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regrouph5.m
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regrouph5.m
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function data = regrouph5(root, varargin)
%
% data=regrouph5(root)
% or
% data=regrouph5(root,type)
% data=regrouph5(root,{'nameA','nameB',...})
%
% Processing a loadh5 restored data and merge "indexed datasets", whose
% names start with an ASCII string followed by a contiguous integer
% sequence number starting from 1, into a cell array. For example,
% datasets {data.a1, data.a2, data.a3} will be merged into a cell/struct
% array data.a with 3 elements.
%
% A single subfield .name1 will be renamed as .name. Items with
% non-contigous numbering will not be grouped. If .name and
% .name1/.name2 co-exist in the input struct, no grouping will be done.
%
% The grouped subfield will appear at the position of the first
% pre-grouped item in the original input structure.
%
% author: Qianqian Fang (q.fang <at> neu.edu)
%
% input:
% root: the raw input HDF5 data structure (loaded from loadh5.m)
% type: if type is set as a cell array of strings, it restrict the
% grouping only to the subset of field names in this list;
% if type is a string as 'snirf', it is the same as setting
% type as {'aux','data','nirs','stim','measurementList'}.
%
% output:
% data: a reorganized matlab structure.
%
% example:
% a=struct('a1',rand(5),'a2','string','a3',true,'d',2+3i,'e',{'test',[],1:5});
% regrouph5(a)
% saveh5(a,'test.h5');
% rawdata=loadh5('test.h5')
% data=regrouph5(rawdata)
%
% this file is part of EasyH5 Toolbox: https://github.com/NeuroJSON/easyh5
%
% License: GPLv3 or 3-clause BSD license, see https://github.com/NeuroJSON/easyh5 for details
%
if (nargin < 1)
help regrouph5;
return
end
dict = {};
if (~isempty(varargin))
if (ischar(varargin{1}) && strcmpi(varargin{1}, 'snirf'))
dict = {'aux', 'data', 'nirs', 'stim', 'measurementList'};
elseif (iscell(varargin{1}))
dict = varargin{1};
end
end
data = struct;
if (isstruct(root))
data = repmat(struct, size(root));
names = fieldnames(root);
newnames = struct();
firstpos = struct();
for i = 1:length(names)
item = regexp(names{i}, '^(.*\D)(\d+)$', 'tokens');
if (~isempty(item) && str2double(item{1}{2}) ~= 0 && ~isfield(root, item{1}{1}))
if (~isfield(newnames, item{1}{1}))
newnames.(item{1}{1}) = str2double(item{1}{2});
else
newnames.(item{1}{1}) = [newnames.(item{1}{1}), str2double(item{1}{2})];
end
if (~isfield(firstpos, item{1}{1}))
firstpos.(item{1}{1}) = length(fieldnames(data(1)));
end
else
for j = 1:length(root)
if (isstruct(root(j).(names{i})))
data(j).(names{i}) = regrouph5(root(j).(names{i}));
else
data(j).(names{i}) = root(j).(names{i});
end
end
end
end
names = fieldnames(newnames);
if (~isempty(dict))
names = intersect(names, dict);
end
for i = length(names):-1:1
len = length(newnames.(names{i}));
idx = newnames.(names{i});
if ((min(idx) ~= 1 || max(idx) ~= len) && len ~= 1)
for j = 1:len
dataname = sprintf('%s%d', names{i}, idx(j));
for k = 1:length(root)
if (isstruct(root(k).(dataname)))
data(k).(dataname) = regrouph5(root(k).(dataname));
else
data(k).(dataname) = root(k).(dataname);
end
end
end
pos = firstpos.(names{i});
len = length(fieldnames(data));
data = orderfields(data, [1:pos, len, pos + 1:len - 1]);
continue
end
for j = 1:length(data)
data(j).(names{i}) = cell(1, len);
end
idx = sort(idx);
for j = 1:len
for k = 1:length(root)
obj = root(k).(sprintf('%s%d', names{i}, idx(j)));
if (isstruct(obj))
data(k).(names{i}){j} = regrouph5(obj);
else
data(k).(names{i}){j} = obj;
end
end
end
pos = firstpos.(names{i});
len = length(fieldnames(data));
data = orderfields(data, [1:pos, len, pos + 1:len - 1]);
try
data.(names{i}) = cell2mat(data.(names{i}));
catch
end
end
end