Vendor import of llvm trunk r154661:

http://llvm.org/svn/llvm-project/llvm/trunk@r154661

1 files changed, 105 insertions, 24 deletions

diff --git a/include/llvm/ADT/ArrayRef.h b/include/llvm/ADT/ArrayRef.h
index 33a8c65..f4c8e55 100644
--- a/include/llvm/ADT/ArrayRef.h
+++ b/include/llvm/ADT/ArrayRef.h
@@ -14,8 +14,7 @@
 #include <vector>
 
 namespace llvm {
-  class APInt;
-  
+
   /// ArrayRef - Represent a constant reference to an array (0 or more elements
   /// consecutively in memory), i.e. a start pointer and a length.  It allows
   /// various APIs to take consecutive elements easily and conveniently.
@@ -33,33 +32,33 @@ namespace llvm {
     typedef const T *iterator;
     typedef const T *const_iterator;
     typedef size_t size_type;
-    
+
   private:
     /// The start of the array, in an external buffer.
     const T *Data;
-    
+
     /// The number of elements.
     size_type Length;
-    
+
   public:
     /// @name Constructors
     /// @{
-    
+
     /// Construct an empty ArrayRef.
     /*implicit*/ ArrayRef() : Data(0), Length(0) {}
-    
+
     /// Construct an ArrayRef from a single element.
     /*implicit*/ ArrayRef(const T &OneElt)
       : Data(&OneElt), Length(1) {}
-    
+
     /// Construct an ArrayRef from a pointer and length.
     /*implicit*/ ArrayRef(const T *data, size_t length)
       : Data(data), Length(length) {}
-    
+
     /// Construct an ArrayRef from a range.
     ArrayRef(const T *begin, const T *end)
       : Data(begin), Length(end - begin) {}
-    
+
     /// Construct an ArrayRef from a SmallVector.
     /*implicit*/ ArrayRef(const SmallVectorImpl<T> &Vec)
       : Data(Vec.data()), Length(Vec.size()) {}
@@ -67,39 +66,39 @@ namespace llvm {
     /// Construct an ArrayRef from a std::vector.
     /*implicit*/ ArrayRef(const std::vector<T> &Vec)
       : Data(Vec.empty() ? (T*)0 : &Vec[0]), Length(Vec.size()) {}
-    
+
     /// Construct an ArrayRef from a C array.
     template <size_t N>
     /*implicit*/ ArrayRef(const T (&Arr)[N])
       : Data(Arr), Length(N) {}
-    
+
     /// @}
     /// @name Simple Operations
     /// @{
 
     iterator begin() const { return Data; }
     iterator end() const { return Data + Length; }
-    
+
     /// empty - Check if the array is empty.
     bool empty() const { return Length == 0; }
-    
+
     const T *data() const { return Data; }
-    
+
     /// size - Get the array size.
     size_t size() const { return Length; }
-    
+
     /// front - Get the first element.
     const T &front() const {
       assert(!empty());
       return Data[0];
     }
-    
+
     /// back - Get the last element.
     const T &back() const {
       assert(!empty());
       return Data[Length-1];
     }
-    
+
     /// equals - Check for element-wise equality.
     bool equals(ArrayRef RHS) const {
       if (Length != RHS.Length)
@@ -111,18 +110,18 @@ namespace llvm {
     }
 
     /// slice(n) - Chop off the first N elements of the array.
-    ArrayRef<T> slice(unsigned N) {
+    ArrayRef<T> slice(unsigned N) const {
       assert(N <= size() && "Invalid specifier");
       return ArrayRef<T>(data()+N, size()-N);
     }
 
     /// slice(n, m) - Chop off the first N elements of the array, and keep M
     /// elements in the array.
-    ArrayRef<T> slice(unsigned N, unsigned M) {
+    ArrayRef<T> slice(unsigned N, unsigned M) const {
       assert(N+M <= size() && "Invalid specifier");
       return ArrayRef<T>(data()+N, M);
     }
-    
+
     /// @}
     /// @name Operator Overloads
     /// @{
@@ -130,22 +129,104 @@ namespace llvm {
       assert(Index < Length && "Invalid index!");
       return Data[Index];
     }
-    
+
     /// @}
     /// @name Expensive Operations
     /// @{
     std::vector<T> vec() const {
       return std::vector<T>(Data, Data+Length);
     }
-    
+
     /// @}
     /// @name Conversion operators
     /// @{
     operator std::vector<T>() const {
       return std::vector<T>(Data, Data+Length);
     }
+
+    /// @}
+  };
+
+  /// MutableArrayRef - Represent a mutable reference to an array (0 or more
+  /// elements consecutively in memory), i.e. a start pointer and a length.  It
+  /// allows various APIs to take and modify consecutive elements easily and
+  /// conveniently.
+  ///
+  /// This class does not own the underlying data, it is expected to be used in
+  /// situations where the data resides in some other buffer, whose lifetime
+  /// extends past that of the MutableArrayRef. For this reason, it is not in
+  /// general safe to store a MutableArrayRef.
+  ///
+  /// This is intended to be trivially copyable, so it should be passed by
+  /// value.
+  template<typename T>
+  class MutableArrayRef : public ArrayRef<T> {
+  public:
+    typedef T *iterator;
+
+    /// Construct an empty ArrayRef.
+    /*implicit*/ MutableArrayRef() : ArrayRef<T>() {}
+    
+    /// Construct an MutableArrayRef from a single element.
+    /*implicit*/ MutableArrayRef(T &OneElt) : ArrayRef<T>(OneElt) {}
+    
+    /// Construct an MutableArrayRef from a pointer and length.
+    /*implicit*/ MutableArrayRef(T *data, size_t length)
+      : ArrayRef<T>(data, length) {}
+    
+    /// Construct an MutableArrayRef from a range.
+    MutableArrayRef(T *begin, T *end) : ArrayRef<T>(begin, end) {}
+    
+    /// Construct an MutableArrayRef from a SmallVector.
+    /*implicit*/ MutableArrayRef(SmallVectorImpl<T> &Vec)
+    : ArrayRef<T>(Vec) {}
+    
+    /// Construct a MutableArrayRef from a std::vector.
+    /*implicit*/ MutableArrayRef(std::vector<T> &Vec)
+    : ArrayRef<T>(Vec) {}
+    
+    /// Construct an MutableArrayRef from a C array.
+    template <size_t N>
+    /*implicit*/ MutableArrayRef(T (&Arr)[N])
+      : ArrayRef<T>(Arr) {}
+    
+    T *data() const { return const_cast<T*>(ArrayRef<T>::data()); }
+
+    iterator begin() const { return data(); }
+    iterator end() const { return data() + this->size(); }
+    
+    /// front - Get the first element.
+    T &front() const {
+      assert(!this->empty());
+      return data()[0];
+    }
+    
+    /// back - Get the last element.
+    T &back() const {
+      assert(!this->empty());
+      return data()[this->size()-1];
+    }
+
+    /// slice(n) - Chop off the first N elements of the array.
+    MutableArrayRef<T> slice(unsigned N) const {
+      assert(N <= this->size() && "Invalid specifier");
+      return MutableArrayRef<T>(data()+N, this->size()-N);
+    }
+    
+    /// slice(n, m) - Chop off the first N elements of the array, and keep M
+    /// elements in the array.
+    MutableArrayRef<T> slice(unsigned N, unsigned M) const {
+      assert(N+M <= this->size() && "Invalid specifier");
+      return MutableArrayRef<T>(data()+N, M);
+    }
     
     /// @}
+    /// @name Operator Overloads
+    /// @{
+    T &operator[](size_t Index) const {
+      assert(Index < this->size() && "Invalid index!");
+      return data()[Index];
+    }
   };
 
   /// @name ArrayRef Convenience constructors
@@ -215,5 +296,5 @@ namespace llvm {
     static const bool value = true;
   };
 }
-
+  
 #endif