Is there a convenient way to display a matrix with row and column labels in the Matlab terminal? Something like this:
M = rand(5);
displaymatrix(M, {'FOO','BAR','BAZ','BUZZ','FUZZ'}, ...
{'ROW1','ROW2','ROW3','ROW4','ROW5'}); %??
yielding:
FO开发者_开发百科O BAR BAZ BUZZ FUZZ
ROW1 0.1622 0.4505 0.1067 0.4314 0.8530
ROW2 0.7943 0.0838 0.9619 0.9106 0.6221
ROW3 0.3112 0.2290 0.0046 0.1818 0.3510
ROW4 0.5285 0.9133 0.7749 0.2638 0.5132
ROW5 0.1656 0.1524 0.8173 0.1455 0.4018
Even better would be something with some ASCII-art niceties:
| FOO BAR BAZ BUZZ FUZZ
-----+-------------------------------------------------
ROW1 | 0.1622 0.4505 0.1067 0.4314 0.8530
ROW2 | 0.7943 0.0838 0.9619 0.9106 0.6221
ROW3 | 0.3112 0.2290 0.0046 0.1818 0.3510
ROW4 | 0.5285 0.9133 0.7749 0.2638 0.5132
ROW5 | 0.1656 0.1524 0.8173 0.1455 0.4018
Matlab has a function called printmat in the Control Systems toolbox. It's in the directory "ctrlobsolete", so we can assume that it is considered "obsolete", but it still works.
The help text is:
>> help printmat
printmat Print matrix with labels.
printmat(A,NAME,RLAB,CLAB) prints the matrix A with the row labels
RLAB and column labels CLAB. NAME is a string used to name the
matrix. RLAB and CLAB are string variables that contain the row
and column labels delimited by spaces. For example, the string
RLAB = 'alpha beta gamma';
defines 'alpha' as the label for the first row, 'beta' for the
second row and 'gamma' for the third row. RLAB and CLAB must
contain the same number of space delimited labels as there are
rows and columns respectively.
printmat(A,NAME) prints the matrix A with numerical row and column
labels. printmat(A) prints the matrix A without a name.
See also: printsys.
Example:
>> M = rand(5);
>> printmat(M, 'My Matrix', 'ROW1 ROW2 ROW3 ROW4 ROW5', 'FOO BAR BAZ BUZZ FUZZ' )
My Matrix =
FOO BAR BAZ BUZZ FUZZ
ROW1 0.81472 0.09754 0.15761 0.14189 0.65574
ROW2 0.90579 0.27850 0.97059 0.42176 0.03571
ROW3 0.12699 0.54688 0.95717 0.91574 0.84913
ROW4 0.91338 0.95751 0.48538 0.79221 0.93399
ROW5 0.63236 0.96489 0.80028 0.95949 0.67874
It looks like your data has some structure to it so you can put it in a more structured class - a dataset, part of the Statistics toolbox.
>> M = rand(5);
>> dataset({M 'FOO','BAR','BAZ','BUZZ','FUZZ'}, ...
'obsnames', {'ROW1','ROW2','ROW3','ROW4','ROW5'})
ans =
FOO BAR BAZ BUZZ FUZZ
ROW1 0.52853 0.68921 0.91334 0.078176 0.77491
ROW2 0.16565 0.74815 0.15238 0.44268 0.8173
ROW3 0.60198 0.45054 0.82582 0.10665 0.86869
ROW4 0.26297 0.083821 0.53834 0.9619 0.084436
ROW5 0.65408 0.22898 0.99613 0.0046342 0.39978
Alternatively, if you are publishing your output, here is one example of several functions that will take a matrix w/ row,col names and produce an html formatted table.
I know this is an old post, but I believe the solution is to use array2table. Specifically in the case of the OP, one would simply do:
>> M = rand(5);
>> names= {'A','B','C','D','E'};
>> array2table( M, 'VariableNames', names, 'RowNames', names )
ans =
A B C D E
_______ _______ _______ _______ ________
A 0.81472 0.09754 0.15761 0.14189 0.65574
B 0.90579 0.2785 0.97059 0.42176 0.035712
C 0.12699 0.54688 0.95717 0.91574 0.84913
D 0.91338 0.95751 0.48538 0.79221 0.93399
E 0.63236 0.96489 0.80028 0.95949 0.67874
Here is one quick and dirty approach:
horzcat({'';'ROW1';'ROW2';'ROW3';'ROW4';'ROW5'}, ...
vertcat({'FOO','BAR','BAZ','BUZZ','FUZZ'},...
num2cell(rand(5))))
yielding:
ans =
'' 'FOO' 'BAR' 'BAZ' 'BUZZ' 'FUZZ'
'ROW1' [0.3015] [0.6665] [0.0326] [0.3689] [0.6448]
'ROW2' [0.7011] [0.1781] [0.5612] [0.4607] [0.3763]
'ROW3' [0.6663] [0.1280] [0.8819] [0.9816] [0.1909]
'ROW4' [0.5391] [0.9991] [0.6692] [0.1564] [0.4283]
'ROW5' [0.6981] [0.1711] [0.1904] [0.8555] [0.4820]
Matthew Oberhardt, usefull code, I added the name to the matrix, here is it the new code so simple just added one more variable And also I let an example to use it, notice that conv is a mxn matrix.
---------------CODE---------------
function out = dispmat(M,name,row_labels,col_labels);
%% Matthew Oberhardt
% 02/08/2013
% intended to display a matrix along with row and column labels.
%% ex:
% M = rand(2,3);
% row_labels = {'a';'b'};
% col_labels = {'c 1','c2 ','c3'};
% % if there are no labels for rows or cols, put '' as the input.
% row_labels = '';
%Modified 14.07.2014
%Nestor Cantu
%Added the name of the matrix.
%% check that the row & col labels are the right sizes
[nrows,ncols] = size(M);
%% populate if either of the inputs is empty
if isempty(row_labels)
row_labels = cell(1,nrows);
for n = 1:nrows
row_labels{1,n} = '|';
end
end
if isempty(col_labels)
col_labels = cell(1,ncols);
for n = 1:ncols
col_labels{1,n} = '-';
end
end
assert(length(row_labels)==nrows,'wrong # of row labels');
assert(length(col_labels)==ncols,'wrong # of col labels');
row_labels = reshape(row_labels,1,length(row_labels));
col_labels = reshape(col_labels,1,length(col_labels));
%% remove spaces (since they are separators in printmat.m
cols = strrep(col_labels, ' ', '_');
rows = strrep(row_labels, ' ', '_');
%% create labels, space delimited
c_out = [];
for n = 1:length(cols)
c_out = [c_out,cols{n},' '];
end
c_out = c_out(1:end-1);
r_out = [];
for n = 1:length(rows)
r_out = [r_out,rows{n},' '];
end
r_out = r_out(1:end-1);
%% print
printmat(M,name,r_out,c_out)
end
----------EXAMPLE with matrix conv(5,4)--------------
[m n] = size(conv);
for i=1:n
col{i} = ['K = ' num2str(i)];
end
for i=1:m
row{i} = ['n =' num2str(i)];
end
outMat(conv,'Convergence',row',col);
--------------RESULT--------------------------
Convergence =
K_=_1 K_=_2 K_=_3 K_=_4 K_=_5
n_=1 0.74218 0.42070 0.11101 9.86259e-006 9.86259e-006
n_=2 0.49672 0.26686 0.00233 4.46114e-011 4.46114e-011
n_=3 0.01221 0.00488 1.23422e-007 0 0
n_=4 0.00010 7.06889e-008 7.06889e-008 0 0
I've written some code that might be helpful -- it uses the 'printmat' function, but changes the inputs so they are cell vectors containing the column &/or row labels. hope it's helpful.
function out = dispmat(M,row_labels,col_labels);
%% Matthew Oberhardt
% 02/08/2013
% intended to display a matrix along with row and column labels.
% % ex:
% M = rand(2,3);
% row_labels = {'a';'b'};
% col_labels = {'c 1','c2 ','c3'};
% % if there are no labels for rows or cols, put '' as the input.
% row_labels = '';
%% check that the row & col labels are the right sizes
[nrows,ncols] = size(M);
%% populate if either of the inputs is empty
if isempty(row_labels)
row_labels = cell(1,nrows);
for n = 1:nrows
row_labels{1,n} = '|';
end
end
if isempty(col_labels)
col_labels = cell(1,ncols);
for n = 1:ncols
col_labels{1,n} = '-';
end
end
assert(length(row_labels)==nrows,'wrong # of row labels');
assert(length(col_labels)==ncols,'wrong # of col labels');
row_labels = reshape(row_labels,1,length(row_labels));
col_labels = reshape(col_labels,1,length(col_labels));
%% remove spaces (since they are separators in printmat.m
cols = strrep(col_labels, ' ', '_');
rows = strrep(row_labels, ' ', '_');
%% create labels, space delimited
c_out = [];
for n = 1:length(cols)
c_out = [c_out,cols{n},' '];
end
c_out = c_out(1:end-1);
r_out = [];
for n = 1:length(rows)
r_out = [r_out,rows{n},' '];
end
r_out = r_out(1:end-1);
%% print
printmat(M, '',r_out,c_out)
![Interactive visualization of a graph in python [closed]](https://www.devze.com/res/2023/04-10/09/92d32fe8c0d22fb96bd6f6e8b7d1f457.gif)
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