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loadh5.m
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loadh5.m
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function varargout = loadh5(filename, varargin)
%
% [data, meta] = loadh5(filename)
% [data, meta] = loadh5(root_id)
% [data, meta] = loadh5(filename, rootpath)
% [data, meta] = loadh5(filename, rootpath, options)
% [data, meta] = loadh5(filename, options)
% [data, meta] = loadh5(filename, 'Param1',value1, 'Param2',value2,...)
%
% Load data in an HDF5 file to a MATLAB structure.
%
% author: Qianqian Fang (q.fang <at> neu.edu)
%
% input
% filename
% Name of the file to load data from
% root_id: an HDF5 handle (of type 'H5ML.id' in MATLAB)
% rootpath : (optional)
% Root path to read part of the HDF5 file to load
% options: (optional) a struct or Param/value pairs for user specified options
% Order: 'creation' - creation order (default), or 'alphabet' - alphabetic
% Regroup: [0|1]: if 1, call regrouph5() to combine indexed
% groups into a cell array
% PackHex: [1|0]: convert invalid characters in the group/dataset
% names to 0x[hex code] by calling encodevarname.m;
% if set to 0, call getvarname
% ComplexFormat: {'realKey','imagKey'}: use 'realKey' and 'imagKey'
% as possible keywords for the real and the imaginary part
% of a complex array, respectively (sparse arrays not supported);
% a common list of keypairs is used even without this option
% Transpose: [1|0] - if set to 1 (default), the row-majored HDF5
% datasets are transposed (to column-major) so that the
% output MATLAB array has the same dimensions as in the
% HDF5 dataset header.
%
% output
% data: a structure (array) or cell (array)
% meta: optional output to store the attributes stored in the file
%
% example:
% a={rand(2), struct('va',1,'vb','string'), 1+2i};
% saveh5(a,'test.h5');
% a2=loadh5('test.h5')
% a3=loadh5('test.h5','regroup',1)
% isequaln(a,a3.a)
% a4=loadh5('test.h5','/a1')
%
% This function was adapted from h5load.m by Pauli Virtanen <pav at iki.fi>
% 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
%
path = '';
opt = struct;
if (bitand(length(varargin), 1) == 0)
opt = varargin2struct(varargin{:});
elseif (length(varargin) >= 3)
path = varargin{1};
opt = varargin2struct(varargin{2:end});
elseif (length(varargin) == 1)
path = varargin{1};
end
opt.dotranspose = jsonopt('Transpose', 1, opt);
opt.stringarray = jsonopt('StringArray', 0, opt);
opt.rootpath = path;
if (exist('OCTAVE_VERSION', 'builtin') ~= 0)
[varargout{1:nargout}] = load(filename, '-hdf5');
if (opt.dotranspose)
varargout{1} = transposemat(varargout{1});
end
return
end
if (isa(filename, 'H5ML.id'))
loc = filename;
else
try
loc = H5F.open(filename, 'H5F_ACC_RDONLY', 'H5P_DEFAULT');
catch ME
error('fail to open file');
end
end
if (~(isfield(opt, 'complexformat') && iscellstr(opt.complexformat) && numel(opt.complexformat) == 2))
opt.complexformat = {'Real', 'Imag'};
end
opt.releaseid = 0;
vers = ver('MATLAB');
if (~isempty(vers))
opt.releaseid = datenum(vers(1).Date);
end
if ((isfield(opt, 'order') && strcmpi(opt.order, 'alphabet')) || opt.releaseid < datenum('1-Jan-2015'))
opt.order = 'H5_INDEX_NAME';
else
opt.order = 'H5_INDEX_CRT_ORDER';
end
try
if (nargin > 1 && ~isempty(path))
try
rootgid = H5G.open(loc, path);
[varargout{1:nargout}] = load_one(rootgid, opt);
H5G.close(rootgid);
catch
[gname, dname] = fileparts(path);
rootgid = H5G.open(loc, gname);
[status, res] = group_iterate(rootgid, dname, struct('data', struct, 'meta', struct, 'opt', opt));
if (nargout > 0)
varargout{1} = res.data;
elseif (nargout > 1)
varargout{2} = res.meta;
end
H5G.close(rootgid);
end
else
[varargout{1:nargout}] = load_one(loc, opt);
end
H5F.close(loc);
catch ME
H5F.close(loc);
rethrow(ME);
end
if (jsonopt('Regroup', 0, opt))
if (nargout >= 1)
varargout{1} = regrouph5(varargout{1});
elseif (nargout >= 2)
varargout{2} = regrouph5(varargout{2});
end
end
if (isfield(opt, 'jdata') && opt.jdata && nargout >= 1)
varargout{1} = jdatadecode(varargout{1}, 'Base64', 0, opt);
end
% --------------------------------------------------------------------------
function [data, meta] = load_one(loc, opt)
data = struct();
meta = struct();
inputdata = struct('data', data, 'meta', meta, 'opt', opt);
% Load groups and datasets
try
[status, count, inputdata] = H5L.iterate(loc, opt.order, 'H5_ITER_INC', 0, @group_iterate, inputdata);
catch ME
if (strcmp(opt.order, 'H5_INDEX_CRT_ORDER'))
[status, count, inputdata] = H5L.iterate(loc, 'H5_INDEX_NAME', 'H5_ITER_INC', 0, @group_iterate, inputdata);
else
rethrow(ME);
end
end
data = inputdata.data;
meta = inputdata.meta;
% --------------------------------------------------------------------------
function [status, res] = group_iterate(group_id, objname, inputdata)
status = 0;
attr = struct();
encodename = jsonopt('PackHex', 1, inputdata.opt);
try
data = inputdata.data;
meta = inputdata.meta;
% objtype index
info = H5G.get_objinfo(group_id, objname, 0);
objtype = info.type;
objtype = objtype + 1;
if objtype == 1
% Group
name = regexprep(objname, '.*/', '');
group_loc = H5G.open(group_id, name);
try
[sub_data, sub_meta] = load_one(group_loc, inputdata.opt);
H5G.close(group_loc);
catch ME
H5G.close(group_loc);
rethrow(ME);
end
if (encodename)
name = encodevarname(name);
else
name = genvarname(name);
end
data.(name) = sub_data;
meta.(name) = sub_meta;
elseif objtype == 2
% Dataset
name = regexprep(objname, '.*/', '');
dataset_loc = H5D.open(group_id, name);
try
sub_data = H5D.read(dataset_loc, ...
'H5ML_DEFAULT', 'H5S_ALL', 'H5S_ALL', 'H5P_DEFAULT');
try
[status, count, attr] = H5A.iterate(dataset_loc, 'H5_INDEX_NAME', 'H5_ITER_INC', 0, @getattribute, attr);
catch
attr = [];
end
H5D.close(dataset_loc);
catch exc
H5D.close(dataset_loc);
rethrow(exc);
end
if (ischar(sub_data) && numel(sub_data) > 1 && sub_data(end) == 0)
sub_data = sub_data(1:end - 1);
end
if ((isnumeric(sub_data) && inputdata.opt.dotranspose) || (iscell(sub_data) && length(sub_data) > 1))
sub_data = permute(sub_data, ndims(sub_data):-1:1);
end
sub_data = fix_data(sub_data, attr, inputdata.opt);
if (encodename)
name = encodevarname(name);
else
name = genvarname(name);
end
data.(name) = sub_data;
meta.(name) = attr;
end
catch ME
rethrow(ME);
end
res = struct('data', data, 'meta', meta, 'opt', inputdata.opt);
% --------------------------------------------------------------------------
function data = fix_data(data, attr, opt)
% Fix some common types of data to more friendly form.
if isstruct(data)
fields = fieldnames(data);
if (length(intersect(fields, {'SparseIndex', opt.complexformat{1}})) == 2)
if isnumeric(data.SparseIndex) && isnumeric(data.(opt.complexformat{1}))
if (nargin > 1 && isstruct(attr))
if (isfield(attr, 'SparseArraySize'))
spd = sparse(1, prod(attr.SparseArraySize));
if (isfield(data, opt.complexformat{2}))
spd(data.SparseIndex) = complex(data.(opt.complexformat{1}), data.(opt.complexformat{2}));
else
spd(data.SparseIndex) = data.(opt.complexformat{1});
end
data = reshape(spd, attr.SparseArraySize(:)');
return
end
end
end
else
if (numel(opt.complexformat) == 2 && length(intersect(fields, opt.complexformat)) == 2)
if isnumeric(data.(opt.complexformat{1})) && isnumeric(data.(opt.complexformat{2}))
data = data.(opt.complexformat{1}) + 1j * data.(opt.complexformat{2});
end
else
% if complexformat is not specified or not found, try some common complex number storage formats
if (length(intersect(fields, {'Real', 'Imag'})) == 2)
if isnumeric(data.Real) && isnumeric(data.Imag)
data = data.Real + 1j * data.Imag;
end
elseif (length(intersect(fields, {'real', 'imag'})) == 2)
if isnumeric(data.real) && isnumeric(data.imag)
data = data.real + 1j * data.imag;
end
elseif (length(intersect(fields, {'Re', 'Im'})) == 2)
if isnumeric(data.Re) && isnumeric(data.Im)
data = data.Re + 1j * data.Im;
end
elseif (length(intersect(fields, {'re', 'im'})) == 2)
if isnumeric(data.re) && isnumeric(data.im)
data = data.re + 1j * data.im;
end
elseif (length(intersect(fields, {'r', 'i'})) == 2)
if isnumeric(data.r) && isnumeric(data.i)
data = data.r + 1j * data.i;
end
end
end
end
end
if (isa(data, 'uint8') || isa(data, 'int8'))
if (nargin > 1 && isstruct(attr))
if (isfield(attr, 'MATLABObjectClass'))
data = getArrayFromByteStream(data); % use undocumented function
end
end
end
% handeling string arrays (or cell of char strings)
if (iscell(data) && length(data) > 1)
if (all(cellfun(@ischar, data)) && exist('string') && opt.stringarray)
data = string(data);
end
end
% --------------------------------------------------------------------------
function [status, dataout] = getattribute(loc_id, attr_name, info, datain)
status = 0;
attr_id = H5A.open(loc_id, attr_name, 'H5P_DEFAULT');
datain.(attr_name) = H5A.read(attr_id, 'H5ML_DEFAULT');
H5A.close(attr_id);
dataout = datain;