v8/test/cctest/interpreter/test-source-positions.cc

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// 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/v8.h"
#include "src/compiler/pipeline.h"
#include "src/handles.h"
#include "src/interpreter/bytecode-generator.h"
#include "src/interpreter/interpreter.h"
#include "src/isolate.h"
#include "src/parsing/parser.h"
#include "test/cctest/cctest.h"
#include "test/cctest/interpreter/source-position-matcher.h"
namespace v8 {
namespace internal {
namespace interpreter {
// Flags enabling optimizations that change generated bytecode array.
// Format is <command-line flag> <flag name> <bit index>
#define OPTIMIZATION_FLAGS(V) \
V(FLAG_ignition_reo, kUseReo, 0) \
V(FLAG_ignition_peephole, kUsePeephole, 1) \
V(FLAG_ignition_filter_expression_positions, kUseFilterExpressionPositions, \
2) \
V(FLAG_ignition_deadcode, kUseDeadCode, 3)
#define DECLARE_BIT(_, Name, BitIndex) static const int Name = 1 << BitIndex;
OPTIMIZATION_FLAGS(DECLARE_BIT)
#undef DECLARE_BIT
// Test cases source positions are checked for. Please ensure all
// combinations of flags are present here. This is done manually
// because it provides easier to comprehend failure case for humans.
#define TEST_CASES(V) \
V(UsingReo, kUseReo) \
V(UsingPeephole, kUsePeephole) \
V(UsingDeadCode, kUseDeadCode) \
V(UsingFilterExpressionPositions, kUseFilterExpressionPositions) \
V(UsingReoAndPeephole, kUseReo | kUsePeephole) \
V(UsingReoAndFilterExpressionPositions, \
kUseReo | kUseFilterExpressionPositions) \
V(UsingReoAndDeadCode, kUseReo | kUseDeadCode) \
V(UsingPeepholeAndFilterExpressionPositions, \
kUsePeephole | kUseFilterExpressionPositions) \
V(UsingPeepholeAndDeadCode, kUsePeephole | kUseDeadCode) \
V(UsingFilterExpressionPositionsAndDeadCode, \
kUseFilterExpressionPositions | kUseDeadCode) \
V(UsingAllOptimizations, \
kUseReo | kUsePeephole | kUseFilterExpressionPositions | kUseDeadCode)
struct TestCaseData {
TestCaseData(const char* const script,
const char* const declaration_parameters = "",
const char* const arguments = "")
: script_(script),
declaration_parameters_(declaration_parameters),
arguments_(arguments) {}
const char* script() const { return script_; }
const char* declaration_parameters() const { return declaration_parameters_; }
const char* arguments() const { return arguments_; }
private:
TestCaseData();
const char* const script_;
const char* const declaration_parameters_;
const char* const arguments_;
};
static const TestCaseData kTestCaseData[] = {
{"var x = (y = 3) + (x = y); return x + y;"},
{"var x = 55;\n"
"var y = x + (x = 1) + (x = 2) + (x = 3);\n"
"return y;"},
{"var x = 10; return x >>> 3;\n"},
{"var x = 0; return x || (1, 2, 3);\n"},
{"return a || (a, b, a, b, c = 5, 3);\n"},
{"var a = 3; var b = 4; a = b; b = a; a = b; return a;\n"},
{"var a = 1; return [[a, 2], [a + 2]];\n"},
{"var a = 1; if (a || a < 0) { return 1; }\n"},
{"var b;"
"b = a.name;"
"b = a.name;"
"a.name = a;"
"b = a.name;"
"a.name = a;"
"return b;"},
{"var sum = 0;\n"
"outer: {\n"
" for (var x = 0; x < 10; ++x) {\n"
" for (var y = 0; y < 3; ++y) {\n"
" ++sum;\n"
" if (x + y == 12) { break outer; }\n"
" }\n"
" }\n"
"}\n"
"return sum;\n"},
{"var a = 1;"
"switch (a) {"
" case 1: return a * a + 1;"
" case 1: break;"
" case 2: return (a = 3) * a + (a = 4);"
" case 3:"
"}"
"return a;"},
{"for (var p of [0, 1, 2]) {}"},
{"var x = { 'a': 1, 'b': 2 };"
"for (x['a'] of [1,2,3]) { return x['a']; }"},
{"while (x == 4) {\n"
" var y = x + 1;\n"
" if (y == 2) break;\n"
" for (z['a'] of [0]) {\n"
" x += (x *= 3) + y;"
" }\n"
"}\n"},
{"function g(a, b) { return a.func(b + b, b); }\n"
"g(new (function Obj() { this.func = function() { return; }})(), 1)\n"},
{"return some_global[name];", "name", "'a'"}};
class OptimizedBytecodeSourcePositionTester final {
public:
explicit OptimizedBytecodeSourcePositionTester(Isolate* isolate)
: isolate_(isolate) {
SaveOptimizationFlags();
saved_flag_ignition_ = FLAG_ignition;
FLAG_ignition = true;
saved_flag_always_opt_ = FLAG_always_opt;
FLAG_always_opt = false;
}
~OptimizedBytecodeSourcePositionTester() {
RestoreOptimizationFlags();
FLAG_ignition = saved_flag_ignition_;
FLAG_always_opt = saved_flag_always_opt_;
}
bool SourcePositionsMatch(int optimization_bitmap, const char* function_body,
const char* function_decl_params,
const char* function_args);
private:
Handle<BytecodeArray> MakeBytecode(int optimization_bitmap,
const char* function_body,
const char* function_decl_params,
const char* function_args);
static std::string MakeScript(const char* function_body,
const char* function_decl_params,
const char* function_args);
void SetOptimizationFlags(int optimization_bitmap);
void SaveOptimizationFlags();
void RestoreOptimizationFlags();
Isolate* isolate() const { return isolate_; }
Isolate* isolate_;
int saved_optimization_bitmap_;
bool saved_flag_ignition_;
bool saved_flag_always_opt_;
};
// static
std::string OptimizedBytecodeSourcePositionTester::MakeScript(
const char* function_body, const char* function_decl_params,
const char* function_args) {
std::ostringstream os;
os << "function test_function"
<< "(" << function_decl_params << ") {";
os << function_body;
os << "}";
os << "test_function(" << function_args << ");";
return os.str();
}
Handle<BytecodeArray> OptimizedBytecodeSourcePositionTester::MakeBytecode(
int optimization_bitmap, const char* function_body,
const char* function_decl_params, const char* function_args) {
std::string script =
MakeScript(function_body, function_decl_params, function_args);
SetOptimizationFlags(optimization_bitmap);
CompileRun(script.c_str());
Local<Function> api_function = Local<Function>::Cast(
CcTest::global()
->Get(CcTest::isolate()->GetCurrentContext(), v8_str("test_function"))
.ToLocalChecked());
Handle<JSFunction> function =
Handle<JSFunction>::cast(v8::Utils::OpenHandle(*api_function));
return handle(function->shared()->bytecode_array());
}
void OptimizedBytecodeSourcePositionTester::SetOptimizationFlags(
int optimization_bitmap) {
#define SET_FLAG(V8Flag, BitName, _) \
V8Flag = (optimization_bitmap & BitName) ? true : false;
OPTIMIZATION_FLAGS(SET_FLAG)
#undef SET_FLAG
}
void OptimizedBytecodeSourcePositionTester::SaveOptimizationFlags() {
saved_optimization_bitmap_ = 0;
#define SAVE_FLAG(V8Flag, BitName, _) \
if (V8Flag) saved_optimization_bitmap_ |= BitName;
#undef SET_FLAG
}
void OptimizedBytecodeSourcePositionTester::RestoreOptimizationFlags() {
SetOptimizationFlags(saved_optimization_bitmap_);
}
bool OptimizedBytecodeSourcePositionTester::SourcePositionsMatch(
int optimization_bitmap, const char* function_body,
const char* function_decl_params, const char* function_args) {
Handle<BytecodeArray> unoptimized_bytecode =
MakeBytecode(0, function_body, function_decl_params, function_args);
Handle<BytecodeArray> optimized_bytecode = MakeBytecode(
optimization_bitmap, function_body, function_decl_params, function_args);
SourcePositionMatcher matcher;
if (!matcher.Match(unoptimized_bytecode, optimized_bytecode)) {
return false;
}
return true;
}
void TestSourcePositionsEquivalent(int optimization_bitmap) {
HandleAndZoneScope handles;
// Ensure handler table is generated.
handles.main_isolate()->interpreter()->Initialize();
OptimizedBytecodeSourcePositionTester tester(handles.main_isolate());
for (auto test_case_data : kTestCaseData) {
CHECK(tester.SourcePositionsMatch(
optimization_bitmap, test_case_data.script(),
test_case_data.declaration_parameters(), test_case_data.arguments()));
}
}
#define MAKE_TEST(Name, Bitmap) \
TEST(TestSourcePositionsEquivalent##Name) { \
TestSourcePositionsEquivalent(Bitmap); \
}
TEST_CASES(MAKE_TEST)
#undef MAKE_TEST
} // namespace interpreter
} // namespace internal
} // namespace v8