A file content have
1 1:-0.289433 2:0.833778 3:0.314471 4:-0.289433 5:-0.81876 6:-0.456693 7:-0.17511 8:-0.644555 9:-0.00666341 10:-1.13603
I will like to have that column into row with numbers to be printed (red color) only after colon
output shud be like that
-0.289433... (1 Reply)
Getting tired of cut-and-paste...so I thought I would post a question.
how do I change this column output to a single row?
from this:
# vgdisplay -v /dev/vgeva05 | grep dsk | awk '{print $3}'
/dev/dsk/c6t0d5
/dev/dsk/c11t0d5
/dev/dsk/c15t0d5
/dev/dsk/c18t0d5
/dev/dsk/c7t0d5... (8 Replies)
Hi,
I have a file like this
50 1 2 1374438
50 1 2 1682957
50 5 2 1453574
50 10 2 1985890
100 1 2 737307
100 5 2 1660204
100 10 2 2148483
and I want to convert this by... (1 Reply)
Dear Perl users,
Could you help me how to convert from row to column if I've a case below:
Linux 2014_01_24 CPU 10
Linux 2014_01_24 MEM 20
UNIX 2014_01_24 CPU 30
UNIX 2014_01_24 MEM ... (6 Replies)
Hi Folks,
I am using db2 command -> db2 list tablespace show detail
Tablespace ID = 10
Name = TSCDDHLMSUM
Type = Database managed space
Contents = All permanent data.... (5 Replies)
Hi
FileA.txt
E_TIM 16,
ETE 15,
EOND 26,
EEC 81,
E_1 un,
E_2 un,
E_3 un,
E_4 284,
E_TIM 17,
ETE 15,
EOND 29,
EEC 82,
E_1 un,
E_2 un,
E_3 un,
E_4 249, (6 Replies)
Discussion started by: asavaliya
6 Replies
LEARN ABOUT DEBIAN
clmmate
clm mate(1) USER COMMANDS clm mate(1)
NAME
clm mate - compute best matches between two clusterings
clmmate is not in actual fact a program. This manual page documents the behaviour and options of the clm program when invoked in mode mate.
The options -h, --apropos, --version, -set, --nop are accessible in all clm modes. They are described in the clm manual page.
SYNOPSIS
clm mate [-o fname (output file name)] [-b (omit headers)] [--one-to-many (require multiple hits in <clfile1>)] [-h (print synopsis, exit)]
[--apropos (print synopsis, exit)] [--version (print version, exit)] <clfile1> <clfile2>
DESCRIPTION
clm mate computes for each cluster X in clfile1 all clusters Y in clfile2 that have non-empty intersection and outputs a line with the data
points listed below.
overlap(X,Y) # 2 * size(meet(X,Y)) / (size(X)+size(Y))
index(X) # name of cluster
index(Y) # name of cluster
size(meet(X,Y))
size(X-Y) # size of left difference
size(Y-X) # size of right difference
size(X)
size(Y)
projection(X, clfile2) # see below
projection(Y, clfile1) # see below
The projected size of a cluster X relative to a clustering K is simply the sum of all the nodes shared between any cluster Y in K and X,
duplications allowed. For example, the projected size of (0,1) relative to {(0,2,4), (1,4,9), (1,3,5)} equals 3.
The overlap between X and Y is exactly 1.0 if the two clusters are identical, and for nearly identical clusterings the score will be close
to 1.0.
All of this information can also be obtained from the contingency matrix defined for two clusterings. The [i,j] row-column entry in a con-
tigency matrix between to clusterings gives the number of entries in the intersection between cluster i and cluster j from the respective
clusterings. The other information is implicitly present; the total number of nodes in clusters i and j for example can be obtained as the
sum of entries in row i and column j respectively, and the difference counts can then be obtained by substracting the intersection count.
The contingency matrix can easily be computed using mcx; e.g.
mcx /clfile2 lm /clfile1 lm tp mul /ting wm
will create the contingency matrix in mcl matrix format in the file ting, where columns range over the clusters in clfile1.
The output can be put to good use by sorting it numerically on that first score field. It is advisable to use a stable sort routine (use the
-s option for UNIX sort) From this information one can quickly extract the closest clusters between two clusterings.
OPTIONS
-o fname (output file name)
Specify the name of the output file.
-b (omit headers)
Batch mode, omit column names.
--one-to-many (require multiple hits in <clfile1>)
Do not output information for clusters in the first file that are subset of a cluster in the second file.
AUTHOR
Stijn van Dongen.
SEE ALSO
mclfamily(7) for an overview of all the documentation and the utilities in the mcl family.
clm mate 12-068 8 Mar 2012 clm mate(1)