Commit c33a1ef2 authored by Tobias Tebbi's avatar Tobias Tebbi Committed by Commit Bot

Reland "[torque] move class tests to unittests"

This is a reland of f589d561

Now with an ASAN-container-overflow false positive workaround:
Somehow ASAN was unhappy about a simple
std::vector<std::string>::push_back.
Increasing the std::vector capacity before doing the push_back
strangely fixes the problem.

Original change's description:
> [torque] move class tests to unittests
>
> This avoids the generation of fake external classes.
>
> Bug: v8:7793
> Change-Id: I9744b299d3ec474d72b298b4f6143f95e345d1d9
> Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1625991
> Reviewed-by: Simon Zünd <szuend@chromium.org>
> Reviewed-by: Sigurd Schneider <sigurds@chromium.org>
> Commit-Queue: Tobias Tebbi <tebbi@chromium.org>
> Cr-Commit-Position: refs/heads/master@{#61778}

TBR: szuend@chromium.org, sigurds@chromium.org
Bug: v8:7793
Change-Id: Ifa1958e4d6e850ba27632aa95c7efaf5ca4bfefa
Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1627970
Commit-Queue: Tobias Tebbi <tebbi@chromium.org>
Reviewed-by: 's avatarTobias Tebbi <tebbi@chromium.org>
Cr-Commit-Position: refs/heads/master@{#61807}
parent 00be36ec
...@@ -155,68 +155,48 @@ void ImplementationVisitor::Visit(NamespaceConstant* decl) { ...@@ -155,68 +155,48 @@ void ImplementationVisitor::Visit(NamespaceConstant* decl) {
void ImplementationVisitor::Visit(TypeAlias* alias) { void ImplementationVisitor::Visit(TypeAlias* alias) {
if (alias->IsRedeclaration()) return; if (alias->IsRedeclaration()) return;
const ClassType* class_type = ClassType::DynamicCast(alias->type()); if (const ClassType* class_type = ClassType::DynamicCast(alias->type())) {
if (class_type && class_type->IsExtern()) { if (class_type->IsExtern() && !class_type->nspace()->IsDefaultNamespace()) {
// Classes that are in the default namespace are defined in the C++ Error(
// world and all of their fields and methods are declared explicitly. "extern classes are currently only supported in the default "
// Internal classes (e.g. ones used for testing that are not in the default "namespace");
// name space) need to be defined by Torque. }
// TODO(danno): This is a pretty cheesy hack for now. There should be a more } else if (const StructType* struct_type =
// robust mechanism for this, e.g. declaring classes 'extern' or something. StructType::DynamicCast(alias->type())) {
if (class_type->nspace()->IsTestNamespace()) { const std::string& name = struct_type->name();
const ClassType* super = class_type->GetSuperClass(); header_out() << " struct " << name << " {\n";
std::string class_name{super->GetGeneratedTNodeTypeName()}; for (auto& field : struct_type->fields()) {
header_out() << " class " << class_type->name() << " : public " header_out() << " "
<< class_name << " {\n"; << field.name_and_type.type->GetGeneratedTypeName();
header_out() << " public:\n"; header_out() << " " << field.name_and_type.name << ";\n";
header_out() << " DEFINE_FIELD_OFFSET_CONSTANTS(" << class_name }
<< "::"; header_out() << "\n std::tuple<";
header_out() << (super->IsAbstract() ? "kHeaderSize" : "kSize"); bool first = true;
header_out() << ", TORQUE_GENERATED_" for (const Type* type : LowerType(struct_type)) {
<< CapifyStringWithUnderscores(class_type->name()) if (!first) {
<< "_FIELDS)\n"; header_out() << ", ";
header_out() << " };\n"; }
} else if (!class_type->nspace()->IsDefaultNamespace()) { first = false;
ReportError( header_out() << type->GetGeneratedTypeName();
"extern classes are currently only supported in the default and test "
"namespaces");
}
return;
}
const StructType* struct_type = StructType::DynamicCast(alias->type());
if (!struct_type) return;
const std::string& name = struct_type->name();
header_out() << " struct " << name << " {\n";
for (auto& field : struct_type->fields()) {
header_out() << " " << field.name_and_type.type->GetGeneratedTypeName();
header_out() << " " << field.name_and_type.name << ";\n";
}
header_out() << "\n std::tuple<";
bool first = true;
for (const Type* type : LowerType(struct_type)) {
if (!first) {
header_out() << ", ";
}
first = false;
header_out() << type->GetGeneratedTypeName();
}
header_out() << "> Flatten() const {\n"
<< " return std::tuple_cat(";
first = true;
for (auto& field : struct_type->fields()) {
if (!first) {
header_out() << ", ";
} }
first = false; header_out() << "> Flatten() const {\n"
if (field.name_and_type.type->IsStructType()) { << " return std::tuple_cat(";
header_out() << field.name_and_type.name << ".Flatten()"; first = true;
} else { for (auto& field : struct_type->fields()) {
header_out() << "std::make_tuple(" << field.name_and_type.name << ")"; if (!first) {
header_out() << ", ";
}
first = false;
if (field.name_and_type.type->IsStructType()) {
header_out() << field.name_and_type.name << ".Flatten()";
} else {
header_out() << "std::make_tuple(" << field.name_and_type.name << ")";
}
} }
header_out() << ");\n";
header_out() << " }\n";
header_out() << " };\n";
} }
header_out() << ");\n";
header_out() << " }\n";
header_out() << " };\n";
} }
VisitResult ImplementationVisitor::InlineMacro( VisitResult ImplementationVisitor::InlineMacro(
......
...@@ -231,7 +231,14 @@ class Stack { ...@@ -231,7 +231,14 @@ class Stack {
void Poke(BottomOffset from_bottom, T x) { void Poke(BottomOffset from_bottom, T x) {
elements_.at(from_bottom.offset) = std::move(x); elements_.at(from_bottom.offset) = std::move(x);
} }
void Push(T x) { elements_.push_back(std::move(x)); } void Push(T x) {
// Manually increasing the std::vector capacity is a workaround for an
// ASAN-container-overflow false positive.
if (elements_.size() == elements_.capacity()) {
elements_.reserve(2 * elements_.size() + 1);
}
elements_.push_back(std::move(x));
}
StackRange TopRange(size_t slot_count) const { StackRange TopRange(size_t slot_count) const {
DCHECK_GE(Size(), slot_count); DCHECK_GE(Size(), slot_count);
return StackRange{AboveTop() - slot_count, AboveTop()}; return StackRange{AboveTop() - slot_count, AboveTop()};
......
...@@ -823,59 +823,6 @@ namespace test { ...@@ -823,59 +823,6 @@ namespace test {
assert(a.b.GetX() == 2); assert(a.b.GetX() == 2);
} }
@noVerifier
extern class TestClassWithAllTypes extends JSObject {
a: int8;
b: uint8;
b2: uint8;
b3: uint8;
c: int16;
d: uint16;
e: int32;
f: uint32;
g: RawPtr;
h: intptr;
i: uintptr;
}
// This class should throw alignment errors if @if decorators aren't
// working.
@noVerifier
extern class PreprocessingTest extends JSObject {
@if(FALSE_FOR_TESTING) a: int8;
@if(TRUE_FOR_TESTING) a: int16;
b: int16;
d: int32;
@ifnot(TRUE_FOR_TESTING) e: int8;
@ifnot(FALSE_FOR_TESTING) f: int16;
g: int16;
h: int32;
}
@export
macro TestClassWithAllTypesLoadsAndStores(
t: TestClassWithAllTypes, r: RawPtr, v1: int8, v2: uint8, v3: int16,
v4: uint16) {
t.a = v1;
t.b = v2;
t.c = v3;
t.d = v4;
t.e = 0;
t.f = 0;
t.g = r;
t.h = 0;
t.i = 0;
t.a = t.a;
t.b = t.b;
t.c = t.c;
t.d = t.d;
t.e = t.e;
t.f = t.f;
t.g = t.g;
t.h = t.h;
t.i = t.i;
}
class InternalClass { class InternalClass {
Flip() labels NotASmi { Flip() labels NotASmi {
const tmp = Cast<Smi>(this.b) otherwise NotASmi; const tmp = Cast<Smi>(this.b) otherwise NotASmi;
...@@ -956,24 +903,6 @@ namespace test { ...@@ -956,24 +903,6 @@ namespace test {
check(array.b == 9); check(array.b == 9);
} }
type Baztype = Foo | FooType;
@abstract
@noVerifier
extern class Foo extends JSObject {
fooField: FooType;
}
@noVerifier
extern class Bar extends Foo {
barField: Bartype;
bazfield: Baztype;
}
type Bartype = FooType;
type FooType = Smi | Bar;
@export @export
macro TestStaticAssert() { macro TestStaticAssert() {
StaticAssert(1 + 2 == 3); StaticAssert(1 + 2 == 3);
......
...@@ -13,17 +13,83 @@ namespace torque { ...@@ -13,17 +13,83 @@ namespace torque {
namespace { namespace {
TorqueCompilerResult TestCompileTorque(const std::string& source) { // This is a simplified version of the basic Torque type definitions.
// Some class types are replaced by abstact types to keep it self-contained and
// small.
constexpr const char* kTestTorquePrelude = R"(
type void;
type never;
type Tagged generates 'TNode<Object>' constexpr 'ObjectPtr';
type Smi extends Tagged generates 'TNode<Smi>' constexpr 'Smi';
@abstract
extern class HeapObject extends Tagged {
map: Map;
}
type Map extends HeapObject generates 'TNode<Map>';
type Object = Smi | HeapObject;
type JSReceiver extends HeapObject generates 'TNode<JSReceiver>';
type JSObject extends JSReceiver generates 'TNode<JSObject>';
type int32 generates 'TNode<Int32T>' constexpr 'int32_t';
type uint32 generates 'TNode<Uint32T>' constexpr 'uint32_t';
type int31 extends int32
generates 'TNode<Int32T>' constexpr 'int31_t';
type uint31 extends uint32
generates 'TNode<Uint32T>' constexpr 'uint31_t';
type int16 extends int31
generates 'TNode<Int16T>' constexpr 'int16_t';
type uint16 extends uint31
generates 'TNode<Uint16T>' constexpr 'uint16_t';
type int8 extends int16 generates 'TNode<Int8T>' constexpr 'int8_t';
type uint8 extends uint16
generates 'TNode<Uint8T>' constexpr 'uint8_t';
type int64 generates 'TNode<Int64T>' constexpr 'int64_t';
type intptr generates 'TNode<IntPtrT>' constexpr 'intptr_t';
type uintptr generates 'TNode<UintPtrT>' constexpr 'uintptr_t';
type float32 generates 'TNode<Float32T>' constexpr 'float';
type float64 generates 'TNode<Float64T>' constexpr 'double';
type bool generates 'TNode<BoolT>' constexpr 'bool';
type bint generates 'TNode<BInt>' constexpr 'BInt';
type string constexpr 'const char*';
type RawPtr generates 'TNode<RawPtrT>' constexpr 'void*';
type Code extends HeapObject generates 'TNode<Code>';
type BuiltinPtr extends Smi generates 'TNode<BuiltinPtr>';
type Context extends HeapObject generates 'TNode<Context>';
type NativeContext extends Context;
)";
TorqueCompilerResult TestCompileTorque(std::string source) {
TorqueCompilerOptions options; TorqueCompilerOptions options;
options.output_directory = ""; options.output_directory = "";
options.collect_language_server_data = false; options.collect_language_server_data = false;
options.force_assert_statements = false; options.force_assert_statements = false;
source = kTestTorquePrelude + source;
return CompileTorque(source, options); return CompileTorque(source, options);
} }
void ExpectSuccessfulCompilation(std::string source) {
TorqueCompilerResult result = TestCompileTorque(std::move(source));
std::vector<std::string> messages;
for (const auto& message : result.messages) {
messages.push_back(message.message);
}
EXPECT_EQ(messages, std::vector<std::string>{});
}
template <class T>
void ExpectFailingCompilation(
std::string source, ::testing::PolymorphicMatcher<T> message_pattern) {
TorqueCompilerResult result = TestCompileTorque(std::move(source));
ASSERT_FALSE(result.messages.empty());
EXPECT_THAT(result.messages[0].message, message_pattern);
}
} // namespace } // namespace
TEST(Torque, Prelude) { ExpectSuccessfulCompilation(""); }
TEST(Torque, StackDeleteRange) { TEST(Torque, StackDeleteRange) {
Stack<int> stack = {1, 2, 3, 4, 5, 6, 7}; Stack<int> stack = {1, 2, 3, 4, 5, 6, 7};
stack.DeleteRange(StackRange{BottomOffset{2}, BottomOffset{4}}); stack.DeleteRange(StackRange{BottomOffset{2}, BottomOffset{4}});
...@@ -33,31 +99,112 @@ TEST(Torque, StackDeleteRange) { ...@@ -33,31 +99,112 @@ TEST(Torque, StackDeleteRange) {
using ::testing::HasSubstr; using ::testing::HasSubstr;
TEST(Torque, TypeNamingConventionLintError) { TEST(Torque, TypeNamingConventionLintError) {
std::string source = R"( ExpectFailingCompilation(R"(
type void;
type never;
type foo generates 'TNode<Foo>'; type foo generates 'TNode<Foo>';
)"; )",
HasSubstr("\"foo\""));
}
const TorqueCompilerResult result = TestCompileTorque(source); TEST(Torque, StructNamingConventionLintError) {
ExpectFailingCompilation(R"(
struct foo {}
)",
HasSubstr("\"foo\""));
}
ASSERT_EQ(result.messages.size(), static_cast<size_t>(1)); TEST(Torque, ClassDefinition) {
EXPECT_THAT(result.messages[0].message, HasSubstr("\"foo\"")); ExpectSuccessfulCompilation(R"(
extern class TestClassWithAllTypes extends HeapObject {
a: int8;
b: uint8;
b2: uint8;
b3: uint8;
c: int16;
d: uint16;
e: int32;
f: uint32;
g: RawPtr;
h: intptr;
i: uintptr;
}
macro TestClassWithAllTypesLoadsAndStores(
t: TestClassWithAllTypes, r: RawPtr, v1: int8, v2: uint8, v3: int16,
v4: uint16, v5: int32, v6: uint32, v7: intptr, v8: uintptr) {
t.a = v1;
t.b = v2;
t.c = v3;
t.d = v4;
t.e = v5;
t.f = v6;
t.g = r;
t.h = v7;
t.i = v8;
t.a = t.a;
t.b = t.b;
t.c = t.c;
t.d = t.d;
t.e = t.e;
t.f = t.f;
t.g = t.g;
t.h = t.h;
t.i = t.i;
}
)");
} }
TEST(Torque, StructNamingConventionLintError) { TEST(Torque, TypeDeclarationOrder) {
const std::string source = R"( ExpectSuccessfulCompilation(R"(
type void; type Baztype = Foo | FooType;
type never;
struct foo {} @abstract
)"; @noVerifier
extern class Foo extends HeapObject {
fooField: FooType;
}
@noVerifier
extern class Bar extends Foo {
barField: Bartype;
bazfield: Baztype;
}
const TorqueCompilerResult result = TestCompileTorque(source); type Bartype = FooType;
type FooType = Smi | Bar;
)");
}
ASSERT_EQ(result.messages.size(), static_cast<size_t>(1)); TEST(Torque, ConditionalFields) {
EXPECT_THAT(result.messages[0].message, HasSubstr("\"foo\"")); // This class should throw alignment errors if @if decorators aren't
// working.
ExpectSuccessfulCompilation(R"(
@noVerifier
extern class PreprocessingTest extends HeapObject {
@if(FALSE_FOR_TESTING) a: int8;
@if(TRUE_FOR_TESTING) a: int16;
b: int16;
d: int32;
@ifnot(TRUE_FOR_TESTING) e: int8;
@ifnot(FALSE_FOR_TESTING) f: int16;
g: int16;
h: int32;
}
)");
ExpectFailingCompilation(R"(
@noVerifier
extern class PreprocessingTest extends HeapObject {
@if(TRUE_FOR_TESTING) a: int8;
@if(FALSE_FOR_TESTING) a: int16;
b: int16;
d: int32;
@ifnot(FALSE_FOR_TESTING) e: int8;
@ifnot(TRUE_FOR_TESTING) f: int16;
g: int16;
h: int32;
}
)",
HasSubstr("aligned"));
} }
} // namespace torque } // namespace torque
......
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