lib/Tooling/FileMatchTrie.cpp - fp2-dev/platform/external/clang - Gitiles

 //===--- FileMatchTrie.cpp - ----------------------------------------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 //  This file contains the implementation of a FileMatchTrie.
 //
 //===----------------------------------------------------------------------===//

 #include "clang/Tooling/FileMatchTrie.h"
 #include "llvm/ADT/StringMap.h"
 #include "llvm/Support/FileSystem.h"
 #include "llvm/Support/PathV2.h"
 #include "llvm/Support/raw_ostream.h"
 #include <sstream>

 namespace clang {
 namespace tooling {

 /// \brief Default \c PathComparator using \c llvm::sys::fs::equivalent().
 struct DefaultPathComparator : public PathComparator {
   virtual ~DefaultPathComparator() {}
   virtual bool equivalent(StringRef FileA, StringRef FileB) const {
     return FileA == FileB || llvm::sys::fs::equivalent(FileA, FileB);
   }
 };

 /// \brief A node of the \c FileMatchTrie.
 ///
 /// Each node has storage for up to one path and a map mapping a path segment to
 /// child nodes. The trie starts with an empty root node.
 class FileMatchTrieNode {
 public:
   /// \brief Inserts 'NewPath' into this trie. \c ConsumedLength denotes
   /// the number of \c NewPath's trailing characters already consumed during
   /// recursion.
   ///
   /// An insert of a path
   /// 'p'starts at the root node and does the following:
   /// - If the node is empty, insert 'p' into its storage and abort.
   /// - If the node has a path 'p2' but no children, take the last path segment
   ///   's' of 'p2', put a new child into the map at 's' an insert the rest of
   ///   'p2' there.
   /// - Insert a new child for the last segment of 'p' and insert the rest of
   ///   'p' there.
   ///
   /// An insert operation is linear in the number of a path's segments.
   void insert(StringRef NewPath, unsigned ConsumedLength = 0) {
     // We cannot put relative paths into the FileMatchTrie as then a path can be
     // a postfix of another path, violating a core assumption of the trie.
     if (llvm::sys::path::is_relative(NewPath))
       return;
     if (Path.empty()) {
       // This is an empty leaf. Store NewPath and return.
       Path = NewPath;
       return;
     }
     if (Children.empty()) {
       // This is a leaf, ignore duplicate entry if 'Path' equals 'NewPath'.
       if (NewPath == Path)
           return;
       // Make this a node and create a child-leaf with 'Path'.
       StringRef Element(llvm::sys::path::filename(
           StringRef(Path).drop_back(ConsumedLength)));
       Children[Element].Path = Path;
     }
     StringRef Element(llvm::sys::path::filename(
           StringRef(NewPath).drop_back(ConsumedLength)));
     Children[Element].insert(NewPath, ConsumedLength + Element.size() + 1);
   }

   /// \brief Tries to find the node under this \c FileMatchTrieNode that best
   /// matches 'FileName'.
   ///
   /// If multiple paths fit 'FileName' equally well, \c IsAmbiguous is set to
   /// \c true and an empty string is returned. If no path fits 'FileName', an
   /// empty string is returned. \c ConsumedLength denotes the number of
   /// \c Filename's trailing characters already consumed during recursion.
   ///
   /// To find the best matching node for a given path 'p', the
   /// \c findEquivalent() function is called recursively for each path segment
   /// (back to fron) of 'p' until a node 'n' is reached that does not ..
   /// - .. have children. In this case it is checked
   ///   whether the stored path is equivalent to 'p'. If yes, the best match is
   ///   found. Otherwise continue with the parent node as if this node did not
   ///   exist.
   /// - .. a child matching the next path segment. In this case, all children of
   ///   'n' are an equally good match for 'p'. All children are of 'n' are found
   ///   recursively and their equivalence to 'p' is determined. If none are
   ///   equivalent, continue with the parent node as if 'n' didn't exist. If one
   ///   is equivalent, the best match is found. Otherwise, report and ambigiuity
   ///   error.
   StringRef findEquivalent(const PathComparator& Comparator,
                            StringRef FileName,
                            bool &IsAmbiguous,
                            unsigned ConsumedLength = 0) const {
     if (Children.empty()) {
       if (Comparator.equivalent(StringRef(Path), FileName))
         return StringRef(Path);
       return StringRef();
     }
     StringRef Element(llvm::sys::path::filename(FileName.drop_back(
         ConsumedLength)));
     llvm::StringMap<FileMatchTrieNode>::const_iterator MatchingChild =
         Children.find(Element);
     if (MatchingChild != Children.end()) {
       StringRef Result = MatchingChild->getValue().findEquivalent(
           Comparator, FileName, IsAmbiguous,
           ConsumedLength + Element.size() + 1);
       if (!Result.empty() || IsAmbiguous)
         return Result;
     }
     std::vector<StringRef> AllChildren;
     getAll(AllChildren, MatchingChild);
     StringRef Result;
     for (unsigned i = 0; i < AllChildren.size(); i++) {
       if (Comparator.equivalent(AllChildren[i], FileName)) {
         if (Result.empty()) {
           Result = AllChildren[i];
         } else {
           IsAmbiguous = true;
           return StringRef();
         }
       }
     }
     return Result;
   }

 private:
   /// \brief Gets all paths under this FileMatchTrieNode.
   void getAll(std::vector<StringRef> &Results,
               llvm::StringMap<FileMatchTrieNode>::const_iterator Except) const {
     if (Path.empty())
       return;
     if (Children.empty()) {
       Results.push_back(StringRef(Path));
       return;
     }
     for (llvm::StringMap<FileMatchTrieNode>::const_iterator
          It = Children.begin(), E = Children.end();
          It != E; ++It) {
       if (It == Except)
         continue;
       It->getValue().getAll(Results, Children.end());
     }
   }

   // The stored absolute path in this node. Only valid for leaf nodes, i.e.
   // nodes where Children.empty().
   std::string Path;

   // The children of this node stored in a map based on the next path segment.
   llvm::StringMap<FileMatchTrieNode> Children;
 };

 FileMatchTrie::FileMatchTrie()
   : Root(new FileMatchTrieNode), Comparator(new DefaultPathComparator()) {}

 FileMatchTrie::FileMatchTrie(PathComparator *Comparator)
   : Root(new FileMatchTrieNode), Comparator(Comparator) {}

 FileMatchTrie::~FileMatchTrie() {
   delete Root;
 }

 void FileMatchTrie::insert(StringRef NewPath) {
   Root->insert(NewPath);
 }

 StringRef FileMatchTrie::findEquivalent(StringRef FileName,
                                         raw_ostream &Error) const {
   if (llvm::sys::path::is_relative(FileName)) {
     Error << "Cannot resolve relative paths";
     return StringRef();
   }
   bool IsAmbiguous = false;
   StringRef Result = Root->findEquivalent(*Comparator, FileName, IsAmbiguous);
   if (IsAmbiguous)
     Error << "Path is ambiguous";
   return Result;
 }

 } // end namespace tooling
 } // end namespace clang
	//===--- FileMatchTrie.cpp - ----------------------------------------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file contains the implementation of a FileMatchTrie.
	//
	//===----------------------------------------------------------------------===//

	#include "clang/Tooling/FileMatchTrie.h"
	#include "llvm/ADT/StringMap.h"
	#include "llvm/Support/FileSystem.h"
	#include "llvm/Support/PathV2.h"
	#include "llvm/Support/raw_ostream.h"
	#include <sstream>

	namespace clang {
	namespace tooling {

	/// \brief Default \c PathComparator using \c llvm::sys::fs::equivalent().
	struct DefaultPathComparator : public PathComparator {
	virtual ~DefaultPathComparator() {}
	virtual bool equivalent(StringRef FileA, StringRef FileB) const {
	return FileA == FileB \|\| llvm::sys::fs::equivalent(FileA, FileB);
	}
	};

	/// \brief A node of the \c FileMatchTrie.
	///
	/// Each node has storage for up to one path and a map mapping a path segment to
	/// child nodes. The trie starts with an empty root node.
	class FileMatchTrieNode {
	public:
	/// \brief Inserts 'NewPath' into this trie. \c ConsumedLength denotes
	/// the number of \c NewPath's trailing characters already consumed during
	/// recursion.
	///
	/// An insert of a path
	/// 'p'starts at the root node and does the following:
	/// - If the node is empty, insert 'p' into its storage and abort.
	/// - If the node has a path 'p2' but no children, take the last path segment
	/// 's' of 'p2', put a new child into the map at 's' an insert the rest of
	/// 'p2' there.
	/// - Insert a new child for the last segment of 'p' and insert the rest of
	/// 'p' there.
	///
	/// An insert operation is linear in the number of a path's segments.
	void insert(StringRef NewPath, unsigned ConsumedLength = 0) {
	// We cannot put relative paths into the FileMatchTrie as then a path can be
	// a postfix of another path, violating a core assumption of the trie.
	if (llvm::sys::path::is_relative(NewPath))
	return;
	if (Path.empty()) {
	// This is an empty leaf. Store NewPath and return.
	Path = NewPath;
	return;
	}
	if (Children.empty()) {
	// This is a leaf, ignore duplicate entry if 'Path' equals 'NewPath'.
	if (NewPath == Path)
	return;
	// Make this a node and create a child-leaf with 'Path'.
	StringRef Element(llvm::sys::path::filename(
	StringRef(Path).drop_back(ConsumedLength)));
	Children[Element].Path = Path;
	}
	StringRef Element(llvm::sys::path::filename(
	StringRef(NewPath).drop_back(ConsumedLength)));
	Children[Element].insert(NewPath, ConsumedLength + Element.size() + 1);
	}

	/// \brief Tries to find the node under this \c FileMatchTrieNode that best
	/// matches 'FileName'.
	///
	/// If multiple paths fit 'FileName' equally well, \c IsAmbiguous is set to
	/// \c true and an empty string is returned. If no path fits 'FileName', an
	/// empty string is returned. \c ConsumedLength denotes the number of
	/// \c Filename's trailing characters already consumed during recursion.
	///
	/// To find the best matching node for a given path 'p', the
	/// \c findEquivalent() function is called recursively for each path segment
	/// (back to fron) of 'p' until a node 'n' is reached that does not ..
	/// - .. have children. In this case it is checked
	/// whether the stored path is equivalent to 'p'. If yes, the best match is
	/// found. Otherwise continue with the parent node as if this node did not
	/// exist.
	/// - .. a child matching the next path segment. In this case, all children of
	/// 'n' are an equally good match for 'p'. All children are of 'n' are found
	/// recursively and their equivalence to 'p' is determined. If none are
	/// equivalent, continue with the parent node as if 'n' didn't exist. If one
	/// is equivalent, the best match is found. Otherwise, report and ambigiuity
	/// error.
	StringRef findEquivalent(const PathComparator& Comparator,
	StringRef FileName,
	bool &IsAmbiguous,
	unsigned ConsumedLength = 0) const {
	if (Children.empty()) {
	if (Comparator.equivalent(StringRef(Path), FileName))
	return StringRef(Path);
	return StringRef();
	}
	StringRef Element(llvm::sys::path::filename(FileName.drop_back(
	ConsumedLength)));
	llvm::StringMap<FileMatchTrieNode>::const_iterator MatchingChild =
	Children.find(Element);
	if (MatchingChild != Children.end()) {
	StringRef Result = MatchingChild->getValue().findEquivalent(
	Comparator, FileName, IsAmbiguous,
	ConsumedLength + Element.size() + 1);
	if (!Result.empty() \|\| IsAmbiguous)
	return Result;
	}
	std::vector<StringRef> AllChildren;
	getAll(AllChildren, MatchingChild);
	StringRef Result;
	for (unsigned i = 0; i < AllChildren.size(); i++) {
	if (Comparator.equivalent(AllChildren[i], FileName)) {
	if (Result.empty()) {
	Result = AllChildren[i];
	} else {
	IsAmbiguous = true;
	return StringRef();
	}
	}
	}
	return Result;
	}

	private:
	/// \brief Gets all paths under this FileMatchTrieNode.
	void getAll(std::vector<StringRef> &Results,
	llvm::StringMap<FileMatchTrieNode>::const_iterator Except) const {
	if (Path.empty())
	return;
	if (Children.empty()) {
	Results.push_back(StringRef(Path));
	return;
	}
	for (llvm::StringMap<FileMatchTrieNode>::const_iterator
	It = Children.begin(), E = Children.end();
	It != E; ++It) {
	if (It == Except)
	continue;
	It->getValue().getAll(Results, Children.end());
	}
	}

	// The stored absolute path in this node. Only valid for leaf nodes, i.e.
	// nodes where Children.empty().
	std::string Path;

	// The children of this node stored in a map based on the next path segment.
	llvm::StringMap<FileMatchTrieNode> Children;
	};

	FileMatchTrie::FileMatchTrie()
	: Root(new FileMatchTrieNode), Comparator(new DefaultPathComparator()) {}

	FileMatchTrie::FileMatchTrie(PathComparator *Comparator)
	: Root(new FileMatchTrieNode), Comparator(Comparator) {}

	FileMatchTrie::~FileMatchTrie() {
	delete Root;
	}

	void FileMatchTrie::insert(StringRef NewPath) {
	Root->insert(NewPath);
	}

	StringRef FileMatchTrie::findEquivalent(StringRef FileName,
	raw_ostream &Error) const {
	if (llvm::sys::path::is_relative(FileName)) {
	Error << "Cannot resolve relative paths";
	return StringRef();
	}
	bool IsAmbiguous = false;
	StringRef Result = Root->findEquivalent(*Comparator, FileName, IsAmbiguous);
	if (IsAmbiguous)
	Error << "Path is ambiguous";
	return Result;
	}

	} // end namespace tooling
	} // end namespace clang