void setupComplex() {
complex_cls->giveAttr("__name__", boxStrConstant("complex"));
complex_cls->giveAttr("__new__", new BoxedFunction(boxRTFunction((void*)complexNew, UNKNOWN, 3, 2, false, false),
{ boxInt(0), boxInt(0) }));
_addFunc("__add__", BOXED_COMPLEX, (void*)complexAddComplex, (void*)complexAddFloat, (void*)complexAddInt,
(void*)complexAdd);
_addFunc("__sub__", BOXED_COMPLEX, (void*)complexSubComplex, (void*)complexSubFloat, (void*)complexSubInt,
(void*)complexSub);
_addFunc("__mul__", BOXED_COMPLEX, (void*)complexMulComplex, (void*)complexMulFloat, (void*)complexMulInt,
(void*)complexMul);
_addFunc("__div__", BOXED_COMPLEX, (void*)complexDivComplex, (void*)complexDivFloat, (void*)complexDivInt,
(void*)complexDiv);
complex_cls->giveAttr("__str__", new BoxedFunction(boxRTFunction((void*)complexStr, STR, 1)));
complex_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)complexRepr, STR, 1)));
complex_cls->giveAttr("real",
new BoxedMemberDescriptor(BoxedMemberDescriptor::FLOAT, offsetof(BoxedComplex, real)));
complex_cls->giveAttr("imag",
new BoxedMemberDescriptor(BoxedMemberDescriptor::FLOAT, offsetof(BoxedComplex, imag)));
complex_cls->freeze();
}
void setupIter() {
seqiter_cls = new BoxedClass(type_cls, object_cls, NULL, 0, sizeof(BoxedSeqIter), false);
seqiter_cls->giveAttr("__name__", boxStrConstant("iterator"));
seqiter_cls->giveAttr("next", new BoxedFunction(boxRTFunction((void*)seqiterNext, UNKNOWN, 1)));
seqiter_cls->giveAttr("__hasnext__", new BoxedFunction(boxRTFunction((void*)seqiterHasnext, BOXED_BOOL, 1)));
seqiter_cls->freeze();
}
void setupCAPI() {
capifunc_cls = new BoxedClass(false, NULL);
capifunc_cls->giveAttr("__name__", boxStrConstant("capifunc"));
capifunc_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)BoxedCApiFunction::__repr__, NULL, 1, false)));
capifunc_cls->setattr("__str__", capifunc_cls->peekattr("__repr__"), NULL, NULL);
capifunc_cls->giveAttr("__call__", new BoxedFunction(boxRTFunction((void*)BoxedCApiFunction::__call__, NULL, 1, true)));
capifunc_cls->freeze();
}
void setupDict() {
dict_cls->giveAttr("__name__", boxStrConstant("dict"));
// dict_cls->giveAttr("__len__", new BoxedFunction(boxRTFunction((void*)dictLen, NULL, 1, false)));
// dict_cls->giveAttr("__getitem__", new BoxedFunction(boxRTFunction((void*)dictGetitem, NULL, 2, false)));
// dict_cls->giveAttr("__new__", new BoxedFunction(boxRTFunction((void*)dictNew, NULL, 1, false)));
// dict_cls->giveAttr("__init__", new BoxedFunction(boxRTFunction((void*)dictInit, NULL, 1, false)));
dict_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)dictRepr, NULL, 1, false)));
dict_cls->setattr("__str__", dict_cls->peekattr("__repr__"), NULL, NULL);
dict_cls->giveAttr("items", new BoxedFunction(boxRTFunction((void*)dictItems, NULL, 1, false)));
dict_cls->setattr("iteritems", dict_cls->peekattr("items"), NULL, NULL);
dict_cls->giveAttr("values", new BoxedFunction(boxRTFunction((void*)dictValues, NULL, 1, false)));
dict_cls->setattr("itervalues", dict_cls->peekattr("values"), NULL, NULL);
dict_cls->giveAttr("keys", new BoxedFunction(boxRTFunction((void*)dictKeys, NULL, 1, false)));
dict_cls->setattr("iterkeys", dict_cls->peekattr("keys"), NULL, NULL);
CLFunction* pop = boxRTFunction((void*)dictPop2, UNKNOWN, 2, false);
addRTFunction(pop, (void*)dictPop3, UNKNOWN, 3, false);
dict_cls->giveAttr("pop", new BoxedFunction(pop));
CLFunction* get = boxRTFunction((void*)dictGet2, UNKNOWN, 2, false);
addRTFunction(get, (void*)dictGet3, UNKNOWN, 3, false);
dict_cls->giveAttr("get", new BoxedFunction(get));
dict_cls->giveAttr("__getitem__", new BoxedFunction(boxRTFunction((void*)dictGetitem, NULL, 2, false)));
dict_cls->giveAttr("__setitem__", new BoxedFunction(boxRTFunction((void*)dictSetitem, NULL, 3, false)));
dict_cls->freeze();
}
void setupFile() {
file_cls->giveAttr("__name__", boxStrConstant("file"));
CLFunction *read = boxRTFunction((void*)fileRead1, NULL, 1, false);
addRTFunction(read, (void*)fileRead2, NULL, 2, false);
file_cls->giveAttr("read", new BoxedFunction(read));
CLFunction *readline = boxRTFunction((void*)fileReadline1, STR, 1, false);
file_cls->giveAttr("readline", new BoxedFunction(readline));
file_cls->giveAttr("write", new BoxedFunction(boxRTFunction((void*)fileWrite, NULL, 2, false)));
file_cls->giveAttr("close", new BoxedFunction(boxRTFunction((void*)fileClose, NULL, 1, false)));
file_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)fileRepr, NULL, 1, false)));
file_cls->setattr("__str__", file_cls->peekattr("__repr__"), NULL, NULL);
file_cls->giveAttr("__enter__", new BoxedFunction(boxRTFunction((void*)fileEnter, NULL, 1, false)));
file_cls->giveAttr("__exit__", new BoxedFunction(boxRTFunction((void*)fileExit, NULL, 4, false)));
CLFunction *__new__ = boxRTFunction((void*)fileNew2, NULL, 2, false);
addRTFunction(__new__, (void*)fileNew3, NULL, 3, false);
file_cls->giveAttr("__new__", new BoxedFunction(__new__));
file_cls->freeze();
}
void setupTraceback() {
traceback_cls = BoxedHeapClass::create(type_cls, object_cls, BoxedTraceback::gcHandler, 0, 0,
sizeof(BoxedTraceback), false, "traceback");
traceback_cls->giveAttr("getLines", new BoxedFunction(boxRTFunction((void*)BoxedTraceback::getLines, UNKNOWN, 1)));
traceback_cls->freeze();
}
void setupSuper() {
super_cls = BoxedHeapClass::create(type_cls, object_cls, &BoxedSuper::gcHandler, 0, 0, sizeof(BoxedSuper), false,
"super");
super_cls->giveAttr("__getattribute__", new BoxedFunction(boxRTFunction((void*)superGetattribute, UNKNOWN, 2)));
super_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)superRepr, STR, 1)));
super_cls->giveAttr("__init__",
new BoxedFunction(boxRTFunction((void*)superInit, UNKNOWN, 3, 1, false, false), { NULL }));
super_cls->giveAttr("__thisclass__",
new BoxedMemberDescriptor(BoxedMemberDescriptor::OBJECT, offsetof(BoxedSuper, type)));
super_cls->giveAttr("__self__",
new BoxedMemberDescriptor(BoxedMemberDescriptor::OBJECT, offsetof(BoxedSuper, obj)));
super_cls->giveAttr("__self_class__",
new BoxedMemberDescriptor(BoxedMemberDescriptor::OBJECT, offsetof(BoxedSuper, obj_type)));
super_cls->freeze();
}
void setupCAPI() {
capifunc_cls = new BoxedClass(type_cls, object_cls, NULL, 0, sizeof(BoxedCApiFunction), false);
capifunc_cls->giveAttr("__name__", boxStrConstant("capifunc"));
capifunc_cls->giveAttr("__repr__",
new BoxedFunction(boxRTFunction((void*)BoxedCApiFunction::__repr__, UNKNOWN, 1)));
capifunc_cls->giveAttr("__str__", capifunc_cls->getattr("__repr__"));
capifunc_cls->giveAttr(
"__call__", new BoxedFunction(boxRTFunction((void*)BoxedCApiFunction::__call__, UNKNOWN, 1, 0, true, true)));
capifunc_cls->freeze();
method_cls = new BoxedClass(type_cls, object_cls, NULL, 0, sizeof(BoxedMethodDescriptor), false);
method_cls->giveAttr("__name__", boxStrConstant("method"));
method_cls->giveAttr("__get__",
new BoxedFunction(boxRTFunction((void*)BoxedMethodDescriptor::__get__, UNKNOWN, 3)));
method_cls->giveAttr("__call__", new BoxedFunction(boxRTFunction((void*)BoxedMethodDescriptor::__call__, UNKNOWN, 2,
0, true, true)));
method_cls->freeze();
wrapperdescr_cls = new BoxedClass(type_cls, object_cls, NULL, 0, sizeof(BoxedWrapperDescriptor), false);
wrapperdescr_cls->giveAttr("__name__", boxStrConstant("wrapper_descriptor"));
wrapperdescr_cls->giveAttr("__get__",
new BoxedFunction(boxRTFunction((void*)BoxedWrapperDescriptor::__get__, UNKNOWN, 3)));
wrapperdescr_cls->freeze();
wrapperobject_cls = new BoxedClass(type_cls, object_cls, NULL, 0, sizeof(BoxedWrapperObject), false);
wrapperobject_cls->giveAttr("__name__", boxStrConstant("method-wrapper"));
wrapperobject_cls->giveAttr(
"__call__", new BoxedFunction(boxRTFunction((void*)BoxedWrapperObject::__call__, UNKNOWN, 1, 0, true, true)));
wrapperobject_cls->freeze();
}
void setupGenerator() {
generator_cls
= BoxedHeapClass::create(type_cls, object_cls, &BoxedGenerator::gcHandler, 0,
offsetof(BoxedGenerator, weakreflist), sizeof(BoxedGenerator), false, "generator");
generator_cls->tp_dealloc = generatorDestructor;
generator_cls->has_safe_tp_dealloc = true;
generator_cls->giveAttr("__iter__",
new BoxedFunction(boxRTFunction((void*)generatorIter, typeFromClass(generator_cls), 1)));
generator_cls->giveAttr("close", new BoxedFunction(boxRTFunction((void*)generatorClose, UNKNOWN, 1)));
auto generator_next = boxRTFunction((void*)generatorNext<CXX>, UNKNOWN, 1, ParamNames::empty(), CXX);
addRTFunction(generator_next, (void*)generatorNext<CAPI>, UNKNOWN, CAPI);
generator_cls->giveAttr("next", new BoxedFunction(generator_next));
CLFunction* hasnext = boxRTFunction((void*)generatorHasnextUnboxed, BOOL, 1);
addRTFunction(hasnext, (void*)generatorHasnext, BOXED_BOOL);
generator_cls->giveAttr("__hasnext__", new BoxedFunction(hasnext));
generator_cls->giveAttr("send", new BoxedFunction(boxRTFunction((void*)generatorSend<CXX>, UNKNOWN, 2)));
auto gthrow = new BoxedFunction(boxRTFunction((void*)generatorThrow, UNKNOWN, 4, 2, false, false), { NULL, NULL });
generator_cls->giveAttr("throw", gthrow);
generator_cls->giveAttr("__name__", new (pyston_getset_cls) BoxedGetsetDescriptor(generatorName, NULL, NULL));
generator_cls->freeze();
generator_cls->tp_iter = PyObject_SelfIter;
}
void setupThread() {
// Hacky: we want to use some of CPython's implementation of the thread module (the threading local stuff),
// and some of ours (thread handling). Start off by calling a cut-down version of initthread, and then
// add our own attributes to the module it creates.
initthread();
RELEASE_ASSERT(!PyErr_Occurred(), "");
Box* thread_module = getSysModulesDict()->getOrNull(boxString("thread"));
assert(thread_module);
thread_module->giveAttr("start_new_thread", new BoxedBuiltinFunctionOrMethod(
boxRTFunction((void*)startNewThread, BOXED_INT, 3, 1, false, false),
"start_new_thread", { NULL }));
thread_module->giveAttr("allocate_lock", new BoxedBuiltinFunctionOrMethod(
boxRTFunction((void*)allocateLock, UNKNOWN, 0), "allocate_lock"));
thread_module->giveAttr(
"get_ident", new BoxedBuiltinFunctionOrMethod(boxRTFunction((void*)getIdent, BOXED_INT, 0), "get_ident"));
thread_module->giveAttr(
"stack_size", new BoxedBuiltinFunctionOrMethod(boxRTFunction((void*)stackSize, BOXED_INT, 0), "stack_size"));
thread_lock_cls = BoxedHeapClass::create(type_cls, object_cls, NULL, 0, 0, sizeof(BoxedThreadLock), false, "lock");
thread_lock_cls->tp_dealloc = BoxedThreadLock::threadLockDestructor;
thread_lock_cls->has_safe_tp_dealloc = true;
thread_lock_cls->giveAttr("__module__", boxString("thread"));
thread_lock_cls->giveAttr(
"acquire", new BoxedFunction(boxRTFunction((void*)BoxedThreadLock::acquire, BOXED_BOOL, 2, 1, false, false),
{ boxInt(1) }));
thread_lock_cls->giveAttr("release", new BoxedFunction(boxRTFunction((void*)BoxedThreadLock::release, NONE, 1)));
thread_lock_cls->giveAttr("acquire_lock", thread_lock_cls->getattr(internStringMortal("acquire")));
thread_lock_cls->giveAttr("release_lock", thread_lock_cls->getattr(internStringMortal("release")));
thread_lock_cls->giveAttr("__enter__", thread_lock_cls->getattr(internStringMortal("acquire")));
thread_lock_cls->giveAttr("__exit__", new BoxedFunction(boxRTFunction((void*)BoxedThreadLock::exit, NONE, 4)));
thread_lock_cls->giveAttr("locked",
new BoxedFunction(boxRTFunction((void*)BoxedThreadLock::locked, BOXED_BOOL, 1)));
thread_lock_cls->giveAttr("locked_lock", thread_lock_cls->getattr(internStringMortal("locked")));
thread_lock_cls->freeze();
ThreadError = BoxedHeapClass::create(type_cls, Exception, NULL, Exception->attrs_offset,
Exception->tp_weaklistoffset, Exception->tp_basicsize, false, "error");
ThreadError->giveAttr("__module__", boxString("thread"));
ThreadError->freeze();
thread_module->giveAttr("error", ThreadError);
}
void setupSys() {
sys_modules_dict = new BoxedDict();
gc::registerPermanentRoot(sys_modules_dict);
// This is ok to call here because we've already created the sys_modules_dict
sys_module = createModule("sys", "__builtin__");
sys_module->giveAttr("modules", sys_modules_dict);
BoxedList* sys_path = new BoxedList();
sys_module->giveAttr("path", sys_path);
sys_module->giveAttr("argv", new BoxedList());
sys_module->giveAttr("stdout", new BoxedFile(stdout));
sys_module->giveAttr("stdin", new BoxedFile(stdin));
sys_module->giveAttr("stderr", new BoxedFile(stderr));
sys_module->giveAttr("warnoptions", new BoxedList());
sys_module->giveAttr("py3kwarning", False);
sys_module->giveAttr("platform", boxStrConstant("unknown")); // seems like a reasonable, if poor, default
sys_module->giveAttr("hexversion", boxInt(PY_VERSION_HEX));
sys_module->giveAttr("maxint", boxInt(PYSTON_INT_MAX));
sys_flags_cls = new BoxedClass(type_cls, object_cls, BoxedSysFlags::gcHandler, 0, sizeof(BoxedSysFlags), false);
sys_flags_cls->giveAttr("__name__", boxStrConstant("flags"));
sys_flags_cls->giveAttr("__new__",
new BoxedFunction(boxRTFunction((void*)BoxedSysFlags::__new__, UNKNOWN, 1, 0, true, true)));
#define ADD(name) \
sys_flags_cls->giveAttr(STRINGIFY(name), \
new BoxedMemberDescriptor(BoxedMemberDescriptor::OBJECT, offsetof(BoxedSysFlags, name)))
ADD(division_warning);
ADD(bytes_warning);
#undef ADD
sys_flags_cls->freeze();
sys_module->giveAttr("flags", new BoxedSysFlags());
}
void setupFile() {
file_cls->giveAttr("__name__", boxStrConstant("file"));
file_cls->giveAttr("read",
new BoxedFunction(boxRTFunction((void*)fileRead, STR, 2, 1, false, false), { boxInt(-1) }));
CLFunction* readline = boxRTFunction((void*)fileReadline1, STR, 1);
file_cls->giveAttr("readline", new BoxedFunction(readline));
file_cls->giveAttr("write", new BoxedFunction(boxRTFunction((void*)fileWrite, NONE, 2)));
file_cls->giveAttr("close", new BoxedFunction(boxRTFunction((void*)fileClose, NONE, 1)));
file_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)fileRepr, STR, 1)));
file_cls->giveAttr("__str__", file_cls->getattr("__repr__"));
file_cls->giveAttr("__enter__", new BoxedFunction(boxRTFunction((void*)fileEnter, typeFromClass(file_cls), 1)));
file_cls->giveAttr("__exit__", new BoxedFunction(boxRTFunction((void*)fileExit, UNKNOWN, 4)));
file_cls->giveAttr("__new__", new BoxedFunction(boxRTFunction((void*)fileNew, UNKNOWN, 3, 1, false, false),
{ boxStrConstant("r") }));
file_cls->freeze();
}
void setupFloat() {
float_cls->giveAttr("__name__", boxStrConstant("float"));
_addFunc("__add__", BOXED_FLOAT, (void*)floatAddFloat, (void*)floatAddInt, (void*)floatAdd);
float_cls->giveAttr("__radd__", float_cls->getattr("__add__"));
_addFunc("__div__", BOXED_FLOAT, (void*)floatDivFloat, (void*)floatDivInt, (void*)floatDiv);
_addFunc("__rdiv__", BOXED_FLOAT, (void*)floatRDivFloat, (void*)floatRDivInt, (void*)floatRDiv);
float_cls->giveAttr("__floordiv__", new BoxedFunction(boxRTFunction((void*)floatFloorDiv, UNKNOWN, 2)));
_addFunc("__truediv__", BOXED_FLOAT, (void*)floatDivFloat, (void*)floatDivInt, (void*)floatTruediv);
_addFunc("__eq__", BOXED_BOOL, (void*)floatEqFloat, (void*)floatEqInt, (void*)floatEq);
_addFunc("__ge__", BOXED_BOOL, (void*)floatGeFloat, (void*)floatGeInt, (void*)floatGe);
_addFunc("__gt__", BOXED_BOOL, (void*)floatGtFloat, (void*)floatGtInt, (void*)floatGt);
_addFunc("__le__", BOXED_BOOL, (void*)floatLeFloat, (void*)floatLeInt, (void*)floatLe);
_addFunc("__lt__", BOXED_BOOL, (void*)floatLtFloat, (void*)floatLtInt, (void*)floatLt);
_addFunc("__ne__", BOXED_BOOL, (void*)floatNeFloat, (void*)floatNeInt, (void*)floatNe);
_addFunc("__mod__", BOXED_FLOAT, (void*)floatModFloat, (void*)floatModInt, (void*)floatMod);
_addFunc("__rmod__", BOXED_FLOAT, (void*)floatRModFloat, (void*)floatRModInt, (void*)floatRMod);
_addFunc("__mul__", BOXED_FLOAT, (void*)floatMulFloat, (void*)floatMulInt, (void*)floatMul);
float_cls->giveAttr("__rmul__", float_cls->getattr("__mul__"));
_addFunc("__pow__", BOXED_FLOAT, (void*)floatPowFloat, (void*)floatPowInt, (void*)floatPow);
_addFunc("__sub__", BOXED_FLOAT, (void*)floatSubFloat, (void*)floatSubInt, (void*)floatSub);
_addFunc("__rsub__", BOXED_FLOAT, (void*)floatRSubFloat, (void*)floatRSubInt, (void*)floatRSub);
float_cls->giveAttr(
"__new__", new BoxedFunction(boxRTFunction((void*)floatNew, UNKNOWN, 2, 1, false, false), { boxFloat(0.0) }));
float_cls->giveAttr("__neg__", new BoxedFunction(boxRTFunction((void*)floatNeg, BOXED_FLOAT, 1)));
CLFunction* nonzero = boxRTFunction((void*)floatNonzeroUnboxed, BOOL, 1);
addRTFunction(nonzero, (void*)floatNonzero, UNKNOWN);
float_cls->giveAttr("__nonzero__", new BoxedFunction(nonzero));
// float_cls->giveAttr("__nonzero__", new BoxedFunction(boxRTFunction((void*)floatNonzero, NULL, 1)));
float_cls->giveAttr("__str__", new BoxedFunction(boxRTFunction((void*)floatStr, STR, 1)));
float_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)floatRepr, STR, 1)));
float_cls->freeze();
}
void setupBool() {
bool_cls->giveAttr("__name__", boxStrConstant("bool"));
bool_cls->giveAttr("__invert__", new BoxedFunction(boxRTFunction((void*)boolInvert, BOXED_INT, 1)));
bool_cls->giveAttr("__pos__", new BoxedFunction(boxRTFunction((void*)boolPos, BOXED_INT, 1)));
bool_cls->giveAttr("__neg__", new BoxedFunction(boxRTFunction((void*)boolNeg, BOXED_INT, 1)));
bool_cls->giveAttr("__nonzero__", new BoxedFunction(boxRTFunction((void*)boolNonzero, BOXED_BOOL, 1)));
bool_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)boolRepr, STR, 1)));
bool_cls->giveAttr("__str__", bool_cls->getattr("__repr__"));
bool_cls->giveAttr("__new__",
new BoxedFunction(boxRTFunction((void*)boolNew, UNKNOWN, 2, 1, false, false), { None }));
bool_cls->freeze();
True = new BoxedBool(true);
False = new BoxedBool(false);
gc::registerStaticRootObj(True);
gc::registerStaticRootObj(False);
}
void setupDict() {
dict_cls->giveAttr("__name__", boxStrConstant("dict"));
// dict_cls->giveAttr("__len__", new BoxedFunction(boxRTFunction((void*)dictLen, NULL, 1, false)));
// dict_cls->giveAttr("__getitem__", new BoxedFunction(boxRTFunction((void*)dictGetitem, NULL, 2, false)));
// dict_cls->giveAttr("__new__", new BoxedFunction(boxRTFunction((void*)dictNew, NULL, 1, false)));
// dict_cls->giveAttr("__init__", new BoxedFunction(boxRTFunction((void*)dictInit, NULL, 1, false)));
dict_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)dictRepr, NULL, 1, false)));
dict_cls->setattr("__str__", dict_cls->peekattr("__repr__"), NULL, NULL);
dict_cls->giveAttr("items", new BoxedFunction(boxRTFunction((void*)dictItems, NULL, 1, false)));
dict_cls->setattr("iteritems", dict_cls->peekattr("items"), NULL, NULL);
dict_cls->giveAttr("values", new BoxedFunction(boxRTFunction((void*)dictValues, NULL, 1, false)));
dict_cls->setattr("itervalues", dict_cls->peekattr("values"), NULL, NULL);
dict_cls->giveAttr("keys", new BoxedFunction(boxRTFunction((void*)dictKeys, NULL, 1, false)));
dict_cls->setattr("iterkeys", dict_cls->peekattr("keys"), NULL, NULL);
dict_cls->giveAttr("__getitem__", new BoxedFunction(boxRTFunction((void*)dictGetitem, NULL, 2, false)));
dict_cls->giveAttr("__setitem__", new BoxedFunction(boxRTFunction((void*)dictSetitem, NULL, 3, false)));
dict_cls->freeze();
}
void setupBool() {
bool_cls->giveAttr("__name__", boxStrConstant("bool"));
bool_cls->giveAttr("__invert__", new BoxedFunction(boxRTFunction((void*)boolInvert, NULL, 1, false)));
bool_cls->giveAttr("__pos__", new BoxedFunction(boxRTFunction((void*)boolPos, NULL, 1, false)));
bool_cls->giveAttr("__neg__", new BoxedFunction(boxRTFunction((void*)boolNeg, NULL, 1, false)));
bool_cls->giveAttr("__nonzero__", new BoxedFunction(boxRTFunction((void*)boolNonzero, NULL, 1, false)));
bool_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)boolRepr, NULL, 1, false)));
bool_cls->setattr("__str__", bool_cls->peekattr("__repr__"), NULL, NULL);
CLFunction *__new__ = boxRTFunction((void*)boolNew1, NULL, 1, false);
addRTFunction(__new__, (void*)boolNew2, NULL, 2, false);
bool_cls->giveAttr("__new__", new BoxedFunction(__new__));
bool_cls->freeze();
True = new BoxedBool(true);
False = new BoxedBool(false);
gc::registerStaticRootObj(True);
gc::registerStaticRootObj(False);
}
void setupGenerator() {
generator_cls
= BoxedHeapClass::create(type_cls, object_cls, &generatorGCHandler, 0, offsetof(BoxedGenerator, weakreflist),
sizeof(BoxedGenerator), false, "generator");
generator_cls->simple_destructor = generatorDestructor;
generator_cls->giveAttr("__iter__",
new BoxedFunction(boxRTFunction((void*)generatorIter, typeFromClass(generator_cls), 1)));
generator_cls->giveAttr("close", new BoxedFunction(boxRTFunction((void*)generatorClose, UNKNOWN, 1)));
generator_cls->giveAttr("next", new BoxedFunction(boxRTFunction((void*)generatorNext, UNKNOWN, 1)));
CLFunction* hasnext = boxRTFunction((void*)generatorHasnextUnboxed, BOOL, 1);
addRTFunction(hasnext, (void*)generatorHasnext, BOXED_BOOL);
generator_cls->giveAttr("__hasnext__", new BoxedFunction(hasnext));
generator_cls->giveAttr("send", new BoxedFunction(boxRTFunction((void*)generatorSend, UNKNOWN, 2)));
auto gthrow = new BoxedFunction(boxRTFunction((void*)generatorThrow, UNKNOWN, 4, 2, false, false), { NULL, NULL });
generator_cls->giveAttr("throw", gthrow);
generator_cls->giveAttr("__name__", new (pyston_getset_cls) BoxedGetsetDescriptor(generatorName, NULL, NULL));
generator_cls->freeze();
}
void setupDescr() {
member_descriptor_cls->giveAttr("__get__", new BoxedFunction(boxRTFunction((void*)memberGet, UNKNOWN, 3)));
member_descriptor_cls->freeze();
property_cls->giveAttr("__init__",
new BoxedFunction(boxRTFunction((void*)propertyInit, UNKNOWN, 5, 4, false, false,
ParamNames({ "", "fget", "fset", "fdel", "doc" }, "", "")),
{ NULL, NULL, NULL, NULL }));
property_cls->giveAttr("__get__", new BoxedFunction(boxRTFunction((void*)propertyGet, UNKNOWN, 3)));
property_cls->giveAttr("__set__", new BoxedFunction(boxRTFunction((void*)propertySet, UNKNOWN, 3)));
property_cls->giveAttr("__delete__", new BoxedFunction(boxRTFunction((void*)propertyDel, UNKNOWN, 2)));
property_cls->giveAttr("getter", new BoxedFunction(boxRTFunction((void*)propertyGetter, UNKNOWN, 2)));
property_cls->giveAttr("setter", new BoxedFunction(boxRTFunction((void*)propertySetter, UNKNOWN, 2)));
property_cls->giveAttr("deleter", new BoxedFunction(boxRTFunction((void*)propertyDeleter, UNKNOWN, 2)));
property_cls->giveAttr("fget",
new BoxedMemberDescriptor(BoxedMemberDescriptor::OBJECT, offsetof(BoxedProperty, prop_get)));
property_cls->giveAttr("fset",
new BoxedMemberDescriptor(BoxedMemberDescriptor::OBJECT, offsetof(BoxedProperty, prop_set)));
property_cls->giveAttr("fdel",
new BoxedMemberDescriptor(BoxedMemberDescriptor::OBJECT, offsetof(BoxedProperty, prop_del)));
property_cls->giveAttr("__doc__",
new BoxedMemberDescriptor(BoxedMemberDescriptor::OBJECT, offsetof(BoxedProperty, prop_doc)));
property_cls->freeze();
staticmethod_cls->giveAttr("__init__",
new BoxedFunction(boxRTFunction((void*)staticmethodInit, UNKNOWN, 5, 4, false, false),
{ None, None, None, None }));
staticmethod_cls->giveAttr(
"__get__", new BoxedFunction(boxRTFunction((void*)staticmethodGet, UNKNOWN, 3, 1, false, false), { None }));
staticmethod_cls->freeze();
classmethod_cls->giveAttr("__init__",
new BoxedFunction(boxRTFunction((void*)classmethodInit, UNKNOWN, 5, 4, false, false),
{ None, None, None, None }));
classmethod_cls->giveAttr(
"__get__", new BoxedFunction(boxRTFunction((void*)classmethodGet, UNKNOWN, 3, 1, false, false), { None }));
classmethod_cls->freeze();
method_cls->giveAttr("__get__",
new BoxedFunction(boxRTFunction((void*)BoxedMethodDescriptor::__get__, UNKNOWN, 3)));
CLFunction* method_call_cl = boxRTFunction((void*)BoxedMethodDescriptor::__call__, UNKNOWN, 2, 0, true, true);
method_cls->giveAttr("__call__", new BoxedFunction(method_call_cl));
method_cls->tpp_call = BoxedMethodDescriptor::tppCall;
method_cls->giveAttr("__doc__", new (pyston_getset_cls) BoxedGetsetDescriptor(methodGetDoc, NULL, NULL));
method_cls->freeze();
wrapperdescr_cls->giveAttr("__get__",
new BoxedFunction(boxRTFunction((void*)BoxedWrapperDescriptor::__get__, UNKNOWN, 3)));
wrapperdescr_cls->giveAttr("__call__", new BoxedFunction(boxRTFunction((void*)BoxedWrapperDescriptor::__call__,
UNKNOWN, 2, 0, true, true)));
wrapperdescr_cls->giveAttr("__doc__",
new (pyston_getset_cls) BoxedGetsetDescriptor(wrapperdescrGetDoc, NULL, NULL));
wrapperdescr_cls->freeze();
wrapperdescr_cls->tp_descr_get = BoxedWrapperDescriptor::descr_get;
wrapperobject_cls->giveAttr(
"__call__", new BoxedFunction(boxRTFunction((void*)BoxedWrapperObject::__call__, UNKNOWN, 1, 0, true, true)));
wrapperobject_cls->tpp_call = BoxedWrapperObject::tppCall;
wrapperobject_cls->freeze();
}
void setupThread() {
thread_module = createModule("thread", "__builtin__");
thread_module->giveAttr("start_new_thread", new BoxedFunction(boxRTFunction((void*)startNewThread, BOXED_INT, 2)));
}
void setupSys() {
sys_modules_dict = new BoxedDict();
gc::registerPermanentRoot(sys_modules_dict);
// This is ok to call here because we've already created the sys_modules_dict
sys_module = createModule("sys");
sys_module->giveAttr("modules", sys_modules_dict);
BoxedList* sys_path = new BoxedList();
sys_module->giveAttr("path", sys_path);
sys_module->giveAttr("argv", new BoxedList());
sys_module->giveAttr("stdout", new BoxedFile(stdout, "<stdout>", "w"));
sys_module->giveAttr("stdin", new BoxedFile(stdin, "<stdin>", "r"));
sys_module->giveAttr("stderr", new BoxedFile(stderr, "<stderr>", "w"));
sys_module->giveAttr("__stdout__", sys_module->getattr(internStringMortal("stdout")));
sys_module->giveAttr("__stdin__", sys_module->getattr(internStringMortal("stdin")));
sys_module->giveAttr("__stderr__", sys_module->getattr(internStringMortal("stderr")));
sys_module->giveAttr(
"exc_info", new BoxedBuiltinFunctionOrMethod(boxRTFunction((void*)sysExcInfo, BOXED_TUPLE, 0), "exc_info"));
sys_module->giveAttr("exc_clear",
new BoxedBuiltinFunctionOrMethod(boxRTFunction((void*)sysExcClear, NONE, 0), "exc_clear"));
sys_module->giveAttr("exit", new BoxedBuiltinFunctionOrMethod(
boxRTFunction((void*)sysExit, NONE, 1, 1, false, false), "exit", { None }));
sys_module->giveAttr("warnoptions", new BoxedList());
sys_module->giveAttr("py3kwarning", False);
sys_module->giveAttr("byteorder", boxString(isLittleEndian() ? "little" : "big"));
sys_module->giveAttr("platform", boxString(Py_GetPlatform()));
sys_module->giveAttr("executable", boxString(Py_GetProgramFullPath()));
sys_module->giveAttr("_getframe",
new BoxedFunction(boxRTFunction((void*)sysGetFrame, UNKNOWN, 1, 1, false, false), { NULL }));
sys_module->giveAttr(
"getdefaultencoding",
new BoxedBuiltinFunctionOrMethod(boxRTFunction((void*)sysGetDefaultEncoding, STR, 0), "getdefaultencoding"));
sys_module->giveAttr("getfilesystemencoding",
new BoxedBuiltinFunctionOrMethod(boxRTFunction((void*)sysGetFilesystemEncoding, STR, 0),
"getfilesystemencoding"));
sys_module->giveAttr(
"getrecursionlimit",
new BoxedBuiltinFunctionOrMethod(boxRTFunction((void*)sysGetRecursionLimit, UNKNOWN, 0), "getrecursionlimit"));
sys_module->giveAttr("meta_path", new BoxedList());
sys_module->giveAttr("path_hooks", new BoxedList());
sys_module->giveAttr("path_importer_cache", new BoxedDict());
// As we don't support compile() etc yet force 'dont_write_bytecode' to true.
sys_module->giveAttr("dont_write_bytecode", True);
sys_module->giveAttr("prefix", boxString(Py_GetPrefix()));
sys_module->giveAttr("exec_prefix", boxString(Py_GetExecPrefix()));
sys_module->giveAttr("copyright",
boxString("Copyright 2014-2015 Dropbox.\nAll Rights Reserved.\n\nCopyright (c) 2001-2014 "
"Python Software Foundation.\nAll Rights Reserved.\n\nCopyright (c) 2000 "
"BeOpen.com.\nAll Rights Reserved.\n\nCopyright (c) 1995-2001 Corporation for "
"National Research Initiatives.\nAll Rights Reserved.\n\nCopyright (c) "
"1991-1995 Stichting Mathematisch Centrum, Amsterdam.\nAll Rights Reserved."));
sys_module->giveAttr("version", boxString(generateVersionString()));
sys_module->giveAttr("hexversion", boxInt(PY_VERSION_HEX));
// TODO: this should be a "sys.version_info" object, not just a tuple (ie can access fields by name)
sys_module->giveAttr("version_info",
BoxedTuple::create({ boxInt(PYTHON_VERSION_MAJOR), boxInt(PYTHON_VERSION_MINOR),
boxInt(PYTHON_VERSION_MICRO), boxString("beta"), boxInt(0) }));
sys_module->giveAttr("maxint", boxInt(PYSTON_INT_MAX));
sys_module->giveAttr("maxsize", boxInt(PY_SSIZE_T_MAX));
sys_flags_cls = new (0) BoxedHeapClass(object_cls, BoxedSysFlags::gcHandler, 0, 0, sizeof(BoxedSysFlags), false,
static_cast<BoxedString*>(boxString("flags")));
sys_flags_cls->giveAttr("__new__",
new BoxedFunction(boxRTFunction((void*)BoxedSysFlags::__new__, UNKNOWN, 1, 0, true, true)));
#define ADD(name) \
sys_flags_cls->giveAttr(STRINGIFY(name), \
new BoxedMemberDescriptor(BoxedMemberDescriptor::OBJECT, offsetof(BoxedSysFlags, name)))
ADD(division_warning);
ADD(bytes_warning);
ADD(no_user_site);
ADD(optimize);
#undef ADD
#define SET_SYS_FROM_STRING(key, value) sys_module->giveAttr((key), (value))
#ifdef Py_USING_UNICODE
SET_SYS_FROM_STRING("maxunicode", PyInt_FromLong(PyUnicode_GetMax()));
#endif
sys_flags_cls->tp_mro = BoxedTuple::create({ sys_flags_cls, object_cls });
sys_flags_cls->freeze();
for (auto& md : sys_methods) {
sys_module->giveAttr(md.ml_name, new BoxedCApiFunction(&md, sys_module));
}
sys_module->giveAttr("__displayhook__", sys_module->getattr(internStringMortal("displayhook")));
sys_module->giveAttr("flags", new BoxedSysFlags());
}
void setupDict() {
dict_iterator_cls = new BoxedClass(object_cls, 0, sizeof(BoxedDict), false);
dict_cls->giveAttr("__name__", boxStrConstant("dict"));
// dict_cls->giveAttr("__len__", new BoxedFunction(boxRTFunction((void*)dictLen, NULL, 1)));
// dict_cls->giveAttr("__getitem__", new BoxedFunction(boxRTFunction((void*)dictGetitem, NULL, 2)));
// dict_cls->giveAttr("__new__", new BoxedFunction(boxRTFunction((void*)dictNew, NULL, 1)));
// dict_cls->giveAttr("__init__", new BoxedFunction(boxRTFunction((void*)dictInit, NULL, 1)));
dict_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)dictRepr, STR, 1)));
dict_cls->giveAttr("__str__", dict_cls->getattr("__repr__"));
dict_cls->giveAttr("__iter__",
new BoxedFunction(boxRTFunction((void*)dictIterKeys, typeFromClass(dict_iterator_cls), 1)));
dict_cls->giveAttr("items", new BoxedFunction(boxRTFunction((void*)dictItems, LIST, 1)));
dict_cls->giveAttr("iteritems",
new BoxedFunction(boxRTFunction((void*)dictIterItems, typeFromClass(dict_iterator_cls), 1)));
dict_cls->giveAttr("values", new BoxedFunction(boxRTFunction((void*)dictValues, LIST, 1)));
dict_cls->giveAttr("itervalues",
new BoxedFunction(boxRTFunction((void*)dictIterValues, typeFromClass(dict_iterator_cls), 1)));
dict_cls->giveAttr("keys", new BoxedFunction(boxRTFunction((void*)dictKeys, LIST, 1)));
dict_cls->giveAttr("iterkeys", dict_cls->getattr("__iter__"));
dict_cls->giveAttr("pop", new BoxedFunction(boxRTFunction((void*)dictPop, UNKNOWN, 3, 1, false, false), { NULL }));
dict_cls->giveAttr("get", new BoxedFunction(boxRTFunction((void*)dictGet, UNKNOWN, 3, 1, false, false), { None }));
dict_cls->giveAttr("setdefault",
new BoxedFunction(boxRTFunction((void*)dictSetdefault, UNKNOWN, 3, 1, false, false), { None }));
dict_cls->giveAttr("__getitem__", new BoxedFunction(boxRTFunction((void*)dictGetitem, UNKNOWN, 2)));
dict_cls->giveAttr("__setitem__", new BoxedFunction(boxRTFunction((void*)dictSetitem, NONE, 3)));
dict_cls->freeze();
gc::registerStaticRootObj(dict_iterator_cls);
dict_iterator_cls->giveAttr("__name__", boxStrConstant("dictiterator"));
CLFunction* hasnext = boxRTFunction((void*)dictIterHasnextUnboxed, BOOL, 1);
addRTFunction(hasnext, (void*)dictIterHasnext, BOXED_BOOL);
dict_iterator_cls->giveAttr("__hasnext__", new BoxedFunction(hasnext));
dict_iterator_cls->giveAttr(
"__iter__", new BoxedFunction(boxRTFunction((void*)dictIterIter, typeFromClass(dict_iterator_cls), 1)));
dict_iterator_cls->giveAttr("next", new BoxedFunction(boxRTFunction((void*)dictIterNext, UNKNOWN, 1)));
dict_iterator_cls->freeze();
}
void setupList() {
list_iterator_cls = new BoxedHeapClass(object_cls, &listIteratorGCHandler, 0, sizeof(BoxedList), false);
list_cls->giveAttr("__name__", boxStrConstant("list"));
list_cls->giveAttr("__len__", new BoxedFunction(boxRTFunction((void*)listLen, BOXED_INT, 1)));
CLFunction* getitem = createRTFunction(2, 0, 0, 0);
addRTFunction(getitem, (void*)listGetitemInt, UNKNOWN, std::vector<ConcreteCompilerType*>{ LIST, BOXED_INT });
addRTFunction(getitem, (void*)listGetitemSlice, LIST, std::vector<ConcreteCompilerType*>{ LIST, SLICE });
addRTFunction(getitem, (void*)listGetitem, UNKNOWN, std::vector<ConcreteCompilerType*>{ LIST, UNKNOWN });
list_cls->giveAttr("__getitem__", new BoxedFunction(getitem));
list_cls->giveAttr("__iter__",
new BoxedFunction(boxRTFunction((void*)listIter, typeFromClass(list_iterator_cls), 1)));
list_cls->giveAttr("__eq__", new BoxedFunction(boxRTFunction((void*)listEq, UNKNOWN, 2)));
list_cls->giveAttr("__ne__", new BoxedFunction(boxRTFunction((void*)listNe, UNKNOWN, 2)));
list_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)listRepr, STR, 1)));
list_cls->giveAttr("__nonzero__", new BoxedFunction(boxRTFunction((void*)listNonzero, BOXED_BOOL, 1)));
list_cls->giveAttr("pop", new BoxedFunction(boxRTFunction((void*)listPop, UNKNOWN, 2, 1, false, false), { None }));
list_cls->giveAttr("append", new BoxedFunction(boxRTFunction((void*)listAppend, NONE, 2)));
list_cls->giveAttr("extend", new BoxedFunction(boxRTFunction((void*)listIAdd, NONE, 2)));
CLFunction* setitem = createRTFunction(3, 0, false, false);
addRTFunction(setitem, (void*)listSetitemInt, NONE, std::vector<ConcreteCompilerType*>{ LIST, BOXED_INT, UNKNOWN });
addRTFunction(setitem, (void*)listSetitemSlice, NONE, std::vector<ConcreteCompilerType*>{ LIST, SLICE, UNKNOWN });
addRTFunction(setitem, (void*)listSetitem, NONE, std::vector<ConcreteCompilerType*>{ LIST, UNKNOWN, UNKNOWN });
list_cls->giveAttr("__setitem__", new BoxedFunction(setitem));
CLFunction* delitem = createRTFunction(2, 0, false, false);
addRTFunction(delitem, (void*)listDelitemInt, NONE, std::vector<ConcreteCompilerType*>{ LIST, BOXED_INT });
addRTFunction(delitem, (void*)listDelitemSlice, NONE, std::vector<ConcreteCompilerType*>{ LIST, SLICE });
addRTFunction(delitem, (void*)listDelitem, NONE, std::vector<ConcreteCompilerType*>{ LIST, UNKNOWN });
list_cls->giveAttr("__delitem__", new BoxedFunction(delitem));
list_cls->giveAttr("insert", new BoxedFunction(boxRTFunction((void*)listInsert, NONE, 3)));
list_cls->giveAttr("__mul__", new BoxedFunction(boxRTFunction((void*)listMul, LIST, 2)));
list_cls->giveAttr("__rmul__", new BoxedFunction(boxRTFunction((void*)listMul, LIST, 2)));
list_cls->giveAttr("__iadd__", new BoxedFunction(boxRTFunction((void*)listIAdd, UNKNOWN, 2)));
list_cls->giveAttr("__add__", new BoxedFunction(boxRTFunction((void*)listAdd, UNKNOWN, 2)));
list_cls->giveAttr("sort", new BoxedFunction(boxRTFunction((void*)listSort1, NONE, 1)));
list_cls->giveAttr("__contains__", new BoxedFunction(boxRTFunction((void*)listContains, BOXED_BOOL, 2)));
list_cls->giveAttr("__new__",
new BoxedFunction(boxRTFunction((void*)listNew, UNKNOWN, 2, 1, false, false), { None }));
list_cls->giveAttr("count", new BoxedFunction(boxRTFunction((void*)listCount, BOXED_INT, 2)));
list_cls->giveAttr("index", new BoxedFunction(boxRTFunction((void*)listIndex, BOXED_INT, 2)));
list_cls->giveAttr("remove", new BoxedFunction(boxRTFunction((void*)listRemove, NONE, 2)));
list_cls->giveAttr("reverse", new BoxedFunction(boxRTFunction((void*)listReverse, NONE, 1)));
list_cls->freeze();
list_iterator_cls->giveAttr("__name__", boxStrConstant("listiterator"));
CLFunction* hasnext = boxRTFunction((void*)listiterHasnextUnboxed, BOOL, 1);
addRTFunction(hasnext, (void*)listiterHasnext, BOXED_BOOL);
list_iterator_cls->giveAttr("__hasnext__", new BoxedFunction(hasnext));
list_iterator_cls->giveAttr(
"__iter__", new BoxedFunction(boxRTFunction((void*)listIterIter, typeFromClass(list_iterator_cls), 1)));
list_iterator_cls->giveAttr("next", new BoxedFunction(boxRTFunction((void*)listiterNext, UNKNOWN, 1)));
list_iterator_cls->freeze();
}
void setupTime() {
time_module = createModule("time", "__builtin__");
time_module->giveAttr("time", new BoxedFunction(boxRTFunction((void*)timeTime, BOXED_FLOAT, 0)));
time_module->giveAttr("sleep", new BoxedFunction(boxRTFunction((void*)timeSleep, NONE, 1)));
}
void setupBuiltins() {
std::string name("__builtin__");
std::string fn("__builtin__");
builtins_module = new BoxedModule(&name, &fn);
builtins_module->setattr("None", None, NULL, NULL);
notimplemented_cls = new BoxedClass(false, NULL);
notimplemented_cls->giveAttr("__name__", boxStrConstant("NotImplementedType"));
notimplemented_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)notimplementedRepr, NULL, 1, false)));
notimplemented_cls->freeze();
NotImplemented = new Box(¬implemented_flavor, notimplemented_cls);
gc::registerStaticRootObj(NotImplemented);
builtins_module->giveAttr("NotImplemented", NotImplemented);
builtins_module->giveAttr("NotImplementedType", notimplemented_cls);
repr_obj = new BoxedFunction(boxRTFunction((void*)repr, NULL, 1, false));
builtins_module->giveAttr("repr", repr_obj);
len_obj = new BoxedFunction(boxRTFunction((void*)len, NULL, 1, false));
builtins_module->giveAttr("len", len_obj);
hash_obj = new BoxedFunction(boxRTFunction((void*)hash, NULL, 1, false));
builtins_module->giveAttr("hash", hash_obj);
abs_obj = new BoxedFunction(boxRTFunction((void*)abs_, NULL, 1, false));
builtins_module->giveAttr("abs", abs_obj);
min_obj = new BoxedFunction(boxRTFunction((void*)min_, NULL, 2, false));
builtins_module->giveAttr("min", min_obj);
max_obj = new BoxedFunction(boxRTFunction((void*)max_, NULL, 2, false));
builtins_module->giveAttr("max", max_obj);
chr_obj = new BoxedFunction(boxRTFunction((void*)chr, NULL, 1, false));
builtins_module->giveAttr("chr", chr_obj);
trap_obj = new BoxedFunction(boxRTFunction((void*)trap, NULL, 0, false));
builtins_module->giveAttr("trap", trap_obj);
CLFunction* getattr_func = boxRTFunction((void*)getattr2, NULL, 2, false);
addRTFunction(getattr_func, (void*)getattr3, NULL, 3, false);
builtins_module->giveAttr("getattr", new BoxedFunction(getattr_func));
Box* isinstance_obj = new BoxedFunction(boxRTFunction((void*)isinstance, NULL, 2, false));
builtins_module->giveAttr("isinstance", isinstance_obj);
builtins_module->giveAttr("sorted", new BoxedFunction(boxRTFunction((void*)sorted, NULL, 1, false)));
builtins_module->setattr("True", True, NULL, NULL);
builtins_module->setattr("False", False, NULL, NULL);
CLFunction *range_clf = boxRTFunction((void*)range1, NULL, 1, false);
addRTFunction(range_clf, (void*)range2, NULL, 2, false);
addRTFunction(range_clf, (void*)range3, NULL, 3, false);
range_obj = new BoxedFunction(range_clf);
builtins_module->giveAttr("range", range_obj);
setupXrange();
builtins_module->giveAttr("xrange", xrange_cls);
CLFunction *open = boxRTFunction((void*)open1, NULL, 1, false);
addRTFunction(open, (void*)open2, NULL, 2, false);
open_obj = new BoxedFunction(open);
builtins_module->giveAttr("open", open_obj);
builtins_module->setattr("str", str_cls, NULL, NULL);
builtins_module->setattr("int", int_cls, NULL, NULL);
builtins_module->setattr("float", float_cls, NULL, NULL);
builtins_module->setattr("list", list_cls, NULL, NULL);
builtins_module->setattr("slice", slice_cls, NULL, NULL);
builtins_module->setattr("type", type_cls, NULL, NULL);
builtins_module->setattr("file", file_cls, NULL, NULL);
builtins_module->setattr("bool", bool_cls, NULL, NULL);
builtins_module->setattr("dict", dict_cls, NULL, NULL);
builtins_module->setattr("tuple", tuple_cls, NULL, NULL);
builtins_module->setattr("instancemethod", instancemethod_cls, NULL, NULL);
}
void setupTuple() {
tuple_iterator_cls = BoxedHeapClass::create(type_cls, object_cls, &tupleIteratorGCHandler, 0, 0,
sizeof(BoxedTupleIterator), false, "tuple");
tuple_cls->giveAttr("__new__", new BoxedFunction(boxRTFunction((void*)tupleNew, UNKNOWN, 1, 0, true, true)));
CLFunction* getitem = createRTFunction(2, 0, 0, 0);
addRTFunction(getitem, (void*)tupleGetitemInt, UNKNOWN, std::vector<ConcreteCompilerType*>{ UNKNOWN, BOXED_INT });
addRTFunction(getitem, (void*)tupleGetitemSlice, UNKNOWN, std::vector<ConcreteCompilerType*>{ UNKNOWN, SLICE });
addRTFunction(getitem, (void*)tupleGetitem, UNKNOWN, std::vector<ConcreteCompilerType*>{ UNKNOWN, UNKNOWN });
tuple_cls->giveAttr("__getitem__", new BoxedFunction(getitem));
tuple_cls->giveAttr("__contains__", new BoxedFunction(boxRTFunction((void*)tupleContains, BOXED_BOOL, 2)));
tuple_cls->giveAttr("index", new BoxedFunction(boxRTFunction((void*)tupleIndex, BOXED_INT, 4, 2, false, false),
{ boxInt(0), boxInt(std::numeric_limits<Py_ssize_t>::max()) }));
tuple_cls->giveAttr("count", new BoxedFunction(boxRTFunction((void*)tupleCount, BOXED_INT, 2)));
tuple_cls->giveAttr("__iter__",
new BoxedFunction(boxRTFunction((void*)tupleIter, typeFromClass(tuple_iterator_cls), 1)));
tuple_cls->tp_richcompare = tuplerichcompare;
tuple_cls->giveAttr("__nonzero__", new BoxedFunction(boxRTFunction((void*)tupleNonzero, BOXED_BOOL, 1)));
tuple_cls->giveAttr("__len__", new BoxedFunction(boxRTFunction((void*)tupleLen, BOXED_INT, 1)));
tuple_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)tupleRepr, STR, 1)));
tuple_cls->giveAttr("__add__", new BoxedFunction(boxRTFunction((void*)tupleAdd, BOXED_TUPLE, 2)));
tuple_cls->giveAttr("__mul__", new BoxedFunction(boxRTFunction((void*)tupleMul, BOXED_TUPLE, 2)));
tuple_cls->giveAttr("__rmul__", new BoxedFunction(boxRTFunction((void*)tupleMul, BOXED_TUPLE, 2)));
tuple_cls->tp_hash = (hashfunc)tuple_hash;
tuple_cls->tp_as_sequence->sq_slice = (ssizessizeargfunc)&tupleslice;
add_operators(tuple_cls);
tuple_cls->freeze();
tuple_cls->tp_as_sequence->sq_item = (ssizeargfunc)tupleitem;
tuple_cls->tp_as_sequence->sq_length = (lenfunc)tuplelength;
CLFunction* hasnext = boxRTFunction((void*)tupleiterHasnextUnboxed, BOOL, 1);
addRTFunction(hasnext, (void*)tupleiterHasnext, BOXED_BOOL);
tuple_iterator_cls->giveAttr("__hasnext__", new BoxedFunction(hasnext));
tuple_iterator_cls->giveAttr(
"__iter__", new BoxedFunction(boxRTFunction((void*)tupleIterIter, typeFromClass(tuple_iterator_cls), 1)));
tuple_iterator_cls->giveAttr("next", new BoxedFunction(boxRTFunction((void*)tupleiterNext, UNKNOWN, 1)));
tuple_iterator_cls->freeze();
tuple_iterator_cls->tpp_hasnext = tupleiterHasnextUnboxed;
}
void setupRuntime() {
HiddenClass::getRoot();
type_cls = new BoxedClass(true, NULL);
type_cls->cls = type_cls;
none_cls = new BoxedClass(false, NULL);
None = new Box(&none_flavor, none_cls);
gc::registerStaticRootObj(None);
module_cls = new BoxedClass(true, NULL);
bool_cls = new BoxedClass(false, NULL);
int_cls = new BoxedClass(false, NULL);
float_cls = new BoxedClass(false, NULL);
str_cls = new BoxedClass(false, (BoxedClass::Dtor)str_dtor);
function_cls = new BoxedClass(true, NULL);
instancemethod_cls = new BoxedClass(false, (BoxedClass::Dtor)instancemethod_dtor);
list_cls = new BoxedClass(false, (BoxedClass::Dtor)list_dtor);
slice_cls = new BoxedClass(true, NULL);
dict_cls = new BoxedClass(false, (BoxedClass::Dtor)dict_dtor);
tuple_cls = new BoxedClass(false, (BoxedClass::Dtor)tuple_dtor);
file_cls = new BoxedClass(false, (BoxedClass::Dtor)file_dtor);
STR = typeFromClass(str_cls);
BOXED_INT = typeFromClass(int_cls);
BOXED_FLOAT = typeFromClass(float_cls);
BOXED_BOOL = typeFromClass(bool_cls);
NONE = typeFromClass(none_cls);
LIST = typeFromClass(list_cls);
SLICE = typeFromClass(slice_cls);
MODULE = typeFromClass(module_cls);
DICT = typeFromClass(dict_cls);
BOXED_TUPLE = typeFromClass(tuple_cls);
type_cls->giveAttr("__name__", boxStrConstant("type"));
type_cls->giveAttr("__call__", new BoxedFunction(boxRTFunction((void*)typeCall, NULL, 1, true)));
type_cls->giveAttr("__new__", new BoxedFunction(boxRTFunction((void*)typeNew, NULL, 2, true)));
type_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)typeRepr, NULL, 1, true)));
type_cls->setattr("__str__", type_cls->peekattr("__repr__"), NULL, NULL);
type_cls->freeze();
none_cls->giveAttr("__name__", boxStrConstant("NoneType"));
none_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)noneRepr, NULL, 1, false)));
none_cls->setattr("__str__", none_cls->peekattr("__repr__"), NULL, NULL);
none_cls->freeze();
module_cls->giveAttr("__name__", boxStrConstant("module"));
module_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)moduleRepr, NULL, 1, false)));
module_cls->setattr("__str__", module_cls->peekattr("__repr__"), NULL, NULL);
module_cls->freeze();
setupBool();
setupInt();
setupFloat();
setupStr();
setupList();
setupDict();
setupTuple();
setupFile();
function_cls->giveAttr("__name__", boxStrConstant("function"));
function_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)functionRepr, NULL, 1, false)));
function_cls->setattr("__str__", function_cls->peekattr("__repr__"), NULL, NULL);
function_cls->freeze();
instancemethod_cls->giveAttr("__name__", boxStrConstant("instancemethod"));
instancemethod_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)instancemethodRepr, NULL, 1, true)));
instancemethod_cls->freeze();
slice_cls->giveAttr("__name__", boxStrConstant("slice"));
slice_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)sliceRepr, NULL, 1, true)));
slice_cls->setattr("__str__", slice_cls->peekattr("__repr__"), NULL, NULL);
slice_cls->freeze();
setupMath();
gc::registerStaticRootObj(math_module);
setupTime();
gc::registerStaticRootObj(time_module);
setupBuiltins();
gc::registerStaticRootObj(builtins_module);
setupCAPI();
TRACK_ALLOCATIONS = true;
}
void setupRuntime() {
HiddenClass::getRoot();
object_cls = new BoxedClass(NULL, 0, sizeof(Box), false);
type_cls = new BoxedClass(object_cls, offsetof(BoxedClass, attrs), sizeof(BoxedClass), false);
type_cls->cls = type_cls;
object_cls->cls = type_cls;
none_cls = new BoxedClass(object_cls, 0, sizeof(Box), false);
None = new Box(&none_flavor, none_cls);
str_cls = new BoxedClass(object_cls, 0, sizeof(BoxedString), false);
// It wasn't safe to add __base__ attributes until object+type+str are set up, so do that now:
type_cls->giveAttr("__base__", object_cls);
str_cls->giveAttr("__base__", object_cls);
none_cls->giveAttr("__base__", object_cls);
object_cls->giveAttr("__base__", None);
tuple_cls = new BoxedClass(object_cls, 0, sizeof(BoxedTuple), false);
EmptyTuple = new BoxedTuple({});
gc::registerStaticRootObj(EmptyTuple);
module_cls = new BoxedClass(object_cls, offsetof(BoxedModule, attrs), sizeof(BoxedModule), false);
// TODO it'd be nice to be able to do these in the respective setupType methods,
// but those setup methods probably want access to these objects.
// We could have a multi-stage setup process, but that seems overkill for now.
bool_cls = new BoxedClass(object_cls, 0, sizeof(BoxedBool), false);
int_cls = new BoxedClass(object_cls, 0, sizeof(BoxedInt), false);
float_cls = new BoxedClass(object_cls, 0, sizeof(BoxedFloat), false);
function_cls = new BoxedClass(object_cls, offsetof(BoxedFunction, attrs), sizeof(BoxedFunction), false);
instancemethod_cls = new BoxedClass(object_cls, 0, sizeof(BoxedInstanceMethod), false);
list_cls = new BoxedClass(object_cls, 0, sizeof(BoxedList), false);
slice_cls = new BoxedClass(object_cls, 0, sizeof(BoxedSlice), false);
dict_cls = new BoxedClass(object_cls, 0, sizeof(BoxedDict), false);
file_cls = new BoxedClass(object_cls, 0, sizeof(BoxedFile), false);
set_cls = new BoxedClass(object_cls, 0, sizeof(BoxedSet), false);
member_cls = new BoxedClass(object_cls, 0, sizeof(BoxedMemberDescriptor), false);
STR = typeFromClass(str_cls);
BOXED_INT = typeFromClass(int_cls);
BOXED_FLOAT = typeFromClass(float_cls);
BOXED_BOOL = typeFromClass(bool_cls);
NONE = typeFromClass(none_cls);
LIST = typeFromClass(list_cls);
SLICE = typeFromClass(slice_cls);
MODULE = typeFromClass(module_cls);
DICT = typeFromClass(dict_cls);
SET = typeFromClass(set_cls);
BOXED_TUPLE = typeFromClass(tuple_cls);
object_cls->giveAttr("__name__", boxStrConstant("object"));
object_cls->giveAttr("__new__", new BoxedFunction(boxRTFunction((void*)objectNew, UNKNOWN, 1, 0, true, false)));
object_cls->freeze();
auto typeCallObj = boxRTFunction((void*)typeCall, UNKNOWN, 1, 0, true, false);
typeCallObj->internal_callable = &typeCallInternal;
type_cls->giveAttr("__call__", new BoxedFunction(typeCallObj));
type_cls->giveAttr("__name__", boxStrConstant("type"));
type_cls->giveAttr("__new__", new BoxedFunction(boxRTFunction((void*)typeNew, UNKNOWN, 2)));
type_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)typeRepr, STR, 1)));
type_cls->giveAttr("__str__", type_cls->getattr("__repr__"));
type_cls->freeze();
none_cls->giveAttr("__name__", boxStrConstant("NoneType"));
none_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)noneRepr, STR, 1)));
none_cls->giveAttr("__str__", none_cls->getattr("__repr__"));
none_cls->giveAttr("__hash__", new BoxedFunction(boxRTFunction((void*)noneHash, UNKNOWN, 1)));
none_cls->freeze();
module_cls->giveAttr("__name__", boxStrConstant("module"));
module_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)moduleRepr, STR, 1)));
module_cls->giveAttr("__str__", module_cls->getattr("__repr__"));
module_cls->freeze();
member_cls->giveAttr("__name__", boxStrConstant("member"));
member_cls->freeze();
setupBool();
setupInt();
setupFloat();
setupStr();
setupList();
setupDict();
setupSet();
setupTuple();
setupFile();
function_cls->giveAttr("__name__", boxStrConstant("function"));
function_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)functionRepr, STR, 1)));
function_cls->giveAttr("__str__", function_cls->getattr("__repr__"));
function_cls->freeze();
instancemethod_cls->giveAttr("__name__", boxStrConstant("instancemethod"));
instancemethod_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)instancemethodRepr, STR, 1)));
instancemethod_cls->freeze();
slice_cls->giveAttr("__name__", boxStrConstant("slice"));
slice_cls->giveAttr("__new__",
new BoxedFunction(boxRTFunction((void*)sliceNew, UNKNOWN, 4, 2, false, false), { NULL, None }));
slice_cls->giveAttr("__repr__", new BoxedFunction(boxRTFunction((void*)sliceRepr, STR, 1)));
slice_cls->giveAttr("__str__", slice_cls->getattr("__repr__"));
slice_cls->giveAttr("start", new BoxedMemberDescriptor(BoxedMemberDescriptor::OBJECT, SLICE_START_OFFSET));
slice_cls->giveAttr("stop", new BoxedMemberDescriptor(BoxedMemberDescriptor::OBJECT, SLICE_STOP_OFFSET));
slice_cls->giveAttr("step", new BoxedMemberDescriptor(BoxedMemberDescriptor::OBJECT, SLICE_STEP_OFFSET));
slice_cls->freeze();
// sys is the first module that needs to be set up, due to modules
// being tracked in sys.modules:
setupSys();
setupBuiltins();
setupMath();
setupTime();
setupThread();
setupCAPI();
TRACK_ALLOCATIONS = true;
}
CLFunction* boxRTFunction(void* f, ConcreteCompilerType* rtn_type, int num_args) {
return boxRTFunction(f, rtn_type, num_args, 0, false, false);
}
