mirror of
https://github.com/pocketpy/pocketpy
synced 2025-10-20 03:20:18 +00:00
617 lines
22 KiB
C++
617 lines
22 KiB
C++
#pragma once
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#include "codeobject.h"
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#include "common.h"
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#include "frame.h"
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#include "error.h"
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#include "gc.h"
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#include "memory.h"
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#include "obj.h"
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#include "str.h"
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#include "tuplelist.h"
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#include "dict.h"
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#include "profiler.h"
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namespace pkpy{
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/* Stack manipulation macros */
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// https://github.com/python/cpython/blob/3.9/Python/ceval.c#L1123
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#define TOP() (s_data.top())
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#define SECOND() (s_data.second())
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#define THIRD() (s_data.third())
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#define PEEK(n) (s_data.peek(n))
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#define STACK_SHRINK(n) (s_data.shrink(n))
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#define PUSH(v) (s_data.push(v))
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#define POP() (s_data.pop())
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#define POPX() (s_data.popx())
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#define STACK_VIEW(n) (s_data.view(n))
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#define DEF_NATIVE_2(ctype, ptype) \
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template<> inline ctype py_cast<ctype>(VM* vm, PyObject* obj) { \
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vm->check_non_tagged_type(obj, vm->ptype); \
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return PK_OBJ_GET(ctype, obj); \
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} \
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template<> inline ctype _py_cast<ctype>(VM* vm, PyObject* obj) { \
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return PK_OBJ_GET(ctype, obj); \
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} \
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template<> inline ctype& py_cast<ctype&>(VM* vm, PyObject* obj) { \
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vm->check_non_tagged_type(obj, vm->ptype); \
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return PK_OBJ_GET(ctype, obj); \
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} \
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template<> inline ctype& _py_cast<ctype&>(VM* vm, PyObject* obj) { \
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return PK_OBJ_GET(ctype, obj); \
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} \
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inline PyObject* py_var(VM* vm, const ctype& value) { return vm->heap.gcnew<ctype>(vm->ptype, value);} \
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inline PyObject* py_var(VM* vm, ctype&& value) { return vm->heap.gcnew<ctype>(vm->ptype, std::move(value));}
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typedef PyObject* (*BinaryFuncC)(VM*, PyObject*, PyObject*);
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struct PyTypeInfo{
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PyObject* obj; // never be garbage collected
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Type base;
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PyObject* mod; // never be garbage collected
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StrName name;
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bool subclass_enabled;
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pod_vector<StrName> annotated_fields = {};
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// cached special methods
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// unary operators
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PyObject* (*m__repr__)(VM* vm, PyObject*) = nullptr;
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PyObject* (*m__str__)(VM* vm, PyObject*) = nullptr;
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i64 (*m__hash__)(VM* vm, PyObject*) = nullptr;
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i64 (*m__len__)(VM* vm, PyObject*) = nullptr;
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PyObject* (*m__iter__)(VM* vm, PyObject*) = nullptr;
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PyObject* (*m__next__)(VM* vm, PyObject*) = nullptr;
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PyObject* (*m__neg__)(VM* vm, PyObject*) = nullptr;
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PyObject* (*m__bool__)(VM* vm, PyObject*) = nullptr;
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PyObject* (*m__invert__)(VM* vm, PyObject*) = nullptr;
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BinaryFuncC m__eq__ = nullptr;
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BinaryFuncC m__lt__ = nullptr;
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BinaryFuncC m__le__ = nullptr;
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BinaryFuncC m__gt__ = nullptr;
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BinaryFuncC m__ge__ = nullptr;
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BinaryFuncC m__contains__ = nullptr;
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// binary operators
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BinaryFuncC m__add__ = nullptr;
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BinaryFuncC m__sub__ = nullptr;
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BinaryFuncC m__mul__ = nullptr;
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BinaryFuncC m__truediv__ = nullptr;
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BinaryFuncC m__floordiv__ = nullptr;
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BinaryFuncC m__mod__ = nullptr;
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BinaryFuncC m__pow__ = nullptr;
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BinaryFuncC m__matmul__ = nullptr;
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BinaryFuncC m__lshift__ = nullptr;
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BinaryFuncC m__rshift__ = nullptr;
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BinaryFuncC m__and__ = nullptr;
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BinaryFuncC m__or__ = nullptr;
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BinaryFuncC m__xor__ = nullptr;
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// indexer
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PyObject* (*m__getitem__)(VM* vm, PyObject*, PyObject*) = nullptr;
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void (*m__setitem__)(VM* vm, PyObject*, PyObject*, PyObject*) = nullptr;
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void (*m__delitem__)(VM* vm, PyObject*, PyObject*) = nullptr;
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// attributes
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void (*m__setattr__)(VM* vm, PyObject*, StrName, PyObject*) = nullptr;
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PyObject* (*m__getattr__)(VM* vm, PyObject*, StrName) = nullptr;
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bool (*m__delattr__)(VM* vm, PyObject*, StrName) = nullptr;
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};
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typedef void(*PrintFunc)(const char*, int);
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class VM {
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PK_ALWAYS_PASS_BY_POINTER(VM)
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VM* vm; // self reference for simplify code
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public:
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ManagedHeap heap;
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ValueStack s_data;
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stack< Frame > callstack;
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std::vector<PyTypeInfo> _all_types;
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NameDict _modules; // loaded modules
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std::map<StrName, Str> _lazy_modules; // lazy loaded modules
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struct{
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PyObject* error;
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stack<ArgsView> s_view;
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} _c;
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PyObject* None;
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PyObject* True;
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PyObject* False;
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PyObject* NotImplemented; // unused
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PyObject* Ellipsis;
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PyObject* builtins; // builtins module
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PyObject* StopIteration;
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PyObject* _main; // __main__ module
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PyObject* _last_exception; // last exception
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PyObject* _curr_class; // current class being defined
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// this is for repr() recursion detection (no need to mark)
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std::set<PyObject*> _repr_recursion_set;
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// cached code objects for FSTRING_EVAL
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std::map<std::string_view, CodeObject_> _cached_codes;
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void (*_ceval_on_step)(VM*, Frame*, Bytecode bc) = nullptr;
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LineProfiler* _profiler = nullptr;
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PrintFunc _stdout;
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PrintFunc _stderr;
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unsigned char* (*_import_handler)(const char*, int, int*);
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// for quick access
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static constexpr Type tp_object=0, tp_type=1;
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static constexpr Type tp_int=kTpIntIndex, tp_float=kTpFloatIndex, tp_bool=4, tp_str=5;
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static constexpr Type tp_list=6, tp_tuple=7;
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static constexpr Type tp_slice=8, tp_range=9, tp_module=10;
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static constexpr Type tp_function=11, tp_native_func=12, tp_bound_method=13;
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static constexpr Type tp_super=14, tp_exception=15, tp_bytes=16, tp_mappingproxy=17;
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static constexpr Type tp_dict=18, tp_property=19, tp_star_wrapper=20;
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static constexpr Type tp_staticmethod=21, tp_classmethod=22;
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PyObject* cached_object__new__;
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const bool enable_os;
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VM(bool enable_os=true);
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FrameId top_frame();
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void _pop_frame();
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PyObject* py_str(PyObject* obj);
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PyObject* py_repr(PyObject* obj);
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PyObject* py_json(PyObject* obj);
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PyObject* py_iter(PyObject* obj);
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std::pair<PyObject**, int> _cast_array(PyObject* obj);
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PyObject* find_name_in_mro(Type cls, StrName name);
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bool isinstance(PyObject* obj, Type base);
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bool issubclass(Type cls, Type base);
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CodeObject_ compile(std::string_view source, const Str& filename, CompileMode mode, bool unknown_global_scope=false);
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PyObject* exec(std::string_view source, Str filename, CompileMode mode, PyObject* _module=nullptr);
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PyObject* exec(std::string_view source);
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PyObject* eval(std::string_view source);
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template<typename ...Args>
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PyObject* _exec(Args&&... args){
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callstack.emplace(&s_data, s_data._sp, std::forward<Args>(args)...);
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return _run_top_frame();
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}
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void _push_varargs(){ }
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void _push_varargs(PyObject* _0){ PUSH(_0); }
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void _push_varargs(PyObject* _0, PyObject* _1){ PUSH(_0); PUSH(_1); }
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void _push_varargs(PyObject* _0, PyObject* _1, PyObject* _2){ PUSH(_0); PUSH(_1); PUSH(_2); }
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void _push_varargs(PyObject* _0, PyObject* _1, PyObject* _2, PyObject* _3){ PUSH(_0); PUSH(_1); PUSH(_2); PUSH(_3); }
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virtual void stdout_write(const Str& s){
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_stdout(s.data, s.size);
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}
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virtual void stderr_write(const Str& s){
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_stderr(s.data, s.size);
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}
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template<typename... Args>
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PyObject* call(PyObject* callable, Args&&... args){
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PUSH(callable);
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PUSH(PY_NULL);
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_push_varargs(args...);
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return vectorcall(sizeof...(args));
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}
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template<typename... Args>
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PyObject* call_method(PyObject* self, PyObject* callable, Args&&... args){
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PUSH(callable);
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PUSH(self);
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_push_varargs(args...);
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return vectorcall(sizeof...(args));
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}
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template<typename... Args>
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PyObject* call_method(PyObject* self, StrName name, Args&&... args){
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PyObject* callable = get_unbound_method(self, name, &self);
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return call_method(self, callable, args...);
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}
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PyObject* new_type_object(PyObject* mod, StrName name, Type base, bool subclass_enabled=true);
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Type _new_type_object(StrName name, Type base=0, bool subclass_enabled=false);
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const PyTypeInfo* _inst_type_info(PyObject* obj);
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#define BIND_UNARY_SPECIAL(name) \
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void bind##name(Type type, PyObject* (*f)(VM*, PyObject*)){ \
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_all_types[type].m##name = f; \
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PyObject* nf = bind_method<0>(_t(type), #name, [](VM* vm, ArgsView args){ \
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return lambda_get_userdata<PyObject*(*)(VM*, PyObject*)>(args.begin())(vm, args[0]);\
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}); \
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PK_OBJ_GET(NativeFunc, nf).set_userdata(f); \
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}
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BIND_UNARY_SPECIAL(__repr__)
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BIND_UNARY_SPECIAL(__str__)
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BIND_UNARY_SPECIAL(__iter__)
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BIND_UNARY_SPECIAL(__next__)
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BIND_UNARY_SPECIAL(__neg__)
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BIND_UNARY_SPECIAL(__bool__)
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BIND_UNARY_SPECIAL(__invert__)
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void bind__hash__(Type type, i64 (*f)(VM* vm, PyObject*));
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void bind__len__(Type type, i64 (*f)(VM* vm, PyObject*));
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#undef BIND_UNARY_SPECIAL
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#define BIND_BINARY_SPECIAL(name) \
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void bind##name(Type type, BinaryFuncC f){ \
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_all_types[type].m##name = f; \
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PyObject* nf = bind_method<1>(type, #name, [](VM* vm, ArgsView args){ \
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return lambda_get_userdata<BinaryFuncC>(args.begin())(vm, args[0], args[1]);\
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}); \
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PK_OBJ_GET(NativeFunc, nf).set_userdata(f); \
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}
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BIND_BINARY_SPECIAL(__eq__)
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BIND_BINARY_SPECIAL(__lt__)
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BIND_BINARY_SPECIAL(__le__)
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BIND_BINARY_SPECIAL(__gt__)
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BIND_BINARY_SPECIAL(__ge__)
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BIND_BINARY_SPECIAL(__contains__)
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BIND_BINARY_SPECIAL(__add__)
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BIND_BINARY_SPECIAL(__sub__)
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BIND_BINARY_SPECIAL(__mul__)
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BIND_BINARY_SPECIAL(__truediv__)
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BIND_BINARY_SPECIAL(__floordiv__)
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BIND_BINARY_SPECIAL(__mod__)
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BIND_BINARY_SPECIAL(__pow__)
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BIND_BINARY_SPECIAL(__matmul__)
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BIND_BINARY_SPECIAL(__lshift__)
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BIND_BINARY_SPECIAL(__rshift__)
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BIND_BINARY_SPECIAL(__and__)
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BIND_BINARY_SPECIAL(__or__)
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BIND_BINARY_SPECIAL(__xor__)
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#undef BIND_BINARY_SPECIAL
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void bind__getitem__(Type type, PyObject* (*f)(VM*, PyObject*, PyObject*));
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void bind__setitem__(Type type, void (*f)(VM*, PyObject*, PyObject*, PyObject*));
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void bind__delitem__(Type type, void (*f)(VM*, PyObject*, PyObject*));
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bool py_eq(PyObject* lhs, PyObject* rhs);
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// new in v1.2.9
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bool py_lt(PyObject* lhs, PyObject* rhs);
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bool py_le(PyObject* lhs, PyObject* rhs);
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bool py_gt(PyObject* lhs, PyObject* rhs);
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bool py_ge(PyObject* lhs, PyObject* rhs);
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bool py_ne(PyObject* lhs, PyObject* rhs) { return !py_eq(lhs, rhs); }
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template<int ARGC, typename __T>
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PyObject* bind_constructor(__T&& type, NativeFuncC fn) {
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static_assert(ARGC==-1 || ARGC>=1);
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return bind_func<ARGC>(std::forward<__T>(type), "__new__", fn);
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}
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template<typename T, typename __T>
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PyObject* bind_default_constructor(__T&& type) {
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return bind_constructor<1>(std::forward<__T>(type), [](VM* vm, ArgsView args){
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return vm->heap.gcnew<T>(PK_OBJ_GET(Type, args[0]), T());
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});
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}
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template<typename T, typename __T>
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PyObject* bind_notimplemented_constructor(__T&& type) {
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return bind_constructor<-1>(std::forward<__T>(type), [](VM* vm, ArgsView args){
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vm->NotImplementedError();
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return vm->None;
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});
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}
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i64 normalized_index(i64 index, int size);
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PyObject* py_next(PyObject* obj);
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bool py_callable(PyObject* obj);
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/***** Error Reporter *****/
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void _raise(bool re_raise=false);
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void _builtin_error(StrName type);
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void _builtin_error(StrName type, PyObject* arg);
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void _builtin_error(StrName type, const Str& msg);
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void StackOverflowError() { _builtin_error("StackOverflowError"); }
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void IOError(const Str& msg) { _builtin_error("IOError", msg); }
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void NotImplementedError(){ _builtin_error("NotImplementedError"); }
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void TypeError(const Str& msg){ _builtin_error("TypeError", msg); }
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void IndexError(const Str& msg){ _builtin_error("IndexError", msg); }
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void ValueError(const Str& msg){ _builtin_error("ValueError", msg); }
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void RuntimeError(const Str& msg){ _builtin_error("RuntimeError", msg); }
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void ZeroDivisionError(const Str& msg){ _builtin_error("ZeroDivisionError", msg); }
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void ZeroDivisionError(){ _builtin_error("ZeroDivisionError", "division by zero"); }
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void NameError(StrName name){ _builtin_error("NameError", _S("name ", name.escape() + " is not defined")); }
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void UnboundLocalError(StrName name){ _builtin_error("UnboundLocalError", _S("local variable ", name.escape() + " referenced before assignment")); }
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void KeyError(PyObject* obj){ _builtin_error("KeyError", obj); }
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void ImportError(const Str& msg){ _builtin_error("ImportError", msg); }
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void BinaryOptError(const char* op, PyObject* _0, PyObject* _1) {
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StrName name_0 = _type_name(vm, _tp(_0));
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StrName name_1 = _type_name(vm, _tp(_1));
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TypeError(_S("unsupported operand type(s) for ", op, ": ", name_0.escape(), " and ", name_1.escape()));
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}
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void AttributeError(PyObject* obj, StrName name){
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if(isinstance(obj, vm->tp_type)){
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_builtin_error("AttributeError", _S("type object ", _type_name(vm, PK_OBJ_GET(Type, obj)).escape(), " has no attribute ", name.escape()));
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}else{
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_builtin_error("AttributeError", _S(_type_name(vm, _tp(obj)).escape(), " object has no attribute ", name.escape()));
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}
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}
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void AttributeError(const Str& msg){ _builtin_error("AttributeError", msg); }
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void check_type(PyObject* obj, Type type){
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if(is_type(obj, type)) return;
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TypeError("expected " + _type_name(vm, type).escape() + ", got " + _type_name(vm, _tp(obj)).escape());
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}
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void check_non_tagged_type(PyObject* obj, Type type){
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if(is_non_tagged_type(obj, type)) return;
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TypeError("expected " + _type_name(vm, type).escape() + ", got " + _type_name(vm, _tp(obj)).escape());
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}
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PyObject* _t(Type t){
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return _all_types[t.index].obj;
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}
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Type _tp(PyObject* obj){
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if(is_int(obj)) return tp_int;
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if(is_float(obj)) return tp_float;
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return obj->type;
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}
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PyObject* _t(PyObject* obj){
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return _all_types[_tp(obj).index].obj;
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}
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struct ImportContext{
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std::vector<Str> pending;
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pod_vector<bool> pending_is_init; // a.k.a __init__.py
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struct Temp{
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ImportContext* ctx;
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Temp(ImportContext* ctx, Str name, bool is_init) : ctx(ctx){
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ctx->pending.push_back(name);
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ctx->pending_is_init.push_back(is_init);
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}
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~Temp(){
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ctx->pending.pop_back();
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ctx->pending_is_init.pop_back();
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}
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};
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Temp scope(Str name, bool is_init){
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return {this, name, is_init};
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}
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};
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ImportContext _import_context;
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PyObject* py_import(Str path, bool throw_err=true);
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virtual ~VM();
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#if PK_DEBUG_CEVAL_STEP
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void _log_s_data(const char* title = nullptr);
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#endif
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void _unpack_as_list(ArgsView args, List& list);
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void _unpack_as_dict(ArgsView args, Dict& dict);
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PyObject* vectorcall(int ARGC, int KWARGC=0, bool op_call=false);
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PyObject* py_negate(PyObject* obj);
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bool py_bool(PyObject* obj);
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i64 py_hash(PyObject* obj);
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PyObject* py_list(PyObject*);
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PyObject* new_module(Str name, Str package="");
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Str disassemble(CodeObject_ co);
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void init_builtin_types();
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PyObject* getattr(PyObject* obj, StrName name, bool throw_err=true);
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void delattr(PyObject* obj, StrName name);
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PyObject* get_unbound_method(PyObject* obj, StrName name, PyObject** self, bool throw_err=true, bool fallback=false);
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void parse_int_slice(const Slice& s, int length, int& start, int& stop, int& step);
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PyObject* _format_string(Str, PyObject*);
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void setattr(PyObject* obj, StrName name, PyObject* value);
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template<int ARGC>
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PyObject* bind_method(Type, Str, NativeFuncC);
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template<int ARGC>
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PyObject* bind_method(PyObject*, Str, NativeFuncC);
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template<int ARGC>
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PyObject* bind_func(PyObject*, Str, NativeFuncC, UserData userdata={}, BindType bt=BindType::DEFAULT);
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void _error(PyObject*);
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PyObject* _run_top_frame();
|
|
void post_init();
|
|
PyObject* _py_generator(Frame&& frame, ArgsView buffer);
|
|
void _prepare_py_call(PyObject**, ArgsView, ArgsView, const FuncDecl_&);
|
|
// new style binding api
|
|
PyObject* bind(PyObject*, const char*, const char*, NativeFuncC, UserData userdata={}, BindType bt=BindType::DEFAULT);
|
|
PyObject* bind(PyObject*, const char*, NativeFuncC, UserData userdata={}, BindType bt=BindType::DEFAULT);
|
|
PyObject* bind_property(PyObject*, Str, NativeFuncC fget, NativeFuncC fset=nullptr);
|
|
};
|
|
|
|
DEF_NATIVE_2(Str, tp_str)
|
|
DEF_NATIVE_2(List, tp_list)
|
|
DEF_NATIVE_2(Tuple, tp_tuple)
|
|
DEF_NATIVE_2(Function, tp_function)
|
|
DEF_NATIVE_2(NativeFunc, tp_native_func)
|
|
DEF_NATIVE_2(BoundMethod, tp_bound_method)
|
|
DEF_NATIVE_2(Range, tp_range)
|
|
DEF_NATIVE_2(Slice, tp_slice)
|
|
DEF_NATIVE_2(Exception, tp_exception)
|
|
DEF_NATIVE_2(Bytes, tp_bytes)
|
|
DEF_NATIVE_2(MappingProxy, tp_mappingproxy)
|
|
DEF_NATIVE_2(Dict, tp_dict)
|
|
DEF_NATIVE_2(Property, tp_property)
|
|
DEF_NATIVE_2(StarWrapper, tp_star_wrapper)
|
|
DEF_NATIVE_2(StaticMethod, tp_staticmethod)
|
|
DEF_NATIVE_2(ClassMethod, tp_classmethod)
|
|
|
|
#undef DEF_NATIVE_2
|
|
|
|
#define PY_CAST_INT(T) \
|
|
template<> inline T py_cast<T>(VM* vm, PyObject* obj){ \
|
|
if(is_small_int(obj)) return (T)(PK_BITS(obj) >> 2); \
|
|
if(is_heap_int(obj)) return (T)PK_OBJ_GET(i64, obj); \
|
|
vm->check_type(obj, vm->tp_int); \
|
|
return 0; \
|
|
} \
|
|
template<> inline T _py_cast<T>(VM* vm, PyObject* obj){ \
|
|
if(is_small_int(obj)) return (T)(PK_BITS(obj) >> 2); \
|
|
return (T)PK_OBJ_GET(i64, obj); \
|
|
}
|
|
|
|
PY_CAST_INT(char)
|
|
PY_CAST_INT(short)
|
|
PY_CAST_INT(int)
|
|
PY_CAST_INT(long)
|
|
PY_CAST_INT(long long)
|
|
PY_CAST_INT(unsigned char)
|
|
PY_CAST_INT(unsigned short)
|
|
PY_CAST_INT(unsigned int)
|
|
PY_CAST_INT(unsigned long)
|
|
PY_CAST_INT(unsigned long long)
|
|
|
|
template<> inline float py_cast<float>(VM* vm, PyObject* obj){
|
|
if(is_float(obj)) return untag_float(obj);
|
|
i64 bits;
|
|
if(try_cast_int(obj, &bits)) return (float)bits;
|
|
vm->TypeError("expected 'int' or 'float', got " + _type_name(vm, vm->_tp(obj)).escape());
|
|
return 0;
|
|
}
|
|
template<> inline float _py_cast<float>(VM* vm, PyObject* obj){
|
|
return py_cast<float>(vm, obj);
|
|
}
|
|
template<> inline double py_cast<double>(VM* vm, PyObject* obj){
|
|
if(is_float(obj)) return untag_float(obj);
|
|
i64 bits;
|
|
if(try_cast_int(obj, &bits)) return (float)bits;
|
|
vm->TypeError("expected 'int' or 'float', got " + _type_name(vm, vm->_tp(obj)).escape());
|
|
return 0;
|
|
}
|
|
template<> inline double _py_cast<double>(VM* vm, PyObject* obj){
|
|
return py_cast<double>(vm, obj);
|
|
}
|
|
|
|
#define PY_VAR_INT(T) \
|
|
inline PyObject* py_var(VM* vm, T _val){ \
|
|
i64 val = static_cast<i64>(_val); \
|
|
if(val >= Number::kMinSmallInt && val <= Number::kMaxSmallInt){ \
|
|
val = (val << 2) | 0b10; \
|
|
return reinterpret_cast<PyObject*>(val); \
|
|
}else{ \
|
|
return vm->heap.gcnew<i64>(vm->tp_int, val); \
|
|
} \
|
|
}
|
|
|
|
PY_VAR_INT(char)
|
|
PY_VAR_INT(short)
|
|
PY_VAR_INT(int)
|
|
PY_VAR_INT(long)
|
|
PY_VAR_INT(long long)
|
|
PY_VAR_INT(unsigned char)
|
|
PY_VAR_INT(unsigned short)
|
|
PY_VAR_INT(unsigned int)
|
|
PY_VAR_INT(unsigned long)
|
|
PY_VAR_INT(unsigned long long)
|
|
#undef PY_VAR_INT
|
|
|
|
inline PyObject* py_var(VM* vm, float _val){
|
|
return tag_float(static_cast<f64>(_val));
|
|
}
|
|
|
|
inline PyObject* py_var(VM* vm, double _val){
|
|
return tag_float(static_cast<f64>(_val));
|
|
}
|
|
|
|
inline PyObject* py_var(VM* vm, bool val){
|
|
return val ? vm->True : vm->False;
|
|
}
|
|
|
|
template<> inline bool py_cast<bool>(VM* vm, PyObject* obj){
|
|
if(obj == vm->True) return true;
|
|
if(obj == vm->False) return false;
|
|
vm->check_non_tagged_type(obj, vm->tp_bool);
|
|
return false;
|
|
}
|
|
template<> inline bool _py_cast<bool>(VM* vm, PyObject* obj){
|
|
return obj == vm->True;
|
|
}
|
|
|
|
template<> inline CString py_cast<CString>(VM* vm, PyObject* obj){
|
|
vm->check_non_tagged_type(obj, vm->tp_str);
|
|
return PK_OBJ_GET(Str, obj).c_str();
|
|
}
|
|
|
|
template<> inline CString _py_cast<CString>(VM* vm, PyObject* obj){
|
|
return PK_OBJ_GET(Str, obj).c_str();
|
|
}
|
|
|
|
inline PyObject* py_var(VM* vm, const char* val){
|
|
return VAR(Str(val));
|
|
}
|
|
|
|
template<>
|
|
inline const char* py_cast<const char*>(VM* vm, PyObject* obj){
|
|
if(obj == vm->None) return nullptr;
|
|
vm->check_non_tagged_type(obj, vm->tp_str);
|
|
return PK_OBJ_GET(Str, obj).c_str();
|
|
}
|
|
|
|
template<>
|
|
inline const char* _py_cast<const char*>(VM* vm, PyObject* obj){
|
|
return PK_OBJ_GET(Str, obj).c_str();
|
|
}
|
|
|
|
inline PyObject* py_var(VM* vm, std::string val){
|
|
return VAR(Str(val));
|
|
}
|
|
|
|
inline PyObject* py_var(VM* vm, std::string_view val){
|
|
return VAR(Str(val));
|
|
}
|
|
|
|
inline PyObject* py_var(VM* vm, NoReturn val){
|
|
return vm->None;
|
|
}
|
|
|
|
template<int ARGC>
|
|
PyObject* VM::bind_method(Type type, Str name, NativeFuncC fn) {
|
|
PyObject* nf = VAR(NativeFunc(fn, ARGC, true));
|
|
_t(type)->attr().set(name, nf);
|
|
return nf;
|
|
}
|
|
|
|
template<int ARGC>
|
|
PyObject* VM::bind_method(PyObject* obj, Str name, NativeFuncC fn) {
|
|
check_non_tagged_type(obj, tp_type);
|
|
return bind_method<ARGC>(PK_OBJ_GET(Type, obj), name, fn);
|
|
}
|
|
|
|
template<int ARGC>
|
|
PyObject* VM::bind_func(PyObject* obj, Str name, NativeFuncC fn, UserData userdata, BindType bt) {
|
|
PyObject* nf = VAR(NativeFunc(fn, ARGC, false));
|
|
PK_OBJ_GET(NativeFunc, nf).set_userdata(userdata);
|
|
switch(bt){
|
|
case BindType::DEFAULT: break;
|
|
case BindType::STATICMETHOD: nf = VAR(StaticMethod(nf)); break;
|
|
case BindType::CLASSMETHOD: nf = VAR(ClassMethod(nf)); break;
|
|
}
|
|
obj->attr().set(name, nf);
|
|
return nf;
|
|
}
|
|
|
|
} // namespace pkpy
|