/* ** numeric.c - Numeric, Integer, Float class ** ** See Copyright Notice in mruby.h */ #include #include #include #include MRB_API mrb_value mrb_num_add(mrb_state *mrb, mrb_value x, mrb_value y) { #ifdef MRB_USE_BIGINT if (mrb_bigint_p(x)) { return mrb_bint_add(mrb, x, y); } #endif if (mrb_integer_p(x)) { return mrb_int_add(mrb, x, y); } #ifndef MRB_NO_FLOAT if (mrb_float_p(x)) { return mrb_float_value(mrb, mrb_float(x) + mrb_as_float(mrb, y)); } #endif #if defined(MRB_USE_RATIONAL) || defined(MRB_USE_COMPLEX) switch (mrb_type(x)) { #if defined(MRB_USE_RATIONAL) case MRB_TT_RATIONAL: return mrb_rational_add(mrb, x, y); #endif #if defined(MRB_USE_COMPLEX) case MRB_TT_COMPLEX: return mrb_complex_add(mrb, x, y); #endif default: break; } #endif mrb_raise(mrb, E_TYPE_ERROR, "no number addition"); return mrb_nil_value(); /* not reached */ } MRB_API mrb_value mrb_num_sub(mrb_state *mrb, mrb_value x, mrb_value y) { #ifdef MRB_USE_BIGINT if (mrb_bigint_p(x)) { return mrb_bint_sub(mrb, x, y); } #endif if (mrb_integer_p(x)) { return mrb_int_sub(mrb, x, y); } #ifndef MRB_NO_FLOAT if (mrb_float_p(x)) { return mrb_float_value(mrb, mrb_float(x) - mrb_as_float(mrb, y)); } #endif #if defined(MRB_USE_RATIONAL) || defined(MRB_USE_COMPLEX) switch (mrb_type(x)) { #if defined(MRB_USE_RATIONAL) case MRB_TT_RATIONAL: return mrb_rational_sub(mrb, x, y); #endif #if defined(MRB_USE_COMPLEX) case MRB_TT_COMPLEX: return mrb_complex_sub(mrb, x, y); #endif default: break; } #endif mrb_raise(mrb, E_TYPE_ERROR, "no number subtraction"); return mrb_nil_value(); /* not reached */ } MRB_API mrb_value mrb_num_mul(mrb_state *mrb, mrb_value x, mrb_value y) { #ifdef MRB_USE_BIGINT if (mrb_bigint_p(x)) { return mrb_bint_mul(mrb, x, y); } #endif if (mrb_integer_p(x)) { return mrb_int_mul(mrb, x, y); } #ifndef MRB_NO_FLOAT if (mrb_float_p(x)) { return mrb_float_value(mrb, mrb_float(x) * mrb_as_float(mrb, y)); } #endif #if defined(MRB_USE_RATIONAL) || defined(MRB_USE_COMPLEX) switch (mrb_type(x)) { #if defined(MRB_USE_RATIONAL) case MRB_TT_RATIONAL: return mrb_rational_mul(mrb, x, y); #endif #if defined(MRB_USE_COMPLEX) case MRB_TT_COMPLEX: return mrb_complex_mul(mrb, x, y); #endif default: break; } #endif mrb_raise(mrb, E_TYPE_ERROR, "no number multiply"); return mrb_nil_value(); /* not reached */ }