/** @file ex.h * * Interface to GiNaC's light-weight expression handles. */ /* * GiNaC Copyright (C) 1999-2002 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 */ #ifndef __GINAC_EX_H__ #define __GINAC_EX_H__ #include #include #include "basic.h" #include "operators.h" namespace GiNaC { /** Helper class to initialize the library. There must be one static object * of this class in every object file that makes use of our flyweights in * order to guarantee proper initialization. Hence we put it into this * file which is included by every relevant file anyways. This is modeled * after section 27.4.2.1.6 of the C++ standard, where cout and friends are * set up. * * @see utils.cpp */ class library_init { public: library_init(); ~library_init(); private: static int count; }; /** For construction of flyweights, etc. */ static library_init library_initializer; // Current versions of Cint don't link data declared extern within functions. // FIXME: Fix Cint and later remove this from here. #if defined(G__CINTVERSION) extern const class numeric *_num0_p; #endif class symbol; class lst; class scalar_products; /** Lightweight wrapper for GiNaC's symbolic objects. Basically all it does is * to hold a pointer to the other objects, manage the reference counting and * provide methods for manipulation of these objects. (Some people call such * a thing a proxy class.) */ class ex { friend class archive_node; friend bool are_ex_trivially_equal(const ex &, const ex &); template friend const T &ex_to(const ex &); template friend bool is_a(const ex &); template friend bool is_exactly_a(const ex &); // member functions // default ctor, dtor, copy ctor, assignment operator and helpers public: ex(); ~ex(); ex(const ex & other); ex & operator=(const ex & other); // other ctors public: ex(const basic & other); ex(int i); ex(unsigned int i); ex(long i); ex(unsigned long i); ex(double const d); /** Construct ex from string and a list of symbols. The input grammar is * similar to the GiNaC output format. All symbols to be used in the * expression must be specified in a lst in the second argument. Undefined * symbols and other parser errors will throw an exception. */ ex(const std::string &s, const ex &l); // non-virtual functions in this class public: void swap(ex & other); void print(const print_context & c, unsigned level = 0) const; void printtree(std::ostream & os) const; void dbgprint(void) const; void dbgprinttree(void) const; bool info(unsigned inf) const { return bp->info(inf); } unsigned nops() const { return bp->nops(); } ex expand(unsigned options=0) const; bool has(const ex & pattern) const { return bp->has(pattern); } ex map(map_function & f) const { return bp->map(f); } ex map(ex (*f)(const ex & e)) const; bool find(const ex & pattern, lst & found) const; int degree(const ex & s) const { return bp->degree(s); } int ldegree(const ex & s) const { return bp->ldegree(s); } ex coeff(const ex & s, int n = 1) const { return bp->coeff(s, n); } ex lcoeff(const ex & s) const { return coeff(s, degree(s)); } ex tcoeff(const ex & s) const { return coeff(s, ldegree(s)); } ex numer(void) const; ex denom(void) const; ex numer_denom(void) const; ex unit(const symbol &x) const; ex content(const symbol &x) const; numeric integer_content(void) const; ex primpart(const symbol &x) const; ex primpart(const symbol &x, const ex &cont) const; ex normal(int level = 0) const; ex to_rational(lst &repl_lst) const { return bp->to_rational(repl_lst); } ex smod(const numeric &xi) const { return bp->smod(xi); } numeric max_coefficient(void) const; ex collect(const ex & s, bool distributed = false) const { return bp->collect(s, distributed); } ex eval(int level = 0) const { return bp->eval(level); } ex evalf(int level = 0) const { return bp->evalf(level); } ex evalm(void) const { return bp->evalm(); } ex diff(const symbol & s, unsigned nth = 1) const; ex series(const ex & r, int order, unsigned options = 0) const; bool match(const ex & pattern) const; bool match(const ex & pattern, lst & repl_lst) const { return bp->match(pattern, repl_lst); } ex subs(const lst & ls, const lst & lr, bool no_pattern = false) const { return bp->subs(ls, lr, no_pattern); } ex subs(const ex & e, bool no_pattern = false) const { return bp->subs(e, no_pattern); } exvector get_free_indices(void) const { return bp->get_free_indices(); } ex simplify_indexed(void) const; ex simplify_indexed(const scalar_products & sp) const; ex symmetrize(void) const; ex symmetrize(const lst & l) const; ex antisymmetrize(void) const; ex antisymmetrize(const lst & l) const; ex symmetrize_cyclic(void) const; ex symmetrize_cyclic(const lst & l) const; ex simplify_ncmul(const exvector & v) const { return bp->simplify_ncmul(v); } ex operator[](const ex & index) const; ex operator[](int i) const; ex op(int i) const { return bp->op(i); } ex & let_op(int i); ex lhs(void) const; ex rhs(void) const; int compare(const ex & other) const; bool is_equal(const ex & other) const; bool is_zero(void) const { extern const ex _ex0; return is_equal(_ex0); } unsigned return_type(void) const { return bp->return_type(); } unsigned return_type_tinfo(void) const { return bp->return_type_tinfo(); } unsigned gethash(void) const { return bp->gethash(); } private: void construct_from_basic(const basic & other); void construct_from_int(int i); void construct_from_uint(unsigned int i); void construct_from_long(long i); void construct_from_ulong(unsigned long i); void construct_from_double(double d); void construct_from_string_and_lst(const std::string &s, const ex &l); void makewriteable(); #ifdef OBSCURE_CINT_HACK public: static bool last_created_or_assigned_bp_can_be_converted_to_ex(void) { if (last_created_or_assigned_bp==0) return false; if ((last_created_or_assigned_bp->flags & status_flags::dynallocated)==0) return false; if ((last_created_or_assigned_bp->flags & status_flags::evaluated)==0) return false; return true; } protected: void update_last_created_or_assigned_bp(void) { if (last_created_or_assigned_bp!=0) { if (--last_created_or_assigned_bp->refcount == 0) { delete last_created_or_assigned_bp; } } last_created_or_assigned_bp = bp; ++last_created_or_assigned_bp->refcount; last_created_or_assigned_exp = (long)(void *)(this); } #endif // def OBSCURE_CINT_HACK // member variables public: basic *bp; ///< pointer to basic object managed by this, direct manipulation deprecated #ifdef OBSCURE_CINT_HACK static basic * last_created_or_assigned_bp; static basic * dummy_bp; static long last_created_or_assigned_exp; #endif // def OBSCURE_CINT_HACK }; // performance-critical inlined method implementations inline ex::ex() { extern const class numeric *_num0_p; bp = (basic*)_num0_p; GINAC_ASSERT(bp!=0); GINAC_ASSERT(bp->flags & status_flags::dynallocated); ++bp->refcount; #ifdef OBSCURE_CINT_HACK update_last_created_or_assigned_bp(); #endif // def OBSCURE_CINT_HACK } inline ex::~ex() { GINAC_ASSERT(bp!=0); GINAC_ASSERT(bp->flags & status_flags::dynallocated); if (--bp->refcount == 0) delete bp; } inline ex::ex(const ex & other) : bp(other.bp) { GINAC_ASSERT(bp!=0); GINAC_ASSERT((bp->flags) & status_flags::dynallocated); ++bp->refcount; #ifdef OBSCURE_CINT_HACK update_last_created_or_assigned_bp(); #endif // def OBSCURE_CINT_HACK } inline ex & ex::operator=(const ex & other) { GINAC_ASSERT(bp!=0); GINAC_ASSERT(bp->flags & status_flags::dynallocated); GINAC_ASSERT(other.bp!=0); GINAC_ASSERT(other.bp->flags & status_flags::dynallocated); // NB: must first increment other.bp->refcount, since other might be *this. ++other.bp->refcount; if (--bp->refcount==0) delete bp; bp = other.bp; #ifdef OBSCURE_CINT_HACK update_last_created_or_assigned_bp(); #endif // def OBSCURE_CINT_HACK return *this; } inline ex::ex(const basic & other) { construct_from_basic(other); #ifdef OBSCURE_CINT_HACK update_last_created_or_assigned_bp(); #endif // def OBSCURE_CINT_HACK } inline ex::ex(int i) { construct_from_int(i); #ifdef OBSCURE_CINT_HACK update_last_created_or_assigned_bp(); #endif // def OBSCURE_CINT_HACK } inline ex::ex(unsigned int i) { construct_from_uint(i); #ifdef OBSCURE_CINT_HACK update_last_created_or_assigned_bp(); #endif // def OBSCURE_CINT_HACK } inline ex::ex(long i) { construct_from_long(i); #ifdef OBSCURE_CINT_HACK update_last_created_or_assigned_bp(); #endif // def OBSCURE_CINT_HACK } inline ex::ex(unsigned long i) { construct_from_ulong(i); #ifdef OBSCURE_CINT_HACK update_last_created_or_assigned_bp(); #endif // def OBSCURE_CINT_HACK } inline ex::ex(double const d) { construct_from_double(d); #ifdef OBSCURE_CINT_HACK update_last_created_or_assigned_bp(); #endif // def OBSCURE_CINT_HACK } inline ex::ex(const std::string &s, const ex &l) { construct_from_string_and_lst(s, l); #ifdef OBSCURE_CINT_HACK update_last_created_or_assigned_bp(); #endif // def OBSCURE_CINT_HACK } inline int ex::compare(const ex & other) const { GINAC_ASSERT(bp!=0); GINAC_ASSERT(other.bp!=0); if (bp==other.bp) // trivial case: both expressions point to same basic return 0; return bp->compare(*other.bp); } inline bool ex::is_equal(const ex & other) const { GINAC_ASSERT(bp!=0); GINAC_ASSERT(other.bp!=0); if (bp==other.bp) // trivial case: both expressions point to same basic return true; return bp->is_equal(*other.bp); } // utility functions /** Compare two objects of class quickly without doing a deep tree traversal. * @return "true" if they are equal * "false" if equality cannot be established quickly (e1 and e2 may * still be equal, in this case. */ inline bool are_ex_trivially_equal(const ex &e1, const ex &e2) { return e1.bp == e2.bp; } // wrapper functions around member functions inline unsigned nops(const ex & thisex) { return thisex.nops(); } inline ex expand(const ex & thisex, unsigned options = 0) { return thisex.expand(options); } inline bool has(const ex & thisex, const ex & pattern) { return thisex.has(pattern); } inline bool find(const ex & thisex, const ex & pattern, lst & found) { return thisex.find(pattern, found); } inline int degree(const ex & thisex, const ex & s) { return thisex.degree(s); } inline int ldegree(const ex & thisex, const ex & s) { return thisex.ldegree(s); } inline ex coeff(const ex & thisex, const ex & s, int n=1) { return thisex.coeff(s, n); } inline ex numer(const ex & thisex) { return thisex.numer(); } inline ex denom(const ex & thisex) { return thisex.denom(); } inline ex numer_denom(const ex & thisex) { return thisex.numer_denom(); } inline ex normal(const ex & thisex, int level=0) { return thisex.normal(level); } inline ex to_rational(const ex & thisex, lst & repl_lst) { return thisex.to_rational(repl_lst); } inline ex collect(const ex & thisex, const ex & s, bool distributed = false) { return thisex.collect(s, distributed); } inline ex eval(const ex & thisex, int level = 0) { return thisex.eval(level); } inline ex evalf(const ex & thisex, int level = 0) { return thisex.evalf(level); } inline ex evalm(const ex & thisex) { return thisex.evalm(); } inline ex diff(const ex & thisex, const symbol & s, unsigned nth = 1) { return thisex.diff(s, nth); } inline ex series(const ex & thisex, const ex & r, int order, unsigned options = 0) { return thisex.series(r, order, options); } inline bool match(const ex & thisex, const ex & pattern, lst & repl_lst) { return thisex.match(pattern, repl_lst); } inline ex subs(const ex & thisex, const ex & e) { return thisex.subs(e); } inline ex subs(const ex & thisex, const lst & ls, const lst & lr) { return thisex.subs(ls, lr); } inline ex simplify_indexed(const ex & thisex) { return thisex.simplify_indexed(); } inline ex simplify_indexed(const ex & thisex, const scalar_products & sp) { return thisex.simplify_indexed(sp); } inline ex symmetrize(const ex & thisex) { return thisex.symmetrize(); } inline ex symmetrize(const ex & thisex, const lst & l) { return thisex.symmetrize(l); } inline ex antisymmetrize(const ex & thisex) { return thisex.antisymmetrize(); } inline ex antisymmetrize(const ex & thisex, const lst & l) { return thisex.antisymmetrize(l); } inline ex symmetrize_cyclic(const ex & thisex) { return thisex.symmetrize_cyclic(); } inline ex symmetrize_cyclic(const ex & thisex, const lst & l) { return thisex.symmetrize_cyclic(l); } inline ex op(const ex & thisex, int i) { return thisex.op(i); } inline ex lhs(const ex & thisex) { return thisex.lhs(); } inline ex rhs(const ex & thisex) { return thisex.rhs(); } inline bool is_zero(const ex & thisex) { return thisex.is_zero(); } inline void swap(ex & e1, ex & e2) { e1.swap(e2); } /* Function objects for STL sort() etc. */ struct ex_is_less : public std::binary_function { bool operator() (const ex &lh, const ex &rh) const { return lh.compare(rh) < 0; } }; struct ex_is_equal : public std::binary_function { bool operator() (const ex &lh, const ex &rh) const { return lh.is_equal(rh); } }; struct ex_swap : public std::binary_function { void operator() (ex &lh, ex &rh) const { lh.swap(rh); } }; /* Convert function pointer to function object suitable for map(). */ class pointer_to_map_function : public map_function { protected: ex (*ptr)(const ex &); public: explicit pointer_to_map_function(ex (*x)(const ex &)) : ptr(x) {} ex operator()(const ex & e) { return ptr(e); } }; template class pointer_to_map_function_1arg : public map_function { protected: ex (*ptr)(const ex &, T1); T1 arg1; public: explicit pointer_to_map_function_1arg(ex (*x)(const ex &, T1), T1 a1) : ptr(x), arg1(a1) {} ex operator()(const ex & e) { return ptr(e, arg1); } }; template class pointer_to_map_function_2args : public map_function { protected: ex (*ptr)(const ex &, T1, T2); T1 arg1; T2 arg2; public: explicit pointer_to_map_function_2args(ex (*x)(const ex &, T1, T2), T1 a1, T2 a2) : ptr(x), arg1(a1), arg2(a2) {} ex operator()(const ex & e) { return ptr(e, arg1, arg2); } }; template class pointer_to_map_function_3args : public map_function { protected: ex (*ptr)(const ex &, T1, T2, T3); T1 arg1; T2 arg2; T3 arg3; public: explicit pointer_to_map_function_3args(ex (*x)(const ex &, T1, T2, T3), T1 a1, T2 a2, T3 a3) : ptr(x), arg1(a1), arg2(a2), arg3(a3) {} ex operator()(const ex & e) { return ptr(e, arg1, arg2, arg3); } }; inline ex ex::map(ex (*f)(const ex & e)) const { pointer_to_map_function fcn(f); return bp->map(fcn); } } // namespace GiNaC #endif // ndef __GINAC_EX_H__