#undef int_t #define int_t int64_t static void <%=c_iter%>(na_loop_t *const lp) { size_t i; BIT_DIGIT *a1; size_t p1; char *p2; ssize_t s1, s2; size_t *idx1; BIT_DIGIT x=0; int_t y; INIT_COUNTER(lp, i); INIT_PTR_BIT_IDX(lp, 0, a1, p1, s1, idx1); INIT_PTR(lp, 1, p2, s2); if (s2==0) { GET_DATA(p2, int_t, y); if (idx1) { for (; i--;) { LOAD_BIT(a1, p1+*idx1, x); idx1++; if (m_<%=name%>(x)) { y++; } } } else { for (; i--;) { LOAD_BIT(a1, p1, x); p1 += s1; if (m_<%=name%>(x)) { y++; } } } *(int_t*)p2 = y; } else { if (idx1) { for (; i--;) { LOAD_BIT(a1, p1+*idx1, x); idx1++; if (m_<%=name%>(x)) { GET_DATA(p2, int_t, y); y++; SET_DATA(p2, int_t, y); } p2+=s2; } } else { for (; i--;) { LOAD_BIT(a1, p1, x); p1+=s1; if (m_<%=name%>(x)) { GET_DATA(p2, int_t, y); y++; SET_DATA(p2, int_t, y); } p2+=s2; } } } } /* Returns the number of bits. If argument is supplied, return Int-array counted along the axes. @overload <%=op_map%>(axis:nil, keepdims:false) @param [Integer,Array,Range] axis (keyword) axes to be counted. @param [TrueClass] keepdims (keyword) If true, the reduced axes are left in the result array as dimensions with size one. @return [Numo::Int64] */ static VALUE <%=c_func(-1)%>(int argc, VALUE *argv, VALUE self) { VALUE v, reduce; ndfunc_arg_in_t ain[3] = {{cT,0},{sym_reduce,0},{sym_init,0}}; ndfunc_arg_out_t aout[1] = {{numo_cInt64,0}}; ndfunc_t ndf = { <%=c_iter%>, FULL_LOOP_NIP, 3, 1, ain, aout }; reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0); v = na_ndloop(&ndf, 3, self, reduce, INT2FIX(0)); return rb_funcall(v,rb_intern("extract"),0); }