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jdict.m
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jdict.m
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%
% jd = jdict(data)
%
% A universal dictionary-like interface that enables fast multi-level subkey access and
% JSONPath-based element indexing, such as jd.('key1').('key2') and jd.('$.key1.key2'),
% for hierachical data structures embedding struct, containers.Map or dictionary objects
%
% author: Qianqian Fang (q.fang <at> neu.edu)
%
% input:
% data: a hierachical data structure made of struct, containers.Map, dictionary, or cell arrays
% if data is a string starting with http:// or https://,
% loadjson(data) will be used to dynamically load the data
%
% indexing:
% jd.('key1').('subkey1')... can retrieve values that are recursively index keys that are
% jd.key1.subkey1... can also retrieve the same data regardless
% if the underlying data is struct, containers.Map or dictionary
% jd.('key1').('subkey1').v(1) if the subkey key1 is an array, this can retrieve the first element
% jd.('key1').('subkey1').v(1).('subsubkey1') the indexing can be further applied for deeper objects
% jd.('$.key1.subkey1') if the indexing starts with '$' this allows a JSONPath based index
% jd.('$.key1.subkey1[0]') using a JSONPath can also read array-based subkey element
% jd.('$.key1.subkey1[0].subsubkey1') JSONPath can also apply further indexing over objects of diverse types
% jd.('$.key1..subkey') JSONPath can use '..' deep-search operator to find and retrieve subkey appearing at any level below
%
% member functions:
% jd() or jd.v() returns the underlying hierachical data
% jd.('cell1').v(i) or jd.('array1').v(2:3) returns specified elements if the element is a cell or array
% jd.('key1'),('subkey1').v() returns the underlying hierachical data at the specified subkeys
% jd.tojson() convers the underlying data to a JSON string
% jd.tojson('compression', 'zlib', ...) convers the data to a JSON string with savejson() options
% jd.keys() return the sub-key names of the object - if it a struct, dictionary or containers.Map - or 1:length(data) if it is an array
% jd.len() return the length of the sub-keys
%
% if using matlab, the .v(...) method can be replaced by bare
% brackets .(...), but in octave, one must use .v(...)
%
% examples:
% obj = struct('key1', struct('subkey1',1, 'subkey2',[1,2,3]), 'subkey2', 'str');
% obj.key1.subkey3 = {8,'test',containers.Map('subsubkey1',0)};
%
% jd = jdict(obj);
%
% % getting values
% jd() % return obj
% jd.('key1').('subkey1') % return jdict(1)
% jd.keys.subkey1 % return jdict(1)
% jd.('key1').('subkey3') % return jdict(obj.key1.subkey3)
% jd.('key1').('subkey3')() % return obj.key1.subkey3
% jd.('key1').('subkey3').v(1) % return jdict({8})
% jd.('key1').('subkey3').('subsubkey1') % return jdict(obj.key1.subkey3(2))
% jd.('key1').('subkey3').v(2).v() % return {'test'}
% jd.('$.key1.subkey1') % return jdict(1)
% jd.('$.key1.subkey2')() % return 'str'
% jd.('$.key1.subkey2').v().v(1) % return jdict(1)
% jd.('$.key1.subkey2')().v(1).v() % return 1
% jd.('$.key1.subkey3[2].subsubkey1') % return jdict(0)
% jd.('$..subkey2') % jsonpath '..' operator runs a deep scan, return jdict({'str', [1 2 3]})
% jd.('$..subkey2').v(2) % return jdict([1,2,3])
%
% % setting values
% jd.('subkey2') = 'newstr' % setting obj.subkey2 to 'newstr'
% jd.('key1').('subkey2').v(1) = 2; % modify indexed element
% jd.('key1').('subkey2').v([2, 3]) = [10, 11]; % modify multiple values
% jd.('key1').('subkey3').v(3).('subsubkey1') = 1; % modify keyed value
% jd.('key1').('subkey3').v(3).('subsubkey2') = 'new'; % add new key
%
% % loading complex data from REST-API
% jd = jdict('https://neurojson.io:7777/cotilab/NeuroCaptain_2024');
%
% jd.('Atlas_Age_19_0')
% jd.Atlas_Age_19_0.('Landmark_10_10').('$.._DataLink_')
% jd.Atlas_Age_19_0.Landmark_10_10.('$.._DataLink_')()
%
% % creating and managing hierachical data with any key value
% jd = jdict;
% jd.('_DataInfo_') = struct('toolbox', 'jsonlab', 'version', '3.0.0')
% jd.('_DataInfo_').tojson()
%
% license:
% BSD or GPL version 3, see LICENSE_{BSD,GPLv3}.txt files for details
%
% -- this function is part of JSONLab toolbox (http://iso2mesh.sf.net/cgi-bin/index.cgi?jsonlab)
%
classdef jdict < handle
properties
data
end
properties (Access = private)
flags
end
methods
function obj = jdict(val, varargin)
obj.flags = struct('builtinjson', 0);
if (nargin >= 1)
if (~isempty(varargin))
allflags = [varargin(1:2:end); varargin(2:2:end)];
obj.flags = struct(allflags{:});
end
if (ischar(val) && ~isempty(regexpi(val, '^https*://', 'once')))
try
obj.data = obj.call_('loadjson', val);
catch
obj.data = val;
end
return
end
if (isa(val, 'jdict'))
obj = val;
else
obj.data = val;
end
end
end
function val = subsref(obj, idxkey)
% overloading the getter function jd.('key').('subkey')
oplen = length(idxkey);
val = obj.data;
if (oplen == 1 && strcmp(idxkey.type, '()') && isempty(idxkey.subs))
return
end
i = 1;
while i <= oplen
idx = idxkey(i);
if (isempty(idx.subs))
i = i + 1;
continue
end
if (idx.type == '.' && isnumeric(idx.subs))
val = val(idx.subs);
elseif ((strcmp(idx.type, '()') || strcmp(idx.type, '.')) && ischar(idx.subs) && ismember(idx.subs, {'tojson', 'fromjson', 'v', 'keys', 'len'}) && i < oplen)
if (strcmp(idx.subs, 'v'))
if (iscell(val) && strcmp(idxkey(i + 1).type, '()'))
idxkey(i + 1).type = '{}';
end
if (~isempty(idxkey(i + 1).subs))
val = v(jdict(val), idxkey(i + 1));
end
else
fhandle = str2func(idx.subs);
val = fhandle(jdict(val), idxkey(i + 1).subs{:});
end
i = i + 1;
if (i < oplen)
val = jdict(val);
end
elseif (strcmp(idx.type, '.') && ischar(idx.subs) && strcmp(idx.subs, 'v') && oplen == 1)
i = i + 1;
continue
elseif ((idx.type == '.' && ischar(idx.subs)) || (iscell(idx.subs) && ~isempty(idx.subs{1})))
onekey = idx.subs;
if (iscell(onekey))
onekey = onekey{1};
end
if (isa(val, 'jdict'))
val = val.data;
end
if (ischar(onekey) && ~isempty(onekey) && onekey(1) == '$')
val = obj.call_('jsonpath', val, onekey);
elseif (isstruct(val))
val = val.(onekey);
elseif (isa(val, 'containers.Map') || isa(val, 'dictionary'))
val = val(onekey);
else
error('key name "%s" not found', onekey);
end
else
error('method not supported');
end
i = i + 1;
end
if (~(isempty(idxkey(end).subs) && strcmp(idxkey(end).type, '()')))
val = jdict(val);
end
end
function obj = subsasgn(obj, idxkey, otherobj)
% overloading the setter function, obj.('key').('subkey')=otherobj
% expanded from rahnema1's sample at https://stackoverflow.com/a/79030223/4271392
oplen = length(idxkey);
opcell = cell (1, oplen + 1);
if (isempty(obj.data))
obj.data = obj.newkey_();
end
opcell{1} = obj.data;
for i = 1:oplen
idx = idxkey(i);
if (strcmp(idx.type, '.'))
if (ischar(idx.subs) && strcmp(idx.subs, 'v'))
opcell{i + 1} = opcell{i};
if (i < oplen && iscell(opcell{i}))
idxkey(i + 1).type = '{}';
end
continue
end
if (ischar(idx.subs) && ~isempty(idx.subs) && idx.subs(1) == '$')
error('setting values based on JSONPath indices is not yet supported');
end
if (ischar(idx.subs))
if (((isa(opcell{i}, 'containers.Map') || isa(opcell{i}, 'dictionary')) && ~isKey(opcell{i}, idx.subs)))
idx.type = '()';
opcell{i}(idx.subs) = obj.newkey_();
elseif (isstruct(opcell{i}) && ~isfield(opcell{i}, idx.subs))
opcell{i}.(idx.subs) = obj.newkey_();
end
end
end
if (isa(opcell{i}, 'containers.Map') || isa(opcell{i}, 'dictionary'))
opcell{i + 1} = opcell{i}(idx.subs);
else
opcell{i + 1} = subsref(opcell{i}, idx);
end
end
if (exist('OCTAVE_VERSION', 'builtin') ~= 0) && (isa(opcell{i}, 'containers.Map') || isa(opcell{i}, 'dictionary'))
opcell{i}(idx.subs) = otherobj;
opcell{end - 1} = opcell{i};
else
opcell{end - 1} = subsasgn(opcell{i}, idx, otherobj);
end
for i = oplen - 1:-1:1
idx = idxkey(i);
if (ischar(idx.subs) && strcmp(idx.type, '.') && (isa(opcell{i}, 'containers.Map') || isa(opcell{i}, 'dictionary')))
idx.type = '()';
end
if (ischar(idx.subs) && strcmp(idx.subs, 'v'))
opcell{i} = opcell{i + 1};
continue
end
if (i > 1 && ischar(idxkey(i - 1).subs) && strcmp(idxkey(i - 1).subs, 'v'))
if (iscell(opcell{i}) && ~isempty(idx.subs))
opcell{i} = subsasgn(opcell{i}, idx, opcell{i + 1});
else
opcell{i} = opcell{i + 1};
end
i = i - 1;
else
opcell{i} = subsasgn(opcell{i}, idx, opcell{i + 1});
end
end
obj.data = opcell{1};
end
function val = tojson(obj, varargin)
% printing underlying data to compact-formed JSON string
val = obj.call_('savejson', '', obj.data, 'compact', 1, varargin{:});
end
function obj = fromjson(obj, fname, varargin)
% loading diverse data files using loadjd interface in jsonlab
obj.data = obj.call_('loadjd', fname, varargin{:});
end
function val = keys(obj)
% list subfields at the current level
if (isstruct(obj.data))
val = fieldnames(obj.data);
elseif (isa(obj.data, 'containers.Map') || isa(obj.data, 'dictionary'))
val = keys(obj.data);
else
val = 1:length(obj.data);
end
end
function val = len(obj)
% return the number of subfields at the current level
val = length(obj.data);
end
function val = v(obj, varargin)
if (~isempty(varargin))
val = subsref(obj.data, varargin{:});
else
val = obj.data;
end
end
function val = newkey_(obj)
% insert new key if does not exist
if (exist('containers.Map'))
val = containers.Map;
else
val = struct;
end
end
function varargout = call_(obj, func, varargin)
% interface to external functions and dependencies
if (~obj.flags.builtinjson)
if (~exist('loadjson', 'file'))
error('you must first install jsonlab (https://github.com/NeuroJSON/jsonlab) or set "BuildinJSON" flag to 1');
end
fhandle = str2func(func);
[varargout{1:nargout}] = fhandle(varargin{:});
else
if (~exist('jsonencode', 'builtin') && ~strcmp(func, 'jsonpath'))
error('jsonencode/jsondecode are not available, please install jsonlab (https://github.com/NeuroJSON/jsonlab) and set "BuiltinJSON" flag to 0');
end
switch func
case 'loadjson'
[varargout{1:nargout}] = jsondecode(webread(varargin{:}));
case 'savejson'
[varargout{1:nargout}] = jsonencode(varargin{:});
case 'jsonpath'
error('please install jsonlab (https://github.com/NeuroJSON/jsonlab) and set "BuiltinJSON" flag to 0');
end
end
end
end
end