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| author | dereeper |
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| date | Fri, 10 Jul 2015 04:39:30 -0400 |
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/* Copyright 2008-2009 Stéphane De Mita, Mathieu Siol This file is part of the EggLib library. EggLib is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. EggLib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with EggLib. If not, see <http://www.gnu.org/licenses/>. */ #ifndef EGGLIB_CONSENSUS_HPP #define EGGLIB_CONSENSUS_HPP #include "Align.hpp" #include <sstream> #include <string> #include <vector> namespace egglib { /** \brief Generates consensus sequences * * \ingroup polymorphism * * * A consensus is generated when two sequences have the same name, * ignoring everything after the first separator character (by * default, "_"). Hence, the names "foo", "foo_goo" and "foo_third" * will be treated as identical and the root will be "foo". The root * will be used to name the resulting sequence. Note that the * class works only for DNA sequences. * * Symbol convention: * - A: adenosine * - C: cytosine * - G: guanine * - T: thymine * - M: A or C * - R: A or G * - W: A or T (weak) * - S: C or G (strong) * - Y: C or T * - K: G or T * - B: C or G or T(not A) * - D: A or G or T (not C) * - H: A or C or T (not G) * - V: A or C or G (not T) * - N: A or C or G or T * - ?: nonsequenced position * * Other symbols will be treated as ? (lowercase are supported). * * Rigorous (alias liberal or strong) mode: * - If two characters are the same, it is retained whatever it is * (A + A = A) * - Otherwise: * - If one is the missing character (?) the other is retained * whatever it is (A + ? = A). * - If characters are consistent, that is one contains * more information, that one is retained (A + M = A). * - If characters are not consistent, the closest * generic symbol is retained (A + C = M). * . * Note that the feedback of inconsistent characters in the * outcome is not garanteed. * In fact, (A + A + G) will result in R (as expected) but (A + * G + A) will result in A, masking the problem. * However, the position will indeed be counted as inconsistent. * * Not rigorous (conservative/weak) mode: * - If two characters are the same, it is retained whatever it * is (A + A = A). * - Otherwise: * - If one is ? the other is retained whatever it is (A + ? * = A). * - Otherwise an inconsistent character (by default, Z) is * retained (A + C = Z). * * Iterative process of consensus: * - Each sequence is taken in turn. * - Each pair involving the focus sequence is processed and a * consensus is generated. * - When all pair have been processsed, the consensus already * generated are themselves iteratively processed until only one * remains. * - Note that at each time the last two are taken first. * * A transparent interface gives access to the data for all steps of * the consensus process, as vectors that covers all pairs (including * intermediate steps of the iterative procedure described above) as * well as singleton sequences. For the latter, the second name is * not filled and all counts are set to 0. Note also that the name of * such singleton sequence is shortened to the separator as well. * */ class Consensus { public: /** \brief Constructor * */ Consensus(); /** \brief Destructor * */ virtual ~Consensus() {} /// Sets the character interpreted as missing (default: ?) void setMissing(char); /// Sets the character used to point to disagreements (default: Z) void setDisagreement(char); /// Checks all the characters bool check_sequences(Align& align); /** \brief Reduces the sequence alignment by making consensus sequences * * \param align the original alignment. * * \param separator the character used to separated the root * name of sequences to the variable part, as in (for the * default value: "sequence_read1". * * \param rigorous consensus mode. * * \return An Align instance with duplicated sequences consensed. * */ Align consensus(Align& align, char separator='_', bool rigorous=true); /// First name of consensed pairs const std::vector<std::string>& firstSequenceNames(); /// Second names of consensed pairs const std::vector<std::string>& secondSequenceNames(); /// Root names of consensed pairs const std::vector<std::string>& roots(); /// Number of consistent positions for all consensed pairs const std::vector<int>& consistentPositions(); /// Number of complementary positions for all consensed pairs const std::vector<int>& complementaryPositions(); /// Number of uninformative positions for all consensed pairs const std::vector<int>& uninformativePositions(); /// Number of ambiguous positions for all consensed pairs const std::vector<int>& ambiguousPositions(); /// Number of at least partially resolved ambiguities for all consensed pairs const std::vector<int>& atLeastPartiallyResolvedAmbiguities(); /// Vector of inconsistent positions ofr all consensed pairs const std::vector<std::vector<int> >& inconsistentPositions(); private: /** \brief Copying this class is not allowed * */ Consensus(const Consensus& source) { } /** \brief Copying this class is not allowed * */ Consensus& operator=(const Consensus& source) { return *this; } // A private helper class PairwiseConsensus; // report data std::vector<std::string> t_firstSequenceNames; std::vector<std::string> t_secondSequenceNames; std::vector<std::string> t_roots; std::vector<int> t_consistentPositions; std::vector<int> t_complementaryPositions; std::vector<int> t_uninformativePositions; std::vector<int> t_ambiguousPositions; std::vector<int> t_atLeastPartiallyResolvedAmbiguities; std::vector<std::vector<int> > t_inconsistentPositions; // Code for missing data (usually ?) char MISSING; // Code for disgrement char DISAGREEMENT; // Helper class managing a single pair class PairwiseConsensus { public: // Default object creation PairwiseConsensus(); // Object destruction virtual ~PairwiseConsensus() {} // Usual object creation PairwiseConsensus(std::string, std::string); // Fills an object created with the default constructor void load(std::string,std::string); // Changes the MISSING character void setUndeterminedCharacter(char); // Changes the DISAGREEMENT character void setDisagreementCharacter(char); /* Uses the conservative mode of consensus * * Tries to avoid to make decisions, and adds the * character set by DISAGREEMENT upon inconsistencies * * return The number of inconsistencies. */ int generateSoftConsensus(); /* Strict mode of consensus * * The number of inconsistencies. */ int generateHardConsensus(); // Two fully resolved (including gap) and identical characters int getConsistentPositions(); // One informative (including gap) and one missing int getComplementaryPositions(); // None missing, but different and incompatible int getInconsistentPositions(); // Both are missing int getUninformativePositions(); // Both identical or one missing, but not fully resolved int getAmbiguousPositions(); // Different, not missing, complementary. int getAtLeastPartiallyResolvedAmbiguities(); // Accessor int getThisInconsistentPosition(unsigned int); // Generates the consensus sequence std::string getConsensus(); private: inline bool isValid(char c) { switch (c) { case 'A': case 'a': case 'C': case 'c': case 'G': case 'g': case 'T': case 't': return true; default: return false; } } // This initiates a series of embedded objects void setCharacterContainers(); // The first sequence std::string seqA; // The second sequence std::string seqB; // The resulting consensus std::string cons; // The vecotr storing the inconsistent positions std::vector<int> posIncons; // The length of the sequences unsigned int ls; // Counter int cntConsistentPositions; // Counter int cntComplementaryPositions; // Counter int cntAmbiguousPositions; // Counter int cntInconsistentPositions; // Counter int cntUninformativePositions; // Counter int cntAtLeastPartiallyResolvedAmbiguities; // Code for missing data (usually ?) char MISSING; // Code for disgrement char DISAGREEMENT; public: // This class manages relationships different symbols class CharacterContainer { public: // Default value: @ CharacterContainer(); // Initiates to a given symbol CharacterContainer(const char&); // Assignment operator CharacterContainer& operator=(const char&); // Sets the symbol void setValue(char); // Set the descendants void setSons(std::vector<CharacterContainer>); // Tests whether the symbol is the same bool is(CharacterContainer); // Tests if the query is contained amongst the sons bool has(CharacterContainer); // Tests if the query is contained amongst the sons bool has(char); /* Tests whether the left character has the left one * Should be called on the N object only. */ char lhas(CharacterContainer,CharacterContainer); /* Creates the object with the proper sons * Should be called on the N object only. */ CharacterContainer init(char); // The symbol char value; // The descendants std::vector<CharacterContainer> sons; }; private: // Symbol ? CharacterContainer ccQ; // Symbol A CharacterContainer ccA; // Symbol C CharacterContainer ccC; // Symbol G CharacterContainer ccG; // Symbol T CharacterContainer ccT; // Symbol U CharacterContainer ccU; // Symbol M CharacterContainer ccM; // Symbol R CharacterContainer ccR; // Symbol W CharacterContainer ccW; // Symbol S CharacterContainer ccS; // Symbol Y CharacterContainer ccY; // Symbol K CharacterContainer ccK; // Symbol B CharacterContainer ccB; // Symbol D CharacterContainer ccD; // Symbol H CharacterContainer ccH; // Symbol V CharacterContainer ccV; // Symbol N CharacterContainer ccN; // Symbol - CharacterContainer ccGAP; }; }; } #endif