print_func<print_latex>(&power::do_print_latex).
print_func<print_csrc>(&power::do_print_csrc).
print_func<print_python>(&power::do_print_python).
- print_func<print_python_repr>(&power::do_print_python_repr))
+ print_func<print_python_repr>(&power::do_print_python_repr).
+ print_func<print_csrc_cl_N>(&power::do_print_csrc_cl_N))
typedef std::vector<int> intvector;
}
}
+void power::do_print_csrc_cl_N(const print_csrc_cl_N& c, unsigned level) const
+{
+ if (exponent.is_equal(_ex_1)) {
+ c.s << "recip(";
+ basis.print(c);
+ c.s << ')';
+ return;
+ }
+ c.s << "expt(";
+ basis.print(c);
+ c.s << ", ";
+ exponent.print(c);
+ c.s << ')';
+}
+
void power::do_print_csrc(const print_csrc & c, unsigned level) const
{
// Integer powers of symbols are printed in a special, optimized way
c.s << '(';
else {
exp = -exp;
- if (is_a<print_csrc_cl_N>(c))
- c.s << "recip(";
- else
- c.s << "1.0/(";
+ c.s << "1.0/(";
}
print_sym_pow(c, ex_to<symbol>(basis), exp);
c.s << ')';
// <expr>^-1 is printed as "1.0/<expr>" or with the recip() function of CLN
} else if (exponent.is_equal(_ex_1)) {
- if (is_a<print_csrc_cl_N>(c))
- c.s << "recip(";
- else
- c.s << "1.0/(";
+ c.s << "1.0/(";
basis.print(c);
c.s << ')';
- // Otherwise, use the pow() or expt() (CLN) functions
+ // Otherwise, use the pow() function
} else {
- if (is_a<print_csrc_cl_N>(c))
- c.s << "expt(";
- else
- c.s << "pow(";
+ c.s << "pow(";
basis.print(c);
c.s << ',';
exponent.print(c);