jq -r '(. | keys_unsorted) as $keys | $keys, map([.[ $keys ]]) | @csv'
jq -r '(. | keys_unsorted) as $keys | ([$keys] + map([.[ $keys ]]))  | @csv'
Describing the details is tricky because jq is stream-oriented, meaning it operates on a sequence of JSON data, rather than a single value. The input JSON stream gets converted to some internal type which is passed through the filters, then encoded in an output stream at program's end. The internal type isn't modeled by JSON, and doesn't exist as a named type. It's most easily demonstrated by examining the output of a bare index (
.) or the comma operator (examining it directly could be done with a debugger, but that would be in terms of jq's internal data types, rather than the conceptual data types behind JSON).
$ jq -c '.' <<<'["a", "b"]'
$ jq -cn '"a", "b"'
Note that the output isn't an array (which would be
["a", "b"]). Compact output (the
-c option) shows that each array element (or argument to the
, filter) becomes a separate object in the output (each is on a separate line).
A stream is like a JSON-seq, but uses newlines rather than RS as an output separator when encoded. Consequently, this internal type is referred to by the generic term "sequence" in this answer, with "stream" being reserved for the encoded input and output.
Constructing the Filter
The first object's keys can be extracted with:
. | keys_unsorted
Keys will generally be kept in their original order, but preserving the exact order isn't guaranteed. Consequently, they will need to be used to index the objects to get the values in the same order. This will also prevent values being in the wrong columns if some objects have a different key order.
To both output the keys as the first row and make them available for indexing, they're stored in a variable. The next stage of the pipeline then references this variable and uses the comma operator to prepend the header to the output stream.
(. | keys_unsorted) as $keys | $keys, ...
The expression after the comma is a little involved. The index operator on an object can take a sequence of strings (e.g.
"name", "value"), returning a sequence of property values for those strings.
$keys is an array, not a sequence, so
 is applied to convert it to a sequence,
which can then be passed to
.[ $keys ]
This, too, produces a sequence, so the array constructor is used to convert it to an array.
[.[ $keys ]]
This expression is to be applied to a single object.
map() is used to apply it to all objects in the outer array:
map([.[ $keys ]])
Lastly for this stage, this is converted to a sequence so each item becomes a separate row in the output.
map([.[ $keys ]])
Why bundle the sequence into an array within the
map only to unbundle it outside?
map produces an array;
.[ $keys ] produces a sequence. Applying
map to the sequence from
.[ $keys ] would produce an array of sequences of values, but since sequences aren't a JSON type, so you instead get a flattened array containing all the values.
["NSW","AU","state","New South Wales","AB","CA","province","Alberta","ABD","GB","council area","Aberdeenshire","AK","US","state","Alaska"]
The values from each object need to be kept separate, so that they become separate rows in the final output.
Finally, the sequence is passed through
The items can be separated late, rather than early. Instead of using the comma operator to get a sequence (passing a sequence as the right operand), the header sequence (
$keys) can be wrapped in an array, and
+ used to append the array of values. This still needs to be converted to a sequence before being passed to