Commit c380bbc0 authored by Kevin Modzelewski's avatar Kevin Modzelewski

Merge pull request #972 from kmod/avoid_slices

Avoid creating most slice objects
parents d88d20e8 de4d556d
......@@ -343,6 +343,30 @@ public:
CompilerVariable* getitem(IREmitter& emitter, const OpInfo& info, ConcreteCompilerVariable* var,
CompilerVariable* slice) override {
if (slice->getType() == UNBOXED_SLICE) {
UnboxedSlice slice_val = extractSlice(slice);
if (slice_val.step == NULL) {
static BoxedString* attr = internStringImmortal("__getitem__");
CompilerType* return_type
= var->getType()->getattrType(attr, true)->callType(ArgPassSpec(1), { SLICE }, NULL);
assert(return_type->getConcreteType() == return_type);
llvm::Value* cstart, *cstop;
cstart = slice_val.start ? slice_val.start->makeConverted(emitter, UNKNOWN)->getValue()
: getNullPtr(g.llvm_value_type_ptr);
cstop = slice_val.stop ? slice_val.stop->makeConverted(emitter, UNKNOWN)->getValue()
: getNullPtr(g.llvm_value_type_ptr);
llvm::Value* r
= emitter.createCall3(info.unw_info, g.funcs.apply_slice, var->getValue(), cstart, cstop);
emitter.checkAndPropagateCapiException(info.unw_info, r, getNullPtr(g.llvm_value_type_ptr));
return new ConcreteCompilerVariable(static_cast<ConcreteCompilerType*>(return_type), r, true);
}
}
ConcreteCompilerVariable* converted_slice = slice->makeConverted(emitter, slice->getBoxType());
ExceptionStyle target_exception_style = info.preferredExceptionStyle();
......@@ -935,7 +959,6 @@ template <typename T> struct UnboxedVal {
UnboxedVal(T val, ConcreteCompilerVariable* boxed) : val(std::move(val)), boxed(boxed) {}
};
// XXX: make this a over a unique_ptr<UnboxedVal>
template <typename T, typename D> class UnboxedType : public ValuedCompilerType<std::shared_ptr<UnboxedVal<T>>> {
public:
// Subclasses need to implement:
......@@ -2022,10 +2045,60 @@ public:
static BoxedString* attr = internStringImmortal("__getitem__");
bool no_attribute = false;
if (slice->getType() == UNBOXED_SLICE) {
UnboxedSlice slice_val = extractSlice(slice);
// This corresponds to the case in apply_slice that calls into PySequence_GetSlice.
// Other cases will get handled by UNKNOWN.getitem
if (!slice_val.step && canStaticallyResolveGetattrs() && cls->tp_as_sequence
&& cls->tp_as_sequence->sq_slice) {
if ((!slice_val.start || slice_val.start->getType() == INT || slice_val.start->getType() == BOXED_INT)
&& (!slice_val.stop || slice_val.stop->getType() == INT
|| slice_val.stop->getType() == BOXED_INT)) {
CompilerType* return_type = getattrType(attr, true)->callType(ArgPassSpec(1), { SLICE }, NULL);
assert(return_type->getConcreteType() == return_type);
llvm::Value* start = NULL;
if (!slice_val.start)
start = getConstantInt(0, g.i64);
else {
if (slice_val.start->getType() == BOXED_INT)
slice_val.start
= makeUnboxedInt(emitter, static_cast<ConcreteCompilerVariable*>(slice_val.start));
start = IntType::extractInt(slice_val.start);
}
llvm::Value* stop = NULL;
if (!slice_val.stop)
stop = getConstantInt(PY_SSIZE_T_MAX, g.i64);
else {
if (slice_val.stop->getType() == BOXED_INT)
slice_val.stop
= makeUnboxedInt(emitter, static_cast<ConcreteCompilerVariable*>(slice_val.stop));
stop = IntType::extractInt(slice_val.stop);
}
static llvm::FunctionType* ft = llvm::FunctionType::get(
g.llvm_value_type_ptr, { g.llvm_value_type_ptr, g.i64, g.i64 }, false);
llvm::Value* r = emitter.createCall3(
info.unw_info, embedConstantPtr((void*)PySequence_GetSlice, ft->getPointerTo()),
var->getValue(), start, stop);
emitter.checkAndPropagateCapiException(info.unw_info, r, getNullPtr(g.llvm_value_type_ptr));
return new ConcreteCompilerVariable(static_cast<ConcreteCompilerType*>(return_type), r, true);
}
}
}
// Only try calling getitem if it's not a slice. For the slice case, defer to UNKNOWN->getitem, which will
// call into apply_slice
if (slice->getType() != UNBOXED_SLICE || extractSlice(slice).step != NULL) {
ExceptionStyle exception_style = info.preferredExceptionStyle();
CompilerVariable* called_constant = tryCallattrConstant(emitter, info, var, attr, true, ArgPassSpec(1, 0, 0, 0),
{ slice }, NULL, &no_attribute, exception_style);
CompilerVariable* called_constant
= tryCallattrConstant(emitter, info, var, attr, true, ArgPassSpec(1, 0, 0, 0), { slice }, NULL,
&no_attribute, exception_style);
if (no_attribute) {
assert(called_constant->getType() == UNDEF);
......@@ -2039,6 +2112,7 @@ public:
if (called_constant)
return called_constant;
}
return UNKNOWN->getitem(emitter, info, var, slice);
}
......@@ -2696,6 +2770,68 @@ CompilerVariable* makeTuple(const std::vector<CompilerVariable*>& elts) {
return new TupleType::VAR(type, alloc_var, true);
}
class UnboxedSliceType : public ValuedCompilerType<UnboxedSlice> {
public:
std::string debugName() override { return "slice"; }
void drop(IREmitter& emitter, VAR* var) override {}
void grab(IREmitter& emitter, VAR* var) override {}
void assertMatches(UnboxedSlice slice) {}
int numFrameArgs() override { RELEASE_ASSERT(0, "unboxed slice should never get serialized"); }
Box* deserializeFromFrame(const FrameVals& vals) override {
RELEASE_ASSERT(0, "unboxed slice should never get serialized");
}
void serializeToFrame(VAR* v, std::vector<llvm::Value*>& stackmap_args) override {
RELEASE_ASSERT(0, "unboxed slice should never get serialized");
}
ConcreteCompilerType* getConcreteType() override { return SLICE; }
ConcreteCompilerType* getBoxType() override { return SLICE; }
bool canConvertTo(CompilerType* other) override { return other == this || other == SLICE || other == UNKNOWN; }
ConcreteCompilerVariable* makeConverted(IREmitter& emitter, VAR* var, ConcreteCompilerType* other_type) override {
assert(other_type == SLICE || other_type == UNKNOWN);
auto slice = var->getValue();
ConcreteCompilerVariable* cstart, *cstop, *cstep;
cstart = slice.start ? slice.start->makeConverted(emitter, slice.start->getBoxType()) : getNone();
cstop = slice.stop ? slice.stop->makeConverted(emitter, slice.stop->getBoxType()) : getNone();
cstep = slice.step ? slice.step->makeConverted(emitter, slice.step->getBoxType()) : getNone();
std::vector<llvm::Value*> args;
args.push_back(cstart->getValue());
args.push_back(cstop->getValue());
args.push_back(cstep->getValue());
llvm::Value* rtn = emitter.getBuilder()->CreateCall(g.funcs.createSlice, args);
cstart->decvref(emitter);
cstop->decvref(emitter);
cstep->decvref(emitter);
return new ConcreteCompilerVariable(SLICE, rtn, true);
}
} _UNBOXED_SLICE;
CompilerType* UNBOXED_SLICE = &_UNBOXED_SLICE;
CompilerVariable* makeSlice(CompilerVariable* start, CompilerVariable* stop, CompilerVariable* step) {
return new UnboxedSliceType::VAR(&_UNBOXED_SLICE, UnboxedSlice{ start, stop, step }, true);
}
UnboxedSlice extractSlice(CompilerVariable* slice) {
assert(slice->getType() == UNBOXED_SLICE);
return static_cast<UnboxedSliceType::VAR*>(slice)->getValue();
}
ConcreteCompilerVariable* getNone() {
llvm::Constant* none = embedRelocatablePtr(None, g.llvm_value_type_ptr, "cNone");
return new ConcreteCompilerVariable(typeFromClass(none_cls), none, false);
}
class UndefType : public ConcreteCompilerType {
public:
std::string debugName() override { return "undefType"; }
......
......@@ -411,6 +411,8 @@ public:
// Emit the test for whether one variable 'is' another one.
ConcreteCompilerVariable* doIs(IREmitter& emitter, CompilerVariable* lhs, CompilerVariable* rhs, bool negate);
ConcreteCompilerVariable* getNone();
// These functions all return an INT variable, from either an unboxed representation (makeInt) or
// a boxed representation (makeUnboxedInt)
CompilerVariable* makeInt(int64_t);
......@@ -429,6 +431,13 @@ ConcreteCompilerVariable* makeLong(Box*);
ConcreteCompilerVariable* makePureImaginary(Box*);
CompilerVariable* makeStr(BoxedString*);
CompilerVariable* makeUnicode(Box*);
struct UnboxedSlice {
CompilerVariable* start, *stop, *step;
};
CompilerVariable* makeSlice(CompilerVariable* start, CompilerVariable* stop, CompilerVariable* step);
UnboxedSlice extractSlice(CompilerVariable* slice);
#if 0
CompilerVariable* makeUnicode(IREmitter& emitter, llvm::StringRef);
#endif
......
......@@ -1078,10 +1078,6 @@ private:
auto ellipsis_cls = Ellipsis->cls;
return new ConcreteCompilerVariable(typeFromClass(ellipsis_cls), ellipsis, false);
}
ConcreteCompilerVariable* getNone() {
llvm::Constant* none = embedRelocatablePtr(None, g.llvm_value_type_ptr, "cNone");
return new ConcreteCompilerVariable(typeFromClass(none_cls), none, false);
}
llvm::Constant* embedParentModulePtr() {
BoxedModule* parent_module = irstate->getSourceInfo()->parent_module;
......@@ -1264,28 +1260,11 @@ private:
CompilerVariable* evalSlice(AST_Slice* node, const UnwindInfo& unw_info) {
CompilerVariable* start, *stop, *step;
start = node->lower ? evalExpr(node->lower, unw_info) : getNone();
stop = node->upper ? evalExpr(node->upper, unw_info) : getNone();
step = node->step ? evalExpr(node->step, unw_info) : getNone();
ConcreteCompilerVariable* cstart, *cstop, *cstep;
cstart = start->makeConverted(emitter, start->getBoxType());
cstop = stop->makeConverted(emitter, stop->getBoxType());
cstep = step->makeConverted(emitter, step->getBoxType());
start->decvref(emitter);
stop->decvref(emitter);
step->decvref(emitter);
start = node->lower ? evalExpr(node->lower, unw_info) : NULL;
stop = node->upper ? evalExpr(node->upper, unw_info) : NULL;
step = node->step ? evalExpr(node->step, unw_info) : NULL;
std::vector<llvm::Value*> args;
args.push_back(cstart->getValue());
args.push_back(cstop->getValue());
args.push_back(cstep->getValue());
llvm::Value* rtn = emitter.getBuilder()->CreateCall(g.funcs.createSlice, args);
cstart->decvref(emitter);
cstop->decvref(emitter);
cstep->decvref(emitter);
return new ConcreteCompilerVariable(SLICE, rtn, true);
return makeSlice(start, stop, step);
}
CompilerVariable* evalExtSlice(AST_ExtSlice* node, const UnwindInfo& unw_info) {
......
......@@ -225,6 +225,7 @@ void initGlobalFuncs(GlobalState& g) {
GET(yield);
GET(getiterHelper);
GET(hasnext);
GET(apply_slice);
GET(unpackIntoArray);
GET(raiseAttributeError);
......
......@@ -37,7 +37,7 @@ struct GlobalFuncs {
*createGenerator, *createSet;
llvm::Value* getattr, *getattr_capi, *setattr, *delattr, *delitem, *delGlobal, *nonzero, *binop, *compare,
*augbinop, *unboxedLen, *getitem, *getitem_capi, *getclsattr, *getGlobal, *setitem, *unaryop, *import,
*importFrom, *importStar, *repr, *exceptionMatches, *yield, *getiterHelper, *hasnext, *setGlobal;
*importFrom, *importStar, *repr, *exceptionMatches, *yield, *getiterHelper, *hasnext, *setGlobal, *apply_slice;
llvm::Value* unpackIntoArray, *raiseAttributeError, *raiseAttributeErrorStr, *raiseAttributeErrorCapi,
*raiseAttributeErrorStrCapi, *raiseNotIterableError, *raiseIndexErrorStr, *raiseIndexErrorStrCapi,
......
......@@ -96,7 +96,7 @@ ConcreteCompilerType* typeFromClass(BoxedClass*);
extern ConcreteCompilerType* UNBOXED_INT, *BOXED_INT, *LONG, *UNBOXED_FLOAT, *BOXED_FLOAT, *UNKNOWN, *BOOL, *STR, *NONE,
*LIST, *SLICE, *MODULE, *DICT, *BOOL, *BOXED_BOOL, *BOXED_TUPLE, *SET, *FROZENSET, *CLOSURE, *GENERATOR,
*BOXED_COMPLEX, *FRAME_INFO;
extern CompilerType* UNDEF, *INT, *FLOAT;
extern CompilerType* UNDEF, *INT, *FLOAT, *UNBOXED_SLICE;
class CompilerVariable;
template <class V> class ValuedCompilerVariable;
......
......@@ -100,6 +100,7 @@ void force() {
FORCE(yield);
FORCE(getiterHelper);
FORCE(hasnext);
FORCE(apply_slice);
FORCE(unpackIntoArray);
FORCE(raiseAttributeError);
......
......@@ -5090,6 +5090,33 @@ static Box* callItemAttr(Box* target, BoxedString* item_str, Box* item, Box* val
}
}
#define ISINDEX(x) ((x) == NULL || PyInt_Check(x) || PyLong_Check(x) || PyIndex_Check(x))
extern "C" PyObject* apply_slice(PyObject* u, PyObject* v, PyObject* w) noexcept /* return u[v:w] */
{
// TODO: add rewriting here
PyTypeObject* tp = u->cls;
PySequenceMethods* sq = tp->tp_as_sequence;
if (sq && sq->sq_slice && ISINDEX(v) && ISINDEX(w)) {
Py_ssize_t ilow = 0, ihigh = PY_SSIZE_T_MAX;
if (!_PyEval_SliceIndex(v, &ilow))
return NULL;
if (!_PyEval_SliceIndex(w, &ihigh))
return NULL;
return PySequence_GetSlice(u, ilow, ihigh);
} else {
PyObject* slice = PySlice_New(v, w, NULL);
if (slice != NULL) {
PyObject* res = PyObject_GetItem(u, slice);
Py_DECREF(slice);
return res;
} else
return NULL;
}
}
// This function decides whether to call the slice operator (e.g. __getslice__)
// or the item operator (__getitem__).
template <ExceptionStyle S, Rewritable rewritable>
......
......@@ -88,6 +88,7 @@ extern "C" Box* getitem(Box* value, Box* slice);
extern "C" Box* getitem_capi(Box* value, Box* slice) noexcept;
extern "C" void setitem(Box* target, Box* slice, Box* value);
extern "C" void delitem(Box* target, Box* slice);
extern "C" PyObject* apply_slice(PyObject* u, PyObject* v, PyObject* w) noexcept;
extern "C" Box* getclsattr(Box* obj, BoxedString* attr);
extern "C" Box* getclsattrMaybeNonstring(Box* obj, Box* attr);
extern "C" Box* unaryop(Box* operand, int op_type);
......
......@@ -10,5 +10,12 @@ PYOPENSSL_DIR = os.path.abspath(os.path.join(ENV_NAME, "site-packages", "OpenSSL
packages = ["nose==1.3.7", "pycparser==2.13", "cryptography==1.0.1", "pyopenssl==0.15.1", "pyasn1==0.1.7", "idna==2.0", "six==1.9.0", "enum34==1.0.4", "ipaddress==1.0.14", "cffi==1.1.0"]
create_virtenv(ENV_NAME, packages, force_create = True)
# This particular test is bad; it depends on certain implementation details of the openssl library
# it's linked against. It fails in cpython and for other people as well
# https://www.mail-archive.com/ports@openbsd.org/msg52063.html
import subprocess
subprocess.check_call(["sed", "-i", 's/\\(def test_digest.*\\)/\\1\\n return/',
os.path.join(PYOPENSSL_DIR, "test", "test_crypto.py")])
expected = [{'ran': 247, 'errors': 2}]
run_test([NOSETESTS_EXE], cwd=PYOPENSSL_DIR, expected=expected)
......@@ -163,9 +163,9 @@ print unicodestr[-2:]
# Calling the slice operator directly does not have the same behavior
# as using the slice notation []. Namely, it will not modify negative
# indices.
print numbers.__getslice__(0, -1);
print letters.__getslice__(0, -1);
print unicodestr.__getslice__(0, -1);
print numbers.__getslice__(0, -1)
print letters.__getslice__(0, -1)
print unicodestr.__getslice__(0, -1)
# Other
class C(object):
......@@ -188,3 +188,9 @@ C()[:,:]
C()[1:2,3:4]
C()[1:2:3,3:4:5]
# Regression test:
def f(i):
for j in [1, 2, 3][::2]:
pass
for i in xrange(100000):
f(i)
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