#include "pocketpy/ceval.h" namespace pkpy{ #define BINARY_F_COMPARE(func, op, rfunc) \ PyObject* ret; \ const PyTypeInfo* _ti = _inst_type_info(_0); \ if(_ti->m##func){ \ ret = _ti->m##func(this, _0, _1); \ }else{ \ PyObject* self; \ PyObject* _2 = get_unbound_method(_0, func, &self, false); \ if(_2 != nullptr) ret = call_method(self, _2, _1); \ else ret = NotImplemented; \ } \ if(ret == NotImplemented){ \ PyObject* self; \ PyObject* _2 = get_unbound_method(_1, rfunc, &self, false); \ if(_2 != nullptr) ret = call_method(self, _2, _0); \ else BinaryOptError(op, _0, _1); \ if(ret == NotImplemented) BinaryOptError(op, _0, _1); \ } bool VM::py_lt(PyObject* _0, PyObject* _1){ BINARY_F_COMPARE(__lt__, "<", __gt__); return ret == True; } bool VM::py_le(PyObject* _0, PyObject* _1){ BINARY_F_COMPARE(__le__, "<=", __ge__); return ret == True; } bool VM::py_gt(PyObject* _0, PyObject* _1){ BINARY_F_COMPARE(__gt__, ">", __lt__); return ret == True; } bool VM::py_ge(PyObject* _0, PyObject* _1){ BINARY_F_COMPARE(__ge__, ">=", __le__); return ret == True; } #undef BINARY_F_COMPARE // static i64 _py_sint(PyObject* obj) noexcept { // return (i64)(PK_BITS(obj) >> 2); // } PyObject* VM::_run_top_frame(){ FrameId frame = top_frame(); const int base_id = frame.index; bool need_raise = false; while(true){ #if PK_DEBUG_EXTRA_CHECK if(frame.index < base_id) PK_FATAL_ERROR(); #endif try{ if(need_raise){ need_raise = false; _raise(); } /**********************************************************************/ /* NOTE: * Be aware of accidental gc! * DO NOT leave any strong reference of PyObject* in the C stack */ { #define CEVAL_STEP_CALLBACK() \ if(_ceval_on_step) _ceval_on_step(this, frame.get(), byte); \ if(_profiler) _profiler->_step(frame); #define DISPATCH_OP_CALL() { frame = top_frame(); goto __NEXT_FRAME; } __NEXT_FRAME: // cache const CodeObject* co = frame->co; const auto& co_consts = co->consts; const Bytecode* co_codes = co->codes.data(); Bytecode byte = co_codes[frame->next_bytecode()]; CEVAL_STEP_CALLBACK(); #define TARGET(op) case OP_##op: #define DISPATCH() { byte = co_codes[frame->next_bytecode()]; CEVAL_STEP_CALLBACK(); goto __NEXT_STEP;} __NEXT_STEP:; #if PK_DEBUG_CEVAL_STEP _log_s_data(); #endif switch (byte.op) { TARGET(NO_OP) DISPATCH(); /*****************************************/ TARGET(POP_TOP) POP(); DISPATCH(); TARGET(DUP_TOP) PUSH(TOP()); DISPATCH(); TARGET(ROT_TWO) std::swap(TOP(), SECOND()); DISPATCH(); TARGET(ROT_THREE){ PyObject* _0 = TOP(); TOP() = SECOND(); SECOND() = THIRD(); THIRD() = _0; } DISPATCH(); TARGET(PRINT_EXPR){ if(TOP() != None) stdout_write(CAST(Str&, py_repr(TOP())) + "\n"); POP(); } DISPATCH(); /*****************************************/ TARGET(LOAD_CONST) if(heap._should_auto_collect()) heap._auto_collect(); PUSH(co_consts[byte.arg]); DISPATCH(); TARGET(LOAD_NONE) PUSH(None); DISPATCH(); TARGET(LOAD_TRUE) PUSH(True); DISPATCH(); TARGET(LOAD_FALSE) PUSH(False); DISPATCH(); TARGET(LOAD_INTEGER) PUSH(VAR((int16_t)byte.arg)); DISPATCH(); TARGET(LOAD_ELLIPSIS) PUSH(Ellipsis); DISPATCH(); TARGET(LOAD_FUNCTION) { FuncDecl_ decl = co->func_decls[byte.arg]; PyObject* obj; if(decl->nested){ NameDict_ captured = frame->_locals.to_namedict(co); obj = VAR(Function(decl, frame->_module, nullptr, captured)); captured->set(decl->code->name, obj); }else{ obj = VAR(Function(decl, frame->_module, nullptr, nullptr)); } PUSH(obj); } DISPATCH(); TARGET(LOAD_NULL) PUSH(PY_NULL); DISPATCH(); /*****************************************/ TARGET(LOAD_FAST) { if(heap._should_auto_collect()) heap._auto_collect(); PyObject* _0 = frame->_locals[byte.arg]; if(_0 == PY_NULL) vm->UnboundLocalError(co->varnames[byte.arg]); PUSH(_0); } DISPATCH(); TARGET(LOAD_NAME) { StrName _name(byte.arg); PyObject** slot = frame->_locals.try_get_name(co, _name); if(slot != nullptr) { if(*slot == PY_NULL) vm->UnboundLocalError(_name); PUSH(*slot); DISPATCH(); } PyObject* _0 = frame->f_closure_try_get(_name); if(_0 != nullptr) { PUSH(_0); DISPATCH(); } _0 = frame->f_globals().try_get_likely_found(_name); if(_0 != nullptr) { PUSH(_0); DISPATCH(); } _0 = vm->builtins->attr().try_get_likely_found(_name); if(_0 != nullptr) { PUSH(_0); DISPATCH(); } vm->NameError(_name); } DISPATCH(); TARGET(LOAD_NONLOCAL) { if(heap._should_auto_collect()) heap._auto_collect(); StrName _name(byte.arg); PyObject* _0 = frame->f_closure_try_get(_name); if(_0 != nullptr) { PUSH(_0); DISPATCH(); } _0 = frame->f_globals().try_get_likely_found(_name); if(_0 != nullptr) { PUSH(_0); DISPATCH(); } _0 = vm->builtins->attr().try_get_likely_found(_name); if(_0 != nullptr) { PUSH(_0); DISPATCH(); } vm->NameError(_name); } DISPATCH(); TARGET(LOAD_GLOBAL){ if(heap._should_auto_collect()) heap._auto_collect(); StrName _name(byte.arg); PyObject* _0 = frame->f_globals().try_get_likely_found(_name); if(_0 != nullptr) { PUSH(_0); DISPATCH(); } _0 = vm->builtins->attr().try_get_likely_found(_name); if(_0 != nullptr) { PUSH(_0); DISPATCH(); } vm->NameError(_name); } DISPATCH(); TARGET(LOAD_ATTR){ TOP() = getattr(TOP(), StrName(byte.arg)); } DISPATCH(); TARGET(LOAD_CLASS_GLOBAL){ PK_ASSERT(_curr_class != nullptr); StrName _name(byte.arg); PyObject* _0 = getattr(_curr_class, _name, false); if(_0 != nullptr) { PUSH(_0); DISPATCH(); } // load global if attribute not found _0 = frame->f_globals().try_get_likely_found(_name); if(_0 != nullptr) { PUSH(_0); DISPATCH(); } _0 = vm->builtins->attr().try_get_likely_found(_name); if(_0 != nullptr) { PUSH(_0); DISPATCH(); } vm->NameError(_name); } DISPATCH(); TARGET(LOAD_METHOD){ PyObject* _0; TOP() = get_unbound_method(TOP(), StrName(byte.arg), &_0, true, true); PUSH(_0); }DISPATCH(); TARGET(LOAD_SUBSCR){ PyObject* _1 = POPX(); // b PyObject* _0 = TOP(); // a auto _ti = _inst_type_info(_0); if(_ti->m__getitem__){ TOP() = _ti->m__getitem__(this, _0, _1); }else{ TOP() = call_method(_0, __getitem__, _1); } } DISPATCH(); TARGET(STORE_FAST) frame->_locals[byte.arg] = POPX(); DISPATCH(); TARGET(STORE_NAME){ StrName _name(byte.arg); PyObject* _0 = POPX(); if(frame->_callable != nullptr){ PyObject** slot = frame->_locals.try_get_name(co, _name); if(slot == nullptr) vm->UnboundLocalError(_name); *slot = _0; }else{ frame->f_globals().set(_name, _0); } } DISPATCH(); TARGET(STORE_GLOBAL) frame->f_globals().set(StrName(byte.arg), POPX()); DISPATCH(); TARGET(STORE_ATTR) { PyObject* _0 = TOP(); // a PyObject* _1 = SECOND(); // val setattr(_0, StrName(byte.arg), _1); STACK_SHRINK(2); } DISPATCH(); TARGET(STORE_SUBSCR){ PyObject* _2 = POPX(); // b PyObject* _1 = POPX(); // a PyObject* _0 = POPX(); // val auto _ti = _inst_type_info(_1); if(_ti->m__setitem__){ _ti->m__setitem__(this, _1, _2, _0); }else{ call_method(_1, __setitem__, _2, _0); } }DISPATCH(); TARGET(DELETE_FAST){ PyObject* _0 = frame->_locals[byte.arg]; if(_0 == PY_NULL) vm->UnboundLocalError(co->varnames[byte.arg]); frame->_locals[byte.arg] = PY_NULL; }DISPATCH(); TARGET(DELETE_NAME){ StrName _name(byte.arg); if(frame->_callable != nullptr){ PyObject** slot = frame->_locals.try_get_name(co, _name); if(slot == nullptr) vm->UnboundLocalError(_name); *slot = PY_NULL; }else{ if(!frame->f_globals().del(_name)) vm->NameError(_name); } } DISPATCH(); TARGET(DELETE_GLOBAL){ StrName _name(byte.arg); if(!frame->f_globals().del(_name)) vm->NameError(_name); }DISPATCH(); TARGET(DELETE_ATTR){ PyObject* _0 = POPX(); delattr(_0, StrName(byte.arg)); } DISPATCH(); TARGET(DELETE_SUBSCR){ PyObject* _1 = POPX(); PyObject* _0 = POPX(); auto _ti = _inst_type_info(_0); if(_ti->m__delitem__){ _ti->m__delitem__(this, _0, _1); }else{ call_method(_0, __delitem__, _1); } }DISPATCH(); /*****************************************/ TARGET(BUILD_LONG) { PyObject* _0 = builtins->attr().try_get_likely_found(pk_id_long); if(_0 == nullptr) AttributeError(builtins, pk_id_long); TOP() = call(_0, TOP()); } DISPATCH(); TARGET(BUILD_IMAG) { PyObject* _0 = builtins->attr().try_get_likely_found(pk_id_complex); if(_0 == nullptr) AttributeError(builtins, pk_id_long); TOP() = call(_0, VAR(0), TOP()); } DISPATCH(); TARGET(BUILD_BYTES) { const Str& s = CAST(Str&, TOP()); unsigned char* p = new unsigned char[s.size]; memcpy(p, s.data, s.size); TOP() = VAR(Bytes(p, s.size)); } DISPATCH(); TARGET(BUILD_TUPLE){ PyObject* _0 = VAR(STACK_VIEW(byte.arg).to_tuple()); STACK_SHRINK(byte.arg); PUSH(_0); } DISPATCH(); TARGET(BUILD_LIST){ PyObject* _0 = VAR(STACK_VIEW(byte.arg).to_list()); STACK_SHRINK(byte.arg); PUSH(_0); } DISPATCH(); TARGET(BUILD_DICT){ if(byte.arg == 0){ PUSH(VAR(Dict(this))); DISPATCH(); } PyObject* _0 = VAR(STACK_VIEW(byte.arg).to_list()); _0 = call(_t(tp_dict), _0); STACK_SHRINK(byte.arg); PUSH(_0); } DISPATCH(); TARGET(BUILD_SET){ PyObject* _0 = VAR(STACK_VIEW(byte.arg).to_list()); _0 = call(builtins->attr(pk_id_set), _0); STACK_SHRINK(byte.arg); PUSH(_0); } DISPATCH(); TARGET(BUILD_SLICE){ PyObject* _2 = POPX(); // step PyObject* _1 = POPX(); // stop PyObject* _0 = POPX(); // start PUSH(VAR(Slice(_0, _1, _2))); } DISPATCH(); TARGET(BUILD_STRING) { SStream ss; ArgsView view = STACK_VIEW(byte.arg); for(PyObject* obj : view) ss << CAST(Str&, py_str(obj)); STACK_SHRINK(byte.arg); PUSH(VAR(ss.str())); } DISPATCH(); /*****************************************/ TARGET(BUILD_TUPLE_UNPACK) { auto _lock = heap.gc_scope_lock(); List list; _unpack_as_list(STACK_VIEW(byte.arg), list); STACK_SHRINK(byte.arg); PyObject* _0 = VAR(Tuple(std::move(list))); PUSH(_0); } DISPATCH(); TARGET(BUILD_LIST_UNPACK) { auto _lock = heap.gc_scope_lock(); List list; _unpack_as_list(STACK_VIEW(byte.arg), list); STACK_SHRINK(byte.arg); PyObject* _0 = VAR(std::move(list)); PUSH(_0); } DISPATCH(); TARGET(BUILD_DICT_UNPACK) { auto _lock = heap.gc_scope_lock(); Dict dict(this); _unpack_as_dict(STACK_VIEW(byte.arg), dict); STACK_SHRINK(byte.arg); PyObject* _0 = VAR(std::move(dict)); PUSH(_0); } DISPATCH(); TARGET(BUILD_SET_UNPACK) { auto _lock = heap.gc_scope_lock(); List list; _unpack_as_list(STACK_VIEW(byte.arg), list); STACK_SHRINK(byte.arg); PyObject* _0 = VAR(std::move(list)); _0 = call(builtins->attr(pk_id_set), _0); PUSH(_0); } DISPATCH(); /*****************************************/ #define BINARY_OP_SPECIAL(func) \ _1 = POPX(); \ _0 = TOP(); \ _ti = _inst_type_info(_0); \ if(_ti->m##func){ \ TOP() = _ti->m##func(this, _0, _1); \ }else{ \ PyObject* self; \ PyObject* _2 = get_unbound_method(_0, func, &self, false); \ if(_2 != nullptr) TOP() = call_method(self, _2, _1); \ else TOP() = NotImplemented; \ } #define BINARY_OP_RSPECIAL(op, func) \ if(TOP() == NotImplemented){ \ PyObject* self; \ PyObject* _2 = get_unbound_method(_1, func, &self, false); \ if(_2 != nullptr) TOP() = call_method(self, _2, _0); \ else BinaryOptError(op, _0, _1); \ if(TOP() == NotImplemented) BinaryOptError(op, _0, _1); \ } TARGET(BINARY_TRUEDIV){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__truediv__); if(TOP() == NotImplemented) BinaryOptError("/", _0, _1); } DISPATCH(); TARGET(BINARY_POW){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__pow__); if(TOP() == NotImplemented) BinaryOptError("**", _0, _1); } DISPATCH(); TARGET(BINARY_ADD){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__add__); BINARY_OP_RSPECIAL("+", __radd__); } DISPATCH() TARGET(BINARY_SUB){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__sub__); BINARY_OP_RSPECIAL("-", __rsub__); } DISPATCH() TARGET(BINARY_MUL){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__mul__); BINARY_OP_RSPECIAL("*", __rmul__); } DISPATCH() TARGET(BINARY_FLOORDIV){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__floordiv__); if(TOP() == NotImplemented) BinaryOptError("//", _0, _1); } DISPATCH() TARGET(BINARY_MOD){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__mod__); if(TOP() == NotImplemented) BinaryOptError("%", _0, _1); } DISPATCH() TARGET(COMPARE_LT){ PyObject* _1 = POPX(); PyObject* _0 = TOP(); TOP() = VAR(py_lt(_0, _1)); } DISPATCH() TARGET(COMPARE_LE){ PyObject* _1 = POPX(); PyObject* _0 = TOP(); TOP() = VAR(py_le(_0, _1)); } DISPATCH() TARGET(COMPARE_EQ){ PyObject* _1 = POPX(); PyObject* _0 = TOP(); TOP() = VAR(py_eq(_0, _1)); } DISPATCH() TARGET(COMPARE_NE){ PyObject* _1 = POPX(); PyObject* _0 = TOP(); TOP() = VAR(!py_eq(_0, _1)); } DISPATCH() TARGET(COMPARE_GT){ PyObject* _1 = POPX(); PyObject* _0 = TOP(); TOP() = VAR(py_gt(_0, _1)); } DISPATCH() TARGET(COMPARE_GE){ PyObject* _1 = POPX(); PyObject* _0 = TOP(); TOP() = VAR(py_ge(_0, _1)); } DISPATCH() TARGET(BITWISE_LSHIFT){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__lshift__); if(TOP() == NotImplemented) BinaryOptError("<<", _0, _1); } DISPATCH() TARGET(BITWISE_RSHIFT){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__rshift__); if(TOP() == NotImplemented) BinaryOptError(">>", _0, _1); } DISPATCH() TARGET(BITWISE_AND){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__and__); if(TOP() == NotImplemented) BinaryOptError("&", _0, _1); } DISPATCH() TARGET(BITWISE_OR){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__or__); if(TOP() == NotImplemented) BinaryOptError("|", _0, _1); } DISPATCH() TARGET(BITWISE_XOR){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__xor__); if(TOP() == NotImplemented) BinaryOptError("^", _0, _1); } DISPATCH() TARGET(BINARY_MATMUL){ PyObject* _0; PyObject* _1; const PyTypeInfo* _ti; BINARY_OP_SPECIAL(__matmul__); if(TOP() == NotImplemented) BinaryOptError("@", _0, _1); } DISPATCH(); #undef BINARY_OP_SPECIAL TARGET(IS_OP){ PyObject* _1 = POPX(); // rhs PyObject* _0 = TOP(); // lhs TOP() = VAR(static_cast((_0==_1) ^ byte.arg)); } DISPATCH(); TARGET(CONTAINS_OP){ // a in b -> b __contains__ a auto _ti = _inst_type_info(TOP()); PyObject* _0; if(_ti->m__contains__){ _0 = _ti->m__contains__(this, TOP(), SECOND()); }else{ _0 = call_method(TOP(), __contains__, SECOND()); } POP(); TOP() = VAR(static_cast((int)CAST(bool, _0) ^ byte.arg)); } DISPATCH(); /*****************************************/ TARGET(JUMP_ABSOLUTE) frame->jump_abs(byte.arg); DISPATCH(); TARGET(JUMP_ABSOLUTE_TOP) frame->jump_abs(_CAST(int, POPX())); DISPATCH(); TARGET(POP_JUMP_IF_FALSE){ if(!py_bool(TOP())) frame->jump_abs(byte.arg); POP(); } DISPATCH(); TARGET(POP_JUMP_IF_TRUE){ if(py_bool(TOP())) frame->jump_abs(byte.arg); POP(); } DISPATCH(); TARGET(JUMP_IF_TRUE_OR_POP){ if(py_bool(TOP())) frame->jump_abs(byte.arg); else POP(); } DISPATCH(); TARGET(JUMP_IF_FALSE_OR_POP){ if(!py_bool(TOP())) frame->jump_abs(byte.arg); else POP(); } DISPATCH(); TARGET(SHORTCUT_IF_FALSE_OR_POP){ if(!py_bool(TOP())){ // [b, False] STACK_SHRINK(2); // [] PUSH(vm->False); // [False] frame->jump_abs(byte.arg); } else POP(); // [b] } DISPATCH(); TARGET(LOOP_CONTINUE) frame->jump_abs(byte.arg); DISPATCH(); TARGET(LOOP_BREAK) frame->jump_abs_break(&s_data, byte.arg); DISPATCH(); TARGET(GOTO) { StrName _name(byte.arg); int index = co->labels.try_get_likely_found(_name); if(index < 0) RuntimeError(_S("label ", _name.escape(), " not found")); frame->jump_abs_break(&s_data, index); } DISPATCH(); /*****************************************/ TARGET(FSTRING_EVAL){ PyObject* _0 = co_consts[byte.arg]; std::string_view string = CAST(Str&, _0).sv(); auto it = _cached_codes.find(string); CodeObject_ code; if(it == _cached_codes.end()){ code = vm->compile(string, "", EVAL_MODE, true); _cached_codes[string] = code; }else{ code = it->second; } _0 = vm->_exec(code.get(), frame->_module, frame->_callable, frame->_locals); PUSH(_0); } DISPATCH(); TARGET(REPR) TOP() = py_repr(TOP()); DISPATCH(); TARGET(CALL){ PyObject* _0 = vectorcall( byte.arg & 0xFF, // ARGC (byte.arg>>8) & 0xFF, // KWARGC true ); if(_0 == PY_OP_CALL) DISPATCH_OP_CALL(); PUSH(_0); } DISPATCH(); TARGET(CALL_TP){ PyObject* _0; PyObject* _1; PyObject* _2; // [callable, , args: tuple, kwargs: dict | NULL] if(byte.arg){ _2 = POPX(); _1 = POPX(); for(PyObject* obj: _CAST(Tuple&, _1)) PUSH(obj); _CAST(Dict&, _2).apply([this](PyObject* k, PyObject* v){ PUSH(VAR(StrName(CAST(Str&, k)).index)); PUSH(v); }); _0 = vectorcall( _CAST(Tuple&, _1).size(), // ARGC _CAST(Dict&, _2).size(), // KWARGC true ); }else{ // no **kwargs _1 = POPX(); for(PyObject* obj: _CAST(Tuple&, _1)) PUSH(obj); _0 = vectorcall( _CAST(Tuple&, _1).size(), // ARGC 0, // KWARGC true ); } if(_0 == PY_OP_CALL) DISPATCH_OP_CALL(); PUSH(_0); } DISPATCH(); TARGET(RETURN_VALUE){ PyObject* _0 = byte.arg == BC_NOARG ? POPX() : None; _pop_frame(); if(frame.index == base_id){ // [ frameBase<- ] return _0; }else{ frame = top_frame(); PUSH(_0); goto __NEXT_FRAME; } } DISPATCH(); TARGET(YIELD_VALUE) return PY_OP_YIELD; /*****************************************/ TARGET(LIST_APPEND){ PyObject* _0 = POPX(); CAST(List&, SECOND()).push_back(_0); } DISPATCH(); TARGET(DICT_ADD) { PyObject* _0 = POPX(); Tuple& t = CAST(Tuple&, _0); call_method(SECOND(), __setitem__, t[0], t[1]); } DISPATCH(); TARGET(SET_ADD){ PyObject* _0 = POPX(); call_method(SECOND(), pk_id_add, _0); } DISPATCH(); /*****************************************/ TARGET(UNARY_NEGATIVE) TOP() = py_negate(TOP()); DISPATCH(); TARGET(UNARY_NOT){ PyObject* _0 = TOP(); if(_0==True) TOP()=False; else if(_0==False) TOP()=True; else TOP() = VAR(!py_bool(_0)); } DISPATCH(); TARGET(UNARY_STAR) TOP() = VAR(StarWrapper(byte.arg, TOP())); DISPATCH(); TARGET(UNARY_INVERT){ PyObject* _0; auto _ti = _inst_type_info(TOP()); if(_ti->m__invert__) _0 = _ti->m__invert__(this, TOP()); else _0 = call_method(TOP(), __invert__); TOP() = _0; } DISPATCH(); /*****************************************/ TARGET(GET_ITER) TOP() = py_iter(TOP()); DISPATCH(); TARGET(FOR_ITER){ PyObject* _0 = py_next(TOP()); if(_0 != StopIteration){ PUSH(_0); }else{ frame->jump_abs_break(&s_data, byte.arg); } } DISPATCH(); /*****************************************/ TARGET(IMPORT_PATH){ PyObject* _0 = co_consts[byte.arg]; PUSH(py_import(CAST(Str&, _0))); } DISPATCH(); TARGET(POP_IMPORT_STAR) { PyObject* _0 = POPX(); // pop the module PyObject* _1 = _0->attr().try_get(__all__); StrName _name; if(_1 != nullptr){ for(PyObject* key: CAST(List&, _1)){ _name = StrName::get(CAST(Str&, key).sv()); PyObject* value = _0->attr().try_get_likely_found(_name); if(value == nullptr){ ImportError(_S("cannot import name ", _name.escape())); }else{ frame->f_globals().set(_name, value); } } }else{ for(auto& [name, value]: _0->attr().items()){ std::string_view s = name.sv(); if(s.empty() || s[0] == '_') continue; frame->f_globals().set(name, value); } } } DISPATCH(); /*****************************************/ TARGET(UNPACK_SEQUENCE){ auto _lock = heap.gc_scope_lock(); // lock the gc via RAII!! PyObject* _0 = py_iter(POPX()); for(int i=0; i_module, _name, PK_OBJ_GET(Type, _0)); } DISPATCH(); TARGET(END_CLASS) { PK_ASSERT(_curr_class != nullptr); StrName _name(byte.arg); frame->_module->attr().set(_name, _curr_class); _curr_class = nullptr; } DISPATCH(); TARGET(STORE_CLASS_ATTR){ PK_ASSERT(_curr_class != nullptr); StrName _name(byte.arg); PyObject* _0 = POPX(); if(is_non_tagged_type(_0, tp_function)){ PK_OBJ_GET(Function, _0)._class = _curr_class; } _curr_class->attr().set(_name, _0); } DISPATCH(); TARGET(BEGIN_CLASS_DECORATION){ PUSH(_curr_class); } DISPATCH(); TARGET(END_CLASS_DECORATION){ _curr_class = POPX(); } DISPATCH(); TARGET(ADD_CLASS_ANNOTATION) { PK_ASSERT(_curr_class != nullptr); StrName _name(byte.arg); Type type = PK_OBJ_GET(Type, _curr_class); _all_types[type].annotated_fields.push_back(_name); } DISPATCH(); /*****************************************/ TARGET(WITH_ENTER) PUSH(call_method(TOP(), __enter__)); DISPATCH(); TARGET(WITH_EXIT) call_method(TOP(), __exit__); POP(); DISPATCH(); /*****************************************/ TARGET(EXCEPTION_MATCH) { PyObject* assumed_type = POPX(); check_non_tagged_type(assumed_type, tp_type); PyObject* e_obj = TOP(); bool ok = isinstance(e_obj, PK_OBJ_GET(Type, assumed_type)); PUSH(VAR(ok)); } DISPATCH(); TARGET(RAISE) { if(is_non_tagged_type(TOP(), tp_type)){ TOP() = call(TOP()); } if(!isinstance(TOP(), tp_exception)){ _builtin_error("TypeError", "exceptions must derive from Exception"); } _error(POPX()); } DISPATCH(); TARGET(RAISE_ASSERT) if(byte.arg){ PyObject* _0 = py_str(POPX()); _builtin_error("AssertionError", CAST(Str, _0)); }else{ _builtin_error("AssertionError"); } DISPATCH(); TARGET(RE_RAISE) _raise(true); DISPATCH(); TARGET(POP_EXCEPTION) _last_exception = POPX(); DISPATCH(); /*****************************************/ TARGET(FORMAT_STRING) { PyObject* _0 = POPX(); const Str& spec = CAST(Str&, co_consts[byte.arg]); PUSH(_format_string(spec, _0)); } DISPATCH(); /*****************************************/ TARGET(INC_FAST){ PyObject** p = &frame->_locals[byte.arg]; if(*p == PY_NULL) vm->NameError(co->varnames[byte.arg]); *p = VAR(CAST(i64, *p) + 1); } DISPATCH(); TARGET(DEC_FAST){ PyObject** p = &frame->_locals[byte.arg]; if(*p == PY_NULL) vm->NameError(co->varnames[byte.arg]); *p = VAR(CAST(i64, *p) - 1); } DISPATCH(); TARGET(INC_GLOBAL){ StrName _name(byte.arg); PyObject** p = frame->f_globals().try_get_2_likely_found(_name); if(p == nullptr) vm->NameError(_name); *p = VAR(CAST(i64, *p) + 1); } DISPATCH(); TARGET(DEC_GLOBAL){ StrName _name(byte.arg); PyObject** p = frame->f_globals().try_get_2_likely_found(_name); if(p == nullptr) vm->NameError(_name); *p = VAR(CAST(i64, *p) - 1); } DISPATCH(); /*****************************************/ static_assert(OP_DEC_GLOBAL == 112); case 113: case 114: case 115: case 116: case 117: case 118: case 119: case 120: case 121: case 122: case 123: case 124: case 125: case 126: case 127: case 128: case 129: case 130: case 131: case 132: case 133: case 134: case 135: case 136: case 137: case 138: case 139: case 140: case 141: case 142: case 143: case 144: case 145: case 146: case 147: case 148: case 149: case 150: case 151: case 152: case 153: case 154: case 155: case 156: case 157: case 158: case 159: case 160: case 161: case 162: case 163: case 164: case 165: case 166: case 167: case 168: case 169: case 170: case 171: case 172: case 173: case 174: case 175: case 176: case 177: case 178: case 179: case 180: case 181: case 182: case 183: case 184: case 185: case 186: case 187: case 188: case 189: case 190: case 191: case 192: case 193: case 194: case 195: case 196: case 197: case 198: case 199: case 200: case 201: case 202: case 203: case 204: case 205: case 206: case 207: case 208: case 209: case 210: case 211: case 212: case 213: case 214: case 215: case 216: case 217: case 218: case 219: case 220: case 221: case 222: case 223: case 224: case 225: case 226: case 227: case 228: case 229: case 230: case 231: case 232: case 233: case 234: case 235: case 236: case 237: case 238: case 239: case 240: case 241: case 242: case 243: case 244: case 245: case 246: case 247: case 248: case 249: case 250: case 251: case 252: case 253: case 254: case 255: PK_UNREACHABLE() break; } } #undef DISPATCH #undef TARGET #undef DISPATCH_OP_CALL #undef CEVAL_STEP_CALLBACK /**********************************************************************/ PK_UNREACHABLE() }catch(HandledException){ continue; }catch(UnhandledException){ PyObject* e_obj = POPX(); Exception& _e = PK_OBJ_GET(Exception, e_obj); _pop_frame(); if(callstack.empty()){ #if PK_DEBUG_FULL_EXCEPTION std::cerr << _e.summary() << std::endl; #endif throw _e; } frame = top_frame(); PUSH(e_obj); if(frame.index < base_id) throw ToBeRaisedException(); need_raise = true; }catch(ToBeRaisedException){ need_raise = true; } } } #undef TOP #undef SECOND #undef THIRD #undef PEEK #undef STACK_SHRINK #undef PUSH #undef POP #undef POPX #undef STACK_VIEW #undef DISPATCH #undef TARGET #undef DISPATCH_OP_CALL } // namespace pkpy