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pocketpy
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blueloveTH 3 vuotta sitten
vanhempi
10b8afdeb2
commit
bcfb6b64f3
3 muutettua tiedostoa jossa 113 lisäystä ja 89 poistoa
Jaettu näkymä Näytä diff tilastot
  1. 1 2
      src/obj.h
  2. 83 63
      src/pocketpy.h
  3. 29 24
      src/vm.h

+ 1 - 2
src/obj.h
Näytä tiedosto 

@@ -15,7 +15,6 @@ class PyObject;
 
 class CodeObject;
 
 class BasePointer;
 
 class VM;
 
-class Frame;
 
 
 typedef std::shared_ptr<PyObject> PyVar;
 
 typedef PyVar PyVarOrNull;
 
@@ -47,7 +46,7 @@ public:
 
 typedef std::unordered_map<_Str, PyVar> PyVarDict;
 
 typedef std::shared_ptr<const BasePointer> _Pointer;
 
 
-typedef PyVar (*_CppFunc)(VM*, Frame*, PyVarList);
 
+typedef PyVar (*_CppFunc)(VM*, PyVarList);
 
 typedef std::shared_ptr<CodeObject> _Code;
 
 
 struct _Func {

+ 83 - 63
src/pocketpy.h
Näytä tiedosto 

@@ -6,7 +6,7 @@
 
 #define PK_VERSION "0.2.0"
 
 
 #define BIND_NUM_ARITH_OPT(name, op)                                                                    \
 
-    _vm->bindMethodMulti({"int","float"}, #name, [](VM* vm, Frame* frame, PyVarList args){               \
 
+    _vm->bindMethodMulti({"int","float"}, #name, [](VM* vm, PyVarList args){               \
 
         if(!vm->isIntOrFloat(args[0], args[1]))                                                         \
 
             vm->typeError("unsupported operand type(s) for " #op );                        \
 
         if(args[0]->isType(vm->_tp_int) && args[1]->isType(vm->_tp_int)){                               \
 
@@ -17,7 +17,7 @@
 
     });
 
 
 #define BIND_NUM_LOGICAL_OPT(name, op, fallback)                                                        \
 
-    _vm->bindMethodMulti({"int","float"}, #name, [](VM* vm, Frame* frame, PyVarList args){               \
 
+    _vm->bindMethodMulti({"int","float"}, #name, [](VM* vm, PyVarList args){               \
 
         if(!vm->isIntOrFloat(args[0], args[1])){                                                        \
 
             if constexpr(fallback) return vm->PyBool(args[0] op args[1]);                               \
 
             vm->typeError("unsupported operand type(s) for " #op );                        \
 
@@ -40,7 +40,7 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
 #undef BIND_NUM_ARITH_OPT
 
 #undef BIND_NUM_LOGICAL_OPT
 
 
-    _vm->bindBuiltinFunc("print", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindBuiltinFunc("print", [](VM* vm, PyVarList args) {
 
         for (auto& arg : args){
 
             _Str s = vm->PyStr_AS_C(vm->asStr(arg)) + " ";
 
             vm->_stdout(s.c_str());
 
@@ -49,62 +49,82 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->None;
 
     });
 
 
-    _vm->bindBuiltinFunc("eval", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindBuiltinFunc("eval", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1);
 
         const _Str& expr = vm->PyStr_AS_C(args[0]);
 
         _Code code = compile(vm, expr.c_str(), "<eval>", EVAL_MODE);
 
         if(code == nullptr) return vm->None;
 
-        return vm->_exec(code, frame->_module, frame->f_locals);
 
+        return vm->_exec(code, vm->topFrame()->_module, vm->topFrame()->f_locals);
 
     });
 
 
-    _vm->bindBuiltinFunc("isinstance", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindBuiltinFunc("isinstance", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 2);
 
         return vm->PyBool(vm->isInstance(args[0], args[1]));
 
     });
 
 
-    _vm->bindBuiltinFunc("repr", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindBuiltinFunc("repr", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1);
 
         return vm->asRepr(args[0]);
 
     });
 
 
-    _vm->bindBuiltinFunc("hash", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindBuiltinFunc("hash", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1);
 
         return vm->PyInt(vm->hash(args[0]));
 
     });
 
 
-    _vm->bindBuiltinFunc("chr", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindBuiltinFunc("chr", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1);
 
         _Int i = vm->PyInt_AS_C(args[0]);
 
         if (i < 0 || i > 128) vm->valueError("chr() arg not in range(128)");
 
         return vm->PyStr(_Str(1, (char)i));
 
     });
 
 
-    _vm->bindBuiltinFunc("ord", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindBuiltinFunc("ord", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1);
 
         _Str s = vm->PyStr_AS_C(args[0]);
 
         if (s.size() != 1) vm->typeError("ord() expected an ASCII character");
 
         return vm->PyInt((_Int)s[0]);
 
     });
 
 
-    _vm->bindBuiltinFunc("dir", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindBuiltinFunc("globals", [](VM* vm, PyVarList args) {
 
+        vm->__checkArgSize(args, 0);
 
+        const auto& d = vm->topFrame()->f_globals();
 
+        PyVar obj = vm->call(vm->builtins->attribs["dict"], {});
 
+        for (const auto& [k, v] : d) {
 
+            vm->call(obj, __setitem__, {vm->PyStr(k), v});
 
+        }
 
+        return obj;
 
+    });
 
+
 
+    _vm->bindBuiltinFunc("locals", [](VM* vm, PyVarList args) {
 
+        vm->__checkArgSize(args, 0);
 
+        const auto& d = vm->topFrame()->f_locals;
 
+        PyVar obj = vm->call(vm->builtins->attribs["dict"], {});
 
+        for (const auto& [k, v] : d) {
 
+            vm->call(obj, __setitem__, {vm->PyStr(k), v});
 
+        }
 
+        return obj;
 
+    });
 
+
 
+    _vm->bindBuiltinFunc("dir", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1);
 
         PyVarList ret;
 
         for (auto& [k, _] : args[0]->attribs) ret.push_back(vm->PyStr(k));
 
         return vm->PyList(ret);
 
     });
 
 
-    _vm->bindMethod("object", "__repr__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("object", "__repr__", [](VM* vm, PyVarList args) {
 
         PyVar _self = args[0];
 
         _Str s = "<" + _self->getTypeName() + " object at " + std::to_string((uintptr_t)_self.get()) + ">";
 
         return vm->PyStr(s);
 
     });
 
 
-    _vm->bindMethod("type", "__new__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("type", "__new__", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1);
 
         return args[0]->attribs[__class__];
 
     });
 
 
-    _vm->bindMethod("range", "__new__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("range", "__new__", [](VM* vm, PyVarList args) {
 
         _Range r;
 
         switch (args.size()) {
 
             case 1: r.stop = vm->PyInt_AS_C(args[0]); break;
 
@@ -115,17 +135,17 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->PyRange(r);
 
     });
 
 
-    _vm->bindMethod("range", "__iter__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("range", "__iter__", [](VM* vm, PyVarList args) {
 
         vm->__checkType(args[0], vm->_tp_range);
 
         auto iter = std::make_shared<RangeIterator>(vm, args[0]);
 
         return vm->PyIter(iter);
 
     });
 
 
-    _vm->bindMethod("NoneType", "__repr__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("NoneType", "__repr__", [](VM* vm, PyVarList args) {
 
         return vm->PyStr("None");
 
     });
 
 
-    _vm->bindMethodMulti({"int", "float"}, "__truediv__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethodMulti({"int", "float"}, "__truediv__", [](VM* vm, PyVarList args) {
 
         if(!vm->isIntOrFloat(args[0], args[1]))
 
             vm->typeError("unsupported operand type(s) for " "/" );
 
         _Float rhs = vm->numToFloat(args[1]);
 
@@ -133,7 +153,7 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->PyFloat(vm->numToFloat(args[0]) / rhs);
 
     });
 
 
-    _vm->bindMethodMulti({"int", "float"}, "__pow__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethodMulti({"int", "float"}, "__pow__", [](VM* vm, PyVarList args) {
 
         if(!vm->isIntOrFloat(args[0], args[1]))
 
             vm->typeError("unsupported operand type(s) for " "**" );
 
         if(args[0]->isType(vm->_tp_int) && args[1]->isType(vm->_tp_int)){
 
@@ -144,7 +164,7 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
     });
 
 
     /************ PyInt ************/
 
-    _vm->bindMethod("int", "__new__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("int", "__new__", [](VM* vm, PyVarList args) {
 
         if(args.size() == 0) return vm->PyInt(0);
 
         vm->__checkArgSize(args, 1);
 
         if (args[0]->isType(vm->_tp_int)) return args[0];
 
@@ -163,7 +183,7 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->None;
 
     });
 
 
-    _vm->bindMethod("int", "__floordiv__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("int", "__floordiv__", [](VM* vm, PyVarList args) {
 
         if(!args[0]->isType(vm->_tp_int) || !args[1]->isType(vm->_tp_int))
 
             vm->typeError("unsupported operand type(s) for " "//" );
 
         _Int rhs = vm->PyInt_AS_C(args[1]);
 
@@ -171,24 +191,24 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->PyInt(vm->PyInt_AS_C(args[0]) / rhs);
 
     });
 
 
-    _vm->bindMethod("int", "__mod__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("int", "__mod__", [](VM* vm, PyVarList args) {
 
         if(!args[0]->isType(vm->_tp_int) || !args[1]->isType(vm->_tp_int))
 
             vm->typeError("unsupported operand type(s) for " "%" );
 
         return vm->PyInt(vm->PyInt_AS_C(args[0]) % vm->PyInt_AS_C(args[1]));
 
     });
 
 
-    _vm->bindMethod("int", "__neg__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("int", "__neg__", [](VM* vm, PyVarList args) {
 
         if(!args[0]->isType(vm->_tp_int))
 
             vm->typeError("unsupported operand type(s) for " "-" );
 
         return vm->PyInt(-1 * vm->PyInt_AS_C(args[0]));
 
     });
 
 
-    _vm->bindMethod("int", "__repr__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("int", "__repr__", [](VM* vm, PyVarList args) {
 
         return vm->PyStr(std::to_string(vm->PyInt_AS_C(args[0])));
 
     });
 
 
     /************ PyFloat ************/
 
-    _vm->bindMethod("float", "__new__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("float", "__new__", [](VM* vm, PyVarList args) {
 
         if(args.size() == 0) return vm->PyFloat(0.0);
 
         vm->__checkArgSize(args, 1);
 
         if (args[0]->isType(vm->_tp_int)) return vm->PyFloat((_Float)vm->PyInt_AS_C(args[0]));
 
@@ -209,11 +229,11 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->None;
 
     });
 
 
-    _vm->bindMethod("float", "__neg__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("float", "__neg__", [](VM* vm, PyVarList args) {
 
         return vm->PyFloat(-1.0 * vm->PyFloat_AS_C(args[0]));
 
     });
 
 
-    _vm->bindMethod("float", "__repr__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("float", "__repr__", [](VM* vm, PyVarList args) {
 
         _Float val = vm->PyFloat_AS_C(args[0]);
 
         if(std::isinf(val) || std::isnan(val)) return vm->PyStr(std::to_string(val));
 
         _StrStream ss;
 
@@ -224,12 +244,12 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
     });
 
 
     /************ PyString ************/
 
-    _vm->bindMethod("str", "__new__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "__new__", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1);
 
         return vm->asStr(args[0]);
 
     });
 
 
-    _vm->bindMethod("str", "__add__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "__add__", [](VM* vm, PyVarList args) {
 
         if(!args[0]->isType(vm->_tp_str) || !args[1]->isType(vm->_tp_str))
 
             vm->typeError("unsupported operand type(s) for " "+" );
 
         const _Str& lhs = vm->PyStr_AS_C(args[0]);
 
@@ -237,39 +257,39 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->PyStr(lhs + rhs);
 
     });
 
 
-    _vm->bindMethod("str", "__len__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "__len__", [](VM* vm, PyVarList args) {
 
         const _Str& _self = vm->PyStr_AS_C(args[0]);
 
         return vm->PyInt(_self.u8_length());
 
     });
 
 
-    _vm->bindMethod("str", "__contains__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "__contains__", [](VM* vm, PyVarList args) {
 
         const _Str& _self = vm->PyStr_AS_C(args[0]);
 
         const _Str& _other = vm->PyStr_AS_C(args[1]);
 
         return vm->PyBool(_self.str().find(_other.str()) != _Str::npos);
 
     });
 
 
-    _vm->bindMethod("str", "__str__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "__str__", [](VM* vm, PyVarList args) {
 
         return args[0]; // str is immutable
 
     });
 
 
-    _vm->bindMethod("str", "__iter__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "__iter__", [](VM* vm, PyVarList args) {
 
         auto it = std::make_shared<StringIterator>(vm, args[0]);
 
         return vm->PyIter(it);
 
     });
 
 
-    _vm->bindMethod("str", "__repr__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "__repr__", [](VM* vm, PyVarList args) {
 
         const _Str& _self = vm->PyStr_AS_C(args[0]);
 
         // we just do a simple repr here, no escaping
 
         return vm->PyStr("'" + _self.str() + "'");
 
     });
 
 
-    _vm->bindMethod("str", "__eq__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "__eq__", [](VM* vm, PyVarList args) {
 
         if(args[0]->isType(vm->_tp_str) && args[1]->isType(vm->_tp_str))
 
             return vm->PyBool(vm->PyStr_AS_C(args[0]) == vm->PyStr_AS_C(args[1]));
 
         return vm->PyBool(args[0] == args[1]);      // fallback
 
     });
 
 
-    _vm->bindMethod("str", "__getitem__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "__getitem__", [](VM* vm, PyVarList args) {
 
         const _Str& _self (vm->PyStr_AS_C(args[0]));
 
 
         if(args[1]->isType(vm->_tp_slice)){
 
@@ -283,19 +303,19 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->PyStr(_self.u8_getitem(_index));
 
     });
 
 
-    _vm->bindMethod("str", "__gt__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "__gt__", [](VM* vm, PyVarList args) {
 
         const _Str& _self (vm->PyStr_AS_C(args[0]));
 
         const _Str& _obj (vm->PyStr_AS_C(args[1]));
 
         return vm->PyBool(_self > _obj);
 
     });
 
 
-    _vm->bindMethod("str", "__lt__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "__lt__", [](VM* vm, PyVarList args) {
 
         const _Str& _self (vm->PyStr_AS_C(args[0]));
 
         const _Str& _obj (vm->PyStr_AS_C(args[1]));
 
         return vm->PyBool(_self < _obj);
 
     });
 
 
-    _vm->bindMethod("str", "upper", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "upper", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1, true);
 
         const _Str& _self (vm->PyStr_AS_C(args[0]));
 
         _StrStream ss;
 
@@ -303,7 +323,7 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->PyStr(ss);
 
     });
 
 
-    _vm->bindMethod("str", "lower", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "lower", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1, true);
 
         const _Str& _self (vm->PyStr_AS_C(args[0]));
 
         _StrStream ss;
 
@@ -311,7 +331,7 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->PyStr(ss);
 
     });
 
 
-    _vm->bindMethod("str", "replace", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "replace", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 3, true);
 
         const _Str& _self = vm->PyStr_AS_C(args[0]);
 
         const _Str& _old = vm->PyStr_AS_C(args[1]);
 
@@ -326,21 +346,21 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->PyStr(_copy);
 
     });
 
 
-    _vm->bindMethod("str", "startswith", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "startswith", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 2, true);
 
         const _Str& _self = vm->PyStr_AS_C(args[0]);
 
         const _Str& _prefix = vm->PyStr_AS_C(args[1]);
 
         return vm->PyBool(_self.str().find(_prefix.str()) == 0);
 
     });
 
 
-    _vm->bindMethod("str", "endswith", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "endswith", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 2, true);
 
         const _Str& _self = vm->PyStr_AS_C(args[0]);
 
         const _Str& _suffix = vm->PyStr_AS_C(args[1]);
 
         return vm->PyBool(_self.str().rfind(_suffix.str()) == _self.str().length() - _suffix.str().length());
 
     });
 
 
-    _vm->bindMethod("str", "join", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("str", "join", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 2, true);
 
         const _Str& _self = vm->PyStr_AS_C(args[0]);
 
         const PyVarList& _list = vm->PyList_AS_C(args[1]);
 
@@ -353,20 +373,20 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
     });
 
 
     /************ PyList ************/
 
-    _vm->bindMethod("list", "__iter__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("list", "__iter__", [](VM* vm, PyVarList args) {
 
         vm->__checkType(args[0], vm->_tp_list);
 
         auto iter = std::make_shared<VectorIterator>(vm, args[0]);
 
         return vm->PyIter(iter);
 
     });
 
 
-    _vm->bindMethod("list", "append", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("list", "append", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 2, true);
 
         PyVarList& _self = vm->PyList_AS_C(args[0]);
 
         _self.push_back(args[1]);
 
         return vm->None;
 
     });
 
 
-    _vm->bindMethod("list", "insert", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("list", "insert", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 3, true);
 
         PyVarList& _self = vm->PyList_AS_C(args[0]);
 
         int _index = vm->PyInt_AS_C(args[1]);
 
@@ -375,18 +395,18 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->None;
 
     });
 
 
-    _vm->bindMethod("list", "clear", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("list", "clear", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1, true);
 
         vm->PyList_AS_C(args[0]).clear();
 
         return vm->None;
 
     });
 
 
-    _vm->bindMethod("list", "copy", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("list", "copy", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1, true);
 
         return vm->PyList(vm->PyList_AS_C(args[0]));
 
     });
 
 
-    _vm->bindMethod("list", "pop", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("list", "pop", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1, true);
 
         PyVarList& _self = vm->PyList_AS_C(args[0]);
 
         if(_self.empty()) vm->indexError("pop from empty list");
 
@@ -395,7 +415,7 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return ret;
 
     });      
 
-    _vm->bindMethod("list", "__add__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("list", "__add__", [](VM* vm, PyVarList args) {
 
         const PyVarList& _self = vm->PyList_AS_C(args[0]);
 
         const PyVarList& _obj = vm->PyList_AS_C(args[1]);
 
         PyVarList _new_list = _self;
 
@@ -403,12 +423,12 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->PyList(_new_list);
 
     });
 
 
-    _vm->bindMethod("list", "__len__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("list", "__len__", [](VM* vm, PyVarList args) {
 
         const PyVarList& _self = vm->PyList_AS_C(args[0]);
 
         return vm->PyInt(_self.size());
 
     });
 
 
-    _vm->bindMethod("list", "__getitem__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("list", "__getitem__", [](VM* vm, PyVarList args) {
 
         const PyVarList& _self = vm->PyList_AS_C(args[0]);
 
 
         if(args[1]->isType(vm->_tp_slice)){
 
@@ -425,7 +445,7 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return _self[_index];
 
     });
 
 
-    _vm->bindMethod("list", "__setitem__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("list", "__setitem__", [](VM* vm, PyVarList args) {
 
         PyVarList& _self = vm->PyList_AS_C(args[0]);
 
         int _index = vm->PyInt_AS_C(args[1]);
 
         _index = vm->normalizedIndex(_index, _self.size());
 
@@ -433,7 +453,7 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
         return vm->None;
 
     });
 
 
-    _vm->bindMethod("list", "__delitem__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("list", "__delitem__", [](VM* vm, PyVarList args) {
 
         PyVarList& _self = vm->PyList_AS_C(args[0]);
 
         int _index = vm->PyInt_AS_C(args[1]);
 
         _index = vm->normalizedIndex(_index, _self.size());
 
@@ -442,24 +462,24 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
     });
 
 
     /************ PyTuple ************/
 
-    _vm->bindMethod("tuple", "__new__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("tuple", "__new__", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1);
 
-        PyVarList _list = vm->PyList_AS_C(vm->call(frame, vm->builtins->attribs["list"], args));
 
+        PyVarList _list = vm->PyList_AS_C(vm->call(vm->builtins->attribs["list"], args));
 
         return vm->PyTuple(_list);
 
     });
 
 
-    _vm->bindMethod("tuple", "__iter__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("tuple", "__iter__", [](VM* vm, PyVarList args) {
 
         vm->__checkType(args[0], vm->_tp_tuple);
 
         auto iter = std::make_shared<VectorIterator>(vm, args[0]);
 
         return vm->PyIter(iter);
 
     });
 
 
-    _vm->bindMethod("tuple", "__len__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("tuple", "__len__", [](VM* vm, PyVarList args) {
 
         const PyVarList& _self = vm->PyTuple_AS_C(args[0]);
 
         return vm->PyInt(_self.size());
 
     });
 
 
-    _vm->bindMethod("tuple", "__getitem__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("tuple", "__getitem__", [](VM* vm, PyVarList args) {
 
         const PyVarList& _self = vm->PyTuple_AS_C(args[0]);
 
         int _index = vm->PyInt_AS_C(args[1]);
 
         _index = vm->normalizedIndex(_index, _self.size());
 
@@ -467,12 +487,12 @@ void __initializeBuiltinFunctions(VM* _vm) {
 
     });
 
 
     /************ PyBool ************/
 
-    _vm->bindMethod("bool", "__repr__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("bool", "__repr__", [](VM* vm, PyVarList args) {
 
         bool val = vm->PyBool_AS_C(args[0]);
 
         return vm->PyStr(val ? "True" : "False");
 
     });
 
 
-    _vm->bindMethod("bool", "__eq__", [](VM* vm, Frame* frame, PyVarList args) {
 
+    _vm->bindMethod("bool", "__eq__", [](VM* vm, PyVarList args) {
 
         return vm->PyBool(args[0] == args[1]);
 
     });
 
 }
 
@@ -495,7 +515,7 @@ void __runCodeBuiltins(VM* vm, const char* src){
 
 
 void __addModuleTime(VM* vm){
 
     PyVar mod = vm->newModule("time");
 
-    vm->bindFunc(mod, "time", [](VM* vm, Frame* frame, PyVarList args) {
 
+    vm->bindFunc(mod, "time", [](VM* vm, PyVarList args) {
 
         auto now = std::chrono::high_resolution_clock::now();
 
         return vm->PyFloat(std::chrono::duration_cast<std::chrono::microseconds>(now.time_since_epoch()).count() / 1000000.0);
 
     });
 
@@ -503,7 +523,7 @@ void __addModuleTime(VM* vm){
 
 
 void __addModuleSys(VM* vm){
 
     PyVar mod = vm->newModule("sys");
 
-    vm->bindFunc(mod, "getrefcount", [](VM* vm, Frame* frame, PyVarList args) {
 
+    vm->bindFunc(mod, "getrefcount", [](VM* vm, PyVarList args) {
 
         vm->__checkArgSize(args, 1);
 
         return vm->PyInt(args[0].use_count());
 
     });

+ 29 - 24
src/vm.h
Näytä tiedosto 

@@ -103,7 +103,7 @@ private:
 
             case OP_LIST_APPEND: {
 
                 PyVar obj = frame->popValue(this);
 
                 PyVar list = frame->topNValue(this, -2);
 
-                fastCall(frame, list, "append", {list, obj});
 
+                fastCall(list, "append", {list, obj});
 
             } break;
 
             case OP_STORE_FUNCTION:
 
                 {
 
@@ -140,7 +140,7 @@ private:
 
                 {
 
                     PyVar rhs = frame->popValue(this);
 
                     PyVar lhs = frame->popValue(this);
 
-                    frame->push(fastCall(frame, lhs, BIN_SPECIAL_METHODS[byte.arg], {lhs,rhs}));
 
+                    frame->push(fastCall(lhs, BIN_SPECIAL_METHODS[byte.arg], {lhs,rhs}));
 
                 } break;
 
             case OP_COMPARE_OP:
 
                 {
 
@@ -148,7 +148,7 @@ private:
 
                     PyVar lhs = frame->popValue(this);
 
                     // for __ne__ we use the negation of __eq__
 
                     int op = byte.arg == 3 ? 2 : byte.arg;
 
-                    PyVar res = fastCall(frame, lhs, CMP_SPECIAL_METHODS[op], {lhs,rhs});
 
+                    PyVar res = fastCall(lhs, CMP_SPECIAL_METHODS[op], {lhs,rhs});
 
                     if(op != byte.arg) res = PyBool(!PyBool_AS_C(res));
 
                     frame->push(res);
 
                 } break;
 
@@ -162,14 +162,14 @@ private:
 
                 {
 
                     PyVar rhs = frame->popValue(this);
 
                     PyVar lhs = frame->popValue(this);
 
-                    bool ret_c = PyBool_AS_C(call(frame, rhs, __contains__, {lhs}));
 
+                    bool ret_c = PyBool_AS_C(call(rhs, __contains__, {lhs}));
 
                     if(byte.arg == 1) ret_c = !ret_c;
 
                     frame->push(PyBool(ret_c));
 
                 } break;
 
             case OP_UNARY_NEGATIVE:
 
                 {
 
                     PyVar obj = frame->popValue(this);
 
-                    frame->push(call(frame, obj, __neg__, {}));
 
+                    frame->push(call(obj, __neg__, {}));
 
                 } break;
 
             case OP_UNARY_NOT:
 
                 {
 
@@ -202,9 +202,9 @@ private:
 
             case OP_BUILD_MAP:
 
                 {
 
                     PyVarList items = frame->popNValuesReversed(this, byte.arg*2);
 
-                    PyVar obj = call(frame, builtins->attribs["dict"], {});
 
+                    PyVar obj = call(builtins->attribs["dict"], {});
 
                     for(int i=0; i<items.size(); i+=2){
 
-                        call(frame, obj, __setitem__, {items[i], items[i+1]});
 
+                        call(obj, __setitem__, {items[i], items[i+1]});
 
                     }
 
                     frame->push(obj);
 
                 } break;
 
@@ -213,7 +213,7 @@ private:
 
                 {
 
                     PyVarList args = frame->popNValuesReversed(this, byte.arg);
 
                     PyVar callable = frame->popValue(this);
 
-                    frame->push(call(frame, callable, args));
 
+                    frame->push(call(callable, args));
 
                 } break;
 
             case OP_JUMP_ABSOLUTE: frame->jumpTo(byte.arg); break;
 
             case OP_GET_ITER:
 
@@ -221,7 +221,7 @@ private:
 
                     PyVar obj = frame->popValue(this);
 
                     PyVarOrNull iter_fn = getAttr(obj, __iter__, false);
 
                     if(iter_fn != nullptr){
 
-                        PyVar tmp = call(frame, iter_fn, {obj});
 
+                        PyVar tmp = call(iter_fn, {obj});
 
                         PyIter_AS_C(tmp)->var = PyPointer_AS_C(frame->__pop());
 
                         frame->push(tmp);
 
                     }else{
 
@@ -299,13 +299,18 @@ public:
 
 
     PyVar asStr(const PyVar& obj){
 
         PyVarOrNull str_fn = getAttr(obj, __str__, false);
 
-        if(str_fn != nullptr) return call(nullptr, str_fn, {});
 
+        if(str_fn != nullptr) return call(str_fn, {});
 
         return asRepr(obj);
 
     }
 
 
+    Frame* topFrame(){
 
+        if(callstack.size() == 0) UNREACHABLE();
 
+        return callstack.top().get();
 
+    }
 
+
 
     PyVar asRepr(const PyVar& obj){
 
         if(obj->isType(_tp_type)) return PyStr("<class '" + obj->getName() + "'>");
 
-        return call(nullptr, obj, __repr__, {});
 
+        return call(obj, __repr__, {});
 
     }
 
 
     PyVar asBool(const PyVar& obj){
 
@@ -316,18 +321,18 @@ public:
 
         if(tp == _tp_float) return PyBool(PyFloat_AS_C(obj) != 0.0);
 
         PyVarOrNull len_fn = getAttr(obj, "__len__", false);
 
         if(len_fn != nullptr){
 
-            PyVar ret = call(nullptr, len_fn, {});
 
+            PyVar ret = call(len_fn, {});
 
             return PyBool(PyInt_AS_C(ret) > 0);
 
         }
 
         return True;
 
     }
 
 
-    PyVar fastCall(Frame* frame, const PyVar& obj, const _Str& name, PyVarList args){
 
+    PyVar fastCall(const PyVar& obj, const _Str& name, PyVarList args){
 
         PyVar cls = obj->attribs[__class__];
 
         while(cls != None) {
 
             auto it = cls->attribs.find(name);
 
             if(it != cls->attribs.end()){
 
-                return call(frame, it->second, args);
 
+                return call(it->second, args);
 
             }
 
             cls = cls->attribs[__base__];
 
         }
 
@@ -335,18 +340,18 @@ public:
 
         return nullptr;
 
     }
 
 
-    PyVar call(Frame* frame, PyVar callable, PyVarList args){
 
+    PyVar call(PyVar callable, PyVarList args){
 
         if(callable->isType(_tp_type)){
 
             auto it = callable->attribs.find(__new__);
 
             PyVar obj;
 
             if(it != callable->attribs.end()){
 
-                obj = call(frame, it->second, args);
 
+                obj = call(it->second, args);
 
             }else{
 
                 obj = newObject(callable, (_Int)-1);
 
             }
 
             if(obj->isType(callable)){
 
                 PyVarOrNull init_fn = getAttr(obj, __init__, false);
 
-                if (init_fn != nullptr) call(frame, init_fn, args);
 
+                if (init_fn != nullptr) call(init_fn, args);
 
             }
 
             return obj;
 
         }
 
@@ -359,7 +364,7 @@ public:
 
         
         if(callable->isType(_tp_native_function)){
 
             auto f = std::get<_CppFunc>(callable->_native);
 
-            return f(this, frame, args);
 
+            return f(this, args);
 
         } else if(callable->isType(_tp_function)){
 
             _Func fn = PyFunction_AS_C(callable);
 
             PyVarDict locals;
 
@@ -392,15 +397,15 @@ public:
 
             if(it_m != callable->attribs.end()){
 
                 return _exec(fn.code, it_m->second, locals);
 
             }else{
 
-                return _exec(fn.code, frame->_module, locals);
 
+                return _exec(fn.code, topFrame()->_module, locals);
 
             }
 
         }
 
         typeError("'" + callable->getTypeName() + "' object is not callable");
 
         return None;
 
     }
 
 
-    inline PyVar call(Frame* frame, const PyVar& obj, const _Str& func, PyVarList args){
 
-        return call(frame, getAttr(obj, func), args);
 
+    inline PyVar call(const PyVar& obj, const _Str& func, PyVarList args){
 
+        return call(getAttr(obj, func), args);
 
     }
 
 
     PyVar exec(const _Code& code, PyVar _module=nullptr){
 
@@ -770,15 +775,15 @@ void AttrPointer::del(VM* vm, Frame* frame) const{
 
 }
 
 
 PyVar IndexPointer::get(VM* vm, Frame* frame) const{
 
-    return vm->call(frame, obj, __getitem__, {index});
 
+    return vm->call(obj, __getitem__, {index});
 
 }
 
 
 void IndexPointer::set(VM* vm, Frame* frame, PyVar val) const{
 
-    vm->call(frame, obj, __setitem__, {index, val});
 
+    vm->call(obj, __setitem__, {index, val});
 
 }
 
 
 void IndexPointer::del(VM* vm, Frame* frame) const{
 
-    vm->call(frame, obj, __delitem__, {index});
 
+    vm->call(obj, __delitem__, {index});
 
 }
 
 
 PyVar CompoundPointer::get(VM* vm, Frame* frame) const{