7aefdea9c3
BUG= R=titzer@chromium.org Review URL: https://codereview.chromium.org/167893007 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@19413 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
536 lines
18 KiB
C++
536 lines
18 KiB
C++
// Copyright 2013 the V8 project authors. All rights reserved.
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following
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// disclaimer in the documentation and/or other materials provided
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// with the distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#include "hydrogen-alias-analysis.h"
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#include "hydrogen-load-elimination.h"
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#include "hydrogen-instructions.h"
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#include "hydrogen-flow-engine.h"
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namespace v8 {
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namespace internal {
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#define GLOBAL true
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#define TRACE(x) if (FLAG_trace_load_elimination) PrintF x
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static const int kMaxTrackedFields = 16;
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static const int kMaxTrackedObjects = 5;
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// An element in the field approximation list.
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class HFieldApproximation : public ZoneObject {
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public: // Just a data blob.
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HValue* object_;
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HValue* last_value_;
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HFieldApproximation* next_;
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// Recursively copy the entire linked list of field approximations.
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HFieldApproximation* Copy(Zone* zone) {
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if (this == NULL) return NULL;
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HFieldApproximation* copy = new(zone) HFieldApproximation();
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copy->object_ = this->object_;
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copy->last_value_ = this->last_value_;
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copy->next_ = this->next_->Copy(zone);
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return copy;
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}
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};
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// The main datastructure used during load/store elimination. Each in-object
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// field is tracked separately. For each field, store a list of known field
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// values for known objects.
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class HLoadEliminationTable : public ZoneObject {
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public:
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HLoadEliminationTable(Zone* zone, HAliasAnalyzer* aliasing)
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: zone_(zone), fields_(kMaxTrackedFields, zone), aliasing_(aliasing) { }
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// The main processing of instructions.
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HLoadEliminationTable* Process(HInstruction* instr, Zone* zone) {
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switch (instr->opcode()) {
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case HValue::kLoadNamedField: {
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HLoadNamedField* l = HLoadNamedField::cast(instr);
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TRACE((" process L%d field %d (o%d)\n",
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instr->id(),
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FieldOf(l->access()),
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l->object()->ActualValue()->id()));
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HValue* result = load(l);
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if (result != instr) {
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// The load can be replaced with a previous load or a value.
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TRACE((" replace L%d -> v%d\n", instr->id(), result->id()));
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instr->DeleteAndReplaceWith(result);
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}
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break;
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}
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case HValue::kStoreNamedField: {
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HStoreNamedField* s = HStoreNamedField::cast(instr);
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TRACE((" process S%d field %d (o%d) = v%d\n",
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instr->id(),
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FieldOf(s->access()),
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s->object()->ActualValue()->id(),
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s->value()->id()));
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HValue* result = store(s);
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if (result == NULL) {
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// The store is redundant. Remove it.
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TRACE((" remove S%d\n", instr->id()));
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instr->DeleteAndReplaceWith(NULL);
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}
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break;
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}
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case HValue::kTransitionElementsKind: {
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HTransitionElementsKind* t = HTransitionElementsKind::cast(instr);
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HValue* object = t->object()->ActualValue();
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KillFieldInternal(object, FieldOf(JSArray::kElementsOffset), NULL);
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KillFieldInternal(object, FieldOf(JSObject::kMapOffset), NULL);
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break;
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}
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default: {
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if (instr->CheckChangesFlag(kInobjectFields)) {
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TRACE((" kill-all i%d\n", instr->id()));
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Kill();
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break;
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}
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if (instr->CheckChangesFlag(kMaps)) {
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TRACE((" kill-maps i%d\n", instr->id()));
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KillOffset(JSObject::kMapOffset);
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}
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if (instr->CheckChangesFlag(kElementsKind)) {
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TRACE((" kill-elements-kind i%d\n", instr->id()));
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KillOffset(JSObject::kMapOffset);
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KillOffset(JSObject::kElementsOffset);
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}
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if (instr->CheckChangesFlag(kElementsPointer)) {
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TRACE((" kill-elements i%d\n", instr->id()));
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KillOffset(JSObject::kElementsOffset);
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}
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if (instr->CheckChangesFlag(kOsrEntries)) {
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TRACE((" kill-osr i%d\n", instr->id()));
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Kill();
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}
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}
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// Improvements possible:
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// - learn from HCheckMaps for field 0
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// - remove unobservable stores (write-after-write)
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// - track cells
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// - track globals
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// - track roots
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}
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return this;
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}
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// Support for global analysis with HFlowEngine: Merge given state with
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// the other incoming state.
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static HLoadEliminationTable* Merge(HLoadEliminationTable* succ_state,
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HBasicBlock* succ_block,
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HLoadEliminationTable* pred_state,
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HBasicBlock* pred_block,
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Zone* zone) {
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ASSERT(pred_state != NULL);
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if (succ_state == NULL) {
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return pred_state->Copy(succ_block, pred_block, zone);
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} else {
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return succ_state->Merge(succ_block, pred_state, pred_block, zone);
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}
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}
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// Support for global analysis with HFlowEngine: Given state merged with all
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// the other incoming states, prepare it for use.
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static HLoadEliminationTable* Finish(HLoadEliminationTable* state,
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HBasicBlock* block,
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Zone* zone) {
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ASSERT(state != NULL);
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return state;
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}
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private:
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// Copy state to successor block.
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HLoadEliminationTable* Copy(HBasicBlock* succ, HBasicBlock* from_block,
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Zone* zone) {
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HLoadEliminationTable* copy =
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new(zone) HLoadEliminationTable(zone, aliasing_);
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copy->EnsureFields(fields_.length());
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for (int i = 0; i < fields_.length(); i++) {
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copy->fields_[i] = fields_[i]->Copy(zone);
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}
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if (FLAG_trace_load_elimination) {
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TRACE((" copy-to B%d\n", succ->block_id()));
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copy->Print();
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}
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return copy;
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}
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// Merge this state with the other incoming state.
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HLoadEliminationTable* Merge(HBasicBlock* succ, HLoadEliminationTable* that,
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HBasicBlock* that_block, Zone* zone) {
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if (that->fields_.length() < fields_.length()) {
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// Drop fields not in the other table.
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fields_.Rewind(that->fields_.length());
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}
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for (int i = 0; i < fields_.length(); i++) {
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// Merge the field approximations for like fields.
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HFieldApproximation* approx = fields_[i];
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HFieldApproximation* prev = NULL;
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while (approx != NULL) {
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// TODO(titzer): Merging is O(N * M); sort?
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HFieldApproximation* other = that->Find(approx->object_, i);
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if (other == NULL || !Equal(approx->last_value_, other->last_value_)) {
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// Kill an entry that doesn't agree with the other value.
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if (prev != NULL) {
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prev->next_ = approx->next_;
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} else {
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fields_[i] = approx->next_;
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}
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approx = approx->next_;
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continue;
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}
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prev = approx;
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approx = approx->next_;
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}
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}
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if (FLAG_trace_load_elimination) {
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TRACE((" merge-to B%d\n", succ->block_id()));
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Print();
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}
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return this;
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}
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friend class HLoadEliminationEffects; // Calls Kill() and others.
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friend class HLoadEliminationPhase;
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private:
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// Process a load instruction, updating internal table state. If a previous
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// load or store for this object and field exists, return the new value with
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// which the load should be replaced. Otherwise, return {instr}.
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HValue* load(HLoadNamedField* instr) {
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// There must be no loads from non observable in-object properties.
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ASSERT(!instr->access().IsInobject() ||
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instr->access().existing_inobject_property());
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int field = FieldOf(instr->access());
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if (field < 0) return instr;
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HValue* object = instr->object()->ActualValue();
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HFieldApproximation* approx = FindOrCreate(object, field);
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if (approx->last_value_ == NULL) {
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// Load is not redundant. Fill out a new entry.
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approx->last_value_ = instr;
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return instr;
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} else if (approx->last_value_->block()->EqualToOrDominates(
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instr->block())) {
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// Eliminate the load. Reuse previously stored value or load instruction.
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return approx->last_value_;
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} else {
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return instr;
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}
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}
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// Process a store instruction, updating internal table state. If a previous
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// store to the same object and field makes this store redundant (e.g. because
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// the stored values are the same), return NULL indicating that this store
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// instruction is redundant. Otherwise, return {instr}.
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HValue* store(HStoreNamedField* instr) {
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if (instr->access().IsInobject() &&
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!instr->access().existing_inobject_property()) {
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TRACE((" skipping non existing property initialization store\n"));
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return instr;
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}
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int field = FieldOf(instr->access());
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if (field < 0) return KillIfMisaligned(instr);
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HValue* object = instr->object()->ActualValue();
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HValue* value = instr->value();
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if (instr->has_transition()) {
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// A transition introduces a new field and alters the map of the object.
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// Since the field in the object is new, it cannot alias existing entries.
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// TODO(titzer): introduce a constant for the new map and remember it.
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KillFieldInternal(object, FieldOf(JSObject::kMapOffset), NULL);
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} else {
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// Kill non-equivalent may-alias entries.
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KillFieldInternal(object, field, value);
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}
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HFieldApproximation* approx = FindOrCreate(object, field);
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if (Equal(approx->last_value_, value)) {
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// The store is redundant because the field already has this value.
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return NULL;
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} else {
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// The store is not redundant. Update the entry.
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approx->last_value_ = value;
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return instr;
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}
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}
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// Kill everything in this table.
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void Kill() {
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fields_.Rewind(0);
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}
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// Kill all entries matching the given offset.
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void KillOffset(int offset) {
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int field = FieldOf(offset);
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if (field >= 0 && field < fields_.length()) {
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fields_[field] = NULL;
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}
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}
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// Kill all entries aliasing the given store.
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void KillStore(HStoreNamedField* s) {
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int field = FieldOf(s->access());
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if (field >= 0) {
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KillFieldInternal(s->object()->ActualValue(), field, s->value());
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} else {
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KillIfMisaligned(s);
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}
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}
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// Kill multiple entries in the case of a misaligned store.
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HValue* KillIfMisaligned(HStoreNamedField* instr) {
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HObjectAccess access = instr->access();
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if (access.IsInobject()) {
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int offset = access.offset();
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if ((offset % kPointerSize) != 0) {
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// Kill the field containing the first word of the access.
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HValue* object = instr->object()->ActualValue();
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int field = offset / kPointerSize;
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KillFieldInternal(object, field, NULL);
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// Kill the next field in case of overlap.
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int size = access.representation().size();
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int next_field = (offset + size - 1) / kPointerSize;
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if (next_field != field) KillFieldInternal(object, next_field, NULL);
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}
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}
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return instr;
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}
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// Find an entry for the given object and field pair.
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HFieldApproximation* Find(HValue* object, int field) {
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// Search for a field approximation for this object.
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HFieldApproximation* approx = fields_[field];
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while (approx != NULL) {
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if (aliasing_->MustAlias(object, approx->object_)) return approx;
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approx = approx->next_;
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}
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return NULL;
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}
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// Find or create an entry for the given object and field pair.
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HFieldApproximation* FindOrCreate(HValue* object, int field) {
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EnsureFields(field + 1);
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// Search for a field approximation for this object.
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HFieldApproximation* approx = fields_[field];
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int count = 0;
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while (approx != NULL) {
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if (aliasing_->MustAlias(object, approx->object_)) return approx;
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count++;
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approx = approx->next_;
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}
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if (count >= kMaxTrackedObjects) {
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// Pull the last entry off the end and repurpose it for this object.
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approx = ReuseLastApproximation(field);
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} else {
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// Allocate a new entry.
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approx = new(zone_) HFieldApproximation();
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}
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// Insert the entry at the head of the list.
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approx->object_ = object;
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approx->last_value_ = NULL;
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approx->next_ = fields_[field];
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fields_[field] = approx;
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return approx;
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}
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// Kill all entries for a given field that _may_ alias the given object
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// and do _not_ have the given value.
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void KillFieldInternal(HValue* object, int field, HValue* value) {
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if (field >= fields_.length()) return; // Nothing to do.
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HFieldApproximation* approx = fields_[field];
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HFieldApproximation* prev = NULL;
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while (approx != NULL) {
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if (aliasing_->MayAlias(object, approx->object_)) {
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if (!Equal(approx->last_value_, value)) {
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// Kill an aliasing entry that doesn't agree on the value.
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if (prev != NULL) {
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prev->next_ = approx->next_;
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} else {
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fields_[field] = approx->next_;
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}
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approx = approx->next_;
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continue;
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}
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}
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prev = approx;
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approx = approx->next_;
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}
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}
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bool Equal(HValue* a, HValue* b) {
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if (a == b) return true;
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if (a != NULL && b != NULL && a->CheckFlag(HValue::kUseGVN)) {
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return a->Equals(b);
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}
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return false;
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}
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// Remove the last approximation for a field so that it can be reused.
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// We reuse the last entry because it was the first inserted and is thus
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// farthest away from the current instruction.
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HFieldApproximation* ReuseLastApproximation(int field) {
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HFieldApproximation* approx = fields_[field];
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ASSERT(approx != NULL);
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HFieldApproximation* prev = NULL;
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while (approx->next_ != NULL) {
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prev = approx;
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approx = approx->next_;
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}
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if (prev != NULL) prev->next_ = NULL;
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return approx;
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}
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// Compute the field index for the given object access; -1 if not tracked.
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int FieldOf(HObjectAccess access) {
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return access.IsInobject() ? FieldOf(access.offset()) : -1;
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}
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// Compute the field index for the given in-object offset; -1 if not tracked.
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int FieldOf(int offset) {
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if (offset >= kMaxTrackedFields * kPointerSize) return -1;
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// TODO(titzer): track misaligned loads in a separate list?
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if ((offset % kPointerSize) != 0) return -1; // Ignore misaligned accesses.
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return offset / kPointerSize;
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}
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// Ensure internal storage for the given number of fields.
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void EnsureFields(int num_fields) {
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if (fields_.length() < num_fields) {
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fields_.AddBlock(NULL, num_fields - fields_.length(), zone_);
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}
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}
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// Print this table to stdout.
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void Print() {
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for (int i = 0; i < fields_.length(); i++) {
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PrintF(" field %d: ", i);
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for (HFieldApproximation* a = fields_[i]; a != NULL; a = a->next_) {
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PrintF("[o%d =", a->object_->id());
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if (a->last_value_ != NULL) PrintF(" v%d", a->last_value_->id());
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PrintF("] ");
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}
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PrintF("\n");
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}
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}
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Zone* zone_;
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ZoneList<HFieldApproximation*> fields_;
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HAliasAnalyzer* aliasing_;
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};
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// Support for HFlowEngine: collect store effects within loops.
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class HLoadEliminationEffects : public ZoneObject {
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public:
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explicit HLoadEliminationEffects(Zone* zone)
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: zone_(zone), stores_(5, zone) { }
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inline bool Disabled() {
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return false; // Effects are _not_ disabled.
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}
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// Process a possibly side-effecting instruction.
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void Process(HInstruction* instr, Zone* zone) {
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if (instr->IsStoreNamedField()) {
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stores_.Add(HStoreNamedField::cast(instr), zone_);
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} else {
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flags_.Add(instr->ChangesFlags());
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}
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}
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// Apply these effects to the given load elimination table.
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void Apply(HLoadEliminationTable* table) {
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// Loads must not be hoisted past the OSR entry, therefore we kill
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// everything if we see an OSR entry.
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if (flags_.Contains(kInobjectFields) || flags_.Contains(kOsrEntries)) {
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table->Kill();
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return;
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}
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if (flags_.Contains(kElementsKind) || flags_.Contains(kMaps)) {
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table->KillOffset(JSObject::kMapOffset);
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}
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if (flags_.Contains(kElementsKind) || flags_.Contains(kElementsPointer)) {
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table->KillOffset(JSObject::kElementsOffset);
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}
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// Kill non-agreeing fields for each store contained in these effects.
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for (int i = 0; i < stores_.length(); i++) {
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table->KillStore(stores_[i]);
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}
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}
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// Union these effects with the other effects.
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void Union(HLoadEliminationEffects* that, Zone* zone) {
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flags_.Add(that->flags_);
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for (int i = 0; i < that->stores_.length(); i++) {
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stores_.Add(that->stores_[i], zone);
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}
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}
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private:
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Zone* zone_;
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GVNFlagSet flags_;
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ZoneList<HStoreNamedField*> stores_;
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};
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// The main routine of the analysis phase. Use the HFlowEngine for either a
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// local or a global analysis.
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void HLoadEliminationPhase::Run() {
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HFlowEngine<HLoadEliminationTable, HLoadEliminationEffects>
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engine(graph(), zone());
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HAliasAnalyzer aliasing;
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HLoadEliminationTable* table =
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new(zone()) HLoadEliminationTable(zone(), &aliasing);
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if (GLOBAL) {
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// Perform a global analysis.
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engine.AnalyzeDominatedBlocks(graph()->blocks()->at(0), table);
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} else {
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// Perform only local analysis.
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for (int i = 0; i < graph()->blocks()->length(); i++) {
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table->Kill();
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engine.AnalyzeOneBlock(graph()->blocks()->at(i), table);
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}
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}
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}
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} } // namespace v8::internal
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