#include "mruby.h" #include "mruby/range.h" #include static mrb_bool r_le(mrb_state *mrb, mrb_value a, mrb_value b) { mrb_value r = mrb_funcall(mrb, a, "<=>", 1, b); /* compare result */ /* output :a < b => -1, a = b => 0, a > b => +1 */ if (mrb_fixnum_p(r)) { mrb_int c = mrb_fixnum(r); if (c == 0 || c == -1) return TRUE; } return FALSE; } static mrb_bool r_lt(mrb_state *mrb, mrb_value a, mrb_value b) { mrb_value r = mrb_funcall(mrb, a, "<=>", 1, b); /* output :a < b => -1, a = b => 0, a > b => +1 */ return mrb_fixnum_p(r) && mrb_fixnum(r) == -1; } /* * call-seq: * rng.cover?(obj) -> true or false * * Returns true if +obj+ is between the begin and end of * the range. * * This tests begin <= obj <= end when #exclude_end? is +false+ * and begin <= obj < end when #exclude_end? is +true+. * * ("a".."z").cover?("c") #=> true * ("a".."z").cover?("5") #=> false * ("a".."z").cover?("cc") #=> true */ static mrb_value mrb_range_cover(mrb_state *mrb, mrb_value range) { mrb_value val; struct RRange *r = mrb_range_ptr(range); mrb_value beg, end; mrb_get_args(mrb, "o", &val); beg = r->edges->beg; end = r->edges->end; if (r_le(mrb, beg, val)) { if (r->excl) { if (r_lt(mrb, val, end)) return mrb_true_value(); } else { if (r_le(mrb, val, end)) return mrb_true_value(); } } return mrb_false_value(); } /* * call-seq: * rng.first -> obj * rng.first(n) -> an_array * * Returns the first object in the range, or an array of the first +n+ * elements. * * (10..20).first #=> 10 * (10..20).first(3) #=> [10, 11, 12] */ static mrb_value mrb_range_first(mrb_state *mrb, mrb_value range) { mrb_int num; mrb_value array; struct RRange *r = mrb_range_ptr(range); if (mrb_get_args(mrb, "|i", &num) == 0) { return r->edges->beg; } array = mrb_funcall(mrb, range, "to_a", 0); return mrb_funcall(mrb, array, "first", 1, mrb_fixnum_value(num)); } /* * call-seq: * rng.last -> obj * rng.last(n) -> an_array * * Returns the last object in the range, * or an array of the last +n+ elements. * * Note that with no arguments +last+ will return the object that defines * the end of the range even if #exclude_end? is +true+. * * (10..20).last #=> 20 * (10...20).last #=> 20 * (10..20).last(3) #=> [18, 19, 20] * (10...20).last(3) #=> [17, 18, 19] */ static mrb_value mrb_range_last(mrb_state *mrb, mrb_value range) { mrb_value num; mrb_value array; struct RRange *r = mrb_range_ptr(range); if (mrb_get_args(mrb, "|o", &num) == 0) { return r->edges->end; } array = mrb_funcall(mrb, range, "to_a", 0); return mrb_funcall(mrb, array, "last", 1, mrb_to_int(mrb, num)); } /* * call-seq: * rng.size -> num * * Returns the number of elements in the range. Both the begin and the end of * the Range must be Numeric, otherwise nil is returned. * * (10..20).size #=> 11 * ('a'..'z').size #=> nil */ static mrb_value mrb_range_size(mrb_state *mrb, mrb_value range) { struct RRange *r = mrb_range_ptr(range); mrb_value beg, end; double beg_f, end_f; mrb_bool num_p = TRUE; beg = r->edges->beg; end = r->edges->end; if (mrb_fixnum_p(beg)) { beg_f = (double)mrb_fixnum(beg); } else if (mrb_float_p(beg)) { beg_f = mrb_float(beg); } else { num_p = FALSE; } if (mrb_fixnum_p(end)) { end_f = (double)mrb_fixnum(end); } else if (mrb_float_p(end)) { end_f = mrb_float(end); } else { num_p = FALSE; } if (num_p) { double f; if (beg_f > end_f) return mrb_fixnum_value(0); f = end_f - beg_f; if (!r->excl) { return mrb_fixnum_value((mrb_int)ceil(f + 1)); } return mrb_fixnum_value((mrb_int)ceil(f)); } return mrb_nil_value(); } void mrb_mruby_range_ext_gem_init(mrb_state* mrb) { struct RClass * s = mrb_class_get(mrb, "Range"); mrb_define_method(mrb, s, "cover?", mrb_range_cover, MRB_ARGS_REQ(1)); mrb_define_method(mrb, s, "first", mrb_range_first, MRB_ARGS_OPT(1)); mrb_define_method(mrb, s, "last", mrb_range_last, MRB_ARGS_OPT(1)); mrb_define_method(mrb, s, "size", mrb_range_size, MRB_ARGS_NONE()); } void mrb_mruby_range_ext_gem_final(mrb_state* mrb) { }