// Original readline settings
static int orig_completion_append_character;
+#if (GINAC_RL_VERSION_MAJOR < 4) || (GINAC_RL_VERSION_MAJOR == 4 && GINAC_RL_VERSION_MINOR < 2)
static char *orig_basic_word_break_characters;
+#else
+static const char *orig_basic_word_break_characters;
+#endif
// Expression stack for ", "" and """
static void push(const ex &e);
try {
push($1);
} catch (exception &e) {
- cerr << e.what() << endl;
+ std::cerr << e.what() << endl;
YYERROR;
}
}
| T_PRINT '(' exp ')' ';' {
try {
- $3.printtree(cout);
+ $3.print(print_tree(std::cout));
} catch (exception &e) {
- cerr << e.what() << endl;
+ std::cerr << e.what() << endl;
YYERROR;
}
}
YYERROR;
}
}
- | '?' T_SYMBOL {print_help(ex_to_symbol($2).getname());}
+ | '?' T_SYMBOL {print_help(ex_to_symbol($2).get_name());}
| '?' T_TIME {print_help("time");}
| '?' '?' {print_help_topics();}
| T_QUIT {YYACCEPT;}
| exp '-' exp {$$ = $1 - $3;}
| exp '*' exp {$$ = $1 * $3;}
| exp '/' exp {$$ = $1 / $3;}
- | exp '%' exp {$$ = $1 % $3;}
| '-' exp %prec NEG {$$ = -$2;}
| '+' exp %prec NEG {$$ = $2;}
| exp '^' exp {$$ = power($1, $3);}
| exp '!' {$$ = factorial($1);}
| '(' exp ')' {$$ = $2;}
| '[' list_or_empty ']' {$$ = $2;}
- | T_MATRIX_BEGIN matrix T_MATRIX_END {$$ = lst_to_matrix($2);}
+ | T_MATRIX_BEGIN matrix T_MATRIX_END {$$ = lst_to_matrix(ex_to_lst($2));}
;
exprseq : exp {$$ = exprseq($1);}
* Built-in functions
*/
+static ex f_collect(const exprseq &e) {return e[0].collect(e[1]);}
+static ex f_collect_distributed(const exprseq &e) {return e[0].collect(e[1], true);}
+static ex f_degree(const exprseq &e) {return e[0].degree(e[1]);}
static ex f_denom(const exprseq &e) {return e[0].denom();}
static ex f_eval1(const exprseq &e) {return e[0].eval();}
static ex f_evalf1(const exprseq &e) {return e[0].evalf();}
static ex f_expand(const exprseq &e) {return e[0].expand();}
static ex f_gcd(const exprseq &e) {return gcd(e[0], e[1]);}
+static ex f_has(const exprseq &e) {return e[0].has(e[1]) ? ex(1) : ex(0);}
static ex f_lcm(const exprseq &e) {return lcm(e[0], e[1]);}
+static ex f_lcoeff(const exprseq &e) {return e[0].lcoeff(e[1]);}
+static ex f_ldegree(const exprseq &e) {return e[0].ldegree(e[1]);}
static ex f_lsolve(const exprseq &e) {return lsolve(e[0], e[1]);}
static ex f_nops(const exprseq &e) {return e[0].nops();}
static ex f_normal1(const exprseq &e) {return e[0].normal();}
static ex f_numer(const exprseq &e) {return e[0].numer();}
+static ex f_numer_denom(const exprseq &e) {return e[0].numer_denom();}
static ex f_pow(const exprseq &e) {return pow(e[0], e[1]);}
static ex f_sqrt(const exprseq &e) {return sqrt(e[0]);}
+static ex f_sqrfree1(const exprseq &e) {return sqrfree(e[0]);}
static ex f_subs2(const exprseq &e) {return e[0].subs(e[1]);}
+static ex f_tcoeff(const exprseq &e) {return e[0].tcoeff(e[1]);}
#define CHECK_ARG(num, type, fcn) if (!is_ex_of_type(e[num], type)) throw(std::invalid_argument("argument " #num " to " #fcn "() must be a " #type))
static ex f_coeff(const exprseq &e)
{
- CHECK_ARG(1, symbol, coeff);
CHECK_ARG(2, numeric, coeff);
- return e[0].coeff(ex_to_symbol(e[1]), ex_to_numeric(e[2]).to_int());
-}
-
-static ex f_collect(const exprseq &e)
-{
- CHECK_ARG(1, symbol, collect);
- return e[0].collect(ex_to_symbol(e[1]));
+ return e[0].coeff(e[1], ex_to_numeric(e[2]).to_int());
}
static ex f_content(const exprseq &e)
return e[0].content(ex_to_symbol(e[1]));
}
-static ex f_degree(const exprseq &e)
-{
- CHECK_ARG(1, symbol, degree);
- return e[0].degree(ex_to_symbol(e[1]));
-}
-
static ex f_determinant(const exprseq &e)
{
CHECK_ARG(0, matrix, determinant);
if (divide(e[0], e[1], q))
return q;
else
- return *new fail();
+ return fail();
}
static ex f_eval2(const exprseq &e)
return e[0].evalf(ex_to_numeric(e[1]).to_int());
}
-static ex f_has(const exprseq &e)
-{
- return e[0].has(e[1]) ? ex(1) : ex(0);
-}
-
static ex f_inverse(const exprseq &e)
{
CHECK_ARG(0, matrix, inverse);
return (bool)ex_to_relational(e[0]) ? ex(1) : ex(0);
}
-static ex f_lcoeff(const exprseq &e)
+static ex f_match(const exprseq &e)
{
- CHECK_ARG(1, symbol, lcoeff);
- return e[0].lcoeff(ex_to_symbol(e[1]));
-}
-
-static ex f_ldegree(const exprseq &e)
-{
- CHECK_ARG(1, symbol, ldegree);
- return e[0].ldegree(ex_to_symbol(e[1]));
+ lst repl_lst;
+ if (e[0].match(e[1], repl_lst))
+ return repl_lst;
+ else
+ return fail();
}
static ex f_normal2(const exprseq &e)
return e[0].series(e[1], ex_to_numeric(e[2]).to_int());
}
-static ex f_sqrfree(const exprseq &e)
+static ex f_sqrfree2(const exprseq &e)
{
- CHECK_ARG(1, symbol, sqrfree);
- return sqrfree(e[0], ex_to_symbol(e[1]));
+ CHECK_ARG(1, lst, sqrfree);
+ return sqrfree(e[0], ex_to_lst(e[1]));
}
static ex f_subs3(const exprseq &e)
return e[0].subs(ex_to_lst(e[1]), ex_to_lst(e[2]));
}
-static ex f_tcoeff(const exprseq &e)
-{
- CHECK_ARG(1, symbol, tcoeff);
- return e[0].tcoeff(ex_to_symbol(e[1]));
-}
-
static ex f_trace(const exprseq &e)
{
CHECK_ARG(0, matrix, trace);
{"charpoly", fcn_desc(f_charpoly, 2)},
{"coeff", fcn_desc(f_coeff, 3)},
{"collect", fcn_desc(f_collect, 2)},
+ {"collect_distributed", fcn_desc(f_collect_distributed, 2)},
{"content", fcn_desc(f_content, 2)},
{"degree", fcn_desc(f_degree, 2)},
{"denom", fcn_desc(f_denom, 1)},
{"lcoeff", fcn_desc(f_lcoeff, 2)},
{"ldegree", fcn_desc(f_ldegree, 2)},
{"lsolve", fcn_desc(f_lsolve, 2)},
+ {"match", fcn_desc(f_match, 2)},
{"nops", fcn_desc(f_nops, 1)},
{"normal", fcn_desc(f_normal1, 1)},
{"normal", fcn_desc(f_normal2, 2)},
{"numer", fcn_desc(f_numer, 1)},
+ {"numer_denom", fcn_desc(f_numer_denom, 1)},
{"op", fcn_desc(f_op, 2)},
{"pow", fcn_desc(f_pow, 2)},
{"prem", fcn_desc(f_prem, 3)},
{"quo", fcn_desc(f_quo, 3)},
{"rem", fcn_desc(f_rem, 3)},
{"series", fcn_desc(f_series, 3)},
- {"sqrfree", fcn_desc(f_sqrfree, 2)},
+ {"sqrfree", fcn_desc(f_sqrfree1, 1)},
+ {"sqrfree", fcn_desc(f_sqrfree2, 2)},
{"sqrt", fcn_desc(f_sqrt, 1)},
{"subs", fcn_desc(f_subs2, 2)},
{"subs", fcn_desc(f_subs3, 3)},
}
// All registered GiNaC functions
-#ifndef NO_NAMESPACE_GINAC
void GiNaC::ginsh_get_ginac_functions(void)
-#else // ndef NO_NAMESPACE_GINAC
-void ginsh_get_ginac_functions(void)
-#endif // ndef NO_NAMESPACE_GINAC
{
vector<function_options>::const_iterator i = function::registered_functions().begin(), end = function::registered_functions().end();
unsigned serial = 0;
static fcn_tab::const_iterator find_function(const ex &sym, int req_params)
{
- const string &name = ex_to_symbol(sym).getname();
+ const string &name = ex_to_symbol(sym).get_name();
typedef fcn_tab::const_iterator I;
pair<I, I> b = fcns.equal_range(name);
if (b.first == b.second)
rl_completion_append_character = orig_completion_append_character;
rl_basic_word_break_characters = orig_basic_word_break_characters;
rl_completer_word_break_characters = rl_basic_word_break_characters;
+#if (GINAC_RL_VERSION_MAJOR < 4) || (GINAC_RL_VERSION_MAJOR == 4 && GINAC_RL_VERSION_MINOR < 2)
return completion_matches(text, (CPFunction *)filename_completion_function);
+#else
+ return rl_completion_matches(text, (CPFunction *)rl_filename_completion_function);
+#endif
} else {
// Otherwise, complete function names
rl_completion_append_character = '(';
rl_basic_word_break_characters = " \t\n\"#$%&'()*+,-./:;<=>?@[\\]^`{|}~";
rl_completer_word_break_characters = rl_basic_word_break_characters;
+#if (GINAC_RL_VERSION_MAJOR < 4) || (GINAC_RL_VERSION_MAJOR == 4 && GINAC_RL_VERSION_MINOR < 2)
return completion_matches(text, (CPFunction *)fcn_generator);
+#else
+ return rl_completion_matches(text, (CPFunction *)fcn_generator);
+#endif
}
}