#include "pocketpy/interpreter/vm.h" #include "pocketpy/common/sstream.h" #include "pocketpy/pocketpy.h" bool pk__object_new(int argc, py_Ref argv) { if(argc == 0) return TypeError("object.__new__(): not enough arguments"); py_TypeInfo* ti = py_touserdata(argv); py_Type cls = ti->index; if(!ti->is_python) { return TypeError("object.__new__(%t) is not safe, use %t.__new__() instead", cls, cls); } py_newobject(py_retval(), cls, -1, 0); return true; } static bool object__hash__(int argc, py_Ref argv) { PY_CHECK_ARGC(1); assert(argv->is_ptr); py_newint(py_retval(), (intptr_t)argv->_obj); return true; } static bool object__eq__(int argc, py_Ref argv) { PY_CHECK_ARGC(2); bool res = py_isidentical(py_arg(0), py_arg(1)); py_newbool(py_retval(), res); return true; } static bool object__ne__(int argc, py_Ref argv) { PY_CHECK_ARGC(2); bool res = py_isidentical(py_arg(0), py_arg(1)); py_newbool(py_retval(), !res); return true; } static bool object__repr__(int argc, py_Ref argv) { PY_CHECK_ARGC(1); assert(argv->is_ptr); c11_sbuf buf; c11_sbuf__ctor(&buf); pk_sprintf(&buf, "<%t object at %p>", argv->type, argv->_obj); c11_sbuf__py_submit(&buf, py_retval()); return true; } static bool object__dict__(int argc, py_Ref argv) { PY_CHECK_ARGC(1); if(argv->is_ptr && argv->_obj->slots == -1) { pk_mappingproxy__namedict(py_retval(), argv); } else { py_newnone(py_retval()); } return true; } static bool type__repr__(int argc, py_Ref argv) { PY_CHECK_ARGC(1); c11_sbuf buf; c11_sbuf__ctor(&buf); pk_sprintf(&buf, "", py_totype(argv)); c11_sbuf__py_submit(&buf, py_retval()); return true; } static bool type__new__(int argc, py_Ref argv) { PY_CHECK_ARGC(2); py_Type type = py_typeof(py_arg(1)); py_assign(py_retval(), py_tpobject(type)); return true; } static bool type__base__(int argc, py_Ref argv) { PY_CHECK_ARGC(1); py_TypeInfo* ti = py_touserdata(argv); if(ti->base) { py_assign(py_retval(), &ti->base_ti->self); } else { py_newnone(py_retval()); } return true; } static bool type__name__(int argc, py_Ref argv) { PY_CHECK_ARGC(1); py_TypeInfo* ti = py_touserdata(argv); py_assign(py_retval(), py_name2ref(ti->name)); return true; } static bool type__getitem__(int argc, py_Ref argv) { py_assign(py_retval(), argv); return true; } static bool type__or__(int argc, py_Ref argv) { py_assign(py_retval(), argv); return true; } static bool type__module__(int argc, py_Ref argv) { PY_CHECK_ARGC(1); py_TypeInfo* ti = py_touserdata(argv); if(py_isnil(ti->module)) { py_newnone(py_retval()); } else { py_ModuleInfo* mi = py_touserdata(ti->module); py_newstrv(py_retval(), c11_string__sv(mi->path)); } return true; } static bool type__annotations__(int argc, py_Ref argv) { PY_CHECK_ARGC(1); py_TypeInfo* ti = py_touserdata(argv); if(py_isnil(&ti->annotations)) { py_newdict(py_retval()); } else { py_assign(py_retval(), &ti->annotations); } return true; } void pk_object__register() { py_bindmagic(tp_object, __new__, pk__object_new); py_bindmagic(tp_object, __hash__, object__hash__); py_bindmagic(tp_object, __eq__, object__eq__); py_bindmagic(tp_object, __ne__, object__ne__); py_bindmagic(tp_object, __repr__, object__repr__); py_bindmagic(tp_type, __repr__, type__repr__); py_bindmagic(tp_type, __new__, type__new__); py_bindmagic(tp_type, __getitem__, type__getitem__); py_bindmagic(tp_type, __or__, type__or__); py_bindproperty(tp_type, "__module__", type__module__, NULL); py_bindproperty(tp_type, "__base__", type__base__, NULL); py_bindproperty(tp_type, "__name__", type__name__, NULL); py_bindproperty(tp_object, "__dict__", object__dict__, NULL); py_bindproperty(tp_type, "__annotations__", type__annotations__, NULL); }