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This one is for adding two sparse matrices that I have written. As you can see from this code I have used has_key to identify if there are zeros or not in the matrix. However I am not able to express the multiplication of two sparse matrices. Could you help me please? As same as for the addition has_key should be used.

from random import random as rand, seed
from math import log, ceil

# Matrix size
M=30; # Number of rows
N=30; # Number of columns
# Set seeding value to 1 (to get the similar result at each run)
# For 12% of numbers of elements of the matrix A
def GenerateSparseMatrix(M,N,fill_ratio):
    A={} # Create an empty dictionary
    for k in range(int(M*N*fill_ratio)):      
        # Randomly generate row and column indices
        row   =int((M-1)*rand()) # Row index
        column=int((N-1)*rand()) # Column index
        # Generate a random value in the range [1...6]
        # Add element to a sparse matrix
        if A.has_key(row):
            # If row index already exists
            # update only column entry
            # If row doesn't exist, create it
    # Return output matrix and exit
    return A
# end of GenerateSparseMatrix

def AddSparseMatrices(M,N,A,B):  
    for i in range(M):
        # If in both A and B exists a nonempty entry at row "i"
        if A.has_key(i) & B.has_key(i):
            for j in range(N):
                # If in both A and B exists a nonempty entry at row "i" and column "j"
                if (A[i].has_key(j) & B[i].has_key(j)):
                    # The sum these values
                    if C.has_key(i):
                        # If C has values at row "i"
                        # then update just the column part
                    else: # If C doesn't have values at row "i"
                        # then create a row "i"
                elif A[i].has_key(j) & (not(B[i].has_key(j))):
                    # If A[i] has key "j" and B doesn't then copy values from A[i][j] to C[i][j]
                    if C.has_key(i):
                elif B[i].has_key(j) & (not(A[i].has_key(j))):
                    # If A[i] has key "j" and B doesn't then copy values from B[i][j] to C[i][j]
                    if C.has_key(i):

        # If A has key "i" and B doesn't then copy values 
        # from A[i][:] to C[i][:]
        elif A.has_key(i) & (not(B.has_key(i))):

        # If B has key "i" and A doesn't then copy values 
        # from B[i][:] to C[i][:]
        elif B.has_key(i) & (not(A.has_key(i))):

    # Return C=A+B and exit the program
    return C
# end of AddSparseMatrices

def PrintSparseMatrix(M,N,A):    
    print "\t\tSparse matrix with M(rows)=", M, ", N(columns)=", N, "\n"
    # Preallocation for formatting string
    # Precision for pring formatting
    prec=int(ceil(log(max(M,N),10))) # e.g. for 25 it is a decimal with base e.g. 10^2
    # Generate format string for rows
    for i in range(N):
        # Concatenate strings to get smth like  "... %2d %2d %2d ..."
        format_row+= " %"+str(prec)+"d"
    # White spaces
    for i in range(prec):
        white+=" " # White space    
    # Print first line with column indices
    print white+"|"+format_row % tuple(range(N))
    # Formatting string for margin line (long underline)
    # (M+1) {M columns + one column for indices} times
    # Number of characters per element (number) which is equal to
    # "prec"+1 (for white space btw numbers).
    for i in range((M+1)*(prec+1)):
    # Print margin line
    print string
    # Now print all rows of the matrix A
    for i in range(M):
        # Preallocate memory for a line (fill with zeros)
        line=[0 for dummy in range(N)]
        # If line is nonempty
        if A.has_key(i):
            # then check for each column index
            for j in range(N):
                # if it exists
                if A[i].has_key(j):
                    # update list entry
        # Print the line with proper formatting
        print ("%"+str(prec)+"d|") % i+ format_row % tuple(line)
# end of PrintSparseMatrix

share|improve this question
One of the matrix multiplication algorithms is in: dl.acm.org/citation.cfm?id=355796. SuiteSparse (faculty.cse.tamu.edu/davis/suitesparse.html) has a matrix multiplication routine (SuiteSparse/CSparse/Source/cs_multiply.c). –  Kadir Oct 20 at 8:34

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