Fix Hydrogen bounds check elimination

When combining bounds checks, they must all be moved before the first load/store
that they are guarding.

BUG=chromium:344186
LOG=y
R=svenpanne@chromium.org

Review URL: https://codereview.chromium.org/172093002

git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@19475 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
parent 6d9fcf11
......@@ -91,8 +91,8 @@ class BoundsCheckKey : public ZoneObject {
private:
BoundsCheckKey(HValue* index_base, HValue* length)
: index_base_(index_base),
length_(length) { }
: index_base_(index_base),
length_(length) { }
HValue* index_base_;
HValue* length_;
......@@ -144,10 +144,7 @@ class BoundsCheckBbData: public ZoneObject {
// (either upper or lower; note that HasSingleCheck() becomes false).
// Otherwise one of the current checks is modified so that it also covers
// new_offset, and new_check is removed.
//
// If the check cannot be modified because the context is unknown it
// returns false, otherwise it returns true.
bool CoverCheck(HBoundsCheck* new_check,
void CoverCheck(HBoundsCheck* new_check,
int32_t new_offset) {
ASSERT(new_check->index()->representation().IsSmiOrInteger32());
bool keep_new_check = false;
......@@ -158,15 +155,7 @@ class BoundsCheckBbData: public ZoneObject {
keep_new_check = true;
upper_check_ = new_check;
} else {
bool result = BuildOffsetAdd(upper_check_,
&added_upper_index_,
&added_upper_offset_,
Key()->IndexBase(),
new_check->index()->representation(),
new_offset);
if (!result) return false;
upper_check_->ReplaceAllUsesWith(upper_check_->index());
upper_check_->SetOperandAt(0, added_upper_index_);
TightenCheck(upper_check_, new_check);
}
} else if (new_offset < lower_offset_) {
lower_offset_ = new_offset;
......@@ -174,32 +163,27 @@ class BoundsCheckBbData: public ZoneObject {
keep_new_check = true;
lower_check_ = new_check;
} else {
bool result = BuildOffsetAdd(lower_check_,
&added_lower_index_,
&added_lower_offset_,
Key()->IndexBase(),
new_check->index()->representation(),
new_offset);
if (!result) return false;
lower_check_->ReplaceAllUsesWith(lower_check_->index());
lower_check_->SetOperandAt(0, added_lower_index_);
TightenCheck(lower_check_, new_check);
}
} else {
ASSERT(false);
// Should never have called CoverCheck() in this case.
UNREACHABLE();
}
if (!keep_new_check) {
new_check->block()->graph()->isolate()->counters()->
bounds_checks_eliminated()->Increment();
new_check->DeleteAndReplaceWith(new_check->ActualValue());
} else {
HBoundsCheck* first_check = new_check == lower_check_ ? upper_check_
: lower_check_;
// The length is guaranteed to be live at first_check.
ASSERT(new_check->length() == first_check->length());
HInstruction* old_position = new_check->next();
new_check->Unlink();
new_check->InsertAfter(first_check);
MoveIndexIfNecessary(new_check->index(), new_check, old_position);
}
return true;
}
void RemoveZeroOperations() {
RemoveZeroAdd(&added_lower_index_, &added_lower_offset_);
RemoveZeroAdd(&added_upper_index_, &added_upper_offset_);
}
BoundsCheckBbData(BoundsCheckKey* key,
......@@ -210,18 +194,14 @@ class BoundsCheckBbData: public ZoneObject {
HBoundsCheck* upper_check,
BoundsCheckBbData* next_in_bb,
BoundsCheckBbData* father_in_dt)
: key_(key),
lower_offset_(lower_offset),
upper_offset_(upper_offset),
basic_block_(bb),
lower_check_(lower_check),
upper_check_(upper_check),
added_lower_index_(NULL),
added_lower_offset_(NULL),
added_upper_index_(NULL),
added_upper_offset_(NULL),
next_in_bb_(next_in_bb),
father_in_dt_(father_in_dt) { }
: key_(key),
lower_offset_(lower_offset),
upper_offset_(upper_offset),
basic_block_(bb),
lower_check_(lower_check),
upper_check_(upper_check),
next_in_bb_(next_in_bb),
father_in_dt_(father_in_dt) { }
private:
BoundsCheckKey* key_;
......@@ -230,57 +210,52 @@ class BoundsCheckBbData: public ZoneObject {
HBasicBlock* basic_block_;
HBoundsCheck* lower_check_;
HBoundsCheck* upper_check_;
HInstruction* added_lower_index_;
HConstant* added_lower_offset_;
HInstruction* added_upper_index_;
HConstant* added_upper_offset_;
BoundsCheckBbData* next_in_bb_;
BoundsCheckBbData* father_in_dt_;
// Given an existing add instruction and a bounds check it tries to
// find the current context (either of the add or of the check index).
HValue* IndexContext(HInstruction* add, HBoundsCheck* check) {
if (add != NULL && add->IsAdd()) {
return HAdd::cast(add)->context();
void MoveIndexIfNecessary(HValue* index_raw,
HBoundsCheck* insert_before,
HInstruction* end_of_scan_range) {
ASSERT(index_raw->IsAdd() || index_raw->IsSub());
HArithmeticBinaryOperation* index =
HArithmeticBinaryOperation::cast(index_raw);
HValue* left_input = index->left();
HValue* right_input = index->right();
bool must_move_index = false;
bool must_move_left_input = false;
bool must_move_right_input = false;
for (HInstruction* cursor = end_of_scan_range; cursor != insert_before;) {
if (cursor == left_input) must_move_left_input = true;
if (cursor == right_input) must_move_right_input = true;
if (cursor == index) must_move_index = true;
if (cursor->previous() == NULL) {
cursor = cursor->block()->dominator()->end();
} else {
cursor = cursor->previous();
}
}
if (check->index()->IsBinaryOperation()) {
return HBinaryOperation::cast(check->index())->context();
if (must_move_index) {
index->Unlink();
index->InsertBefore(insert_before);
}
return NULL;
}
// This function returns false if it cannot build the add because the
// current context cannot be determined.
bool BuildOffsetAdd(HBoundsCheck* check,
HInstruction** add,
HConstant** constant,
HValue* original_value,
Representation representation,
int32_t new_offset) {
HValue* index_context = IndexContext(*add, check);
if (index_context == NULL) return false;
Zone* zone = BasicBlock()->zone();
HConstant* new_constant = HConstant::New(zone, index_context,
new_offset, representation);
if (*add == NULL) {
new_constant->InsertBefore(check);
(*add) = HAdd::New(zone, index_context, original_value, new_constant);
(*add)->AssumeRepresentation(representation);
(*add)->InsertBefore(check);
} else {
new_constant->InsertBefore(*add);
(*constant)->DeleteAndReplaceWith(new_constant);
// The BCE algorithm only selects mergeable bounds checks that share
// the same "index_base", so we'll only ever have to move constants.
if (must_move_left_input) {
HConstant::cast(left_input)->Unlink();
HConstant::cast(left_input)->InsertBefore(index);
}
if (must_move_right_input) {
HConstant::cast(right_input)->Unlink();
HConstant::cast(right_input)->InsertBefore(index);
}
*constant = new_constant;
return true;
}
void RemoveZeroAdd(HInstruction** add, HConstant** constant) {
if (*add != NULL && (*add)->IsAdd() && (*constant)->Integer32Value() == 0) {
(*add)->DeleteAndReplaceWith(HAdd::cast(*add)->left());
(*constant)->DeleteAndReplaceWith(NULL);
}
void TightenCheck(HBoundsCheck* original_check,
HBoundsCheck* tighter_check) {
ASSERT(original_check->length() == tighter_check->length());
MoveIndexIfNecessary(tighter_check->index(), original_check, tighter_check);
original_check->ReplaceAllUsesWith(original_check->index());
original_check->SetOperandAt(0, tighter_check->index());
}
DISALLOW_COPY_AND_ASSIGN(BoundsCheckBbData);
......@@ -394,11 +369,9 @@ BoundsCheckBbData* HBoundsCheckEliminationPhase::PreProcessBlock(
bb->graph()->isolate()->counters()->
bounds_checks_eliminated()->Increment();
check->DeleteAndReplaceWith(check->ActualValue());
} else if (data->BasicBlock() != bb ||
!data->CoverCheck(check, offset)) {
// If the check is in the current BB we try to modify it by calling
// "CoverCheck", but if also that fails we record the current offsets
// in a new data instance because from now on they are covered.
} else if (data->BasicBlock() == bb) {
data->CoverCheck(check, offset);
} else {
int32_t new_lower_offset = offset < data->LowerOffset()
? offset
: data->LowerOffset();
......@@ -424,7 +397,6 @@ BoundsCheckBbData* HBoundsCheckEliminationPhase::PreProcessBlock(
void HBoundsCheckEliminationPhase::PostProcessBlock(
HBasicBlock* block, BoundsCheckBbData* data) {
while (data != NULL) {
data->RemoveZeroOperations();
if (data->FatherInDominatorTree()) {
table_.Insert(data->Key(), data->FatherInDominatorTree(), zone());
} else {
......
// Copyright 2014 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Flags: --allow-natives-syntax
var dummy = new Int32Array(100);
var array = new Int32Array(128);
function fun(base) {
array[base - 95] = 1;
array[base - 99] = 2;
array[base + 4] = 3;
}
fun(100);
%OptimizeFunctionOnNextCall(fun);
fun(0);
for (var i = 0; i < dummy.length; i++) {
assertEquals(0, dummy[i]);
}
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