#pragma once #include "common.h" #include "vm.h" namespace pkpy { #define PY_CLASS(T, mod, name) \ static Type _type(VM* vm) { \ static const StrName __x0(#mod); \ static const StrName __x1(#name); \ return OBJ_GET(Type, vm->_modules[__x0]->attr(__x1)); \ } \ static void _check_type(VM* vm, PyObject* val){ \ if(!vm->isinstance(val, T::_type(vm))){ \ vm->TypeError("expected '" #mod "." #name "', got " + OBJ_NAME(vm->_t(val)).escape()); \ } \ } \ static PyObject* register_class(VM* vm, PyObject* mod) { \ if(OBJ_NAME(mod) != #mod) { \ auto msg = fmt("register_class() failed: ", OBJ_NAME(mod), " != ", #mod); \ throw std::runtime_error(msg); \ } \ PyObject* type = vm->new_type_object(mod, #name, vm->tp_object); \ T::_register(vm, mod, type); \ type->attr()._try_perfect_rehash(); \ return type; \ } #define VAR_T(T, ...) vm->heap.gcnew(T::_type(vm), T(__VA_ARGS__)) static int c99_sizeof(VM*, const Str&); struct VoidP{ PY_CLASS(VoidP, c, void_p) void* ptr; int base_offset; VoidP(void* ptr): ptr(ptr), base_offset(1){} VoidP(): ptr(nullptr), base_offset(1){} bool operator==(const VoidP& other) const { return ptr == other.ptr && base_offset == other.base_offset; } bool operator!=(const VoidP& other) const { return ptr != other.ptr || base_offset != other.base_offset; } Str hex() const{ std::stringstream ss; ss << std::hex << reinterpret_cast(ptr); return "0x" + ss.str(); } static void _register(VM* vm, PyObject* mod, PyObject* type){ vm->bind_default_constructor(type); vm->bind_func<1>(type, "from_hex", [](VM* vm, ArgsView args){ std::string s = CAST(Str&, args[0]).str(); size_t size; intptr_t ptr = std::stoll(s, &size, 16); if(size != s.size()) vm->ValueError("invalid literal for void_p(): " + s); return VAR_T(VoidP, (void*)ptr); }); vm->bind_method<0>(type, "hex", [](VM* vm, ArgsView args){ VoidP& self = _CAST(VoidP&, args[0]); return VAR(self.hex()); }); vm->bind__repr__(OBJ_GET(Type, type), [](VM* vm, PyObject* obj){ VoidP& self = _CAST(VoidP&, obj); std::stringstream ss; ss << ""; return VAR(ss.str()); }); vm->bind__eq__(OBJ_GET(Type, type), [](VM* vm, PyObject* lhs, PyObject* rhs){ if(!is_non_tagged_type(rhs, VoidP::_type(vm))) return false; return _CAST(VoidP&, lhs) == _CAST(VoidP&, rhs); }); vm->bind__gt__(OBJ_GET(Type, type), [](VM* vm, PyObject* lhs, PyObject* rhs){ return _CAST(VoidP&, lhs).ptr > CAST(VoidP&, rhs).ptr; }); vm->bind__lt__(OBJ_GET(Type, type), [](VM* vm, PyObject* lhs, PyObject* rhs){ return _CAST(VoidP&, lhs).ptr < CAST(VoidP&, rhs).ptr; }); vm->bind__ge__(OBJ_GET(Type, type), [](VM* vm, PyObject* lhs, PyObject* rhs){ return _CAST(VoidP&, lhs).ptr >= CAST(VoidP&, rhs).ptr; }); vm->bind__le__(OBJ_GET(Type, type), [](VM* vm, PyObject* lhs, PyObject* rhs){ return _CAST(VoidP&, lhs).ptr <= CAST(VoidP&, rhs).ptr; }); vm->bind__hash__(OBJ_GET(Type, type), [](VM* vm, PyObject* obj){ VoidP& self = _CAST(VoidP&, obj); return reinterpret_cast(self.ptr); }); vm->bind_method<1>(type, "set_base_offset", [](VM* vm, ArgsView args){ VoidP& self = _CAST(VoidP&, args[0]); if(is_non_tagged_type(args[1], vm->tp_str)){ const Str& type = _CAST(Str&, args[1]); self.base_offset = c99_sizeof(vm, type); }else{ self.base_offset = CAST(int, args[1]); } return vm->None; }); vm->bind_method<0>(type, "get_base_offset", [](VM* vm, ArgsView args){ VoidP& self = _CAST(VoidP&, args[0]); return VAR(self.base_offset); }); vm->bind_method<1>(type, "offset", [](VM* vm, ArgsView args){ VoidP& self = _CAST(VoidP&, args[0]); i64 offset = CAST(i64, args[1]); return VAR_T(VoidP, (char*)self.ptr + offset * self.base_offset); }); vm->bind__add__(OBJ_GET(Type, type), [](VM* vm, PyObject* lhs, PyObject* rhs){ VoidP& self = _CAST(VoidP&, lhs); i64 offset = CAST(i64, rhs); return VAR_T(VoidP, (char*)self.ptr + offset); }); vm->bind__sub__(OBJ_GET(Type, type), [](VM* vm, PyObject* lhs, PyObject* rhs){ VoidP& self = _CAST(VoidP&, lhs); i64 offset = CAST(i64, rhs); return VAR_T(VoidP, (char*)self.ptr - offset); }); #define BIND_SETGET(T, name) \ vm->bind_method<0>(type, "read_" name, [](VM* vm, ArgsView args){ \ VoidP& self = _CAST(VoidP&, args[0]); \ return VAR(*(T*)self.ptr); \ }); \ vm->bind_method<1>(type, "write_" name, [](VM* vm, ArgsView args){ \ VoidP& self = _CAST(VoidP&, args[0]); \ *(T*)self.ptr = CAST(T, args[1]); \ return vm->None; \ }); BIND_SETGET(char, "char") BIND_SETGET(unsigned char, "uchar") BIND_SETGET(short, "short") BIND_SETGET(unsigned short, "ushort") BIND_SETGET(int, "int") BIND_SETGET(unsigned int, "uint") BIND_SETGET(long, "long") BIND_SETGET(unsigned long, "ulong") BIND_SETGET(long long, "longlong") BIND_SETGET(unsigned long long, "ulonglong") BIND_SETGET(float, "float") BIND_SETGET(double, "double") BIND_SETGET(bool, "bool") vm->bind_method<0>(type, "read_void_p", [](VM* vm, ArgsView args){ VoidP& self = _CAST(VoidP&, args[0]); return VAR_T(VoidP, *(void**)self.ptr); }); vm->bind_method<1>(type, "write_void_p", [](VM* vm, ArgsView args){ VoidP& self = _CAST(VoidP&, args[0]); VoidP& other = CAST(VoidP&, args[0]); self.ptr = other.ptr; return vm->None; }); vm->bind_method<1>(type, "read_bytes", [](VM* vm, ArgsView args){ VoidP& self = _CAST(VoidP&, args[0]); i64 size = CAST(i64, args[1]); std::vector buffer(size); memcpy(buffer.data(), self.ptr, size); return VAR(Bytes(std::move(buffer))); }); vm->bind_method<1>(type, "write_bytes", [](VM* vm, ArgsView args){ VoidP& self = _CAST(VoidP&, args[0]); Bytes& bytes = CAST(Bytes&, args[1]); memcpy(self.ptr, bytes.data(), bytes.size()); return vm->None; }); } }; struct C99Struct{ PY_CLASS(C99Struct, c, struct) static constexpr int INLINE_SIZE = 24; char _inlined[INLINE_SIZE]; char* p; int size; void _init(int size){ this->size = size; if(size <= INLINE_SIZE){ p = _inlined; }else{ p = (char*)malloc(size); } } template C99Struct(const T& data){ static_assert(std::is_pod_v); static_assert(!std::is_pointer_v); _init(sizeof(T)); memcpy(p, &data, this->size); } C99Struct() { p = _inlined; } C99Struct(void* p, int size){ _init(size); if(p!=nullptr) memcpy(this->p, p, size); } ~C99Struct(){ if(p!=_inlined) free(p); } C99Struct(const C99Struct& other){ _init(other.size); memcpy(p, other.p, size); } static void _register(VM* vm, PyObject* mod, PyObject* type){ vm->bind_default_constructor(type); vm->bind_method<0>(type, "addr", [](VM* vm, ArgsView args){ C99Struct& self = _CAST(C99Struct&, args[0]); return VAR_T(VoidP, self.p); }); vm->bind_method<0>(type, "size", [](VM* vm, ArgsView args){ C99Struct& self = _CAST(C99Struct&, args[0]); return VAR(self.size); }); vm->bind_method<0>(type, "copy", [](VM* vm, ArgsView args){ const C99Struct& self = _CAST(C99Struct&, args[0]); return VAR_T(C99Struct, self); }); vm->bind__eq__(OBJ_GET(Type, type), [](VM* vm, PyObject* lhs, PyObject* rhs){ C99Struct& self = _CAST(C99Struct&, lhs); if(!is_non_tagged_type(rhs, C99Struct::_type(vm))) return false; C99Struct& other = _CAST(C99Struct&, rhs); return self.size == other.size && memcmp(self.p, other.p, self.size) == 0; }); // patch VoidP type = vm->_t(VoidP::_type(vm)); vm->bind_method<1>(type, "read_struct", [](VM* vm, ArgsView args){ VoidP& self = _CAST(VoidP&, args[0]); const Str& type = CAST(Str&, args[1]); int size = c99_sizeof(vm, type); return VAR_T(C99Struct, self.ptr, size); }); vm->bind_method<1>(type, "write_struct", [](VM* vm, ArgsView args){ VoidP& self = _CAST(VoidP&, args[0]); C99Struct& other = CAST(C99Struct&, args[1]); memcpy(self.ptr, other.p, other.size); return vm->None; }); } }; struct ReflField{ std::string_view name; int offset; bool operator<(const ReflField& other) const{ return name < other.name; } bool operator==(const ReflField& other) const{ return name == other.name; } bool operator!=(const ReflField& other) const{ return name != other.name; } bool operator<(std::string_view other) const{ return name < other; } bool operator==(std::string_view other) const{ return name == other; } bool operator!=(std::string_view other) const{ return name != other; } }; struct ReflType{ std::string_view name; size_t size; std::vector fields; }; inline static std::map _refl_types; inline void add_refl_type(std::string_view name, size_t size, std::vector fields){ ReflType type{name, size, std::move(fields)}; std::sort(type.fields.begin(), type.fields.end()); _refl_types[name] = std::move(type); } inline static int c99_sizeof(VM* vm, const Str& type){ auto it = _refl_types.find(type.sv()); if(it != _refl_types.end()) return it->second.size; vm->ValueError("not a valid c99 type"); return 0; } struct C99ReflType final: ReflType{ PY_CLASS(C99ReflType, c, _refl) C99ReflType(const ReflType& type){ this->name = type.name; this->size = type.size; this->fields = type.fields; } static void _register(VM* vm, PyObject* mod, PyObject* type){ vm->bind_notimplemented_constructor(type); vm->bind_method<0>(type, "__call__", [](VM* vm, ArgsView args){ C99ReflType& self = _CAST(C99ReflType&, args[0]); return VAR_T(C99Struct, nullptr, self.size); }); vm->bind_method<0>(type, "name", [](VM* vm, ArgsView args){ C99ReflType& self = _CAST(C99ReflType&, args[0]); return VAR(self.name); }); vm->bind_method<0>(type, "size", [](VM* vm, ArgsView args){ C99ReflType& self = _CAST(C99ReflType&, args[0]); return VAR(self.size); }); vm->bind__getitem__(OBJ_GET(Type, type), [](VM* vm, PyObject* obj, PyObject* key){ C99ReflType& self = _CAST(C99ReflType&, obj); const Str& name = CAST(Str&, key); auto it = std::lower_bound(self.fields.begin(), self.fields.end(), name.sv()); if(it == self.fields.end() || it->name != name.sv()){ vm->KeyError(key); return vm->None; } return VAR(it->offset); }); } }; static_assert(sizeof(Py_) <= 64); inline PyObject* py_var(VM* vm, void* p){ return VAR_T(VoidP, p); } inline PyObject* py_var(VM* vm, char* p){ return VAR_T(VoidP, p); } /***********************************************/ template T to_void_p(VM* vm, PyObject* var){ static_assert(std::is_pointer_v); VoidP& p = CAST(VoidP&, var); return reinterpret_cast(p.ptr); } template T to_c99_struct(VM* vm, PyObject* var){ static_assert(std::is_pod_v); C99Struct& pod = CAST(C99Struct&, var); return *reinterpret_cast(pod.p); } template std::enable_if_t && !std::is_pointer_v, PyObject*> py_var(VM* vm, const T& data){ return VAR_T(C99Struct, data); } /*****************************************************************/ struct NativeProxyFuncCBase { virtual PyObject* operator()(VM* vm, ArgsView args) = 0; static void check_args_size(VM* vm, ArgsView args, int n){ if (args.size() != n){ vm->TypeError("expected " + std::to_string(n) + " arguments, but got " + std::to_string(args.size())); } } }; template struct NativeProxyFuncC final: NativeProxyFuncCBase { static constexpr int N = sizeof...(Params); using _Fp = Ret(*)(Params...); _Fp func; NativeProxyFuncC(_Fp func) : func(func) {} PyObject* operator()(VM* vm, ArgsView args) override { check_args_size(vm, args, N); return call(vm, args, std::make_index_sequence()); } template PyObject* call(VM* vm, ArgsView args, std::index_sequence){ if constexpr(std::is_void_v<__Ret>){ func(py_cast(vm, args[Is])...); return vm->None; }else{ __Ret ret = func(py_cast(vm, args[Is])...); return VAR(std::move(ret)); } } }; inline PyObject* _any_c_wrapper(VM* vm, ArgsView args){ NativeProxyFuncCBase* pf = lambda_get_userdata(args.begin()); return (*pf)(vm, args); } template inline void bind_any_c_fp(VM* vm, PyObject* obj, Str name, T fp){ static_assert(std::is_pod_v); static_assert(std::is_pointer_v); auto proxy = new NativeProxyFuncC(fp); PyObject* func = VAR(NativeFunc(_any_c_wrapper, proxy->N, false)); _CAST(NativeFunc&, func).set_userdata(proxy); obj->attr().set(name, func); } inline void add_module_c(VM* vm){ PyObject* mod = vm->new_module("c"); vm->bind_func<1>(mod, "malloc", [](VM* vm, ArgsView args){ i64 size = CAST(i64, args[0]); return VAR(malloc(size)); }); vm->bind_func<1>(mod, "free", [](VM* vm, ArgsView args){ void* p = CAST(void*, args[0]); free(p); return vm->None; }); vm->bind_func<1>(mod, "sizeof", [](VM* vm, ArgsView args){ const Str& type = CAST(Str&, args[0]); i64 size = c99_sizeof(vm, type); return VAR(size); }); vm->bind_func<1>(mod, "refl", [](VM* vm, ArgsView args){ const Str& key = CAST(Str&, args[0]); auto it = _refl_types.find(key.sv()); if(it == _refl_types.end()) vm->ValueError("reflection type not found"); const ReflType& rt = it->second; return VAR_T(C99ReflType, rt); }); vm->bind_func<3>(mod, "memset", [](VM* vm, ArgsView args){ void* p = CAST(void*, args[0]); i64 c = CAST(i64, args[1]); i64 size = CAST(i64, args[2]); memset(p, c, size); return vm->None; }); vm->bind_func<3>(mod, "memcpy", [](VM* vm, ArgsView args){ void* dst = CAST(void*, args[0]); void* src = CAST(void*, args[1]); i64 size = CAST(i64, args[2]); memcpy(dst, src, size); return vm->None; }); VoidP::register_class(vm, mod); C99Struct::register_class(vm, mod); C99ReflType::register_class(vm, mod); mod->attr().set("NULL", VAR_T(VoidP, nullptr)); add_refl_type("char", sizeof(char), {}); add_refl_type("uchar", sizeof(unsigned char), {}); add_refl_type("short", sizeof(short), {}); add_refl_type("ushort", sizeof(unsigned short), {}); add_refl_type("int", sizeof(int), {}); add_refl_type("uint", sizeof(unsigned int), {}); add_refl_type("long", sizeof(long), {}); add_refl_type("ulong", sizeof(unsigned long), {}); add_refl_type("longlong", sizeof(long long), {}); add_refl_type("ulonglong", sizeof(unsigned long long), {}); add_refl_type("float", sizeof(float), {}); add_refl_type("double", sizeof(double), {}); add_refl_type("bool", sizeof(bool), {}); add_refl_type("void_p", sizeof(void*), {}); } } // namespace pkpy