This commit is contained in:
BLUELOVETH 2023-04-09 17:00:58 +00:00
parent 3c16864eba
commit 8f3f08503a
4 changed files with 114 additions and 98 deletions

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@ -1,5 +1,3 @@
# BUG!! There is a memory leak in this code
UPPER_BOUND = 5000000
PREFIX = 32338

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@ -18,51 +18,65 @@ inline PyObject* VM::_run_top_frame(){
try{
if(need_raise){ need_raise = false; _raise(); }
/**********************************************************************/
#define DISPATCH() goto __NEXT_STEP
static void* OP_LABELS[] = {
#define OPCODE(name) &&CASE_OP_##name,
#include "opcodes.h"
#undef OPCODE
};
#define USE_COMPUTED_GOTO 1
#if USE_COMPUTED_GOTO
#define DISPATCH() {heap._auto_collect(); byte = frame->next_bytecode(); goto *OP_LABELS[byte.op];}
#else
#define DISPATCH() {heap._auto_collect(); byte = frame->next_bytecode(); goto __NEXT_STEP;}
#endif
#define TARGET(op) case OP_##op: \
CASE_OP_##op:
{
Bytecode byte = frame->next_bytecode();
#if !USE_COMPUTED_GOTO
__NEXT_STEP:;
#endif
/* NOTE:
* Be aware of accidental gc!
* DO NOT leave any strong reference of PyObject* in the C stack
* For example, frame->popx() returns a strong reference which may be dangerous
* `Args` containing strong references is safe if it is passed to `call` or `fast_call`
*/
#if !DEBUG_NO_AUTO_GC
heap._auto_collect();
#endif
Bytecode byte = frame->next_bytecode();
#if DEBUG_CEVAL_STEP
std::cout << frame->stack_info() << " " << OP_NAMES[byte.op] << std::endl;
#endif
switch (byte.op)
{
case OP_NO_OP: DISPATCH();
TARGET(NO_OP) DISPATCH();
/*****************************************/
case OP_POP_TOP: frame->pop(); DISPATCH();
case OP_DUP_TOP: frame->push(frame->top()); DISPATCH();
case OP_ROT_TWO: std::swap(frame->top(), frame->top_1()); DISPATCH();
case OP_PRINT_EXPR: {
TARGET(POP_TOP) frame->pop(); DISPATCH();
TARGET(DUP_TOP) frame->push(frame->top()); DISPATCH();
TARGET(ROT_TWO) std::swap(frame->top(), frame->top_1()); DISPATCH();
TARGET(PRINT_EXPR) {
PyObject* obj = frame->top(); // use top() to avoid accidental gc
if(obj != None) *_stdout << CAST(Str&, asRepr(obj)) << '\n';
frame->pop();
} DISPATCH();
/*****************************************/
case OP_LOAD_CONST: frame->push(frame->co->consts[byte.arg]); DISPATCH();
case OP_LOAD_NONE: frame->push(None); DISPATCH();
case OP_LOAD_TRUE: frame->push(True); DISPATCH();
case OP_LOAD_FALSE: frame->push(False); DISPATCH();
case OP_LOAD_ELLIPSIS: frame->push(Ellipsis); DISPATCH();
case OP_LOAD_BUILTIN_EVAL: frame->push(builtins->attr(m_eval)); DISPATCH();
case OP_LOAD_FUNCTION: {
TARGET(LOAD_CONST) frame->push(frame->co->consts[byte.arg]); DISPATCH();
TARGET(LOAD_NONE) frame->push(None); DISPATCH();
TARGET(LOAD_TRUE) frame->push(True); DISPATCH();
TARGET(LOAD_FALSE) frame->push(False); DISPATCH();
TARGET(LOAD_ELLIPSIS) frame->push(Ellipsis); DISPATCH();
TARGET(LOAD_BUILTIN_EVAL) frame->push(builtins->attr(m_eval)); DISPATCH();
TARGET(LOAD_FUNCTION) {
FuncDecl_ decl = frame->co->func_decls[byte.arg];
PyObject* obj = VAR(Function({decl, frame->_module, frame->_locals}));
frame->push(obj);
} DISPATCH();
case OP_LOAD_NULL: frame->push(_py_null); DISPATCH();
TARGET(LOAD_NULL) frame->push(_py_null); DISPATCH();
/*****************************************/
case OP_LOAD_NAME: {
TARGET(LOAD_NAME) {
StrName name = frame->co->names[byte.arg];
PyObject* val;
val = frame->f_locals().try_get(name);
@ -75,7 +89,7 @@ __NEXT_STEP:;
if(val != nullptr) { frame->push(val); DISPATCH(); }
vm->NameError(name);
} DISPATCH();
case OP_LOAD_GLOBAL: {
TARGET(LOAD_GLOBAL) {
StrName name = frame->co->names[byte.arg];
PyObject* val = frame->f_globals().try_get(name);
if(val != nullptr) { frame->push(val); DISPATCH(); }
@ -83,47 +97,47 @@ __NEXT_STEP:;
if(val != nullptr) { frame->push(val); DISPATCH(); }
vm->NameError(name);
} DISPATCH();
case OP_LOAD_ATTR: {
TARGET(LOAD_ATTR) {
PyObject* a = frame->top();
StrName name = frame->co->names[byte.arg];
frame->top() = getattr(a, name);
} DISPATCH();
case OP_LOAD_METHOD: {
TARGET(LOAD_METHOD) {
PyObject* a = frame->top();
StrName name = frame->co->names[byte.arg];
PyObject* self;
frame->top() = get_unbound_method(a, name, &self, true, true);
frame->push(self);
} DISPATCH();
case OP_LOAD_SUBSCR: {
TARGET(LOAD_SUBSCR) {
Args args(2);
args[1] = frame->popx(); // b
args[0] = frame->top(); // a
frame->top() = fast_call(__getitem__, std::move(args));
} DISPATCH();
case OP_STORE_LOCAL: {
TARGET(STORE_LOCAL) {
StrName name = frame->co->names[byte.arg];
frame->f_locals().set(name, frame->popx());
} DISPATCH();
case OP_STORE_GLOBAL: {
TARGET(STORE_GLOBAL) {
StrName name = frame->co->names[byte.arg];
frame->f_globals().set(name, frame->popx());
} DISPATCH();
case OP_STORE_ATTR: {
TARGET(STORE_ATTR) {
StrName name = frame->co->names[byte.arg];
PyObject* a = frame->top();
PyObject* val = frame->top_1();
setattr(a, name, val);
frame->pop_n(2);
} DISPATCH();
case OP_STORE_SUBSCR: {
TARGET(STORE_SUBSCR) {
Args args(3);
args[1] = frame->popx(); // b
args[0] = frame->popx(); // a
args[2] = frame->popx(); // val
fast_call(__setitem__, std::move(args));
} DISPATCH();
case OP_DELETE_LOCAL: {
TARGET(DELETE_LOCAL) {
StrName name = frame->co->names[byte.arg];
if(frame->f_locals().contains(name)){
frame->f_locals().erase(name);
@ -131,7 +145,7 @@ __NEXT_STEP:;
NameError(name);
}
} DISPATCH();
case OP_DELETE_GLOBAL: {
TARGET(DELETE_GLOBAL) {
StrName name = frame->co->names[byte.arg];
if(frame->f_globals().contains(name)){
frame->f_globals().erase(name);
@ -139,33 +153,33 @@ __NEXT_STEP:;
NameError(name);
}
} DISPATCH();
case OP_DELETE_ATTR: {
TARGET(DELETE_ATTR) {
PyObject* a = frame->popx();
StrName name = frame->co->names[byte.arg];
if(!a->is_attr_valid()) TypeError("cannot delete attribute");
if(!a->attr().contains(name)) AttributeError(a, name);
a->attr().erase(name);
} DISPATCH();
case OP_DELETE_SUBSCR: {
TARGET(DELETE_SUBSCR) {
PyObject* b = frame->popx();
PyObject* a = frame->popx();
fast_call(__delitem__, Args{a, b});
} DISPATCH();
/*****************************************/
case OP_BUILD_LIST:
TARGET(BUILD_LIST)
frame->push(VAR(frame->popx_n_reversed(byte.arg).to_list()));
DISPATCH();
case OP_BUILD_DICT: {
TARGET(BUILD_DICT) {
PyObject* t = VAR(frame->popx_n_reversed(byte.arg));
PyObject* obj = call(builtins->attr(m_dict), Args{t});
frame->push(obj);
} DISPATCH();
case OP_BUILD_SET: {
TARGET(BUILD_SET) {
PyObject* t = VAR(frame->popx_n_reversed(byte.arg));
PyObject* obj = call(builtins->attr(m_set), Args{t});
frame->push(obj);
} DISPATCH();
case OP_BUILD_SLICE: {
TARGET(BUILD_SLICE) {
PyObject* step = frame->popx();
PyObject* stop = frame->popx();
PyObject* start = frame->popx();
@ -175,18 +189,18 @@ __NEXT_STEP:;
if(step != None) s.step = CAST(int, step);
frame->push(VAR(s));
} DISPATCH();
case OP_BUILD_TUPLE: {
TARGET(BUILD_TUPLE) {
Tuple items = frame->popx_n_reversed(byte.arg);
frame->push(VAR(std::move(items)));
} DISPATCH();
case OP_BUILD_STRING: {
TARGET(BUILD_STRING) {
std::stringstream ss; // asStr() may run extra bytecode
for(int i=byte.arg-1; i>=0; i--) ss << CAST(Str&, asStr(frame->top_n(i)));
frame->pop_n(byte.arg);
frame->push(VAR(ss.str()));
} DISPATCH();
/*****************************************/
case OP_BINARY_OP: {
TARGET(BINARY_OP) {
Args args(2);
args[1] = frame->popx(); // lhs
args[0] = frame->top(); // rhs
@ -207,47 +221,47 @@ __NEXT_STEP:;
} \
DISPATCH();
case OP_BINARY_ADD:
TARGET(BINARY_ADD)
INT_BINARY_OP(+, __add__)
case OP_BINARY_SUB:
TARGET(BINARY_SUB)
INT_BINARY_OP(-, __sub__)
case OP_BINARY_MUL:
TARGET(BINARY_MUL)
INT_BINARY_OP(*, __mul__)
case OP_BINARY_FLOORDIV:
TARGET(BINARY_FLOORDIV)
INT_BINARY_OP(/, __floordiv__)
case OP_BINARY_MOD:
TARGET(BINARY_MOD)
INT_BINARY_OP(%, __mod__)
case OP_COMPARE_LT:
TARGET(COMPARE_LT)
INT_BINARY_OP(<, __lt__)
case OP_COMPARE_LE:
TARGET(COMPARE_LE)
INT_BINARY_OP(<=, __le__)
case OP_COMPARE_EQ:
TARGET(COMPARE_EQ)
INT_BINARY_OP(==, __eq__)
case OP_COMPARE_NE:
TARGET(COMPARE_NE)
INT_BINARY_OP(!=, __ne__)
case OP_COMPARE_GT:
TARGET(COMPARE_GT)
INT_BINARY_OP(>, __gt__)
case OP_COMPARE_GE:
TARGET(COMPARE_GE)
INT_BINARY_OP(>=, __ge__)
case OP_BITWISE_LSHIFT:
TARGET(BITWISE_LSHIFT)
INT_BINARY_OP(<<, __lshift__)
case OP_BITWISE_RSHIFT:
TARGET(BITWISE_RSHIFT)
INT_BINARY_OP(>>, __rshift__)
case OP_BITWISE_AND:
TARGET(BITWISE_AND)
INT_BINARY_OP(&, __and__)
case OP_BITWISE_OR:
TARGET(BITWISE_OR)
INT_BINARY_OP(|, __or__)
case OP_BITWISE_XOR:
TARGET(BITWISE_XOR)
INT_BINARY_OP(^, __xor__)
#undef INT_BINARY_OP
case OP_IS_OP: {
TARGET(IS_OP) {
PyObject* rhs = frame->popx();
PyObject* lhs = frame->top();
bool ret_c = lhs == rhs;
if(byte.arg == 1) ret_c = !ret_c;
frame->top() = VAR(ret_c);
} DISPATCH();
case OP_CONTAINS_OP: {
TARGET(CONTAINS_OP) {
Args args(2);
args[0] = frame->popx();
args[1] = frame->top();
@ -257,35 +271,35 @@ __NEXT_STEP:;
frame->top() = VAR(ret_c);
} DISPATCH();
/*****************************************/
case OP_JUMP_ABSOLUTE: frame->jump_abs(byte.arg); DISPATCH();
case OP_POP_JUMP_IF_FALSE:
TARGET(JUMP_ABSOLUTE) frame->jump_abs(byte.arg); DISPATCH();
TARGET(POP_JUMP_IF_FALSE)
if(!asBool(frame->popx())) frame->jump_abs(byte.arg);
DISPATCH();
case OP_JUMP_IF_TRUE_OR_POP:
TARGET(JUMP_IF_TRUE_OR_POP)
if(asBool(frame->top()) == true) frame->jump_abs(byte.arg);
else frame->pop();
DISPATCH();
case OP_JUMP_IF_FALSE_OR_POP:
TARGET(JUMP_IF_FALSE_OR_POP)
if(asBool(frame->top()) == false) frame->jump_abs(byte.arg);
else frame->pop();
DISPATCH();
case OP_LOOP_CONTINUE: {
TARGET(LOOP_CONTINUE) {
int target = frame->co->blocks[byte.block].start;
frame->jump_abs(target);
} DISPATCH();
case OP_LOOP_BREAK: {
TARGET(LOOP_BREAK) {
int target = frame->co->blocks[byte.block].end;
frame->jump_abs_break(target);
} DISPATCH();
case OP_GOTO: {
TARGET(GOTO) {
StrName label = frame->co->names[byte.arg];
auto it = frame->co->labels.find(label);
if(it == frame->co->labels.end()) _error("KeyError", fmt("label ", label.escape(), " not found"));
frame->jump_abs_break(it->second);
} DISPATCH();
/*****************************************/
// TODO: examine this later
case OP_CALL: case OP_CALL_UNPACK: {
TARGET(CALL)
TARGET(CALL_UNPACK) {
int ARGC = byte.arg;
bool method_call = frame->top_n(ARGC) != _py_null;
@ -297,9 +311,10 @@ __NEXT_STEP:;
PyObject* callable = frame->popx();
PyObject* ret = call(callable, std::move(args), no_arg(), true);
if(ret == _py_op_call) { __ret=ret; goto __PY_OP_CALL; }
frame->push(std::move(ret));
frame->push(ret);
} DISPATCH();
case OP_CALL_KWARGS: case OP_CALL_KWARGS_UNPACK: {
TARGET(CALL_KWARGS)
TARGET(CALL_KWARGS_UNPACK) {
int ARGC = byte.arg & 0xFFFF;
int KWARGC = (byte.arg >> 16) & 0xFFFF;
Args kwargs = frame->popx_n_reversed(KWARGC*2);
@ -313,40 +328,40 @@ __NEXT_STEP:;
PyObject* callable = frame->popx();
PyObject* ret = call(callable, std::move(args), kwargs, true);
if(ret == _py_op_call) { __ret=ret; goto __PY_OP_CALL; }
frame->push(std::move(ret));
frame->push(ret);
} DISPATCH();
case OP_RETURN_VALUE: { __ret=frame->popx(); goto __PY_SIMPLE_RETURN; }
case OP_YIELD_VALUE: return _py_op_yield;
TARGET(RETURN_VALUE) { __ret=frame->popx(); goto __PY_SIMPLE_RETURN; }
TARGET(YIELD_VALUE) return _py_op_yield;
/*****************************************/
case OP_LIST_APPEND: {
TARGET(LIST_APPEND) {
PyObject* obj = frame->popx();
List& list = CAST(List&, frame->top_1());
list.push_back(obj);
} DISPATCH();
case OP_DICT_ADD: {
TARGET(DICT_ADD) {
PyObject* kv = frame->popx();
Tuple& t = CAST(Tuple& ,kv);
fast_call(__setitem__, Args{frame->top_1(), t[0], t[1]});
} DISPATCH();
case OP_SET_ADD: {
TARGET(SET_ADD) {
PyObject* obj = frame->popx();
fast_call(m_add, Args{frame->top_1(), obj});
} DISPATCH();
/*****************************************/
case OP_UNARY_NEGATIVE:
TARGET(UNARY_NEGATIVE)
frame->top() = num_negated(frame->top());
DISPATCH();
case OP_UNARY_NOT:
TARGET(UNARY_NOT)
frame->top() = VAR(!asBool(frame->top()));
DISPATCH();
case OP_UNARY_STAR:
TARGET(UNARY_STAR)
frame->top() = VAR(StarWrapper(frame->top()));
DISPATCH();
/*****************************************/
case OP_GET_ITER:
TARGET(GET_ITER)
frame->top() = asIter(frame->top());
DISPATCH();
case OP_FOR_ITER: {
TARGET(FOR_ITER) {
BaseIter* it = PyIter_AS_C(frame->top());
PyObject* obj = it->next();
if(obj != nullptr){
@ -357,7 +372,7 @@ __NEXT_STEP:;
}
} DISPATCH();
/*****************************************/
case OP_IMPORT_NAME: {
TARGET(IMPORT_NAME) {
StrName name = frame->co->names[byte.arg];
PyObject* ext_mod = _modules.try_get(name);
if(ext_mod == nullptr){
@ -380,7 +395,7 @@ __NEXT_STEP:;
frame->push(ext_mod);
}
} DISPATCH();
case OP_IMPORT_STAR: {
TARGET(IMPORT_STAR) {
PyObject* obj = frame->popx();
for(auto& [name, value]: obj->attr().items()){
std::string_view s = name.sv();
@ -389,7 +404,8 @@ __NEXT_STEP:;
}
}; DISPATCH();
/*****************************************/
case OP_UNPACK_SEQUENCE: case OP_UNPACK_EX: {
TARGET(UNPACK_SEQUENCE)
TARGET(UNPACK_EX) {
// asIter or iter->next may run bytecode, accidential gc may happen
auto _lock = heap.gc_scope_lock(); // lock the gc via RAII!!
PyObject* obj = asIter(frame->popx());
@ -413,7 +429,7 @@ __NEXT_STEP:;
}
}; DISPATCH();
/*****************************************/
case OP_BEGIN_CLASS: {
TARGET(BEGIN_CLASS) {
StrName name = frame->co->names[byte.arg];
PyObject* super_cls = frame->popx();
if(super_cls == None) super_cls = _t(tp_object);
@ -421,11 +437,11 @@ __NEXT_STEP:;
PyObject* cls = new_type_object(frame->_module, name, OBJ_GET(Type, super_cls));
frame->push(cls);
} DISPATCH();
case OP_END_CLASS: {
TARGET(END_CLASS) {
PyObject* cls = frame->popx();
cls->attr()._try_perfect_rehash();
}; DISPATCH();
case OP_STORE_CLASS_ATTR: {
TARGET(STORE_CLASS_ATTR) {
StrName name = frame->co->names[byte.arg];
PyObject* obj = frame->popx();
PyObject* cls = frame->top();
@ -433,13 +449,13 @@ __NEXT_STEP:;
} DISPATCH();
/*****************************************/
// // TODO: using "goto" inside with block may cause __exit__ not called
// case OP_WITH_ENTER: call(frame->pop_value(this), __enter__, no_arg()); DISPATCH();
// case OP_WITH_EXIT: call(frame->pop_value(this), __exit__, no_arg()); DISPATCH();
// TARGET(WITH_ENTER) call(frame->pop_value(this), __enter__, no_arg()); DISPATCH();
// TARGET(WITH_EXIT) call(frame->pop_value(this), __exit__, no_arg()); DISPATCH();
/*****************************************/
case OP_TRY_BLOCK_ENTER: frame->on_try_block_enter(); DISPATCH();
case OP_TRY_BLOCK_EXIT: frame->on_try_block_exit(); DISPATCH();
TARGET(TRY_BLOCK_ENTER) frame->on_try_block_enter(); DISPATCH();
TARGET(TRY_BLOCK_EXIT) frame->on_try_block_exit(); DISPATCH();
/*****************************************/
case OP_ASSERT: {
TARGET(ASSERT) {
PyObject* obj = frame->top();
Str msg;
if(is_type(obj, tp_tuple)){
@ -452,23 +468,24 @@ __NEXT_STEP:;
frame->pop();
if(!ok) _error("AssertionError", msg);
} DISPATCH();
case OP_EXCEPTION_MATCH: {
TARGET(EXCEPTION_MATCH) {
const auto& e = CAST(Exception&, frame->top());
StrName name = frame->co->names[byte.arg];
frame->push(VAR(e.match_type(name)));
} DISPATCH();
case OP_RAISE: {
TARGET(RAISE) {
PyObject* obj = frame->popx();
Str msg = obj == None ? "" : CAST(Str, asStr(obj));
StrName type = frame->co->names[byte.arg];
_error(type, msg);
} DISPATCH();
case OP_RE_RAISE: _raise(); DISPATCH();
TARGET(RE_RAISE) _raise(); DISPATCH();
default: throw std::runtime_error(fmt(OP_NAMES[byte.op], " is not implemented"));
}
UNREACHABLE();
}
#undef DISPATCH
#undef TARGET
/**********************************************************************/
__PY_SIMPLE_RETURN:
if(frame.index == base_id){ // [ frameBase<- ]

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@ -90,12 +90,14 @@ struct ManagedHeap{
}
void _auto_collect(){
#if !DEBUG_NO_AUTO_GC
if(_gc_lock_counter > 0) return;
if(gc_counter < gc_threshold) return;
gc_counter = 0;
collect();
gc_threshold = gen.size() * 2;
if(gc_threshold < kMinGCThreshold) gc_threshold = kMinGCThreshold;
#endif
}
int collect(){

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@ -47,7 +47,6 @@ OPCODE(BINARY_MUL)
OPCODE(BINARY_FLOORDIV)
OPCODE(BINARY_MOD)
OPCODE(COMPARE_OP)
OPCODE(COMPARE_LT)
OPCODE(COMPARE_LE)
OPCODE(COMPARE_EQ)
@ -100,8 +99,8 @@ OPCODE(BEGIN_CLASS)
OPCODE(END_CLASS)
OPCODE(STORE_CLASS_ATTR)
/**************************/
OPCODE(WITH_ENTER)
OPCODE(WITH_EXIT)
// OPCODE(WITH_ENTER)
// OPCODE(WITH_EXIT)
/**************************/
OPCODE(TRY_BLOCK_ENTER)
OPCODE(TRY_BLOCK_EXIT)