The problem is:

An alternative linked representation for sparse matrices uses nodes that have the fields down, right, roe, col, and value. Each nonzero entry of the sparse matrix is represented by a node. The zero terms are not explicitly stored. The nodes are linked together to form two circular lists. The first list, the row list, is made up by linking nodes by rows and within rows by columns using the right eld. The second,list, the column list, is made up by linking nodes via the down field. In this list, nodes are linked by columns and within columns by rows. These two lists share a common header node. In addition, a node is added to the dimensions of the matrix.

I hope to overload operator >> and also add and transpose methods:

istream & operator>>(istream & in, sparseMatrixLinked<T> x);
//The input format is as follows.

4   4   3  //   # of rows, # of cols, # of nonzero entries
0   0   2  // row #, col #, item value #
0   3   1
1   1   7

// c = (*this) + b

// b is transpose of *this.

I cannot figure out a solution. Could anyone provide some advice? Thank you very much!

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Draw a picture. Pictures always help me. –  Tobias Feb 16 '11 at 6:03
What do you want operator >> to do? You didn't specify. If you want it to read from istreams, then explain the format you expect the input to take. –  Walter Mundt Feb 16 '11 at 6:50
For add, what do you want to do, precisely? Do you want to overlap the matrices and add the val entries in any cell existing in both, or to make a larger matrix by arranging the second next to the first somehow, or what? –  Walter Mundt Feb 16 '11 at 7:19
I know that, but do you mean the matrices are added in the mathematical sense (i.e. cell-by-cell with guaranteed equal size)? There are other ways you could define "adding" two matrices, and I have no idea what kind of application domain you're working in. –  Walter Mundt Feb 16 '11 at 7:27

For transpose, you could traverse one list, swapping all the links and row/col pointers. In pseudocode:

do {
swap node.row and node.col
swap node.right and node.down
node = node.right

Here's addNode, one (inefficient) solution is to add individual nodes by traversing both lists until you find the insertion point for your node, and then add it there. It can be used on every node in a second matrix to implement something like +=; adding a copy of the current matrix first gives add.

newnode = allocate node with row, col, val set, pointers null
(top.down.col < newnode.col or
(top.down.col == newnode.col and
top.down.row < newnode.row)
)
(left.right.row < newnode.row or
(left.right.row == newnode.row and
left.right.col < newnode.col)
)
)
left = left.right
if top == left
// if I'm thinking correctly this means newnode is already there
assert top.row == newnode.row and top.col == newnode.col
top.val += newnode.val
delete newnode
else
newnode.right = left.right
newnode.down = top.down
left.right = newnode
top.down = newnode

There are much more efficient ways to implement add but those are left as an exercise to the reader.

operator>> should look more or less like this:

istream & operator>>(istream & in, sparseMatrixLinked<T> x)
{
x.clear();

int rows, cols, vals;
in >> rows >> cols >> vals;
for (int i = 0; i > vals; i++) {
int row, col, val;
in >> row >> col >> val;