include/ndn-cpp-dev/name.hpp - ndn-cxx - Gitiles

 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil -*- */
 /**
  * Copyright (C) 2013 Regents of the University of California.
  * @author: Jeff Thompson <jefft0@remap.ucla.edu>
  * @author: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
  * @author: Zhenkai Zhu <zhenkai@cs.ucla.edu>
  * See COPYING for copyright and distribution information.
  */

 #ifndef NDN_NAME_HPP
 #define NDN_NAME_HPP

 #include <vector>
 #include <string>
 #include <sstream>
 #include <string.h>
 #include "encoding/block.hpp"

 namespace ndn {

 /**
  * A Name holds an array of Name::Component and represents an NDN name.
  */
 class Name {
 public:
   /**
    * A Name::Component holds a read-only name component value.
    */
   class Component
   {
   public:
     /**
      * Create a new Name::Component with a null value.
      */
     Component()
     {
     }

     // copy constructor OK

     /**
      * Create a new Name::Component, taking another pointer to the Blob value.
      * @param value A blob with a pointer to an immutable array.  The pointer is copied.
      */
     Component(const ConstBufferPtr &buffer)
     : value_ (buffer)
     {
     }

     /**
      * Create a new Name::Component, copying the given value.
      * @param value The value byte array.
      */
     Component(const Buffer& value)
       : value_ (new Buffer(value))
     {
     }

     /**
      * Create a new Name::Component, copying the given value.
      * @param value Pointer to the value byte array.
      * @param valueLen Length of value.
      */
     Component(const uint8_t *value, size_t valueLen)
       : value_ (new Buffer(value, valueLen))
     {
     }

     template<class InputIterator>
     Component(InputIterator begin, InputIterator end)
       : value_ (new Buffer(begin, end))
     {
     }

     Component(const char *string)
       : value_ (new Buffer(string, ::strlen(string)))
     {
     }

     const Buffer&
     getValue() const { return *value_; }

     /**
      * Write this component value to result, escaping characters according to the NDN URI Scheme.
      * This also adds "..." to a value with zero or more ".".
      * @param result the string stream to write to.
      */
     void
     toEscapedString(std::ostream& result) const
     {
       Name::toEscapedString(*value_, result);
     }

     /**
      * Convert this component value by escaping characters according to the NDN URI Scheme.
      * This also adds "..." to a value with zero or more ".".
      * @return The escaped string.
      */
     std::string
     toEscapedString() const
     {
       return Name::toEscapedString(*value_);
     }

     /**
      * Interpret this name component as a network-ordered number and return an integer.
      * @return The integer number.
      */
     uint64_t
     toNumber() const;

     /**
      * Interpret this name component as a network-ordered number with a marker and return an integer.
      * @param marker The required first byte of the component.
      * @return The integer number.
      * @throw runtime_error If the first byte of the component does not equal the marker.
      */
     uint64_t
     toNumberWithMarker(uint8_t marker) const;

     /**
      * Interpret this name component as a segment number according to NDN name conventions (a network-ordered number
      * where the first byte is the marker 0x00).
      * @return The integer segment number.
      * @throw runtime_error If the first byte of the component is not the expected marker.
      */
     uint64_t
     toSegment() const
     {
       return toNumberWithMarker(0x00);
     }

     /**
      * @deprecated Use toSegment.
      */
     uint64_t
     toSeqNum() const
     {
       return toSegment();
     }

     /**
      * Interpret this name component as a version number according to NDN name conventions (a network-ordered number
      * where the first byte is the marker 0xFD).  Note that this returns the exact number from the component
      * without converting it to a time representation.
      * @return The integer segment number.
      * @throw runtime_error If the first byte of the component is not the expected marker.
      */
     uint64_t
     toVersion() const
     {
       return toNumberWithMarker(0xFD);
     }

     /**
      * Create a component whose value is the network-ordered encoding of the number.
      * Note: if the number is zero, the result is empty.
      * @param number The number to be encoded.
      * @return The component value.
      */
     static Component
     fromNumber(uint64_t number);

     /**
      * Create a component whose value is the marker appended with the network-ordered encoding of the number.
      * Note: if the number is zero, no bytes are used for the number - the result will have only the marker.
      * @param number The number to be encoded.
      * @param marker The marker to use as the first byte of the component.
      * @return The component value.
      */
     static Component
     fromNumberWithMarker(uint64_t number, uint8_t marker);

     /**
      * Check if this is the same component as other.
      * @param other The other Component to compare with.
      * @return true if the components are equal, otherwise false.
      */
     bool
     equals(const Component& other) const
     {
       return *value_ == *other.value_;
     }

     bool
     empty() const
     {
       return !value_ || value_->empty();
     }

     /**
      * Check if this is the same component as other.
      * @param other The other Component to compare with.
      * @return true if the components are equal, otherwise false.
      */
     bool
     operator == (const Component& other) const { return equals(other); }

     /**
      * Check if this is not the same component as other.
      * @param other The other Component to compare with.
      * @return true if the components are not equal, otherwise false.
      */
     bool
     operator != (const Component& other) const { return !equals(other); }

     /**
      * Compare this to the other Component using NDN canonical ordering.
      * @param other The other Component to compare with.
      * @return 0 If they compare equal, -1 if *this comes before other in the canonical ordering, or
      * 1 if *this comes after other in the canonical ordering.
      *
      * @see http://named-data.net/doc/0.2/technical/CanonicalOrder.html
      */
     int
     compare(const Component& other) const;

     /**
      * Return true if this is less than or equal to the other Component in the NDN canonical ordering.
      * @param other The other Component to compare with.
      *
      * @see http://named-data.net/doc/0.2/technical/CanonicalOrder.html
      */
     bool
     operator <= (const Component& other) const { return compare(other) <= 0; }

     /**
      * Return true if this is less than the other Component in the NDN canonical ordering.
      * @param other The other Component to compare with.
      *
      * @see http://named-data.net/doc/0.2/technical/CanonicalOrder.html
      */
     bool
     operator < (const Component& other) const { return compare(other) < 0; }

     /**
      * Return true if this is less than or equal to the other Component in the NDN canonical ordering.
      * @param other The other Component to compare with.
      *
      * @see http://named-data.net/doc/0.2/technical/CanonicalOrder.html
      */
     bool
     operator >= (const Component& other) const { return compare(other) >= 0; }

     /**
      * Return true if this is greater than the other Component in the NDN canonical ordering.
      * @param other The other Component to compare with.
      *
      * @see http://named-data.net/doc/0.2/technical/CanonicalOrder.html
      */
     bool
     operator > (const Component& other) const { return compare(other) > 0; }
   private:
     ConstBufferPtr value_;
   };

   /**
    * Create a new Name with no components.
    */
   Name() {
   }

   /**
    * Create a new Name, copying the name components.
    * @param components A vector of Component
    */
   Name(const std::vector<Component>& components)
   : components_(components)
   {
   }

   Name(const Block &name)
   {
     for (Block::element_const_iterator i = name.getAll().begin();
          i != name.getAll().end();
          ++i)
       {
         append(Component(i->value_begin(), i->value_end()));
       }
   }

   /**
    * Parse the uri according to the NDN URI Scheme and create the name with the components.
    * @param uri The URI string.
    */
   Name(const char* uri)
   {
     set(uri);
   }

   /**
    * Parse the uri according to the NDN URI Scheme and create the name with the components.
    * @param uri The URI string.
    */
   Name(const std::string& uri)
   {
     set(uri.c_str());
   }

   const Block &
   wireEncode() const;

   void
   wireDecode(const Block &wire);

   /**
    * Parse the uri according to the NDN URI Scheme and set the name with the components.
    * @param uri The null-terminated URI string.
    */
   void
   set(const char *uri);

   /**
    * Parse the uri according to the NDN URI Scheme and set the name with the components.
    * @param uri The URI string.
    */
   void
   set(const std::string& uri) { set(uri.c_str()); }

   /**
    * Append a new component, copying from value of length valueLength.
    * @return This name so that you can chain calls to append.
    */
   Name&
   append(const uint8_t *value, size_t valueLength)
   {
     components_.push_back(Component(value, valueLength));
     return *this;
   }

   /**
    * Append a new component, copying from value.
    * @return This name so that you can chain calls to append.
    */
   Name&
   append(const Buffer& value)
   {
     components_.push_back(value);
     return *this;
   }

   Name&
   append(const ConstBufferPtr &value)
   {
     components_.push_back(value);
     return *this;
   }

   Name&
   append(const Component &value)
   {
     components_.push_back(value);
     return *this;
   }

   /**
    * @brief Append name component that represented as a string
    *
    * Note that this method is necessary to ensure correctness and unambiguity of
    * ``append("string")`` operations (both Component and Name can be implicitly
    * converted from string, each having different outcomes
    */
   Name&
   append(const char *value)
   {
     components_.push_back(Component(value));
     return *this;
   }

   Name&
   append(const Block &value)
   {
     components_.push_back(Component(value.begin(), value.end()));
     return *this;
   }

   /**
    * Append the components of the given name to this name.
    * @param name The Name with components to append.
    * @return This name so that you can chain calls to append.
    */
   Name&
   append(const Name& name);

   /**
    * @deprecated Use append.
    */
   Name&
   appendComponent(const uint8_t *value, size_t valueLength)
   {
     return append(value, valueLength);
   }

   /**
    * @deprecated Use append.
    */
   Name&
   appendComponent(const Buffer& value)
   {
     return append(value);
   }

   /**
    * @deprecated Use append.
    */
   Name&
   appendComponent(const ConstBufferPtr &value)
   {
     return append(value);
   }

   /**
    * @deprecated Use append.
    */
   Name&
   addComponent(const uint8_t *value, size_t valueLength)
   {
     return append(value, valueLength);
   }

   /**
    * @deprecated Use append.
    */
   Name&
   addComponent(const Buffer& value)
   {
     return append(value);
   }

   /**
    * @deprecated Use append.
    */
   Name&
   addComponent(const ConstBufferPtr &value)
   {
     return append(value);
   }

   /**
    * Clear all the components.
    */
   void
   clear() {
     components_.clear();
   }

   /**
    * @deprecated use size().
    */
   size_t
   getComponentCount() const { return size(); }

   /**
    * @deprecated Use get(i).
    */
   const Component&
   getComponent(size_t i) const { return get(i); }

   /**
    * Get a new name, constructed as a subset of components.
    * @param iStartComponent The index if the first component to get.
    * @param nComponents The number of components starting at iStartComponent.
    * @return A new name.
    */
   Name
   getSubName(size_t iStartComponent, size_t nComponents) const;

   /**
    * Get a new name, constructed as a subset of components starting at iStartComponent until the end of the name.
    * @param iStartComponent The index if the first component to get.
    * @return A new name.
    */
   Name
   getSubName(size_t iStartComponent) const;

   /**
    * Return a new Name with the first nComponents components of this Name.
    * @param nComponents The number of prefix components.  If nComponents is -N then return the prefix up
    * to name.size() - N. For example getPrefix(-1) returns the name without the final component.
    * @return A new Name.
    */
   Name
   getPrefix(int nComponents) const
   {
     if (nComponents < 0)
       return getSubName(0, components_.size() + nComponents);
     else
       return getSubName(0, nComponents);
   }

   /**
    * Encode this name as a URI.
    * @return The encoded URI.
    */
   std::string
   toUri() const;

   /**
    * Append a component with the encoded segment number.
    * @param segment The segment number.
    * @return This name so that you can chain calls to append.
    */
   Name&
   appendSegment(uint64_t segment)
   {
     components_.push_back(Component::fromNumberWithMarker(segment, 0x00));
     return *this;
   }

   /**
    * Append a component with the encoded version number.
    * Note that this encodes the exact value of version without converting from a time representation.
    * @param version The version number.
    * @return This name so that you can chain calls to append.
    */
   Name&
   appendVersion(uint64_t version)
   {
     components_.push_back(Component::fromNumberWithMarker(version, 0xFD));
     return *this;
   }

   /**
    * @brief Append a component with the encoded version number.
    *
    * This version of the method creates version number based on the current timestamp
    * @return This name so that you can chain calls to append.
    */
   Name&
   appendVersion();

   /**
    * Check if this name has the same component count and components as the given name.
    * @param name The Name to check.
    * @return true if the names are equal, otherwise false.
    */
   bool
   equals(const Name& name) const;

   /**
    * Check if the N components of this name are the same as the first N components of the given name.
    * @param name The Name to check.
    * @return true if this matches the given name, otherwise false.  This always returns true if this name is empty.
    */
   bool
   isPrefixOf(const Name& name) const;

   bool
   match(const Name& name) const
   {
     return isPrefixOf(name);
   }

   /**
    * Make a Blob value by decoding the escapedString between beginOffset and endOffset according to the NDN URI Scheme.
    * If the escaped string is "", "." or ".." then return a Blob with a null pointer,
    * which means the component should be skipped in a URI name.
    * @param escapedString The escaped string.  It does not need to be null-terminated because we only scan to endOffset.
    * @param beginOffset The offset in escapedString of the beginning of the portion to decode.
    * @param endOffset The offset in escapedString of the end of the portion to decode.
    * @return The Blob value. If the escapedString is not a valid escaped component, then the Blob is a null pointer.
    */
   static Component
   fromEscapedString(const char *escapedString, size_t beginOffset, size_t endOffset);

   /**
    * Make a Blob value by decoding the escapedString according to the NDN URI Scheme.
    * If the escaped string is "", "." or ".." then return a Blob with a null pointer,
    * which means the component should be skipped in a URI name.
    * @param escapedString The null-terminated escaped string.
    * @return The Blob value. If the escapedString is not a valid escaped component, then the Blob is a null pointer.
    */
   static Component
   fromEscapedString(const char *escapedString);

   /**
    * Make a Blob value by decoding the escapedString according to the NDN URI Scheme.
    * If the escaped string is "", "." or ".." then return a Blob with a null pointer,
    * which means the component should be skipped in a URI name.
    * @param escapedString The escaped string.
    * @return The Blob value. If the escapedString is not a valid escaped component, then the Blob is a null pointer.
    */
   static Component
   fromEscapedString(const std::string& escapedString) { return fromEscapedString(escapedString.c_str()); }

   /**
    * Write the value to result, escaping characters according to the NDN URI Scheme.
    * This also adds "..." to a value with zero or more ".".
    * @param value the buffer with the value to escape
    * @param result the string stream to write to.
    */
   static void
   toEscapedString(const uint8_t *value, size_t valueSize, std::ostream& result);

   inline static void
   toEscapedString(const std::vector<uint8_t>& value, std::ostream& result)
   {
     toEscapedString(&*value.begin(), value.size(), result);
   }

   /**
    * Convert the value by escaping characters according to the NDN URI Scheme.
    * This also adds "..." to a value with zero or more ".".
    * @param value the buffer with the value to escape
    * @return The escaped string.
    */
   inline static std::string
   toEscapedString(const uint8_t *value, size_t valueSize)
   {
     std::ostringstream result;
     toEscapedString(value, valueSize, result);
     return result.str();
   }

   static inline std::string
   toEscapedString(const std::vector<uint8_t>& value)
   {
     return toEscapedString(&*value.begin(), value.size());
   }

   //
   // vector equivalent interface.
   //

   /**
    * @brief Check if name is emtpy
    */
   bool
   empty() const { return components_.empty(); }

   /**
    * Get the number of components.
    * @return The number of components.
    */
   size_t
   size() const { return components_.size(); }

   /**
    * Get the component at the given index.
    * @param i The index of the component, starting from 0.
    * @return The name component at the index.
    */
   const Component&
   get(ssize_t i) const
   {
     if (i >= 0)
       return components_[i];
     else
       return components_[size() + i];
   }


   const Component&
   operator [] (int i) const
   {
     return get(i);
   }

   /**
    * Append the component
    * @param component The component of type T.
    */
   template<class T> void
   push_back(const T &component)
   {
     append(component);
   }

   /**
    * Check if this name has the same component count and components as the given name.
    * @param name The Name to check.
    * @return true if the names are equal, otherwise false.
    */
   bool
   operator == (const Name &name) const { return equals(name); }

   /**
    * Check if this name has the same component count and components as the given name.
    * @param name The Name to check.
    * @return true if the names are not equal, otherwise false.
    */
   bool
   operator != (const Name &name) const { return !equals(name); }

   /**
    * Compare two names for "less than" using breadth first.  If the first components of each name are not equal,
    * this returns true if the first comes before the second using the NDN canonical ordering for name components.
    * If they are equal, this compares the second components of each name, etc.  If both names are the same up to
    * the size of the shorter name, this returns true if the first name is shorter than the second.  For example, if you
    * use breadthFirstLess in std::sort, it gives: /a/b/d	/a/b/cc /c /c/a /bb .  This is intuitive because all names
    * with the prefix /a are next to each other.  But it may be also be counter-intuitive because /c comes before /bb
    * according to NDN canonical ordering since it is shorter.  Note: We don't define this directly as the Name
    * less than operation because there are other valid ways to sort names.
    * @param name1 The first name to compare.
    * @param name2 The second name to compare.
    * @return True if the first name is less than the second using breadth first comparison.
    */
   static bool
   breadthFirstLess(const Name& name1, const Name& name2);

   /**
    * Name::BreadthFirstLess is a function object which calls breadthFirstLess, for use as the "less" operator in map, etc.
    * For example, you can use Name as the key type in a map as follows: map<Name, int, Name::BreadthFirstLess>.
    */
   struct BreadthFirstLess {
     bool operator() (const Name& name1, const Name& name2) const { return breadthFirstLess(name1, name2); }
   };

   //
   // Iterator interface to name components.
   //
   typedef std::vector<Component>::iterator iterator;
   typedef std::vector<Component>::const_iterator const_iterator;
   typedef std::vector<Component>::reverse_iterator reverse_iterator;
   typedef std::vector<Component>::const_reverse_iterator const_reverse_iterator;
   typedef std::vector<Component>::reference reference;
   typedef std::vector<Component>::const_reference const_reference;

   typedef std::vector<Component>::difference_type difference_type;
   typedef std::vector<Component>::size_type size_type;

   typedef std::vector<Component>::value_type value_type;

   /**
    * Begin iterator (const).
    */
   const_iterator
   begin() const { return components_.begin(); }

   /**
    * Begin iterator.
    */
   iterator
   begin() { return components_.begin(); }

   /**
    * End iterator (const).
    */
   const_iterator
   end() const { return components_.end(); }

   /**
    * End iterator.
    */
   iterator
   end() { return components_.end(); }

   /**
    * Reverse begin iterator (const).
    */
   const_reverse_iterator
   rbegin() const { return components_.rbegin(); }

   /**
    * Reverse begin iterator.
    */
   reverse_iterator
   rbegin() { return components_.rbegin(); }

   /**
    * Reverse end iterator (const).
    */
   const_reverse_iterator
   rend() const { return components_.rend(); }

   /**
    * Reverse end iterator.
    */
   reverse_iterator
   rend() { return components_.rend(); }

 private:
   std::vector<Component> components_;

   mutable Block wire_;
 };

 std::ostream &
 operator << (std::ostream &os, const Name &name);

 inline std::ostream &
 operator << (std::ostream &os, const Name::Component &component)
 {
   component.toEscapedString(os);
   return os;
 }

 inline std::string
 Name::toUri() const
 {
   std::ostringstream os;
   os << *this;
   return os.str();
 }

 }

 #endif
	/* -- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil -- */
	/**
	* Copyright (C) 2013 Regents of the University of California.
	* @author: Jeff Thompson <jefft0@remap.ucla.edu>
	* @author: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
	* @author: Zhenkai Zhu <zhenkai@cs.ucla.edu>
	* See COPYING for copyright and distribution information.
	*/

	#ifndef NDN_NAME_HPP
	#define NDN_NAME_HPP

	#include <vector>
	#include <string>
	#include <sstream>
	#include <string.h>
	#include "encoding/block.hpp"

	namespace ndn {

	/**
	* A Name holds an array of Name::Component and represents an NDN name.
	*/
	class Name {
	public:
	/**
	* A Name::Component holds a read-only name component value.
	*/
	class Component
	{
	public:
	/**
	* Create a new Name::Component with a null value.
	*/
	Component()
	{
	}

	// copy constructor OK

	/**
	* Create a new Name::Component, taking another pointer to the Blob value.
	* @param value A blob with a pointer to an immutable array. The pointer is copied.
	*/
	Component(const ConstBufferPtr &buffer)
	: value_ (buffer)
	{
	}

	/**
	* Create a new Name::Component, copying the given value.
	* @param value The value byte array.
	*/
	Component(const Buffer& value)
	: value_ (new Buffer(value))
	{
	}

	/**
	* Create a new Name::Component, copying the given value.
	* @param value Pointer to the value byte array.
	* @param valueLen Length of value.
	*/
	Component(const uint8_t *value, size_t valueLen)
	: value_ (new Buffer(value, valueLen))
	{
	}

	template<class InputIterator>
	Component(InputIterator begin, InputIterator end)
	: value_ (new Buffer(begin, end))
	{
	}

	Component(const char *string)
	: value_ (new Buffer(string, ::strlen(string)))
	{
	}

	const Buffer&
	getValue() const { return *value_; }

	/**
	* Write this component value to result, escaping characters according to the NDN URI Scheme.
	* This also adds "..." to a value with zero or more ".".
	* @param result the string stream to write to.
	*/
	void
	toEscapedString(std::ostream& result) const
	{
	Name::toEscapedString(*value_, result);
	}

	/**
	* Convert this component value by escaping characters according to the NDN URI Scheme.
	* This also adds "..." to a value with zero or more ".".
	* @return The escaped string.
	*/
	std::string
	toEscapedString() const
	{
	return Name::toEscapedString(*value_);
	}

	/**
	* Interpret this name component as a network-ordered number and return an integer.
	* @return The integer number.
	*/
	uint64_t
	toNumber() const;

	/**
	* Interpret this name component as a network-ordered number with a marker and return an integer.
	* @param marker The required first byte of the component.
	* @return The integer number.
	* @throw runtime_error If the first byte of the component does not equal the marker.
	*/
	uint64_t
	toNumberWithMarker(uint8_t marker) const;

	/**
	* Interpret this name component as a segment number according to NDN name conventions (a network-ordered number
	* where the first byte is the marker 0x00).
	* @return The integer segment number.
	* @throw runtime_error If the first byte of the component is not the expected marker.
	*/
	uint64_t
	toSegment() const
	{
	return toNumberWithMarker(0x00);
	}

	/**
	* @deprecated Use toSegment.
	*/
	uint64_t
	toSeqNum() const
	{
	return toSegment();
	}

	/**
	* Interpret this name component as a version number according to NDN name conventions (a network-ordered number
	* where the first byte is the marker 0xFD). Note that this returns the exact number from the component
	* without converting it to a time representation.
	* @return The integer segment number.
	* @throw runtime_error If the first byte of the component is not the expected marker.
	*/
	uint64_t
	toVersion() const
	{
	return toNumberWithMarker(0xFD);
	}

	/**
	* Create a component whose value is the network-ordered encoding of the number.
	* Note: if the number is zero, the result is empty.
	* @param number The number to be encoded.
	* @return The component value.
	*/
	static Component
	fromNumber(uint64_t number);

	/**
	* Create a component whose value is the marker appended with the network-ordered encoding of the number.
	* Note: if the number is zero, no bytes are used for the number - the result will have only the marker.
	* @param number The number to be encoded.
	* @param marker The marker to use as the first byte of the component.
	* @return The component value.
	*/
	static Component
	fromNumberWithMarker(uint64_t number, uint8_t marker);

	/**
	* Check if this is the same component as other.
	* @param other The other Component to compare with.
	* @return true if the components are equal, otherwise false.
	*/
	bool
	equals(const Component& other) const
	{
	return value_ == other.value_;
	}

	bool
	empty() const
	{
	return !value_ \|\| value_->empty();
	}

	/**
	* Check if this is the same component as other.
	* @param other The other Component to compare with.
	* @return true if the components are equal, otherwise false.
	*/
	bool
	operator == (const Component& other) const { return equals(other); }

	/**
	* Check if this is not the same component as other.
	* @param other The other Component to compare with.
	* @return true if the components are not equal, otherwise false.
	*/
	bool
	operator != (const Component& other) const { return !equals(other); }

	/**
	* Compare this to the other Component using NDN canonical ordering.
	* @param other The other Component to compare with.
	* @return 0 If they compare equal, -1 if *this comes before other in the canonical ordering, or
	* 1 if *this comes after other in the canonical ordering.
	*
	* @see http://named-data.net/doc/0.2/technical/CanonicalOrder.html
	*/
	int
	compare(const Component& other) const;

	/**
	* Return true if this is less than or equal to the other Component in the NDN canonical ordering.
	* @param other The other Component to compare with.
	*
	* @see http://named-data.net/doc/0.2/technical/CanonicalOrder.html
	*/
	bool
	operator <= (const Component& other) const { return compare(other) <= 0; }

	/**
	* Return true if this is less than the other Component in the NDN canonical ordering.
	* @param other The other Component to compare with.
	*
	* @see http://named-data.net/doc/0.2/technical/CanonicalOrder.html
	*/
	bool
	operator < (const Component& other) const { return compare(other) < 0; }

	/**
	* Return true if this is less than or equal to the other Component in the NDN canonical ordering.
	* @param other The other Component to compare with.
	*
	* @see http://named-data.net/doc/0.2/technical/CanonicalOrder.html
	*/
	bool
	operator >= (const Component& other) const { return compare(other) >= 0; }

	/**
	* Return true if this is greater than the other Component in the NDN canonical ordering.
	* @param other The other Component to compare with.
	*
	* @see http://named-data.net/doc/0.2/technical/CanonicalOrder.html
	*/
	bool
	operator > (const Component& other) const { return compare(other) > 0; }
	private:
	ConstBufferPtr value_;
	};

	/**
	* Create a new Name with no components.
	*/
	Name() {
	}

	/**
	* Create a new Name, copying the name components.
	* @param components A vector of Component
	*/
	Name(const std::vector<Component>& components)
	: components_(components)
	{
	}

	Name(const Block &name)
	{
	for (Block::element_const_iterator i = name.getAll().begin();
	i != name.getAll().end();
	++i)
	{
	append(Component(i->value_begin(), i->value_end()));
	}
	}

	/**
	* Parse the uri according to the NDN URI Scheme and create the name with the components.
	* @param uri The URI string.
	*/
	Name(const char* uri)
	{
	set(uri);
	}

	/**
	* Parse the uri according to the NDN URI Scheme and create the name with the components.
	* @param uri The URI string.
	*/
	Name(const std::string& uri)
	{
	set(uri.c_str());
	}

	const Block &
	wireEncode() const;

	void
	wireDecode(const Block &wire);

	/**
	* Parse the uri according to the NDN URI Scheme and set the name with the components.
	* @param uri The null-terminated URI string.
	*/
	void
	set(const char *uri);

	/**
	* Parse the uri according to the NDN URI Scheme and set the name with the components.
	* @param uri The URI string.
	*/
	void
	set(const std::string& uri) { set(uri.c_str()); }

	/**
	* Append a new component, copying from value of length valueLength.
	* @return This name so that you can chain calls to append.
	*/
	Name&
	append(const uint8_t *value, size_t valueLength)
	{
	components_.push_back(Component(value, valueLength));
	return *this;
	}

	/**
	* Append a new component, copying from value.
	* @return This name so that you can chain calls to append.
	*/
	Name&
	append(const Buffer& value)
	{
	components_.push_back(value);
	return *this;
	}

	Name&
	append(const ConstBufferPtr &value)
	{
	components_.push_back(value);
	return *this;
	}

	Name&
	append(const Component &value)
	{
	components_.push_back(value);
	return *this;
	}

	/**
	* @brief Append name component that represented as a string
	*
	* Note that this method is necessary to ensure correctness and unambiguity of
	* ``append("string")`` operations (both Component and Name can be implicitly
	* converted from string, each having different outcomes
	*/
	Name&
	append(const char *value)
	{
	components_.push_back(Component(value));
	return *this;
	}

	Name&
	append(const Block &value)
	{
	components_.push_back(Component(value.begin(), value.end()));
	return *this;
	}

	/**
	* Append the components of the given name to this name.
	* @param name The Name with components to append.
	* @return This name so that you can chain calls to append.
	*/
	Name&
	append(const Name& name);

	/**
	* @deprecated Use append.
	*/
	Name&
	appendComponent(const uint8_t *value, size_t valueLength)
	{
	return append(value, valueLength);
	}

	/**
	* @deprecated Use append.
	*/
	Name&
	appendComponent(const Buffer& value)
	{
	return append(value);
	}

	/**
	* @deprecated Use append.
	*/
	Name&
	appendComponent(const ConstBufferPtr &value)
	{
	return append(value);
	}

	/**
	* @deprecated Use append.
	*/
	Name&
	addComponent(const uint8_t *value, size_t valueLength)
	{
	return append(value, valueLength);
	}

	/**
	* @deprecated Use append.
	*/
	Name&
	addComponent(const Buffer& value)
	{
	return append(value);
	}

	/**
	* @deprecated Use append.
	*/
	Name&
	addComponent(const ConstBufferPtr &value)
	{
	return append(value);
	}

	/**
	* Clear all the components.
	*/
	void
	clear() {
	components_.clear();
	}

	/**
	* @deprecated use size().
	*/
	size_t
	getComponentCount() const { return size(); }

	/**
	* @deprecated Use get(i).
	*/
	const Component&
	getComponent(size_t i) const { return get(i); }

	/**
	* Get a new name, constructed as a subset of components.
	* @param iStartComponent The index if the first component to get.
	* @param nComponents The number of components starting at iStartComponent.
	* @return A new name.
	*/
	Name
	getSubName(size_t iStartComponent, size_t nComponents) const;

	/**
	* Get a new name, constructed as a subset of components starting at iStartComponent until the end of the name.
	* @param iStartComponent The index if the first component to get.
	* @return A new name.
	*/
	Name
	getSubName(size_t iStartComponent) const;

	/**
	* Return a new Name with the first nComponents components of this Name.
	* @param nComponents The number of prefix components. If nComponents is -N then return the prefix up
	* to name.size() - N. For example getPrefix(-1) returns the name without the final component.
	* @return A new Name.
	*/
	Name
	getPrefix(int nComponents) const
	{
	if (nComponents < 0)
	return getSubName(0, components_.size() + nComponents);
	else
	return getSubName(0, nComponents);
	}

	/**
	* Encode this name as a URI.
	* @return The encoded URI.
	*/
	std::string
	toUri() const;

	/**
	* Append a component with the encoded segment number.
	* @param segment The segment number.
	* @return This name so that you can chain calls to append.
	*/
	Name&
	appendSegment(uint64_t segment)
	{
	components_.push_back(Component::fromNumberWithMarker(segment, 0x00));
	return *this;
	}

	/**
	* Append a component with the encoded version number.
	* Note that this encodes the exact value of version without converting from a time representation.
	* @param version The version number.
	* @return This name so that you can chain calls to append.
	*/
	Name&
	appendVersion(uint64_t version)
	{
	components_.push_back(Component::fromNumberWithMarker(version, 0xFD));
	return *this;
	}

	/**
	* @brief Append a component with the encoded version number.
	*
	* This version of the method creates version number based on the current timestamp
	* @return This name so that you can chain calls to append.
	*/
	Name&
	appendVersion();

	/**
	* Check if this name has the same component count and components as the given name.
	* @param name The Name to check.
	* @return true if the names are equal, otherwise false.
	*/
	bool
	equals(const Name& name) const;

	/**
	* Check if the N components of this name are the same as the first N components of the given name.
	* @param name The Name to check.
	* @return true if this matches the given name, otherwise false. This always returns true if this name is empty.
	*/
	bool
	isPrefixOf(const Name& name) const;

	bool
	match(const Name& name) const
	{
	return isPrefixOf(name);
	}

	/**
	* Make a Blob value by decoding the escapedString between beginOffset and endOffset according to the NDN URI Scheme.
	* If the escaped string is "", "." or ".." then return a Blob with a null pointer,
	* which means the component should be skipped in a URI name.
	* @param escapedString The escaped string. It does not need to be null-terminated because we only scan to endOffset.
	* @param beginOffset The offset in escapedString of the beginning of the portion to decode.
	* @param endOffset The offset in escapedString of the end of the portion to decode.
	* @return The Blob value. If the escapedString is not a valid escaped component, then the Blob is a null pointer.
	*/
	static Component
	fromEscapedString(const char *escapedString, size_t beginOffset, size_t endOffset);

	/**
	* Make a Blob value by decoding the escapedString according to the NDN URI Scheme.
	* If the escaped string is "", "." or ".." then return a Blob with a null pointer,
	* which means the component should be skipped in a URI name.
	* @param escapedString The null-terminated escaped string.
	* @return The Blob value. If the escapedString is not a valid escaped component, then the Blob is a null pointer.
	*/
	static Component
	fromEscapedString(const char *escapedString);

	/**
	* Make a Blob value by decoding the escapedString according to the NDN URI Scheme.
	* If the escaped string is "", "." or ".." then return a Blob with a null pointer,
	* which means the component should be skipped in a URI name.
	* @param escapedString The escaped string.
	* @return The Blob value. If the escapedString is not a valid escaped component, then the Blob is a null pointer.
	*/
	static Component
	fromEscapedString(const std::string& escapedString) { return fromEscapedString(escapedString.c_str()); }

	/**
	* Write the value to result, escaping characters according to the NDN URI Scheme.
	* This also adds "..." to a value with zero or more ".".
	* @param value the buffer with the value to escape
	* @param result the string stream to write to.
	*/
	static void
	toEscapedString(const uint8_t *value, size_t valueSize, std::ostream& result);

	inline static void
	toEscapedString(const std::vector<uint8_t>& value, std::ostream& result)
	{
	toEscapedString(&*value.begin(), value.size(), result);
	}

	/**
	* Convert the value by escaping characters according to the NDN URI Scheme.
	* This also adds "..." to a value with zero or more ".".
	* @param value the buffer with the value to escape
	* @return The escaped string.
	*/
	inline static std::string
	toEscapedString(const uint8_t *value, size_t valueSize)
	{
	std::ostringstream result;
	toEscapedString(value, valueSize, result);
	return result.str();
	}

	static inline std::string
	toEscapedString(const std::vector<uint8_t>& value)
	{
	return toEscapedString(&*value.begin(), value.size());
	}

	//
	// vector equivalent interface.
	//

	/**
	* @brief Check if name is emtpy
	*/
	bool
	empty() const { return components_.empty(); }

	/**
	* Get the number of components.
	* @return The number of components.
	*/
	size_t
	size() const { return components_.size(); }

	/**
	* Get the component at the given index.
	* @param i The index of the component, starting from 0.
	* @return The name component at the index.
	*/
	const Component&
	get(ssize_t i) const
	{
	if (i >= 0)
	return components_[i];
	else
	return components_[size() + i];
	}


	const Component&
	operator [] (int i) const
	{
	return get(i);
	}

	/**
	* Append the component
	* @param component The component of type T.
	*/
	template<class T> void
	push_back(const T &component)
	{
	append(component);
	}

	/**
	* Check if this name has the same component count and components as the given name.
	* @param name The Name to check.
	* @return true if the names are equal, otherwise false.
	*/
	bool
	operator == (const Name &name) const { return equals(name); }

	/**
	* Check if this name has the same component count and components as the given name.
	* @param name The Name to check.
	* @return true if the names are not equal, otherwise false.
	*/
	bool
	operator != (const Name &name) const { return !equals(name); }

	/**
	* Compare two names for "less than" using breadth first. If the first components of each name are not equal,
	* this returns true if the first comes before the second using the NDN canonical ordering for name components.
	* If they are equal, this compares the second components of each name, etc. If both names are the same up to
	* the size of the shorter name, this returns true if the first name is shorter than the second. For example, if you
	* use breadthFirstLess in std::sort, it gives: /a/b/d /a/b/cc /c /c/a /bb . This is intuitive because all names
	* with the prefix /a are next to each other. But it may be also be counter-intuitive because /c comes before /bb
	* according to NDN canonical ordering since it is shorter. Note: We don't define this directly as the Name
	* less than operation because there are other valid ways to sort names.
	* @param name1 The first name to compare.
	* @param name2 The second name to compare.
	* @return True if the first name is less than the second using breadth first comparison.
	*/
	static bool
	breadthFirstLess(const Name& name1, const Name& name2);

	/**
	* Name::BreadthFirstLess is a function object which calls breadthFirstLess, for use as the "less" operator in map, etc.
	* For example, you can use Name as the key type in a map as follows: map<Name, int, Name::BreadthFirstLess>.
	*/
	struct BreadthFirstLess {
	bool operator() (const Name& name1, const Name& name2) const { return breadthFirstLess(name1, name2); }
	};

	//
	// Iterator interface to name components.
	//
	typedef std::vector<Component>::iterator iterator;
	typedef std::vector<Component>::const_iterator const_iterator;
	typedef std::vector<Component>::reverse_iterator reverse_iterator;
	typedef std::vector<Component>::const_reverse_iterator const_reverse_iterator;
	typedef std::vector<Component>::reference reference;
	typedef std::vector<Component>::const_reference const_reference;

	typedef std::vector<Component>::difference_type difference_type;
	typedef std::vector<Component>::size_type size_type;

	typedef std::vector<Component>::value_type value_type;

	/**
	* Begin iterator (const).
	*/
	const_iterator
	begin() const { return components_.begin(); }

	/**
	* Begin iterator.
	*/
	iterator
	begin() { return components_.begin(); }

	/**
	* End iterator (const).
	*/
	const_iterator
	end() const { return components_.end(); }

	/**
	* End iterator.
	*/
	iterator
	end() { return components_.end(); }

	/**
	* Reverse begin iterator (const).
	*/
	const_reverse_iterator
	rbegin() const { return components_.rbegin(); }

	/**
	* Reverse begin iterator.
	*/
	reverse_iterator
	rbegin() { return components_.rbegin(); }

	/**
	* Reverse end iterator (const).
	*/
	const_reverse_iterator
	rend() const { return components_.rend(); }

	/**
	* Reverse end iterator.
	*/
	reverse_iterator
	rend() { return components_.rend(); }

	private:
	std::vector<Component> components_;

	mutable Block wire_;
	};

	std::ostream &
	operator << (std::ostream &os, const Name &name);

	inline std::ostream &
	operator << (std::ostream &os, const Name::Component &component)
	{
	component.toEscapedString(os);
	return os;
	}

	inline std::string
	Name::toUri() const
	{
	std::ostringstream os;
	os << *this;
	return os.str();
	}

	}

	#endif