X-Git-Url: https://www.ginac.de/ginac.git//ginac.git?p=ginac.git;a=blobdiff_plain;f=ginac%2Fpower.cpp;h=58913a8bcfd1a786f377c2b667e1cc0be4209292;hp=f292ff8b0daecc4f4d50d710d2358128eb8f2551;hb=15488b9eb5663b65751fa355567f607c98a929f0;hpb=c378e979c7a9b9807941b27adbac690699abe70c diff --git a/ginac/power.cpp b/ginac/power.cpp index f292ff8b..58913a8b 100644 --- a/ginac/power.cpp +++ b/ginac/power.cpp @@ -36,7 +36,6 @@ #include "symbol.h" #include "print.h" #include "archive.h" -#include "debugmsg.h" #include "utils.h" namespace GiNaC { @@ -46,13 +45,10 @@ GINAC_IMPLEMENT_REGISTERED_CLASS(power, basic) typedef std::vector intvector; ////////// -// default ctor, dtor, copy ctor assignment operator and helpers +// default ctor, dtor, copy ctor, assignment operator and helpers ////////// -power::power() : inherited(TINFO_power) -{ - debugmsg("power default ctor",LOGLEVEL_CONSTRUCT); -} +power::power() : inherited(TINFO_power) { } void power::copy(const power & other) { @@ -75,7 +71,6 @@ DEFAULT_DESTROY(power) power::power(const archive_node &n, const lst &sym_lst) : inherited(n, sym_lst) { - debugmsg("power ctor from archive_node", LOGLEVEL_CONSTRUCT); n.find_ex("basis", basis, sym_lst); n.find_ex("exponent", exponent, sym_lst); } @@ -121,8 +116,6 @@ static void print_sym_pow(const print_context & c, const symbol &x, int exp) void power::print(const print_context & c, unsigned level) const { - debugmsg("power print", LOGLEVEL_PRINT); - if (is_a(c)) { inherited::print(c, level); @@ -146,7 +139,7 @@ void power::print(const print_context & c, unsigned level) const c.s << ')'; // ^-1 is printed as "1.0/" or with the recip() function of CLN - } else if (exponent.compare(_num_1()) == 0) { + } else if (exponent.compare(_num_1) == 0) { if (is_a(c)) c.s << "recip("; else @@ -168,7 +161,7 @@ void power::print(const print_context & c, unsigned level) const } else { - if (exponent.is_equal(_ex1_2())) { + if (exponent.is_equal(_ex1_2)) { if (is_a(c)) c.s << "\\sqrt{"; else @@ -240,13 +233,10 @@ ex power::map(map_function & f) const int power::degree(const ex & s) const { - if (is_exactly_of_type(*exponent.bp,numeric)) { - if (basis.is_equal(s)) { - if (ex_to(exponent).is_integer()) - return ex_to(exponent).to_int(); - else - return 0; - } else + if (is_ex_exactly_of_type(exponent, numeric) && ex_to(exponent).is_integer()) { + if (basis.is_equal(s)) + return ex_to(exponent).to_int(); + else return basis.degree(s) * ex_to(exponent).to_int(); } return 0; @@ -254,13 +244,10 @@ int power::degree(const ex & s) const int power::ldegree(const ex & s) const { - if (is_exactly_of_type(*exponent.bp,numeric)) { - if (basis.is_equal(s)) { - if (ex_to(exponent).is_integer()) - return ex_to(exponent).to_int(); - else - return 0; - } else + if (is_ex_exactly_of_type(exponent, numeric) && ex_to(exponent).is_integer()) { + if (basis.is_equal(s)) + return ex_to(exponent).to_int(); + else return basis.ldegree(s) * ex_to(exponent).to_int(); } return 0; @@ -273,22 +260,22 @@ ex power::coeff(const ex & s, int n) const if (n == 0) return *this; else - return _ex0(); + return _ex0; } else { // basis equal to s - if (is_exactly_of_type(*exponent.bp, numeric) && ex_to(exponent).is_integer()) { + if (is_ex_exactly_of_type(exponent, numeric) && ex_to(exponent).is_integer()) { // integer exponent int int_exp = ex_to(exponent).to_int(); if (n == int_exp) - return _ex1(); + return _ex1; else - return _ex0(); + return _ex0; } else { // non-integer exponents are treated as zero if (n == 0) return *this; else - return _ex0(); + return _ex0; } } } @@ -309,8 +296,6 @@ ex power::coeff(const ex & s, int n) const * @param level cut-off in recursive evaluation */ ex power::eval(int level) const { - debugmsg("power eval",LOGLEVEL_MEMBER_FUNCTION); - if ((level==1) && (flags & status_flags::evaluated)) return *this; else if (level == -max_recursion_level) @@ -324,13 +309,13 @@ ex power::eval(int level) const const numeric *num_basis; const numeric *num_exponent; - if (is_exactly_of_type(*ebasis.bp,numeric)) { + if (is_ex_exactly_of_type(ebasis, numeric)) { basis_is_numerical = true; - num_basis = static_cast(ebasis.bp); + num_basis = &ex_to(ebasis); } - if (is_exactly_of_type(*eexponent.bp,numeric)) { + if (is_ex_exactly_of_type(eexponent, numeric)) { exponent_is_numerical = true; - num_exponent = static_cast(eexponent.bp); + num_exponent = &ex_to(eexponent); } // ^(x,0) -> 1 (0^0 also handled here) @@ -338,11 +323,11 @@ ex power::eval(int level) const if (ebasis.is_zero()) throw (std::domain_error("power::eval(): pow(0,0) is undefined")); else - return _ex1(); + return _ex1; } // ^(x,1) -> x - if (eexponent.is_equal(_ex1())) + if (eexponent.is_equal(_ex1)) return ebasis; // ^(0,c1) -> 0 or exception (depending on real value of c1) @@ -352,12 +337,12 @@ ex power::eval(int level) const else if ((num_exponent->real()).is_negative()) throw (pole_error("power::eval(): division by zero",1)); else - return _ex0(); + return _ex0; } // ^(1,x) -> 1 - if (ebasis.is_equal(_ex1())) - return _ex1(); + if (ebasis.is_equal(_ex1)) + return _ex1; if (exponent_is_numerical) { @@ -426,7 +411,7 @@ ex power::eval(int level) const if (is_ex_exactly_of_type(sub_exponent,numeric)) { const numeric & num_sub_exponent = ex_to(sub_exponent); GINAC_ASSERT(num_sub_exponent!=numeric(1)); - if (num_exponent->is_integer() || (abs(num_sub_exponent) - _num1()).is_negative()) + if (num_exponent->is_integer() || (abs(num_sub_exponent) - _num1).is_negative()) return power(sub_basis,num_sub_exponent.mul(*num_exponent)); } } @@ -441,21 +426,21 @@ ex power::eval(int level) const if (is_ex_exactly_of_type(ebasis,mul)) { GINAC_ASSERT(!num_exponent->is_integer()); // should have been handled above const mul & mulref = ex_to(ebasis); - if (!mulref.overall_coeff.is_equal(_ex1())) { + if (!mulref.overall_coeff.is_equal(_ex1)) { const numeric & num_coeff = ex_to(mulref.overall_coeff); if (num_coeff.is_real()) { if (num_coeff.is_positive()) { mul *mulp = new mul(mulref); - mulp->overall_coeff = _ex1(); + mulp->overall_coeff = _ex1; mulp->clearflag(status_flags::evaluated); mulp->clearflag(status_flags::hash_calculated); return (new mul(power(*mulp,exponent), power(num_coeff,*num_exponent)))->setflag(status_flags::dynallocated); } else { - GINAC_ASSERT(num_coeff.compare(_num0())<0); - if (num_coeff.compare(_num_1())!=0) { + GINAC_ASSERT(num_coeff.compare(_num0)<0); + if (!num_coeff.is_equal(_num_1)) { mul *mulp = new mul(mulref); - mulp->overall_coeff = _ex_1(); + mulp->overall_coeff = _ex_1; mulp->clearflag(status_flags::evaluated); mulp->clearflag(status_flags::hash_calculated); return (new mul(power(*mulp,exponent), @@ -484,8 +469,6 @@ ex power::eval(int level) const ex power::evalf(int level) const { - debugmsg("power evalf",LOGLEVEL_MEMBER_FUNCTION); - ex ebasis; ex eexponent; @@ -496,7 +479,7 @@ ex power::evalf(int level) const throw(std::runtime_error("max recursion level reached")); } else { ebasis = basis.evalf(level-1); - if (!is_ex_exactly_of_type(eexponent,numeric)) + if (!is_exactly_a(exponent)) eexponent = exponent.evalf(level-1); else eexponent = exponent; @@ -526,7 +509,7 @@ ex power::subs(const lst & ls, const lst & lr, bool no_pattern) const && are_ex_trivially_equal(exponent, subsed_exponent)) return basic::subs(ls, lr, no_pattern); else - return ex(power(subsed_basis, subsed_exponent)).bp->basic::subs(ls, lr, no_pattern); + return power(subsed_basis, subsed_exponent).basic::subs(ls, lr, no_pattern); } ex power::simplify_ncmul(const exvector & v) const @@ -544,20 +527,20 @@ ex power::derivative(const symbol & s) const // D(b^r) = r * b^(r-1) * D(b) (faster than the formula below) epvector newseq; newseq.reserve(2); - newseq.push_back(expair(basis, exponent - _ex1())); - newseq.push_back(expair(basis.diff(s), _ex1())); + newseq.push_back(expair(basis, exponent - _ex1)); + newseq.push_back(expair(basis.diff(s), _ex1)); return mul(newseq, exponent); } else { // D(b^e) = b^e * (D(e)*ln(b) + e*D(b)/b) return mul(*this, add(mul(exponent.diff(s), log(basis)), - mul(mul(exponent, basis.diff(s)), power(basis, _ex_1())))); + mul(mul(exponent, basis.diff(s)), power(basis, _ex_1)))); } } int power::compare_same_type(const basic & other) const { - GINAC_ASSERT(is_exactly_of_type(other, power)); + GINAC_ASSERT(is_exactly_a(other)); const power &o = static_cast(other); int cmpval = basis.compare(o.basis); @@ -677,13 +660,13 @@ ex power::expand_add(const add & a, int n) const term.reserve(m+1); for (l=0; l(b).exponent,numeric) || + GINAC_ASSERT(!is_exactly_a(b)); + GINAC_ASSERT(!is_exactly_a(b) || + !is_exactly_a(ex_to(b).exponent) || !ex_to(ex_to(b).exponent).is_pos_integer() || - !is_ex_exactly_of_type(ex_to(b).basis,add) || - !is_ex_exactly_of_type(ex_to(b).basis,mul) || - !is_ex_exactly_of_type(ex_to(b).basis,power)); + !is_exactly_a(ex_to(b).basis) || + !is_exactly_a(ex_to(b).basis) || + !is_exactly_a(ex_to(b).basis)); if (is_ex_exactly_of_type(b,mul)) term.push_back(expand_mul(ex_to(b),numeric(k[l]))); else @@ -691,13 +674,13 @@ ex power::expand_add(const add & a, int n) const } const ex & b = a.op(l); - GINAC_ASSERT(!is_ex_exactly_of_type(b,add)); - GINAC_ASSERT(!is_ex_exactly_of_type(b,power) || - !is_ex_exactly_of_type(ex_to(b).exponent,numeric) || + GINAC_ASSERT(!is_exactly_a(b)); + GINAC_ASSERT(!is_exactly_a(b) || + !is_exactly_a(ex_to(b).exponent) || !ex_to(ex_to(b).exponent).is_pos_integer() || - !is_ex_exactly_of_type(ex_to(b).basis,add) || - !is_ex_exactly_of_type(ex_to(b).basis,mul) || - !is_ex_exactly_of_type(ex_to(b).basis,power)); + !is_exactly_a(ex_to(b).basis) || + !is_exactly_a(ex_to(b).basis) || + !is_exactly_a(ex_to(b).basis)); if (is_ex_exactly_of_type(b,mul)) term.push_back(expand_mul(ex_to(b),numeric(n-k_cum[m-2]))); else @@ -752,29 +735,29 @@ ex power::expand_add_2(const add & a) const const ex & r = cit0->rest; const ex & c = cit0->coeff; - GINAC_ASSERT(!is_ex_exactly_of_type(r,add)); - GINAC_ASSERT(!is_ex_exactly_of_type(r,power) || - !is_ex_exactly_of_type(ex_to(r).exponent,numeric) || + GINAC_ASSERT(!is_exactly_a(r)); + GINAC_ASSERT(!is_exactly_a(r) || + !is_exactly_a(ex_to(r).exponent) || !ex_to(ex_to(r).exponent).is_pos_integer() || - !is_ex_exactly_of_type(ex_to(r).basis,add) || - !is_ex_exactly_of_type(ex_to(r).basis,mul) || - !is_ex_exactly_of_type(ex_to(r).basis,power)); + !is_exactly_a(ex_to(r).basis) || + !is_exactly_a(ex_to(r).basis) || + !is_exactly_a(ex_to(r).basis)); - if (are_ex_trivially_equal(c,_ex1())) { + if (are_ex_trivially_equal(c,_ex1)) { if (is_ex_exactly_of_type(r,mul)) { - sum.push_back(expair(expand_mul(ex_to(r),_num2()), - _ex1())); + sum.push_back(expair(expand_mul(ex_to(r),_num2), + _ex1)); } else { - sum.push_back(expair((new power(r,_ex2()))->setflag(status_flags::dynallocated), - _ex1())); + sum.push_back(expair((new power(r,_ex2))->setflag(status_flags::dynallocated), + _ex1)); } } else { if (is_ex_exactly_of_type(r,mul)) { - sum.push_back(expair(expand_mul(ex_to(r),_num2()), - ex_to(c).power_dyn(_num2()))); + sum.push_back(expair(expand_mul(ex_to(r),_num2), + ex_to(c).power_dyn(_num2))); } else { - sum.push_back(expair((new power(r,_ex2()))->setflag(status_flags::dynallocated), - ex_to(c).power_dyn(_num2()))); + sum.push_back(expair((new power(r,_ex2))->setflag(status_flags::dynallocated), + ex_to(c).power_dyn(_num2))); } } @@ -782,7 +765,7 @@ ex power::expand_add_2(const add & a) const const ex & r1 = cit1->rest; const ex & c1 = cit1->coeff; sum.push_back(a.combine_ex_with_coeff_to_pair((new mul(r,r1))->setflag(status_flags::dynallocated), - _num2().mul(ex_to(c)).mul_dyn(ex_to(c1)))); + _num2.mul(ex_to(c)).mul_dyn(ex_to(c1)))); } } @@ -792,10 +775,10 @@ ex power::expand_add_2(const add & a) const if (!a.overall_coeff.is_zero()) { epvector::const_iterator i = a.seq.begin(), end = a.seq.end(); while (i != end) { - sum.push_back(a.combine_pair_with_coeff_to_pair(*i, ex_to(a.overall_coeff).mul_dyn(_num2()))); + sum.push_back(a.combine_pair_with_coeff_to_pair(*i, ex_to(a.overall_coeff).mul_dyn(_num2))); ++i; } - sum.push_back(expair(ex_to(a.overall_coeff).power_dyn(_num2()),_ex1())); + sum.push_back(expair(ex_to(a.overall_coeff).power_dyn(_num2),_ex1)); } GINAC_ASSERT(sum.size()==(a_nops*(a_nops+1))/2); @@ -808,7 +791,7 @@ ex power::expand_add_2(const add & a) const ex power::expand_mul(const mul & m, const numeric & n) const { if (n.is_zero()) - return _ex1(); + return _ex1; epvector distrseq; distrseq.reserve(m.seq.size()); @@ -827,11 +810,4 @@ ex power::expand_mul(const mul & m, const numeric & n) const return (new mul(distrseq,ex_to(m.overall_coeff).power_dyn(n)))->setflag(status_flags::dynallocated); } -// helper function - -ex sqrt(const ex & a) -{ - return power(a,_ex1_2()); -} - } // namespace GiNaC