include/mcld/InputTree.h - platform/frameworks/compile/mclinker - Git at Google

 //===- InputTree.h --------------------------------------------------------===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #ifndef MCLD_MC_INPUT_TREE_H
 #define MCLD_MC_INPUT_TREE_H
 #ifdef ENABLE_UNITTEST
 #include <gtest.h>
 #endif

 #include <mcld/ADT/BinTree.h>
 #include <mcld/ADT/TypeTraits.h>
 #include <mcld/MC/MCLDInput.h>
 #include <mcld/Support/Path.h>

 #include <string>


 namespace mcld {

 /** \class template<typename Traits, typename Iterator> PolicyIterator<mcld::Input>
  *  \brief PolicyIterator<mcld::Input> is a partially specific PolicyIterator
  */
 template<typename Traits, typename IteratorType>
 class PolicyIterator<mcld::Input, Traits, IteratorType> : public PolicyIteratorBase<Input, Traits, IteratorType>
 {
 public:
   typedef PolicyIterator<Input, Traits, IteratorType> Self;
   typedef PolicyIteratorBase<Input, Traits, IteratorType> Base;
   typedef PolicyIterator<Input, typename Traits::nonconst_traits, IteratorType> iterator;
   typedef PolicyIterator<Input, typename Traits::const_traits, IteratorType>    const_iterator;

 public:
   PolicyIterator()
     : Base() {}

   PolicyIterator(const iterator &X)
     : Base(X.m_pNode) {}

   explicit PolicyIterator(NodeBase* X)
     : Base(X) {}

   virtual ~PolicyIterator() {}

   bool isGroup() const
   { return !Base::hasData() && !Base::isRoot(); }

   Self& operator++() {
     IteratorType::advance();
     // skip the Group node
     while (isGroup())
       IteratorType::advance();
     return *this;
   }

   Self operator++(int) {
     Self tmp(*this);
     IteratorType::advance();
     // skip the Group node
     while (isGroup())
       IteratorType::advance();
     return tmp;
   }
 };

 /** \class InputTree
  *  \brief InputTree is the input tree to contains all inputs from the
  *  command line.
  *
  *  InputTree, of course, is uncopyable.
  *
  *  @see Input
  */
 class InputTree : public BinaryTree<Input>
 {
 private:
   typedef BinaryTree<Input> BinTreeTy;

 public:
   enum Direction {
     Inclusive  = TreeIteratorBase::Leftward,
     Positional = TreeIteratorBase::Rightward
   };

   typedef BinaryTree<Input>::iterator       iterator;
   typedef BinaryTree<Input>::const_iterator const_iterator;

 public:
   /** \class Mover
    *  \brief Mover provides the interface for moving iterator forward.
    *
    *  Mover is a function object (functor). @ref Mover::move moves
    *  iterator forward in certain direction. @ref Mover::connect
    *  connects two nodes of the given iterators togather.
    */
   struct Mover {
     virtual ~Mover() {}
     virtual void connect(TreeIteratorBase& pFrom, const TreeIteratorBase& pTo) const = 0;
     virtual void move(TreeIteratorBase& pNode) const = 0;
   };

   /** \class Succeeder
    *  \brief class Succeeder moves the iterator afterward.
    */
   struct Succeeder : public Mover {
     virtual void connect(TreeIteratorBase& pFrom, const TreeIteratorBase& pTo) const {
       proxy::hook<Positional>(pFrom.m_pNode, pTo.m_pNode);
     }

     virtual void move(TreeIteratorBase& pNode) const {
       pNode.move<Positional>();
     }
   };

   /** \class Includer
    *  \brief class Includer moves the iterator downward.
    */
   struct Includer : public Mover {
     virtual void connect(TreeIteratorBase& pFrom, const TreeIteratorBase& pTo) const {
       proxy::hook<Inclusive>(pFrom.m_pNode, pTo.m_pNode);
     }

     virtual void move(TreeIteratorBase& pNode) const {
       pNode.move<Inclusive>();
     }
   };

 public:
   static Succeeder Afterward;
   static Includer  Downward;

 public:

   using BinTreeTy::merge;

   // -----  modify  ----- //
   template<size_t DIRECT>
   InputTree& enterGroup(TreeIteratorBase pRoot);

   template<size_t DIRECT>
   InputTree& insert(TreeIteratorBase pRoot,
                     Input& pInput);

   InputTree& merge(TreeIteratorBase pRoot,
                    const Mover& pMover,
                    InputTree& pTree);

   InputTree& insert(TreeIteratorBase pRoot,
                     const Mover& pMover,
                     Input& pInput);

   InputTree& enterGroup(TreeIteratorBase pRoot,
                         const Mover& pMover);

 };

 bool isGroup(const InputTree::iterator& pos);
 bool isGroup(const InputTree::const_iterator& pos);
 bool isGroup(const InputTree::dfs_iterator& pos);
 bool isGroup(const InputTree::const_dfs_iterator& pos);
 bool isGroup(const InputTree::bfs_iterator& pos);
 bool isGroup(const InputTree::const_bfs_iterator& pos);

 } // namespace of mcld

 //===----------------------------------------------------------------------===//
 // template member functions
 //===----------------------------------------------------------------------===//
 template<size_t DIRECT>
 mcld::InputTree&
 mcld::InputTree::enterGroup(mcld::TreeIteratorBase pRoot)
 {
   BinTreeTy::node_type* node = createNode();
   if (pRoot.isRoot())
     proxy::hook<TreeIteratorBase::Leftward>(pRoot.m_pNode,
         const_cast<const node_type*>(node));
   else
     proxy::hook<DIRECT>(pRoot.m_pNode,
         const_cast<const node_type*>(node));
   return *this;
 }

 template<size_t DIRECT>
 mcld::InputTree& mcld::InputTree::insert(mcld::TreeIteratorBase pRoot,
 	                                 mcld::Input& pInput)
 {
   BinTreeTy::node_type* node = createNode();
   node->data = &pInput;
   if (pRoot.isRoot())
     proxy::hook<TreeIteratorBase::Leftward>(pRoot.m_pNode,
                                          const_cast<const node_type*>(node));
   else
     proxy::hook<DIRECT>(pRoot.m_pNode,
                         const_cast<const node_type*>(node));
   return *this;
 }

 #endif
	//===- InputTree.h --------------------------------------------------------===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#ifndef MCLD_MC_INPUT_TREE_H
	#define MCLD_MC_INPUT_TREE_H
	#ifdef ENABLE_UNITTEST
	#include <gtest.h>
	#endif

	#include <mcld/ADT/BinTree.h>
	#include <mcld/ADT/TypeTraits.h>
	#include <mcld/MC/MCLDInput.h>
	#include <mcld/Support/Path.h>

	#include <string>


	namespace mcld {

	/** \class template<typename Traits, typename Iterator> PolicyIterator<mcld::Input>
	* \brief PolicyIterator<mcld::Input> is a partially specific PolicyIterator
	*/
	template<typename Traits, typename IteratorType>
	class PolicyIterator<mcld::Input, Traits, IteratorType> : public PolicyIteratorBase<Input, Traits, IteratorType>
	{
	public:
	typedef PolicyIterator<Input, Traits, IteratorType> Self;
	typedef PolicyIteratorBase<Input, Traits, IteratorType> Base;
	typedef PolicyIterator<Input, typename Traits::nonconst_traits, IteratorType> iterator;
	typedef PolicyIterator<Input, typename Traits::const_traits, IteratorType> const_iterator;

	public:
	PolicyIterator()
	: Base() {}

	PolicyIterator(const iterator &X)
	: Base(X.m_pNode) {}

	explicit PolicyIterator(NodeBase* X)
	: Base(X) {}

	virtual ~PolicyIterator() {}

	bool isGroup() const
	{ return !Base::hasData() && !Base::isRoot(); }

	Self& operator++() {
	IteratorType::advance();
	// skip the Group node
	while (isGroup())
	IteratorType::advance();
	return *this;
	}

	Self operator++(int) {
	Self tmp(*this);
	IteratorType::advance();
	// skip the Group node
	while (isGroup())
	IteratorType::advance();
	return tmp;
	}
	};

	/** \class InputTree
	* \brief InputTree is the input tree to contains all inputs from the
	* command line.
	*
	* InputTree, of course, is uncopyable.
	*
	* @see Input
	*/
	class InputTree : public BinaryTree<Input>
	{
	private:
	typedef BinaryTree<Input> BinTreeTy;

	public:
	enum Direction {
	Inclusive = TreeIteratorBase::Leftward,
	Positional = TreeIteratorBase::Rightward
	};

	typedef BinaryTree<Input>::iterator iterator;
	typedef BinaryTree<Input>::const_iterator const_iterator;

	public:
	/** \class Mover
	* \brief Mover provides the interface for moving iterator forward.
	*
	* Mover is a function object (functor). @ref Mover::move moves
	* iterator forward in certain direction. @ref Mover::connect
	* connects two nodes of the given iterators togather.
	*/
	struct Mover {
	virtual ~Mover() {}
	virtual void connect(TreeIteratorBase& pFrom, const TreeIteratorBase& pTo) const = 0;
	virtual void move(TreeIteratorBase& pNode) const = 0;
	};

	/** \class Succeeder
	* \brief class Succeeder moves the iterator afterward.
	*/
	struct Succeeder : public Mover {
	virtual void connect(TreeIteratorBase& pFrom, const TreeIteratorBase& pTo) const {
	proxy::hook<Positional>(pFrom.m_pNode, pTo.m_pNode);
	}

	virtual void move(TreeIteratorBase& pNode) const {
	pNode.move<Positional>();
	}
	};

	/** \class Includer
	* \brief class Includer moves the iterator downward.
	*/
	struct Includer : public Mover {
	virtual void connect(TreeIteratorBase& pFrom, const TreeIteratorBase& pTo) const {
	proxy::hook<Inclusive>(pFrom.m_pNode, pTo.m_pNode);
	}

	virtual void move(TreeIteratorBase& pNode) const {
	pNode.move<Inclusive>();
	}
	};

	public:
	static Succeeder Afterward;
	static Includer Downward;

	public:

	using BinTreeTy::merge;

	// ----- modify ----- //
	template<size_t DIRECT>
	InputTree& enterGroup(TreeIteratorBase pRoot);

	template<size_t DIRECT>
	InputTree& insert(TreeIteratorBase pRoot,
	Input& pInput);

	InputTree& merge(TreeIteratorBase pRoot,
	const Mover& pMover,
	InputTree& pTree);

	InputTree& insert(TreeIteratorBase pRoot,
	const Mover& pMover,
	Input& pInput);

	InputTree& enterGroup(TreeIteratorBase pRoot,
	const Mover& pMover);

	};

	bool isGroup(const InputTree::iterator& pos);
	bool isGroup(const InputTree::const_iterator& pos);
	bool isGroup(const InputTree::dfs_iterator& pos);
	bool isGroup(const InputTree::const_dfs_iterator& pos);
	bool isGroup(const InputTree::bfs_iterator& pos);
	bool isGroup(const InputTree::const_bfs_iterator& pos);

	} // namespace of mcld

	//===----------------------------------------------------------------------===//
	// template member functions
	//===----------------------------------------------------------------------===//
	template<size_t DIRECT>
	mcld::InputTree&
	mcld::InputTree::enterGroup(mcld::TreeIteratorBase pRoot)
	{
	BinTreeTy::node_type* node = createNode();
	if (pRoot.isRoot())
	proxy::hook<TreeIteratorBase::Leftward>(pRoot.m_pNode,
	const_cast<const node_type*>(node));
	else
	proxy::hook<DIRECT>(pRoot.m_pNode,
	const_cast<const node_type*>(node));
	return *this;
	}

	template<size_t DIRECT>
	mcld::InputTree& mcld::InputTree::insert(mcld::TreeIteratorBase pRoot,
	mcld::Input& pInput)
	{
	BinTreeTy::node_type* node = createNode();
	node->data = &pInput;
	if (pRoot.isRoot())
	proxy::hook<TreeIteratorBase::Leftward>(pRoot.m_pNode,
	const_cast<const node_type*>(node));
	else
	proxy::hook<DIRECT>(pRoot.m_pNode,
	const_cast<const node_type*>(node));
	return *this;
	}

	#endif