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I everybody,

I'm trying to parse a text file into matlab: it consists of several blocks (START_BLOCK/END_BLOCK) where are allocated strings (variable) and values (associated to the previous variables).

An example is this:

velocity_v1 29.7

velocity_v50    44.8

velocity_vred1  32.67
velocity_vred50 49.28

velocity_ve1    37.9

velocity_ve50   57

velocity_vref   50


Currently, my code is:

fid = fopen('test_struct.txt','rt');
C = textscan(fid,'%s %f32 %*[^\n]','CollectOutput',true);
C{1} = reshape(C{1},1,numel(C{1}));
C{2} = reshape(C{2},1,numel(C{2}));

startIdx = find(~cellfun(@isempty, regexp(C{1}, 'START_BLOCK_', 'match')));
endIdx = find(~cellfun(@isempty, regexp(C{1}, 'END_BLOCK_', 'match')));
assert(all(size(startIdx) == size(endIdx)))
extract_parameters = @(n)({C{1}{startIdx(n)+1:endIdx(n) - 1}});
parameters = arrayfun(extract_parameters, 1:numel(startIdx), 'UniformOutput', false);

s = cell2struct(cell(size(parameters{1})),parameters{1}(1:numel(parameters{1})),2);

s.velocity_v1 = C{2}(2);
s.velocity_v50 = C{2}(3);
s.velocity_vred1 = C{2}(4);
s.velocity_vred50 = C{2}(5);
s.velocity_ve1 = C{2}(6);
s.velocity_ve50 = C{2}(7);
s.velocity_vref = C{2}(8);

It works, but it's absolutely static. I would rather have a code able to:

1. check the existence of blocks --> as already implemented;
2. the strings are to be taken as fields of the structure;
3. the numbers are meant to be the attributes of each field.

Finally, if there is more than one block, there should be and iteration about those blocks to get the whole structure. It's the first time I approach structure coding at all, so please be patient.

I thank you all in advance.

Kindest regards.

share|improve this question
up vote 1 down vote accepted

It sounds like you will want to make use of dynamic field names. If you have a struct s, a string fieldName that stores the name of a field, and fieldVal which holds the value that you'd like to set for this field, then you can use the following syntax to perform the assignment:

s.(fieldName) = fieldVal;

This MATLAB doc provides further info.

With this in mind, I took a slightly different approach to parse the text. I iterated through the text with a for loop. Although for loops are sometimes frowned upon in MATLAB (since MATLAB is optimized for vectorized operations), I think in this case it helps to make the code cleaner. Furthermore, my understanding is that if you are having to make use of arrayfun, then replacing this with a for loop probably won't really cause much of a performance hit, anyway.

The following code will convert each block in the text to a struct with the specified fields and values. These resulting "block" structs are then added to a higher-level "result" struct.

fid = fopen('test_struct.txt','rt');
C = textscan(fid,'%s %f32 %*[^\n]','CollectOutput',true);

paramNames = C{1};
paramVals = C{2};

curBlockName = [];
inBlock = 0;
blockCount = 0;

%// Iterate through all of the entries in "paramNames".  Each block will be a
%// new struct that is then added to a high-level "result" struct.
for i=1:length(paramNames)
    curParamName = paramNames{i};
    isStart = ~isempty(regexp(curParamName, 'START_BLOCK_', 'match'));
    isEnd = ~isempty(regexp(curParamName, 'END_BLOCK_', 'match'));

    %// If at the start of a new block, create a new struct with a single
    %// field - the BlockName (as specified by the text after "START_BLOCK_"
        assert(inBlock == 0);
        curBlockName = curParamName(length('START_BLOCK_') + 1:end);
        inBlock = 1;
        blockCount = blockCount + 1;
        s = struct('BlockName', curBlockName);          

    %// If at the end of a block, add the struct that we've just populated to
    %// our high-level "result" struct.
        assert(inBlock == 1);
        inBlock = 0;
        %// EDIT - storing result in "structure of structures"
        %//  rather than array of structs
        %// s_array(blockCount) = s;
        result.(curBlockName) = s;

    %// Otherwise, assume that we are inside of a block, so add the current
    %// parameter to the struct.
        assert(inBlock == 1);
        s.(curParamName) = paramVals(i);

%// Results stored in "result" structure

Hopefully this answers your question... or at least provides some helpful hints.

share|improve this answer
I thank you for your answer, but your code has still the staticity due to the same number of fields for each block: my text file usually consists of several block characterized by several fields. I was thinking to read each block separately in a structure called with the part of text after START_BLOCK_ and the merge them all together in a "structure of structures". I will try to work on it. I thank you again for your hints :) – fpe Sep 6 '12 at 6:47
@FrancescoPerrone - I see. If I understand correctly, this will still make use of the concept of dynamic fields, and really just requires a one line change to the code. Simply replace the line s_array(blockCount) = s with result.(curBlockName) = s. I've edited my code, above, accordingly. Now this code creates a "structure of structures" named result. Each block can have completely different fields, now. – grungetta Sep 6 '12 at 11:15

I edited my code today and now it almost works as meant to be:

clc, clear all, close all

%Find all row headers
fid = fopen('test_struct.txt','r');
row_headers = textscan(fid,'%s %*[^\n]','CommentStyle','%','CollectOutput',1);
row_headers = row_headers{1};

%Find all attributes
fid1 = fopen('test_struct.txt','r');
attributes = textscan(fid1,'%*s %s','CommentStyle','%','CollectOutput',1);
attributes = attributes{1};

%Collect row headers and attributes in a single cell
parameters = [row_headers,attributes];

%Find all the blocks
startIdx = find(~cellfun(@isempty, regexp(parameters, 'BLOCK_START_', 'match')));
endIdx = find(~cellfun(@isempty, regexp(parameters, 'BLOCK_END_', 'match')));
assert(all(size(startIdx) == size(endIdx)))

%Extract fields between BLOCK_START_ and BLOCK_END_
extract_fields = @(n)(parameters(startIdx(n)+1:endIdx(n)-1,1));
struct_fields = arrayfun(extract_fields, 1:numel(startIdx), 'UniformOutput', false);

%Extract attributes between BLOCK_START_ and BLOCK_END_
extract_attributes = @(n)(parameters(startIdx(n)+1:endIdx(n)-1,2));
struct_attributes = arrayfun(extract_attributes, 1:numel(startIdx), 'UniformOutput', false);

for i = 1:numel(struct_attributes)
    s{i} = cell2struct(struct_attributes{i},struct_fields{i},1);

Now, in the end, I get a cell of stuctures that could, let's say, fulfill my requirements. The only point that I would like to improve is:

- Give each structure the name of the respective block.

Does anybody have valuable hints?

Thank you all for supporting me.

Regards, Francesco

share|improve this answer
With regards to your request to "Give each structure the name of the respective block" I think that my edited answer above should help you with this. In the code that I provided all results are saved in a struct result that contains multiple "sub-structures" for each block. Again, I used the dynamic field name syntax to name each of these sub-structures based on the name of the respective block. – grungetta Sep 6 '12 at 13:40

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