[TypeFeedbackVector] special ic slots for interpreter compare/binary ops.

src/type-feedback-vector-inl.h

 // Copyright 2012 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.
 
 #ifndef V8_TYPE_FEEDBACK_VECTOR_INL_H_
 #define V8_TYPE_FEEDBACK_VECTOR_INL_H_
 
+#include "globals.h"
 #include "src/type-feedback-vector.h"
 
 namespace v8 {
 namespace internal {
 
 
 template <typename Derived>
 FeedbackVectorSlot FeedbackVectorSpecBase<Derived>::AddSlot(
     FeedbackVectorSlotKind kind) {
   int slot = This()->slots();
@@ skipping 27 matching lines @@
 // static
 TypeFeedbackVector* TypeFeedbackVector::cast(Object* obj) {
   DCHECK(obj->IsTypeFeedbackVector());
   return reinterpret_cast<TypeFeedbackVector*>(obj);
 }
 
 
 int TypeFeedbackMetadata::GetSlotSize(FeedbackVectorSlotKind kind) {
   DCHECK_NE(FeedbackVectorSlotKind::INVALID, kind);
   DCHECK_NE(FeedbackVectorSlotKind::KINDS_NUMBER, kind);
-  return kind == FeedbackVectorSlotKind::GENERAL ? 1 : 2;
+  if (kind == FeedbackVectorSlotKind::GENERAL ||
+      kind == FeedbackVectorSlotKind::INTERPRETER_BINARYOP_IC ||
+      kind == FeedbackVectorSlotKind::INTERPRETER_COMPARE_IC) {
+    return 1;
+  }
+
+  return 2;
 }
 
 bool TypeFeedbackMetadata::SlotRequiresName(FeedbackVectorSlotKind kind) {
   switch (kind) {
     case FeedbackVectorSlotKind::LOAD_GLOBAL_IC:
       return true;
 
     case FeedbackVectorSlotKind::CALL_IC:
     case FeedbackVectorSlotKind::LOAD_IC:
     case FeedbackVectorSlotKind::KEYED_LOAD_IC:
     case FeedbackVectorSlotKind::STORE_IC:
     case FeedbackVectorSlotKind::KEYED_STORE_IC:
+    case FeedbackVectorSlotKind::INTERPRETER_BINARYOP_IC:
+    case FeedbackVectorSlotKind::INTERPRETER_COMPARE_IC:
     case FeedbackVectorSlotKind::GENERAL:
     case FeedbackVectorSlotKind::INVALID:
       return false;
 
     case FeedbackVectorSlotKind::KINDS_NUMBER:
       break;
   }
   UNREACHABLE();
   return false;
 }
@@ skipping 26 matching lines @@
 Object* TypeFeedbackVector::Get(FeedbackVectorSlot slot) const {
   return get(GetIndex(slot));
 }
 
 
 void TypeFeedbackVector::Set(FeedbackVectorSlot slot, Object* value,
                              WriteBarrierMode mode) {
   set(GetIndex(slot), value, mode);
 }
 
+// Helper function to transform the feedback to BinaryOperationHint.
+BinaryOperationHint BinaryOperationHintFromFeedback(int type_feedback) {
+  switch (type_feedback) {
+    case BinaryOperationFeedback::kSignedSmall:
+      return BinaryOperationHint::kSignedSmall;
+    case BinaryOperationFeedback::kNumber:
+      return BinaryOperationHint::kNumberOrOddball;
+    case BinaryOperationFeedback::kAny:
+    default:
+      return BinaryOperationHint::kAny;
+  }
+  UNREACHABLE();
+  return BinaryOperationHint::kNone;
+}
 
-void TypeFeedbackVector::ComputeCounts(int* with_type_info, int* generic) {
+// Helper function to transform the feedback to CompareOperationHint.
+CompareOperationHint CompareOperationHintFromFeedback(int type_feedback) {
+  switch (type_feedback) {
+    case CompareOperationFeedback::kSignedSmall:
+      return CompareOperationHint::kSignedSmall;
+    case CompareOperationFeedback::kNumber:
+      return CompareOperationHint::kNumber;
+    default:
+      return CompareOperationHint::kAny;
+  }
+}
+
+void TypeFeedbackVector::ComputeCounts(int* with_type_info, int* generic,
+                                       bool code_is_interpreted) {
   Object* uninitialized_sentinel =
       TypeFeedbackVector::RawUninitializedSentinel(GetIsolate());
   Object* megamorphic_sentinel =
       *TypeFeedbackVector::MegamorphicSentinel(GetIsolate());
   int with = 0;
   int gen = 0;
   TypeFeedbackMetadataIterator iter(metadata());
   while (iter.HasNext()) {
     FeedbackVectorSlot slot = iter.Next();
     FeedbackVectorSlotKind kind = iter.kind();
 
     Object* obj = Get(slot);
     if (obj != uninitialized_sentinel &&
         kind != FeedbackVectorSlotKind::GENERAL) {
-      if (obj->IsWeakCell() || obj->IsFixedArray() || obj->IsString()) {
+      if (kind == FeedbackVectorSlotKind::INTERPRETER_COMPARE_IC ||
+          kind == FeedbackVectorSlotKind::INTERPRETER_BINARYOP_IC) {
+        // If we are not running interpreted code, we need to ignore
+        // the special ic slots for binaryop/compare used by the
+        // interpreter.
+        // TODO(mvstanton): Remove code_is_interpreted when full code
+        // is retired from service.
+        if (code_is_interpreted) continue;
+
+        DCHECK(obj->IsSmi());
+        int op_feedback = static_cast<int>(Smi::cast(obj)->value());
+        if (kind == FeedbackVectorSlotKind::INTERPRETER_COMPARE_IC) {
+          CompareOperationHint hint =
+              CompareOperationHintFromFeedback(op_feedback);
+          if (hint == CompareOperationHint::kAny) {
+            gen++;
+          } else if (hint != CompareOperationHint::kNone) {
+            with++;
+          }
+        } else {
+          DCHECK(kind == FeedbackVectorSlotKind::INTERPRETER_BINARYOP_IC);
+          BinaryOperationHint hint =
+              BinaryOperationHintFromFeedback(op_feedback);
+          if (hint == BinaryOperationHint::kAny) {
+            gen++;
+          } else if (hint != BinaryOperationHint::kNone) {
+            with++;
+          }
+        }
+      } else if (obj->IsWeakCell() || obj->IsFixedArray() || obj->IsString()) {
         with++;
       } else if (obj == megamorphic_sentinel) {
         gen++;
       }
     }
   }
 
   *with_type_info = with;
   *generic = gen;
 }
@@ skipping 57 matching lines @@
   int index = vector()->GetIndex(slot()) + 1;
   vector()->set(index, feedback_extra, mode);
 }
 
 
 Isolate* FeedbackNexus::GetIsolate() const { return vector()->GetIsolate(); }
 }  // namespace internal
 }  // namespace v8
 
 #endif  // V8_TYPE_FEEDBACK_VECTOR_INL_H_