graphql

package module

v0.0.2 Latest Latest Go to latest Published: Sep 28, 2022 License: MIT Imports: 13 Imported by: 37

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Repository

github.com/cli/shurcooL-graphql

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README ¶

graphql

Package graphql provides a GraphQL client implementation, and is forked from https://github.com/shurcooL/graphql.

Installation

graphql requires Go version 1.16 or later.

go get -u github.com/cli/shurcooL-graphql

Usage

Construct a GraphQL client, specifying the GraphQL server URL. Then, you can use it to make GraphQL queries and mutations.

client := graphql.NewClient("https://example.com/graphql", nil)
// Use client...

Authentication

Some GraphQL servers may require authentication. The graphql package does not directly handle authentication. Instead, when creating a new client, you're expected to pass an http.Client that performs authentication. The easiest and recommended way to do this is to use the golang.org/x/oauth2 package. You'll need an OAuth token with the right scopes. Then:

import "golang.org/x/oauth2"

func main() {
	src := oauth2.StaticTokenSource(
		&oauth2.Token{AccessToken: os.Getenv("GRAPHQL_TOKEN")},
	)
	httpClient := oauth2.NewClient(context.Background(), src)

	client := graphql.NewClient("https://example.com/graphql", httpClient)
	// Use client...

Simple Query

To make a GraphQL query, you need to define a corresponding Go type.

For example, to make the following GraphQL query:

query {
	me {
		name
	}
}

You can define this variable:

var query struct {
	Me struct {
		Name graphql.String
	}
}

Then call client.Query, passing a pointer to it:

err := client.Query(context.Background(), &query, nil)
if err != nil {
	// Handle error.
}
fmt.Println(query.Me.Name)

// Output: Luke Skywalker

Arguments and Variables

Often, you'll want to specify arguments on some fields. You can use the graphql struct field tag for this.

For example, to make the following GraphQL query:

{
	human(id: "1000") {
		name
		height(unit: METER)
	}
}

You can define this variable:

var q struct {
	Human struct {
		Name   graphql.String
		Height graphql.Float `graphql:"height(unit: METER)"`
	} `graphql:"human(id: \"1000\")"`
}

Then call client.Query:

err := client.Query(context.Background(), &q, nil)
if err != nil {
	// Handle error.
}
fmt.Println(q.Human.Name)
fmt.Println(q.Human.Height)

// Output:
// Luke Skywalker
// 1.72

However, that'll only work if the arguments are constant and known in advance. Otherwise, you will need to make use of variables. Replace the constants in the struct field tag with variable names:

var q struct {
	Human struct {
		Name   graphql.String
		Height graphql.Float `graphql:"height(unit: $unit)"`
	} `graphql:"human(id: $id)"`
}

Then, define a variables map with their values:

variables := map[string]interface{}{
	"id":   graphql.ID(id),
	"unit": starwars.LengthUnit("METER"),
}

Finally, call client.Query providing variables:

err := client.Query(context.Background(), &q, variables)
if err != nil {
	// Handle error.
}

Inline Fragments

Some GraphQL queries contain inline fragments. You can use the graphql struct field tag to express them.

For example, to make the following GraphQL query:

{
	hero(episode: "JEDI") {
		name
		... on Droid {
			primaryFunction
		}
		... on Human {
			height
		}
	}
}

You can define this variable:

var q struct {
	Hero struct {
		Name  graphql.String
		Droid struct {
			PrimaryFunction graphql.String
		} `graphql:"... on Droid"`
		Human struct {
			Height graphql.Float
		} `graphql:"... on Human"`
	} `graphql:"hero(episode: \"JEDI\")"`
}

Alternatively, you can define the struct types corresponding to inline fragments, and use them as embedded fields in your query:

type (
	DroidFragment struct {
		PrimaryFunction graphql.String
	}
	HumanFragment struct {
		Height graphql.Float
	}
)

var q struct {
	Hero struct {
		Name          graphql.String
		DroidFragment `graphql:"... on Droid"`
		HumanFragment `graphql:"... on Human"`
	} `graphql:"hero(episode: \"JEDI\")"`
}

Then call client.Query:

err := client.Query(context.Background(), &q, nil)
if err != nil {
	// Handle error.
}
fmt.Println(q.Hero.Name)
fmt.Println(q.Hero.PrimaryFunction)
fmt.Println(q.Hero.Height)

// Output:
// R2-D2
// Astromech
// 0

Mutations

Mutations often require information that you can only find out by performing a query first. Let's suppose you've already done that.

For example, to make the following GraphQL mutation:

mutation($ep: Episode!, $review: ReviewInput!) {
	createReview(episode: $ep, review: $review) {
		stars
		commentary
	}
}
variables {
	"ep": "JEDI",
	"review": {
		"stars": 5,
		"commentary": "This is a great movie!"
	}
}

You can define:

var m struct {
	CreateReview struct {
		Stars      graphql.Int
		Commentary graphql.String
	} `graphql:"createReview(episode: $ep, review: $review)"`
}
variables := map[string]interface{}{
	"ep": starwars.Episode("JEDI"),
	"review": starwars.ReviewInput{
		Stars:      graphql.Int(5),
		Commentary: graphql.String("This is a great movie!"),
	},
}

Then call client.Mutate:

err := client.Mutate(context.Background(), &m, variables)
if err != nil {
	// Handle error.
}
fmt.Printf("Created a %v star review: %v\n", m.CreateReview.Stars, m.CreateReview.Commentary)

// Output:
// Created a 5 star review: This is a great movie!

License

MIT License

Documentation ¶

Index ¶

type Boolean
- func NewBoolean(v Boolean) *Boolean
type Client
- func NewClient(url string, httpClient *http.Client) *Client
type Float
- func NewFloat(v Float) *Float
type ID
- func NewID(v ID) *ID
type Int
- func NewInt(v Int) *Int
type String
- func NewString(v String) *String

Constants ¶

This section is empty.

Variables ¶

This section is empty.

Functions ¶

This section is empty.

Types ¶

type Boolean ¶

type Boolean bool

Boolean represents true or false values.

func NewBoolean ¶

func NewBoolean(v Boolean) *Boolean

NewBoolean is a helper to make a new *Boolean.

type Client ¶

type Client struct {
	// contains filtered or unexported fields
}

Client is a GraphQL client.

func NewClient ¶

func NewClient(url string, httpClient *http.Client) *Client

NewClient creates a GraphQL client targeting the specified GraphQL server URL. If httpClient is nil, then http.DefaultClient is used.

func (*Client) Mutate ¶

func (c *Client) Mutate(ctx context.Context, m interface{}, variables map[string]interface{}) error

Mutate executes a single GraphQL mutation request, with a mutation derived from m, populating the response into it. Argument m should be a pointer to struct that corresponds to the GraphQL schema.

func (*Client) MutateNamed ¶

func (c *Client) MutateNamed(ctx context.Context, queryName string, m interface{}, variables map[string]interface{}) error

MutateNamed is the same as Mutate but allows a name to be specified for the mutation.

func (*Client) Query ¶

func (c *Client) Query(ctx context.Context, q interface{}, variables map[string]interface{}) error

Query executes a single GraphQL query request, with a query derived from q, populating the response into it. Argument q should be a pointer to struct that corresponds to the GraphQL schema.

func (*Client) QueryNamed ¶

func (c *Client) QueryNamed(ctx context.Context, queryName string, q interface{}, variables map[string]interface{}) error

QueryNamed is the same as Query but allows a name to be specified for the query.

type Float ¶

type Float float64

Float represents signed double-precision fractional values as specified by IEEE 754.

func NewFloat ¶

func NewFloat(v Float) *Float

NewFloat is a helper to make a new *Float.

type ID ¶

type ID interface{}

ID represents a unique identifier that is Base64 obfuscated. It is often used to refetch an object or as key for a cache. The ID type appears in a JSON response as a String; however, it is not intended to be human-readable. When expected as an input type, any string (such as "VXNlci0xMA==") or integer (such as 4) input value will be accepted as an ID.

func NewID ¶

func NewID(v ID) *ID

NewID is a helper to make a new *ID.

type Int ¶

type Int int32

Int represents non-fractional signed whole numeric values. Int can represent values between -(2^31) and 2^31 - 1.

func NewInt ¶

func NewInt(v Int) *Int

NewInt is a helper to make a new *Int.

type String ¶

type String string

String represents textual data as UTF-8 character sequences. This type is most often used by GraphQL to represent free-form human-readable text.

func NewString ¶

func NewString(v String) *String

NewString is a helper to make a new *String.

Source Files ¶

View all Source files

Directories ¶

Path	Synopsis
ident Package ident provides functions for parsing and converting identifier names between various naming convention.	Package ident provides functions for parsing and converting identifier names between various naming convention.
internal
jsonutil Package jsonutil provides a function for decoding JSON into a GraphQL query data structure.	Package jsonutil provides a function for decoding JSON into a GraphQL query data structure.

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