Kiss goodbye to MaybeObject.

src/heap.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_HEAP_H_
 #define V8_HEAP_H_
 
 #include <cmath>
 
 #include "allocation.h"
@@ skipping 666 matching lines @@
 
   Address* OldDataSpaceAllocationTopAddress() {
     return old_data_space_->allocation_top_address();
   }
   Address* OldDataSpaceAllocationLimitAddress() {
     return old_data_space_->allocation_limit_address();
   }
 
   // Returns a deep copy of the JavaScript object.
   // Properties and elements are copied too.
-  // Returns failure if allocation failed.
   // Optionally takes an AllocationSite to be appended in an AllocationMemento.
-  MUST_USE_RESULT MaybeObject* CopyJSObject(JSObject* source,
-                                            AllocationSite* site = NULL);
+  MUST_USE_RESULT AllocationResult CopyJSObject(JSObject* source,
+                                                AllocationSite* site = NULL);
 
   // Clear the Instanceof cache (used when a prototype changes).
   inline void ClearInstanceofCache();
 
   // Iterates the whole code space to clear all ICs of the given kind.
   void ClearAllICsByKind(Code::Kind kind);
 
   // For use during bootup.
   void RepairFreeListsAfterBoot();
 
   template<typename T>
   static inline bool IsOneByte(T t, int chars);
 
   // Move len elements within a given array from src_index index to dst_index
   // index.
   void MoveElements(FixedArray* array, int dst_index, int src_index, int len);
 
   // Sloppy mode arguments object size.
   static const int kSloppyArgumentsObjectSize =
       JSObject::kHeaderSize + 2 * kPointerSize;
   // Strict mode arguments has no callee so it is smaller.
   static const int kStrictArgumentsObjectSize =
       JSObject::kHeaderSize + 1 * kPointerSize;
   // Indicies for direct access into argument objects.
   static const int kArgumentsLengthIndex = 0;
   // callee is only valid in sloppy mode.
   static const int kArgumentsCalleeIndex = 1;
 
-  // Converts an int into either a Smi or a HeapNumber object.
-  // Returns Failure::RetryAfterGC(requested_bytes, space) if the allocation
-  // failed.
-  // Please note this does not perform a garbage collection.
-  MUST_USE_RESULT inline MaybeObject* NumberFromUint32(
-      uint32_t value, PretenureFlag pretenure = NOT_TENURED);
-
   // Finalizes an external string by deleting the associated external
   // data and clearing the resource pointer.
   inline void FinalizeExternalString(String* string);
 
   // Initialize a filler object to keep the ability to iterate over the heap
   // when shortening objects.
   void CreateFillerObjectAt(Address addr, int size);
 
   bool CanMoveObjectStart(HeapObject* object);
 
@@ skipping 697 matching lines @@
 
   void EnsureWeakObjectToCodeTable();
 
   static void FatalProcessOutOfMemory(const char* location,
                                       bool take_snapshot = false);
 
  protected:
   // Methods made available to tests.
 
   // Allocates a JS Map in the heap.
-  MUST_USE_RESULT MaybeObject* AllocateMap(
+  MUST_USE_RESULT AllocationResult AllocateMap(
       InstanceType instance_type,
       int instance_size,
       ElementsKind elements_kind = TERMINAL_FAST_ELEMENTS_KIND);
 
   // Allocates and initializes a new JavaScript object based on a
   // constructor.
   // If allocation_site is non-null, then a memento is emitted after the object
   // that points to the site.
-  MUST_USE_RESULT MaybeObject* AllocateJSObject(
+  MUST_USE_RESULT AllocationResult AllocateJSObject(
       JSFunction* constructor,
       PretenureFlag pretenure = NOT_TENURED,
       AllocationSite* allocation_site = NULL);
 
   // Allocates and initializes a new JavaScript object based on a map.
   // Passing an allocation site means that a memento will be created that
   // points to the site.
-  MUST_USE_RESULT MaybeObject* AllocateJSObjectFromMap(
+  MUST_USE_RESULT AllocationResult AllocateJSObjectFromMap(
       Map* map,
       PretenureFlag pretenure = NOT_TENURED,
       bool alloc_props = true,
       AllocationSite* allocation_site = NULL);
 
   // Allocated a HeapNumber from value.
-  MUST_USE_RESULT MaybeObject* AllocateHeapNumber(
+  MUST_USE_RESULT AllocationResult AllocateHeapNumber(
       double value, PretenureFlag pretenure = NOT_TENURED);
 
   // Allocate a byte array of the specified length
-  MUST_USE_RESULT MaybeObject* AllocateByteArray(
+  MUST_USE_RESULT AllocationResult AllocateByteArray(
       int length,
       PretenureFlag pretenure = NOT_TENURED);
 
   // Allocates an arguments object - optionally with an elements array.
-  MUST_USE_RESULT MaybeObject* AllocateArgumentsObject(
+  MUST_USE_RESULT AllocationResult AllocateArgumentsObject(
       Object* callee, int length);
 
   // Copy the code and scope info part of the code object, but insert
   // the provided data as the relocation information.
-  MUST_USE_RESULT MaybeObject* CopyCode(Code* code, Vector<byte> reloc_info);
+  MUST_USE_RESULT AllocationResult CopyCode(Code* code,
+                                            Vector<byte> reloc_info);
 
-  MUST_USE_RESULT MaybeObject* CopyCode(Code* code);
+  MUST_USE_RESULT AllocationResult CopyCode(Code* code);
 
   // Allocates a fixed array initialized with undefined values
-  MUST_USE_RESULT MaybeObject* AllocateFixedArray(
+  MUST_USE_RESULT AllocationResult AllocateFixedArray(
       int length,
       PretenureFlag pretenure = NOT_TENURED);
 
  private:
   Heap();
 
   // This can be calculated directly from a pointer to the heap; however, it is
   // more expedient to get at the isolate directly from within Heap methods.
   Isolate* isolate_;
 
@@ skipping 235 matching lines @@
     ASSERT(preferred_old_space == OLD_POINTER_SPACE ||
            preferred_old_space == OLD_DATA_SPACE);
     if (object_size > Page::kMaxRegularHeapObjectSize) return LO_SPACE;
     return (pretenure == TENURED) ? preferred_old_space : NEW_SPACE;
   }
 
   // Allocate an uninitialized object.  The memory is non-executable if the
   // hardware and OS allow.  This is the single choke-point for allocations
   // performed by the runtime and should not be bypassed (to extend this to
   // inlined allocations, use the Heap::DisableInlineAllocation() support).
-  MUST_USE_RESULT inline MaybeObject* AllocateRaw(int size_in_bytes,
-                                                  AllocationSpace space,
-                                                  AllocationSpace retry_space);
+  MUST_USE_RESULT inline AllocationResult AllocateRaw(
+      int size_in_bytes,
+      AllocationSpace space,
+      AllocationSpace retry_space);
 
   // Allocates a heap object based on the map.
-  MUST_USE_RESULT MaybeObject* Allocate(Map* map, AllocationSpace space,
-                                        AllocationSite* allocation_site = NULL);
+  MUST_USE_RESULT AllocationResult Allocate(
+      Map* map,
+      AllocationSpace space,
+      AllocationSite* allocation_site = NULL);
 
   // Allocates a partial map for bootstrapping.
-  MUST_USE_RESULT MaybeObject* AllocatePartialMap(InstanceType instance_type,
-                                                  int instance_size);
+  MUST_USE_RESULT AllocationResult AllocatePartialMap(
+      InstanceType instance_type,
+      int instance_size);
 
   // Initializes a JSObject based on its map.
   void InitializeJSObjectFromMap(JSObject* obj,
                                  FixedArray* properties,
                                  Map* map);
   void InitializeAllocationMemento(AllocationMemento* memento,
                                    AllocationSite* allocation_site);
 
   // Allocate a block of memory in the given space (filled with a filler).
   // Used as a fall-back for generated code when the space is full.
-  MUST_USE_RESULT MaybeObject* AllocateFillerObject(int size,
+  MUST_USE_RESULT AllocationResult AllocateFillerObject(int size,
                                                     bool double_align,
                                                     AllocationSpace space);
 
   // Allocate an uninitialized fixed array.
-  MUST_USE_RESULT MaybeObject* AllocateRawFixedArray(
+  MUST_USE_RESULT AllocationResult AllocateRawFixedArray(
       int length, PretenureFlag pretenure);
 
   // Allocate an uninitialized fixed double array.
-  MUST_USE_RESULT MaybeObject* AllocateRawFixedDoubleArray(
+  MUST_USE_RESULT AllocationResult AllocateRawFixedDoubleArray(
       int length, PretenureFlag pretenure);
 
   // Allocate an initialized fixed array with the given filler value.
-  MUST_USE_RESULT MaybeObject* AllocateFixedArrayWithFiller(
+  MUST_USE_RESULT AllocationResult AllocateFixedArrayWithFiller(
       int length, PretenureFlag pretenure, Object* filler);
 
   // Allocate and partially initializes a String.  There are two String
   // encodings: ASCII and two byte.  These functions allocate a string of the
   // given length and set its map and length fields.  The characters of the
   // string are uninitialized.
-  MUST_USE_RESULT MaybeObject* AllocateRawOneByteString(
+  MUST_USE_RESULT AllocationResult AllocateRawOneByteString(
       int length, PretenureFlag pretenure);
-  MUST_USE_RESULT MaybeObject* AllocateRawTwoByteString(
+  MUST_USE_RESULT AllocationResult AllocateRawTwoByteString(
       int length, PretenureFlag pretenure);
 
   // Allocates and fully initializes a String.  There are two String
   // encodings: ASCII and two byte. One should choose between the three string
   // allocation functions based on the encoding of the string buffer used to
   // initialized the string.
   //   - ...FromAscii initializes the string from a buffer that is ASCII
   //     encoded (it does not check that the buffer is ASCII encoded) and the
   //     result will be ASCII encoded.
   //   - ...FromUTF8 initializes the string from a buffer that is UTF-8
   //     encoded.  If the characters are all single-byte characters, the
   //     result will be ASCII encoded, otherwise it will converted to two
   //     byte.
   //   - ...FromTwoByte initializes the string from a buffer that is two-byte
   //     encoded.  If the characters are all single-byte characters, the
   //     result will be converted to ASCII, otherwise it will be left as
   //     two-byte.
-  MUST_USE_RESULT MaybeObject* AllocateStringFromUtf8Slow(
+  MUST_USE_RESULT AllocationResult AllocateStringFromUtf8Slow(
       Vector<const char> str,
       int non_ascii_start,
       PretenureFlag pretenure = NOT_TENURED);
-  MUST_USE_RESULT MaybeObject* AllocateStringFromTwoByte(
+  MUST_USE_RESULT AllocationResult AllocateStringFromTwoByte(
       Vector<const uc16> str,
       PretenureFlag pretenure = NOT_TENURED);
 
   bool CreateInitialMaps();
   void CreateInitialObjects();
 
   // Allocates an internalized string in old space based on the character
   // stream.
-  MUST_USE_RESULT inline MaybeObject* AllocateInternalizedStringFromUtf8(
+  MUST_USE_RESULT inline AllocationResult AllocateInternalizedStringFromUtf8(
       Vector<const char> str,
       int chars,
       uint32_t hash_field);
 
-  MUST_USE_RESULT inline MaybeObject* AllocateOneByteInternalizedString(
+  MUST_USE_RESULT inline AllocationResult AllocateOneByteInternalizedString(
         Vector<const uint8_t> str,
         uint32_t hash_field);
 
-  MUST_USE_RESULT inline MaybeObject* AllocateTwoByteInternalizedString(
+  MUST_USE_RESULT inline AllocationResult AllocateTwoByteInternalizedString(
         Vector<const uc16> str,
         uint32_t hash_field);
 
   template<bool is_one_byte, typename T>
-  MUST_USE_RESULT MaybeObject* AllocateInternalizedStringImpl(
+  MUST_USE_RESULT AllocationResult AllocateInternalizedStringImpl(
       T t, int chars, uint32_t hash_field);
 
   template<typename T>
-  MUST_USE_RESULT inline MaybeObject* AllocateInternalizedStringImpl(
+  MUST_USE_RESULT inline AllocationResult AllocateInternalizedStringImpl(
       T t, int chars, uint32_t hash_field);
 
   // Allocates an uninitialized fixed array. It must be filled by the caller.
-  MUST_USE_RESULT MaybeObject* AllocateUninitializedFixedArray(int length);
+  MUST_USE_RESULT AllocationResult AllocateUninitializedFixedArray(int length);
 
   // Make a copy of src and return it. Returns
   // Failure::RetryAfterGC(requested_bytes, space) if the allocation failed.
-  MUST_USE_RESULT inline MaybeObject* CopyFixedArray(FixedArray* src);
+  MUST_USE_RESULT inline AllocationResult CopyFixedArray(FixedArray* src);
 
   // Make a copy of src, set the map, and return the copy. Returns
   // Failure::RetryAfterGC(requested_bytes, space) if the allocation failed.
-  MUST_USE_RESULT MaybeObject* CopyFixedArrayWithMap(FixedArray* src, Map* map);
+  MUST_USE_RESULT AllocationResult CopyFixedArrayWithMap(FixedArray* src,
+                                                         Map* map);
 
   // Make a copy of src and return it. Returns
   // Failure::RetryAfterGC(requested_bytes, space) if the allocation failed.
-  MUST_USE_RESULT inline MaybeObject* CopyFixedDoubleArray(
+  MUST_USE_RESULT inline AllocationResult CopyFixedDoubleArray(
       FixedDoubleArray* src);
 
   // Make a copy of src and return it. Returns
   // Failure::RetryAfterGC(requested_bytes, space) if the allocation failed.
-  MUST_USE_RESULT inline MaybeObject* CopyConstantPoolArray(
+  MUST_USE_RESULT inline AllocationResult CopyConstantPoolArray(
       ConstantPoolArray* src);
 
 
   // Computes a single character string where the character has code.
   // A cache is used for ASCII codes.
-  MUST_USE_RESULT MaybeObject* LookupSingleCharacterStringFromCode(
+  MUST_USE_RESULT AllocationResult LookupSingleCharacterStringFromCode(
       uint16_t code);
 
   // Allocate a symbol in old space.
-  MUST_USE_RESULT MaybeObject* AllocateSymbol();
+  MUST_USE_RESULT AllocationResult AllocateSymbol();
 
   // Make a copy of src, set the map, and return the copy.
-  MUST_USE_RESULT MaybeObject* CopyConstantPoolArrayWithMap(
+  MUST_USE_RESULT AllocationResult CopyConstantPoolArrayWithMap(
       ConstantPoolArray* src, Map* map);
 
-  MUST_USE_RESULT MaybeObject* AllocateConstantPoolArray(
+  MUST_USE_RESULT AllocationResult AllocateConstantPoolArray(
       int number_of_int64_entries,
       int number_of_code_ptr_entries,
       int number_of_heap_ptr_entries,
       int number_of_int32_entries);
 
   // Allocates an external array of the specified length and type.
-  MUST_USE_RESULT MaybeObject* AllocateExternalArray(
+  MUST_USE_RESULT AllocationResult AllocateExternalArray(
       int length,
       ExternalArrayType array_type,
       void* external_pointer,
       PretenureFlag pretenure);
 
   // Allocates a fixed typed array of the specified length and type.
-  MUST_USE_RESULT MaybeObject* AllocateFixedTypedArray(
+  MUST_USE_RESULT AllocationResult AllocateFixedTypedArray(
       int length,
       ExternalArrayType array_type,
       PretenureFlag pretenure);
 
   // Make a copy of src and return it.
-  MUST_USE_RESULT MaybeObject* CopyAndTenureFixedCOWArray(FixedArray* src);
+  MUST_USE_RESULT AllocationResult CopyAndTenureFixedCOWArray(FixedArray* src);
 
   // Make a copy of src, set the map, and return the copy.
-  MUST_USE_RESULT MaybeObject* CopyFixedDoubleArrayWithMap(
+  MUST_USE_RESULT AllocationResult CopyFixedDoubleArrayWithMap(
       FixedDoubleArray* src, Map* map);
 
   // Allocates a fixed double array with uninitialized values. Returns
-  MUST_USE_RESULT MaybeObject* AllocateUninitializedFixedDoubleArray(
+  MUST_USE_RESULT AllocationResult AllocateUninitializedFixedDoubleArray(
       int length,
       PretenureFlag pretenure = NOT_TENURED);
 
   // These five Create*EntryStub functions are here and forced to not be inlined
   // because of a gcc-4.4 bug that assigns wrong vtable entries.
   NO_INLINE(void CreateJSEntryStub());
   NO_INLINE(void CreateJSConstructEntryStub());
 
   void CreateFixedStubs();
 
   // Allocate empty fixed array.
-  MUST_USE_RESULT MaybeObject* AllocateEmptyFixedArray();
+  MUST_USE_RESULT AllocationResult AllocateEmptyFixedArray();
 
   // Allocate empty external array of given type.
-  MUST_USE_RESULT MaybeObject* AllocateEmptyExternalArray(
+  MUST_USE_RESULT AllocationResult AllocateEmptyExternalArray(
       ExternalArrayType array_type);
 
   // Allocate empty fixed typed array of given type.
-  MUST_USE_RESULT MaybeObject* AllocateEmptyFixedTypedArray(
+  MUST_USE_RESULT AllocationResult AllocateEmptyFixedTypedArray(
       ExternalArrayType array_type);
 
   // Allocate empty constant pool array.
-  MUST_USE_RESULT MaybeObject* AllocateEmptyConstantPoolArray();
+  MUST_USE_RESULT AllocationResult AllocateEmptyConstantPoolArray();
 
   // Allocate a tenured simple cell.
-  MUST_USE_RESULT MaybeObject* AllocateCell(Object* value);
+  MUST_USE_RESULT AllocationResult AllocateCell(Object* value);
 
   // Allocate a tenured JS global property cell initialized with the hole.
-  MUST_USE_RESULT MaybeObject* AllocatePropertyCell();
+  MUST_USE_RESULT AllocationResult AllocatePropertyCell();
 
   // Allocates a new utility object in the old generation.
-  MUST_USE_RESULT MaybeObject* AllocateStruct(InstanceType type);
+  MUST_USE_RESULT AllocationResult AllocateStruct(InstanceType type);
 
   // Allocates a new foreign object.
-  MUST_USE_RESULT MaybeObject* AllocateForeign(
+  MUST_USE_RESULT AllocationResult AllocateForeign(
       Address address, PretenureFlag pretenure = NOT_TENURED);
 
-  MUST_USE_RESULT MaybeObject* AllocateCode(int object_size, bool immovable);
+  MUST_USE_RESULT AllocationResult AllocateCode(int object_size,
+                                                bool immovable);
 
-  MUST_USE_RESULT MaybeObject* InternalizeStringWithKey(HashTableKey* key);
+  MUST_USE_RESULT AllocationResult InternalizeStringWithKey(HashTableKey* key);
 
-  MUST_USE_RESULT MaybeObject* InternalizeString(String* str);
+  MUST_USE_RESULT AllocationResult InternalizeString(String* str);
 
   // Performs a minor collection in new generation.
   void Scavenge();
 
   // Commits from space if it is uncommitted.
   void EnsureFromSpaceIsCommitted();
 
   // Uncommit unused semi space.
   bool UncommitFromSpace() { return new_space_.UncommitFromSpace(); }
 
@@ skipping 859 matching lines @@
   DisallowHeapAllocation no_allocation;  // i.e. no gc allowed.
 
  private:
   DISALLOW_IMPLICIT_CONSTRUCTORS(PathTracer);
 };
 #endif  // DEBUG
 
 } }  // namespace v8::internal
 
 #endif  // V8_HEAP_H_