Delete csr_sparse_matrix.c

6 years ago · cd85a970d3
1 changed files with 0 additions and 263 deletions
--- a/serial_csr/csr_sparse_matrix.c
+++ b/serial_csr/csr_sparse_matrix.c
@ -1,263 +0,0 @@
 #include "csr_sparse_matrix.h"
 CsrSparseMatrix initCsrSparseMatrix() {
 	CsrSparseMatrix sparseMatrix;
 	sparseMatrix.size = 0;   
 	sparseMatrix.nnz = 0;  	 
 	sparseMatrix.values = NULL;
 	sparseMatrix.columnIndexes = NULL;
 	sparseMatrix.rowaccInd = NULL;
 	return sparseMatrix;
 }
 void allocMemoryForElements (CsrSparseMatrix *sparseMatrix, int edges) {
 	sparseMatrix->values = (double *) malloc(
 		edges * sizeof(double));				
 	sparseMatrix->columnIndexes = (int *) malloc(
 		edges * sizeof(int));
 	sparseMatrix->rowaccInd = (int *) malloc(
 		edges * sizeof(int));
 }
 void addElement(CsrSparseMatrix *sparseMatrix, double value, int row, int column) {
 	for(int i=row+1; i<sparseMatrix->size; ++i){
 		++sparseMatrix->rowaccInd[i];
 	}
 	sparseMatrix->nnz = sparseMatrix->nnz+1;
 	sparseMatrix->values[sparseMatrix->rowaccInd[row-1]+1] = value;
 	sparseMatrix->columnIndexes[sparseMatrix->rowaccInd[row-1]+1] = column;
 	// Creates the new element
 	/*CsrSparseMatrixElement *newElement = (CsrSparseMatrixElement *) malloc(
 		sizeof(CsrSparseMatrixElement));
 	newElement->value = value;
 	newElement->rowIndex = row;
 	newElement->columnIndex = column;
 	sparseMatrix->elements[sparseMatrix->size] = newElement;   
 	sparseMatrix->size = sparseMatrix->size + 1; */
 }
 void zeroOutRow(CsrSparseMatrix *sparseMatrix, int row) {
 	int noofnnzinrow;
 	if(row==0){
 		noofnnzinrow = sparseMatrix->rowaccInd[row];
 	}
 	else{
 		noofnnzinrow = sparseMatrix->rowaccInd[row]-sparseMatrix->rowaccInd[row-1];
 	}
 	int startdeleteInd = sparseMatrix->rowaccInd[row-1]+1;
 	//delete the values and columnindexes of these rows by moving up the rest
 	for(int i=0; i<noofnnzinrow; ++i){
 		sparseMatrix->values[i+startdeleteInd] = sparseMatrix->values[sparseMatrix->nnz-noofnnzinrow+i];
 		sparseMatrix->values[sparseMatrix->nnz-noofnnzinrow+i] = 0;
 		sparseMatrix->columnIndexes[i+startdeleteInd] = sparseMatrix->columnIndexes[sparseMatrix->nnz-noofnnzinrow+i];
 		sparseMatrix->columnIndexes[sparseMatrix->nnz-noofnnzinrow+i] = 0;
 	}
 	sparseMatrix->nnz = sparseMatrix->nnz - noofnnzinrow;
 	//substract from accumulative no. of row nnz elements
 	for(int i=row; i<sparseMatrix->size ; ++i){
 		sparseMatrix->rowaccInd[i] -= noofnnzinrow;
 	}
 	/*for (int i=0; i<sparseMatrix->size; ++i) {
 		CooSparseMatrixElement *element = sparseMatrix->elements[i];
 		if (element->rowIndex == row) {
 			element->value = 0;
 		}
 	}*/
 }
 void zeroOutColumn(CsrSparseMatrix *sparseMatrix, int column) {
 	/*for (int i=0; i<sparseMatrix->size; ++i) {
 		CooSparseMatrixElement *element = sparseMatrix->elements[i];
 		if (element->columnIndex == column) {
 			element->value = 0;
 		}
 	}
 	*/
 	for (int i=0; i<sparseMatrix->nnz; ++i){
 		if(sparseMatrix->columnIndexes[i] == column){
 			//delete columns by moving up the rest
 			for(int j=i; j<sparseMatrix->nnz-1; ++j){
 				sparseMatrix->columnIndexes[j] = sparseMatrix->columnIndexes[j+1];
 				sparseMatrix->values[j] = sparseMatrix->values[j+1];
 			}
 			int flag = 0;
 			//adjust rowaccInd 
 			for(int j=0; j<sparseMatrix->size; ++j){
 				if(sparseMatrix->rowaccInd[j] > i){
 					flag = 1;        //must be substracted since column belonged to this row
 				}
 				if(flag){
 					--sparseMatrix->rowaccInd[j];  //substract till end of rows 
 				}
 			}
 		}
 	}
 }
 int *getRowIndexes(CsrSparseMatrix sparseMatrix, int row, int *rowSize) { 
 	*rowSize = 0;
 	/*for (int i=0; i<sparseMatrix.size; ++i) {
 		if (sparseMatrix.elements[i]->rowIndex == row) {
 			++(*rowSize);
 		}
 	}
 	if (!(*rowSize)) {
 		return NULL;
 	}*/
 	if((row-1)>0 && (sparseMatrix.rowaccInd[row]-sparseMatrix.rowaccInd[row-1])>0){
 		(*rowSize) = sparseMatrix.rowaccInd[row]-sparseMatrix.rowaccInd[row-1];
 	}
 	else if((sparseMatrix.rowaccInd[row]-sparseMatrix.rowaccInd[row-1])>0){ //if row = 0
 		(*rowSize) = sparseMatrix.rowaccInd[row];
 	}
 	else{
 		return NULL;
 	}
 	int *indexes = (int *) malloc((*rowSize) * sizeof(int));
 	for (int i=1; i<=(*rowSize); ++i) {
 		indexes[i-1] = sparseMatrix.rowaccInd[row-1]+i;				
 	}
 	return indexes;
 }
 void transposeSparseMatrix(CsrSparseMatrix *sparseMatrix) {
 	/*for (int i=0; i<sparseMatrix->size; ++i) {
 		CooSparseMatrixElement *element = sparseMatrix->elements[i];
 		int tempRow = element->rowIndex;
 		element->rowIndex = element->columnIndex;
 		element->columnIndex = tempRow;
 	}*/
 	double* values_t = (double *) malloc(
 		sparseMatrix->size * sizeof(double));
 	int* rowIndexes = (int *) malloc(
 		sparseMatrix->size * sizeof(int));
 	int* colaccInd = (int *) malloc(
 		sparseMatrix->size * sizeof(int));
 	int columncount, nnznew = 0;
 	//for all columns
 	for(columncount = 0; columncount<sparseMatrix->size; ++columncount){
 		//index for searching in columnIndexes matrix
 		for(int i = 0; i<sparseMatrix->nnz;++i){
 			if(sparseMatrix->columnIndexes[i] == columncount){
 				//Find which row it belongs to
 				for(int j=0; j<sparseMatrix->size; ++j){
 					if(sparseMatrix->rowaccInd[j] == i){
 						rowIndexes[nnznew] = j-1;
 						values_t[nnznew] = sparseMatrix->values[i];
 						for(int k=i; k<sparseMatrix->size; ++k){
 							++colaccInd[k];
 						}
 						++nnznew;
 					}
 				}
 			}
 		}
 	}
 	memcpy(sparseMatrix->values, values_t, sparseMatrix->size*sizeof(double));
 	memcpy(sparseMatrix->columnIndexes, rowIndexes, sparseMatrix->size*sizeof(int));
 	memcpy(sparseMatrix->rowaccInd, colaccInd, sparseMatrix->size*sizeof(int) );
 	sparseMatrix->nnz = nnznew;
 }
 void csrSparseMatrixVectorMultiplication(CsrSparseMatrix sparseMatrix,
 	double *vector, double **product, int vectorSize) {
 	// Initializes the elements of the product vector to zero
 	for (int i=0; i<vectorSize; ++i) {
 		(*product)[i] = 0;
 	}
 	/*CooSparseMatrixElement *element;
 	for (int i=0; i<sparseMatrix.size; ++i) {
 		element = sparseMatrix.elements[i];
 		int row = element->rowIndex, column = element->columnIndex;
 		if (row >= vectorSize) {
 			printf("Error at sparseMatrixVectorMultiplication. Matrix has more rows than vector!\n");
 			printf("row = %d\n", row);
 			exit(EXIT_FAILURE);
 		}
 		(*product)[row] = (*product)[row] + element->value * vector[column];
 	}*/
 	int t;
 	//for every row
 	for (int i=0; i<sparseMatrix.size; ++i) {
 		if(i==0){
 			t = sparseMatrix.rowaccInd[0];
 		}
 		else{
 			t = sparseMatrix.rowaccInd[i]-sparseMatrix.rowaccInd[i-1];
 		}
 		for(int j=0; j<t; ++j){
 			for(int k=0; k<vectorSize; ++k){
 				if(sparseMatrix.columnIndexes[sparseMatrix.rowaccInd[i]+t]==k){
 					(*product)[k] += sparseMatrix.values[sparseMatrix.rowaccInd[i]+t]*vector[k];
 				}
 				else if(sparseMatrix.columnIndexes[sparseMatrix.rowaccInd[i]+t]>k){
 					printf("Error at sparseMatrixVectorMultiplication. Matrix has more columns than vector rows!\n");
 					exit(EXIT_FAILURE);
 				}
 			}
 		}
 	}
 }
 void destroyCsrSparseMatrix(CsrSparseMatrix *sparseMatrix) {
 	/*for (int i=0; i<sparseMatrix->size; ++i) {
 		free(sparseMatrix->elements[i]);
 	}*/
 	free(sparseMatrix->values);
 	free(sparseMatrix->rowaccInd);
 	free(sparseMatrix->columnIndexes);
 }
 void printCsrSparseMatrix(CsrSparseMatrix sparseMatrix) {
 	if (sparseMatrix.size == 0) {
 		return;
 	}
 	/*
 	CooSparseMatrixElement *element;
 	for (int i=0; i<sparseMatrix.size; ++i) {
 		element = sparseMatrix.elements[i];
 		printf("[%d,%d] = %f\n", element->rowIndex, element->columnIndex,
 			element->value);
 	}*/
 	int t;
 	for (int i=0; i<sparseMatrix.size; ++i){
 		if(i==0){
 			t = sparseMatrix.rowaccInd[i];
 		}
 		else{
 			t = sparseMatrix.rowaccInd[i]-sparseMatrix.rowaccInd[i-1];
 		}
 		for(int j=0; j<t ; ++j){
 			printf("Row [%d] has [%d] nz elements: \n at column[%d] is value = %f \n",
 				i, t, sparseMatrix.columnIndexes[sparseMatrix.rowaccInd[i]+j], sparseMatrix.values[sparseMatrix.rowaccInd[i]+j]);
 		}
 	}
 }