4 my ($seq_template,$n)=@_;
8 for ($N=1; $N<=$n; $N++) {
9 $res .= eval('"' . $seq_template . '"');
17 sub generate_from_to {
18 my ($template,$seq_template1,$seq_template2,$from,$to)=@_;
22 for ($N=$from; $N<=$to; $N++) {
23 $SEQ1=generate_seq($seq_template1,$N);
24 $SEQ2=generate_seq($seq_template2,$N);
25 $res .= eval('"' . $template . '"');
26 $SEQ1=''; # to avoid main::SEQ1 used only once warning
27 $SEQ2=''; # same as above
33 my ($template,$seq_template1,$seq_template2)=@_;
34 return generate_from_to($template,$seq_template1,$seq_template2,1,$maxargs);
37 $declare_function_macro_namespace = <<'END_OF_DECLARE_FUNCTION_1_AND_2P_MACRO_NAMESPACE';
38 #define DECLARE_FUNCTION_1P(NAME) \
39 extern const unsigned function_index_##NAME; \
40 inline GiNaC::function NAME(const GiNaC::ex & p1) { \
41 return GiNaC::function(function_index_##NAME, p1); \
43 #define DECLARE_FUNCTION_2P(NAME) \
44 extern const unsigned function_index_##NAME; \
45 inline GiNaC::function NAME(const GiNaC::ex & p1, const GiNaC::ex & p2) { \
46 return GiNaC::function(function_index_##NAME, p1, p2); \
49 END_OF_DECLARE_FUNCTION_1_AND_2P_MACRO_NAMESPACE
51 $declare_function_macro_namespace .= generate_from_to(
52 <<'END_OF_DECLARE_FUNCTION_MACRO_NAMESPACE','const GiNaC::ex & p${N}','p${N}',3,$maxargs);
53 #define DECLARE_FUNCTION_${N}P(NAME) \\
54 extern const unsigned function_index_##NAME; \\
55 inline GiNaC::function NAME(${SEQ1}) { \\
56 return GiNaC::function(function_index_##NAME, ${SEQ2}); \\
59 END_OF_DECLARE_FUNCTION_MACRO_NAMESPACE
61 $declare_function_macro_no_namespace = <<'END_OF_DECLARE_FUNCTION_1_AND_2P_MACRO_NO_NAMESPACE';
62 #define DECLARE_FUNCTION_1P(NAME) \
63 extern const unsigned function_index_##NAME; \
64 inline function NAME(const ex & p1) { \
65 return function(function_index_##NAME, p1); \
67 #define DECLARE_FUNCTION_2P(NAME) \
68 extern const unsigned function_index_##NAME; \
69 inline function NAME(const ex & p1, const ex & p2) { \
70 return function(function_index_##NAME, p1, p2); \
73 END_OF_DECLARE_FUNCTION_1_AND_2P_MACRO_NO_NAMESPACE
75 $declare_function_macro_no_namespace .= generate_from_to(
76 <<'END_OF_DECLARE_FUNCTION_MACRO_NO_NAMESPACE','const ex & p${N}','p${N}',3,$maxargs);
77 #define DECLARE_FUNCTION_${N}P(NAME) \\
78 extern const unsigned function_index_##NAME; \\
79 inline function NAME(${SEQ1}) { \\
80 return function(function_index_##NAME, ${SEQ2}); \\
83 END_OF_DECLARE_FUNCTION_MACRO_NO_NAMESPACE
85 $typedef_eval_funcp=generate(
86 'typedef ex (* eval_funcp_${N})(${SEQ1});'."\n",
89 $typedef_evalf_funcp=generate(
90 'typedef ex (* evalf_funcp_${N})(${SEQ1});'."\n",
93 $typedef_derivative_funcp=generate(
94 'typedef ex (* derivative_funcp_${N})(${SEQ1}, unsigned);'."\n",
97 $typedef_series_funcp=generate(
98 'typedef ex (* series_funcp_${N})(${SEQ1}, const relational &, int, unsigned);'."\n",
101 $eval_func_interface=generate(' function_options & eval_func(eval_funcp_${N} e);'."\n",'','');
103 $evalf_func_interface=generate(' function_options & evalf_func(evalf_funcp_${N} ef);'."\n",'','');
105 $derivative_func_interface=generate(' function_options & derivative_func(derivative_funcp_${N} d);'."\n",'','');
107 $series_func_interface=generate(' function_options & series_func(series_funcp_${N} s);'."\n",'','');
109 $constructors_interface=generate(
110 ' function(unsigned ser, ${SEQ1});'."\n",
111 'const ex & param${N}','');
113 $constructors_implementation=generate(
114 <<'END_OF_CONSTRUCTORS_IMPLEMENTATION','const ex & param${N}','param${N}');
115 function::function(unsigned ser, ${SEQ1})
116 : exprseq(${SEQ2}), serial(ser)
118 debugmsg(\"function constructor from unsigned,${N}*ex\",LOGLEVEL_CONSTRUCT);
119 tinfo_key = TINFO_function;
121 END_OF_CONSTRUCTORS_IMPLEMENTATION
123 $eval_switch_statement=generate(
124 <<'END_OF_EVAL_SWITCH_STATEMENT','seq[${N}-1]','');
126 eval_result=((eval_funcp_${N})(registered_functions()[serial].eval_f))(${SEQ1});
128 END_OF_EVAL_SWITCH_STATEMENT
130 $evalf_switch_statement=generate(
131 <<'END_OF_EVALF_SWITCH_STATEMENT','eseq[${N}-1]','');
133 return ((evalf_funcp_${N})(registered_functions()[serial].evalf_f))(${SEQ1});
134 END_OF_EVALF_SWITCH_STATEMENT
136 $diff_switch_statement=generate(
137 <<'END_OF_DIFF_SWITCH_STATEMENT','seq[${N}-1]','');
139 return ((derivative_funcp_${N})(registered_functions()[serial].derivative_f))(${SEQ1},diff_param);
140 END_OF_DIFF_SWITCH_STATEMENT
142 $series_switch_statement=generate(
143 <<'END_OF_SERIES_SWITCH_STATEMENT','seq[${N}-1]','');
146 res = ((series_funcp_${N})(registered_functions()[serial].series_f))(${SEQ1},r,order,options);
147 } catch (do_taylor) {
148 res = basic::series(r, order, options);
151 END_OF_SERIES_SWITCH_STATEMENT
153 $eval_func_implementation=generate(
154 <<'END_OF_EVAL_FUNC_IMPLEMENTATION','','');
155 function_options & function_options::eval_func(eval_funcp_${N} e)
157 test_and_set_nparams(${N});
158 eval_f=eval_funcp(e);
161 END_OF_EVAL_FUNC_IMPLEMENTATION
163 $evalf_func_implementation=generate(
164 <<'END_OF_EVALF_FUNC_IMPLEMENTATION','','');
165 function_options & function_options::evalf_func(evalf_funcp_${N} ef)
167 test_and_set_nparams(${N});
168 evalf_f=evalf_funcp(ef);
171 END_OF_EVALF_FUNC_IMPLEMENTATION
173 $derivative_func_implementation=generate(
174 <<'END_OF_DERIVATIVE_FUNC_IMPLEMENTATION','','');
175 function_options & function_options::derivative_func(derivative_funcp_${N} d)
177 test_and_set_nparams(${N});
178 derivative_f=derivative_funcp(d);
181 END_OF_DERIVATIVE_FUNC_IMPLEMENTATION
183 $series_func_implementation=generate(
184 <<'END_OF_SERIES_FUNC_IMPLEMENTATION','','');
185 function_options & function_options::series_func(series_funcp_${N} s)
187 test_and_set_nparams(${N});
188 series_f=series_funcp(s);
191 END_OF_SERIES_FUNC_IMPLEMENTATION
193 $interface=<<END_OF_INTERFACE;
194 /** \@file function.h
196 * Interface to abstract class function (new function concept). */
199 * This file was generated automatically by function.pl.
200 * Please do not modify it directly, edit the perl script instead!
201 * function.pl options: \$maxargs=${maxargs}
203 * GiNaC Copyright (C) 1999-2001 Johannes Gutenberg University Mainz, Germany
205 * This program is free software; you can redistribute it and/or modify
206 * it under the terms of the GNU General Public License as published by
207 * the Free Software Foundation; either version 2 of the License, or
208 * (at your option) any later version.
210 * This program is distributed in the hope that it will be useful,
211 * but WITHOUT ANY WARRANTY; without even the implied warranty of
212 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
213 * GNU General Public License for more details.
215 * You should have received a copy of the GNU General Public License
216 * along with this program; if not, write to the Free Software
217 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
220 #ifndef __GINAC_FUNCTION_H__
221 #define __GINAC_FUNCTION_H__
226 // CINT needs <algorithm> to work properly with <vector>
231 #ifndef NO_NAMESPACE_GINAC
233 // the following lines have been generated for max. ${maxargs} parameters
234 $declare_function_macro_namespace
235 // end of generated lines
237 #else // ndef NO_NAMESPACE_GINAC
239 // the following lines have been generated for max. ${maxargs} parameters
240 $declare_function_macro_no_namespace
241 // end of generated lines
243 #endif // ndef NO_NAMESPACE_GINAC
245 #ifndef NO_NAMESPACE_GINAC
247 #define REGISTER_FUNCTION(NAME,OPT) \\
248 const unsigned function_index_##NAME= \\
249 GiNaC::function::register_new(GiNaC::function_options(#NAME).OPT);
251 #define REGISTER_FUNCTION_OLD(NAME,E,EF,D,S) \\
252 const unsigned function_index_##NAME= \\
253 GiNaC::function::register_new(GiNaC::function_options(#NAME). \\
256 derivative_func(D). \\
259 #else // ndef NO_NAMESPACE_GINAC
261 #define REGISTER_FUNCTION(NAME,OPT) \\
262 const unsigned function_index_##NAME= \\
263 function::register_new(function_options(#NAME).OPT);
265 #define REGISTER_FUNCTION_OLD(NAME,E,EF,D,S) \\
266 const unsigned function_index_##NAME= \\
267 function::register_new(function_options(#NAME). \\
270 derivative_func(D). \\
273 #endif // ndef NO_NAMESPACE_GINAC
275 #define BEGIN_TYPECHECK \\
276 bool automatic_typecheck=true;
278 #define TYPECHECK(VAR,TYPE) \\
279 if (!is_ex_exactly_of_type(VAR,TYPE)) { \\
280 automatic_typecheck=false; \\
283 #ifndef NO_NAMESPACE_GINAC
285 #define TYPECHECK_INTEGER(VAR) \\
286 if (!(VAR).info(GiNaC::info_flags::integer)) { \\
287 automatic_typecheck=false; \\
290 #else // ndef NO_NAMESPACE_GINAC
292 #define TYPECHECK_INTEGER(VAR) \\
293 if (!(VAR).info(info_flags::integer)) { \\
294 automatic_typecheck=false; \\
297 #endif // ndef NO_NAMESPACE_GINAC
299 #define END_TYPECHECK(RV) \\
301 if (!automatic_typecheck) { \\
305 #ifndef NO_NAMESPACE_GINAC
307 #endif // ndef NO_NAMESPACE_GINAC
311 typedef ex (* eval_funcp)();
312 typedef ex (* evalf_funcp)();
313 typedef ex (* derivative_funcp)();
314 typedef ex (* series_funcp)();
316 // the following lines have been generated for max. ${maxargs} parameters
319 $typedef_derivative_funcp
320 $typedef_series_funcp
321 // end of generated lines
323 class function_options
325 friend class function;
328 function_options(std::string const & n, std::string const & tn=std::string());
330 void initialize(void);
331 function_options & set_name(std::string const & n, std::string const & tn=std::string());
332 // the following lines have been generated for max. ${maxargs} parameters
334 $evalf_func_interface
335 $derivative_func_interface
336 $series_func_interface
337 // end of generated lines
338 function_options & set_return_type(unsigned rt, unsigned rtt=0);
339 function_options & do_not_evalf_params(void);
340 function_options & remember(unsigned size, unsigned assoc_size=0,
341 unsigned strategy=remember_strategies::delete_never);
342 function_options & overloaded(unsigned o);
343 void test_and_set_nparams(unsigned n);
344 std::string get_name(void) const { return name; }
345 unsigned get_nparams(void) const { return nparams; }
349 std::string TeX_name;
355 derivative_funcp derivative_f;
356 series_funcp series_f;
358 bool evalf_params_first;
360 bool use_return_type;
361 unsigned return_type;
362 unsigned return_type_tinfo;
365 unsigned remember_size;
366 unsigned remember_assoc_size;
367 unsigned remember_strategy;
369 unsigned functions_with_same_name;
372 /** The class function is used to implement builtin functions like sin, cos...
373 and user defined functions */
374 class function : public exprseq
376 GINAC_DECLARE_REGISTERED_CLASS(function, exprseq)
378 // CINT has a linking problem
380 friend void ginsh_get_ginac_functions(void);
381 #endif // def __MAKECINT__
383 friend class remember_table_entry;
384 // friend class remember_table_list;
385 // friend class remember_table;
389 // default constructor, destructor, copy constructor assignment operator and helpers
393 function(const function & other);
394 const function & operator=(const function & other);
396 void copy(const function & other);
397 void destroy(bool call_parent);
399 // other constructors
401 function(unsigned ser);
402 // the following lines have been generated for max. ${maxargs} parameters
403 $constructors_interface
404 // end of generated lines
405 function(unsigned ser, const exprseq & es);
406 function(unsigned ser, const exvector & v, bool discardable=0);
407 function(unsigned ser, exvector * vp); // vp will be deleted
409 // functions overriding virtual functions from bases classes
411 basic * duplicate() const;
412 void printraw(std::ostream & os) const;
413 void print(std::ostream & os, unsigned upper_precedence=0) const;
414 void printtree(std::ostream & os, unsigned indent) const;
415 void printcsrc(std::ostream & os, unsigned type, unsigned upper_precedence=0) const;
416 ex expand(unsigned options=0) const;
417 ex eval(int level=0) const;
418 ex evalf(int level=0) const;
419 ex series(const relational & r, int order, unsigned options = 0) const;
420 ex thisexprseq(const exvector & v) const;
421 ex thisexprseq(exvector * vp) const;
423 ex derivative(const symbol & s) const;
424 int compare_same_type(const basic & other) const;
425 bool is_equal_same_type(const basic & other) const;
426 unsigned return_type(void) const;
427 unsigned return_type_tinfo(void) const;
429 // new virtual functions which can be overridden by derived classes
432 // non-virtual functions in this class
434 ex pderivative(unsigned diff_param) const; // partial differentiation
435 static std::vector<function_options> & registered_functions(void);
436 bool lookup_remember_table(ex & result) const;
437 void store_remember_table(ex const & result) const;
439 static unsigned register_new(function_options const & opt);
440 static unsigned find_function(const std::string &name, unsigned nparams);
441 unsigned getserial(void) const {return serial;}
449 // utility functions/macros
450 inline const function &ex_to_function(const ex &e)
452 return static_cast<const function &>(*e.bp);
455 #ifndef NO_NAMESPACE_GINAC
457 #define is_ex_the_function(OBJ, FUNCNAME) \\
458 (is_ex_exactly_of_type(OBJ, function) && static_cast<GiNaC::function *>(OBJ.bp)->getserial() == function_index_##FUNCNAME)
460 #else // ndef NO_NAMESPACE_GINAC
462 #define is_ex_the_function(OBJ, FUNCNAME) \\
463 (is_ex_exactly_of_type(OBJ, function) && static_cast<function *>(OBJ.bp)->getserial() == function_index_##FUNCNAME)
465 #endif // ndef NO_NAMESPACE_GINAC
469 extern const function some_function;
470 extern const std::type_info & typeid_function;
472 #ifndef NO_NAMESPACE_GINAC
474 #endif // ndef NO_NAMESPACE_GINAC
476 #endif // ndef __GINAC_FUNCTION_H__
480 $implementation=<<END_OF_IMPLEMENTATION;
481 /** \@file function.cpp
483 * Implementation of class function. */
486 * This file was generated automatically by function.pl.
487 * Please do not modify it directly, edit the perl script instead!
488 * function.pl options: \$maxargs=${maxargs}
490 * GiNaC Copyright (C) 1999-2001 Johannes Gutenberg University Mainz, Germany
492 * This program is free software; you can redistribute it and/or modify
493 * it under the terms of the GNU General Public License as published by
494 * the Free Software Foundation; either version 2 of the License, or
495 * (at your option) any later version.
497 * This program is distributed in the hope that it will be useful,
498 * but WITHOUT ANY WARRANTY; without even the implied warranty of
499 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
500 * GNU General Public License for more details.
502 * You should have received a copy of the GNU General Public License
503 * along with this program; if not, write to the Free Software
504 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
511 #include "function.h"
517 #include "debugmsg.h"
518 #include "remember.h"
520 #ifndef NO_NAMESPACE_GINAC
522 #endif // ndef NO_NAMESPACE_GINAC
525 // helper class function_options
528 function_options::function_options()
533 function_options::function_options(std::string const & n, std::string const & tn)
539 function_options::~function_options()
541 // nothing to clean up at the moment
544 void function_options::initialize(void)
546 set_name("unnamed_function","\\\\operatorname{unnamed}");
548 eval_f=evalf_f=derivative_f=series_f=0;
549 evalf_params_first=true;
550 use_return_type=false;
552 functions_with_same_name=1;
555 function_options & function_options::set_name(std::string const & n,
556 std::string const & tn)
559 if (tn==std::string()) {
560 TeX_name="\\\\operatorname{"+name+"}";
567 // the following lines have been generated for max. ${maxargs} parameters
568 $eval_func_implementation
569 $evalf_func_implementation
570 $derivative_func_implementation
571 $series_func_implementation
572 // end of generated lines
574 function_options & function_options::set_return_type(unsigned rt, unsigned rtt)
576 use_return_type=true;
578 return_type_tinfo=rtt;
582 function_options & function_options::do_not_evalf_params(void)
584 evalf_params_first=false;
588 function_options & function_options::remember(unsigned size,
594 remember_assoc_size=assoc_size;
595 remember_strategy=strategy;
599 function_options & function_options::overloaded(unsigned o)
601 functions_with_same_name=o;
605 void function_options::test_and_set_nparams(unsigned n)
609 } else if (nparams!=n) {
610 // we do not throw an exception here because this code is
611 // usually executed before main(), so the exception could not
613 std::cerr << "WARNING: number of parameters ("
614 << n << ") differs from number set before ("
615 << nparams << ")" << std::endl;
619 GINAC_IMPLEMENT_REGISTERED_CLASS(function, exprseq)
622 // default constructor, destructor, copy constructor assignment operator and helpers
627 function::function() : serial(0)
629 debugmsg("function default constructor",LOGLEVEL_CONSTRUCT);
630 tinfo_key = TINFO_function;
633 function::~function()
635 debugmsg("function destructor",LOGLEVEL_DESTRUCT);
639 function::function(const function & other)
641 debugmsg("function copy constructor",LOGLEVEL_CONSTRUCT);
645 const function & function::operator=(const function & other)
647 debugmsg("function operator=",LOGLEVEL_ASSIGNMENT);
648 if (this != &other) {
657 void function::copy(const function & other)
659 exprseq::copy(other);
663 void function::destroy(bool call_parent)
665 if (call_parent) exprseq::destroy(call_parent);
669 // other constructors
674 function::function(unsigned ser) : serial(ser)
676 debugmsg("function constructor from unsigned",LOGLEVEL_CONSTRUCT);
677 tinfo_key = TINFO_function;
680 // the following lines have been generated for max. ${maxargs} parameters
681 $constructors_implementation
682 // end of generated lines
684 function::function(unsigned ser, const exprseq & es) : exprseq(es), serial(ser)
686 debugmsg("function constructor from unsigned,exprseq",LOGLEVEL_CONSTRUCT);
687 tinfo_key = TINFO_function;
690 function::function(unsigned ser, const exvector & v, bool discardable)
691 : exprseq(v,discardable), serial(ser)
693 debugmsg("function constructor from string,exvector,bool",LOGLEVEL_CONSTRUCT);
694 tinfo_key = TINFO_function;
697 function::function(unsigned ser, exvector * vp)
698 : exprseq(vp), serial(ser)
700 debugmsg("function constructor from unsigned,exvector *",LOGLEVEL_CONSTRUCT);
701 tinfo_key = TINFO_function;
708 /** Construct object from archive_node. */
709 function::function(const archive_node &n, const lst &sym_lst) : inherited(n, sym_lst)
711 debugmsg("function constructor from archive_node", LOGLEVEL_CONSTRUCT);
713 // Find serial number by function name
715 if (n.find_string("name", s)) {
716 unsigned int ser = 0;
717 std::vector<function_options>::const_iterator i = registered_functions().begin(), iend = registered_functions().end();
725 throw (std::runtime_error("unknown function '" + s + "' in archive"));
727 throw (std::runtime_error("unnamed function in archive"));
730 /** Unarchive the object. */
731 ex function::unarchive(const archive_node &n, const lst &sym_lst)
733 return (new function(n, sym_lst))->setflag(status_flags::dynallocated);
736 /** Archive the object. */
737 void function::archive(archive_node &n) const
739 inherited::archive(n);
740 GINAC_ASSERT(serial < registered_functions().size());
741 n.add_string("name", registered_functions()[serial].name);
745 // functions overriding virtual functions from bases classes
750 basic * function::duplicate() const
752 debugmsg("function duplicate",LOGLEVEL_DUPLICATE);
753 return new function(*this);
756 void function::printraw(std::ostream & os) const
758 debugmsg("function printraw",LOGLEVEL_PRINT);
760 GINAC_ASSERT(serial<registered_functions().size());
762 os << "function(name=" << registered_functions()[serial].name;
763 for (exvector::const_iterator it=seq.begin(); it!=seq.end(); ++it) {
770 void function::print(std::ostream & os, unsigned upper_precedence) const
772 debugmsg("function print",LOGLEVEL_PRINT);
774 GINAC_ASSERT(serial<registered_functions().size());
776 os << registered_functions()[serial].name;
777 printseq(os,'(',',',')',exprseq::precedence,function::precedence);
780 void function::printtree(std::ostream & os, unsigned indent) const
782 debugmsg("function printtree",LOGLEVEL_PRINT);
784 GINAC_ASSERT(serial<registered_functions().size());
786 os << std::string(indent,' ') << "function "
787 << registered_functions()[serial].name
788 << ", hash=" << hashvalue
789 << " (0x" << std::hex << hashvalue << std::dec << ")"
790 << ", flags=" << flags
791 << ", nops=" << nops() << std::endl;
792 for (unsigned i=0; i<nops(); ++i) {
793 seq[i].printtree(os,indent+delta_indent);
795 os << std::string(indent+delta_indent,' ') << "=====" << std::endl;
798 void function::printcsrc(std::ostream & os, unsigned type, unsigned upper_precedence) const
800 debugmsg("function print csrc",LOGLEVEL_PRINT);
802 GINAC_ASSERT(serial<registered_functions().size());
804 // Print function name in lowercase
806 lname=registered_functions()[serial].name;
807 for (unsigned i=0; i<lname.size(); i++)
808 lname[i] = tolower(lname[i]);
811 // Print arguments, separated by commas
812 exvector::const_iterator it = seq.begin();
813 exvector::const_iterator itend = seq.end();
814 while (it != itend) {
815 it->bp->printcsrc(os, type, 0);
823 ex function::expand(unsigned options) const
825 return this->setflag(status_flags::expanded);
828 ex function::eval(int level) const
830 GINAC_ASSERT(serial<registered_functions().size());
833 // first evaluate children, then we will end up here again
834 return function(serial,evalchildren(level));
837 if (registered_functions()[serial].eval_f==0) {
841 bool use_remember=registered_functions()[serial].use_remember;
843 if (use_remember && lookup_remember_table(eval_result)) {
847 switch (registered_functions()[serial].nparams) {
848 // the following lines have been generated for max. ${maxargs} parameters
849 ${eval_switch_statement}
850 // end of generated lines
852 throw(std::logic_error("function::eval(): invalid nparams"));
855 store_remember_table(eval_result);
860 ex function::evalf(int level) const
862 GINAC_ASSERT(serial<registered_functions().size());
864 exvector eseq=evalfchildren(level);
866 if (registered_functions()[serial].evalf_f==0) {
867 return function(serial,eseq).hold();
869 switch (registered_functions()[serial].nparams) {
870 // the following lines have been generated for max. ${maxargs} parameters
871 ${evalf_switch_statement}
872 // end of generated lines
874 throw(std::logic_error("function::evalf(): invalid nparams"));
877 ex function::thisexprseq(const exvector & v) const
879 return function(serial,v);
882 ex function::thisexprseq(exvector * vp) const
884 return function(serial,vp);
887 /** Implementation of ex::series for functions.
888 * \@see ex::series */
889 ex function::series(const relational & r, int order, unsigned options) const
891 GINAC_ASSERT(serial<registered_functions().size());
893 if (registered_functions()[serial].series_f==0) {
894 return basic::series(r, order);
897 switch (registered_functions()[serial].nparams) {
898 // the following lines have been generated for max. ${maxargs} parameters
899 ${series_switch_statement}
900 // end of generated lines
902 throw(std::logic_error("function::series(): invalid nparams"));
908 /** Implementation of ex::diff() for functions. It applies the chain rule,
909 * except for the Order term function.
911 ex function::derivative(const symbol & s) const
915 if (serial == function_index_Order) {
916 // Order Term function only differentiates the argument
917 return Order(seq[0].diff(s));
918 } else if (serial == function_index_Derivative) {
919 // Inert derivative performs chain rule on the first argument only, and
920 // adds differentiation parameter to list (second argument)
921 GINAC_ASSERT(is_ex_exactly_of_type(seq[0], function));
922 GINAC_ASSERT(is_ex_exactly_of_type(seq[1], function));
925 for (unsigned i=0; i!=fcn.nops(); i++) {
926 arg_diff = fcn.op(i).diff(s);
927 if (!arg_diff.is_zero()) {
928 lst new_lst = ex_to_lst(seq[1]);
930 result += arg_diff * Derivative(fcn, new_lst);
936 for (unsigned i=0; i!=seq.size(); i++) {
937 arg_diff = seq[i].diff(s);
938 // We apply the chain rule only when it makes sense. This is not
939 // just for performance reasons but also to allow functions to
940 // throw when differentiated with respect to one of its arguments
941 // without running into trouble with our automatic full
943 if (!arg_diff.is_zero())
944 result += pderivative(i)*arg_diff;
950 int function::compare_same_type(const basic & other) const
952 GINAC_ASSERT(is_of_type(other, function));
953 const function & o=static_cast<function &>(const_cast<basic &>(other));
955 if (serial!=o.serial) {
956 return serial < o.serial ? -1 : 1;
958 return exprseq::compare_same_type(o);
961 bool function::is_equal_same_type(const basic & other) const
963 GINAC_ASSERT(is_of_type(other, function));
964 const function & o=static_cast<function &>(const_cast<basic &>(other));
966 if (serial!=o.serial) return false;
967 return exprseq::is_equal_same_type(o);
970 unsigned function::return_type(void) const
973 return return_types::commutative;
975 return (*seq.begin()).return_type();
978 unsigned function::return_type_tinfo(void) const
983 return (*seq.begin()).return_type_tinfo();
987 // new virtual functions which can be overridden by derived classes
993 // non-virtual functions in this class
998 ex function::pderivative(unsigned diff_param) const // partial differentiation
1000 GINAC_ASSERT(serial<registered_functions().size());
1002 if (registered_functions()[serial].derivative_f==0) {
1003 return Derivative(*this, lst(ex(diff_param)));
1005 switch (registered_functions()[serial].nparams) {
1006 // the following lines have been generated for max. ${maxargs} parameters
1007 ${diff_switch_statement}
1008 // end of generated lines
1010 throw(std::logic_error("function::pderivative(): no diff function defined"));
1013 std::vector<function_options> & function::registered_functions(void)
1015 static std::vector<function_options> * rf = new std::vector<function_options>;
1019 bool function::lookup_remember_table(ex & result) const
1021 return remember_table::remember_tables()[serial].lookup_entry(*this,result);
1024 void function::store_remember_table(ex const & result) const
1026 remember_table::remember_tables()[serial].add_entry(*this,result);
1031 unsigned function::register_new(function_options const & opt)
1033 unsigned same_name=0;
1034 for (unsigned i=0; i<registered_functions().size(); ++i) {
1035 if (registered_functions()[i].name==opt.name) {
1039 if (same_name>=opt.functions_with_same_name) {
1040 // we do not throw an exception here because this code is
1041 // usually executed before main(), so the exception could not
1043 std::cerr << "WARNING: function name " << opt.name
1044 << " already in use!" << std::endl;
1046 registered_functions().push_back(opt);
1047 if (opt.use_remember) {
1048 remember_table::remember_tables().
1049 push_back(remember_table(opt.remember_size,
1050 opt.remember_assoc_size,
1051 opt.remember_strategy));
1053 remember_table::remember_tables().push_back(remember_table());
1055 return registered_functions().size()-1;
1058 /** Find serial number of function by name and number of parameters.
1059 * Throws exception if function was not found. */
1060 unsigned function::find_function(const std::string &name, unsigned nparams)
1062 std::vector<function_options>::const_iterator i = function::registered_functions().begin(), end = function::registered_functions().end();
1063 unsigned serial = 0;
1065 if (i->get_name() == name && i->get_nparams() == nparams)
1070 throw (std::runtime_error("no function '" + name + "' with " + ToString(nparams) + " parameters defined"));
1074 // static member variables
1083 const function some_function;
1084 const std::type_info & typeid_function=typeid(some_function);
1086 #ifndef NO_NAMESPACE_GINAC
1087 } // namespace GiNaC
1088 #endif // ndef NO_NAMESPACE_GINAC
1090 END_OF_IMPLEMENTATION
1092 print "Creating interface file function.h...";
1093 open OUT,">function.h" or die "cannot open function.h";
1094 print OUT $interface;
1098 print "Creating implementation file function.cpp...";
1099 open OUT,">function.cpp" or die "cannot open function.cpp";
1100 print OUT $implementation;