Exercise 2 for the course "Parallel and distributed systems" of THMMY in AUTH university.
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#include <stdio.h>
#include <stdlib.h>
#include <float.h>
#include "knnMPINonBlockingDeclarations.h"
#include "mpi.h"
void getArguments(int argc, char** argv){
if (argc != 6) {
printf("Usage: %s p d k filename\nwhere:\n", argv[0]);
printf("\tp is the the number of points\n");
printf("\td is the number of dimensions of each point\n");
printf("\tk is the number of neighbors to search for\n");
printf("\tdf is the filename of the dataset file\n");
printf("\ttf is the filename of the dataset file\n");
abExit(1);
}
numberOfPoints = atoi(argv[1]);
numberOfDimensions = atoi(argv[2]);
numberOfNeighbors = numberOfPoints - 1;
k = atoi(argv[3]);
if (k >= numberOfPoints){
k = numberOfPoints - 1;
}
pointsFilename = argv[4];
testFilename = argv[5];
}
void init(double ***pointsArray, double ***inBuffer, double ***outBuffer
, neighbor ***sortedNeighborsArray, int chunksize, int offset){
//Allocates memory for points array
*pointsArray = cMalloc(chunksize, numberOfDimensions);
//Allocates memory for the buffer storing points coming from another process
*inBuffer = cMalloc(chunksize, numberOfDimensions);
//Allocates memory for the buffer storing points going out to another process
*outBuffer = cMalloc(chunksize, numberOfDimensions);
//Allocates memory for neighbors array
if ( (*sortedNeighborsArray = (neighbor**)(malloc((sizeof(neighbor *)) * chunksize))) != NULL ){
for (int row = 0; row < chunksize; ++row){
if ( ( (*sortedNeighborsArray)[row]
= (neighbor*)(malloc((sizeof(neighbor)) * numberOfNeighbors)) ) == NULL ){
printf("Error allocating memory\n");
abExit(1);
}
}
} else {
printf("Error allocating memory\n");
abExit(1);
}
//Reads coordinates from the file
if (readPointsArrayFromFile(pointsArray, chunksize, offset)){
abExit(1);
}
//Initializes neighbors array distances and ID's to -1
for (int point=0; point<chunksize; ++point){
for(int neighbor=0; neighbor<numberOfNeighbors; ++neighbor){
(*sortedNeighborsArray)[point][neighbor].distance = DBL_MAX;
(*sortedNeighborsArray)[point][neighbor].neighborId = -1;
}
}
}
double **cMalloc(int rows, int columns){
double **array;
//allocates a continuous block of memory
double *tempArray = (double *)calloc(rows * columns, sizeof(double));
if (tempArray == NULL){
printf("Error allocating memory\n");
abExit(1);
}
//creates pointers to each row and column for easy indexing
if ((array = ((double**)(malloc((sizeof(double *)) * rows)))) != NULL){
for (int row = 0; row < rows; ++row){
array[row] = &(tempArray[columns * row]);
}
} else {
printf("Error allocating memory\n");
abExit(1);
}
return array;
}
int readPointsArrayFromFile(double ***array, int chunksize, int offset){
FILE *pointsBinaryFile = fopen(pointsFilename, "rb");
if (pointsBinaryFile == NULL){
printf("Couldn't open points file.\n");
return 1;
}
if (fseek(pointsBinaryFile, offset * sizeof(double), SEEK_SET)){
printf("Error reading the file. Quitting.\n");
abExit(0);
}
for (int point=0; point<chunksize; ++point){
if ( fread((*array)[point], sizeof(double), numberOfDimensions, pointsBinaryFile)
!= numberOfDimensions ){
if(feof(pointsBinaryFile)){
printf("Premature end of file reached.\n");
} else{
printf("Error reading points file.");
}
fclose(pointsBinaryFile);
return 1;
}
}
fclose(pointsBinaryFile);
return 0;
}
void printArray(int rows, int columns, double ***array){
for (int row=0; row<rows; ++row){
for (int column=0; column<columns; ++column){
printf("[%d][%d] = %f\n", row, column, (*array)[row][column]);
}
printf("\n");
}
}
void calculateDistances(double ***firstPointsSet, double ***secondPointsSet
, neighbor ***sortedNeighborsArray, int chunksize, int myOffset, int indexOffset){
for (int firstPoint=0; firstPoint<chunksize; ++firstPoint){
for (int secondPoint=0; secondPoint<chunksize; ++secondPoint){
if (myOffset + firstPoint == indexOffset + secondPoint){
continue;
}
double distance = 0;
for (int dimensionIndex=0; dimensionIndex<numberOfDimensions; ++dimensionIndex){
double tmpDiff = (*firstPointsSet)[firstPoint][dimensionIndex]
- (*secondPointsSet)[secondPoint][dimensionIndex];
distance += tmpDiff * tmpDiff;
}
addDistance(sortedNeighborsArray, firstPoint, myOffset + firstPoint
, indexOffset + secondPoint, distance);
}
}
}
void addDistance(neighbor ***sortedNeighborsArray, int firstPointIndex, int firstPointId
, int secondPointId, double pointsDistance){
//Determines actual index in which the distance will be added
int insertIndex = secondPointId;
if (secondPointId > firstPointId){
--insertIndex;
}
(*sortedNeighborsArray)[firstPointIndex][insertIndex].distance = pointsDistance;
(*sortedNeighborsArray)[firstPointIndex][insertIndex].neighborId = secondPointId;
}
int compare (const void *a, const void *b){
//Casts arguments to pointers to neighbors
const neighbor *neighborA = (neighbor*) a;
const neighbor *neighborB = (neighbor*) b;
if (neighborA->distance == neighborB->distance){
return 0;
} else{
return neighborA->distance > neighborB->distance ? 1 : -1;
}
}
void swapPointers(double ***firstArray, double ***secondArray){
double **tempPtr = *firstArray;
*firstArray = *secondArray;
*secondArray = tempPtr;
}
int test(neighbor ***sortedNeighborsArray, int chunksize, int offset, char *testFilename){
FILE *testFile = fopen(testFilename, "r");
char *discarded = NULL;
size_t n = 0;
if (testFile == NULL){
printf("Couldn't open test file.\n");
perror("fopen");
return 1;
}
if (offset){
for (int line=0; line<offset; ++line){
if (getline(&discarded, &n, testFile) == -1){
perror("Error reading test file");
return 1;
}
n = 0;
}
free(discarded);
}
for (int point=0; point<chunksize; ++point){
for (int i=0; i<k; ++i){
int tempID = 0;
if (fscanf(testFile, "%d,", &tempID) == EOF){
printf("Premature end of file reached.\n");
fclose(testFile);
return 1;
}
if ((*sortedNeighborsArray)[point][i].neighborId != tempID - 1){ //-1 because f@ck matlab
fclose(testFile);
return 1;
}
}
}
fclose(testFile);
return 0;
}
void cleanUp(double ***pointsArray, double ***inBuffer, double ***outBuffer
, neighbor ***sortedNeighborsArray, int chunksize){
free((*pointsArray)[0]);
free(*pointsArray);
free((*inBuffer)[0]);
free(*inBuffer);
free((*outBuffer)[0]);
free(*outBuffer);
for (int row=0; row<chunksize; ++row){
free((*sortedNeighborsArray)[row]);
}
free(*sortedNeighborsArray);
}
void abExit(int exitCode){
int initialized = 0;
MPI_Initialized(&initialized);
if (initialized){
MPI_Abort(MPI_COMM_WORLD, -1);
}
exit(0);
}