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Yet another JSON library for Scala

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circe

Build status Coverage status Gitter Maven Central

circe is a JSON library for Scala (and Scala.js). The rest of this page tries to give some justification for its existence. There are also API docs.

circe's working title was jfc, which stood for "JSON for cats". The name was changed for a number of reasons.

Table of contents

  1. Quick start
  2. Why?
  3. Dependencies and modularity
  4. Parsing
  5. Lenses
  6. Codec derivation
  7. Aliases
  8. Documentation
  9. Testing
  10. Performance
  11. Usage
  12. Encoding and decoding
  13. Transforming JSON
  14. Contributors and participation
  15. Warnings and known issues
  16. License

Quick start

circe is published to Maven Central and cross-built for Scala 2.10 and 2.11, so you can just add the following to your build:

libraryDependencies ++= Seq(
  "io.circe" %% "circe-core" % "0.3.0",
  "io.circe" %% "circe-generic" % "0.3.0",
  "io.circe" %% "circe-parser" % "0.3.0"
)

If you are using circe's generic derivation with Scala 2.10, you'll also need to include the Macro Paradise compiler plugin in your build:

addCompilerPlugin(
  "org.scalamacros" % "paradise" % "2.1.0" cross CrossVersion.full
)

Then type sbt console to start a REPL and then paste the following (this will also work from the root directory of this repository):

scala> import io.circe._, io.circe.generic.auto._, io.circe.parser._, io.circe.syntax._
import io.circe._
import io.circe.generic.auto._
import io.circe.parser._
import io.circe.syntax._

scala> sealed trait Foo
defined trait Foo

scala> case class Bar(xs: List[String]) extends Foo
defined class Bar

scala> case class Qux(i: Int, d: Option[Double]) extends Foo
defined class Qux

scala> val foo: Foo = Qux(13, Some(14.0))
foo: Foo = Qux(13,Some(14.0))

scala> foo.asJson.noSpaces
res0: String = {"Qux":{"d":14.0,"i":13}}

scala> decode[Foo](foo.asJson.spaces4)
res1: cats.data.Xor[io.circe.Error,Foo] = Right(Qux(13,Some(14.0)))

No boilerplate, no runtime reflection.

Why?

Argonaut is a great library. It's by far the best JSON library for Scala, and the best JSON library on the JVM. If you're doing anything with JSON in Scala, you should be using Argonaut.

circe is a fork of Argonaut with a few important differences.

Dependencies and modularity

circe depends on cats instead of Scalaz, and the core project has only two dependencies: cats-core and export-hook (a lightweight mechanism for cleaner generic type class instance derivation).

Other subprojects bring in dependencies on Jawn (for parsing in the jawn subproject), Shapeless (for automatic codec derivation in generic), and Twitter Util (for tools for asynchronous parsing in async), but it would be possible to replace the functionality provided by these subprojects with alternative implementations that use other libraries.

Parsing

circe doesn't include a JSON parser in the core project, which is focused on the JSON AST, zippers, and codecs. The jawn subproject provides support for parsing JSON via a Jawn facade. Jawn is fast, it offers asynchronous parsing, and best of all it lets us drop a lot of the fussiest code in Argonaut. The jackson subproject supports using Jackson for both parsing and printing.

circe also provides a parser subproject that provides parsing support for Scala.js, with JVM parsing provided by io.circe.jawn and JavaScript parsing from scalajs.js.JSON.

Lenses

circe doesn't use or provide lenses in the core project. This is related to the first point above, since Monocle has a Scalaz dependency, but we also feel that it simplifies the API. The 0.3.0 release adds an experimental optics subproject that provides Monocle lenses (note that this will require your project to depend on both Scalaz and cats).

Codec derivation

circe does not use macros or provide any kind of automatic derivation in the core project. Instead of Argonaut's limited macro-based derivation (which does not support sealed trait hierarchies, for example), circe includes a subproject (generic) that provides generic codec derivation using Shapeless.

This subproject is currently a simplified port of argonaut-shapeless that provides fully automatic derivation of instances for case classes and sealed trait hierarchies. It also includes derivation of "incomplete" case class instances (see my recent blog post for details).

Aliases

circe aims to simplify Argonaut's API by removing all operator aliases. This is largely a matter of personal taste, and may change in the future.

Documentation

The Argonaut documentation is good, but it could be better: to take just one example, it can be hard to tell at a glance why there are three different Cursor, HCursor, and ACursor types. In this particular case, circe introduces an abstraction over cursors that makes the relationship clearer and allows these three types to share API documentation.

Testing

I'd like to provide more complete test coverage (in part via Discipline), but it's early days for this.

Performance

circe aims to be more focused on performance. I'm still experimenting with the right balance, but I'm open to using mutability, inheritance, and all kinds of other horrible things under the hood if they make circe faster (the public API does not and will never expose any of this, though).

My initial benchmarks suggest this is at least kind of working (higher numbers are better):

Benchmark                       Mode  Cnt       Score       Error  Units

DecodingBenchmark.decodeFoosA  thrpt   80    1319.560 ±    41.424  ops/s
DecodingBenchmark.decodeFoosC  thrpt   80    2468.946 ±    24.422  ops/s
DecodingBenchmark.decodeFoosP  thrpt   80    1588.493 ±     8.353  ops/s

DecodingBenchmark.decodeIntsA  thrpt   80    7520.004 ±   121.529  ops/s
DecodingBenchmark.decodeIntsC  thrpt   80   13123.287 ±   184.418  ops/s
DecodingBenchmark.decodeIntsP  thrpt   80   11698.379 ±    19.362  ops/s

EncodingBenchmark.encodeFoosA  thrpt   80    5998.060 ±    34.348  ops/s
EncodingBenchmark.encodeFoosC  thrpt   80    6643.592 ±    33.206  ops/s
EncodingBenchmark.encodeFoosP  thrpt   80    2302.302 ±     5.027  ops/s

EncodingBenchmark.encodeIntsA  thrpt   80   59777.605 ±   109.100  ops/s
EncodingBenchmark.encodeIntsC  thrpt   80   95857.463 ±   198.219  ops/s
EncodingBenchmark.encodeIntsP  thrpt   80   57254.911 ±   211.518  ops/s

ParsingBenchmark.parseFoosA    thrpt   80    2437.300 ±   143.402  ops/s
ParsingBenchmark.parseFoosC    thrpt   80    3254.879 ±    25.084  ops/s
ParsingBenchmark.parseFoosCJ   thrpt   80    2760.303 ±     5.919  ops/s

ParsingBenchmark.parseIntsA    thrpt   80   11397.083 ±    73.684  ops/s
ParsingBenchmark.parseIntsC    thrpt   80   34432.010 ±    74.800  ops/s
ParsingBenchmark.parseIntsP    thrpt   80   14687.614 ±    86.518  ops/s

PrintingBenchmark.printFoosA   thrpt   80    2797.349 ±    19.894  ops/s
PrintingBenchmark.printFoosC   thrpt   80    3638.720 ±    11.466  ops/s
PrintingBenchmark.printFoosP   thrpt   80    7310.970 ±    28.968  ops/s

PrintingBenchmark.printIntsA   thrpt   80   15534.731 ±   142.490  ops/s
PrintingBenchmark.printIntsC   thrpt   80   22597.027 ±   134.339  ops/s
PrintingBenchmark.printIntsP   thrpt   80   74502.461 ±   519.386  ops/s

And allocation rates (lower is better):

Benchmark                                         Mode  Cnt        Score        Error   Units

DecodingBenchmark.decodeFoosA:gc.alloc.rate.norm thrpt   20  3732265.409 ±  35992.955    B/op
DecodingBenchmark.decodeFoosC:gc.alloc.rate.norm thrpt   20  1692832.673 ±      1.310    B/op
DecodingBenchmark.decodeFoosP:gc.alloc.rate.norm thrpt   20  2126657.073 ±      2.084    B/op

DecodingBenchmark.decodeIntsA:gc.alloc.rate.norm thrpt   20   623401.104 ±     22.410    B/op
DecodingBenchmark.decodeIntsC:gc.alloc.rate.norm thrpt   20   326512.124 ±      0.240    B/op
DecodingBenchmark.decodeIntsP:gc.alloc.rate.norm thrpt   20   369120.144 ±      0.279    B/op

EncodingBenchmark.encodeFoosA:gc.alloc.rate.norm thrpt   20   521917.560 ±      4.615    B/op
EncodingBenchmark.encodeFoosC:gc.alloc.rate.norm thrpt   20   414910.061 ±   3561.697    B/op
EncodingBenchmark.encodeFoosP:gc.alloc.rate.norm thrpt   20  1338208.745 ±      1.445    B/op

EncodingBenchmark.encodeIntsA:gc.alloc.rate.norm thrpt   20    80152.030 ±      0.058    B/op
EncodingBenchmark.encodeIntsC:gc.alloc.rate.norm thrpt   20    48360.018 ±      0.036    B/op
EncodingBenchmark.encodeIntsP:gc.alloc.rate.norm thrpt   20    71352.030 ±      0.057    B/op

ParsingBenchmark.parseFoosA:gc.alloc.rate.norm   thrpt   20  1450360.708 ±      1.402    B/op
ParsingBenchmark.parseFoosC:gc.alloc.rate.norm   thrpt   20   731299.376 ±      7.625    B/op
ParsingBenchmark.parseFoosP:gc.alloc.rate.norm   thrpt   20   982920.788 ±      1.530    B/op

ParsingBenchmark.parseIntsA:gc.alloc.rate.norm   thrpt   20   310280.146 ±      0.281    B/op
ParsingBenchmark.parseIntsC:gc.alloc.rate.norm   thrpt   20   105232.049 ±      0.095    B/op
ParsingBenchmark.parseIntsP:gc.alloc.rate.norm   thrpt   20   200464.116 ±      0.225    B/op

PrintingBenchmark.printFoosA:gc.alloc.rate.norm  thrpt   20   608120.589 ±      1.141    B/op
PrintingBenchmark.printFoosC:gc.alloc.rate.norm  thrpt   20   423696.465 ±      0.899    B/op
PrintingBenchmark.printFoosP:gc.alloc.rate.norm  thrpt   20   348896.235 ±      0.449    B/op

PrintingBenchmark.printIntsA:gc.alloc.rate.norm  thrpt   20   239712.111 ±      0.214    B/op
PrintingBenchmark.printIntsC:gc.alloc.rate.norm  thrpt   20    95408.075 ±      0.145    B/op
PrintingBenchmark.printIntsP:gc.alloc.rate.norm  thrpt   20    24080.022 ±      0.043    B/op

The Foos benchmarks work with a map containing case class values, and the Ints ones are an array of integers. C suffixes indicate circe's throughput, A is for Argonaut, and P is for play-json.

Usage

This section needs a lot of expanding.

Encoding and decoding

circe uses Encoder and Decoder type classes for encoding and decoding. An Encoder[A] instance provides a function that will convert any A to a JSON, and a Decoder[A] takes a Json value to either an exception or an A. circe provides implicit instances of these type classes for many types from the Scala standard library, including Int, String, and others. It also provides instances for List[A], Option[A], and other generic types, but only if A has an Encoder instance.

Transforming JSON

Suppose we have the following JSON document:

import io.circe._, io.circe.generic.auto._, io.circe.jawn._, io.circe.syntax._
import cats.data.Xor

val json: String = """
  {
    "id": "c730433b-082c-4984-9d66-855c243266f0",
    "name": "Foo",
    "counts": [1, 2, 3],
    "values": {
      "bar": true,
      "baz": 100.001,
      "qux": ["a", "b"]
    }
  }
"""

val doc: Json = parse(json).getOrElse(Json.empty)

In order to transform this document we need to create an HCursor with the focus at the document's root:

val cursor: HCursor = doc.hcursor

We can then use various operations to move the focus of the cursor around the document and to "modify" the current focus:

val reversedNameCursor: ACursor =
  cursor.downField("name").withFocus(_.mapString(_.reverse))

We can then return to the root of the document and return its value with top:

val reversedName: Option[Json] = reversedNameCursor.top

The result will contain the original document with the "name" field reversed.

Contributors and participation

circe is a fork of Argonaut, and if you find it at all useful, you should thank Mark Hibberd, Tony Morris, Kenji Yoshida, and the rest of the Argonaut contributors.

circe is currently maintained by Travis Brown, Alexandre Archambault, and Vladimir Kostyukov. After the 0.4.0 release, all pull requests will require two sign-offs by a maintainer to be merged.

The circe project supports the Typelevel code of conduct and wants all of its channels (Gitter, GitHub, etc.) to be welcoming environments for everyone.

Please see the contributors' guide for details on how to submit a pull request.

Warnings and known issues

  1. Please note that generic derivation will not work on Scala 2.10 unless you've added the Macro Paradise plugin to your build. See the quick start section above for details.
  2. In the 0.4.0 snapshot, the io.circe.generic package depends on the Shapeless 2.3.0 snapshot, which means that in principle it may stop working at any time. 0.4.0 will not be released until Shapeless 2.3.0 is available, and of course we will never publish a stable version with snapshot dependencies.
  3. For large or deeply-nested case classes and sealed trait hierarchies, the generic derivation provided by the generic subproject may stack overflow during compilation, which will result in the derived encoders or decoders simply not being found. Increasing the stack size available to the compiler (e.g. with sbt -J-Xss64m if you're using SBT) will help in many cases, but we have at least one report of a case where it doesn't.
  4. More generally, the generic derivation provided by the generic subproject works for a wide range of test cases, and is likely to just work for you, but it relies on macros (provided by Shapeless) that rely on compiler functionality that is not always perfectly robust ("SI-7046 is like playing roulette"), and if you're running into problems, it's likely that they're not your fault. Please file an issue here or ask a question on the Gitter channel, and we'll do our best to figure out whether the problem is something we can fix.

License

circe is licensed under the Apache License, Version 2.0 (the "License"); you may not use this software except in compliance with the License.

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.

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Yet another JSON library for Scala

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