X-Git-Url: https://www.ginac.de/ginac.git//ginac.git?p=ginac.git;a=blobdiff_plain;f=ginac%2Finifcns.cpp;h=f7821ed69efa01e7ee05fe5850327d980008ed9f;hp=9a488fe9219b383ff2111a6bc0a808bf14d67a6e;hb=77235661032cfad2ccd0087ad51c53f4d8947faa;hpb=a629d98f0678a30e382283b3b7d4cd3abebaca20 diff --git a/ginac/inifcns.cpp b/ginac/inifcns.cpp index 9a488fe9..f7821ed6 100644 --- a/ginac/inifcns.cpp +++ b/ginac/inifcns.cpp @@ -66,12 +66,114 @@ static ex conjugate_conjugate(const ex & arg) return arg; } +static ex conjugate_real_part(const ex & arg) +{ + return arg.real_part(); +} + +static ex conjugate_imag_part(const ex & arg) +{ + return -arg.imag_part(); +} + REGISTER_FUNCTION(conjugate_function, eval_func(conjugate_eval). evalf_func(conjugate_evalf). print_func(conjugate_print_latex). conjugate_func(conjugate_conjugate). + real_part_func(conjugate_real_part). + imag_part_func(conjugate_imag_part). set_name("conjugate","conjugate")); +////////// +// real part +////////// + +static ex real_part_evalf(const ex & arg) +{ + if (is_exactly_a(arg)) { + return ex_to(arg).real(); + } + return real_part_function(arg).hold(); +} + +static ex real_part_eval(const ex & arg) +{ + return arg.real_part(); +} + +static void real_part_print_latex(const ex & arg, const print_context & c) +{ + c.s << "\\Re"; arg.print(c); c.s << ""; +} + +static ex real_part_conjugate(const ex & arg) +{ + return real_part_function(arg).hold(); +} + +static ex real_part_real_part(const ex & arg) +{ + return real_part_function(arg).hold(); +} + +static ex real_part_imag_part(const ex & arg) +{ + return 0; +} + +REGISTER_FUNCTION(real_part_function, eval_func(real_part_eval). + evalf_func(real_part_evalf). + print_func(real_part_print_latex). + conjugate_func(real_part_conjugate). + real_part_func(real_part_real_part). + imag_part_func(real_part_imag_part). + set_name("real_part","real_part")); + +////////// +// imag part +////////// + +static ex imag_part_evalf(const ex & arg) +{ + if (is_exactly_a(arg)) { + return ex_to(arg).imag(); + } + return imag_part_function(arg).hold(); +} + +static ex imag_part_eval(const ex & arg) +{ + return arg.imag_part(); +} + +static void imag_part_print_latex(const ex & arg, const print_context & c) +{ + c.s << "\\Im"; arg.print(c); c.s << ""; +} + +static ex imag_part_conjugate(const ex & arg) +{ + return imag_part_function(arg).hold(); +} + +static ex imag_part_real_part(const ex & arg) +{ + return imag_part_function(arg).hold(); +} + +static ex imag_part_imag_part(const ex & arg) +{ + return 0; +} + +REGISTER_FUNCTION(imag_part_function, eval_func(imag_part_eval). + evalf_func(imag_part_evalf). + print_func(imag_part_print_latex). + conjugate_func(imag_part_conjugate). + real_part_func(imag_part_real_part). + imag_part_func(imag_part_imag_part). + set_name("imag_part","imag_part")); + ////////// // absolute value ////////// @@ -88,8 +190,14 @@ static ex abs_eval(const ex & arg) { if (is_exactly_a(arg)) return abs(ex_to(arg)); - else - return abs(arg).hold(); + + if (arg.info(info_flags::nonnegative)) + return arg; + + if (is_ex_the_function(arg, abs)) + return arg; + + return abs(arg).hold(); } static void abs_print_latex(const ex & arg, const print_context & c) @@ -107,6 +215,16 @@ static ex abs_conjugate(const ex & arg) return abs(arg); } +static ex abs_real_part(const ex & arg) +{ + return abs(arg).hold(); +} + +static ex abs_imag_part(const ex& arg) +{ + return 0; +} + static ex abs_power(const ex & arg, const ex & exp) { if (arg.is_equal(arg.conjugate()) && is_a(exp) && ex_to(exp).is_even()) @@ -121,8 +239,89 @@ REGISTER_FUNCTION(abs, eval_func(abs_eval). print_func(abs_print_csrc_float). print_func(abs_print_csrc_float). conjugate_func(abs_conjugate). + real_part_func(abs_real_part). + imag_part_func(abs_imag_part). power_func(abs_power)); +////////// +// Step function +////////// + +static ex step_evalf(const ex & arg) +{ + if (is_exactly_a(arg)) + return step(ex_to(arg)); + + return step(arg).hold(); +} + +static ex step_eval(const ex & arg) +{ + if (is_exactly_a(arg)) + return step(ex_to(arg)); + + else if (is_exactly_a(arg) && + is_exactly_a(arg.op(arg.nops()-1))) { + numeric oc = ex_to(arg.op(arg.nops()-1)); + if (oc.is_real()) { + if (oc > 0) + // step(42*x) -> step(x) + return step(arg/oc).hold(); + else + // step(-42*x) -> step(-x) + return step(-arg/oc).hold(); + } + if (oc.real().is_zero()) { + if (oc.imag() > 0) + // step(42*I*x) -> step(I*x) + return step(I*arg/oc).hold(); + else + // step(-42*I*x) -> step(-I*x) + return step(-I*arg/oc).hold(); + } + } + + return step(arg).hold(); +} + +static ex step_series(const ex & arg, + const relational & rel, + int order, + unsigned options) +{ + const ex arg_pt = arg.subs(rel, subs_options::no_pattern); + if (arg_pt.info(info_flags::numeric) + && ex_to(arg_pt).real().is_zero() + && !(options & series_options::suppress_branchcut)) + throw (std::domain_error("step_series(): on imaginary axis")); + + epvector seq; + seq.push_back(expair(step(arg_pt), _ex0)); + return pseries(rel,seq); +} + +static ex step_conjugate(const ex& arg) +{ + return step(arg).hold(); +} + +static ex step_real_part(const ex& arg) +{ + return step(arg).hold(); +} + +static ex step_imag_part(const ex& arg) +{ + return 0; +} + +REGISTER_FUNCTION(step, eval_func(step_eval). + evalf_func(step_evalf). + series_func(step_series). + conjugate_func(step_conjugate). + real_part_func(step_real_part). + imag_part_func(step_imag_part)); + ////////// // Complex sign ////////// @@ -182,13 +381,38 @@ static ex csgn_series(const ex & arg, static ex csgn_conjugate(const ex& arg) { - return csgn(arg); + return csgn(arg).hold(); } +static ex csgn_real_part(const ex& arg) +{ + return csgn(arg).hold(); +} + +static ex csgn_imag_part(const ex& arg) +{ + return 0; +} + +static ex csgn_power(const ex & arg, const ex & exp) +{ + if (is_a(exp) && exp.info(info_flags::positive) && ex_to(exp).is_integer()) { + if (ex_to(exp).is_odd()) + return csgn(arg); + else + return power(csgn(arg), _ex2).hold(); + } else + return power(csgn(arg), exp).hold(); +} + + REGISTER_FUNCTION(csgn, eval_func(csgn_eval). evalf_func(csgn_evalf). series_func(csgn_series). - conjugate_func(csgn_conjugate)); + conjugate_func(csgn_conjugate). + real_part_func(csgn_real_part). + imag_part_func(csgn_imag_part). + power_func(csgn_power)); ////////// @@ -265,7 +489,17 @@ static ex eta_series(const ex & x, const ex & y, static ex eta_conjugate(const ex & x, const ex & y) { - return -eta(x,y); + return -eta(x, y); +} + +static ex eta_real_part(const ex & x, const ex & y) +{ + return 0; +} + +static ex eta_imag_part(const ex & x, const ex & y) +{ + return -I*eta(x, y).hold(); } REGISTER_FUNCTION(eta, eval_func(eta_eval). @@ -273,7 +507,9 @@ REGISTER_FUNCTION(eta, eval_func(eta_eval). series_func(eta_series). latex_name("\\eta"). set_symmetry(sy_symm(0, 1)). - conjugate_func(eta_conjugate)); + conjugate_func(eta_conjugate). + real_part_func(eta_real_part). + imag_part_func(eta_imag_part)); ////////// @@ -488,14 +724,26 @@ static void factorial_print_dflt_latex(const ex & x, const print_context & c) static ex factorial_conjugate(const ex & x) { - return factorial(x); + return factorial(x).hold(); +} + +static ex factorial_real_part(const ex & x) +{ + return factorial(x).hold(); +} + +static ex factorial_imag_part(const ex & x) +{ + return 0; } REGISTER_FUNCTION(factorial, eval_func(factorial_eval). evalf_func(factorial_evalf). print_func(factorial_print_dflt_latex). print_func(factorial_print_dflt_latex). - conjugate_func(factorial_conjugate)); + conjugate_func(factorial_conjugate). + real_part_func(factorial_real_part). + imag_part_func(factorial_imag_part)); ////////// // binomial @@ -540,12 +788,24 @@ static ex binomial_eval(const ex & x, const ex &y) // function, also complex conjugation should be changed (or rather, deleted). static ex binomial_conjugate(const ex & x, const ex & y) { - return binomial(x,y); + return binomial(x,y).hold(); +} + +static ex binomial_real_part(const ex & x, const ex & y) +{ + return binomial(x,y).hold(); +} + +static ex binomial_imag_part(const ex & x, const ex & y) +{ + return 0; } REGISTER_FUNCTION(binomial, eval_func(binomial_eval). evalf_func(binomial_evalf). - conjugate_func(binomial_conjugate)); + conjugate_func(binomial_conjugate). + real_part_func(binomial_real_part). + imag_part_func(binomial_imag_part)); ////////// // Order term function (for truncated power series) @@ -580,7 +840,19 @@ static ex Order_series(const ex & x, const relational & r, int order, unsigned o static ex Order_conjugate(const ex & x) { - return Order(x); + return Order(x).hold(); +} + +static ex Order_real_part(const ex & x) +{ + return Order(x).hold(); +} + +static ex Order_imag_part(const ex & x) +{ + if(x.info(info_flags::real)) + return 0; + return Order(x).hold(); } // Differentiation is handled in function::derivative because of its special requirements @@ -588,7 +860,9 @@ static ex Order_conjugate(const ex & x) REGISTER_FUNCTION(Order, eval_func(Order_eval). series_func(Order_series). latex_name("\\mathcal{O}"). - conjugate_func(Order_conjugate)); + conjugate_func(Order_conjugate). + real_part_func(Order_real_part). + imag_part_func(Order_imag_part)); ////////// // Solve linear system @@ -610,7 +884,7 @@ ex lsolve(const ex &eqns, const ex &symbols, unsigned options) // syntax checks if (!eqns.info(info_flags::list)) { - throw(std::invalid_argument("lsolve(): 1st argument must be a list")); + throw(std::invalid_argument("lsolve(): 1st argument must be a list or an equation")); } for (size_t i=0; i