test/cctest/compiler/test-js-context-specialization.cc - fp2-dev/platform/external/v8 - Gitiles

 // 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-graph.h"
 #include "src/compiler/js-operator.h"
 #include "src/compiler/node-matchers.h"
 #include "src/compiler/node-properties.h"
 #include "src/compiler/source-position.h"
 #include "test/cctest/cctest.h"
 #include "test/cctest/compiler/function-tester.h"
 #include "test/cctest/compiler/graph-builder-tester.h"

 namespace v8 {
 namespace internal {
 namespace compiler {

 class ContextSpecializationTester : public HandleAndZoneScope {
  public:
   ContextSpecializationTester()
       : graph_(new (main_zone()) Graph(main_zone())),
         common_(main_zone()),
         javascript_(main_zone()),
         machine_(main_zone()),
         simplified_(main_zone()),
         jsgraph_(main_isolate(), graph(), common(), &javascript_, &simplified_,
                  &machine_),
         reducer_(main_zone(), graph()),
         spec_(&reducer_, jsgraph(), MaybeHandle<Context>()) {}

   JSContextSpecialization* spec() { return &spec_; }
   Factory* factory() { return main_isolate()->factory(); }
   CommonOperatorBuilder* common() { return &common_; }
   JSOperatorBuilder* javascript() { return &javascript_; }
   SimplifiedOperatorBuilder* simplified() { return &simplified_; }
   JSGraph* jsgraph() { return &jsgraph_; }
   Graph* graph() { return graph_; }

  private:
   Graph* graph_;
   CommonOperatorBuilder common_;
   JSOperatorBuilder javascript_;
   MachineOperatorBuilder machine_;
   SimplifiedOperatorBuilder simplified_;
   JSGraph jsgraph_;
   GraphReducer reducer_;
   JSContextSpecialization spec_;
 };


 TEST(ReduceJSLoadContext) {
   ContextSpecializationTester t;

   Node* start = t.graph()->NewNode(t.common()->Start(0));
   t.graph()->SetStart(start);

   // Make a context and initialize it a bit for this test.
   Handle<Context> native = t.factory()->NewNativeContext();
   Handle<Context> subcontext1 = t.factory()->NewNativeContext();
   Handle<Context> subcontext2 = t.factory()->NewNativeContext();
   subcontext2->set_previous(*subcontext1);
   subcontext1->set_previous(*native);
   Handle<Object> expected = t.factory()->InternalizeUtf8String("gboy!");
   const int slot = Context::NATIVE_CONTEXT_INDEX;
   native->set(slot, *expected);

   Node* const_context = t.jsgraph()->Constant(native);
   Node* deep_const_context = t.jsgraph()->Constant(subcontext2);
   Node* param_context = t.graph()->NewNode(t.common()->Parameter(0), start);

   {
     // Mutable slot, constant context, depth = 0 => do nothing.
     Node* load = t.graph()->NewNode(t.javascript()->LoadContext(0, 0, false),
                                     const_context, const_context, start);
     Reduction r = t.spec()->Reduce(load);
     CHECK(!r.Changed());
   }

   {
     // Mutable slot, non-constant context, depth = 0 => do nothing.
     Node* load = t.graph()->NewNode(t.javascript()->LoadContext(0, 0, false),
                                     param_context, param_context, start);
     Reduction r = t.spec()->Reduce(load);
     CHECK(!r.Changed());
   }

   {
     // Mutable slot, constant context, depth > 0 => fold-in parent context.
     Node* load = t.graph()->NewNode(
         t.javascript()->LoadContext(2, Context::GLOBAL_EVAL_FUN_INDEX, false),
         deep_const_context, deep_const_context, start);
     Reduction r = t.spec()->Reduce(load);
     CHECK(r.Changed());
     Node* new_context_input = NodeProperties::GetValueInput(r.replacement(), 0);
     CHECK_EQ(IrOpcode::kHeapConstant, new_context_input->opcode());
     HeapObjectMatcher match(new_context_input);
     CHECK_EQ(*native, *match.Value());
     ContextAccess access = OpParameter<ContextAccess>(r.replacement());
     CHECK_EQ(Context::GLOBAL_EVAL_FUN_INDEX, static_cast<int>(access.index()));
     CHECK_EQ(0, static_cast<int>(access.depth()));
     CHECK_EQ(false, access.immutable());
   }

   {
     // Immutable slot, constant context, depth = 0 => specialize.
     Node* load = t.graph()->NewNode(t.javascript()->LoadContext(0, slot, true),
                                     const_context, const_context, start);
     Reduction r = t.spec()->Reduce(load);
     CHECK(r.Changed());
     CHECK(r.replacement() != load);

     HeapObjectMatcher 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
 }


 TEST(ReduceJSStoreContext) {
   ContextSpecializationTester t;

   Node* start = t.graph()->NewNode(t.common()->Start(0));
   t.graph()->SetStart(start);

   // Make a context and initialize it a bit for this test.
   Handle<Context> native = t.factory()->NewNativeContext();
   Handle<Context> subcontext1 = t.factory()->NewNativeContext();
   Handle<Context> subcontext2 = t.factory()->NewNativeContext();
   subcontext2->set_previous(*subcontext1);
   subcontext1->set_previous(*native);
   Handle<Object> expected = t.factory()->InternalizeUtf8String("gboy!");
   const int slot = Context::NATIVE_CONTEXT_INDEX;
   native->set(slot, *expected);

   Node* const_context = t.jsgraph()->Constant(native);
   Node* deep_const_context = t.jsgraph()->Constant(subcontext2);
   Node* param_context = t.graph()->NewNode(t.common()->Parameter(0), start);

   {
     // Mutable slot, constant context, depth = 0 => do nothing.
     Node* load =
         t.graph()->NewNode(t.javascript()->StoreContext(0, 0), const_context,
                            const_context, const_context, start, start);
     Reduction r = t.spec()->Reduce(load);
     CHECK(!r.Changed());
   }

   {
     // Mutable slot, non-constant context, depth = 0 => do nothing.
     Node* load =
         t.graph()->NewNode(t.javascript()->StoreContext(0, 0), param_context,
                            param_context, const_context, start, start);
     Reduction r = t.spec()->Reduce(load);
     CHECK(!r.Changed());
   }

   {
     // Immutable slot, constant context, depth = 0 => do nothing.
     Node* load =
         t.graph()->NewNode(t.javascript()->StoreContext(0, slot), const_context,
                            const_context, const_context, start, start);
     Reduction r = t.spec()->Reduce(load);
     CHECK(!r.Changed());
   }

   {
     // Mutable slot, constant context, depth > 0 => fold-in parent context.
     Node* load = t.graph()->NewNode(
         t.javascript()->StoreContext(2, Context::GLOBAL_EVAL_FUN_INDEX),
         deep_const_context, deep_const_context, const_context, start, start);
     Reduction r = t.spec()->Reduce(load);
     CHECK(r.Changed());
     Node* new_context_input = NodeProperties::GetValueInput(r.replacement(), 0);
     CHECK_EQ(IrOpcode::kHeapConstant, new_context_input->opcode());
     HeapObjectMatcher match(new_context_input);
     CHECK_EQ(*native, *match.Value());
     ContextAccess access = OpParameter<ContextAccess>(r.replacement());
     CHECK_EQ(Context::GLOBAL_EVAL_FUN_INDEX, static_cast<int>(access.index()));
     CHECK_EQ(0, static_cast<int>(access.depth()));
     CHECK_EQ(false, access.immutable());
   }
 }


 // 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.graph()->NewNode(t.common()->Start(0));
   t.graph()->SetStart(start);

   // Make a context and initialize it a bit for this test.
   Handle<Context> native = t.factory()->NewNativeContext();
   Handle<Object> expected = t.factory()->InternalizeUtf8String("gboy!");
   const int slot = Context::NATIVE_CONTEXT_INDEX;
   native->set(slot, *expected);

   Node* const_context = t.jsgraph()->Constant(native);
   Node* param_context = t.graph()->NewNode(t.common()->Parameter(0), start);

   {
     // Check that specialization replaces values and forwards effects
     // correctly, and folds values from constant and non-constant contexts
     Node* effect_in = start;
     Node* load = t.graph()->NewNode(t.javascript()->LoadContext(0, slot, true),
                                     const_context, const_context, effect_in);


     Node* value_use =
         t.graph()->NewNode(t.simplified()->ChangeTaggedToInt32(), load);
     Node* other_load =
         t.graph()->NewNode(t.javascript()->LoadContext(0, slot, true),
                            param_context, param_context, load);
     Node* effect_use = other_load;
     Node* other_use =
         t.graph()->NewNode(t.simplified()->ChangeTaggedToInt32(), other_load);

     Node* add = t.graph()->NewNode(
         t.javascript()->Add(BinaryOperationHints::Any()), value_use, other_use,
         param_context, t.jsgraph()->EmptyFrameState(),
         t.jsgraph()->EmptyFrameState(), other_load, start);

     Node* ret =
         t.graph()->NewNode(t.common()->Return(), add, effect_use, start);
     Node* end = t.graph()->NewNode(t.common()->End(1), ret);
     USE(end);
     t.graph()->SetEnd(end);

     // Double check the above graph is what we expect, or the test is broken.
     CheckEffectInput(effect_in, load);
     CheckEffectInput(load, effect_use);

     // Perform the reduction on the entire graph.
     GraphReducer graph_reducer(t.main_zone(), t.graph());
     JSContextSpecialization spec(&graph_reducer, t.jsgraph(),
                                  MaybeHandle<Context>());
     graph_reducer.AddReducer(&spec);
     graph_reducer.ReduceGraph();

     // 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);
     HeapObjectMatcher 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());
   }
 }

 }  // namespace compiler
 }  // namespace internal
 }  // namespace v8
	// 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-graph.h"
	#include "src/compiler/js-operator.h"
	#include "src/compiler/node-matchers.h"
	#include "src/compiler/node-properties.h"
	#include "src/compiler/source-position.h"
	#include "test/cctest/cctest.h"
	#include "test/cctest/compiler/function-tester.h"
	#include "test/cctest/compiler/graph-builder-tester.h"

	namespace v8 {
	namespace internal {
	namespace compiler {

	class ContextSpecializationTester : public HandleAndZoneScope {
	public:
	ContextSpecializationTester()
	: graph_(new (main_zone()) Graph(main_zone())),
	common_(main_zone()),
	javascript_(main_zone()),
	machine_(main_zone()),
	simplified_(main_zone()),
	jsgraph_(main_isolate(), graph(), common(), &javascript_, &simplified_,
	&machine_),
	reducer_(main_zone(), graph()),
	spec_(&reducer_, jsgraph(), MaybeHandle<Context>()) {}

	JSContextSpecialization* spec() { return &spec_; }
	Factory* factory() { return main_isolate()->factory(); }
	CommonOperatorBuilder* common() { return &common_; }
	JSOperatorBuilder* javascript() { return &javascript_; }
	SimplifiedOperatorBuilder* simplified() { return &simplified_; }
	JSGraph* jsgraph() { return &jsgraph_; }
	Graph* graph() { return graph_; }

	private:
	Graph* graph_;
	CommonOperatorBuilder common_;
	JSOperatorBuilder javascript_;
	MachineOperatorBuilder machine_;
	SimplifiedOperatorBuilder simplified_;
	JSGraph jsgraph_;
	GraphReducer reducer_;
	JSContextSpecialization spec_;
	};


	TEST(ReduceJSLoadContext) {
	ContextSpecializationTester t;

	Node* start = t.graph()->NewNode(t.common()->Start(0));
	t.graph()->SetStart(start);

	// Make a context and initialize it a bit for this test.
	Handle<Context> native = t.factory()->NewNativeContext();
	Handle<Context> subcontext1 = t.factory()->NewNativeContext();
	Handle<Context> subcontext2 = t.factory()->NewNativeContext();
	subcontext2->set_previous(*subcontext1);
	subcontext1->set_previous(*native);
	Handle<Object> expected = t.factory()->InternalizeUtf8String("gboy!");
	const int slot = Context::NATIVE_CONTEXT_INDEX;
	native->set(slot, *expected);

	Node* const_context = t.jsgraph()->Constant(native);
	Node* deep_const_context = t.jsgraph()->Constant(subcontext2);
	Node* param_context = t.graph()->NewNode(t.common()->Parameter(0), start);

	{
	// Mutable slot, constant context, depth = 0 => do nothing.
	Node* load = t.graph()->NewNode(t.javascript()->LoadContext(0, 0, false),
	const_context, const_context, start);
	Reduction r = t.spec()->Reduce(load);
	CHECK(!r.Changed());
	}

	{
	// Mutable slot, non-constant context, depth = 0 => do nothing.
	Node* load = t.graph()->NewNode(t.javascript()->LoadContext(0, 0, false),
	param_context, param_context, start);
	Reduction r = t.spec()->Reduce(load);
	CHECK(!r.Changed());
	}

	{
	// Mutable slot, constant context, depth > 0 => fold-in parent context.
	Node* load = t.graph()->NewNode(
	t.javascript()->LoadContext(2, Context::GLOBAL_EVAL_FUN_INDEX, false),
	deep_const_context, deep_const_context, start);
	Reduction r = t.spec()->Reduce(load);
	CHECK(r.Changed());
	Node* new_context_input = NodeProperties::GetValueInput(r.replacement(), 0);
	CHECK_EQ(IrOpcode::kHeapConstant, new_context_input->opcode());
	HeapObjectMatcher match(new_context_input);
	CHECK_EQ(native, match.Value());
	ContextAccess access = OpParameter<ContextAccess>(r.replacement());
	CHECK_EQ(Context::GLOBAL_EVAL_FUN_INDEX, static_cast<int>(access.index()));
	CHECK_EQ(0, static_cast<int>(access.depth()));
	CHECK_EQ(false, access.immutable());
	}

	{
	// Immutable slot, constant context, depth = 0 => specialize.
	Node* load = t.graph()->NewNode(t.javascript()->LoadContext(0, slot, true),
	const_context, const_context, start);
	Reduction r = t.spec()->Reduce(load);
	CHECK(r.Changed());
	CHECK(r.replacement() != load);

	HeapObjectMatcher 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
	}


	TEST(ReduceJSStoreContext) {
	ContextSpecializationTester t;

	Node* start = t.graph()->NewNode(t.common()->Start(0));
	t.graph()->SetStart(start);

	// Make a context and initialize it a bit for this test.
	Handle<Context> native = t.factory()->NewNativeContext();
	Handle<Context> subcontext1 = t.factory()->NewNativeContext();
	Handle<Context> subcontext2 = t.factory()->NewNativeContext();
	subcontext2->set_previous(*subcontext1);
	subcontext1->set_previous(*native);
	Handle<Object> expected = t.factory()->InternalizeUtf8String("gboy!");
	const int slot = Context::NATIVE_CONTEXT_INDEX;
	native->set(slot, *expected);

	Node* const_context = t.jsgraph()->Constant(native);
	Node* deep_const_context = t.jsgraph()->Constant(subcontext2);
	Node* param_context = t.graph()->NewNode(t.common()->Parameter(0), start);

	{
	// Mutable slot, constant context, depth = 0 => do nothing.
	Node* load =
	t.graph()->NewNode(t.javascript()->StoreContext(0, 0), const_context,
	const_context, const_context, start, start);
	Reduction r = t.spec()->Reduce(load);
	CHECK(!r.Changed());
	}

	{
	// Mutable slot, non-constant context, depth = 0 => do nothing.
	Node* load =
	t.graph()->NewNode(t.javascript()->StoreContext(0, 0), param_context,
	param_context, const_context, start, start);
	Reduction r = t.spec()->Reduce(load);
	CHECK(!r.Changed());
	}

	{
	// Immutable slot, constant context, depth = 0 => do nothing.
	Node* load =
	t.graph()->NewNode(t.javascript()->StoreContext(0, slot), const_context,
	const_context, const_context, start, start);
	Reduction r = t.spec()->Reduce(load);
	CHECK(!r.Changed());
	}

	{
	// Mutable slot, constant context, depth > 0 => fold-in parent context.
	Node* load = t.graph()->NewNode(
	t.javascript()->StoreContext(2, Context::GLOBAL_EVAL_FUN_INDEX),
	deep_const_context, deep_const_context, const_context, start, start);
	Reduction r = t.spec()->Reduce(load);
	CHECK(r.Changed());
	Node* new_context_input = NodeProperties::GetValueInput(r.replacement(), 0);
	CHECK_EQ(IrOpcode::kHeapConstant, new_context_input->opcode());
	HeapObjectMatcher match(new_context_input);
	CHECK_EQ(native, match.Value());
	ContextAccess access = OpParameter<ContextAccess>(r.replacement());
	CHECK_EQ(Context::GLOBAL_EVAL_FUN_INDEX, static_cast<int>(access.index()));
	CHECK_EQ(0, static_cast<int>(access.depth()));
	CHECK_EQ(false, access.immutable());
	}
	}


	// 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.graph()->NewNode(t.common()->Start(0));
	t.graph()->SetStart(start);

	// Make a context and initialize it a bit for this test.
	Handle<Context> native = t.factory()->NewNativeContext();
	Handle<Object> expected = t.factory()->InternalizeUtf8String("gboy!");
	const int slot = Context::NATIVE_CONTEXT_INDEX;
	native->set(slot, *expected);

	Node* const_context = t.jsgraph()->Constant(native);
	Node* param_context = t.graph()->NewNode(t.common()->Parameter(0), start);

	{
	// Check that specialization replaces values and forwards effects
	// correctly, and folds values from constant and non-constant contexts
	Node* effect_in = start;
	Node* load = t.graph()->NewNode(t.javascript()->LoadContext(0, slot, true),
	const_context, const_context, effect_in);


	Node* value_use =
	t.graph()->NewNode(t.simplified()->ChangeTaggedToInt32(), load);
	Node* other_load =
	t.graph()->NewNode(t.javascript()->LoadContext(0, slot, true),
	param_context, param_context, load);
	Node* effect_use = other_load;
	Node* other_use =
	t.graph()->NewNode(t.simplified()->ChangeTaggedToInt32(), other_load);

	Node* add = t.graph()->NewNode(
	t.javascript()->Add(BinaryOperationHints::Any()), value_use, other_use,
	param_context, t.jsgraph()->EmptyFrameState(),
	t.jsgraph()->EmptyFrameState(), other_load, start);

	Node* ret =
	t.graph()->NewNode(t.common()->Return(), add, effect_use, start);
	Node* end = t.graph()->NewNode(t.common()->End(1), ret);
	USE(end);
	t.graph()->SetEnd(end);

	// Double check the above graph is what we expect, or the test is broken.
	CheckEffectInput(effect_in, load);
	CheckEffectInput(load, effect_use);

	// Perform the reduction on the entire graph.
	GraphReducer graph_reducer(t.main_zone(), t.graph());
	JSContextSpecialization spec(&graph_reducer, t.jsgraph(),
	MaybeHandle<Context>());
	graph_reducer.AddReducer(&spec);
	graph_reducer.ReduceGraph();

	// 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);
	HeapObjectMatcher 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());
	}
	}

	} // namespace compiler
	} // namespace internal
	} // namespace v8