/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include namespace editeng { using namespace std; /* TrieNode */ struct TrieNode { static const int LATIN_ARRAY_SIZE = 26; sal_Unicode mCharacter; bool mMarker; std::vector mChildren; TrieNode* mLatinArray[LATIN_ARRAY_SIZE]; TrieNode(sal_Unicode aCharacter = '\0'); virtual ~TrieNode(); void markWord(); TrieNode* findChild(sal_Unicode aCharacter); TrieNode* traversePath(const OUString& sPath); void addNewChild(TrieNode* pChild); void collectSuggestions(const OUString& sPath, std::vector& rSuggestionList); void collectSuggestionsForCurrentNode(TrieNode* pCurrent, const OUString& sPath, vector& rSuggestionList); }; TrieNode::TrieNode(sal_Unicode aCharacter) : mCharacter(aCharacter), mMarker(false) { for (int i=0; i::iterator iNode; for(iNode = mChildren.begin(); iNode != mChildren.end(); ++iNode) { delete *iNode; } for (int i=0; imCharacter >= 'a' && pChild->mCharacter <= 'z') { mLatinArray[pChild->mCharacter - sal_Unicode('a')] = pChild; } else { mChildren.push_back(pChild); } } TrieNode* TrieNode::findChild(sal_Unicode aInputCharacter) { if (aInputCharacter >= 'a' && aInputCharacter <= 'z') { return mLatinArray[aInputCharacter - sal_Unicode('a')]; } vector::iterator iNode; for(iNode = mChildren.begin(); iNode != mChildren.end(); ++iNode) { TrieNode* pCurrent = *iNode; if ( pCurrent->mCharacter == aInputCharacter ) return pCurrent; } return NULL; } void TrieNode::collectSuggestions(const OUString& sPath, vector& rSuggestionList) { // first traverse nodes for alphabet characters for (int i=0; i::iterator iNode; for(iNode = mChildren.begin(); iNode != mChildren.end(); ++iNode) { TrieNode* pCurrent = *iNode; if (pCurrent != NULL) collectSuggestionsForCurrentNode(pCurrent, sPath, rSuggestionList); } } void TrieNode::collectSuggestionsForCurrentNode(TrieNode* pCurrent, const OUString& sPath, vector& rSuggestionList) { OUString aStringPath = sPath + OUString(pCurrent->mCharacter); if(pCurrent->mMarker) { rSuggestionList.push_back(aStringPath); } // recursivly descend tree pCurrent->collectSuggestions(aStringPath, rSuggestionList); } TrieNode* TrieNode::traversePath(const OUString& sPath) { TrieNode* pCurrent = this; for ( sal_Int32 i = 0; i < sPath.getLength(); i++ ) { sal_Unicode aCurrentChar = sPath[i]; pCurrent = pCurrent->findChild(aCurrentChar); if ( pCurrent == NULL ) return NULL; } return pCurrent; } /* TRIE */ Trie::Trie() : mRoot(new TrieNode()) {} Trie::~Trie() {} void Trie::insert(const OUString& sInputString) const { // adding an empty word is not allowed if ( sInputString.isEmpty() ) { return; } // traverse the input string and modify the tree with new nodes / characters TrieNode* pCurrent = mRoot.get(); sal_Unicode aCurrentChar; for ( sal_Int32 i = 0; i < sInputString.getLength(); i++ ) { aCurrentChar = sInputString[i]; TrieNode* pChild = pCurrent->findChild(aCurrentChar); if ( pChild == NULL ) { TrieNode* pNewNode = new TrieNode(aCurrentChar); pCurrent->addNewChild(pNewNode); pCurrent = pNewNode; } else { pCurrent = pChild; } } pCurrent->markWord(); } void Trie::findSuggestions(const OUString& sWordPart, vector& rSuggestionList) const { TrieNode* pNode = mRoot->traversePath(sWordPart); if (pNode != NULL) { pNode->collectSuggestions(sWordPart, rSuggestionList); } } void Trie::getAllEntries(std::vector& entries) { if (mRoot) { mRoot->collectSuggestions(OUString(), entries); } } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */