1 /** @file ginsh_parser.yy
3 * Input grammar definition for ginsh.
4 * This file must be processed with yacc/bison. */
7 * GiNaC Copyright (C) 1999-2005 Johannes Gutenberg University Mainz, Germany
9 * This program is free software; you can redistribute it and/or modify
10 * it under the terms of the GNU General Public License as published by
11 * the Free Software Foundation; either version 2 of the License, or
12 * (at your option) any later version.
14 * This program is distributed in the hope that it will be useful,
15 * but WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 * GNU General Public License for more details.
19 * You should have received a copy of the GNU General Public License
20 * along with this program; if not, write to the Free Software
21 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
32 #include <sys/resource.h>
35 #include <sys/types.h>
43 #define YYERROR_VERBOSE 1
45 // Original readline settings
46 static int orig_completion_append_character;
47 #if (GINAC_RL_VERSION_MAJOR < 4) || (GINAC_RL_VERSION_MAJOR == 4 && GINAC_RL_VERSION_MINOR < 2)
48 static char *orig_basic_word_break_characters;
50 static const char *orig_basic_word_break_characters;
53 #if (GINAC_RL_VERSION_MAJOR >= 5)
54 #define GINAC_RL_COMPLETER_CAST(a) const_cast<char *>((a))
56 #define GINAC_RL_COMPLETER_CAST(a) (a)
59 // Expression stack for %, %% and %%%
60 static void push(const ex &e);
63 // Start and end time for the time() function
64 static struct rusage start_time, end_time;
66 // Table of functions (a multimap, because one function may appear with different
67 // numbers of parameters)
68 typedef ex (*fcnp)(const exprseq &e);
69 typedef ex (*fcnp2)(const exprseq &e, int serial);
72 fcn_desc() : p(NULL), num_params(0), is_ginac(false), serial(0) {}
73 fcn_desc(fcnp func, int num) : p(func), num_params(num), is_ginac(false), serial(0) {}
74 fcn_desc(fcnp2 func, int num, int ser) : p((fcnp)func), num_params(num), is_ginac(true), serial(ser) {}
76 fcnp p; // Pointer to function
77 int num_params; // Number of parameters (0 = arbitrary)
78 bool is_ginac; // Flag: function is GiNaC function
79 int serial; // GiNaC function serial number (if is_ginac == true)
82 typedef multimap<string, fcn_desc> fcn_tab;
85 static fcn_tab::const_iterator find_function(const ex &sym, int req_params);
87 // Table to map help topics to help strings
88 typedef multimap<string, string> help_tab;
91 static void insert_fcn_help(const char *name, const char *str);
92 static void print_help(const string &topic);
93 static void print_help_topics(void);
96 /* Tokens (T_LITERAL means a literal value returned by the parser, but not
97 of class numeric or symbol (e.g. a constant or the FAIL object)) */
98 %token T_NUMBER T_SYMBOL T_LITERAL T_DIGITS T_QUOTE T_QUOTE2 T_QUOTE3
99 %token T_EQUAL T_NOTEQ T_LESSEQ T_GREATEREQ
101 %token T_QUIT T_WARRANTY T_PRINT T_IPRINT T_PRINTLATEX T_PRINTCSRC T_TIME
102 %token T_XYZZY T_INVENTORY T_LOOK T_SCORE T_COMPLEX_SYMBOLS T_REAL_SYMBOLS
104 /* Operator precedence and associativity */
106 %left T_EQUAL T_NOTEQ
107 %left '<' '>' T_LESSEQ T_GREATEREQ
131 } catch (exception &e) {
132 cerr << e.what() << endl;
139 } catch (exception &e) {
140 std::cerr << e.what() << endl;
144 | T_PRINT '(' exp ')' ';' {
146 $3.print(print_tree(std::cout));
147 } catch (exception &e) {
148 std::cerr << e.what() << endl;
152 | T_IPRINT '(' exp ')' ';' {
155 if (!e.info(info_flags::integer))
156 throw (std::invalid_argument("argument to iprint() must be an integer"));
157 long i = ex_to<numeric>(e).to_long();
159 cout << "#o" << oct << i << endl;
160 cout << "#x" << hex << i << dec << endl;
161 } catch (exception &e) {
162 cerr << e.what() << endl;
166 | T_PRINTLATEX '(' exp ')' ';' {
168 $3.print(print_latex(std::cout)); cout << endl;
169 } catch (exception &e) {
170 std::cerr << e.what() << endl;
174 | T_PRINTCSRC '(' exp ')' ';' {
176 $3.print(print_csrc_double(std::cout)); cout << endl;
177 } catch (exception &e) {
178 std::cerr << e.what() << endl;
182 | '?' T_SYMBOL {print_help(ex_to<symbol>($2).get_name());}
183 | '?' T_TIME {print_help("time");}
184 | '?' T_PRINT {print_help("print");}
185 | '?' T_IPRINT {print_help("iprint");}
186 | '?' T_PRINTLATEX {print_help("print_latex");}
187 | '?' T_PRINTCSRC {print_help("print_csrc");}
188 | '?' '?' {print_help_topics();}
191 cout << "This program is free software; you can redistribute it and/or modify it under\n";
192 cout << "the terms of the GNU General Public License as published by the Free Software\n";
193 cout << "Foundation; either version 2 of the License, or (at your option) any later\n";
194 cout << "version.\n";
195 cout << "This program is distributed in the hope that it will be useful, but WITHOUT\n";
196 cout << "ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS\n";
197 cout << "FOR A PARTICULAR PURPOSE. See the GNU General Public License for more\n";
198 cout << "details.\n";
199 cout << "You should have received a copy of the GNU General Public License along with\n";
200 cout << "this program. If not, write to the Free Software Foundation, 675 Mass Ave,\n";
201 cout << "Cambridge, MA 02139, USA.\n";
203 | T_XYZZY {cout << "Nothing happens.\n";}
204 | T_INVENTORY {cout << "You're not carrying anything.\n";}
205 | T_LOOK {cout << "You're in a twisty little maze of passages, all alike.\n";}
207 cout << "If you were to quit now, you would score ";
208 cout << (syms.size() > 350 ? 350 : syms.size());
209 cout << " out of a possible 350.\n";
211 | T_REAL_SYMBOLS { symboltype = domain::real; }
212 | T_COMPLEX_SYMBOLS { symboltype = domain::complex; }
213 | T_TIME {getrusage(RUSAGE_SELF, &start_time);} '(' exp ')' {
214 getrusage(RUSAGE_SELF, &end_time);
215 cout << (end_time.ru_utime.tv_sec - start_time.ru_utime.tv_sec) +
216 (end_time.ru_stime.tv_sec - start_time.ru_stime.tv_sec) +
217 double(end_time.ru_utime.tv_usec - start_time.ru_utime.tv_usec) / 1e6 +
218 double(end_time.ru_stime.tv_usec - start_time.ru_stime.tv_usec) / 1e6 << 's' << endl;
220 | error ';' {yyclearin; yyerrok;}
221 | error ':' {yyclearin; yyerrok;}
224 exp : T_NUMBER {$$ = $1;}
225 | T_SYMBOL {$$ = $1.eval();}
226 | '\'' T_SYMBOL '\'' {$$ = $2;}
227 | T_LITERAL {$$ = $1;}
228 | T_DIGITS {$$ = $1;}
229 | T_QUOTE {$$ = exstack[0];}
230 | T_QUOTE2 {$$ = exstack[1];}
231 | T_QUOTE3 {$$ = exstack[2];}
232 | T_SYMBOL '(' exprseq ')' {
233 fcn_tab::const_iterator i = find_function($1, $3.nops());
234 if (i->second.is_ginac) {
235 $$ = ((fcnp2)(i->second.p))(ex_to<exprseq>($3), i->second.serial);
237 $$ = (i->second.p)(ex_to<exprseq>($3));
240 | T_DIGITS '=' T_NUMBER {$$ = $3; Digits = ex_to<numeric>($3).to_int();}
241 | T_SYMBOL '=' exp {$$ = $3; const_cast<symbol&>(ex_to<symbol>($1)).assign($3);}
242 | exp T_EQUAL exp {$$ = $1 == $3;}
243 | exp T_NOTEQ exp {$$ = $1 != $3;}
244 | exp '<' exp {$$ = $1 < $3;}
245 | exp T_LESSEQ exp {$$ = $1 <= $3;}
246 | exp '>' exp {$$ = $1 > $3;}
247 | exp T_GREATEREQ exp {$$ = $1 >= $3;}
248 | exp '+' exp {$$ = $1 + $3;}
249 | exp '-' exp {$$ = $1 - $3;}
250 | exp '*' exp {$$ = $1 * $3;}
251 | exp '/' exp {$$ = $1 / $3;}
252 | '-' exp %prec NEG {$$ = -$2;}
253 | '+' exp %prec NEG {$$ = $2;}
254 | exp '^' exp {$$ = power($1, $3);}
255 | exp '!' {$$ = factorial($1);}
256 | '(' exp ')' {$$ = $2;}
257 | '{' list_or_empty '}' {$$ = $2;}
258 | '[' matrix ']' {$$ = lst_to_matrix(ex_to<lst>($2));}
261 exprseq : exp {$$ = exprseq($1);}
262 | exprseq ',' exp {exprseq es(ex_to<exprseq>($1)); $$ = es.append($3);}
265 list_or_empty: /* empty */ {$$ = *new lst;}
269 list : exp {$$ = lst($1);}
270 | list ',' exp {lst l(ex_to<lst>($1)); $$ = l.append($3);}
273 matrix : '[' row ']' {$$ = lst($2);}
274 | matrix ',' '[' row ']' {lst l(ex_to<lst>($1)); $$ = l.append($4);}
277 row : exp {$$ = lst($1);}
278 | row ',' exp {lst l(ex_to<lst>($1)); $$ = l.append($3);}
287 // Error print routine
290 cerr << s << " at " << yytext << endl;
294 // Push expression "e" onto the expression stack (for ", "" and """)
295 static void push(const ex &e)
297 exstack[2] = exstack[1];
298 exstack[1] = exstack[0];
307 static ex f_collect(const exprseq &e) {return e[0].collect(e[1]);}
308 static ex f_collect_distributed(const exprseq &e) {return e[0].collect(e[1], true);}
309 static ex f_collect_common_factors(const exprseq &e) {return collect_common_factors(e[0]);}
310 static ex f_convert_H_to_Li(const exprseq &e) {return convert_H_to_Li(e[0], e[1]);}
311 static ex f_degree(const exprseq &e) {return e[0].degree(e[1]);}
312 static ex f_denom(const exprseq &e) {return e[0].denom();}
313 static ex f_eval1(const exprseq &e) {return e[0].eval();}
314 static ex f_evalf1(const exprseq &e) {return e[0].evalf();}
315 static ex f_evalm(const exprseq &e) {return e[0].evalm();}
316 static ex f_eval_integ(const exprseq &e) {return e[0].eval_integ();}
317 static ex f_expand(const exprseq &e) {return e[0].expand();}
318 static ex f_gcd(const exprseq &e) {return gcd(e[0], e[1]);}
319 static ex f_has(const exprseq &e) {return e[0].has(e[1]) ? ex(1) : ex(0);}
320 static ex f_lcm(const exprseq &e) {return lcm(e[0], e[1]);}
321 static ex f_lcoeff(const exprseq &e) {return e[0].lcoeff(e[1]);}
322 static ex f_ldegree(const exprseq &e) {return e[0].ldegree(e[1]);}
323 static ex f_lsolve(const exprseq &e) {return lsolve(e[0], e[1]);}
324 static ex f_nops(const exprseq &e) {return e[0].nops();}
325 static ex f_normal1(const exprseq &e) {return e[0].normal();}
326 static ex f_numer(const exprseq &e) {return e[0].numer();}
327 static ex f_numer_denom(const exprseq &e) {return e[0].numer_denom();}
328 static ex f_pow(const exprseq &e) {return pow(e[0], e[1]);}
329 static ex f_sqrt(const exprseq &e) {return sqrt(e[0]);}
330 static ex f_sqrfree1(const exprseq &e) {return sqrfree(e[0]);}
331 static ex f_subs2(const exprseq &e) {return e[0].subs(e[1]);}
332 static ex f_tcoeff(const exprseq &e) {return e[0].tcoeff(e[1]);}
334 #define CHECK_ARG(num, type, fcn) if (!is_a<type>(e[num])) throw(std::invalid_argument("argument " #num " to " #fcn "() must be a " #type))
336 static ex f_charpoly(const exprseq &e)
338 CHECK_ARG(0, matrix, charpoly);
339 return ex_to<matrix>(e[0]).charpoly(e[1]);
342 static ex f_coeff(const exprseq &e)
344 CHECK_ARG(2, numeric, coeff);
345 return e[0].coeff(e[1], ex_to<numeric>(e[2]).to_int());
348 static ex f_content(const exprseq &e)
350 return e[0].content(e[1]);
353 static ex f_decomp_rational(const exprseq &e)
355 return decomp_rational(e[0], e[1]);
358 static ex f_determinant(const exprseq &e)
360 CHECK_ARG(0, matrix, determinant);
361 return ex_to<matrix>(e[0]).determinant();
364 static ex f_diag(const exprseq &e)
366 size_t dim = e.nops();
367 matrix &m = *new matrix(dim, dim);
368 for (size_t i=0; i<dim; i++)
369 m.set(i, i, e.op(i));
373 static ex f_diff2(const exprseq &e)
375 CHECK_ARG(1, symbol, diff);
376 return e[0].diff(ex_to<symbol>(e[1]));
379 static ex f_diff3(const exprseq &e)
381 CHECK_ARG(1, symbol, diff);
382 CHECK_ARG(2, numeric, diff);
383 return e[0].diff(ex_to<symbol>(e[1]), ex_to<numeric>(e[2]).to_int());
386 static ex f_divide(const exprseq &e)
389 if (divide(e[0], e[1], q))
395 static ex f_eval2(const exprseq &e)
397 CHECK_ARG(1, numeric, eval);
398 return e[0].eval(ex_to<numeric>(e[1]).to_int());
401 static ex f_evalf2(const exprseq &e)
403 CHECK_ARG(1, numeric, evalf);
404 return e[0].evalf(ex_to<numeric>(e[1]).to_int());
407 static ex f_find(const exprseq &e)
410 e[0].find(e[1], found);
414 static ex f_integer_content(const exprseq &e)
416 return e[0].expand().integer_content();
419 static ex f_integral(const exprseq &e)
421 CHECK_ARG(0, symbol, integral);
422 return integral(e[0], e[1], e[2], e[3]);
425 static ex f_inverse(const exprseq &e)
427 CHECK_ARG(0, matrix, inverse);
428 return ex_to<matrix>(e[0]).inverse();
431 static ex f_is(const exprseq &e)
433 CHECK_ARG(0, relational, is);
434 return (bool)ex_to<relational>(e[0]) ? ex(1) : ex(0);
437 class apply_map_function : public map_function {
440 apply_map_function(const ex & a) : apply(a) {}
441 virtual ~apply_map_function() {}
442 ex operator()(const ex & e) { return apply.subs(wild() == e, true); }
445 static ex f_map(const exprseq &e)
447 apply_map_function fcn(e[1]);
448 return e[0].map(fcn);
451 static ex f_match(const exprseq &e)
454 if (e[0].match(e[1], repl_lst))
460 static ex f_normal2(const exprseq &e)
462 CHECK_ARG(1, numeric, normal);
463 return e[0].normal(ex_to<numeric>(e[1]).to_int());
466 static ex f_op(const exprseq &e)
468 CHECK_ARG(1, numeric, op);
469 int n = ex_to<numeric>(e[1]).to_int();
470 if (n < 0 || n >= (int)e[0].nops())
471 throw(std::out_of_range("second argument to op() is out of range"));
475 static ex f_prem(const exprseq &e)
477 return prem(e[0], e[1], e[2]);
480 static ex f_primpart(const exprseq &e)
482 return e[0].primpart(e[1]);
485 static ex f_quo(const exprseq &e)
487 return quo(e[0], e[1], e[2]);
490 static ex f_rank(const exprseq &e)
492 CHECK_ARG(0, matrix, rank);
493 return ex_to<matrix>(e[0]).rank();
496 static ex f_rem(const exprseq &e)
498 return rem(e[0], e[1], e[2]);
501 static ex f_resultant(const exprseq &e)
503 CHECK_ARG(2, symbol, resultant);
504 return resultant(e[0], e[1], ex_to<symbol>(e[2]));
507 static ex f_series(const exprseq &e)
509 CHECK_ARG(2, numeric, series);
510 return e[0].series(e[1], ex_to<numeric>(e[2]).to_int());
513 static ex f_sprem(const exprseq &e)
515 return sprem(e[0], e[1], e[2]);
518 static ex f_sqrfree2(const exprseq &e)
520 CHECK_ARG(1, lst, sqrfree);
521 return sqrfree(e[0], ex_to<lst>(e[1]));
524 static ex f_subs3(const exprseq &e)
526 CHECK_ARG(1, lst, subs);
527 CHECK_ARG(2, lst, subs);
528 return e[0].subs(ex_to<lst>(e[1]), ex_to<lst>(e[2]));
531 static ex f_trace(const exprseq &e)
533 CHECK_ARG(0, matrix, trace);
534 return ex_to<matrix>(e[0]).trace();
537 static ex f_transpose(const exprseq &e)
539 CHECK_ARG(0, matrix, transpose);
540 return ex_to<matrix>(e[0]).transpose();
543 static ex f_unassign(const exprseq &e)
545 CHECK_ARG(0, symbol, unassign);
546 const_cast<symbol&>(ex_to<symbol>(e[0])).unassign();
550 static ex f_unit(const exprseq &e)
552 return e[0].unit(e[1]);
555 static ex f_dummy(const exprseq &e)
557 throw(std::logic_error("dummy function called (shouldn't happen)"));
560 // Tables for initializing the "fcns" map and the function help topics
567 static const fcn_init builtin_fcns[] = {
568 {"charpoly", f_charpoly, 2},
569 {"coeff", f_coeff, 3},
570 {"collect", f_collect, 2},
571 {"collect_common_factors", f_collect_common_factors, 1},
572 {"collect_distributed", f_collect_distributed, 2},
573 {"content", f_content, 2},
574 {"convert_H_to_Li", f_convert_H_to_Li, 2},
575 {"decomp_rational", f_decomp_rational, 2},
576 {"degree", f_degree, 2},
577 {"denom", f_denom, 1},
578 {"determinant", f_determinant, 1},
580 {"diff", f_diff2, 2},
581 {"diff", f_diff3, 3},
582 {"divide", f_divide, 2},
583 {"eval", f_eval1, 1},
584 {"eval", f_eval2, 2},
585 {"evalf", f_evalf1, 1},
586 {"evalf", f_evalf2, 2},
587 {"evalm", f_evalm, 1},
588 {"eval_integ", f_eval_integ, 1},
589 {"expand", f_expand, 1},
593 {"integer_content", f_integer_content, 1},
594 {"integral", f_integral, 4},
595 {"inverse", f_inverse, 1},
596 {"iprint", f_dummy, 0}, // for Tab-completion
599 {"lcoeff", f_lcoeff, 2},
600 {"ldegree", f_ldegree, 2},
601 {"lsolve", f_lsolve, 2},
603 {"match", f_match, 2},
605 {"normal", f_normal1, 1},
606 {"normal", f_normal2, 2},
607 {"numer", f_numer, 1},
608 {"numer_denom", f_numer_denom, 1},
612 {"primpart", f_primpart, 2},
613 {"print", f_dummy, 0}, // for Tab-completion
614 {"print_csrc", f_dummy, 0}, // for Tab-completion
615 {"print_latex", f_dummy, 0}, // for Tab-completion
619 {"resultant", f_resultant, 3},
620 {"series", f_series, 3},
621 {"sprem", f_sprem, 3},
622 {"sqrfree", f_sqrfree1, 1},
623 {"sqrfree", f_sqrfree2, 2},
625 {"subs", f_subs2, 2},
626 {"subs", f_subs3, 3},
627 {"tcoeff", f_tcoeff, 2},
628 {"time", f_dummy, 0}, // for Tab-completion
629 {"trace", f_trace, 1},
630 {"transpose", f_transpose, 1},
631 {"unassign", f_unassign, 1},
633 {NULL, f_dummy, 0} // End marker
636 struct fcn_help_init {
641 static const fcn_help_init builtin_help[] = {
642 {"acos", "inverse cosine function"},
643 {"acosh", "inverse hyperbolic cosine function"},
644 {"asin", "inverse sine function"},
645 {"asinh", "inverse hyperbolic sine function"},
646 {"atan", "inverse tangent function"},
647 {"atan2", "inverse tangent function with two arguments"},
648 {"atanh", "inverse hyperbolic tangent function"},
649 {"beta", "Beta function"},
650 {"binomial", "binomial function"},
651 {"cos", "cosine function"},
652 {"cosh", "hyperbolic cosine function"},
653 {"exp", "exponential function"},
654 {"factorial", "factorial function"},
655 {"lgamma", "natural logarithm of Gamma function"},
656 {"tgamma", "Gamma function"},
657 {"log", "natural logarithm"},
658 {"psi", "psi function\npsi(x) is the digamma function, psi(n,x) the nth polygamma function"},
659 {"sin", "sine function"},
660 {"sinh", "hyperbolic sine function"},
661 {"tan", "tangent function"},
662 {"tanh", "hyperbolic tangent function"},
663 {"zeta", "zeta function\nzeta(x) is Riemann's zeta function, zetaderiv(n,x) its nth derivative.\nIf x is a GiNaC::lst, it is a multiple zeta value\nzeta(x,s) is an alternating Euler sum"},
664 {"Li2", "dilogarithm"},
665 {"Li3", "trilogarithm"},
666 {"Li", "(multiple) polylogarithm"},
667 {"S", "Nielsen's generalized polylogarithm"},
668 {"H", "harmonic polylogarithm"},
669 {"Order", "order term function (for truncated power series)"},
670 {"Derivative", "inert differential operator"},
671 {NULL, NULL} // End marker
674 #include "ginsh_extensions.h"
678 * Add functions to ginsh
681 // Functions from fcn_init array
682 static void insert_fcns(const fcn_init *p)
685 fcns.insert(make_pair(string(p->name), fcn_desc(p->p, p->num_params)));
690 static ex f_ginac_function(const exprseq &es, int serial)
692 return function(serial, es).eval(1);
695 // All registered GiNaC functions
696 void GiNaC::ginsh_get_ginac_functions(void)
698 vector<function_options>::const_iterator i = function::registered_functions().begin(), end = function::registered_functions().end();
701 fcns.insert(make_pair(i->get_name(), fcn_desc(f_ginac_function, i->get_nparams(), serial)));
709 * Find a function given a name and number of parameters. Throw exceptions on error.
712 static fcn_tab::const_iterator find_function(const ex &sym, int req_params)
714 const string &name = ex_to<symbol>(sym).get_name();
715 typedef fcn_tab::const_iterator I;
716 pair<I, I> b = fcns.equal_range(name);
717 if (b.first == b.second)
718 throw(std::logic_error("unknown function '" + name + "'"));
720 for (I i=b.first; i!=b.second; i++)
721 if ((i->second.num_params == 0) || (i->second.num_params == req_params))
724 throw(std::logic_error("invalid number of arguments to " + name + "()"));
729 * Insert help strings
732 // Normal help string
733 static void insert_help(const char *topic, const char *str)
735 help.insert(make_pair(string(topic), string(str)));
738 // Help string for functions, automatically generates synopsis
739 static void insert_fcn_help(const char *name, const char *str)
741 typedef fcn_tab::const_iterator I;
742 pair<I, I> b = fcns.equal_range(name);
743 if (b.first != b.second) {
744 string help_str = string(name) + "(";
745 for (int i=0; i<b.first->second.num_params; i++) {
748 help_str += "expression";
752 help.insert(make_pair(string(name), help_str));
756 // Help strings for functions from fcn_help_init array
757 static void insert_help(const fcn_help_init *p)
760 insert_fcn_help(p->name, p->help);
770 // Help for a given topic
771 static void print_help(const string &topic)
773 typedef help_tab::const_iterator I;
774 pair<I, I> b = help.equal_range(topic);
775 if (b.first == b.second)
776 cout << "no help for '" << topic << "'\n";
778 for (I i=b.first; i!=b.second; i++)
779 cout << i->second << endl;
783 // List of help topics
784 static void print_help_topics(void)
786 cout << "Available help topics:\n";
787 help_tab::const_iterator i;
788 string last_name = string("*");
790 for (i=help.begin(); i!=help.end(); i++) {
791 // Don't print duplicates
792 if (i->first != last_name) {
797 last_name = i->first;
800 cout << "\nTo get help for a certain topic, type ?topic\n";
805 * Function name completion functions for readline
808 static char *fcn_generator(const char *text, int state)
810 static int len; // Length of word to complete
811 static fcn_tab::const_iterator index; // Iterator to function being currently considered
813 // If this is a new word to complete, initialize now
815 index = fcns.begin();
819 // Return the next function which partially matches
820 while (index != fcns.end()) {
821 const char *fcn_name = index->first.c_str();
823 if (strncmp(fcn_name, text, len) == 0)
824 return strdup(fcn_name);
829 static char **fcn_completion(const char *text, int start, int end)
831 if (rl_line_buffer[0] == '!') {
832 // For shell commands, revert back to filename completion
833 rl_completion_append_character = orig_completion_append_character;
834 rl_basic_word_break_characters = orig_basic_word_break_characters;
835 rl_completer_word_break_characters = GINAC_RL_COMPLETER_CAST(rl_basic_word_break_characters);
836 #if (GINAC_RL_VERSION_MAJOR < 4) || (GINAC_RL_VERSION_MAJOR == 4 && GINAC_RL_VERSION_MINOR < 2)
837 return completion_matches(const_cast<char *>(text), (CPFunction *)filename_completion_function);
839 return rl_completion_matches(text, rl_filename_completion_function);
842 // Otherwise, complete function names
843 rl_completion_append_character = '(';
844 rl_basic_word_break_characters = " \t\n\"#$%&'()*+,-./:;<=>?@[\\]^`{|}~";
845 rl_completer_word_break_characters = GINAC_RL_COMPLETER_CAST(rl_basic_word_break_characters);
846 #if (GINAC_RL_VERSION_MAJOR < 4) || (GINAC_RL_VERSION_MAJOR == 4 && GINAC_RL_VERSION_MINOR < 2)
847 return completion_matches(const_cast<char *>(text), (CPFunction *)fcn_generator);
849 return rl_completion_matches(text, fcn_generator);
856 cout << "ginsh - GiNaC Interactive Shell (" << PACKAGE << " V" << VERSION << ")" << endl;
857 cout << " __, _______ Copyright (C) 1999-2005 Johannes Gutenberg University Mainz,\n"
858 << " (__) * | Germany. This is free software with ABSOLUTELY NO WARRANTY.\n"
859 << " ._) i N a C | You are welcome to redistribute it under certain conditions.\n"
860 << "<-------------' For details type `warranty;'.\n" << endl;
861 cout << "Type ?? for a list of help topics." << endl;
868 int main(int argc, char **argv)
870 // Print banner in interactive mode
874 // Init function table
875 insert_fcns(builtin_fcns);
876 insert_fcns(extended_fcns);
877 ginsh_get_ginac_functions();
879 // Init help for operators (automatically generated from man page)
880 insert_help("operators", "Operators in falling order of precedence:");
881 #include "ginsh_op_help.h"
883 // Init help for built-in functions (automatically generated from man page)
884 #include "ginsh_fcn_help.h"
886 // Help for GiNaC functions is added manually
887 insert_help(builtin_help);
888 insert_help(extended_help);
890 // Help for other keywords
891 insert_help("print", "print(expression) - dumps the internal structure of the given expression (for debugging)");
892 insert_help("iprint", "iprint(expression) - prints the given integer expression in decimal, octal, and hexadecimal bases");
893 insert_help("print_latex", "print_latex(expression) - prints a LaTeX representation of the given expression");
894 insert_help("print_csrc", "print_csrc(expression) - prints a C source code representation of the given expression");
896 // Init readline completer
897 rl_readline_name = argv[0];
898 #if (GINAC_RL_VERSION_MAJOR < 4) || (GINAC_RL_VERSION_MAJOR == 4 && GINAC_RL_VERSION_MINOR < 2)
899 rl_attempted_completion_function = (CPPFunction *)fcn_completion;
901 rl_attempted_completion_function = fcn_completion;
903 orig_completion_append_character = rl_completion_append_character;
904 orig_basic_word_break_characters = rl_basic_word_break_characters;
906 // Init input file list, open first file
907 num_files = argc - 1;
908 file_list = argv + 1;
910 yyin = fopen(*file_list, "r");
912 cerr << "Can't open " << *file_list << endl;
919 // Parse input, catch all remaining exceptions
923 } catch (exception &e) {
924 cerr << e.what() << endl;