// Copyright 2015 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/codegen.h" #include "src/compiler/common-operator.h" #include "src/compiler/diamond.h" #include "src/compiler/graph.h" #include "src/compiler/js-graph.h" #include "src/compiler/js-operator.h" #include "src/compiler/operator.h" #include "src/compiler/osr.h" #include "test/cctest/cctest.h" using namespace v8::internal; using namespace v8::internal::compiler; // TODO(titzer): move this method to a common testing place. static int CheckInputs(Node* node, Node* i0 = NULL, Node* i1 = NULL, Node* i2 = NULL, Node* i3 = NULL) { int count = 4; if (i3 == NULL) count = 3; if (i2 == NULL) count = 2; if (i1 == NULL) count = 1; if (i0 == NULL) count = 0; CHECK_EQ(count, node->InputCount()); if (i0 != NULL) CHECK_EQ(i0, node->InputAt(0)); if (i1 != NULL) CHECK_EQ(i1, node->InputAt(1)); if (i2 != NULL) CHECK_EQ(i2, node->InputAt(2)); if (i3 != NULL) CHECK_EQ(i3, node->InputAt(3)); return count; } static Operator kIntLt(IrOpcode::kInt32LessThan, Operator::kPure, "Int32LessThan", 2, 0, 0, 1, 0, 0); static const int kMaxOsrValues = 10; class OsrDeconstructorTester : public HandleAndZoneScope { public: explicit OsrDeconstructorTester(int num_values) : isolate(main_isolate()), common(main_zone()), graph(main_zone()), jsgraph(main_isolate(), &graph, &common, NULL, NULL), start(graph.NewNode(common.Start(1))), p0(graph.NewNode(common.Parameter(0), start)), end(graph.NewNode(common.End(), start)), osr_normal_entry(graph.NewNode(common.OsrNormalEntry(), start)), osr_loop_entry(graph.NewNode(common.OsrLoopEntry(), start)), self(graph.NewNode(common.Int32Constant(0xaabbccdd))) { CHECK(num_values <= kMaxOsrValues); graph.SetStart(start); for (int i = 0; i < num_values; i++) { osr_values[i] = graph.NewNode(common.OsrValue(i), osr_loop_entry); } } Isolate* isolate; CommonOperatorBuilder common; Graph graph; JSGraph jsgraph; Node* start; Node* p0; Node* end; Node* osr_normal_entry; Node* osr_loop_entry; Node* self; Node* osr_values[kMaxOsrValues]; Node* NewOsrPhi(Node* loop, Node* incoming, int osr_value, Node* back1 = NULL, Node* back2 = NULL, Node* back3 = NULL) { int count = 5; if (back3 == NULL) count = 4; if (back2 == NULL) count = 3; if (back1 == NULL) count = 2; CHECK_EQ(loop->InputCount(), count); CHECK_EQ(osr_loop_entry, loop->InputAt(1)); Node* inputs[6]; inputs[0] = incoming; inputs[1] = osr_values[osr_value]; if (count > 2) inputs[2] = back1; if (count > 3) inputs[3] = back2; if (count > 4) inputs[4] = back3; inputs[count] = loop; return graph.NewNode(common.Phi(kMachAnyTagged, count), count + 1, inputs); } Node* NewOsrLoop(int num_backedges, Node* entry = NULL) { CHECK_LT(num_backedges, 4); CHECK_GE(num_backedges, 0); int count = 2 + num_backedges; if (entry == NULL) entry = osr_normal_entry; Node* inputs[5] = {entry, osr_loop_entry, self, self, self}; Node* loop = graph.NewNode(common.Loop(count), count, inputs); for (int i = 0; i < num_backedges; i++) { loop->ReplaceInput(2 + i, loop); } return loop; } }; TEST(Deconstruct_osr0) { OsrDeconstructorTester T(0); Node* loop = T.NewOsrLoop(1); T.graph.SetEnd(loop); OsrHelper helper(0, 0); helper.Deconstruct(&T.jsgraph, &T.common, T.main_zone()); CheckInputs(loop, T.start, loop); } TEST(Deconstruct_osr1) { OsrDeconstructorTester T(1); Node* loop = T.NewOsrLoop(1); Node* osr_phi = T.NewOsrPhi(loop, T.jsgraph.OneConstant(), 0, T.jsgraph.ZeroConstant()); Node* ret = T.graph.NewNode(T.common.Return(), osr_phi, T.start, loop); T.graph.SetEnd(ret); OsrHelper helper(0, 0); helper.Deconstruct(&T.jsgraph, &T.common, T.main_zone()); CheckInputs(loop, T.start, loop); CheckInputs(osr_phi, T.osr_values[0], T.jsgraph.ZeroConstant(), loop); CheckInputs(ret, osr_phi, T.start, loop); } TEST(Deconstruct_osr_remove_prologue) { OsrDeconstructorTester T(1); Diamond d(&T.graph, &T.common, T.p0); d.Chain(T.osr_normal_entry); Node* loop = T.NewOsrLoop(1, d.merge); Node* osr_phi = T.NewOsrPhi(loop, T.jsgraph.OneConstant(), 0, T.jsgraph.ZeroConstant()); Node* ret = T.graph.NewNode(T.common.Return(), osr_phi, T.start, loop); T.graph.SetEnd(ret); OsrHelper helper(0, 0); helper.Deconstruct(&T.jsgraph, &T.common, T.main_zone()); CheckInputs(loop, T.start, loop); CheckInputs(osr_phi, T.osr_values[0], T.jsgraph.ZeroConstant(), loop); CheckInputs(ret, osr_phi, T.start, loop); // The control before the loop should have been removed. CHECK(d.branch->IsDead()); CHECK(d.if_true->IsDead()); CHECK(d.if_false->IsDead()); CHECK(d.merge->IsDead()); } TEST(Deconstruct_osr_with_body1) { OsrDeconstructorTester T(1); Node* loop = T.NewOsrLoop(1); Node* branch = T.graph.NewNode(T.common.Branch(), T.p0, loop); Node* if_true = T.graph.NewNode(T.common.IfTrue(), branch); Node* if_false = T.graph.NewNode(T.common.IfFalse(), branch); loop->ReplaceInput(2, if_true); Node* osr_phi = T.NewOsrPhi(loop, T.jsgraph.OneConstant(), 0, T.jsgraph.ZeroConstant()); Node* ret = T.graph.NewNode(T.common.Return(), osr_phi, T.start, if_false); T.graph.SetEnd(ret); OsrHelper helper(0, 0); helper.Deconstruct(&T.jsgraph, &T.common, T.main_zone()); CheckInputs(loop, T.start, if_true); CheckInputs(branch, T.p0, loop); CheckInputs(if_true, branch); CheckInputs(if_false, branch); CheckInputs(osr_phi, T.osr_values[0], T.jsgraph.ZeroConstant(), loop); CheckInputs(ret, osr_phi, T.start, if_false); } TEST(Deconstruct_osr_with_body2) { OsrDeconstructorTester T(1); Node* loop = T.NewOsrLoop(1); // Two chained branches in the the body of the loop. Node* branch1 = T.graph.NewNode(T.common.Branch(), T.p0, loop); Node* if_true1 = T.graph.NewNode(T.common.IfTrue(), branch1); Node* if_false1 = T.graph.NewNode(T.common.IfFalse(), branch1); Node* branch2 = T.graph.NewNode(T.common.Branch(), T.p0, if_true1); Node* if_true2 = T.graph.NewNode(T.common.IfTrue(), branch2); Node* if_false2 = T.graph.NewNode(T.common.IfFalse(), branch2); loop->ReplaceInput(2, if_true2); Node* osr_phi = T.NewOsrPhi(loop, T.jsgraph.OneConstant(), 0, T.jsgraph.ZeroConstant()); Node* merge = T.graph.NewNode(T.common.Merge(2), if_false1, if_false2); Node* ret = T.graph.NewNode(T.common.Return(), osr_phi, T.start, merge); T.graph.SetEnd(ret); OsrHelper helper(0, 0); helper.Deconstruct(&T.jsgraph, &T.common, T.main_zone()); CheckInputs(loop, T.start, if_true2); CheckInputs(branch1, T.p0, loop); CheckInputs(branch2, T.p0, if_true1); CheckInputs(if_true1, branch1); CheckInputs(if_false1, branch1); CheckInputs(if_true2, branch2); CheckInputs(if_false2, branch2); CheckInputs(osr_phi, T.osr_values[0], T.jsgraph.ZeroConstant(), loop); CheckInputs(ret, osr_phi, T.start, merge); CheckInputs(merge, if_false1, if_false2); } TEST(Deconstruct_osr_with_body3) { OsrDeconstructorTester T(1); Node* loop = T.NewOsrLoop(2); // Two branches that create two different backedges. Node* branch1 = T.graph.NewNode(T.common.Branch(), T.p0, loop); Node* if_true1 = T.graph.NewNode(T.common.IfTrue(), branch1); Node* if_false1 = T.graph.NewNode(T.common.IfFalse(), branch1); Node* branch2 = T.graph.NewNode(T.common.Branch(), T.p0, if_true1); Node* if_true2 = T.graph.NewNode(T.common.IfTrue(), branch2); Node* if_false2 = T.graph.NewNode(T.common.IfFalse(), branch2); loop->ReplaceInput(2, if_false1); loop->ReplaceInput(3, if_true2); Node* osr_phi = T.NewOsrPhi(loop, T.jsgraph.OneConstant(), 0, T.jsgraph.ZeroConstant(), T.jsgraph.ZeroConstant()); Node* ret = T.graph.NewNode(T.common.Return(), osr_phi, T.start, if_false2); T.graph.SetEnd(ret); OsrHelper helper(0, 0); helper.Deconstruct(&T.jsgraph, &T.common, T.main_zone()); CheckInputs(loop, T.start, if_false1, if_true2); CheckInputs(branch1, T.p0, loop); CheckInputs(branch2, T.p0, if_true1); CheckInputs(if_true1, branch1); CheckInputs(if_false1, branch1); CheckInputs(if_true2, branch2); CheckInputs(if_false2, branch2); CheckInputs(osr_phi, T.osr_values[0], T.jsgraph.ZeroConstant(), T.jsgraph.ZeroConstant(), loop); CheckInputs(ret, osr_phi, T.start, if_false2); }