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86 lines
3.4 KiB
86 lines
3.4 KiB
#ifndef SERIAL_GS_PAGERANK_FUNCTIONS_H /* Include guard */
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#define SERIAL_GS_PAGERANK_FUNCTIONS_H
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#include <stdbool.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <math.h>
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/*
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* Constant strings that store the command line options available.
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*/
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extern const char *ARGUMENT_CONVERGENCE_TOLERANCE;
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extern const char *ARGUMENT_MAX_ITERATIONS;
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extern const char *ARGUMENT_DAMPING_FACTOR;
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extern const char *ARGUMENT_VERBAL_OUTPUT;
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extern const char *ARGUMENT_OUTPUT_HISTORY;
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extern const char *ARGUMENT_OUTPUT_FILENAME;
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// This is the numerical base used when parsing the numerical command line
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// arguments.
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extern const int NUMERICAL_BASE;
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// Default filename used for the output.
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extern char *DEFAULT_OUTPUT_FILENAME;
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// Declares a data structure to conveniently hold the algorithm's parameters.
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typedef struct parameters {
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int numberOfPages, maxIterations;
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double convergenceCriterion, dampingFactor;
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bool verbose, history;
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char *outputFilename, *graphFilename;
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} Parameters;
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// Function validUsage outputs the correct way to use the program with command
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// line arguments.
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void validUsage(char *programName);
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// Function checkIncrement is a helper function used in parseArguments (see
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// bellow).
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int checkIncrement(int previousIndex, int maxIndex, char *programName);
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// Function parseArguments parses command line arguments.
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void parseArguments(int argumentCount, char **argumentVector, Parameters *parameters);
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// Function readGraphFromFile loads adjacency matrix, that represents the web
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// graph, stored in the file provided in the command line arguments to the array
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// directedWebGraph.
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void readGraphFromFile(int ***directedWebGraph, Parameters *parameters);
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// Function savePagerankToFile appends or overwrites the pagerank vector
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// "pagerankVector" to the file with the filename supplied in the arguments
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void savePagerankToFile(char *filename, bool append, double *pagerankVector,
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int vectorSize);
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// Function generateNormalizedTransitionMatrix generates the normalized
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// transition matrix from the web graph data.
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void generateNormalizedTransitionMatrix(int ***transitionMatrix,
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int **directedWebGraph, Parameters parameters);
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// Function transposeMatrix transposes a matrix.
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void transposeMatrix(int ***matrix, int rows, int columns);
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// Function initialize allocates required memory for arrays, reads the dataset
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// from the file and creates the transition probability distribution matrix.
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void initialize(
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int ***directedWebGraph, /*This is matrix G (web graph)*/
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int ***transitionMatrix, /*This is matrix A (transition probability distribution matrix)*/
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double **pagerankVector, /*This is the resulting pagerank vector*/
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Parameters *parameters
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);
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// Function vectorNorm calculates the first norm of a vector.
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double vectorNorm(double *vector, int vectorSize);
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// Function matrixVectorMultiplication calculates the product of the
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// multiplication between a matrix and the a vector.
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void matrixVectorMultiplication(int **transitionMatrix, double *previousPagerankVector,
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double *linksFromConvergedPagesPagerankVector, double *convergedPagerankVector,
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double **pagerankVector, int vectorSize, double dampingFactor);
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// Function pagerank iteratively calculates the pagerank of each page until
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// either the convergence criterion is met or the maximum number of iterations
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// is reached.
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int pagerank(int ***transitionMatrix, double **pagerankVector, Parameters parameters);
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#endif // SERIAL_GS_PAGERANK_FUNCTIONS_H
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