#include "serial_gs_pagerank_functions.h" const char *ARGUMENT_CONVERGENCE_TOLERANCE = "-c"; const char *ARGUMENT_MAX_ITERATIONS = "-m"; const char *ARGUMENT_DAMPING_FACTOR = "-a"; const char *ARGUMENT_VERBAL_OUTPUT = "-v"; const char *ARGUMENT_OUTPUT_HISTORY = "-h"; const char *ARGUMENT_OUTPUT_FILENAME = "-o"; const int NUMERICAL_BASE = 10; char *DEFAULT_OUTPUT_FILENAME = "pagerank_output"; const int FILE_READ_BUFFER_SIZE = 4096; // ==================== PAGERANK ==================== int pagerank(SparseMatrix *transitionMatrix, double **pagerankVector, bool *convergenceStatus, Parameters parameters) { int iterations = 0; double delta, *vectorDifference = (double *) malloc(parameters.numberOfPages * sizeof(double)), *previousPagerankVector = (double *) malloc(parameters.numberOfPages * sizeof(double)), *convergedPagerankVector = (double *) malloc(parameters.numberOfPages * sizeof(double)), **linksFromConvergedPages = (double **) malloc(parameters.numberOfPages * sizeof(double *)), *linksFromConvergedPagesPagerankVector = (double *) malloc(parameters.numberOfPages * sizeof(double)); bool *converganceMatrix = (bool *) malloc(parameters.numberOfPages * sizeof(bool)); *convergenceStatus = false; for (int i=0; ivalue : 0; } deleteElement(transitionMatrix, i, j); deleteElement(transitionMatrix, j, i); } double sum = 0; for (int j=0; j 10) { validUsage(argumentVector[0]); } (*parameters).numberOfPages = 0; (*parameters).maxIterations = 0; (*parameters).convergenceCriterion = 1; (*parameters).dampingFactor = 0.85; (*parameters).verbose = false; (*parameters).history = false; (*parameters).outputFilename = DEFAULT_OUTPUT_FILENAME; char *endPointer; int argumentIndex = 1; while (argumentIndex < argumentCount) { if (!strcmp(argumentVector[argumentIndex], ARGUMENT_CONVERGENCE_TOLERANCE)) { argumentIndex = checkIncrement(argumentIndex, argumentCount, argumentVector[0]); double convergenceInput = strtod(argumentVector[argumentIndex], &endPointer); if (convergenceInput == 0) { printf("Invalid convergence argument\n"); exit(EXIT_FAILURE); } (*parameters).convergenceCriterion = convergenceInput; } else if (!strcmp(argumentVector[argumentIndex], ARGUMENT_MAX_ITERATIONS)) { argumentIndex = checkIncrement(argumentIndex, argumentCount, argumentVector[0]); size_t iterationsInput = strtol(argumentVector[argumentIndex], &endPointer, NUMERICAL_BASE); if (iterationsInput == 0 && endPointer) { printf("Invalid iterations argument\n"); exit(EXIT_FAILURE); } (*parameters).maxIterations = iterationsInput; } else if (!strcmp(argumentVector[argumentIndex], ARGUMENT_DAMPING_FACTOR)) { argumentIndex = checkIncrement(argumentIndex, argumentCount, argumentVector[0]); double alphaInput = strtod(argumentVector[argumentIndex], &endPointer); if ((alphaInput == 0 || alphaInput > 1) && endPointer) { printf("Invalid alpha argument\n"); exit(EXIT_FAILURE); } (*parameters).dampingFactor = alphaInput; } else if (!strcmp(argumentVector[argumentIndex], ARGUMENT_VERBAL_OUTPUT)) { (*parameters).verbose = true; } else if (!strcmp(argumentVector[argumentIndex], ARGUMENT_OUTPUT_HISTORY)) { (*parameters).history = true; } else if (!strcmp(argumentVector[argumentIndex], ARGUMENT_OUTPUT_FILENAME)) { argumentIndex = checkIncrement(argumentIndex, argumentCount, argumentVector[0]); if (fopen(argumentVector[argumentIndex], "w") == NULL) { printf("Invalid output filename. Reverting to default.\n"); continue; } (*parameters).outputFilename = argumentVector[argumentIndex]; } else if (argumentIndex == argumentCount - 1) { (*parameters).graphFilename = argumentVector[argumentIndex]; } else { validUsage(argumentVector[0]); exit(EXIT_FAILURE); } ++argumentIndex; } } /* * readGraphFromFile loads the file supplied in the command line arguments to an * array (directedWebGraph) that represents the graph. */ void generateNormalizedTransitionMatrixFromFile(SparseMatrix *transitionMatrix, Parameters *parameters){ FILE *graphFile; // Opens the file for reading graphFile = fopen((*parameters).graphFilename, "r+"); if (!graphFile) { printf("Error opening file \n"); exit(EXIT_FAILURE); } char buffer[FILE_READ_BUFFER_SIZE]; char *readResult; // Skips the first two lines readResult = fgets(buffer, FILE_READ_BUFFER_SIZE, graphFile); readResult = fgets(buffer, FILE_READ_BUFFER_SIZE, graphFile); if (readResult == NULL) { printf("Error while reading from the file. Does the file have the correct format?\n"); exit(EXIT_FAILURE); } // Third line contains the numbers of nodes and edges int numberOfNodes = 0, numberOfEdges; readResult = fgets(buffer, FILE_READ_BUFFER_SIZE, graphFile); if (readResult == NULL) { printf("Error while reading from the file. Does the file have the correct format?\n"); exit(EXIT_FAILURE); } // Parses the number of nodes and number of edges { // Splits string to whitespace char *token = strtok(buffer, " "); bool nextIsNodes = false, nextIsEdges = false; while (token != NULL) { if (strcmp(token, "Nodes:") == 0) { nextIsNodes = true; } else if (nextIsNodes) { numberOfNodes = atoi(token); nextIsNodes = false; } else if (strcmp(token, "Edges:") == 0) { nextIsEdges = true; } else if (nextIsEdges) { numberOfEdges = atoi(token); break; } // Gets next string token token = strtok (NULL, " ,.-"); } } if ((*parameters).verbose) { printf("The number of pages is: %d\nThe number of edges is: %d\n", numberOfNodes, numberOfEdges); } (*parameters).numberOfPages = numberOfNodes; // Skips the fourth line readResult = fgets(buffer, 512, graphFile); if (readResult == NULL) { printf("Error while reading from the file. Does the file have the correct format?\n"); exit(EXIT_FAILURE); } printf("SIZE OF STRUCT = %lu Bytes\n", sizeof(SparseMatrixElement)); int fivePercentIncrements = (int) numberOfEdges/20; fivePercentIncrements = fivePercentIncrements != 0 ? fivePercentIncrements : 1; for (int i=0; ifirstElement->rowIndex; SparseMatrixElement *startElement = transitionMatrix->firstElement; while(true) { int pageOutdegree = 1; SparseMatrixElement *currentElement = startElement->nextElement; // Calculates current page's outdegree while (currentElement != NULL) { if (currentElement->rowIndex == currentRow) { ++pageOutdegree; currentElement = currentElement->nextElement; } else { break; } } // Assigns the value 1/outdegree to current page's columns currentElement = startElement; double pageUniformProbability = 1. / pageOutdegree; for (int i=0; irowIndex == currentRow) { currentElement->value = pageUniformProbability; currentElement = currentElement->nextElement; } else { break; } } // Reached the last element; if (currentElement == NULL) { break; } startElement = currentElement; currentRow = startElement->rowIndex; } fclose(graphFile); } /* * validUsage outputs a message to the console that informs the user of the * correct (valid) way to use the program. */ void validUsage(char *programName) { printf("%s [-c convergence_criterion] [-m max_iterations] [-a alpha] [-v] [-h] [-o output_filename] " \ "\n-c convergence_criterion" \ "\n\tthe convergence tolerance criterion" \ "\n-m max_iterations" \ "\n\tmaximum number of iterations to perform" \ "\n-a alpha" \ "\n\tthe damping factor" \ "\n-v enable verbal output" \ "\n-h enable history output to file" \ "\n-o output_filename" \ "\n\tfilename and path for the output" \ "\n", programName); exit(EXIT_FAILURE); } /* * checkIncrement is a helper function for parseArguments function. */ int checkIncrement(int previousIndex, int maxIndex, char *programName) { if (previousIndex == maxIndex) { validUsage(programName); exit(EXIT_FAILURE); } return ++previousIndex; } void savePagerankToFile(char *filename, bool append, double *pagerankVector, int vectorSize) { FILE *outputFile; if (append) { outputFile = fopen(filename, "a"); } else { outputFile = fopen(filename, "w"); } if (outputFile == NULL) { printf("Error while opening the output file.\n"); return; } for (int i=0; i