- The default implementations of evalf(), diff(), normal() and expand() use

[ginac.git] / ginac / symbol.cpp

/** @file symbol.cpp
 *
 *  Implementation of GiNaC's symbolic objects. */

/*
 *  GiNaC Copyright (C) 1999-2001 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
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  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
 */

#include <string>
#include <stdexcept>

#include "symbol.h"
#include "lst.h"
#include "print.h"
#include "archive.h"
#include "debugmsg.h"
#include "utils.h"

namespace GiNaC {

GINAC_IMPLEMENT_REGISTERED_CLASS_NO_CTORS(symbol, basic)

//////////
// default ctor, dtor, copy ctor assignment operator and helpers
//////////

symbol::symbol() : inherited(TINFO_symbol), serial(next_serial++)
{
        debugmsg("symbol default ctor", LOGLEVEL_CONSTRUCT);
        name = TeX_name = autoname_prefix()+ToString(serial);
        asexinfop = new assigned_ex_info;
        setflag(status_flags::evaluated | status_flags::expanded);
}

/** For use by copy ctor and assignment operator. */
void symbol::copy(const symbol & other)
{
        inherited::copy(other);
        name = other.name;
        TeX_name = other.TeX_name;
        serial = other.serial;
        asexinfop = other.asexinfop;
        ++asexinfop->refcount;
}

void symbol::destroy(bool call_parent)
{
        if (--asexinfop->refcount == 0)
                delete asexinfop;
        if (call_parent)
                inherited::destroy(call_parent);
}

//////////
// other ctors
//////////

// public

symbol::symbol(const symbol & other)
{
        debugmsg("symbol copy ctor", LOGLEVEL_CONSTRUCT);
        copy(other);
}

symbol::symbol(const std::string & initname) : inherited(TINFO_symbol)
{
        debugmsg("symbol ctor from string", LOGLEVEL_CONSTRUCT);
        name = initname;
        TeX_name = default_TeX_name();
        serial = next_serial++;
        asexinfop = new assigned_ex_info;
        setflag(status_flags::evaluated | status_flags::expanded);
}

symbol::symbol(const std::string & initname, const std::string & texname) : inherited(TINFO_symbol)
{
        debugmsg("symbol ctor from string", LOGLEVEL_CONSTRUCT);
        name = initname;
        TeX_name = texname;
        serial = next_serial++;
        asexinfop = new assigned_ex_info;
        setflag(status_flags::evaluated | status_flags::expanded);
}

//////////
// archiving
//////////

/** Construct object from archive_node. */
symbol::symbol(const archive_node &n, const lst &sym_lst) : inherited(n, sym_lst)
{
        debugmsg("symbol ctor from archive_node", LOGLEVEL_CONSTRUCT);
        serial = next_serial++;
        if (!(n.find_string("name", name)))
                name = autoname_prefix() + ToString(serial);
        if (!(n.find_string("TeXname", TeX_name)))
                TeX_name = default_TeX_name();
        asexinfop = new assigned_ex_info;
        setflag(status_flags::evaluated);
}

/** Unarchive the object. */
ex symbol::unarchive(const archive_node &n, const lst &sym_lst)
{
        ex s = (new symbol(n, sym_lst))->setflag(status_flags::dynallocated);
        
        // If symbol is in sym_lst, return the existing symbol
        for (unsigned i=0; i<sym_lst.nops(); i++) {
                if (is_ex_of_type(sym_lst.op(i), symbol) && (ex_to<symbol>(sym_lst.op(i)).name == ex_to<symbol>(s).name))
                        return sym_lst.op(i);
        }
        return s;
}

/** Archive the object. */
void symbol::archive(archive_node &n) const
{
        inherited::archive(n);
        n.add_string("name", name);
        if (TeX_name != default_TeX_name())
                n.add_string("TeX_name", TeX_name);
}

//////////
// functions overriding virtual functions from bases classes
//////////

// public

basic *symbol::duplicate() const
{
        debugmsg("symbol duplicate", LOGLEVEL_DUPLICATE);
        return new symbol(*this);
}

void symbol::print(const print_context & c, unsigned level) const
{
        debugmsg("symbol print", LOGLEVEL_PRINT);

        if (is_of_type(c, print_tree)) {

                c.s << std::string(level, ' ') << name << " (" << class_name() << ")"
                    << ", serial=" << serial
                    << std::hex << ", hash=0x" << hashvalue << ", flags=0x" << flags << std::dec
                    << std::endl;

        } else if (is_of_type(c, print_latex))
                c.s << TeX_name;
        else
                c.s << name;
}

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)
                return true;
        else
                return inherited::info(inf);
}

bool symbol::has(const ex & other) const
{
        if (this->is_equal(*other.bp))
                return true;
        else
                return false;
}

int symbol::degree(const ex & s) const
{
        return is_equal(*s.bp) ? 1 : 0;
}

int symbol::ldegree(const ex & s) const
{
        return is_equal(*s.bp) ? 1 : 0;
}

ex symbol::coeff(const ex & s, int n) const
{
        if (is_equal(*s.bp))
                return n==1 ? _ex1() : _ex0();
        else
                return n==0 ? *this : _ex0();
}

ex symbol::eval(int level) const
{
        if (level == -max_recursion_level)
                throw(std::runtime_error("max recursion level reached"));
        
        if (asexinfop->is_assigned) {
                setflag(status_flags::evaluated);
                if (level==1)
                        return (asexinfop->assigned_expression);
                else
                        return (asexinfop->assigned_expression).eval(level);
        } else {
                return this->hold();
        }
}

// protected

/** Implementation of ex::diff() for single differentiation of a symbol.
 *  It returns 1 or 0.
 *
 *  @see ex::diff */
ex symbol::derivative(const symbol & s) const
{
        if (compare_same_type(s))
                return _ex0();
        else
                return _ex1();
}

int symbol::compare_same_type(const basic & other) const
{
        GINAC_ASSERT(is_of_type(other,symbol));
        const symbol *o = static_cast<const symbol *>(&other);
        if (serial==o->serial) return 0;
        return serial < o->serial ? -1 : 1;
}

bool symbol::is_equal_same_type(const basic & other) const
{
        GINAC_ASSERT(is_of_type(other,symbol));
        const symbol *o = static_cast<const symbol *>(&other);
        return serial==o->serial;
}

unsigned symbol::return_type(void) const
{
        return return_types::commutative;
}
   
unsigned symbol::return_type_tinfo(void) const
{
        return tinfo_key;
}

unsigned symbol::calchash(void) const
{
        // this is where the schoolbook method
        // (golden_ratio_hash(tinfo()) ^ serial)
        // is not good enough yet...
        hashvalue = golden_ratio_hash(golden_ratio_hash(tinfo()) ^ serial);
        setflag(status_flags::hash_calculated);
        return hashvalue;
}

//////////
// virtual functions which can be overridden by derived classes
//////////

// none

//////////
// non-virtual functions in this class
//////////

// public

void symbol::assign(const ex & value)
{
        asexinfop->is_assigned = 1;
        asexinfop->assigned_expression = value;
        clearflag(status_flags::evaluated | status_flags::expanded);
}

void symbol::unassign(void)
{
        if (asexinfop->is_assigned) {
                asexinfop->is_assigned = 0;
                asexinfop->assigned_expression = _ex0();
        }
        setflag(status_flags::evaluated | status_flags::expanded);
}

// private

/** Symbols not constructed with a string get one assigned using this
 *  prefix and a number. */
std::string & symbol::autoname_prefix(void)
{
        static std::string *s = new std::string("symbol");
        return *s;
}

/** Return default TeX name for symbol. This recognizes some greek letters. */
std::string symbol::default_TeX_name(void) const
{
        if (name=="alpha"        || name=="beta"         || name=="gamma"
         || name=="delta"        || name=="epsilon"      || name=="varepsilon"
         || name=="zeta"         || name=="eta"          || name=="theta"
         || name=="vartheta"     || name=="iota"         || name=="kappa"
         || name=="lambda"       || name=="mu"           || name=="nu"
         || name=="xi"           || name=="omicron"      || name=="pi"
         || name=="varpi"        || name=="rho"          || name=="varrho"
         || name=="sigma"        || name=="varsigma"     || name=="tau"
         || name=="upsilon"      || name=="phi"          || name=="varphi"
         || name=="chi"          || name=="psi"          || name=="omega"
         || name=="Gamma"        || name=="Delta"        || name=="Theta"
         || name=="Lambda"       || name=="Xi"           || name=="Pi"
         || name=="Sigma"        || name=="Upsilon"      || name=="Phi"
         || name=="Psi"          || name=="Omega")
                return "\\" + name;
        else
                return name;
}

//////////
// static member variables
//////////

// private

unsigned symbol::next_serial = 0;

//////////
// subclass assigned_ex_info
//////////

/** Default ctor.  Defaults to unassigned. */
symbol::assigned_ex_info::assigned_ex_info(void) : is_assigned(0), refcount(1)
{
}

} // namespace GiNaC