// 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/compiler/js-context-specialization.h" #include "src/compiler/js-operator.h" #include "src/compiler/node-matchers.h" #include "src/compiler/node-properties-inl.h" #include "src/compiler/simplified-node-factory.h" #include "src/compiler/source-position.h" #include "src/compiler/typer.h" #include "test/cctest/cctest.h" #include "test/cctest/compiler/function-tester.h" #include "test/cctest/compiler/graph-builder-tester.h" using namespace v8::internal; using namespace v8::internal::compiler; class ContextSpecializationTester : public HandleAndZoneScope, public DirectGraphBuilder, public SimplifiedNodeFactory { public: ContextSpecializationTester() : DirectGraphBuilder(new (main_zone()) Graph(main_zone())), common_(main_zone()), javascript_(main_zone()), simplified_(main_zone()), typer_(main_zone()), jsgraph_(graph(), common(), &typer_), info_(main_isolate(), main_zone()) {} Factory* factory() { return main_isolate()->factory(); } CommonOperatorBuilder* common() { return &common_; } JSOperatorBuilder* javascript() { return &javascript_; } SimplifiedOperatorBuilder* simplified() { return &simplified_; } JSGraph* jsgraph() { return &jsgraph_; } CompilationInfo* info() { return &info_; } private: CommonOperatorBuilder common_; JSOperatorBuilder javascript_; SimplifiedOperatorBuilder simplified_; Typer typer_; JSGraph jsgraph_; CompilationInfo info_; }; TEST(ReduceJSLoadContext) { ContextSpecializationTester t; Node* start = t.NewNode(t.common()->Start()); t.graph()->SetStart(start); // Make a context and initialize it a bit for this test. Handle native = t.factory()->NewNativeContext(); Handle ctx1 = t.factory()->NewNativeContext(); Handle ctx2 = t.factory()->NewNativeContext(); ctx2->set_previous(*ctx1); ctx1->set_previous(*native); Handle expected = t.factory()->InternalizeUtf8String("gboy!"); const int slot = Context::GLOBAL_OBJECT_INDEX; native->set(slot, *expected); Node* const_context = t.jsgraph()->Constant(native); Node* param_context = t.NewNode(t.common()->Parameter(0)); JSContextSpecializer spec(t.info(), t.jsgraph(), const_context); { // Mutable slot, constant context, depth = 0 => do nothing. t.info()->SetContext(native); Node* load = t.NewNode(t.javascript()->LoadContext(0, 0, false), const_context, start, start); Reduction r = spec.ReduceJSLoadContext(load); CHECK(!r.Changed()); } { // Mutable slot, non-constant context, depth = 0 => do nothing. t.info()->SetContext(native); Node* load = t.NewNode(t.javascript()->LoadContext(0, 0, false), param_context, start, start); Reduction r = spec.ReduceJSLoadContext(load); CHECK(!r.Changed()); } { // Mutable slot, non-constant context, depth > 0 => fold-in parent context. t.info()->SetContext(ctx2); Node* load = t.NewNode( t.javascript()->LoadContext(2, Context::GLOBAL_EVAL_FUN_INDEX, false), param_context, start, start); Reduction r = spec.ReduceJSLoadContext(load); CHECK(r.Changed()); CHECK_EQ(IrOpcode::kHeapConstant, r.replacement()->InputAt(0)->opcode()); ValueMatcher > match(r.replacement()->InputAt(0)); CHECK_EQ(*native, *match.Value()); ContextAccess access = static_cast*>( r.replacement()->op())->parameter(); CHECK_EQ(Context::GLOBAL_EVAL_FUN_INDEX, access.index()); CHECK_EQ(0, access.depth()); CHECK_EQ(false, access.immutable()); } { // Immutable slot, constant context => specialize. t.info()->SetContext(native); Node* load = t.NewNode(t.javascript()->LoadContext(0, slot, true), const_context, start, start); Reduction r = spec.ReduceJSLoadContext(load); CHECK(r.Changed()); CHECK(r.replacement() != load); ValueMatcher > match(r.replacement()); CHECK(match.HasValue()); CHECK_EQ(*expected, *match.Value()); } { // Immutable slot, non-constant context => specialize. t.info()->SetContext(native); Node* load = t.NewNode(t.javascript()->LoadContext(0, slot, true), param_context, start, start); Reduction r = spec.ReduceJSLoadContext(load); CHECK(r.Changed()); CHECK(r.replacement() != load); ValueMatcher > match(r.replacement()); CHECK(match.HasValue()); CHECK_EQ(*expected, *match.Value()); } // TODO(titzer): test with other kinds of contexts, e.g. a function context. // TODO(sigurds): test that loads below create context are not optimized } // TODO(titzer): factor out common code with effects checking in typed lowering. static void CheckEffectInput(Node* effect, Node* use) { CHECK_EQ(effect, NodeProperties::GetEffectInput(use)); } TEST(SpecializeToContext) { ContextSpecializationTester t; Node* start = t.NewNode(t.common()->Start()); t.graph()->SetStart(start); // Make a context and initialize it a bit for this test. Handle native = t.factory()->NewNativeContext(); Handle expected = t.factory()->InternalizeUtf8String("gboy!"); const int slot = Context::GLOBAL_OBJECT_INDEX; native->set(slot, *expected); t.info()->SetContext(native); Node* const_context = t.jsgraph()->Constant(native); Node* param_context = t.NewNode(t.common()->Parameter(0)); JSContextSpecializer spec(t.info(), t.jsgraph(), const_context); { // Check that SpecializeToContext() replaces values and forwards effects // correctly, and folds values from constant and non-constant contexts Node* effect_in = t.NewNode(t.common()->Start()); Node* load = t.NewNode(t.javascript()->LoadContext(0, slot, true), const_context, const_context, effect_in, start); Node* value_use = t.ChangeTaggedToInt32(load); Node* other_load = t.NewNode(t.javascript()->LoadContext(0, slot, true), param_context, param_context, load, start); Node* effect_use = other_load; Node* other_use = t.ChangeTaggedToInt32(other_load); // Double check the above graph is what we expect, or the test is broken. CheckEffectInput(effect_in, load); CheckEffectInput(load, effect_use); // Perform the substitution on the entire graph. spec.SpecializeToContext(); // Effects should have been forwarded (not replaced with a value). CheckEffectInput(effect_in, effect_use); // Use of {other_load} should not have been replaced. CHECK_EQ(other_load, other_use->InputAt(0)); Node* replacement = value_use->InputAt(0); ValueMatcher > match(replacement); CHECK(match.HasValue()); CHECK_EQ(*expected, *match.Value()); } // TODO(titzer): clean up above test and test more complicated effects. } TEST(SpecializeJSFunction_ToConstant1) { FunctionTester T( "(function() { var x = 1; function inc(a)" " { return a + x; } return inc; })()"); T.CheckCall(1.0, 0.0, 0.0); T.CheckCall(2.0, 1.0, 0.0); T.CheckCall(2.1, 1.1, 0.0); } TEST(SpecializeJSFunction_ToConstant2) { FunctionTester T( "(function() { var x = 1.5; var y = 2.25; var z = 3.75;" " function f(a) { return a - x + y - z; } return f; })()"); T.CheckCall(-3.0, 0.0, 0.0); T.CheckCall(-2.0, 1.0, 0.0); T.CheckCall(-1.9, 1.1, 0.0); } TEST(SpecializeJSFunction_ToConstant3) { FunctionTester T( "(function() { var x = -11.5; function inc()" " { return (function(a) { return a + x; }); }" " return inc(); })()"); T.CheckCall(-11.5, 0.0, 0.0); T.CheckCall(-10.5, 1.0, 0.0); T.CheckCall(-10.4, 1.1, 0.0); } TEST(SpecializeJSFunction_ToConstant_uninit) { { FunctionTester T( "(function() { if (false) { var x = 1; } function inc(a)" " { return x; } return inc; })()"); // x is undefined! CHECK(T.Call(T.Val(0.0), T.Val(0.0)).ToHandleChecked()->IsUndefined()); CHECK(T.Call(T.Val(2.0), T.Val(0.0)).ToHandleChecked()->IsUndefined()); CHECK(T.Call(T.Val(-2.1), T.Val(0.0)).ToHandleChecked()->IsUndefined()); } { FunctionTester T( "(function() { if (false) { var x = 1; } function inc(a)" " { return a + x; } return inc; })()"); // x is undefined! CHECK(T.Call(T.Val(0.0), T.Val(0.0)).ToHandleChecked()->IsNaN()); CHECK(T.Call(T.Val(2.0), T.Val(0.0)).ToHandleChecked()->IsNaN()); CHECK(T.Call(T.Val(-2.1), T.Val(0.0)).ToHandleChecked()->IsNaN()); } }