JSON Slice is a Go package which allows to execute fast jsonpath queries without unmarshalling the whole data.
Sometimes you need to get a single value from incoming json using jsonpath, for example to route data accordingly or so. To do that you must unmarshall the whole data into interface{} struct and then apply some jsonpath library to it, only to get just a tiny little value. What a waste of resourses! Well, now there's jsonslice
.
Simply call jsonslice.Get
on your raw json data to slice out just the part you need. The []byte
received can then be unmarshalled into a struct or used as it is.
$ go get github.com/bhmj/jsonslice
import "github.com/bhmj/jsonslice"
import "fmt"
func main() {
var data = []byte(`
{ "sku": [
{ "id": 1, "name": "Bicycle", "price": 160, "extras": [ "flashlight", "pump" ] },
{ "id": 2, "name": "Scooter", "price": 280, "extras": [ "helmet", "gloves", "spare wheel" ] }
]
} `)
a, _ := jsonslice.Get(data, "$.sku[0].price")
b, _ := jsonslice.Get(data, "$.sku[1].extras.count()")
c, _ := jsonslice.Get(data, "$.sku[?(@.price > 200)].name")
d, _ := jsonslice.Get(data, "$.sku[?(@.extras.count() < 3)].name")
fmt.Println(string(a)) // 160
fmt.Println(string(b)) // 3
fmt.Println(string(c)) // ["Scooter"]
fmt.Println(string(d)) // ["Bicycle"]
}
jsonslice.Get(data []byte, jsonpath string) ([]byte, error)
- get a slice from raw json data specified by jsonpath
- Originally based on Stefan Gössner's article.
- Expression evaluator designed to comply with ECMAScript Language: Expressions reference.
- A proud member of amazing Christoph Burgmer's json-path-comparison.
-
Classic dot notation (
$.simple_key
) is limited to alphanumeric characters. For more complex cases use$['complex key!']
or$.'complex key!'
. -
A single index reference returns an element, not an array; a slice reference always returns array:
$ echo '[{"name":"abc"}, {"name":"def"}]' | ./build/jsonslice '$[0].name'
"abc"
$ echo '[{"name":"abc"}, {"name":"def"}]' | .build//jsonslice '$[0:1].name'
["abc"]
- Indexing or slicing on root node is supported (assuming json is an array and not an object):
$ cat example/sample1.json | ./build/jsonslice '$[0].author'
$ -- root node (can be either object or array)
$.node -- dot-notated child
$.node.deeper -- dot-notated child (chain of them)
$.'some node' -- dot-notated child (syntax extension)
['node'] -- bracket-notated child
['foo','bar'] -- bracket-notated children (aggregation)
[5] -- array index
[-5] -- negative index means "from the end"
[1:9] -- array slice
[1:9:2] -- array slice (+step)
.* .[*] .[:] -- wildcard
..key -- deepscan
.'\'' -- escape sequences supported (\", \', \n, \r, \t, \0, \\)
.'\x0A' -- escaped hex bytes supported
.'\u00F6' -- escaped 16-bit unicode codepoints supported
.'\U000000F6' -- escaped 32-bit unicode codepoints supported
$.obj.length() -- number of elements in an array or string length, depending on the obj type
$.obj.count() -- same as above
$.val.size() -- value size in bytes (as is)
$.arr[start:end:step]
$.arr[start:end]
Selects elements from start
(inclusive) to end
(exclusive), stepping by step
. If step
is omitted or zero, then 1 is implied. Out-of-bounds values are reduced to the nearest bound.
If step
is positive:
- empty
start
treated as the first element inclusive - empty
end
treated as the last element inclusive start
should be less thenend
, otherwise result will be empty
If step
is negative:
- empty
start
treated as last element inclusive - empty
end
treated as the first element inclusive start
should be greater thenend
, otherwise result will be empty
[?(<expression>)] -- filter expression. Applicable to arrays only
@ -- the root of the current element of the array. Used only within a filter.
@.val -- a field of the current element of the array.
Operator | Description |
---|---|
math | + - * / % ** |
=== |
Strict equality (mimics JavaScript). Examples: true===true, 42===42 |
== |
Abstract equality (mimics JavaScript). Examples: true=="1", 42=="42" . Use single or double quotes for string expressions. [?(@.color=='red')] or [?(@.color=="red")] |
!= |
Abstract not equal to[?(@.author != "Herman Melville")] |
!== |
Strict not equal to?(@.tag !== "1") |
> |
Greater than[?(@.price > 10)] |
>= |
Greater than or equal to |
< |
Less than |
<= |
Less than or equal to |
=~ |
Match a regexp[?(@.name =~ /sword.*/i] |
!~ or !=~ |
Don't match a regexp[?(@.name !~ /sword.*/i] |
&& |
Logical AND[?(@.price < 10 && @isbn)] |
|| |
Logical OR[?(@.price > 10 || @.category == 'reference')] |
! |
Logical NOT[?(!@.is_expensive)] |
| |
Bitwise OR[?(@.bits|@.pieces > 0)] |
& |
Bitwise AND[?(@.bits & 7 == 1)] |
^ |
Bitwise XOR[?(@.bits ^ 1 > 0)] |
~ |
Bitwise NOT[?(~@.bits == 0xF0)] |
<< |
Bitwise left shift[?(@.bits << 1 == 2)] |
>> |
Bitwise right shift[?(@.bits >> 1 == 0)] |
Comparison mostly complies with JavaScript specifications, see Testing and Comparison Operations.
If you encounter wrong or inconsistent comparison behaviour please let me know by creating an issue in this repository.
Assuming sample0.json
and sample1.json
in the example directory:
cat example/sample0.json | ./build/jsonslice '$.store.book[0]'
cat example/sample0.json | ./build/jsonslice '$.store.book[0].title'
cat example/sample0.json | ./build/jsonslice '$.store.book[0:-1]'
cat example/sample1.json | ./build/jsonslice '$[1].author'
cat example/sample0.json | ./build/jsonslice '$.store.book[?(@.price > 10)]'
cat example/sample0.json | ./build/jsonslice '$.store.book[?(@.price > $.expensive)]'
Much more examples can be found in jsonslice_test.go
$ go test -bench=. -benchmem -benchtime=4s
goos: darwin
goarch: amd64
pkg: github.com/bhmj/jsonslice
cpu: Intel(R) Core(TM) i9-9880H CPU @ 2.30GHz
++ standard json.Unmarshal (for reference):
Benchmark_Unmarshal-16 398998 11268 ns/op 4272 B/op 130 allocs/op
++ and here's a jsonslice.Get:
Benchmark_Jsonslice_Get_Simple-16 1660604 2885 ns/op 24 B/op 1 allocs/op
++ parsing is the first part of jsonslicing, here it is separately:
Benchmark_JsonSlice_ParsePath-16 11955015 400 ns/op 0 B/op 0 allocs/op
++ aggregating non-contiguous elements may take a bit longer (extra mallocs involved):
Benchmark_Jsonslice_Get_Aggregated-16 1000000 4335 ns/op 313 B/op 10 allocs/op
++ standard json.Unmarshal of a large json (10 Mb):
Benchmark_Unmarshal_10Mb-16 100 40787414 ns/op 224 B/op 5 allocs/op
++ jsonslicing the same json, target element is at the start:
Benchmark_Jsonslice_Get_10Mb_First-16 3459492 1370 ns/op 24 B/op 1 allocs/op
++ jsonslicing the same json, target element is at the end: still beats Unmarshal
Benchmark_Jsonslice_Get_10Mb_Last-16 133 35731931 ns/op 54 B/op 1 allocs/op
PASS
ok github.com/bhmj/jsonslice 52.452s
1.1.3 (2024-07-29) -- bugfix: space after closing }
of a target object.
1.1.2 (2022-01-02) -- Unicode support added. Expression parser upgrade to v0.9.1
Bugfix: indexing of array element inside expression (@[2]
).
Bugfix: ecaped backslash in node key now works ($.["\\"]
).
See Test_Fixes
function for bugfix details.
1.1.1 (2021-10-20) -- Expression parser upgrade to v0.9.0
1.1.0 (2021-11-12) -- Expression parser/evaluator has been separated to different project and completely rewritten. Parentheses now fully supported. Exponentiation operator added (**
). Bitwise operators added (|
, &
, ^
, <<
, >>
). All expression calculations are JavaScript-compliant.
1.0.6 (2021-10-31) -- JS-like behaviour on string/number/boolean values comparison. ===
operator added for strict comparison. Strings are now comparable.
1.0.5 (2020-09-22) -- bugfix: $..many.keys
used to trigger on many
without recursing deeper on keys
.
1.0.4 (2020-05-07) -- bugfix: $*
path generated panic.
1.0.3 (2019-12-24) -- bugfix: $[0].foo
[{"foo":"\\"}]
generated "unexpected end of input".
1.0.2 (2019-12-07) -- nested aggregation ($[:].['a','b']
) now works as expected. TODO: add option to switch nested aggregation mode at runtime!
1.0.1 (2019-12-01) -- "not equal" regexp operator added (!=~
or !~
).
1.0.0 (2019-11-29) -- deepscan operator (..
) added, slice with step $[1:9:2]
is now supported, syntax extensions added. GetArrayElements()
removed.
0.7.6 (2019-09-11) -- bugfix: escaped backslash at the end of a string value.
0.7.5 (2019-05-21) -- Functions count()
, size()
, length()
work in filters.
$.store.bicycle.equipment[?(@.count() == 2)]
->[["light saber", "apparel"]]
0.7.4 (2019-03-01) -- Mallocs reduced (see Benchmarks section).
0.7.3 (2019-02-27) -- GetArrayElements()
added.
0.7.2 (2018-12-25) -- bugfix: closing square bracket inside a string value.
0.7.1 (2018-10-16) -- bracket notation is now supported.
$.store.book[:]['price','title']
->[[8.95,"Sayings of the Century"],[12.99,"Sword of Honour"],[8.99,"Moby Dick"],[22.99,"The Lord of the Rings"]]
0.7.0 (2018-07-23) -- Wildcard key (*
) added.
$.store.book[-1].*
->["fiction","J. R. R. Tolkien","The Lord of the Rings","0-395-19395-8",22.99]
$.store.*[:].price
->[8.95,12.99,8.99,22.99]
0.6.3 (2018-07-16) -- Boolean/null value error fixed.
0.6.2 (2018-07-03) -- More tests added, error handling clarified.
0.6.1 (2018-06-26) -- Nested array indexing is now supported.
$.store.bicycle.equipment[1][0]
->"peg leg"
0.6.0 (2018-06-25) -- Regular expressions added.
$.store.book[?(@.title =~ /(dick)|(lord)/i)].title
->["Moby Dick","The Lord of the Rings"]
0.5.1 (2018-06-15) -- Logical expressions added.
$.store.book[?(@.price > $.expensive && @.isbn)].title
->["The Lord of the Rings"]
0.5.0 (2018-06-14) -- Expressions (aka filters) added.
$.store.book[?(@.price > $.expensive)].title
->["Sword of Honour","The Lord of the Rings"]
0.4.0 (2018-05-16) -- Aggregating sub-queries added.
$.store.book[1:3].author
->["John","William"]
0.3.0 (2018-05-05) -- MVP.
- length(), count(), size() functions
- filters: simple expressions
- filters: complex expressions (with logical operators)
- nested arrays support
- wildcard operator (
*
) - bracket notation for multiple field queries (
$['a','b']
) - deepscan operator (
..
) - syntax extensions:
$.'keys with spaces'.price
- flexible syntax:
$[0]
works on both[1,2,3]
and{"0":"abc"}
- JavaScript-compatible expressions
- Unicode support
- IN (), NOT IN ()
- cache parsed jsonpaths of used variables at filterMatch.varFunc(str)
- Optionally unmarshal the result
- Option to select aggregation mode (nested or plain)
- Fork it!
- Create your feature branch:
git checkout -b my-new-feature
- Commit your changes:
git commit -am 'Add some feature'
- Push to the branch:
git push origin my-new-feature
- Submit a pull request :)
Michael Gurov aka BHMJ