Not an answer to your exact question but sounds like instead of tsN
fields, you should have a single ts
field with a list.
Tip: every time you see a number in a variable or field name, think whether you shouldn't be using a vector/array/list instead.
This is true for all languages but more so for Octave since everything is arrays. Even if you have three field named ts1
, ts2
, and ts3
with scalars values, what you really have is three fields whose values are an array of size 1x1.
In Octave you can have two things. Either the value of ts
is a cell array, each element of the cell array a scalar struct; or is a struct array. Use a cell array of structs when each struct has different keys, use a struct array when all structs have the same keys.
Struct array
octave> fs.ts = struct ("foo", {1, 2, 3, 4}, "bar", {"a", "b", "c", "d"});
octave> fs.ts # all keys/fields in the ts struct array
ans =
1x4 struct array containing the fields:
foo
bar
octave> fs.ts.foo # all foo values in the ts struct array
ans = 1
ans = 2
ans = 3
ans = 4
octave> numel (fs.ts) # number of structs in the ts struct array
ans = 4
octave> fs.ts(1) # struct 1 in the ts struct array
ans =
scalar structure containing the fields:
foo = 1
bar = a
octave> fs.ts(1).foo # foo value of the struct 1
ans = 1
Cell array of scalar structs
However, I'm not sure if JSON supports anything like struct arrays, you will probably need to have a list of structs. In that case, you will end up with a cell array of struct scalars.
octave> fs.ts = {struct("foo", 1, "bar", "a"), struct("foo", 2, "bar", "b"), struct("foo", 3, "bar", "c"), struct("foo", 4, "bar", "d"),};
octave> fs.ts # note, you actually have multiple structs
ans =
{
[1,1] =
scalar structure containing the fields:
foo = 1
bar = a
[1,2] =
scalar structure containing the fields:
foo = 2
bar = b
[1,3] =
scalar structure containing the fields:
foo = 3
bar = c
[1,4] =
scalar structure containing the fields:
foo = 4
bar = d
}
octave-gui:28> fs.ts{1} # get struct 1
ans =
scalar structure containing the fields:
foo = 1
bar = a
octave-gui:29> fs.ts{1}.foo # value foo from struct 1
ans = 1
tsN
fields, you should have a singlets
field with a list. Tip: every time you see a number in a variable or field name, think whether you shouldn't be using a vector/array/list instead.tsN
by an array of objects calledts
. It is correctly parsed byloadjson
. But how can I access the substructures?fs.ts(1)
works and outputs the structure, which contains more variables, e.g.laenge
andhoehe
. Butfs.ts(1).laenge
gives:error: cell cannot be indexed with .
fs.ts{N}
which returns element N of the cell array, instead offs.ts(N)
which returns a cell array with the element N.fieldnames(fs.ts{1})
renders the correct result, autocompletion doesn't work here, so if I typefs.ts{1}.
at the interactive prompt and press TAB, the variables are not listed (the output gives./ ../ .nargin.
). Is this not yet implemented in Octave GUI, or a general lack of the language? Does Matlab act the same way?