Data structure for mixed-type arrays - cellarray, dataset, structarray, struct of arrays, or other?

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I need to process large amounts of tabular data of mixed type - strings and doubles. A standard problem, I would think. What is the best data structure in Matlab for working with this?
Cellarray is definitely not the answer. It is extremely memory inefficient. (tests shown below). Dataset (from stats toolbox) is horribly time and space inefficient. That leaves me with structarray or struct of arrays. I did a test across all four different options for both time and memory below and it seems to me the struct of arrays is the best option for the things I tested for.
I am relatively new to Matlab and this is a bit disappointing, frankly. Anyway - looking for advice on whether I am missing something, or if my tests are accurate/reasonable. Am I missing other considerations besides access/conversion/memory usage that are likely to come up as I code more using this stuff. (fyi am using R2010b)
**** Test #1: Access speed Accessing a data item.
cellarray:0.002s
dataset:36.665s %<<< This is horrible
structarray:0.001s
struct of array:0.000s
**** Test #2: Conversion speed and memory usage I dropped dataset from this test.
Cellarray(doubles)->matrix:d->m: 0.865s
Cellarray(mixed)->structarray:c->sc: 0.268s
Cellarray(doubles)->structarray:d->sd: 0.430s
Cellarray(mixed)->struct of arrays:c->sac: 0.361s
Cellarray(doubles)->struct of arrays:d->sad: 0.887s
Name Size Bytes Class Attributes
c 100000x10 68000000 cell
d 100000x10 68000000 cell
m 100000x10 8000000 double
sac 1x1 38001240 struct
sad 1x1 8001240 struct
sc 100000x1 68000640 struct
sd 100000x1 68000640 struct
================== CODE: TEST#1
%%cellarray
c = cell(100000,10);
c(:,[1,3,5,7,9]) = num2cell(zeros(100000,5));
c(:,[2,4,6,8,10]) = repmat( {'asdf'}, 100000, 5);
cols = strcat('Var', strtrim(cellstr(num2str((1:10)'))))';
te = tic;
for iii=1:1000
x = c(1234,5);
end
te = toc(te);
fprintf('cellarray:%0.3fs\n', te);
%%dataset
ds = dataset( { c, cols{:} } );
te = tic;
for iii=1:1000
x = ds(1234,5);
end
te = toc(te);
fprintf('dataset:%0.3fs\n', te);
%%structarray
s = cell2struct( c, cols, 2 );
te = tic;
for iii=1:1000
x = s(1234).Var5;
end
te = toc(te);
fprintf('structarray:%0.3fs\n', te);
%%struct of arrays
for iii=1:numel(cols)
if iii/2==floor(iii/2) % even => string
sac.(cols{iii}) = c(:,iii);
else
sac.(cols{iii}) = cell2mat(c(:,iii));
end
end
te = tic;
for iii=1:1000
x = sac.Var5(1234);
end
te = toc(te);
fprintf('struct of array:%0.3fs\n', te);
================== CODE: TEST #2
%%cellarray
% c - cellarray containing mixed type
c = cell(100000,10);
c(:,[1,3,5,7,9]) = num2cell(zeros(100000,5));
c(:,[2,4,6,8,10]) = repmat( {'asdf'}, 100000, 5);
cols = strcat('Var', strtrim(cellstr(num2str((1:10)'))))';
% c - cellarray containing doubles only
d = num2cell( zeros( 100000, 10 ) );
%%matrix
% doubles only
te = tic;
m = cell2mat(d);
te = toc(te);
fprintf('Cellarray(doubles)->matrix:d->m: %0.3fs\n', te);
%%structarray
% mixed
te = tic;
sc = cell2struct( c, cols, 2 );
te = toc(te);
fprintf('Cellarray(mixed)->structarray:c->sc: %0.3fs\n', te);
% doubles
te = tic;
sd = cell2struct( d, cols, 2 );
te = toc(te);
fprintf('Cellarray(doubles)->structarray:d->sd: %0.3fs\n', te);
%%struct of arrays
% mixed
te = tic;
for iii=1:numel(cols)
if iii/2==floor(iii/2) % even => string
sac.(cols{iii}) = c(:,iii);
else
sac.(cols{iii}) = cell2mat(c(:,iii));
end
end
te = toc(te);
fprintf('Cellarray(mixed)->struct of arrays:c->sac: %0.3fs\n', te);
% doubles
te = tic;
for iii=1:numel(cols)
sad.(cols{iii}) = cell2mat(d(:,iii));
end
te = toc(te);
fprintf('Cellarray(doubles)->struct of arrays:d->sad: %0.3fs\n', te);
clear iii cols te;
whos
  5 Comments
Matt J
Matt J on 26 Apr 2013
Edited: Matt J on 26 Apr 2013
I'm a bit surprised to discover that sortrows works on cells. Nothing in the documentation about it.
Anyway, the fact that it requires multiple lines of code wouldn't make it "painful" in my book. You can always encapsulate the multiple lines in your own mfile and just reuse that.
The issue you point out is also only an issue when the columns being sorted are of mixed type. My approach might be to convert all the numeric data to strings and then concatenate the columns being sorted into one big string matrix. Then I can run sortrows on that.
per isakson
per isakson on 26 Apr 2013
[num2cell(sac.Var1(1:10)), sac.Var2(1:10), ...]
This operation represents a cost. What is the benifit of storing Var1, Var2, etc. in separate fields compared to a double array?

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Accepted Answer

Marc
Marc on 29 Feb 2016
I thought about asking a question but was wondering if the "table" structure fits this. I cannot confirm when this data type was released (looks like it wasn't in 2010a or 2012a) but I have been using this now for a wide range of stuff that I dump into excel files and want to do some serious analysis on. In 2015b, the help doc refers you to table when looking at dataset, so it looks like the table data type will be replacing this in the future. Works pretty well if you do a lot of design of experiments and like me, have to dump the data somewhere like excel or some database due to work requirements.
If you format the excel file correctly, reading in tabular data to a table is really easy.
  2 Comments
per isakson
per isakson on 29 Feb 2016
Edited: per isakson on 29 Feb 2016
Guillaume
Guillaume on 29 Feb 2016
In the context of this thread, a table is equivalent to a cell of arrays in term of memory overhead. Access is a bit more convenient at the expense of performance.

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More Answers (2)

Matt J
Matt J on 26 Apr 2013
Edited: Matt J on 18 May 2013
As best I can tell, you haven't tested a "cell of arrays", i.e., instead of having a 100000x10 cell array, have a 1x10 cell array where each c{i} contains an array of a column of data. Should be similar to "struct of arrays", but with easier indexing.
Beyond that, nothing in your tests is very unexpected. You have a large amount of data and have to be careful not to scatter it discontiguously in memory. Successive cell/struct elements cannot be held contiguously in memory, because they hold non-homogeneous data types. Numeric and string arrays are contiguous, however, so by grouping things into large numeric/string sub-arrays where possible, you maximize data contiguity, which leads to efficiencies both in access speed and memory usage.
As for "dataset", I cannot comment, since I don't have the Stats Toolbox. However, a mixed data table with 100000 rows is uncommonly large in my experience. I don't think you would ever see it in an Excel spreadsheet, for example. If dataset was meant to be "Excel-like", I can imagine 100000 rows being usage outside of what the designers anticipated.
  3 Comments
Matt J
Matt J on 26 Apr 2013
Edited: Matt J on 26 Apr 2013
As Sean says, nothing of great consequence. There are small differences in storage since structs need to allocate memory for field names. Maybe small differences in indexing speed, too, to convert string indices to numeric ones.

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matal
matal on 17 May 2013
Thought I would post some of my thoughts after looking at this problem a bit more.
I don't see an efficient data structure in Matlab for managing heterogeneous tabular data. The best I can do is a struct of vectors where each vector is either a numeric matrix or a cellarray depending on the data type I am storing. Then it is up to me to keep the vectors of equal length and write accessor function(s) to efficiently get/set arbitrary "sub-matrices" of the heterogeneous data matrix.
As noted above - dataset is too inefficient both in space and time. Cellarray is too inefficient in space. --- Taking this route, I run into other issues to do with copy-on-write semantics - but that's for another thread.
  1 Comment
Cedric
Cedric on 17 May 2013
Edited: Cedric on 17 May 2013
It would not be too difficult to create your own class for that if you can precisely define what you need, moreover if you know OOP but never used it in MATLAB. Let us know if you are interested, this would be a good "case/pretext/application" to make the step towards OOP. It would not be more efficient than managing numeric arrays and cell arrays, as you would essentially build a wrapper around these structures with proper methods to manage size/indexing, but it would make the whole clean and consistent.

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