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smart-array-pointer.h
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27 
28 #ifndef V8_SMART_ARRAY_POINTER_H_
29 #define V8_SMART_ARRAY_POINTER_H_
30 
31 namespace v8 {
32 namespace internal {
33 
34 
35 // A 'scoped array pointer' that calls DeleteArray on its pointer when the
36 // destructor is called.
37 template<typename T>
39  public:
40  // Default constructor. Constructs an empty scoped pointer.
41  inline SmartArrayPointer() : p_(NULL) {}
42 
43  // Constructs a scoped pointer from a plain one.
44  explicit inline SmartArrayPointer(T* ptr) : p_(ptr) {}
45 
46  // Copy constructor removes the pointer from the original to avoid double
47  // freeing.
48  inline SmartArrayPointer(const SmartArrayPointer<T>& rhs) : p_(rhs.p_) {
49  const_cast<SmartArrayPointer<T>&>(rhs).p_ = NULL;
50  }
51 
52  // When the destructor of the scoped pointer is executed the plain pointer
53  // is deleted using DeleteArray. This implies that you must allocate with
54  // NewArray.
55  inline ~SmartArrayPointer() { if (p_) DeleteArray(p_); }
56 
57  inline T* operator->() const { return p_; }
58 
59  // You can get the underlying pointer out with the * operator.
60  inline T* operator*() { return p_; }
61 
62  // You can use [n] to index as if it was a plain pointer
63  inline T& operator[](size_t i) {
64  return p_[i];
65  }
66 
67  // We don't have implicit conversion to a T* since that hinders migration:
68  // You would not be able to change a method from returning a T* to
69  // returning an SmartArrayPointer<T> and then get errors wherever it is used.
70 
71 
72  // If you want to take out the plain pointer and don't want it automatically
73  // deleted then call Detach(). Afterwards, the smart pointer is empty
74  // (NULL).
75  inline T* Detach() {
76  T* temp = p_;
77  p_ = NULL;
78  return temp;
79  }
80 
81  // Assignment requires an empty (NULL) SmartArrayPointer as the receiver. Like
82  // the copy constructor it removes the pointer in the original to avoid
83  // double freeing.
85  ASSERT(is_empty());
86  T* tmp = rhs.p_; // swap to handle self-assignment
87  const_cast<SmartArrayPointer<T>&>(rhs).p_ = NULL;
88  p_ = tmp;
89  return *this;
90  }
91 
92  inline bool is_empty() { return p_ == NULL; }
93 
94  private:
95  T* p_;
96 };
97 
98 } } // namespace v8::internal
99 
100 #endif // V8_SMART_ARRAY_POINTER_H_
SmartArrayPointer & operator=(const SmartArrayPointer< T > &rhs)
#define ASSERT(condition)
Definition: checks.h:270
#define T(name, string, precedence)
Definition: token.cc:48
SmartArrayPointer(const SmartArrayPointer< T > &rhs)
activate correct semantics for inheriting readonliness enable harmony semantics for typeof enable harmony enable harmony proxies enable all harmony harmony_scoping harmony_proxies harmony_scoping tracks arrays with only smi values automatically unbox arrays of doubles use crankshaft use hydrogen range analysis use hydrogen global value numbering use function inlining maximum number of AST nodes considered for a single inlining loop invariant code motion print statistics for hydrogen trace generated IR for specified phases trace register allocator trace range analysis trace representation types environment for every instruction put a break point before deoptimizing polymorphic inlining perform array bounds checks elimination trace on stack replacement optimize closures functions with arguments object optimize functions containing for in loops profiler considers IC stability primitive functions trigger their own optimization re try self optimization if it failed insert an interrupt check at function exit execution budget before interrupt is triggered call count before self optimization self_optimization count_based_interrupts weighted_back_edges trace_opt emit comments in code disassembly enable use of SSE3 instructions if available enable use of CMOV instruction if available enable use of SAHF instruction if enable use of VFP3 instructions if available this implies enabling ARMv7 enable use of ARMv7 instructions if enable use of MIPS FPU instructions if NULL
Definition: flags.cc:274
void DeleteArray(T *array)
Definition: allocation.h:91