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Its easy to delete zero rows or colomn in matlab but I am stuck with this problem with my current c code that I have to remove all zero rows and colomns to make my solver more faster. I couldn't find any simple way. Could you help me in any convenient way?

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How did you get "rows" and "columns" in your C code? Are you using an array? –  Cody Gray May 16 '12 at 4:16
I am sorry I was try to say in a matrix –  gman May 16 '12 at 4:19
What exactly do you mean by remove them? As in make the matrix smaller? –  noMAD May 16 '12 at 4:21
You need to show us the code for your matrix implementation –  Soren May 16 '12 at 4:22
If you would fix the question to address the issues pointed out in the comments I could vote for it. People aren't writing them to put you down, man, they're trying to help. –  dmckee May 17 '12 at 15:14

2 Answers 2

up vote 1 down vote accepted

For removing only leading and trailing rows and columns

We can implement a matrix n a way that makes these operations fairly efficient.

You allocate a large block to hold the maximal amount of data as if it were a 2D array ([][]), and do a

typedef struct {
   size_t aJ;      /* Allocated row length. Needed for computing positions */
   size_t uI, uJ;  /* Number of row/cols in use currently. For range checking */
   size_t oI, oJ;  /* Offset to the start of the first used row/col */
   double *matrixA /* the storage */
} MatrixT;

You will need to write initialization and cleanup routines. Old c hands will note that we could use the array trick here (or the spiffy new variable length member facility)

Accessing element (i,j) goes something like

double* element(MatrixT*this, size_t i, size_t j) {
  double* base = this->matrixA + oI*aJ + oJ;
  /* range checking if desired */
  return (base + i*aJ + j);

This has about twice the complexity of element access from a normal 2D array and can be simplified to a single line at the cost of a little clarity (but your compiler might do that for you).

Removal of rows and columns involves decrementing the appropriate "use value" and also the appropriate "offset" value if you are taking it from the front.

Because the structure is more complicated and requires more bookkeeping than a plain old 2D array you'll want to wrap all operation on it up in functions.

Old Fortran77 programers may recognize this as a re-implementation of the "passing a contiguous sub-array to a function" idiom.

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There is a lesson here about asking questions, BTW, the limitation of your requirements to only the leading and trailing row/columns is important. –  dmckee May 17 '12 at 15:13
thanks sir....so kind of you. –  gman May 18 '12 at 7:33

Simple way will be to traverse row-wise and then column-wise, check for zero, if true replace that row/column with the last one and delete the last one (free() if its dynamic and m-- or n-- if static)

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Expensive if the matrix is implemented as a 2D array. Reliable, but expensive. –  dmckee May 16 '12 at 20:41
I know its expensive, any other way you know @dmckee ? –  nischayn22 May 17 '12 at 4:32
It is easy enough to build a implementation that is optimized for deleting either rows or columns, but generally the thing to do is ask "What's the real goal here?" and work on solving that efficiently. –  dmckee May 17 '12 at 14:03

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