// 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.
#include "src/v8.h"
#include "test/cctest/cctest.h"
#include "src/compiler/common-operator.h"
#include "src/compiler/generic-node-inl.h"
#include "src/compiler/generic-node.h"
#include "src/compiler/graph.h"
#include "src/compiler/graph-visualizer.h"
#include "src/compiler/js-operator.h"
#include "src/compiler/machine-operator.h"
#include "src/compiler/node.h"
#include "src/compiler/operator.h"
#include "src/compiler/schedule.h"
#include "src/compiler/scheduler.h"
#include "src/compiler/verifier.h"
using namespace v8::internal;
using namespace v8::internal::compiler;
// TODO(titzer): pull RPO tests out to their own file.
struct TestLoop {
int count;
BasicBlock** nodes;
BasicBlock* header() { return nodes[0]; }
BasicBlock* last() { return nodes[count - 1]; }
~TestLoop() { delete[] nodes; }
};
static TestLoop* CreateLoop(Schedule* schedule, int count) {
TestLoop* loop = new TestLoop();
loop->count = count;
loop->nodes = new BasicBlock* [count];
for (int i = 0; i < count; i++) {
loop->nodes[i] = schedule->NewBasicBlock();
if (i > 0) schedule->AddSuccessor(loop->nodes[i - 1], loop->nodes[i]);
}
schedule->AddSuccessor(loop->nodes[count - 1], loop->nodes[0]);
return loop;
}
static void CheckRPONumbers(BasicBlockVector* order, int expected,
bool loops_allowed) {
CHECK_EQ(expected, static_cast<int>(order->size()));
for (int i = 0; i < static_cast<int>(order->size()); i++) {
CHECK(order->at(i)->rpo_number_ == i);
if (!loops_allowed) CHECK_LT(order->at(i)->loop_end_, 0);
}
}
static void CheckLoopContains(BasicBlock** blocks, int body_size) {
BasicBlock* header = blocks[0];
CHECK_GT(header->loop_end_, 0);
CHECK_EQ(body_size, (header->loop_end_ - header->rpo_number_));
for (int i = 0; i < body_size; i++) {
int num = blocks[i]->rpo_number_;
CHECK(num >= header->rpo_number_ && num < header->loop_end_);
CHECK(header->LoopContains(blocks[i]));
CHECK(header->IsLoopHeader() || blocks[i]->loop_header_ == header);
}
}
static int GetScheduledNodeCount(Schedule* schedule) {
int node_count = 0;
for (BasicBlockVectorIter i = schedule->rpo_order()->begin();
i != schedule->rpo_order()->end(); ++i) {
BasicBlock* block = *i;
for (BasicBlock::const_iterator j = block->begin(); j != block->end();
++j) {
++node_count;
}
BasicBlock::Control control = block->control_;
if (control != BasicBlock::kNone) {
++node_count;
}
}
return node_count;
}
static Schedule* ComputeAndVerifySchedule(int expected, Graph* graph) {
if (FLAG_trace_turbo) {
OFStream os(stdout);
os << AsDOT(*graph);
}
Schedule* schedule = Scheduler::ComputeSchedule(graph);
if (FLAG_trace_turbo_scheduler) {
OFStream os(stdout);
os << *schedule << endl;
}
ScheduleVerifier::Run(schedule);
CHECK_EQ(expected, GetScheduledNodeCount(schedule));
return schedule;
}
TEST(RPODegenerate1) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 1, false);
CHECK_EQ(schedule.start(), order->at(0));
}
TEST(RPODegenerate2) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
schedule.AddGoto(schedule.start(), schedule.end());
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 2, false);
CHECK_EQ(schedule.start(), order->at(0));
CHECK_EQ(schedule.end(), order->at(1));
}
TEST(RPOLine) {
HandleAndZoneScope scope;
for (int i = 0; i < 10; i++) {
Schedule schedule(scope.main_zone());
BasicBlock* last = schedule.start();
for (int j = 0; j < i; j++) {
BasicBlock* block = schedule.NewBasicBlock();
schedule.AddGoto(last, block);
last = block;
}
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 1 + i, false);
Schedule::BasicBlocks blocks(schedule.all_blocks());
for (Schedule::BasicBlocks::iterator iter = blocks.begin();
iter != blocks.end(); ++iter) {
BasicBlock* block = *iter;
if (block->rpo_number_ >= 0 && block->SuccessorCount() == 1) {
CHECK(block->rpo_number_ + 1 == block->SuccessorAt(0)->rpo_number_);
}
}
}
}
TEST(RPOSelfLoop) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
schedule.AddSuccessor(schedule.start(), schedule.start());
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 1, true);
BasicBlock* loop[] = {schedule.start()};
CheckLoopContains(loop, 1);
}
TEST(RPOEntryLoop) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
schedule.AddSuccessor(schedule.start(), schedule.end());
schedule.AddSuccessor(schedule.end(), schedule.start());
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 2, true);
BasicBlock* loop[] = {schedule.start(), schedule.end()};
CheckLoopContains(loop, 2);
}
TEST(RPOEndLoop) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
SmartPointer<TestLoop> loop1(CreateLoop(&schedule, 2));
schedule.AddSuccessor(schedule.start(), loop1->header());
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 3, true);
CheckLoopContains(loop1->nodes, loop1->count);
}
TEST(RPOEndLoopNested) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
SmartPointer<TestLoop> loop1(CreateLoop(&schedule, 2));
schedule.AddSuccessor(schedule.start(), loop1->header());
schedule.AddSuccessor(loop1->last(), schedule.start());
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 3, true);
CheckLoopContains(loop1->nodes, loop1->count);
}
TEST(RPODiamond) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
BasicBlock* A = schedule.start();
BasicBlock* B = schedule.NewBasicBlock();
BasicBlock* C = schedule.NewBasicBlock();
BasicBlock* D = schedule.end();
schedule.AddSuccessor(A, B);
schedule.AddSuccessor(A, C);
schedule.AddSuccessor(B, D);
schedule.AddSuccessor(C, D);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 4, false);
CHECK_EQ(0, A->rpo_number_);
CHECK((B->rpo_number_ == 1 && C->rpo_number_ == 2) ||
(B->rpo_number_ == 2 && C->rpo_number_ == 1));
CHECK_EQ(3, D->rpo_number_);
}
TEST(RPOLoop1) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
BasicBlock* A = schedule.start();
BasicBlock* B = schedule.NewBasicBlock();
BasicBlock* C = schedule.NewBasicBlock();
BasicBlock* D = schedule.end();
schedule.AddSuccessor(A, B);
schedule.AddSuccessor(B, C);
schedule.AddSuccessor(C, B);
schedule.AddSuccessor(C, D);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 4, true);
BasicBlock* loop[] = {B, C};
CheckLoopContains(loop, 2);
}
TEST(RPOLoop2) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
BasicBlock* A = schedule.start();
BasicBlock* B = schedule.NewBasicBlock();
BasicBlock* C = schedule.NewBasicBlock();
BasicBlock* D = schedule.end();
schedule.AddSuccessor(A, B);
schedule.AddSuccessor(B, C);
schedule.AddSuccessor(C, B);
schedule.AddSuccessor(B, D);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 4, true);
BasicBlock* loop[] = {B, C};
CheckLoopContains(loop, 2);
}
TEST(RPOLoopN) {
HandleAndZoneScope scope;
for (int i = 0; i < 11; i++) {
Schedule schedule(scope.main_zone());
BasicBlock* A = schedule.start();
BasicBlock* B = schedule.NewBasicBlock();
BasicBlock* C = schedule.NewBasicBlock();
BasicBlock* D = schedule.NewBasicBlock();
BasicBlock* E = schedule.NewBasicBlock();
BasicBlock* F = schedule.NewBasicBlock();
BasicBlock* G = schedule.end();
schedule.AddSuccessor(A, B);
schedule.AddSuccessor(B, C);
schedule.AddSuccessor(C, D);
schedule.AddSuccessor(D, E);
schedule.AddSuccessor(E, F);
schedule.AddSuccessor(F, B);
schedule.AddSuccessor(B, G);
// Throw in extra backedges from time to time.
if (i == 1) schedule.AddSuccessor(B, B);
if (i == 2) schedule.AddSuccessor(C, B);
if (i == 3) schedule.AddSuccessor(D, B);
if (i == 4) schedule.AddSuccessor(E, B);
if (i == 5) schedule.AddSuccessor(F, B);
// Throw in extra loop exits from time to time.
if (i == 6) schedule.AddSuccessor(B, G);
if (i == 7) schedule.AddSuccessor(C, G);
if (i == 8) schedule.AddSuccessor(D, G);
if (i == 9) schedule.AddSuccessor(E, G);
if (i == 10) schedule.AddSuccessor(F, G);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 7, true);
BasicBlock* loop[] = {B, C, D, E, F};
CheckLoopContains(loop, 5);
}
}
TEST(RPOLoopNest1) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
BasicBlock* A = schedule.start();
BasicBlock* B = schedule.NewBasicBlock();
BasicBlock* C = schedule.NewBasicBlock();
BasicBlock* D = schedule.NewBasicBlock();
BasicBlock* E = schedule.NewBasicBlock();
BasicBlock* F = schedule.end();
schedule.AddSuccessor(A, B);
schedule.AddSuccessor(B, C);
schedule.AddSuccessor(C, D);
schedule.AddSuccessor(D, C);
schedule.AddSuccessor(D, E);
schedule.AddSuccessor(E, B);
schedule.AddSuccessor(E, F);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 6, true);
BasicBlock* loop1[] = {B, C, D, E};
CheckLoopContains(loop1, 4);
BasicBlock* loop2[] = {C, D};
CheckLoopContains(loop2, 2);
}
TEST(RPOLoopNest2) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
BasicBlock* A = schedule.start();
BasicBlock* B = schedule.NewBasicBlock();
BasicBlock* C = schedule.NewBasicBlock();
BasicBlock* D = schedule.NewBasicBlock();
BasicBlock* E = schedule.NewBasicBlock();
BasicBlock* F = schedule.NewBasicBlock();
BasicBlock* G = schedule.NewBasicBlock();
BasicBlock* H = schedule.end();
schedule.AddSuccessor(A, B);
schedule.AddSuccessor(B, C);
schedule.AddSuccessor(C, D);
schedule.AddSuccessor(D, E);
schedule.AddSuccessor(E, F);
schedule.AddSuccessor(F, G);
schedule.AddSuccessor(G, H);
schedule.AddSuccessor(E, D);
schedule.AddSuccessor(F, C);
schedule.AddSuccessor(G, B);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 8, true);
BasicBlock* loop1[] = {B, C, D, E, F, G};
CheckLoopContains(loop1, 6);
BasicBlock* loop2[] = {C, D, E, F};
CheckLoopContains(loop2, 4);
BasicBlock* loop3[] = {D, E};
CheckLoopContains(loop3, 2);
}
TEST(RPOLoopFollow1) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
SmartPointer<TestLoop> loop1(CreateLoop(&schedule, 1));
SmartPointer<TestLoop> loop2(CreateLoop(&schedule, 1));
BasicBlock* A = schedule.start();
BasicBlock* E = schedule.end();
schedule.AddSuccessor(A, loop1->header());
schedule.AddSuccessor(loop1->header(), loop2->header());
schedule.AddSuccessor(loop2->last(), E);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckLoopContains(loop1->nodes, loop1->count);
CHECK_EQ(schedule.BasicBlockCount(), static_cast<int>(order->size()));
CheckLoopContains(loop1->nodes, loop1->count);
CheckLoopContains(loop2->nodes, loop2->count);
}
TEST(RPOLoopFollow2) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
SmartPointer<TestLoop> loop1(CreateLoop(&schedule, 1));
SmartPointer<TestLoop> loop2(CreateLoop(&schedule, 1));
BasicBlock* A = schedule.start();
BasicBlock* S = schedule.NewBasicBlock();
BasicBlock* E = schedule.end();
schedule.AddSuccessor(A, loop1->header());
schedule.AddSuccessor(loop1->header(), S);
schedule.AddSuccessor(S, loop2->header());
schedule.AddSuccessor(loop2->last(), E);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckLoopContains(loop1->nodes, loop1->count);
CHECK_EQ(schedule.BasicBlockCount(), static_cast<int>(order->size()));
CheckLoopContains(loop1->nodes, loop1->count);
CheckLoopContains(loop2->nodes, loop2->count);
}
TEST(RPOLoopFollowN) {
HandleAndZoneScope scope;
for (int size = 1; size < 5; size++) {
for (int exit = 0; exit < size; exit++) {
Schedule schedule(scope.main_zone());
SmartPointer<TestLoop> loop1(CreateLoop(&schedule, size));
SmartPointer<TestLoop> loop2(CreateLoop(&schedule, size));
BasicBlock* A = schedule.start();
BasicBlock* E = schedule.end();
schedule.AddSuccessor(A, loop1->header());
schedule.AddSuccessor(loop1->nodes[exit], loop2->header());
schedule.AddSuccessor(loop2->nodes[exit], E);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckLoopContains(loop1->nodes, loop1->count);
CHECK_EQ(schedule.BasicBlockCount(), static_cast<int>(order->size()));
CheckLoopContains(loop1->nodes, loop1->count);
CheckLoopContains(loop2->nodes, loop2->count);
}
}
}
TEST(RPONestedLoopFollow1) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
SmartPointer<TestLoop> loop1(CreateLoop(&schedule, 1));
SmartPointer<TestLoop> loop2(CreateLoop(&schedule, 1));
BasicBlock* A = schedule.start();
BasicBlock* B = schedule.NewBasicBlock();
BasicBlock* C = schedule.NewBasicBlock();
BasicBlock* E = schedule.end();
schedule.AddSuccessor(A, B);
schedule.AddSuccessor(B, loop1->header());
schedule.AddSuccessor(loop1->header(), loop2->header());
schedule.AddSuccessor(loop2->last(), C);
schedule.AddSuccessor(C, E);
schedule.AddSuccessor(C, B);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckLoopContains(loop1->nodes, loop1->count);
CHECK_EQ(schedule.BasicBlockCount(), static_cast<int>(order->size()));
CheckLoopContains(loop1->nodes, loop1->count);
CheckLoopContains(loop2->nodes, loop2->count);
BasicBlock* loop3[] = {B, loop1->nodes[0], loop2->nodes[0], C};
CheckLoopContains(loop3, 4);
}
TEST(RPOLoopBackedges1) {
HandleAndZoneScope scope;
int size = 8;
for (int i = 0; i < size; i++) {
for (int j = 0; j < size; j++) {
Schedule schedule(scope.main_zone());
BasicBlock* A = schedule.start();
BasicBlock* E = schedule.end();
SmartPointer<TestLoop> loop1(CreateLoop(&schedule, size));
schedule.AddSuccessor(A, loop1->header());
schedule.AddSuccessor(loop1->last(), E);
schedule.AddSuccessor(loop1->nodes[i], loop1->header());
schedule.AddSuccessor(loop1->nodes[j], E);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, schedule.BasicBlockCount(), true);
CheckLoopContains(loop1->nodes, loop1->count);
}
}
}
TEST(RPOLoopOutedges1) {
HandleAndZoneScope scope;
int size = 8;
for (int i = 0; i < size; i++) {
for (int j = 0; j < size; j++) {
Schedule schedule(scope.main_zone());
BasicBlock* A = schedule.start();
BasicBlock* D = schedule.NewBasicBlock();
BasicBlock* E = schedule.end();
SmartPointer<TestLoop> loop1(CreateLoop(&schedule, size));
schedule.AddSuccessor(A, loop1->header());
schedule.AddSuccessor(loop1->last(), E);
schedule.AddSuccessor(loop1->nodes[i], loop1->header());
schedule.AddSuccessor(loop1->nodes[j], D);
schedule.AddSuccessor(D, E);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, schedule.BasicBlockCount(), true);
CheckLoopContains(loop1->nodes, loop1->count);
}
}
}
TEST(RPOLoopOutedges2) {
HandleAndZoneScope scope;
int size = 8;
for (int i = 0; i < size; i++) {
Schedule schedule(scope.main_zone());
BasicBlock* A = schedule.start();
BasicBlock* E = schedule.end();
SmartPointer<TestLoop> loop1(CreateLoop(&schedule, size));
schedule.AddSuccessor(A, loop1->header());
schedule.AddSuccessor(loop1->last(), E);
for (int j = 0; j < size; j++) {
BasicBlock* O = schedule.NewBasicBlock();
schedule.AddSuccessor(loop1->nodes[j], O);
schedule.AddSuccessor(O, E);
}
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, schedule.BasicBlockCount(), true);
CheckLoopContains(loop1->nodes, loop1->count);
}
}
TEST(RPOLoopOutloops1) {
HandleAndZoneScope scope;
int size = 8;
for (int i = 0; i < size; i++) {
Schedule schedule(scope.main_zone());
BasicBlock* A = schedule.start();
BasicBlock* E = schedule.end();
SmartPointer<TestLoop> loop1(CreateLoop(&schedule, size));
schedule.AddSuccessor(A, loop1->header());
schedule.AddSuccessor(loop1->last(), E);
TestLoop** loopN = new TestLoop* [size];
for (int j = 0; j < size; j++) {
loopN[j] = CreateLoop(&schedule, 2);
schedule.AddSuccessor(loop1->nodes[j], loopN[j]->header());
schedule.AddSuccessor(loopN[j]->last(), E);
}
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, schedule.BasicBlockCount(), true);
CheckLoopContains(loop1->nodes, loop1->count);
for (int j = 0; j < size; j++) {
CheckLoopContains(loopN[j]->nodes, loopN[j]->count);
delete loopN[j];
}
delete[] loopN;
}
}
TEST(RPOLoopMultibackedge) {
HandleAndZoneScope scope;
Schedule schedule(scope.main_zone());
BasicBlock* A = schedule.start();
BasicBlock* B = schedule.NewBasicBlock();
BasicBlock* C = schedule.NewBasicBlock();
BasicBlock* D = schedule.end();
BasicBlock* E = schedule.NewBasicBlock();
schedule.AddSuccessor(A, B);
schedule.AddSuccessor(B, C);
schedule.AddSuccessor(B, D);
schedule.AddSuccessor(B, E);
schedule.AddSuccessor(C, B);
schedule.AddSuccessor(D, B);
schedule.AddSuccessor(E, B);
BasicBlockVector* order = Scheduler::ComputeSpecialRPO(&schedule);
CheckRPONumbers(order, 5, true);
BasicBlock* loop1[] = {B, C, D, E};
CheckLoopContains(loop1, 4);
}
TEST(BuildScheduleEmpty) {
HandleAndZoneScope scope;
Graph graph(scope.main_zone());
CommonOperatorBuilder builder(scope.main_zone());
graph.SetStart(graph.NewNode(builder.Start(0)));
graph.SetEnd(graph.NewNode(builder.End(), graph.start()));
USE(Scheduler::ComputeSchedule(&graph));
}
TEST(BuildScheduleOneParameter) {
HandleAndZoneScope scope;
Graph graph(scope.main_zone());
CommonOperatorBuilder builder(scope.main_zone());
graph.SetStart(graph.NewNode(builder.Start(0)));
Node* p1 = graph.NewNode(builder.Parameter(0), graph.start());
Node* ret = graph.NewNode(builder.Return(), p1, graph.start(), graph.start());
graph.SetEnd(graph.NewNode(builder.End(), ret));
USE(Scheduler::ComputeSchedule(&graph));
}
TEST(BuildScheduleIfSplit) {
HandleAndZoneScope scope;
Graph graph(scope.main_zone());
CommonOperatorBuilder builder(scope.main_zone());
JSOperatorBuilder js_builder(scope.main_zone());
graph.SetStart(graph.NewNode(builder.Start(3)));
Node* p1 = graph.NewNode(builder.Parameter(0), graph.start());
Node* p2 = graph.NewNode(builder.Parameter(1), graph.start());
Node* p3 = graph.NewNode(builder.Parameter(2), graph.start());
Node* p4 = graph.NewNode(builder.Parameter(3), graph.start());
Node* p5 = graph.NewNode(builder.Parameter(4), graph.start());
Node* cmp = graph.NewNode(js_builder.LessThanOrEqual(), p1, p2, p3,
graph.start(), graph.start());
Node* branch = graph.NewNode(builder.Branch(), cmp, graph.start());
Node* true_branch = graph.NewNode(builder.IfTrue(), branch);
Node* false_branch = graph.NewNode(builder.IfFalse(), branch);
Node* ret1 = graph.NewNode(builder.Return(), p4, graph.start(), true_branch);
Node* ret2 = graph.NewNode(builder.Return(), p5, graph.start(), false_branch);
Node* merge = graph.NewNode(builder.Merge(2), ret1, ret2);
graph.SetEnd(graph.NewNode(builder.End(), merge));
ComputeAndVerifySchedule(13, &graph);
}
TEST(BuildScheduleIfSplitWithEffects) {
HandleAndZoneScope scope;
Isolate* isolate = scope.main_isolate();
Graph graph(scope.main_zone());
CommonOperatorBuilder common_builder(scope.main_zone());
JSOperatorBuilder js_builder(scope.main_zone());
const Operator* op;
Handle<Object> object =
Handle<Object>(isolate->heap()->undefined_value(), isolate);
Unique<Object> unique_constant = Unique<Object>::CreateUninitialized(object);
// Manually transcripted code for:
// function turbo_fan_test(a, b, c, y) {
// if (a < b) {
// return a + b - c * c - a + y;
// } else {
// return c * c - a;
// }
// }
op = common_builder.Start(0);
Node* n0 = graph.NewNode(op);
USE(n0);
Node* nil = graph.NewNode(common_builder.Dead());
op = common_builder.End();
Node* n23 = graph.NewNode(op, nil);
USE(n23);
op = common_builder.Merge(2);
Node* n22 = graph.NewNode(op, nil, nil);
USE(n22);
op = common_builder.Return();
Node* n16 = graph.NewNode(op, nil, nil, nil);
USE(n16);
op = js_builder.Add();
Node* n15 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n15);
op = js_builder.Subtract();
Node* n14 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n14);
op = js_builder.Subtract();
Node* n13 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n13);
op = js_builder.Add();
Node* n11 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n11);
op = common_builder.Parameter(0);
Node* n2 = graph.NewNode(op, n0);
USE(n2);
n11->ReplaceInput(0, n2);
op = common_builder.Parameter(0);
Node* n3 = graph.NewNode(op, n0);
USE(n3);
n11->ReplaceInput(1, n3);
op = common_builder.HeapConstant(unique_constant);
Node* n7 = graph.NewNode(op);
USE(n7);
n11->ReplaceInput(2, n7);
op = js_builder.LessThan();
Node* n8 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n8);
n8->ReplaceInput(0, n2);
n8->ReplaceInput(1, n3);
n8->ReplaceInput(2, n7);
n8->ReplaceInput(3, n0);
n8->ReplaceInput(4, n0);
n11->ReplaceInput(3, n8);
op = common_builder.IfTrue();
Node* n10 = graph.NewNode(op, nil);
USE(n10);
op = common_builder.Branch();
Node* n9 = graph.NewNode(op, nil, nil);
USE(n9);
n9->ReplaceInput(0, n8);
n9->ReplaceInput(1, n0);
n10->ReplaceInput(0, n9);
n11->ReplaceInput(4, n10);
n13->ReplaceInput(0, n11);
op = js_builder.Multiply();
Node* n12 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n12);
op = common_builder.Parameter(0);
Node* n4 = graph.NewNode(op, n0);
USE(n4);
n12->ReplaceInput(0, n4);
n12->ReplaceInput(1, n4);
n12->ReplaceInput(2, n7);
n12->ReplaceInput(3, n11);
n12->ReplaceInput(4, n10);
n13->ReplaceInput(1, n12);
n13->ReplaceInput(2, n7);
n13->ReplaceInput(3, n12);
n13->ReplaceInput(4, n10);
n14->ReplaceInput(0, n13);
n14->ReplaceInput(1, n2);
n14->ReplaceInput(2, n7);
n14->ReplaceInput(3, n13);
n14->ReplaceInput(4, n10);
n15->ReplaceInput(0, n14);
op = common_builder.Parameter(0);
Node* n5 = graph.NewNode(op, n0);
USE(n5);
n15->ReplaceInput(1, n5);
n15->ReplaceInput(2, n7);
n15->ReplaceInput(3, n14);
n15->ReplaceInput(4, n10);
n16->ReplaceInput(0, n15);
n16->ReplaceInput(1, n15);
n16->ReplaceInput(2, n10);
n22->ReplaceInput(0, n16);
op = common_builder.Return();
Node* n21 = graph.NewNode(op, nil, nil, nil);
USE(n21);
op = js_builder.Subtract();
Node* n20 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n20);
op = js_builder.Multiply();
Node* n19 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n19);
n19->ReplaceInput(0, n4);
n19->ReplaceInput(1, n4);
n19->ReplaceInput(2, n7);
n19->ReplaceInput(3, n8);
op = common_builder.IfFalse();
Node* n18 = graph.NewNode(op, nil);
USE(n18);
n18->ReplaceInput(0, n9);
n19->ReplaceInput(4, n18);
n20->ReplaceInput(0, n19);
n20->ReplaceInput(1, n2);
n20->ReplaceInput(2, n7);
n20->ReplaceInput(3, n19);
n20->ReplaceInput(4, n18);
n21->ReplaceInput(0, n20);
n21->ReplaceInput(1, n20);
n21->ReplaceInput(2, n18);
n22->ReplaceInput(1, n21);
n23->ReplaceInput(0, n22);
graph.SetStart(n0);
graph.SetEnd(n23);
ComputeAndVerifySchedule(20, &graph);
}
TEST(BuildScheduleSimpleLoop) {
HandleAndZoneScope scope;
Isolate* isolate = scope.main_isolate();
Graph graph(scope.main_zone());
CommonOperatorBuilder common_builder(scope.main_zone());
JSOperatorBuilder js_builder(scope.main_zone());
const Operator* op;
Handle<Object> object =
Handle<Object>(isolate->heap()->undefined_value(), isolate);
Unique<Object> unique_constant = Unique<Object>::CreateUninitialized(object);
// Manually transcripted code for:
// function turbo_fan_test(a, b) {
// while (a < b) {
// a++;
// }
// return a;
// }
op = common_builder.Start(0);
Node* n0 = graph.NewNode(op);
USE(n0);
Node* nil = graph.NewNode(common_builder.Dead());
op = common_builder.End();
Node* n20 = graph.NewNode(op, nil);
USE(n20);
op = common_builder.Return();
Node* n19 = graph.NewNode(op, nil, nil, nil);
USE(n19);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n8 = graph.NewNode(op, nil, nil, nil);
USE(n8);
op = common_builder.Parameter(0);
Node* n2 = graph.NewNode(op, n0);
USE(n2);
n8->ReplaceInput(0, n2);
op = js_builder.Add();
Node* n18 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n18);
op = js_builder.ToNumber();
Node* n16 = graph.NewNode(op, nil, nil, nil, nil);
USE(n16);
n16->ReplaceInput(0, n8);
op = common_builder.HeapConstant(unique_constant);
Node* n5 = graph.NewNode(op);
USE(n5);
n16->ReplaceInput(1, n5);
op = js_builder.LessThan();
Node* n12 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n12);
n12->ReplaceInput(0, n8);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n9 = graph.NewNode(op, nil, nil, nil);
USE(n9);
op = common_builder.Parameter(0);
Node* n3 = graph.NewNode(op, n0);
USE(n3);
n9->ReplaceInput(0, n3);
n9->ReplaceInput(1, n9);
op = common_builder.Loop(2);
Node* n6 = graph.NewNode(op, nil, nil);
USE(n6);
n6->ReplaceInput(0, n0);
op = common_builder.IfTrue();
Node* n14 = graph.NewNode(op, nil);
USE(n14);
op = common_builder.Branch();
Node* n13 = graph.NewNode(op, nil, nil);
USE(n13);
n13->ReplaceInput(0, n12);
n13->ReplaceInput(1, n6);
n14->ReplaceInput(0, n13);
n6->ReplaceInput(1, n14);
n9->ReplaceInput(2, n6);
n12->ReplaceInput(1, n9);
n12->ReplaceInput(2, n5);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n10 = graph.NewNode(op, nil, nil, nil);
USE(n10);
n10->ReplaceInput(0, n0);
n10->ReplaceInput(1, n18);
n10->ReplaceInput(2, n6);
n12->ReplaceInput(3, n10);
n12->ReplaceInput(4, n6);
n16->ReplaceInput(2, n12);
n16->ReplaceInput(3, n14);
n18->ReplaceInput(0, n16);
op = common_builder.NumberConstant(0);
Node* n17 = graph.NewNode(op);
USE(n17);
n18->ReplaceInput(1, n17);
n18->ReplaceInput(2, n5);
n18->ReplaceInput(3, n16);
n18->ReplaceInput(4, n14);
n8->ReplaceInput(1, n18);
n8->ReplaceInput(2, n6);
n19->ReplaceInput(0, n8);
n19->ReplaceInput(1, n12);
op = common_builder.IfFalse();
Node* n15 = graph.NewNode(op, nil);
USE(n15);
n15->ReplaceInput(0, n13);
n19->ReplaceInput(2, n15);
n20->ReplaceInput(0, n19);
graph.SetStart(n0);
graph.SetEnd(n20);
ComputeAndVerifySchedule(19, &graph);
}
TEST(BuildScheduleComplexLoops) {
HandleAndZoneScope scope;
Isolate* isolate = scope.main_isolate();
Graph graph(scope.main_zone());
CommonOperatorBuilder common_builder(scope.main_zone());
JSOperatorBuilder js_builder(scope.main_zone());
const Operator* op;
Handle<Object> object =
Handle<Object>(isolate->heap()->undefined_value(), isolate);
Unique<Object> unique_constant = Unique<Object>::CreateUninitialized(object);
// Manually transcripted code for:
// function turbo_fan_test(a, b, c) {
// while (a < b) {
// a++;
// while (c < b) {
// c++;
// }
// }
// while (a < b) {
// a += 2;
// }
// return a;
// }
op = common_builder.Start(0);
Node* n0 = graph.NewNode(op);
USE(n0);
Node* nil = graph.NewNode(common_builder.Dead());
op = common_builder.End();
Node* n46 = graph.NewNode(op, nil);
USE(n46);
op = common_builder.Return();
Node* n45 = graph.NewNode(op, nil, nil, nil);
USE(n45);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n35 = graph.NewNode(op, nil, nil, nil);
USE(n35);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n9 = graph.NewNode(op, nil, nil, nil);
USE(n9);
op = common_builder.Parameter(0);
Node* n2 = graph.NewNode(op, n0);
USE(n2);
n9->ReplaceInput(0, n2);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n23 = graph.NewNode(op, nil, nil, nil);
USE(n23);
op = js_builder.Add();
Node* n20 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n20);
op = js_builder.ToNumber();
Node* n18 = graph.NewNode(op, nil, nil, nil, nil);
USE(n18);
n18->ReplaceInput(0, n9);
op = common_builder.HeapConstant(unique_constant);
Node* n6 = graph.NewNode(op);
USE(n6);
n18->ReplaceInput(1, n6);
op = js_builder.LessThan();
Node* n14 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n14);
n14->ReplaceInput(0, n9);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n10 = graph.NewNode(op, nil, nil, nil);
USE(n10);
op = common_builder.Parameter(0);
Node* n3 = graph.NewNode(op, n0);
USE(n3);
n10->ReplaceInput(0, n3);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n24 = graph.NewNode(op, nil, nil, nil);
USE(n24);
n24->ReplaceInput(0, n10);
n24->ReplaceInput(1, n24);
op = common_builder.Loop(2);
Node* n21 = graph.NewNode(op, nil, nil);
USE(n21);
op = common_builder.IfTrue();
Node* n16 = graph.NewNode(op, nil);
USE(n16);
op = common_builder.Branch();
Node* n15 = graph.NewNode(op, nil, nil);
USE(n15);
n15->ReplaceInput(0, n14);
op = common_builder.Loop(2);
Node* n7 = graph.NewNode(op, nil, nil);
USE(n7);
n7->ReplaceInput(0, n0);
op = common_builder.IfFalse();
Node* n30 = graph.NewNode(op, nil);
USE(n30);
op = common_builder.Branch();
Node* n28 = graph.NewNode(op, nil, nil);
USE(n28);
op = js_builder.LessThan();
Node* n27 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n27);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n25 = graph.NewNode(op, nil, nil, nil);
USE(n25);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n11 = graph.NewNode(op, nil, nil, nil);
USE(n11);
op = common_builder.Parameter(0);
Node* n4 = graph.NewNode(op, n0);
USE(n4);
n11->ReplaceInput(0, n4);
n11->ReplaceInput(1, n25);
n11->ReplaceInput(2, n7);
n25->ReplaceInput(0, n11);
op = js_builder.Add();
Node* n32 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n32);
op = js_builder.ToNumber();
Node* n31 = graph.NewNode(op, nil, nil, nil, nil);
USE(n31);
n31->ReplaceInput(0, n25);
n31->ReplaceInput(1, n6);
n31->ReplaceInput(2, n27);
op = common_builder.IfTrue();
Node* n29 = graph.NewNode(op, nil);
USE(n29);
n29->ReplaceInput(0, n28);
n31->ReplaceInput(3, n29);
n32->ReplaceInput(0, n31);
op = common_builder.NumberConstant(0);
Node* n19 = graph.NewNode(op);
USE(n19);
n32->ReplaceInput(1, n19);
n32->ReplaceInput(2, n6);
n32->ReplaceInput(3, n31);
n32->ReplaceInput(4, n29);
n25->ReplaceInput(1, n32);
n25->ReplaceInput(2, n21);
n27->ReplaceInput(0, n25);
n27->ReplaceInput(1, n24);
n27->ReplaceInput(2, n6);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n26 = graph.NewNode(op, nil, nil, nil);
USE(n26);
n26->ReplaceInput(0, n20);
n26->ReplaceInput(1, n32);
n26->ReplaceInput(2, n21);
n27->ReplaceInput(3, n26);
n27->ReplaceInput(4, n21);
n28->ReplaceInput(0, n27);
n28->ReplaceInput(1, n21);
n30->ReplaceInput(0, n28);
n7->ReplaceInput(1, n30);
n15->ReplaceInput(1, n7);
n16->ReplaceInput(0, n15);
n21->ReplaceInput(0, n16);
n21->ReplaceInput(1, n29);
n24->ReplaceInput(2, n21);
n10->ReplaceInput(1, n24);
n10->ReplaceInput(2, n7);
n14->ReplaceInput(1, n10);
n14->ReplaceInput(2, n6);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n12 = graph.NewNode(op, nil, nil, nil);
USE(n12);
n12->ReplaceInput(0, n0);
n12->ReplaceInput(1, n27);
n12->ReplaceInput(2, n7);
n14->ReplaceInput(3, n12);
n14->ReplaceInput(4, n7);
n18->ReplaceInput(2, n14);
n18->ReplaceInput(3, n16);
n20->ReplaceInput(0, n18);
n20->ReplaceInput(1, n19);
n20->ReplaceInput(2, n6);
n20->ReplaceInput(3, n18);
n20->ReplaceInput(4, n16);
n23->ReplaceInput(0, n20);
n23->ReplaceInput(1, n23);
n23->ReplaceInput(2, n21);
n9->ReplaceInput(1, n23);
n9->ReplaceInput(2, n7);
n35->ReplaceInput(0, n9);
op = js_builder.Add();
Node* n44 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n44);
n44->ReplaceInput(0, n35);
op = common_builder.NumberConstant(0);
Node* n43 = graph.NewNode(op);
USE(n43);
n44->ReplaceInput(1, n43);
n44->ReplaceInput(2, n6);
op = js_builder.LessThan();
Node* n39 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n39);
n39->ReplaceInput(0, n35);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n36 = graph.NewNode(op, nil, nil, nil);
USE(n36);
n36->ReplaceInput(0, n10);
n36->ReplaceInput(1, n36);
op = common_builder.Loop(2);
Node* n33 = graph.NewNode(op, nil, nil);
USE(n33);
op = common_builder.IfFalse();
Node* n17 = graph.NewNode(op, nil);
USE(n17);
n17->ReplaceInput(0, n15);
n33->ReplaceInput(0, n17);
op = common_builder.IfTrue();
Node* n41 = graph.NewNode(op, nil);
USE(n41);
op = common_builder.Branch();
Node* n40 = graph.NewNode(op, nil, nil);
USE(n40);
n40->ReplaceInput(0, n39);
n40->ReplaceInput(1, n33);
n41->ReplaceInput(0, n40);
n33->ReplaceInput(1, n41);
n36->ReplaceInput(2, n33);
n39->ReplaceInput(1, n36);
n39->ReplaceInput(2, n6);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n38 = graph.NewNode(op, nil, nil, nil);
USE(n38);
n38->ReplaceInput(0, n14);
n38->ReplaceInput(1, n44);
n38->ReplaceInput(2, n33);
n39->ReplaceInput(3, n38);
n39->ReplaceInput(4, n33);
n44->ReplaceInput(3, n39);
n44->ReplaceInput(4, n41);
n35->ReplaceInput(1, n44);
n35->ReplaceInput(2, n33);
n45->ReplaceInput(0, n35);
n45->ReplaceInput(1, n39);
op = common_builder.IfFalse();
Node* n42 = graph.NewNode(op, nil);
USE(n42);
n42->ReplaceInput(0, n40);
n45->ReplaceInput(2, n42);
n46->ReplaceInput(0, n45);
graph.SetStart(n0);
graph.SetEnd(n46);
ComputeAndVerifySchedule(46, &graph);
}
TEST(BuildScheduleBreakAndContinue) {
HandleAndZoneScope scope;
Isolate* isolate = scope.main_isolate();
Graph graph(scope.main_zone());
CommonOperatorBuilder common_builder(scope.main_zone());
JSOperatorBuilder js_builder(scope.main_zone());
const Operator* op;
Handle<Object> object =
Handle<Object>(isolate->heap()->undefined_value(), isolate);
Unique<Object> unique_constant = Unique<Object>::CreateUninitialized(object);
// Manually transcripted code for:
// function turbo_fan_test(a, b, c) {
// var d = 0;
// while (a < b) {
// a++;
// while (c < b) {
// c++;
// if (d == 0) break;
// a++;
// }
// if (a == 1) continue;
// d++;
// }
// return a + d;
// }
op = common_builder.Start(0);
Node* n0 = graph.NewNode(op);
USE(n0);
Node* nil = graph.NewNode(common_builder.Dead());
op = common_builder.End();
Node* n58 = graph.NewNode(op, nil);
USE(n58);
op = common_builder.Return();
Node* n57 = graph.NewNode(op, nil, nil, nil);
USE(n57);
op = js_builder.Add();
Node* n56 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n56);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n10 = graph.NewNode(op, nil, nil, nil);
USE(n10);
op = common_builder.Parameter(0);
Node* n2 = graph.NewNode(op, n0);
USE(n2);
n10->ReplaceInput(0, n2);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n25 = graph.NewNode(op, nil, nil, nil);
USE(n25);
op = js_builder.Add();
Node* n22 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n22);
op = js_builder.ToNumber();
Node* n20 = graph.NewNode(op, nil, nil, nil, nil);
USE(n20);
n20->ReplaceInput(0, n10);
op = common_builder.HeapConstant(unique_constant);
Node* n6 = graph.NewNode(op);
USE(n6);
n20->ReplaceInput(1, n6);
op = js_builder.LessThan();
Node* n16 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n16);
n16->ReplaceInput(0, n10);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n11 = graph.NewNode(op, nil, nil, nil);
USE(n11);
op = common_builder.Parameter(0);
Node* n3 = graph.NewNode(op, n0);
USE(n3);
n11->ReplaceInput(0, n3);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n26 = graph.NewNode(op, nil, nil, nil);
USE(n26);
n26->ReplaceInput(0, n11);
n26->ReplaceInput(1, n26);
op = common_builder.Loop(2);
Node* n23 = graph.NewNode(op, nil, nil);
USE(n23);
op = common_builder.IfTrue();
Node* n18 = graph.NewNode(op, nil);
USE(n18);
op = common_builder.Branch();
Node* n17 = graph.NewNode(op, nil, nil);
USE(n17);
n17->ReplaceInput(0, n16);
op = common_builder.Loop(2);
Node* n8 = graph.NewNode(op, nil, nil);
USE(n8);
n8->ReplaceInput(0, n0);
op = common_builder.Merge(2);
Node* n53 = graph.NewNode(op, nil, nil);
USE(n53);
op = common_builder.IfTrue();
Node* n49 = graph.NewNode(op, nil);
USE(n49);
op = common_builder.Branch();
Node* n48 = graph.NewNode(op, nil, nil);
USE(n48);
op = js_builder.Equal();
Node* n47 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n47);
n47->ReplaceInput(0, n25);
op = common_builder.NumberConstant(0);
Node* n46 = graph.NewNode(op);
USE(n46);
n47->ReplaceInput(1, n46);
n47->ReplaceInput(2, n6);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n42 = graph.NewNode(op, nil, nil, nil);
USE(n42);
op = js_builder.LessThan();
Node* n30 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n30);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n27 = graph.NewNode(op, nil, nil, nil);
USE(n27);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n12 = graph.NewNode(op, nil, nil, nil);
USE(n12);
op = common_builder.Parameter(0);
Node* n4 = graph.NewNode(op, n0);
USE(n4);
n12->ReplaceInput(0, n4);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n41 = graph.NewNode(op, nil, nil, nil);
USE(n41);
n41->ReplaceInput(0, n27);
op = js_builder.Add();
Node* n35 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n35);
op = js_builder.ToNumber();
Node* n34 = graph.NewNode(op, nil, nil, nil, nil);
USE(n34);
n34->ReplaceInput(0, n27);
n34->ReplaceInput(1, n6);
n34->ReplaceInput(2, n30);
op = common_builder.IfTrue();
Node* n32 = graph.NewNode(op, nil);
USE(n32);
op = common_builder.Branch();
Node* n31 = graph.NewNode(op, nil, nil);
USE(n31);
n31->ReplaceInput(0, n30);
n31->ReplaceInput(1, n23);
n32->ReplaceInput(0, n31);
n34->ReplaceInput(3, n32);
n35->ReplaceInput(0, n34);
op = common_builder.NumberConstant(0);
Node* n21 = graph.NewNode(op);
USE(n21);
n35->ReplaceInput(1, n21);
n35->ReplaceInput(2, n6);
n35->ReplaceInput(3, n34);
n35->ReplaceInput(4, n32);
n41->ReplaceInput(1, n35);
op = common_builder.Merge(2);
Node* n40 = graph.NewNode(op, nil, nil);
USE(n40);
op = common_builder.IfFalse();
Node* n33 = graph.NewNode(op, nil);
USE(n33);
n33->ReplaceInput(0, n31);
n40->ReplaceInput(0, n33);
op = common_builder.IfTrue();
Node* n39 = graph.NewNode(op, nil);
USE(n39);
op = common_builder.Branch();
Node* n38 = graph.NewNode(op, nil, nil);
USE(n38);
op = js_builder.Equal();
Node* n37 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n37);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n28 = graph.NewNode(op, nil, nil, nil);
USE(n28);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n13 = graph.NewNode(op, nil, nil, nil);
USE(n13);
op = common_builder.NumberConstant(0);
Node* n7 = graph.NewNode(op);
USE(n7);
n13->ReplaceInput(0, n7);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n54 = graph.NewNode(op, nil, nil, nil);
USE(n54);
n54->ReplaceInput(0, n28);
op = js_builder.Add();
Node* n52 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n52);
op = js_builder.ToNumber();
Node* n51 = graph.NewNode(op, nil, nil, nil, nil);
USE(n51);
n51->ReplaceInput(0, n28);
n51->ReplaceInput(1, n6);
n51->ReplaceInput(2, n47);
op = common_builder.IfFalse();
Node* n50 = graph.NewNode(op, nil);
USE(n50);
n50->ReplaceInput(0, n48);
n51->ReplaceInput(3, n50);
n52->ReplaceInput(0, n51);
n52->ReplaceInput(1, n21);
n52->ReplaceInput(2, n6);
n52->ReplaceInput(3, n51);
n52->ReplaceInput(4, n50);
n54->ReplaceInput(1, n52);
n54->ReplaceInput(2, n53);
n13->ReplaceInput(1, n54);
n13->ReplaceInput(2, n8);
n28->ReplaceInput(0, n13);
n28->ReplaceInput(1, n28);
n28->ReplaceInput(2, n23);
n37->ReplaceInput(0, n28);
op = common_builder.NumberConstant(0);
Node* n36 = graph.NewNode(op);
USE(n36);
n37->ReplaceInput(1, n36);
n37->ReplaceInput(2, n6);
n37->ReplaceInput(3, n35);
n37->ReplaceInput(4, n32);
n38->ReplaceInput(0, n37);
n38->ReplaceInput(1, n32);
n39->ReplaceInput(0, n38);
n40->ReplaceInput(1, n39);
n41->ReplaceInput(2, n40);
n12->ReplaceInput(1, n41);
n12->ReplaceInput(2, n8);
n27->ReplaceInput(0, n12);
n27->ReplaceInput(1, n35);
n27->ReplaceInput(2, n23);
n30->ReplaceInput(0, n27);
n30->ReplaceInput(1, n26);
n30->ReplaceInput(2, n6);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n29 = graph.NewNode(op, nil, nil, nil);
USE(n29);
n29->ReplaceInput(0, n22);
op = js_builder.Add();
Node* n45 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n45);
op = js_builder.ToNumber();
Node* n44 = graph.NewNode(op, nil, nil, nil, nil);
USE(n44);
n44->ReplaceInput(0, n25);
n44->ReplaceInput(1, n6);
n44->ReplaceInput(2, n37);
op = common_builder.IfFalse();
Node* n43 = graph.NewNode(op, nil);
USE(n43);
n43->ReplaceInput(0, n38);
n44->ReplaceInput(3, n43);
n45->ReplaceInput(0, n44);
n45->ReplaceInput(1, n21);
n45->ReplaceInput(2, n6);
n45->ReplaceInput(3, n44);
n45->ReplaceInput(4, n43);
n29->ReplaceInput(1, n45);
n29->ReplaceInput(2, n23);
n30->ReplaceInput(3, n29);
n30->ReplaceInput(4, n23);
n42->ReplaceInput(0, n30);
n42->ReplaceInput(1, n37);
n42->ReplaceInput(2, n40);
n47->ReplaceInput(3, n42);
n47->ReplaceInput(4, n40);
n48->ReplaceInput(0, n47);
n48->ReplaceInput(1, n40);
n49->ReplaceInput(0, n48);
n53->ReplaceInput(0, n49);
n53->ReplaceInput(1, n50);
n8->ReplaceInput(1, n53);
n17->ReplaceInput(1, n8);
n18->ReplaceInput(0, n17);
n23->ReplaceInput(0, n18);
n23->ReplaceInput(1, n43);
n26->ReplaceInput(2, n23);
n11->ReplaceInput(1, n26);
n11->ReplaceInput(2, n8);
n16->ReplaceInput(1, n11);
n16->ReplaceInput(2, n6);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n14 = graph.NewNode(op, nil, nil, nil);
USE(n14);
n14->ReplaceInput(0, n0);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n55 = graph.NewNode(op, nil, nil, nil);
USE(n55);
n55->ReplaceInput(0, n47);
n55->ReplaceInput(1, n52);
n55->ReplaceInput(2, n53);
n14->ReplaceInput(1, n55);
n14->ReplaceInput(2, n8);
n16->ReplaceInput(3, n14);
n16->ReplaceInput(4, n8);
n20->ReplaceInput(2, n16);
n20->ReplaceInput(3, n18);
n22->ReplaceInput(0, n20);
n22->ReplaceInput(1, n21);
n22->ReplaceInput(2, n6);
n22->ReplaceInput(3, n20);
n22->ReplaceInput(4, n18);
n25->ReplaceInput(0, n22);
n25->ReplaceInput(1, n45);
n25->ReplaceInput(2, n23);
n10->ReplaceInput(1, n25);
n10->ReplaceInput(2, n8);
n56->ReplaceInput(0, n10);
n56->ReplaceInput(1, n13);
n56->ReplaceInput(2, n6);
n56->ReplaceInput(3, n16);
op = common_builder.IfFalse();
Node* n19 = graph.NewNode(op, nil);
USE(n19);
n19->ReplaceInput(0, n17);
n56->ReplaceInput(4, n19);
n57->ReplaceInput(0, n56);
n57->ReplaceInput(1, n56);
n57->ReplaceInput(2, n19);
n58->ReplaceInput(0, n57);
graph.SetStart(n0);
graph.SetEnd(n58);
ComputeAndVerifySchedule(62, &graph);
}
TEST(BuildScheduleSimpleLoopWithCodeMotion) {
HandleAndZoneScope scope;
Isolate* isolate = scope.main_isolate();
Graph graph(scope.main_zone());
CommonOperatorBuilder common_builder(scope.main_zone());
JSOperatorBuilder js_builder(scope.main_zone());
MachineOperatorBuilder machine_builder;
const Operator* op;
Handle<Object> object =
Handle<Object>(isolate->heap()->undefined_value(), isolate);
Unique<Object> unique_constant = Unique<Object>::CreateUninitialized(object);
// Manually transcripted code for:
// function turbo_fan_test(a, b, c) {
// while (a < b) {
// a += b + c;
// }
// return a;
// }
op = common_builder.Start(0);
Node* n0 = graph.NewNode(op);
USE(n0);
Node* nil = graph.NewNode(common_builder.Dead());
op = common_builder.End();
Node* n22 = graph.NewNode(op, nil);
USE(n22);
op = common_builder.Return();
Node* n21 = graph.NewNode(op, nil, nil, nil);
USE(n21);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n9 = graph.NewNode(op, nil, nil, nil);
USE(n9);
op = common_builder.Parameter(0);
Node* n2 = graph.NewNode(op, n0);
USE(n2);
n9->ReplaceInput(0, n2);
op = js_builder.Add();
Node* n20 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n20);
n20->ReplaceInput(0, n9);
op = machine_builder.Int32Add();
Node* n19 = graph.NewNode(op, nil, nil);
USE(n19);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n10 = graph.NewNode(op, nil, nil, nil);
USE(n10);
op = common_builder.Parameter(0);
Node* n3 = graph.NewNode(op, n0);
USE(n3);
n10->ReplaceInput(0, n3);
n10->ReplaceInput(1, n10);
op = common_builder.Loop(2);
Node* n7 = graph.NewNode(op, nil, nil);
USE(n7);
n7->ReplaceInput(0, n0);
op = common_builder.IfTrue();
Node* n17 = graph.NewNode(op, nil);
USE(n17);
op = common_builder.Branch();
Node* n16 = graph.NewNode(op, nil, nil);
USE(n16);
op = js_builder.ToBoolean();
Node* n15 = graph.NewNode(op, nil, nil, nil, nil);
USE(n15);
op = js_builder.LessThan();
Node* n14 = graph.NewNode(op, nil, nil, nil, nil, nil);
USE(n14);
n14->ReplaceInput(0, n9);
n14->ReplaceInput(1, n10);
op = common_builder.HeapConstant(unique_constant);
Node* n6 = graph.NewNode(op);
USE(n6);
n14->ReplaceInput(2, n6);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n12 = graph.NewNode(op, nil, nil, nil);
USE(n12);
n12->ReplaceInput(0, n0);
n12->ReplaceInput(1, n20);
n12->ReplaceInput(2, n7);
n14->ReplaceInput(3, n12);
n14->ReplaceInput(4, n7);
n15->ReplaceInput(0, n14);
n15->ReplaceInput(1, n6);
n15->ReplaceInput(2, n14);
n15->ReplaceInput(3, n7);
n16->ReplaceInput(0, n15);
n16->ReplaceInput(1, n7);
n17->ReplaceInput(0, n16);
n7->ReplaceInput(1, n17);
n10->ReplaceInput(2, n7);
n19->ReplaceInput(0, n2);
op = common_builder.Phi(kMachAnyTagged, 2);
Node* n11 = graph.NewNode(op, nil, nil, nil);
USE(n11);
op = common_builder.Parameter(0);
Node* n4 = graph.NewNode(op, n0);
USE(n4);
n11->ReplaceInput(0, n4);
n11->ReplaceInput(1, n11);
n11->ReplaceInput(2, n7);
n19->ReplaceInput(1, n3);
n20->ReplaceInput(1, n19);
n20->ReplaceInput(2, n6);
n20->ReplaceInput(3, n19);
n20->ReplaceInput(4, n17);
n9->ReplaceInput(1, n20);
n9->ReplaceInput(2, n7);
n21->ReplaceInput(0, n9);
n21->ReplaceInput(1, n15);
op = common_builder.IfFalse();
Node* n18 = graph.NewNode(op, nil);
USE(n18);
n18->ReplaceInput(0, n16);
n21->ReplaceInput(2, n18);
n22->ReplaceInput(0, n21);
graph.SetStart(n0);
graph.SetEnd(n22);
Schedule* schedule = ComputeAndVerifySchedule(19, &graph);
// Make sure the integer-only add gets hoisted to a different block that the
// JSAdd.
CHECK(schedule->block(n19) != schedule->block(n20));
}
#if V8_TURBOFAN_TARGET
static Node* CreateDiamond(Graph* graph, CommonOperatorBuilder* common,
Node* cond) {
Node* tv = graph->NewNode(common->Int32Constant(6));
Node* fv = graph->NewNode(common->Int32Constant(7));
Node* br = graph->NewNode(common->Branch(), cond, graph->start());
Node* t = graph->NewNode(common->IfTrue(), br);
Node* f = graph->NewNode(common->IfFalse(), br);
Node* m = graph->NewNode(common->Merge(2), t, f);
Node* phi = graph->NewNode(common->Phi(kMachAnyTagged, 2), tv, fv, m);
return phi;
}
TEST(FloatingDiamond1) {
HandleAndZoneScope scope;
Graph graph(scope.main_zone());
CommonOperatorBuilder common(scope.main_zone());
Node* start = graph.NewNode(common.Start(1));
graph.SetStart(start);
Node* p0 = graph.NewNode(common.Parameter(0), start);
Node* d1 = CreateDiamond(&graph, &common, p0);
Node* ret = graph.NewNode(common.Return(), d1, start, start);
Node* end = graph.NewNode(common.End(), ret, start);
graph.SetEnd(end);
ComputeAndVerifySchedule(13, &graph);
}
TEST(FloatingDiamond2) {
HandleAndZoneScope scope;
Graph graph(scope.main_zone());
CommonOperatorBuilder common(scope.main_zone());
MachineOperatorBuilder machine;
Node* start = graph.NewNode(common.Start(2));
graph.SetStart(start);
Node* p0 = graph.NewNode(common.Parameter(0), start);
Node* p1 = graph.NewNode(common.Parameter(1), start);
Node* d1 = CreateDiamond(&graph, &common, p0);
Node* d2 = CreateDiamond(&graph, &common, p1);
Node* add = graph.NewNode(machine.Int32Add(), d1, d2);
Node* ret = graph.NewNode(common.Return(), add, start, start);
Node* end = graph.NewNode(common.End(), ret, start);
graph.SetEnd(end);
ComputeAndVerifySchedule(24, &graph);
}
TEST(FloatingDiamond3) {
HandleAndZoneScope scope;
Graph graph(scope.main_zone());
CommonOperatorBuilder common(scope.main_zone());
MachineOperatorBuilder machine;
Node* start = graph.NewNode(common.Start(2));
graph.SetStart(start);
Node* p0 = graph.NewNode(common.Parameter(0), start);
Node* p1 = graph.NewNode(common.Parameter(1), start);
Node* d1 = CreateDiamond(&graph, &common, p0);
Node* d2 = CreateDiamond(&graph, &common, p1);
Node* add = graph.NewNode(machine.Int32Add(), d1, d2);
Node* d3 = CreateDiamond(&graph, &common, add);
Node* ret = graph.NewNode(common.Return(), d3, start, start);
Node* end = graph.NewNode(common.End(), ret, start);
graph.SetEnd(end);
ComputeAndVerifySchedule(33, &graph);
}
#endif