_overall_coeff(const ex & c1, const ex & c2);
+ virtual bool can_make_flat(const expair & p) const;
+
+ // non-virtual functions in this class
protected:
- void construct_from_2_ex_via_exvector(ex const & lh, ex const & rh);
- void construct_from_2_ex(ex const & lh, ex const & rh);
- void construct_from_2_expairseq(expairseq const & s1,
- expairseq const & s2);
- void construct_from_expairseq_ex(expairseq const & s,
- ex const & e);
- void construct_from_exvector(exvector const & v);
- void construct_from_epvector(epvector const & v);
- void make_flat(exvector const & v);
- void make_flat(epvector const & v);
- epvector * bubblesort(epvector::iterator itbegin, epvector::iterator itend);
- epvector * mergesort(epvector::iterator itbegin, epvector::iterator itend);
- void canonicalize(void);
- void combine_same_terms_sorted_seq(void);
-#ifdef EXPAIRSEQ_USE_HASHTAB
- void combine_same_terms(void);
- unsigned calc_hashtabsize(unsigned sz) const;
- unsigned calc_hashindex(ex const & e) const;
- void shrink_hashtab(void);
- void remove_hashtab_entry(epvector::const_iterator element);
- void move_hashtab_entry(epvector::const_iterator oldpos,
- epvector::iterator newpos);
- void sorted_insert(epplist & eppl, epp elem);
- void build_hashtab_and_combine(epvector::iterator & first_numeric,
- epvector::iterator & last_non_zero,
- vector<bool> & touched,
- unsigned & number_of_zeroes);
- void drop_coeff_0_terms(epvector::iterator & first_numeric,
- epvector::iterator & last_non_zero,
- vector<bool> & touched,
- unsigned & number_of_zeroes);
- bool has_coeff_0(void) const;
- void add_numerics_to_hashtab(epvector::iterator first_numeric, epvector::const_iterator last_non_zero);
-#endif // def EXPAIRSEQ_USE_HASHTAB
- bool is_canonical() const;
- epvector * expandchildren(unsigned options) const;
- epvector * evalchildren(int level) const;
- epvector evalfchildren(int level) const;
- epvector normalchildren(int level) const;
- epvector diffchildren(symbol const & s) const;
- epvector * subschildren(lst const & ls, lst const & lr) const;
-
+ void do_print(const print_context & c, unsigned level) const;
+ void do_print_tree(const print_tree & c, unsigned level) const;
+ void construct_from_2_ex_via_exvector(const ex & lh, const ex & rh);
+ void construct_from_2_ex(const ex & lh, const ex & rh);
+ void construct_from_2_expairseq(const expairseq & s1,
+ const expairseq & s2);
+ void construct_from_expairseq_ex(const expairseq & s,
+ const ex & e);
+ void construct_from_exvector(const exvector & v);
+ void construct_from_epvector(const epvector & v, bool do_index_renaming = false);
+ void construct_from_epvector(epvector && v, bool do_index_renaming = false);
+ void make_flat(const exvector & v);
+ void make_flat(const epvector & v, bool do_index_renaming = false);
+ void canonicalize();
+ void combine_same_terms_sorted_seq();
+ bool is_canonical() const;
+ epvector expandchildren(unsigned options) const;
+ epvector evalchildren(int level) const;
+ epvector subschildren(const exmap & m, unsigned options = 0) const;
+
// member variables
-
+
protected:
- epvector seq;
- ex overall_coeff;
- static unsigned precedence;
-#ifdef EXPAIRSEQ_USE_HASHTAB
- epplistvector hashtab;
- unsigned hashtabsize;
- unsigned hashmask;
- static unsigned maxhashtabsize;
- static unsigned minhashtabsize;
- static unsigned hashtabfactor;
-#endif // def EXPAIRSEQ_USE_HASHTAB
+ epvector seq;
+ ex overall_coeff;
};
-// global constants
-
-extern const expairseq some_expairseq;
-extern type_info const & typeid_expairseq;
-
-// utility functions
-inline const expairseq &ex_to_expairseq(const ex &e)
+/** Class to handle the renaming of dummy indices. It holds a vector of
+ * indices that are being used in the expression so far. If the same
+ * index occurs again as a dummy index in a factor, it is to be renamed.
+ * Unless dummy index renaming was switched off, of course ;-) . */
+class make_flat_inserter
{
- return static_cast<const expairseq &>(*e.bp);
-}
+ public:
+ make_flat_inserter(const epvector &epv, bool b): do_renaming(b)
+ {
+ if (!do_renaming)
+ return;
+ for (epvector::const_iterator i=epv.begin(); i!=epv.end(); ++i)
+ if(are_ex_trivially_equal(i->coeff, 1))
+ combine_indices(i->rest.get_free_indices());
+ }
+ make_flat_inserter(const exvector &v, bool b): do_renaming(b)
+ {
+ if (!do_renaming)
+ return;
+ for (exvector::const_iterator i=v.begin(); i!=v.end(); ++i)
+ combine_indices(i->get_free_indices());
+ }
+ ex handle_factor(const ex &x, const ex &coeff)
+ {
+ if (!do_renaming)
+ return x;
+ exvector dummies_of_factor;
+ if (is_a<numeric>(coeff) && coeff.is_equal(GiNaC::numeric(1)))
+ dummies_of_factor = get_all_dummy_indices_safely(x);
+ else if (is_a<numeric>(coeff) && coeff.is_equal(GiNaC::numeric(2)))
+ dummies_of_factor = x.get_free_indices();
+ else
+ return x;
+ if (dummies_of_factor.size() == 0)
+ return x;
+ sort(dummies_of_factor.begin(), dummies_of_factor.end(), ex_is_less());
+ ex new_factor = rename_dummy_indices_uniquely(used_indices,
+ dummies_of_factor, x);
+ combine_indices(dummies_of_factor);
+ return new_factor;
+ }
+ private:
+ void combine_indices(const exvector &dummies_of_factor)
+ {
+ exvector new_dummy_indices;
+ set_union(used_indices.begin(), used_indices.end(),
+ dummies_of_factor.begin(), dummies_of_factor.end(),
+ std::back_insert_iterator<exvector>(new_dummy_indices), ex_is_less());
+ used_indices.swap(new_dummy_indices);
+ }
+ bool do_renaming;
+ exvector used_indices;
+};
-#ifndef NO_GINAC_NAMESPACE
} // namespace GiNaC
-#endif // ndef NO_GINAC_NAMESPACE
-#endif // ndef __GINAC_EXPAIRSEQ_H__
+#endif // ndef GINAC_EXPAIRSEQ_H