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pocketpy/src/interpreter/ceval.cpp
blueloveTH e1e3e208cb move gc.h
2024-06-19 13:39:37 +08:00

1148 lines
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#include "pocketpy/interpreter/ceval.hpp"
#include "pocketpy/objects/base.h"
namespace pkpy {
#define PREDICT_INT_OP(op) \
if(is_int(_0) && is_int(_1)) { \
TOP() = VAR(_0._i64 op _1._i64); \
DISPATCH() \
}
#define PREDICT_INT_DIV_OP(op) \
if(is_int(_0) && is_int(_1)) { \
i64 divisor = _1._i64; \
if(divisor == 0) ZeroDivisionError(); \
TOP() = VAR(_0._i64 op divisor); \
DISPATCH() \
}
#define BINARY_F_COMPARE(func, op, rfunc) \
PyVar ret; \
const PyTypeInfo* _ti = _tp_info(_0); \
if(_ti->m##func) { \
ret = _ti->m##func(this, _0, _1); \
} else { \
PyVar self; \
PyVar _2 = get_unbound_method(_0, func, &self, false); \
if(_2) \
ret = call_method(self, _2, _1); \
else \
ret = NotImplemented; \
} \
if(is_not_implemented(ret)) { \
PyVar self; \
PyVar _2 = get_unbound_method(_1, rfunc, &self, false); \
if(_2) \
ret = call_method(self, _2, _0); \
else \
BinaryOptError(op, _0, _1); \
if(is_not_implemented(ret)) BinaryOptError(op, _0, _1); \
}
void VM::__op_unpack_sequence(uint16_t arg) {
PyVar _0 = POPX();
if(is_type(_0, VM::tp_tuple)) {
// fast path for tuple
Tuple& tuple = PK_OBJ_GET(Tuple, _0);
if(tuple.size() == arg) {
for(PyVar obj: tuple)
PUSH(obj);
} else {
ValueError(_S("expected ", (int)arg, " values to unpack, got ", (int)tuple.size()));
}
} else {
auto _lock = gc_scope_lock(); // lock the gc via RAII!!
_0 = py_iter(_0);
const PyTypeInfo* ti = _tp_info(_0);
for(int i = 0; i < arg; i++) {
PyVar _1 = _py_next(ti, _0);
if(_1 == StopIteration) ValueError("not enough values to unpack");
PUSH(_1);
}
if(_py_next(ti, _0) != StopIteration) ValueError("too many values to unpack");
}
}
bool VM::py_lt(PyVar _0, PyVar _1) {
BINARY_F_COMPARE(__lt__, "<", __gt__);
assert(ret.type == tp_bool);
return ret.extra;
}
bool VM::py_le(PyVar _0, PyVar _1) {
BINARY_F_COMPARE(__le__, "<=", __ge__);
assert(ret.type == tp_bool);
return ret.extra;
}
bool VM::py_gt(PyVar _0, PyVar _1) {
BINARY_F_COMPARE(__gt__, ">", __lt__);
assert(ret.type == tp_bool);
return ret.extra;
}
bool VM::py_ge(PyVar _0, PyVar _1) {
BINARY_F_COMPARE(__ge__, ">=", __le__);
assert(ret.type == tp_bool);
return ret.extra;
}
#undef BINARY_F_COMPARE
#if PK_ENABLE_PROFILER
#define CEVAL_STEP_CALLBACK() \
if(_ceval_on_step) _ceval_on_step(this, frame, byte); \
if(_profiler) _profiler->_step(callstack.size(), frame); \
if(!_next_breakpoint.empty()) { _next_breakpoint._step(this); }
#else
#define CEVAL_STEP_CALLBACK() \
if(_ceval_on_step && _ceval_on_step) { \
if(_ceval_on_step) \
if(_ceval_on_step) _ceval_on_step(this, frame, byte); \
}
#endif
#define DISPATCH() \
{ \
frame->_ip++; \
goto __NEXT_STEP; \
}
#define DISPATCH_JUMP(__offset) \
{ \
frame->_ip += __offset; \
goto __NEXT_STEP; \
}
#define DISPATCH_JUMP_ABSOLUTE(__target) \
{ \
frame->_ip = &frame->co->codes[__target]; \
goto __NEXT_STEP; \
}
PyVar VM::__run_top_frame() {
Frame* frame = &callstack.top();
const Frame* base_frame = frame;
InternalException __internal_exception;
while(true) {
try {
/**********************************************************************/
{
__NEXT_FRAME:
Bytecode byte;
if(__internal_exception.type == InternalExceptionType::Null) {
// None
frame->_ip++;
} else if(__internal_exception.type == InternalExceptionType::Handled) {
// HandledException + continue
frame->_ip = &frame->co->codes[__internal_exception.arg];
__internal_exception = {};
} else {
// UnhandledException + continue (need_raise = true)
// ToBeRaisedException + continue (need_raise = true)
__internal_exception = {};
__raise_exc(); // no return
}
__NEXT_STEP:
byte = *frame->_ip;
CEVAL_STEP_CALLBACK()
#if PK_DEBUG_CEVAL_STEP
__log_s_data();
#endif
switch((Opcode)byte.op) {
case OP_NO_OP: DISPATCH()
/*****************************************/
case OP_POP_TOP: POP(); DISPATCH()
case OP_DUP_TOP: PUSH(TOP()); DISPATCH()
case OP_DUP_TOP_TWO:
// [a, b]
PUSH(SECOND()); // [a, b, a]
PUSH(SECOND()); // [a, b, a, b]
DISPATCH()
case OP_ROT_TWO: std::swap(TOP(), SECOND()); DISPATCH()
case OP_ROT_THREE: {
// [a, b, c] -> [c, a, b]
PyVar _0 = TOP();
TOP() = SECOND();
SECOND() = THIRD();
THIRD() = _0;
}
DISPATCH()
case OP_PRINT_EXPR:
if(!is_none(TOP())) stdout_write(py_repr(TOP()) + "\n");
POP();
DISPATCH()
/*****************************************/
case OP_LOAD_CONST: PUSH(frame->co->consts[byte.arg]); DISPATCH()
case OP_LOAD_NONE: PUSH(None); DISPATCH()
case OP_LOAD_TRUE: PUSH(True); DISPATCH()
case OP_LOAD_FALSE: PUSH(False); DISPATCH()
/*****************************************/
case OP_LOAD_SMALL_INT: s_data.emplace(tp_int, (i64)(int16_t)byte.arg); DISPATCH()
/*****************************************/
case OP_LOAD_ELLIPSIS: PUSH(Ellipsis); DISPATCH()
case OP_LOAD_FUNCTION: {
const FuncDecl_& decl = frame->co->func_decls[byte.arg];
PyVar obj;
if(decl->nested) {
NameDict* captured = frame->_locals.to_namedict();
obj = new_object<Function>(tp_function, decl, frame->_module, nullptr, captured);
captured->set(decl->code->name, obj);
} else {
obj = new_object<Function>(tp_function, decl, frame->_module, nullptr, nullptr);
}
PUSH(obj);
}
DISPATCH()
case OP_LOAD_NULL: PUSH(PY_NULL); DISPATCH()
/*****************************************/
case OP_LOAD_FAST: {
PyVar _0 = frame->_locals[byte.arg];
if(_0 == PY_NULL) vm->UnboundLocalError(frame->co->varnames[byte.arg]);
PUSH(_0);
}
DISPATCH()
case OP_LOAD_NAME: {
StrName _name(byte.arg);
PyVar* slot = frame->_locals.try_get_name(_name);
if(slot != nullptr) {
if(*slot == PY_NULL) vm->UnboundLocalError(_name);
PUSH(*slot);
DISPATCH()
}
PyVar* _0 = frame->f_closure_try_get(_name);
if(_0 != nullptr) {
PUSH(*_0);
DISPATCH()
}
_0 = frame->f_globals().try_get_2_likely_found(_name);
if(_0 != nullptr) {
PUSH(*_0);
DISPATCH()
}
_0 = vm->builtins->attr().try_get_2_likely_found(_name);
if(_0 != nullptr) {
PUSH(*_0);
DISPATCH()
}
vm->NameError(_name);
}
DISPATCH()
case OP_LOAD_NONLOCAL: {
StrName _name(byte.arg);
PyVar* _0 = frame->f_closure_try_get(_name);
if(_0 != nullptr) {
PUSH(*_0);
DISPATCH()
}
_0 = frame->f_globals().try_get_2_likely_found(_name);
if(_0 != nullptr) {
PUSH(*_0);
DISPATCH()
}
_0 = vm->builtins->attr().try_get_2_likely_found(_name);
if(_0 != nullptr) {
PUSH(*_0);
DISPATCH()
}
vm->NameError(_name);
}
DISPATCH()
case OP_LOAD_GLOBAL: {
StrName _name(byte.arg);
PyVar _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()
case OP_LOAD_ATTR: {
TOP() = getattr(TOP(), StrName(byte.arg));
}
DISPATCH()
case OP_LOAD_CLASS_GLOBAL: {
assert(__curr_class != nullptr);
StrName _name(byte.arg);
PyVar _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()
case OP_LOAD_METHOD: {
PyVar _0;
TOP() = get_unbound_method(TOP(), StrName(byte.arg), &_0, true, true);
PUSH(_0);
}
DISPATCH()
case OP_LOAD_SUBSCR: {
PyVar _1 = POPX(); // b
PyVar _0 = TOP(); // a
auto _ti = _tp_info(_0);
if(_ti->m__getitem__) {
TOP() = _ti->m__getitem__(this, _0, _1);
} else {
TOP() = call_method(_0, __getitem__, _1);
}
}
DISPATCH()
case OP_LOAD_SUBSCR_FAST: {
PyVar _1 = frame->_locals[byte.arg];
if(_1 == PY_NULL) vm->UnboundLocalError(frame->co->varnames[byte.arg]);
PyVar _0 = TOP(); // a
auto _ti = _tp_info(_0);
if(_ti->m__getitem__) {
TOP() = _ti->m__getitem__(this, _0, _1);
} else {
TOP() = call_method(_0, __getitem__, _1);
}
}
DISPATCH()
case OP_LOAD_SUBSCR_SMALL_INT: {
PyVar _1 = VAR((int16_t)byte.arg);
PyVar _0 = TOP(); // a
auto _ti = _tp_info(_0);
if(_ti->m__getitem__) {
TOP() = _ti->m__getitem__(this, _0, _1);
} else {
TOP() = call_method(_0, __getitem__, _1);
}
}
DISPATCH()
case OP_STORE_FAST: frame->_locals[byte.arg] = POPX(); DISPATCH()
case OP_STORE_NAME: {
StrName _name(byte.arg);
PyVar _0 = POPX();
if(frame->_callable != nullptr) {
PyVar* slot = frame->_locals.try_get_name(_name);
if(slot != nullptr) {
*slot = _0; // store in locals if possible
} else {
Function& func = frame->_callable->as<Function>();
if(func.decl == __dynamic_func_decl) {
assert(func._closure != nullptr);
func._closure->set(_name, _0);
} else {
vm->NameError(_name);
}
}
} else {
frame->f_globals().set(_name, _0);
}
}
DISPATCH()
case OP_STORE_GLOBAL: frame->f_globals().set(StrName(byte.arg), POPX()); DISPATCH()
case OP_STORE_ATTR: {
PyVar _0 = TOP(); // a
PyVar _1 = SECOND(); // val
setattr(_0, StrName(byte.arg), _1);
STACK_SHRINK(2);
}
DISPATCH()
case OP_STORE_SUBSCR: {
PyVar _2 = POPX(); // b
PyVar _1 = POPX(); // a
PyVar _0 = POPX(); // val
auto _ti = _tp_info(_1);
if(_ti->m__setitem__) {
_ti->m__setitem__(this, _1, _2, _0);
} else {
call_method(_1, __setitem__, _2, _0);
}
}
DISPATCH()
case OP_STORE_SUBSCR_FAST: {
PyVar _2 = frame->_locals[byte.arg]; // b
if(_2 == PY_NULL) vm->UnboundLocalError(frame->co->varnames[byte.arg]);
PyVar _1 = POPX(); // a
PyVar _0 = POPX(); // val
auto _ti = _tp_info(_1);
if(_ti->m__setitem__) {
_ti->m__setitem__(this, _1, _2, _0);
} else {
call_method(_1, __setitem__, _2, _0);
}
}
DISPATCH()
case OP_DELETE_FAST: {
PyVar _0 = frame->_locals[byte.arg];
if(_0 == PY_NULL) vm->UnboundLocalError(frame->co->varnames[byte.arg]);
frame->_locals[byte.arg].set_null();
}
DISPATCH()
case OP_DELETE_NAME: {
StrName _name(byte.arg);
if(frame->_callable != nullptr) {
PyVar* slot = frame->_locals.try_get_name(_name);
if(slot != nullptr) {
slot->set_null();
} else {
Function& func = frame->_callable->as<Function>();
if(func.decl == __dynamic_func_decl) {
assert(func._closure != nullptr);
bool ok = func._closure->del(_name);
if(!ok) vm->NameError(_name);
} else {
vm->NameError(_name);
}
}
} else {
if(!frame->f_globals().del(_name)) vm->NameError(_name);
}
}
DISPATCH()
case OP_DELETE_GLOBAL: {
StrName _name(byte.arg);
if(!frame->f_globals().del(_name)) vm->NameError(_name);
}
DISPATCH()
case OP_DELETE_ATTR: {
PyVar _0 = POPX();
delattr(_0, StrName(byte.arg));
}
DISPATCH()
case OP_DELETE_SUBSCR: {
PyVar _1 = POPX();
PyVar _0 = POPX();
auto _ti = _tp_info(_0);
if(_ti->m__delitem__) {
_ti->m__delitem__(this, _0, _1);
} else {
call_method(_0, __delitem__, _1);
}
}
DISPATCH()
/*****************************************/
case OP_BUILD_LONG: {
PyVar _0 = builtins->attr().try_get_likely_found(pk_id_long);
if(_0 == nullptr) AttributeError(builtins, pk_id_long);
TOP() = call(_0, TOP());
}
DISPATCH()
case OP_BUILD_IMAG: {
PyVar _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()
case OP_BUILD_BYTES: {
const Str& s = CAST(Str&, TOP());
unsigned char* p = (unsigned char*)std::malloc(s.size);
std::memcpy(p, s.c_str(), s.size);
TOP() = VAR(Bytes(p, s.size));
}
DISPATCH()
case OP_BUILD_TUPLE: {
PyVar _0 = VAR(STACK_VIEW(byte.arg).to_tuple());
STACK_SHRINK(byte.arg);
PUSH(_0);
}
DISPATCH()
case OP_BUILD_LIST: {
PyVar _0 = VAR(STACK_VIEW(byte.arg).to_list());
STACK_SHRINK(byte.arg);
PUSH(_0);
}
DISPATCH()
case OP_BUILD_DICT: {
if(byte.arg == 0) {
PUSH(VAR(Dict()));
DISPATCH()
}
PyVar _0 = VAR(STACK_VIEW(byte.arg).to_list());
_0 = call(_t(tp_dict), _0);
STACK_SHRINK(byte.arg);
PUSH(_0);
}
DISPATCH()
case OP_BUILD_SET: {
PyVar _0 = VAR(STACK_VIEW(byte.arg).to_list());
_0 = call(builtins->attr()[pk_id_set], _0);
STACK_SHRINK(byte.arg);
PUSH(_0);
}
DISPATCH()
case OP_BUILD_SLICE: {
PyVar _2 = POPX(); // step
PyVar _1 = POPX(); // stop
PyVar _0 = POPX(); // start
PUSH(VAR(Slice(_0, _1, _2)));
}
DISPATCH()
case OP_BUILD_STRING: {
SStream ss;
ArgsView view = STACK_VIEW(byte.arg);
for(PyVar obj: view)
ss << py_str(obj);
STACK_SHRINK(byte.arg);
PUSH(VAR(ss.str()));
}
DISPATCH()
/*****************************************/
case OP_BUILD_TUPLE_UNPACK: {
List list;
__unpack_as_list(STACK_VIEW(byte.arg), list);
STACK_SHRINK(byte.arg);
PyVar _0 = VAR(list.to_tuple());
PUSH(_0);
}
DISPATCH()
case OP_BUILD_LIST_UNPACK: {
List list;
__unpack_as_list(STACK_VIEW(byte.arg), list);
STACK_SHRINK(byte.arg);
PyVar _0 = VAR(std::move(list));
PUSH(_0);
}
DISPATCH()
case OP_BUILD_DICT_UNPACK: {
Dict dict;
__unpack_as_dict(STACK_VIEW(byte.arg), dict);
STACK_SHRINK(byte.arg);
PyVar _0 = VAR(std::move(dict));
PUSH(_0);
}
DISPATCH()
case OP_BUILD_SET_UNPACK: {
List list;
__unpack_as_list(STACK_VIEW(byte.arg), list);
STACK_SHRINK(byte.arg);
PyVar _0 = VAR(std::move(list));
_0 = call(builtins->attr()[pk_id_set], _0);
PUSH(_0);
}
DISPATCH()
/*****************************************/
#define BINARY_OP_SPECIAL(func) \
_ti = _tp_info(_0); \
if(_ti->m##func) { \
TOP() = _ti->m##func(this, _0, _1); \
} else { \
PyVar self; \
PyVar _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(is_not_implemented(TOP())) { \
PyVar self; \
PyVar _2 = get_unbound_method(_1, func, &self, false); \
if(_2 != nullptr) \
TOP() = call_method(self, _2, _0); \
else \
BinaryOptError(op, _0, _1); \
if(is_not_implemented(TOP())) BinaryOptError(op, _0, _1); \
}
case OP_BINARY_TRUEDIV: {
PyVar _1 = POPX();
PyVar _0 = TOP();
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__truediv__);
if(is_not_implemented(TOP())) BinaryOptError("/", _0, _1);
}
DISPATCH()
case OP_BINARY_POW: {
PyVar _1 = POPX();
PyVar _0 = TOP();
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__pow__);
if(is_not_implemented(TOP())) BinaryOptError("**", _0, _1);
}
DISPATCH()
case OP_BINARY_ADD: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_OP(+)
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__add__);
BINARY_OP_RSPECIAL("+", __radd__);
}
DISPATCH()
case OP_BINARY_SUB: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_OP(-)
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__sub__);
BINARY_OP_RSPECIAL("-", __rsub__);
}
DISPATCH()
case OP_BINARY_MUL: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_OP(*)
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__mul__);
BINARY_OP_RSPECIAL("*", __rmul__);
}
DISPATCH()
case OP_BINARY_FLOORDIV: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_DIV_OP(/)
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__floordiv__);
if(is_not_implemented(TOP())) BinaryOptError("//", _0, _1);
}
DISPATCH()
case OP_BINARY_MOD: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_DIV_OP(%)
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__mod__);
if(is_not_implemented(TOP())) BinaryOptError("%", _0, _1);
}
DISPATCH()
case OP_COMPARE_LT: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_OP(<)
TOP() = VAR(py_lt(_0, _1));
}
DISPATCH()
case OP_COMPARE_LE: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_OP(<=)
TOP() = VAR(py_le(_0, _1));
}
DISPATCH()
case OP_COMPARE_EQ: {
PyVar _1 = POPX();
PyVar _0 = TOP();
TOP() = VAR(py_eq(_0, _1));
}
DISPATCH()
case OP_COMPARE_NE: {
PyVar _1 = POPX();
PyVar _0 = TOP();
TOP() = VAR(py_ne(_0, _1));
}
DISPATCH()
case OP_COMPARE_GT: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_OP(>)
TOP() = VAR(py_gt(_0, _1));
}
DISPATCH()
case OP_COMPARE_GE: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_OP(>=)
TOP() = VAR(py_ge(_0, _1));
}
DISPATCH()
case OP_BITWISE_LSHIFT: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_OP(<<)
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__lshift__);
if(is_not_implemented(TOP())) BinaryOptError("<<", _0, _1);
}
DISPATCH()
case OP_BITWISE_RSHIFT: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_OP(>>)
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__rshift__);
if(is_not_implemented(TOP())) BinaryOptError(">>", _0, _1);
}
DISPATCH()
case OP_BITWISE_AND: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_OP(&)
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__and__);
if(is_not_implemented(TOP())) BinaryOptError("&", _0, _1);
}
DISPATCH()
case OP_BITWISE_OR: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_OP(|)
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__or__);
if(is_not_implemented(TOP())) BinaryOptError("|", _0, _1);
}
DISPATCH()
case OP_BITWISE_XOR: {
PyVar _1 = POPX();
PyVar _0 = TOP();
PREDICT_INT_OP(^)
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__xor__);
if(is_not_implemented(TOP())) BinaryOptError("^", _0, _1);
}
DISPATCH()
case OP_BINARY_MATMUL: {
PyVar _1 = POPX();
PyVar _0 = TOP();
const PyTypeInfo* _ti;
BINARY_OP_SPECIAL(__matmul__);
if(is_not_implemented(TOP())) BinaryOptError("@", _0, _1);
}
DISPATCH()
#undef BINARY_OP_SPECIAL
#undef BINARY_OP_RSPECIAL
#undef PREDICT_INT_OP
case OP_IS_OP: {
PyVar _1 = POPX(); // rhs
PyVar _0 = TOP(); // lhs
TOP() = PyVar__IS_OP(&_0, &_1) ? True : False;
}
DISPATCH()
case OP_IS_NOT_OP: {
PyVar _1 = POPX(); // rhs
PyVar _0 = TOP(); // lhs
TOP() = PyVar__IS_OP(&_0, &_1) ? False : True;
}
DISPATCH()
case OP_CONTAINS_OP: {
// a in b -> b __contains__ a
auto _ti = _tp_info(TOP());
PyVar _0;
if(_ti->m__contains__) {
_0 = _ti->m__contains__(this, TOP(), SECOND());
} else {
_0 = call_method(TOP(), __contains__, SECOND());
}
POP();
TOP() = VAR(static_cast<bool>((int)CAST(bool, _0) ^ byte.arg));
}
DISPATCH()
/*****************************************/
case OP_JUMP_FORWARD: DISPATCH_JUMP((int16_t)byte.arg)
case OP_POP_JUMP_IF_FALSE:
if(!py_bool(POPX())) DISPATCH_JUMP((int16_t)byte.arg)
DISPATCH()
case OP_POP_JUMP_IF_TRUE:
if(py_bool(POPX())) DISPATCH_JUMP((int16_t)byte.arg)
DISPATCH()
case OP_JUMP_IF_TRUE_OR_POP:
if(py_bool(TOP())) {
DISPATCH_JUMP((int16_t)byte.arg)
} else {
POP();
DISPATCH()
}
case OP_JUMP_IF_FALSE_OR_POP:
if(!py_bool(TOP())) {
DISPATCH_JUMP((int16_t)byte.arg)
} else {
POP();
DISPATCH()
}
case OP_SHORTCUT_IF_FALSE_OR_POP:
if(!py_bool(TOP())) { // [b, False]
STACK_SHRINK(2); // []
PUSH(vm->False); // [False]
DISPATCH_JUMP((int16_t)byte.arg)
} else {
POP(); // [b]
DISPATCH()
}
case OP_LOOP_CONTINUE:
// just an alias of OP_JUMP_FORWARD
DISPATCH_JUMP((int16_t)byte.arg)
case OP_LOOP_BREAK: {
frame->prepare_jump_break(&s_data, frame->ip() + byte.arg);
DISPATCH_JUMP((int16_t)byte.arg)
}
case OP_JUMP_ABSOLUTE_TOP: DISPATCH_JUMP_ABSOLUTE(_CAST(int, POPX()))
case OP_GOTO: {
StrName _name(byte.arg);
int target = c11_smallmap_n2i__get(&frame->co->labels, byte.arg, -1);
if(target < 0) RuntimeError(_S("label ", _name.escape(), " not found"));
frame->prepare_jump_break(&s_data, target);
DISPATCH_JUMP_ABSOLUTE(target)
}
/*****************************************/
case OP_FSTRING_EVAL: {
PyVar _0 = frame->co->consts[byte.arg];
std::string_view string = CAST(Str&, _0).sv();
// TODO: optimize this
CodeObject_ code = vm->compile(string, "<eval>", EVAL_MODE, true);
_0 = vm->_exec(code.get(), frame->_module, frame->_callable, frame->_locals);
PUSH(_0);
}
DISPATCH()
case OP_REPR: TOP() = VAR(py_repr(TOP())); DISPATCH()
case OP_CALL: {
pk_ManagedHeap__collect_if_needed(&heap);
PyVar _0 = vectorcall(byte.arg & 0xFF, // ARGC
(byte.arg >> 8) & 0xFF, // KWARGC
true);
if(_0.type == tp_op_call) {
frame = &callstack.top();
goto __NEXT_FRAME;
}
PUSH(_0);
}
DISPATCH()
case OP_CALL_TP: {
pk_ManagedHeap__collect_if_needed(&heap);
PyVar _0;
PyVar _1;
PyVar _2;
// [callable, <self>, args: tuple, kwargs: dict | NULL]
if(byte.arg) {
_2 = POPX();
_1 = POPX();
for(PyVar obj: _CAST(Tuple&, _1))
PUSH(obj);
_CAST(Dict&, _2).apply([this](PyVar k, PyVar 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(PyVar obj: _CAST(Tuple&, _1))
PUSH(obj);
_0 = vectorcall(_CAST(Tuple&, _1).size(), // ARGC
0, // KWARGC
true);
}
if(_0.type == tp_op_call) {
frame = &callstack.top();
goto __NEXT_FRAME;
}
PUSH(_0);
}
DISPATCH()
case OP_RETURN_VALUE: {
PyVar _0 = byte.arg == BC_NOARG ? POPX() : None;
__pop_frame();
if(frame == base_frame) { // [ frameBase<- ]
return _0;
} else {
frame = &callstack.top();
PUSH(_0);
goto __NEXT_FRAME;
}
}
DISPATCH()
case OP_YIELD_VALUE: return pkpy_OP_YIELD;
/*****************************************/
case OP_LIST_APPEND: {
PyVar _0 = POPX();
PK_OBJ_GET(List, SECOND()).push_back(_0);
}
DISPATCH()
case OP_DICT_ADD: {
PyVar _0 = POPX();
const Tuple& t = PK_OBJ_GET(Tuple, _0);
PK_OBJ_GET(Dict, SECOND()).set(this, t[0], t[1]);
}
DISPATCH()
case OP_SET_ADD: {
PyVar _0 = POPX();
call_method(SECOND(), pk_id_add, _0);
}
DISPATCH()
/*****************************************/
case OP_UNARY_NEGATIVE: TOP() = py_negate(TOP()); DISPATCH()
case OP_UNARY_NOT: TOP() = VAR(!py_bool(TOP())); DISPATCH()
case OP_UNARY_STAR: TOP() = VAR(StarWrapper(byte.arg, TOP())); DISPATCH()
case OP_UNARY_INVERT: {
PyVar _0;
auto _ti = _tp_info(TOP());
if(_ti->m__invert__)
_0 = _ti->m__invert__(this, TOP());
else
_0 = call_method(TOP(), __invert__);
TOP() = _0;
}
DISPATCH()
/*****************************************/
case OP_GET_ITER: TOP() = py_iter(TOP()); DISPATCH()
case OP_GET_ITER_NEW: TOP() = py_iter(TOP()); DISPATCH()
case OP_FOR_ITER: {
PyVar _0 = py_next(TOP());
if(_0 == StopIteration) {
int target = frame->prepare_loop_break(&s_data);
DISPATCH_JUMP_ABSOLUTE(target)
} else {
PUSH(_0);
DISPATCH()
}
}
case OP_FOR_ITER_STORE_FAST: {
PyVar _0 = py_next(TOP());
if(_0 == StopIteration) {
int target = frame->prepare_loop_break(&s_data);
DISPATCH_JUMP_ABSOLUTE(target)
} else {
frame->_locals[byte.arg] = _0;
DISPATCH()
}
}
case OP_FOR_ITER_STORE_GLOBAL: {
PyVar _0 = py_next(TOP());
if(_0 == StopIteration) {
int target = frame->prepare_loop_break(&s_data);
DISPATCH_JUMP_ABSOLUTE(target)
} else {
frame->f_globals().set(StrName(byte.arg), _0);
DISPATCH()
}
}
case OP_FOR_ITER_YIELD_VALUE: {
PyVar _0 = py_next(TOP());
if(_0 == StopIteration) {
int target = frame->prepare_loop_break(&s_data);
DISPATCH_JUMP_ABSOLUTE(target)
} else {
PUSH(_0);
return pkpy_OP_YIELD;
}
}
case OP_FOR_ITER_UNPACK: {
PyVar _0 = TOP();
const PyTypeInfo* _ti = _tp_info(_0);
if(_ti->op__next__) {
unsigned n = _ti->op__next__(this, _0);
if(n == 0) {
// StopIteration
int target = frame->prepare_loop_break(&s_data);
DISPATCH_JUMP_ABSOLUTE(target)
} else if(n == 1) {
// UNPACK_SEQUENCE
__op_unpack_sequence(byte.arg);
} else {
if(n != byte.arg) {
ValueError(_S("expected ", (int)byte.arg, " values to unpack, got ", (int)n));
}
}
} else {
// FOR_ITER
_0 = call_method(_0, __next__);
if(_0 != StopIteration) {
PUSH(_0);
// UNPACK_SEQUENCE
__op_unpack_sequence(byte.arg);
} else {
int target = frame->prepare_loop_break(&s_data);
DISPATCH_JUMP_ABSOLUTE(target)
}
}
}
DISPATCH()
/*****************************************/
case OP_IMPORT_PATH: {
PyVar _0 = frame->co->consts[byte.arg];
PUSH(py_import(CAST(Str&, _0)));
}
DISPATCH()
case OP_POP_IMPORT_STAR: {
PyVar _0 = POPX(); // pop the module
PyVar _1 = _0->attr().try_get(__all__);
StrName _name;
if(_1 != nullptr) {
for(PyVar key: CAST(List&, _1)) {
_name = StrName::get(CAST(Str&, key).sv());
PyVar 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()
/*****************************************/
case OP_UNPACK_SEQUENCE: {
__op_unpack_sequence(byte.arg);
}
DISPATCH()
case OP_UNPACK_EX: {
auto _lock = gc_scope_lock(); // lock the gc via RAII!!
PyVar _0 = py_iter(POPX());
const PyTypeInfo* _ti = _tp_info(_0);
PyVar _1;
for(int i = 0; i < byte.arg; i++) {
_1 = _py_next(_ti, _0);
if(_1 == StopIteration) ValueError("not enough values to unpack");
PUSH(_1);
}
List extras;
while(true) {
_1 = _py_next(_ti, _0);
if(_1 == StopIteration) break;
extras.push_back(_1);
}
PUSH(VAR(std::move(extras)));
}
DISPATCH()
/*****************************************/
case OP_BEGIN_CLASS: {
StrName _name(byte.arg);
PyVar _0 = POPX(); // super
if(is_none(_0)) _0 = _t(tp_object);
check_type(_0, tp_type);
__curr_class = new_type_object(frame->_module, _name, PK_OBJ_GET(Type, _0), true);
}
DISPATCH()
case OP_END_CLASS: {
assert(__curr_class != nullptr);
StrName _name(byte.arg);
frame->_module->attr().set(_name, __curr_class);
// call on_end_subclass
PyTypeInfo* ti = &_all_types[__curr_class->as<Type>()];
if(ti->base != tp_object) {
PyTypeInfo* base_ti = &_all_types[ti->base];
if(base_ti->on_end_subclass) base_ti->on_end_subclass(this, ti);
}
__curr_class = nullptr;
}
DISPATCH()
case OP_STORE_CLASS_ATTR: {
assert(__curr_class != nullptr);
StrName _name(byte.arg);
PyVar _0 = POPX();
if(is_type(_0, tp_function)) { PK_OBJ_GET(Function, _0)._class = __curr_class; }
__curr_class->attr().set(_name, _0);
}
DISPATCH()
case OP_BEGIN_CLASS_DECORATION: {
PUSH(__curr_class);
}
DISPATCH()
case OP_END_CLASS_DECORATION: {
__curr_class = POPX().get();
}
DISPATCH()
case OP_ADD_CLASS_ANNOTATION: {
assert(__curr_class != nullptr);
StrName _name(byte.arg);
Type type = __curr_class->as<Type>();
_all_types[type].annotated_fields.push_back(_name);
}
DISPATCH()
/*****************************************/
case OP_WITH_ENTER: PUSH(call_method(TOP(), __enter__)); DISPATCH()
case OP_WITH_EXIT:
call_method(TOP(), __exit__);
POP();
DISPATCH()
/*****************************************/
case OP_TRY_ENTER: {
frame->set_unwind_target(s_data._sp);
DISPATCH()
}
case OP_EXCEPTION_MATCH: {
PyVar assumed_type = POPX();
check_type(assumed_type, tp_type);
PyVar e_obj = TOP();
bool ok = isinstance(e_obj, PK_OBJ_GET(Type, assumed_type));
PUSH(VAR(ok));
}
DISPATCH()
case OP_RAISE: {
if(is_type(TOP(), tp_type)) { TOP() = call(TOP()); }
if(!isinstance(TOP(), tp_exception)) { TypeError("exceptions must derive from Exception"); }
_error(POPX());
}
DISPATCH()
case OP_RAISE_ASSERT:
if(byte.arg) {
Str msg = py_str(TOP());
POP();
AssertionError(msg);
} else {
AssertionError();
}
DISPATCH()
case OP_RE_RAISE: __raise_exc(true); DISPATCH()
case OP_POP_EXCEPTION: __last_exception = POPX().get(); DISPATCH()
/*****************************************/
case OP_FORMAT_STRING: {
PyVar _0 = POPX();
const Str& spec = CAST(Str&, frame->co->consts[byte.arg]);
PUSH(__format_object(_0, spec));
}
DISPATCH()
/*****************************************/
default: PK_UNREACHABLE()
}
}
/**********************************************************************/
PK_UNREACHABLE()
} catch(InternalException internal) {
__internal_exception = internal;
if(internal.type == InternalExceptionType::Unhandled) {
__last_exception = POPX().get();
Exception& _e = __last_exception->as<Exception>();
bool is_base_frame_to_be_popped = frame == base_frame;
__pop_frame();
if(callstack.empty()) {
// propagate to the top level
throw TopLevelException(this, &_e);
}
frame = &callstack.top();
PUSH(__last_exception);
if(is_base_frame_to_be_popped) { throw InternalException(InternalExceptionType::ToBeRaised); }
}
}
}
}
#undef TOP
#undef SECOND
#undef THIRD
#undef STACK_SHRINK
#undef PUSH
#undef POP
#undef POPX
#undef STACK_VIEW
#undef DISPATCH
#undef DISPATCH_JUMP
#undef CEVAL_STEP_CALLBACK
} // namespace pkpy
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