* Implementation of GiNaC's sums of expressions. */
/*
- * GiNaC Copyright (C) 1999-2005 Johannes Gutenberg University Mainz, Germany
+ * GiNaC Copyright (C) 1999-2007 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
#include <iostream>
#include <stdexcept>
+#include <limits>
+#include <string>
#include "add.h"
#include "mul.h"
add::add()
{
- tinfo_key = TINFO_add;
+ tinfo_key = &add::tinfo_static;
}
//////////
add::add(const ex & lh, const ex & rh)
{
- tinfo_key = TINFO_add;
+ tinfo_key = &add::tinfo_static;
overall_coeff = _ex0;
construct_from_2_ex(lh,rh);
GINAC_ASSERT(is_canonical());
add::add(const exvector & v)
{
- tinfo_key = TINFO_add;
+ tinfo_key = &add::tinfo_static;
overall_coeff = _ex0;
construct_from_exvector(v);
GINAC_ASSERT(is_canonical());
add::add(const epvector & v)
{
- tinfo_key = TINFO_add;
+ tinfo_key = &add::tinfo_static;
overall_coeff = _ex0;
construct_from_epvector(v);
GINAC_ASSERT(is_canonical());
add::add(const epvector & v, const ex & oc)
{
- tinfo_key = TINFO_add;
+ tinfo_key = &add::tinfo_static;
overall_coeff = oc;
construct_from_epvector(v);
GINAC_ASSERT(is_canonical());
add::add(std::auto_ptr<epvector> vp, const ex & oc)
{
- tinfo_key = TINFO_add;
+ tinfo_key = &add::tinfo_static;
GINAC_ASSERT(vp.get()!=0);
overall_coeff = oc;
construct_from_epvector(*vp);
if (coeff.csgn() == -1) c.s << '-';
first = false;
}
- if (!coeff.is_equal(_num1) &&
- !coeff.is_equal(_num_1)) {
+ if (!coeff.is_equal(*_num1_p) &&
+ !coeff.is_equal(*_num_1_p)) {
if (coeff.is_rational()) {
if (coeff.is_negative())
(-coeff).print(c);
if (precedence() <= level)
c.s << "(";
- // Print arguments, separated by "+"
+ // Print arguments, separated by "+" or "-"
epvector::const_iterator it = seq.begin(), itend = seq.end();
+ char separator = ' ';
while (it != itend) {
- // If the coefficient is -1, it is replaced by a single minus sign
- if (it->coeff.is_equal(_ex1)) {
+ // If the coefficient is negative, separator is "-"
+ if (it->coeff.is_equal(_ex_1) ||
+ ex_to<numeric>(it->coeff).numer().is_equal(*_num_1_p))
+ separator = '-';
+ c.s << separator;
+ if (it->coeff.is_equal(_ex1) || it->coeff.is_equal(_ex_1)) {
it->rest.print(c, precedence());
- } else if (it->coeff.is_equal(_ex_1)) {
- c.s << "-";
+ } else if (ex_to<numeric>(it->coeff).numer().is_equal(*_num1_p) ||
+ ex_to<numeric>(it->coeff).numer().is_equal(*_num_1_p))
+ {
it->rest.print(c, precedence());
- } else if (ex_to<numeric>(it->coeff).numer().is_equal(_num1)) {
- it->rest.print(c, precedence());
- c.s << "/";
- ex_to<numeric>(it->coeff).denom().print(c, precedence());
- } else if (ex_to<numeric>(it->coeff).numer().is_equal(_num_1)) {
- c.s << "-";
- it->rest.print(c, precedence());
- c.s << "/";
+ c.s << '/';
ex_to<numeric>(it->coeff).denom().print(c, precedence());
} else {
it->coeff.print(c, precedence());
- c.s << "*";
+ c.s << '*';
it->rest.print(c, precedence());
}
- // Separator is "+", except if the following expression would have a leading minus sign or the sign is sitting in parenthesis (as in a ctor)
++it;
- if (it != itend
- && (is_a<print_csrc_cl_N>(c) || !it->coeff.info(info_flags::real) // sign inside ctor arguments
- || !(it->coeff.info(info_flags::negative) || (it->coeff.is_equal(_num1) && is_exactly_a<numeric>(it->rest) && it->rest.info(info_flags::negative)))))
- c.s << "+";
+ separator = '+';
}
if (!overall_coeff.is_zero()) {
int add::degree(const ex & s) const
{
- int deg = INT_MIN;
+ int deg = std::numeric_limits<int>::min();
if (!overall_coeff.is_zero())
deg = 0;
int add::ldegree(const ex & s) const
{
- int deg = INT_MAX;
+ int deg = std::numeric_limits<int>::max();
if (!overall_coeff.is_zero())
deg = 0;
ex add::conjugate() const
{
exvector *v = 0;
- for (int i=0; i<nops(); ++i) {
+ for (size_t i=0; i<nops(); ++i) {
if (v) {
v->push_back(op(i).conjugate());
continue;
continue;
v = new exvector;
v->reserve(nops());
- for (int j=0; j<i; ++j)
+ for (size_t j=0; j<i; ++j)
v->push_back(op(j));
v->push_back(ccterm);
}
return *this;
}
+ex add::real_part() const
+{
+ epvector v;
+ v.reserve(seq.size());
+ for (epvector::const_iterator i=seq.begin(); i!=seq.end(); ++i)
+ if ((i->coeff).info(info_flags::real)) {
+ ex rp = (i->rest).real_part();
+ if (!rp.is_zero())
+ v.push_back(expair(rp, i->coeff));
+ } else {
+ ex rp=recombine_pair_to_ex(*i).real_part();
+ if (!rp.is_zero())
+ v.push_back(split_ex_to_pair(rp));
+ }
+ return (new add(v, overall_coeff.real_part()))
+ -> setflag(status_flags::dynallocated);
+}
+
+ex add::imag_part() const
+{
+ epvector v;
+ v.reserve(seq.size());
+ for (epvector::const_iterator i=seq.begin(); i!=seq.end(); ++i)
+ if ((i->coeff).info(info_flags::real)) {
+ ex ip = (i->rest).imag_part();
+ if (!ip.is_zero())
+ v.push_back(expair(ip, i->coeff));
+ } else {
+ ex ip=recombine_pair_to_ex(*i).imag_part();
+ if (!ip.is_zero())
+ v.push_back(split_ex_to_pair(ip));
+ }
+ return (new add(v, overall_coeff.imag_part()))
+ -> setflag(status_flags::dynallocated);
+}
+
ex add::eval_ncmul(const exvector & v) const
{
if (seq.empty())
return seq.begin()->rest.return_type();
}
-unsigned add::return_type_tinfo() const
+tinfo_t add::return_type_tinfo() const
{
if (seq.empty())
- return tinfo_key;
+ return this;
else
return seq.begin()->rest.return_type_tinfo();
}
-ex add::thisexpairseq(const epvector & v, const ex & oc) const
+// Note: do_index_renaming is ignored because it makes no sense for an add.
+ex add::thisexpairseq(const epvector & v, const ex & oc, bool do_index_renaming) const
{
return (new add(v,oc))->setflag(status_flags::dynallocated);
}
-ex add::thisexpairseq(std::auto_ptr<epvector> vp, const ex & oc) const
+// Note: do_index_renaming is ignored because it makes no sense for an add.
+ex add::thisexpairseq(std::auto_ptr<epvector> vp, const ex & oc, bool do_index_renaming) const
{
return (new add(vp,oc))->setflag(status_flags::dynallocated);
}
GINAC_ASSERT(is_exactly_a<numeric>(c));
if (is_exactly_a<numeric>(p.rest)) {
- GINAC_ASSERT(ex_to<numeric>(p.coeff).is_equal(_num1)); // should be normalized
+ GINAC_ASSERT(ex_to<numeric>(p.coeff).is_equal(*_num1_p)); // should be normalized
return expair(ex_to<numeric>(p.rest).mul_dyn(ex_to<numeric>(c)),_ex1);
}
ex add::recombine_pair_to_ex(const expair & p) const
{
- if (ex_to<numeric>(p.coeff).is_equal(_num1))
+ if (ex_to<numeric>(p.coeff).is_equal(*_num1_p))
return p.rest;
else
return (new mul(p.rest,p.coeff))->setflag(status_flags::dynallocated);