#include ffi_type * rb_fiddle_int_to_ffi_type(int type) { int signed_p = 1; if (type < 0) { type = -1 * type; signed_p = 0; } #define rb_ffi_type_of(t) (signed_p ? &ffi_type_s##t : &ffi_type_u##t) switch (type) { case TYPE_VOID: return &ffi_type_void; case TYPE_VOIDP: return &ffi_type_pointer; case TYPE_CHAR: return rb_ffi_type_of(char); case TYPE_SHORT: return rb_ffi_type_of(short); case TYPE_INT: return rb_ffi_type_of(int); case TYPE_LONG: return rb_ffi_type_of(long); #if HAVE_LONG_LONG case TYPE_LONG_LONG: return rb_ffi_type_of(long_long); #endif case TYPE_FLOAT: return &ffi_type_float; case TYPE_DOUBLE: return &ffi_type_double; case TYPE_CONST_STRING: return &ffi_type_pointer; default: rb_raise(rb_eRuntimeError, "unknown type %d", type); } return &ffi_type_pointer; } ffi_type * int_to_ffi_type(int type) { return rb_fiddle_int_to_ffi_type(type); } void rb_fiddle_value_to_generic(int type, VALUE *src, fiddle_generic *dst) { switch (type) { case TYPE_VOID: break; case TYPE_VOIDP: dst->pointer = NUM2PTR(rb_Integer(*src)); break; case TYPE_CHAR: dst->schar = (signed char)NUM2INT(*src); break; case -TYPE_CHAR: dst->uchar = (unsigned char)NUM2UINT(*src); break; case TYPE_SHORT: dst->sshort = (unsigned short)NUM2INT(*src); break; case -TYPE_SHORT: dst->sshort = (signed short)NUM2UINT(*src); break; case TYPE_INT: dst->sint = NUM2INT(*src); break; case -TYPE_INT: dst->uint = NUM2UINT(*src); break; case TYPE_LONG: dst->slong = NUM2LONG(*src); break; case -TYPE_LONG: dst->ulong = NUM2ULONG(*src); break; #if HAVE_LONG_LONG case TYPE_LONG_LONG: dst->slong_long = NUM2LL(*src); break; case -TYPE_LONG_LONG: dst->ulong_long = NUM2ULL(*src); break; #endif case TYPE_FLOAT: dst->ffloat = (float)NUM2DBL(*src); break; case TYPE_DOUBLE: dst->ddouble = NUM2DBL(*src); break; case TYPE_CONST_STRING: if (NIL_P(*src)) { dst->pointer = NULL; } else { dst->pointer = rb_string_value_cstr(src); } break; default: rb_raise(rb_eRuntimeError, "unknown type %d", type); } } void value_to_generic(int type, VALUE src, fiddle_generic *dst) { /* src isn't safe from GC when type is TYPE_CONST_STRING and src * isn't String. */ return rb_fiddle_value_to_generic(type, &src, dst); } VALUE rb_fiddle_generic_to_value(VALUE rettype, fiddle_generic retval) { int type = NUM2INT(rettype); VALUE cPointer; cPointer = rb_const_get(mFiddle, rb_intern("Pointer")); switch (type) { case TYPE_VOID: return Qnil; case TYPE_VOIDP: return rb_funcall(cPointer, rb_intern("[]"), 1, PTR2NUM((void *)retval.pointer)); case TYPE_CHAR: return INT2NUM((signed char)retval.fffi_sarg); case -TYPE_CHAR: return INT2NUM((unsigned char)retval.fffi_arg); case TYPE_SHORT: return INT2NUM((signed short)retval.fffi_sarg); case -TYPE_SHORT: return INT2NUM((unsigned short)retval.fffi_arg); case TYPE_INT: return INT2NUM((signed int)retval.fffi_sarg); case -TYPE_INT: return UINT2NUM((unsigned int)retval.fffi_arg); case TYPE_LONG: return LONG2NUM(retval.slong); case -TYPE_LONG: return ULONG2NUM(retval.ulong); #if HAVE_LONG_LONG case TYPE_LONG_LONG: return LL2NUM(retval.slong_long); case -TYPE_LONG_LONG: return ULL2NUM(retval.ulong_long); #endif case TYPE_FLOAT: return rb_float_new(retval.ffloat); case TYPE_DOUBLE: return rb_float_new(retval.ddouble); case TYPE_CONST_STRING: if (retval.pointer) { return rb_str_new_cstr(retval.pointer); } else { return Qnil; } default: rb_raise(rb_eRuntimeError, "unknown type %d", type); } UNREACHABLE; } VALUE generic_to_value(VALUE rettype, fiddle_generic retval) { return rb_fiddle_generic_to_value(rettype, retval); } /* vim: set noet sw=4 sts=4 */