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https://github.com/tilt-dev/json-patch

A Go library to apply RFC6902 patches and create and apply RFC7386 patches
https://github.com/tilt-dev/json-patch

Last synced: 5 months ago
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A Go library to apply RFC6902 patches and create and apply RFC7386 patches

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README 

          
# JSON-Patch

`jsonpatch` is a library which provides functionality for both applying

[RFC6902 JSON patches](http://tools.ietf.org/html/rfc6902) against documents, as

well as for calculating & applying [RFC7396 JSON merge patches](https://tools.ietf.org/html/rfc7396).



[![GoDoc](https://godoc.org/github.com/evanphx/json-patch?status.svg)](http://godoc.org/github.com/evanphx/json-patch)

[![Build Status](https://travis-ci.org/evanphx/json-patch.svg?branch=master)](https://travis-ci.org/evanphx/json-patch)

[![Report Card](https://goreportcard.com/badge/github.com/evanphx/json-patch)](https://goreportcard.com/report/github.com/evanphx/json-patch)



# Get It!



**Latest and greatest**: 

```bash

go get -u github.com/evanphx/json-patch

```



**Stable Versions**:

* Version 4: `go get -u gopkg.in/evanphx/json-patch.v4`



(previous versions below `v3` are unavailable)



# Use It!

* [Create and apply a merge patch](#create-and-apply-a-merge-patch)

* [Create and apply a JSON Patch](#create-and-apply-a-json-patch)

* [Comparing JSON documents](#comparing-json-documents)

* [Combine merge patches](#combine-merge-patches)



# Configuration



* There is a global configuration variable `jsonpatch.SupportNegativeIndices`.

  This defaults to `true` and enables the non-standard practice of allowing

  negative indices to mean indices starting at the end of an array. This

  functionality can be disabled by setting `jsonpatch.SupportNegativeIndices =

  false`.



* There is a global configuration variable `jsonpatch.AccumulatedCopySizeLimit`,

  which limits the total size increase in bytes caused by "copy" operations in a

  patch. It defaults to 0, which means there is no limit.



## Create and apply a merge patch

Given both an original JSON document and a modified JSON document, you can create

a [Merge Patch](https://tools.ietf.org/html/rfc7396) document. 



It can describe the changes needed to convert from the original to the 

modified JSON document.



Once you have a merge patch, you can apply it to other JSON documents using the

`jsonpatch.MergePatch(document, patch)` function.



```go

package main



import (

	"fmt"



	jsonpatch "github.com/evanphx/json-patch"

)



func main() {

	// Let's create a merge patch from these two documents...

	original := []byte(`{"name": "John", "age": 24, "height": 3.21}`)

	target := []byte(`{"name": "Jane", "age": 24}`)



	patch, err := jsonpatch.CreateMergePatch(original, target)

	if err != nil {

		panic(err)

	}



	// Now lets apply the patch against a different JSON document...



	alternative := []byte(`{"name": "Tina", "age": 28, "height": 3.75}`)

	modifiedAlternative, err := jsonpatch.MergePatch(alternative, patch)



	fmt.Printf("patch document:   %s\n", patch)

	fmt.Printf("updated alternative doc: %s\n", modifiedAlternative)

}

```



When ran, you get the following output:



```bash

$ go run main.go

patch document:   {"height":null,"name":"Jane"}

updated tina doc: {"age":28,"name":"Jane"}

```



## Create and apply a JSON Patch

You can create patch objects using `DecodePatch([]byte)`, which can then 

be applied against JSON documents.



The following is an example of creating a patch from two operations, and

applying it against a JSON document.



```go

package main



import (

	"fmt"



	jsonpatch "github.com/evanphx/json-patch"

)



func main() {

	original := []byte(`{"name": "John", "age": 24, "height": 3.21}`)

	patchJSON := []byte(`[

		{"op": "replace", "path": "/name", "value": "Jane"},

		{"op": "remove", "path": "/height"}

	]`)



	patch, err := jsonpatch.DecodePatch(patchJSON)

	if err != nil {

		panic(err)

	}



	modified, err := patch.Apply(original)

	if err != nil {

		panic(err)

	}



	fmt.Printf("Original document: %s\n", original)

	fmt.Printf("Modified document: %s\n", modified)

}

```



When ran, you get the following output:



```bash

$ go run main.go

Original document: {"name": "John", "age": 24, "height": 3.21}

Modified document: {"age":24,"name":"Jane"}

```



## Comparing JSON documents

Due to potential whitespace and ordering differences, one cannot simply compare

JSON strings or byte-arrays directly. 



As such, you can instead use `jsonpatch.Equal(document1, document2)` to 

determine if two JSON documents are _structurally_ equal. This ignores

whitespace differences, and key-value ordering.



```go

package main



import (

	"fmt"



	jsonpatch "github.com/evanphx/json-patch"

)



func main() {

	original := []byte(`{"name": "John", "age": 24, "height": 3.21}`)

	similar := []byte(`

		{

			"age": 24,

			"height": 3.21,

			"name": "John"

		}

	`)

	different := []byte(`{"name": "Jane", "age": 20, "height": 3.37}`)



	if jsonpatch.Equal(original, similar) {

		fmt.Println(`"original" is structurally equal to "similar"`)

	}



	if !jsonpatch.Equal(original, different) {

		fmt.Println(`"original" is _not_ structurally equal to "different"`)

	}

}

```



When ran, you get the following output:

```bash

$ go run main.go

"original" is structurally equal to "similar"

"original" is _not_ structurally equal to "different"

```



## Combine merge patches

Given two JSON merge patch documents, it is possible to combine them into a 

single merge patch which can describe both set of changes.



The resulting merge patch can be used such that applying it results in a

document structurally similar as merging each merge patch to the document

in succession. 



```go

package main



import (

	"fmt"



	jsonpatch "github.com/evanphx/json-patch"

)



func main() {

	original := []byte(`{"name": "John", "age": 24, "height": 3.21}`)



	nameAndHeight := []byte(`{"height":null,"name":"Jane"}`)

	ageAndEyes := []byte(`{"age":4.23,"eyes":"blue"}`)



	// Let's combine these merge patch documents...

	combinedPatch, err := jsonpatch.MergeMergePatches(nameAndHeight, ageAndEyes)

	if err != nil {

		panic(err)

	}



	// Apply each patch individual against the original document

	withoutCombinedPatch, err := jsonpatch.MergePatch(original, nameAndHeight)

	if err != nil {

		panic(err)

	}



	withoutCombinedPatch, err = jsonpatch.MergePatch(withoutCombinedPatch, ageAndEyes)

	if err != nil {

		panic(err)

	}



	// Apply the combined patch against the original document



	withCombinedPatch, err := jsonpatch.MergePatch(original, combinedPatch)

	if err != nil {

		panic(err)

	}



	// Do both result in the same thing? They should!

	if jsonpatch.Equal(withCombinedPatch, withoutCombinedPatch) {

		fmt.Println("Both JSON documents are structurally the same!")

	}



	fmt.Printf("combined merge patch: %s", combinedPatch)

}

```



When ran, you get the following output:

```bash

$ go run main.go

Both JSON documents are structurally the same!

combined merge patch: {"age":4.23,"eyes":"blue","height":null,"name":"Jane"}

```



# CLI for comparing JSON documents

You can install the commandline program `json-patch`.



This program can take multiple JSON patch documents as arguments, 

and fed a JSON document from `stdin`. It will apply the patch(es) against 

the document and output the modified doc.



**patch.1.json**

```json

[

    {"op": "replace", "path": "/name", "value": "Jane"},

    {"op": "remove", "path": "/height"}

]

```



**patch.2.json**

```json

[

    {"op": "add", "path": "/address", "value": "123 Main St"},

    {"op": "replace", "path": "/age", "value": "21"}

]

```



**document.json**

```json

{

    "name": "John",

    "age": 24,

    "height": 3.21

}

```



You can then run:



```bash

$ go install github.com/evanphx/json-patch/cmd/json-patch

$ cat document.json | json-patch -p patch.1.json -p patch.2.json

{"address":"123 Main St","age":"21","name":"Jane"}

```



# Help It!

Contributions are welcomed! Leave [an issue](https://github.com/evanphx/json-patch/issues)

or [create a PR](https://github.com/evanphx/json-patch/compare).



Before creating a pull request, we'd ask that you make sure tests are passing

and that you have added new tests when applicable.



Contributors can run tests using:



```bash

go test -cover ./...

```



Builds for pull requests are tested automatically 

using [TravisCI](https://travis-ci.org/evanphx/json-patch).