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Biorithm
1.1
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Biorithm
1.1
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This class takes an input stream of a matrix data file and analyzes the the independence of the columns. More...
#include <PosMiner.h>
Public Member Functions | |
| PosMiner (float balance=0.5, float support=1.0, unsigned int buffer_size=1000) | |
| PosMiner (const PosMiner &src) | |
| virtual | ~PosMiner () |
| virtual PosMiner & | operator= (const PosMiner &rhs) |
Protected Member Functions | |
| void | analyzeHelper () |
| virtual bool | analyzeLevel (unsigned int level) |
| virtual void | analyzeFirstLevel () |
| virtual void | analyzeNewLevel (unsigned int level) |
| virtual void | countTable (unsigned int level, unsigned int length) |
| virtual bool | hasMatches (m_citer i, m_citer j, unsigned int level) |
| virtual void | pruneItemSets (const vector< unsigned int > &tallies, unsigned int level) |
| virtual unsigned int | handlePrinting (unsigned int level) |
| virtual void | analyzeItemSet (const ItemSet &is, const ItemSet &ispos, const ItemSet &isneg, unsigned int &penalty, unsigned int &success) const |
| virtual void | analyzeItemSet (const ItemSet &is, unsigned int &penalty, unsigned int &success) const |
| int | gensupp (const ItemSet &ispos, const ItemSet &isneg, unsigned int start) const |
| void | setcode (const ItemSet &is, unsigned int code) |
| void | setcode (unsigned int code) |
Protected Attributes | |
| unsigned int | current |
| float | balance |
| unsigned int | bpreq |
| unsigned int | bpreq2 |
| float | support |
| vector< ItemSet > | buffer |
| unsigned int | buffer_size |
| LevItemSetMap< struct passoc > | keepSets |
This class takes an input stream of a matrix data file and analyzes the the independence of the columns.
| PosMiner::PosMiner | ( | float | balance = 0.5, |
| float | support = 1.0, |
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| unsigned int | buffer_size = 1000 |
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| ) |
The Pos TruthFinder
Notes about keepSets: Each itemset has an associated value. 0: There can be no further candidates, this is definitly part of the positive border. 1: Before counting the table, there may be further derivations. After counting the table, there were no further derivations, this is a part of the positive border. 2: There was a successful derivation. This is not a part of the positive border.
------------------------------- Parameters ------------------------------- float balance The minimum fraction of rows that must comprise a bitpattern float support The fraction of bitpatterns that have to succeed at each level unsigned int buffer_size the amount of combinations allowed to sit in the queue at once
| PosMiner::PosMiner | ( | const PosMiner & | src | ) |
| PosMiner::~PosMiner | ( | ) | [virtual] |
Destructor
| void PosMiner::analyzeFirstLevel | ( | ) | [protected, virtual] |
Analyzes level one. Because we have not had candidates until this point, it has to generate the single column "combinations" for each column
| void PosMiner::analyzeHelper | ( | ) | [protected, virtual] |
Analyzes the matrix, one level at a time
--------------------------------- Return --------------------------------- An error message
Reimplemented from LevelwiseMiner.
| bool PosMiner::analyzeLevel | ( | unsigned int | level | ) | [protected, virtual] |
Analyzes a single level
------------------------------- Parameters ------------------------------- unsigned int level The current level
--------------------------------- Return --------------------------------- Whether or not we should continue (whether or not any matches were found)
Implements LevelwiseMiner.
| void PosMiner::analyzeNewLevel | ( | unsigned int | level | ) | [protected, virtual] |
Analyzes any level other than the first one
------------------------------- Parameters ------------------------------- unsigned int level The current level
| void PosMiner::countTable | ( | unsigned int | level, |
| unsigned int | length | ||
| ) | [protected, virtual] |
Counts out the truth tables at this level, given a set of column combinations
------------------------------- Parameters ------------------------------- vector<ItemSet*>& buffer The buffer of ItemSets that we need to analyze LevItemSetMap<struct assoc>& result The table to store all the succeeding combimations in unsigned int level The current level unsigned int length The number of combinations sitting in the buffer
| unsigned int PosMiner::handlePrinting | ( | unsigned int | prevlevel | ) | [protected, virtual] |
Handle printing
------------------------------- Parameters ------------------------------- unsigned int level The current level
--------------------------------- Return --------------------------------- The level count
| bool PosMiner::hasMatches | ( | m_citer | i, |
| m_citer | j, | ||
| unsigned int | level | ||
| ) | [protected, virtual] |
At this point we have found two matching sets (Two sets of width w, where only one element differs in each) Now we need to see if the other elements exist
------------------------------- Parameters ------------------------------- const ItemSet* i The first item set const ItemSet* j The second item set unsigned int level The current level
--------------------------------- Return --------------------------------- Whether or not all the matches are found
| void PosMiner::pruneItemSets | ( | const vector< unsigned int > & | tallies, |
| unsigned int | level | ||
| ) | [protected, virtual] |
Prunes out itemsets based on bitpattern counts
------------------------------- Parameters ------------------------------- vector<ItemSet*>& buffer The buffer of ItemSets that we are evaluating LevItemSetMap& result The table to store all the succeeding combimations in const vector<vector<unsigned int> >& tallies) The tally sheet of bitpattern counts unsigned int level The current level
1.7.6.1
