Command disabled: backlink

Comparison between the carma-derived clusters and the RMSD (crossDCD) matrix

Focus. The aim is to plot on the RMSD matrix the areas that correspond to a selected cluster obtained from carma (using either Cartesian or dihedral PCA). Proceed as follows:

  1. Create a clean directory. I'll use ~/tmp/ for this example.
  2. Go to the directory you perfomed the carma cPCA or dPCA analysis.
  3. Write down the total number of frames used for the analysis (tail carma.dPCA.fluctuations.dat).
  4. Copy the carma.clusters.dat file to the new directory (cp carma.clusters.dat ~/tmp/).
  5. Go to the directory you've run crossDCD from.
  6. Write down the dimension of the crossDCD matrix (wc crossDCD.matrix)
  7. Copy the crossDCD matrix to the new directory (cp crossDCD.matrix ~/tmp/).
  8. cd ~/tmp/
  9. Let's say you want to analyse cluster number 1 (the top cluster). Type make_cluster_mask and answer the questions.

You are ready to finish-it off:

carma -col - < crossDCD.matrix
mv carma.stdin.ps crossDCD.ps
carma -min 0 - < carma.cluster_diag.mask
mv carma.stdin.ps mask.ps
composite mask.ps crossDCD.ps mask.ps test.ps
gs test.ps
composite -density 300 mask.ps crossDCD.ps mask.ps final_image.png

… giving something like this for the first cluster of my example …

Part of crossDCD corresponding to a carma cluster

… and like this for the second …

Part of crossDCD corresponding to a carma cluster

In both cases the lower half of the matrix is the original crossDCD matrix. In the upper half, everything not belonging to the cluster has been grayed-out. Enjoy.


The code for make_cluster_mask is:

#include <stdio.h>
#include <math.h>
#include <stdlib.h>
 
#define MAXDIM  10000
 
main()
{
  unsigned short int    mat[MAXDIM][MAXDIM];
  FILE  *in;
  FILE  *out;
  int   cluster;
  int   totframes;
  int   i, j;
  char  string[300];
  int   frame, c;
  int   pos, dim;
 
  in = fopen( "carma.clusters.dat", "r");
  if ( in == NULL )
    {
      printf("Can't open a carma.clusters.dat file in the current directory. Abort.\n\n");
      exit(1);
    }
 
  out = fopen( "carma.cluster.mask", "w");
  if ( out == NULL )
    {
      printf("Can't open a carma.cluster.mask file in the current directory. Abort.\n\n");
      exit(1);
    }
 
  printf("Number of cluster to plot: ");
  if ( scanf("%d", &cluster) != 1 )
    {
      printf("\nOne integer number expected. Abort.\n");
      exit(1);
    }
 
  printf("Total number of frames of the original trajectory: ");
  if ( scanf("%d", &totframes) != 1 )
    {
      printf("\nOne integer number expected. Abort.\n");
      exit(1);
    }
 
  printf("Dimension of matrix to prepare (should be identical with CrossDCD matrix): ");
  if ( scanf("%d", &dim) != 1 )
    {
      printf("\nOne integer number expected. Abort.\n");
      exit(1);
    }
 
  if ( dim >= MAXDIM )
    {
      printf("\nOops. Increase MAXDIM and re-compile.\n");
      exit(1);
    }
 
  for ( i=0 ; i < dim ; i++ )
  for ( j=0 ; j < dim ; j++ )
    mat[i][j] = 0;
 
 
  while ( fgets( string, 299, in ) != NULL )
  {
    if ( sscanf( string, "%d %d", &frame, &c ) != 2 )
      {
        printf("Corrupted carma.clusters.dat file ? Abort.\n");
        exit(1);
      }
 
    if ( c == cluster )
    {
    pos = (int)((1.0 * dim * frame) / ( totframes ) + 0.50);
    mat[pos][pos] = 1;    
    }
  }
  fclose(in);
 
  for ( j=0 ; j < dim ; j++ )
  {
  if ( mat[j][j] > 0 )
  {
  mat[j][j] = 0;
  pos = j;
  for ( i=0 ; i < dim ; i++ )
    {
      mat[i][pos] += 1;
      mat[pos][i] += 1;
    }
  }
  }
 
 
  for ( i=0 ; i < dim ; i++ )
  {
  for ( j=0 ; j < dim ; j++ )
    if ( mat[i][j] > 1 )
      fprintf(out, "1.0 " );
    else
      fprintf(out, "0.5 " );
 
  fprintf(out, "\n");
  }
  fclose(out);
 
  out = fopen( "carma.cluster_diag.mask", "w");
  if ( out == NULL )
        {
          printf("Can't open a carma.cluster_diag.mask file in the current directory. Abort.\n\n");
          exit(1);
         }
 
  for ( i=0 ; i < dim ; i++ )
  {
  for ( j=0 ; j < dim ; j++ )
    if ( i > j )
      fprintf(out, "1.0 " );
    else if ( mat[i][j] > 1 )
      fprintf(out, "1.0 " );
    else
      fprintf(out, "0.2 " );
 
  fprintf(out, "\n");
  }
  fclose(out);
 
}
research/howto/comparison_of_carma-derived_clusters_and_rmsd_crossdcd_matrices.txt · Last modified: 2011/05/01 16:40 (external edit)