[csa] Typify CSA::Select() and friends.

Bug: v8:6949, v8:7310 Change-Id: I8647d385355f357e8825648d6da2757efdcbc6c2 Reviewed-on: https://chromium-review.googlesource.com/980496Reviewed-by: Camillo Bruni <cbruni@chromium.org> Reviewed-by: Ross McIlroy <rmcilroy@chromium.org> Commit-Queue: Igor Sheludko <ishell@chromium.org> Cr-Commit-Position: refs/heads/master@{#52249}

[csa] Typify CSA::Select() and friends.
Bug: v8:6949, v8:7310 Change-Id: I8647d385355f357e8825648d6da2757efdcbc6c2 Reviewed-on: https://chromium-review.googlesource.com/980496Reviewed-by: Camillo Bruni <cbruni@chromium.org> Reviewed-by: Ross McIlroy <rmcilroy@chromium.org> Commit-Queue: Igor Sheludko <ishell@chromium.org> Cr-Commit-Position: refs/heads/master@{#52249}
8c7bfc54 · Igor Sheludko · Commit Bot · b10f21c6 · 8c7bfc54 · 8c7bfc54
Commit 8c7bfc54 authored Mar 27, 2018 by Igor Sheludko Committed by Commit Bot Mar 27, 2018
13 changed files
--- a/src/builtins/builtins-async-generator-gen.cc
+++ b/src/builtins/builtins-async-generator-gen.cc
@@ -29,13 +29,13 @@ class AsyncGeneratorBuiltinsAssembler : public AsyncBuiltinsAssembler {
      : AsyncBuiltinsAssembler(state) {}

  inline Node* TaggedIsAsyncGenerator(Node* tagged_object) {
-    Node* if_notsmi = TaggedIsNotSmi(tagged_object);
-    return Select(if_notsmi,
-                  [=]() {
-                    return HasInstanceType(tagged_object,
-                                           JS_ASYNC_GENERATOR_OBJECT_TYPE);
-                  },
-                  [=]() { return if_notsmi; }, MachineRepresentation::kBit);
+    TNode<BoolT> if_notsmi = TaggedIsNotSmi(tagged_object);
+    return Select<BoolT>(if_notsmi,
+                         [=] {
+                           return HasInstanceType(
+                               tagged_object, JS_ASYNC_GENERATOR_OBJECT_TYPE);
+                         },
+                         [=] { return if_notsmi; });
  }
  inline Node* LoadGeneratorState(Node* const generator) {
    return LoadObjectField(generator, JSGeneratorObject::kContinuationOffset);

--- a/src/builtins/builtins-collections-gen.cc
+++ b/src/builtins/builtins-collections-gen.cc
@@ -333,8 +333,7 @@ TNode<Object> BaseCollectionsAssembler::AllocateJSCollection(
                        [=] {
                          return AllocateJSCollectionSlow(context, constructor,
                                                          new_target);
-                        },
-                        MachineRepresentation::kTagged);
+                        });
 }

 TNode<Object> BaseCollectionsAssembler::AllocateJSCollectionFast(
@@ -456,7 +455,7 @@ TNode<IntPtrT> BaseCollectionsAssembler::EstimatedInitialSize(
  return Select<IntPtrT>(
      is_fast_jsarray,
      [=] { return SmiUntag(LoadFastJSArrayLength(CAST(initial_entries))); },
-      [=] { return IntPtrConstant(0); }, MachineType::PointerRepresentation());
+      [=] { return IntPtrConstant(0); });
 }

 void BaseCollectionsAssembler::GotoIfNotJSReceiver(Node* const obj,
@@ -494,8 +493,7 @@ TNode<Object> BaseCollectionsAssembler::LoadAndNormalizeFixedArrayElement(
    TNode<Object> elements, TNode<IntPtrT> index) {
  TNode<Object> element = CAST(LoadFixedArrayElement(elements, index));
  return Select<Object>(IsTheHole(element), [=] { return UndefinedConstant(); },
-                        [=] { return element; },
-                        MachineRepresentation::kTagged);
+                        [=] { return element; });
 }

 TNode<Object> BaseCollectionsAssembler::LoadAndNormalizeFixedDoubleArrayElement(

--- a/src/builtins/builtins-conversion-gen.cc
+++ b/src/builtins/builtins-conversion-gen.cc
@@ -126,12 +126,12 @@ TF_BUILTIN(NonNumberToNumeric, CodeStubAssembler) {
 }

 TF_BUILTIN(ToNumeric, CodeStubAssembler) {
-  Node* context = Parameter(Descriptor::kContext);
-  Node* input = Parameter(Descriptor::kArgument);
+  TNode<Context> context = CAST(Parameter(Descriptor::kContext));
+  TNode<Object> input = CAST(Parameter(Descriptor::kArgument));

-  Return(Select(IsNumber(input), [=] { return input; },
-                [=] { return NonNumberToNumeric(context, input); },
-                MachineRepresentation::kTagged));
+  Return(Select<Numeric>(
+      IsNumber(input), [=] { return CAST(input); },
+      [=] { return NonNumberToNumeric(context, CAST(input)); }));
 }

 // ES6 section 7.1.3 ToNumber ( argument )

--- a/src/builtins/builtins-internal-gen.cc
+++ b/src/builtins/builtins-internal-gen.cc
@@ -75,8 +75,9 @@ TF_BUILTIN(GrowFastSmiOrObjectElements, CodeStubAssembler) {

 TF_BUILTIN(NewArgumentsElements, CodeStubAssembler) {
  Node* frame = Parameter(Descriptor::kFrame);
-  Node* length = SmiToIntPtr(Parameter(Descriptor::kLength));
-  Node* mapped_count = SmiToIntPtr(Parameter(Descriptor::kMappedCount));
+  TNode<IntPtrT> length = SmiToIntPtr(Parameter(Descriptor::kLength));
+  TNode<IntPtrT> mapped_count =
+      SmiToIntPtr(Parameter(Descriptor::kMappedCount));

  // Check if we can allocate in new space.
  ElementsKind kind = PACKED_ELEMENTS;
@@ -104,9 +105,7 @@ TF_BUILTIN(NewArgumentsElements, CodeStubAssembler) {
      // The elements might be used to back mapped arguments. In that case fill
      // the mapped elements (i.e. the first {mapped_count}) with the hole, but
      // make sure not to overshoot the {length} if some arguments are missing.
-      Node* number_of_holes =
-          SelectConstant(IntPtrLessThan(mapped_count, length), mapped_count,
-                         length, MachineType::PointerRepresentation());
+      TNode<IntPtrT> number_of_holes = IntPtrMin(mapped_count, length);
      Node* the_hole = TheHoleConstant();

      // Fill the first elements up to {number_of_holes} with the hole.

--- a/src/builtins/builtins-object-gen.cc
+++ b/src/builtins/builtins-object-gen.cc
@@ -141,14 +141,15 @@ Node* ObjectBuiltinsAssembler::ConstructDataDescriptor(Node* context,

 Node* ObjectBuiltinsAssembler::IsSpecialReceiverMap(SloppyTNode<Map> map) {
  CSA_SLOW_ASSERT(this, IsMap(map));
-  Node* is_special = IsSpecialReceiverInstanceType(LoadMapInstanceType(map));
+  TNode<BoolT> is_special =
+      IsSpecialReceiverInstanceType(LoadMapInstanceType(map));
  uint32_t mask =
      Map::HasNamedInterceptorBit::kMask | Map::IsAccessCheckNeededBit::kMask;
  USE(mask);
  // Interceptors or access checks imply special receiver.
  CSA_ASSERT(this,
-             SelectConstant(IsSetWord32(LoadMapBitField(map), mask), is_special,
-                            Int32Constant(1), MachineRepresentation::kWord32));
+             SelectConstant<BoolT>(IsSetWord32(LoadMapBitField(map), mask),
+                                   is_special, Int32TrueConstant()));
  return is_special;
 }


--- a/src/builtins/builtins-regexp-gen.cc
+++ b/src/builtins/builtins-regexp-gen.cc
@@ -1185,16 +1185,14 @@ Node* RegExpBuiltinsAssembler::RegExpInitialize(Node* const context,
  CSA_ASSERT(this, IsJSRegExp(regexp));

  // Normalize pattern.
-  Node* const pattern = Select<Object>(
+  TNode<Object> const pattern = Select<Object>(
      IsUndefined(maybe_pattern), [=] { return EmptyStringConstant(); },
-      [=] { return ToString_Inline(context, maybe_pattern); },
-      MachineRepresentation::kTagged);
+      [=] { return ToString_Inline(context, maybe_pattern); });

  // Normalize flags.
-  Node* const flags = Select<Object>(
+  TNode<Object> const flags = Select<Object>(
      IsUndefined(maybe_flags), [=] { return EmptyStringConstant(); },
-      [=] { return ToString_Inline(context, maybe_flags); },
-      MachineRepresentation::kTagged);
+      [=] { return ToString_Inline(context, maybe_flags); });

  // Initialize.


--- a/src/builtins/builtins-string-gen.cc
+++ b/src/builtins/builtins-string-gen.cc
@@ -1468,10 +1468,9 @@ class StringMatchSearchAssembler : public StringBuiltinsAssembler {
      RegExpBuiltinsAssembler regexp_asm(state());

      Node* const receiver_string = ToString_Inline(context, receiver);
-      Node* const pattern = Select(
+      TNode<Object> const pattern = Select<Object>(
          IsUndefined(maybe_regexp), [=] { return EmptyStringConstant(); },
-          [=] { return ToString_Inline(context, maybe_regexp); },
-          MachineRepresentation::kTagged);
+          [=] { return ToString_Inline(context, maybe_regexp); });

      // Create RegExp
      // TODO(pwong): This could be factored out as a helper (RegExpCreate) that
@@ -1732,10 +1731,9 @@ TF_BUILTIN(StringPrototypeSplit, StringBuiltinsAssembler) {
  // String and integer conversions.

  Node* const subject_string = ToString_Inline(context, receiver);
-  Node* const limit_number =
-      Select(IsUndefined(limit), [=]() { return NumberConstant(kMaxUInt32); },
-             [=]() { return ToUint32(context, limit); },
-             MachineRepresentation::kTagged);
+  TNode<Number> const limit_number = Select<Number>(
+      IsUndefined(limit), [=] { return NumberConstant(kMaxUInt32); },
+      [=] { return ToUint32(context, limit); });
  Node* const separator_string = ToString_Inline(context, separator);

  // Shortcut for {limit} == 0.

--- a/src/builtins/builtins-typedarray-gen.cc
+++ b/src/builtins/builtins-typedarray-gen.cc
@@ -1294,8 +1294,7 @@ TF_BUILTIN(TypedArrayPrototypeSlice, TypedArrayBuiltinsAssembler) {
                  [=] {
                    return SmiTag(ConvertToRelativeIndex(
                        context, end, SmiUntag(source_length)));
-                  },
-                  MachineRepresentation::kTagged);
+                  });

  // Create a result array by invoking TypedArraySpeciesCreate.
  TNode<Smi> count = SmiMax(SmiSub(end_index, start_index), SmiConstant(0));

--- a/src/code-stub-assembler.cc
+++ b/src/code-stub-assembler.cc
--- a/src/code-stub-assembler.h
+++ b/src/code-stub-assembler.h
@@ -353,47 +353,47 @@ class V8_EXPORT_PRIVATE CodeStubAssembler : public compiler::CodeAssembler {
             Node* extra_node4 = nullptr, const char* extra_node4_name = "",
             Node* extra_node5 = nullptr, const char* extra_node5_name = "");

-  Node* Select(SloppyTNode<BoolT> condition, const NodeGenerator& true_body,
-               const NodeGenerator& false_body, MachineRepresentation rep);
  template <class A, class F, class G>
  TNode<A> Select(SloppyTNode<BoolT> condition, const F& true_body,
-                  const G& false_body, MachineRepresentation rep) {
-    return UncheckedCast<A>(Select(
+                  const G& false_body) {
+    return UncheckedCast<A>(SelectImpl(
        condition,
        [&]() -> Node* { return base::implicit_cast<TNode<A>>(true_body()); },
        [&]() -> Node* { return base::implicit_cast<TNode<A>>(false_body()); },
-        rep));
+        MachineRepresentationOf<A>::value));
  }

-  Node* SelectConstant(Node* condition, Node* true_value, Node* false_value,
-                       MachineRepresentation rep);
  template <class A>
  TNode<A> SelectConstant(TNode<BoolT> condition, TNode<A> true_value,
-                          TNode<A> false_value, MachineRepresentation rep) {
-    return UncheckedCast<A>(
-        SelectConstant(condition, static_cast<Node*>(true_value),
-                       static_cast<Node*>(false_value), rep));
+                          TNode<A> false_value) {
+    return Select<A>(condition, [=] { return true_value; },
+                     [=] { return false_value; });
  }

-  Node* SelectInt32Constant(Node* condition, int true_value, int false_value);
-  Node* SelectIntPtrConstant(Node* condition, int true_value, int false_value);
-  Node* SelectBooleanConstant(Node* condition);
+  TNode<Int32T> SelectInt32Constant(SloppyTNode<BoolT> condition,
+                                    int true_value, int false_value);
+  TNode<IntPtrT> SelectIntPtrConstant(SloppyTNode<BoolT> condition,
+                                      int true_value, int false_value);
+  TNode<Oddball> SelectBooleanConstant(SloppyTNode<BoolT> condition);
  template <class A>
  TNode<A> SelectTaggedConstant(SloppyTNode<BoolT> condition,
                                TNode<A> true_value,
                                SloppyTNode<A> false_value) {
    static_assert(std::is_base_of<Object, A>::value, "not a tagged type");
-    return SelectConstant(condition, true_value, false_value,
-                          MachineRepresentation::kTagged);
+    return SelectConstant<A>(condition, true_value, false_value);
  }
-  Node* SelectSmiConstant(Node* condition, Smi* true_value, Smi* false_value);
-  Node* SelectSmiConstant(Node* condition, int true_value, Smi* false_value) {
+  TNode<Smi> SelectSmiConstant(SloppyTNode<BoolT> condition, Smi* true_value,
+                               Smi* false_value);
+  TNode<Smi> SelectSmiConstant(SloppyTNode<BoolT> condition, int true_value,
+                               Smi* false_value) {
    return SelectSmiConstant(condition, Smi::FromInt(true_value), false_value);
  }
-  Node* SelectSmiConstant(Node* condition, Smi* true_value, int false_value) {
+  TNode<Smi> SelectSmiConstant(SloppyTNode<BoolT> condition, Smi* true_value,
+                               int false_value) {
    return SelectSmiConstant(condition, true_value, Smi::FromInt(false_value));
  }
-  Node* SelectSmiConstant(Node* condition, int true_value, int false_value) {
+  TNode<Smi> SelectSmiConstant(SloppyTNode<BoolT> condition, int true_value,
+                               int false_value) {
    return SelectSmiConstant(condition, Smi::FromInt(true_value),
                             Smi::FromInt(false_value));
  }
@@ -564,7 +564,7 @@ class V8_EXPORT_PRIVATE CodeStubAssembler : public compiler::CodeAssembler {
  // Load the EnumLength of a Map.
  Node* LoadMapEnumLength(SloppyTNode<Map> map);
  // Load the back-pointer of a Map.
-  Node* LoadMapBackPointer(SloppyTNode<Map> map);
+  TNode<Object> LoadMapBackPointer(SloppyTNode<Map> map);
  // Load the identity hash of a JSRececiver.
  TNode<IntPtrT> LoadJSReceiverIdentityHash(SloppyTNode<Object> receiver,
                                            Label* if_no_hash = nullptr);
@@ -1135,7 +1135,7 @@ class V8_EXPORT_PRIVATE CodeStubAssembler : public compiler::CodeAssembler {
  Node* IsFixedTypedArray(Node* object);
  Node* IsFunctionWithPrototypeSlotMap(Node* map);
  Node* IsHashTable(Node* object);
-  Node* IsHeapNumber(Node* object);
+  TNode<BoolT> IsHeapNumber(Node* object);
  Node* IsIndirectStringInstanceType(Node* instance_type);
  Node* IsJSArrayBuffer(Node* object);
  Node* IsJSArrayInstanceType(Node* instance_type);
@@ -1172,7 +1172,7 @@ class V8_EXPORT_PRIVATE CodeStubAssembler : public compiler::CodeAssembler {
  Node* IsNumberDictionary(Node* object);
  Node* IsOneByteStringInstanceType(Node* instance_type);
  Node* IsPrimitiveInstanceType(Node* instance_type);
-  Node* IsPrivateSymbol(Node* object);
+  TNode<BoolT> IsPrivateSymbol(Node* object);
  Node* IsPromiseCapability(Node* object);
  Node* IsPropertyArray(Node* object);
  Node* IsPropertyCell(Node* object);
@@ -1181,7 +1181,7 @@ class V8_EXPORT_PRIVATE CodeStubAssembler : public compiler::CodeAssembler {
                                              SloppyTNode<Map> map);
  Node* IsSequentialStringInstanceType(Node* instance_type);
  Node* IsShortExternalStringInstanceType(Node* instance_type);
-  Node* IsSpecialReceiverInstanceType(Node* instance_type);
+  TNode<BoolT> IsSpecialReceiverInstanceType(Node* instance_type);
  Node* IsSpecialReceiverMap(Node* map);
  Node* IsStringInstanceType(Node* instance_type);
  Node* IsString(Node* object);
@@ -1763,7 +1763,7 @@ class V8_EXPORT_PRIVATE CodeStubAssembler : public compiler::CodeAssembler {
  // used for a property store or deletion.
  void CheckForAssociatedProtector(Node* name, Label* if_protector);

-  Node* LoadReceiverMap(Node* receiver);
+  TNode<Map> LoadReceiverMap(SloppyTNode<Object> receiver);

  // Emits keyed sloppy arguments load. Returns either the loaded value.
  Node* LoadKeyedSloppyArguments(Node* receiver, Node* key, Label* bailout) {
@@ -2057,6 +2057,9 @@ class V8_EXPORT_PRIVATE CodeStubAssembler : public compiler::CodeAssembler {
                                   TNode<Smi> length, TNode<String> first,
                                   TNode<String> second, AllocationFlags flags);

+  Node* SelectImpl(TNode<BoolT> condition, const NodeGenerator& true_body,
+                   const NodeGenerator& false_body, MachineRepresentation rep);
+
  // Implements DescriptorArray::number_of_entries.
  // Returns an untagged int32.
  Node* DescriptorArrayNumberOfEntries(Node* descriptors);

--- a/src/ic/accessor-assembler.cc
+++ b/src/ic/accessor-assembler.cc
@@ -17,14 +17,17 @@ namespace internal {

 using compiler::CodeAssemblerState;
 using compiler::Node;
+using compiler::TNode;
+using compiler::SloppyTNode;

 //////////////////// Private helpers.

 // Loads dataX field from the DataHandler object.
-Node* AccessorAssembler::LoadHandlerDataField(Node* handler, int data_index) {
+TNode<Object> AccessorAssembler::LoadHandlerDataField(
+    SloppyTNode<DataHandler> handler, int data_index) {
 #ifdef DEBUG
-  Node* handler_map = LoadMap(handler);
-  Node* instance_type = LoadMapInstanceType(handler_map);
+  TNode<Map> handler_map = LoadMap(handler);
+  TNode<Int32T> instance_type = LoadMapInstanceType(handler_map);
 #endif
  CSA_ASSERT(this,
             Word32Or(InstanceTypeEqual(instance_type, LOAD_HANDLER_TYPE),
@@ -467,11 +470,10 @@ void AccessorAssembler::HandleLoadICSmiHandlerCase(

    // Context is stored either in data2 or data3 field depending on whether
    // the access check is enabled for this handler or not.
-    Node* context_cell = Select(
+    TNode<Object> context_cell = Select<Object>(
        IsSetWord<LoadHandler::DoAccessCheckOnReceiverBits>(handler_word),
        [=] { return LoadHandlerDataField(handler, 3); },
-        [=] { return LoadHandlerDataField(handler, 2); },
-        MachineRepresentation::kTagged);
+        [=] { return LoadHandlerDataField(handler, 2); });

    Node* context = LoadWeakCellValueUnchecked(context_cell);
    Node* foreign =
@@ -1303,11 +1305,10 @@ void AccessorAssembler::HandleStoreICProtoHandler(

      // Context is stored either in data2 or data3 field depending on whether
      // the access check is enabled for this handler or not.
-      Node* context_cell = Select(
+      TNode<Object> context_cell = Select<Object>(
          IsSetWord<LoadHandler::DoAccessCheckOnReceiverBits>(handler_word),
          [=] { return LoadHandlerDataField(handler, 3); },
-          [=] { return LoadHandlerDataField(handler, 2); },
-          MachineRepresentation::kTagged);
+          [=] { return LoadHandlerDataField(handler, 2); });

      Node* context = LoadWeakCellValueUnchecked(context_cell);


--- a/src/ic/accessor-assembler.h
+++ b/src/ic/accessor-assembler.h
@@ -18,7 +18,11 @@ class ExitPoint;

 class AccessorAssembler : public CodeStubAssembler {
 public:
-  typedef compiler::Node Node;
+  using Node = compiler::Node;
+  template <class T>
+  using TNode = compiler::TNode<T>;
+  template <class T>
+  using SloppyTNode = compiler::SloppyTNode<T>;

  explicit AccessorAssembler(compiler::CodeAssemblerState* state)
      : CodeStubAssembler(state) {}
@@ -85,7 +89,8 @@ class AccessorAssembler : public CodeStubAssembler {
  void LoadIC_BytecodeHandler(const LoadICParameters* p, ExitPoint* exit_point);

  // Loads dataX field from the DataHandler object.
-  Node* LoadHandlerDataField(Node* handler, int data_index);
+  TNode<Object> LoadHandlerDataField(SloppyTNode<DataHandler> handler,
+                                     int data_index);

 protected:
  struct StoreICParameters : public LoadICParameters {

--- a/src/interpreter/interpreter-intrinsics-generator.cc
+++ b/src/interpreter/interpreter-intrinsics-generator.cc
@@ -20,6 +20,7 @@ namespace internal {
 namespace interpreter {

 using compiler::Node;
+using compiler::TNode;

 class IntrinsicsGenerator {
 public:
@@ -132,23 +133,21 @@ Node* IntrinsicsGenerator::CompareInstanceType(Node* object, int type,
 }

 Node* IntrinsicsGenerator::IsInstanceType(Node* input, int type) {
-  Node* result =
-      __ Select(__ TaggedIsSmi(input), [=] { return __ FalseConstant(); },
-                [=] {
-                  return __ SelectBooleanConstant(
-                      CompareInstanceType(input, type, kInstanceTypeEqual));
-                },
-                MachineRepresentation::kTagged);
+  TNode<Oddball> result = __ Select<Oddball>(
+      __ TaggedIsSmi(input), [=] { return __ FalseConstant(); },
+      [=] {
+        return __ SelectBooleanConstant(
+            CompareInstanceType(input, type, kInstanceTypeEqual));
+      });
  return result;
 }

 Node* IntrinsicsGenerator::IsJSReceiver(
    const InterpreterAssembler::RegListNodePair& args, Node* context) {
  Node* input = __ LoadRegisterFromRegisterList(args, 0);
-  Node* result = __ Select(
+  TNode<Oddball> result = __ Select<Oddball>(
      __ TaggedIsSmi(input), [=] { return __ FalseConstant(); },
-      [=] { return __ SelectBooleanConstant(__ IsJSReceiver(input)); },
-      MachineRepresentation::kTagged);
+      [=] { return __ SelectBooleanConstant(__ IsJSReceiver(input)); });
  return result;
 }