Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I've often found myself doing something like this:

unprocessedData = fetchData();  % returns a vector of structs or objects
processedData = [];             % will be full of structs or objects

for dataIdx = 1 : length(unprocessedData) 
    processedDatum = process(unprocessedData(dataIdx));
    processedData = [processedData; processedDatum];

Which, whilst functional, isn't optimal - the processedData vector is growing inside the loop. Even mlint warns me that I should consider preallocating for speed.

were data a vector of int8, I could do this:

% preallocate processed data array to prevent growth in loop
processedData = zeros(length(unprocessedData), 1, 'int8');

and modify the loop to fill vector slots rather than concatenate.

is there a way to preallocate a vector so that it can subsequently hold structs or objects?


Update: inspired by Azim's answer, I've simply reversed the loop order. Processing the last element first forces preallocation of the entire vector in the first hit, as the debugger confirms:

unprocessedData = fetchData();

% note that processedData isn't declared outside the loop - this breaks 
% it if it'll later hold non-numeric data. Instead we exploit matlab's 
% odd scope rules which mean that processedData will outlive the loop
% inside which it is first referenced: 

for dataIdx = length(unprocessedData) : -1 : 1 
    processedData(dataIdx) = process(unprocessedData(dataIdx));

This requires that any objects returned by process() have a valid zero-args constructor since Matlab initialises processedData on the first write to it with real objects.

mlint still complains about possible array growth, but I think that's because it can't recognise the reversed loop iteration...

share|improve this question
up vote 3 down vote accepted

Of course you know the fields of the structur processedData and you know its length. So, when way would be the follwoing

>> unprocessedData = fetchData();
>> processedData = struct('field1', [], ...
      'field2',[]) % create the processed data struct
>> processedData(length(unprocessedData)) = processedData(1); % create a _processedData_ array with the required length
>> for dataIdx = 1:length(unprocessedData)
      processedData(dataIdx) = process(unprocessedData(dataIdx));

This assumes that the process function returns a struct with the same fields as the struct processData.

share|improve this answer

In addition to Azim's answer, another way to do this is using REPMAT:

% Make a single structure element:
processedData = struct('field1',[],'field2',[]);
% Make an object:
processedData = object_constructor(...);
% Replicate data:
processedData = repmat(processedData,1,nElements);

where nElements is the number of elements you will have in the structure or object array.

BEWARE: If the object you are making is derived from the handle class, I don't think you will be replicating the object itself, just handle references to it. Depending on your implementation, you might have to call the object_constructor nElements times.

share|improve this answer
+1 This is one situation for which repmat is useful. – Azim Feb 26 '09 at 18:24

You can pass in a cell array to struct of the appropriate size, e.g.,

processedData = struct( 'field1', cell( nElements, 1 ), 'field2', [] )

This will make a cell array that is the same size as the cell array.

share|improve this answer
+1 This is a good alternative for making structure arrays, especially if you already have cell arrays of data you want to fill the fields with. – gnovice Mar 2 '09 at 16:55

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.