* Implementation of GiNaC's symbolic objects. */
/*
- * GiNaC Copyright (C) 1999-2003 Johannes Gutenberg University Mainz, Germany
+ * GiNaC Copyright (C) 1999-2006 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
*/
#include <string>
#include "archive.h"
#include "tostring.h"
#include "utils.h"
+#include "inifcns.h"
namespace GiNaC {
// default constructor
//////////
+// symbol
+
symbol::symbol()
- : inherited(TINFO_symbol), asexinfop(new assigned_ex_info), serial(next_serial++), name(autoname_prefix() + ToString(serial)), TeX_name(name), ret_type(return_types::commutative), ret_type_tinfo(TINFO_symbol)
+ : inherited(&symbol::tinfo_static), asexinfop(new assigned_ex_info), serial(next_serial++), name(autoname_prefix() + ToString(serial)), TeX_name(name), ret_type(return_types::commutative), ret_type_tinfo(&symbol::tinfo_static), domain(domain::complex)
{
setflag(status_flags::evaluated | status_flags::expanded);
}
+// realsymbol
+
+realsymbol::realsymbol()
+{
+ domain = domain::real;
+}
+
+// possymbol
+
+possymbol::possymbol()
+{
+ domain = domain::positive;
+}
+
//////////
// other constructors
//////////
// public
-symbol::symbol(const std::string & initname)
- : inherited(TINFO_symbol), asexinfop(new assigned_ex_info), serial(next_serial++), name(initname), TeX_name(default_TeX_name()), ret_type(return_types::commutative), ret_type_tinfo(TINFO_symbol)
+// symbol
+
+symbol::symbol(const std::string & initname, unsigned domain)
+ : inherited(&symbol::tinfo_static), asexinfop(new assigned_ex_info), serial(next_serial++), name(initname), TeX_name(default_TeX_name()), ret_type(return_types::commutative), ret_type_tinfo(&symbol::tinfo_static), domain(domain)
{
setflag(status_flags::evaluated | status_flags::expanded);
}
-symbol::symbol(const std::string & initname, const std::string & texname)
- : inherited(TINFO_symbol), asexinfop(new assigned_ex_info), serial(next_serial++), name(initname), TeX_name(texname), ret_type(return_types::commutative), ret_type_tinfo(TINFO_symbol)
+symbol::symbol(const std::string & initname, unsigned rt, tinfo_t rtt, unsigned domain)
+ : inherited(&symbol::tinfo_static), asexinfop(new assigned_ex_info), serial(next_serial++), name(initname), TeX_name(default_TeX_name()), ret_type(rt), ret_type_tinfo(rtt), domain(domain)
{
setflag(status_flags::evaluated | status_flags::expanded);
}
-symbol::symbol(const std::string & initname, unsigned rt, unsigned rtt)
- : inherited(TINFO_symbol), asexinfop(new assigned_ex_info), serial(next_serial++), name(initname), TeX_name(default_TeX_name()), ret_type(rt), ret_type_tinfo(rtt)
+symbol::symbol(const std::string & initname, const std::string & texname, unsigned domain)
+ : inherited(&symbol::tinfo_static), asexinfop(new assigned_ex_info), serial(next_serial++), name(initname), TeX_name(texname), ret_type(return_types::commutative), ret_type_tinfo(&symbol::tinfo_static), domain(domain)
{
setflag(status_flags::evaluated | status_flags::expanded);
}
-symbol::symbol(const std::string & initname, const std::string & texname, unsigned rt, unsigned rtt)
- : inherited(TINFO_symbol), asexinfop(new assigned_ex_info), serial(next_serial++), name(initname), TeX_name(texname), ret_type(rt), ret_type_tinfo(rtt)
+symbol::symbol(const std::string & initname, const std::string & texname, unsigned rt, tinfo_t rtt, unsigned domain)
+ : inherited(&symbol::tinfo_static), asexinfop(new assigned_ex_info), serial(next_serial++), name(initname), TeX_name(texname), ret_type(rt), ret_type_tinfo(rtt), domain(domain)
{
setflag(status_flags::evaluated | status_flags::expanded);
}
+// realsymbol
+
+realsymbol::realsymbol(const std::string & initname, unsigned domain)
+ : symbol(initname, domain) { }
+
+realsymbol::realsymbol(const std::string & initname, const std::string & texname, unsigned domain)
+ : symbol(initname, texname, domain) { }
+
+realsymbol::realsymbol(const std::string & initname, unsigned rt, tinfo_t rtt, unsigned domain)
+ : symbol(initname, rt, rtt, domain) { }
+
+realsymbol::realsymbol(const std::string & initname, const std::string & texname, unsigned rt, tinfo_t rtt, unsigned domain)
+ : symbol(initname, texname, rt, rtt, domain) { }
+
+// possymbol
+
+possymbol::possymbol(const std::string & initname, unsigned domain)
+ : symbol(initname, domain) { }
+
+possymbol::possymbol(const std::string & initname, const std::string & texname, unsigned domain)
+ : symbol(initname, texname, domain) { }
+
+possymbol::possymbol(const std::string & initname, unsigned rt, tinfo_t rtt, unsigned domain)
+ : symbol(initname, rt, rtt, domain) { }
+
+possymbol::possymbol(const std::string & initname, const std::string & texname, unsigned rt, tinfo_t rtt, unsigned domain)
+ : symbol(initname, texname, rt, rtt, domain) { }
+
//////////
// archiving
//////////
/** Construct object from archive_node. */
symbol::symbol(const archive_node &n, lst &sym_lst)
- : inherited(n, sym_lst), asexinfop(new assigned_ex_info), serial(next_serial++), ret_type(return_types::commutative), ret_type_tinfo(TINFO_symbol)
+ : inherited(n, sym_lst), asexinfop(new assigned_ex_info), serial(next_serial++)
{
- if (!(n.find_string("name", name)))
+ if (!n.find_string("name", name))
name = autoname_prefix() + ToString(serial);
- if (!(n.find_string("TeXname", TeX_name)))
+ if (!n.find_string("TeXname", TeX_name))
TeX_name = default_TeX_name();
+ if (!n.find_unsigned("domain", domain))
+ domain = domain::complex;
if (!n.find_unsigned("return_type", ret_type))
ret_type = return_types::commutative;
- if (!n.find_unsigned("return_type_tinfo", ret_type_tinfo))
- ret_type_tinfo = TINFO_symbol;
setflag(status_flags::evaluated | status_flags::expanded);
}
n.add_string("name", name);
if (TeX_name != default_TeX_name())
n.add_string("TeX_name", TeX_name);
+ if (domain != domain::complex)
+ n.add_unsigned("domain", domain);
if (ret_type != return_types::commutative)
n.add_unsigned("return_type", ret_type);
- if (ret_type_tinfo != TINFO_symbol)
- n.add_unsigned("return_type_tinfo", ret_type_tinfo);
}
//////////
c.s << std::string(level, ' ') << name << " (" << class_name() << ")" << " @" << this
<< ", serial=" << serial
<< std::hex << ", hash=0x" << hashvalue << ", flags=0x" << flags << std::dec
+ << ", domain=" << domain
<< std::endl;
}
bool symbol::info(unsigned inf) const
{
- if (inf==info_flags::symbol) return true;
- if (inf==info_flags::polynomial ||
- inf==info_flags::integer_polynomial ||
- inf==info_flags::cinteger_polynomial ||
- inf==info_flags::rational_polynomial ||
- inf==info_flags::crational_polynomial ||
- inf==info_flags::rational_function)
+ if (inf == info_flags::symbol)
+ return true;
+ if (inf == info_flags::polynomial ||
+ inf == info_flags::integer_polynomial ||
+ inf == info_flags::cinteger_polynomial ||
+ inf == info_flags::rational_polynomial ||
+ inf == info_flags::crational_polynomial ||
+ inf == info_flags::rational_function)
return true;
+ if (inf == info_flags::real)
+ return domain==domain::real || domain==domain::positive;
+ if (inf == info_flags::nonnegative)
+ return domain == domain::positive;
else
return inherited::info(inf);
}
}
}
+ex symbol::conjugate() const
+{
+ if (this->domain == domain::complex) {
+ return conjugate_function(*this).hold();
+ } else {
+ return *this;
+ }
+}
+
+ex symbol::real_part() const
+{
+ if (domain==domain::real || domain==domain::positive)
+ return *this;
+ return real_part_function(*this).hold();
+}
+
+ex symbol::imag_part() const
+{
+ if (domain==domain::real || domain==domain::positive)
+ return 0;
+ return imag_part_function(*this).hold();
+}
+
+bool symbol::is_polynomial(const ex & var) const
+{
+ return true;
+}
+
// protected
/** Implementation of ex::diff() for single differentiation of a symbol.
unsigned symbol::calchash() const
{
- hashvalue = golden_ratio_hash(tinfo() ^ serial);
+ hashvalue = golden_ratio_hash((p_int)tinfo() ^ serial);
setflag(status_flags::hash_calculated);
return hashvalue;
}