v8/test/cctest/compiler/test-js-context-specialization.cc
mstarzinger 16f133001f Move compiler cctests into v8::internal::compiler namespace.
This moves all cctest files for the compiler to live in the same
namespace as the components they are testing. Hence we can avoid the
forbidden using directives pulling in entire namespaces.

From the Google C++ style guide: "You may not use a using-directive to
make all names from a namespace available". This would be covered by
presubmit linter checks if build/namespaces were not blacklisted.

R=bmeurer@chromium.org

Review URL: https://codereview.chromium.org/1424943004

Cr-Commit-Position: refs/heads/master@{#31671}
2015-10-30 09:16:39 +00:00

326 lines
12 KiB
C++

// 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.
// TODO(jochen): Remove this after the setting is turned on globally.
#define V8_IMMINENT_DEPRECATION_WARNINGS
#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::GLOBAL_OBJECT_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::GLOBAL_OBJECT_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::GLOBAL_OBJECT_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(LanguageMode::SLOPPY), 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