plan

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Published: Jul 17, 2024 License: MIT Imports: 24 Imported by: 6

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Index

Constants

View Source
const (
	ReasonStage1Unique                = "stage1: unique"
	ReasonStage1SameSourceParent      = "stage1: same source parent of unique node"
	ReasonStage1SameSourceLeafChild   = "stage1: same source leaf child of unique node"
	ReasonStage1SameSourceLeafSibling = "stage1: same source leaf sibling of unique node"

	ReasonStage2SameSourceNodeOfSelectedParent  = "stage2: node on the same source as selected parent"
	ReasonStage2SameSourceNodeOfSelectedChild   = "stage2: node on the same source as selected child"
	ReasonStage2SameSourceNodeOfSelectedSibling = "stage2: node on the same source as selected sibling"

	ReasonStage3SelectAvailableNode                            = "stage3: select first available node"
	ReasonStage3SelectNodeHavingPossibleChildsOnSameDataSource = "stage3: select non leaf node which have possible child selections on the same source"

	ReasonKeyRequirementProvidedByPlanner = "provided by planner as required by @key"
)

Variables

View Source
var (
	FieldDoesntHaveSelectionSetErr          = errors.New("unexpected error: field does not have a selection set")
	InlineFragmentDoesntHaveSelectionSetErr = errors.New("unexpected error: inline fragment does not have a selection set")
	InlineFragmentTypeIsNotExistsErr        = errors.New("unexpected error: inline fragment type condition does not exists")
)

Functions

func AnalyzePlanKind

func AnalyzePlanKind(operation, definition *ast.Document, operationName string) (operationType ast.OperationType, streaming bool, error error)

func RequiredFieldsFragment

func RequiredFieldsFragment(typeName, requiredFields string, includeTypename bool) (*ast.Document, *operationreport.Report)

func TreeNodeID

func TreeNodeID(fieldRef int) uint

Types

type ArgumentConfiguration

type ArgumentConfiguration struct {
	Name         string
	SourceType   SourceType
	SourcePath   []string
	RenderConfig ArgumentRenderConfig
	RenameTypeTo string
}

type ArgumentRenderConfig

type ArgumentRenderConfig string

ArgumentRenderConfig is used to determine how an argument should be rendered

const (
	RenderArgumentDefault        ArgumentRenderConfig = ""
	RenderArgumentAsArrayCSV     ArgumentRenderConfig = "render_argument_as_array_csv"
	RenderArgumentAsGraphQLValue ArgumentRenderConfig = "render_argument_as_graphql_value"
	RenderArgumentAsJSONValue    ArgumentRenderConfig = "render_argument_as_json_value"
)

type ArgumentUsageInfo

type ArgumentUsageInfo struct {
	FieldName         string
	EnclosingTypeName string
	ArgumentName      string
	ArgumentTypeName  string
}

type ArgumentsConfigurations

type ArgumentsConfigurations []ArgumentConfiguration

func (ArgumentsConfigurations) ForName

type Configuration

type Configuration struct {
	Logger                     abstractlogger.Logger
	DefaultFlushIntervalMillis int64
	DataSources                []DataSource
	Fields                     FieldConfigurations
	Types                      TypeConfigurations
	// DisableResolveFieldPositions should be set to true for testing purposes
	// This setting removes position information from all fields
	// In production, this should be set to false so that error messages are easier to understand
	DisableResolveFieldPositions bool
	CustomResolveMap             map[string]resolve.CustomResolve

	// Debug - configure debug options
	Debug DebugConfiguration
	// IncludeInfo will add additional information to the plan,
	// e.g. the origin of a field, possible types, etc.
	// This information is required to compute the schema usage info from a plan
	IncludeInfo bool

	MinifySubgraphOperations bool
}

type DSHash

type DSHash uint64

type DataSource

type DataSource interface {
	FederationInfo
	NodesInfo
	DirectivesConfigurations
	Id() string
	Hash() DSHash
	FederationConfiguration() FederationMetaData
	CreatePlannerConfiguration(logger abstractlogger.Logger, fetchConfig *objectFetchConfiguration, pathConfig *plannerPathsConfiguration) PlannerConfiguration
}

type DataSourceBehavior

type DataSourceBehavior interface {
	DataSourcePlanningBehavior() DataSourcePlanningBehavior
	// DownstreamResponseFieldAlias allows the DataSourcePlanner to overwrite the response path with an alias
	// It's required to set OverrideFieldPathFromAlias to true
	// This function is useful in the following scenario
	// 1. The downstream Query doesn't contain an alias
	// 2. The path configuration rewrites the field to an existing field
	// 3. The DataSourcePlanner is using an alias to the upstream
	// Example:
	//
	// type Query {
	//		country: Country
	//		countryAlias: Country
	// }
	//
	// Both, country and countryAlias have a path in the FieldConfiguration of "country"
	// In theory, they would be treated as the same field
	// However, by using DownstreamResponseFieldAlias, it's possible for the DataSourcePlanner to use an alias for countryAlias.
	// In this case, the response would contain both, country and countryAlias fields in the response.
	// At the same time, the downstream Query would only expect the response on the path "country",
	// as both country and countryAlias have a mapping to the path "country".
	// The DataSourcePlanner could keep track that it rewrites the upstream query and use DownstreamResponseFieldAlias
	// to indicate to the Planner to expect the response for countryAlias on the path "countryAlias" instead of "country".
	DownstreamResponseFieldAlias(downstreamFieldRef int) (alias string, exists bool)
}

type DataSourceConfiguration

type DataSourceConfiguration[T any] interface {
	DataSource
	CustomConfiguration() T
}

func NewDataSourceConfiguration

func NewDataSourceConfiguration[T any](id string, factory PlannerFactory[T], metadata *DataSourceMetadata, customConfig T) (DataSourceConfiguration[T], error)

type DataSourceDebugger

type DataSourceDebugger interface {
	astvisitor.VisitorIdentifier
	DebugPrint(args ...interface{})
	EnableDebug()
	EnableQueryPlanLogging()
}

type DataSourceFetchPlanner

type DataSourceFetchPlanner interface {
	ConfigureFetch() resolve.FetchConfiguration
	ConfigureSubscription() SubscriptionConfiguration
}

type DataSourceFilter

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

func NewDataSourceFilter

func NewDataSourceFilter(operation, definition *ast.Document, report *operationreport.Report) *DataSourceFilter

func (*DataSourceFilter) EnableSelectionReasons

func (f *DataSourceFilter) EnableSelectionReasons()

func (*DataSourceFilter) FilterDataSources

func (f *DataSourceFilter) FilterDataSources(dataSources []DataSource, existingNodes *NodeSuggestions, hints ...NodeSuggestionHint) (used []DataSource, suggestions *NodeSuggestions)

type DataSourceMetadata

type DataSourceMetadata struct {
	// FederationMetaData - describes the behavior of the DataSource in the context of the Federation
	FederationMetaData

	// RootNodes - defines the nodes where the responsibility of the DataSource begins
	// RootNode is a node from which you could start a query or a subquery
	// Note: for federation root nodes are root query type fields, entity type fields, and entity object fields
	RootNodes TypeFields
	// ChildNodes - describes additional fields which will be requested along with fields which has a datasources
	// They are always required for the Graphql datasources cause each field could have its own datasource
	// For any flat datasource like HTTP/REST or GRPC we could not request fewer fields, as we always get a full response
	// Note: for federation child nodes are non-entity type fields and interface type fields
	// Note: Unions are not present in the child or root nodes
	ChildNodes TypeFields
	Directives *DirectiveConfigurations
}

func (*DataSourceMetadata) DirectiveConfigurations

func (d *DataSourceMetadata) DirectiveConfigurations() *DirectiveConfigurations

func (*DataSourceMetadata) HasChildNode

func (d *DataSourceMetadata) HasChildNode(typeName, fieldName string) bool

func (*DataSourceMetadata) HasChildNodeWithTypename

func (d *DataSourceMetadata) HasChildNodeWithTypename(typeName string) bool

func (*DataSourceMetadata) HasRootNode

func (d *DataSourceMetadata) HasRootNode(typeName, fieldName string) bool

func (*DataSourceMetadata) HasRootNodeWithTypename

func (d *DataSourceMetadata) HasRootNodeWithTypename(typeName string) bool

func (*DataSourceMetadata) ListChildNodes

func (d *DataSourceMetadata) ListChildNodes() TypeFields

func (*DataSourceMetadata) ListRootNodes

func (d *DataSourceMetadata) ListRootNodes() TypeFields

type DataSourcePlanner

type DataSourcePlanner[T any] interface {
	DataSourceFetchPlanner
	DataSourceBehavior
	Register(visitor *Visitor, configuration DataSourceConfiguration[T], dataSourcePlannerConfiguration DataSourcePlannerConfiguration) error
	UpstreamSchema(dataSourceConfig DataSourceConfiguration[T]) (doc *ast.Document, ok bool)
}

type DataSourcePlannerConfiguration

type DataSourcePlannerConfiguration struct {
	RequiredFields FederationFieldConfigurations
	ProvidedFields *NodeSuggestions
	ParentPath     string
	PathType       PlannerPathType
	IsNested       bool
}

func (*DataSourcePlannerConfiguration) HasRequiredFields

func (c *DataSourcePlannerConfiguration) HasRequiredFields() bool

type DataSourcePlanningBehavior

type DataSourcePlanningBehavior struct {
	// MergeAliasedRootNodes will reuse a data source for multiple root fields with aliases if true.
	// Example:
	//  {
	//    rootField
	//    alias: rootField
	//  }
	// On dynamic data sources (e.g. GraphQL, SQL, ...) this should return true and for
	// static data sources (e.g. REST, static, GRPC...) it should be false.
	MergeAliasedRootNodes bool
	// OverrideFieldPathFromAlias will let the planner know if the response path should also be aliased (= true)
	// or not (= false)
	// Example:
	//  {
	//    rootField
	//    alias: original
	//  }
	// When true expected response will be { "rootField": ..., "alias": ... }
	// When false expected response will be { "rootField": ..., "original": ... }
	OverrideFieldPathFromAlias bool
	// IncludeTypeNameFields should be set to true if the planner wants to get EnterField & LeaveField events
	// for __typename fields
	IncludeTypeNameFields bool
}

type DebugConfiguration

type DebugConfiguration struct {
	PrintOperationTransformations         bool
	PrintOperationEnableASTRefs           bool
	PrintPlanningPaths                    bool
	PrintQueryPlans                       bool
	PrintNodeSuggestions                  bool
	EnableNodeSuggestionsSelectionReasons bool

	ConfigurationVisitor bool
	PlanningVisitor      bool
	DatasourceVisitor    bool
}

type DirectiveConfiguration

type DirectiveConfiguration struct {
	DirectiveName string
	RenameTo      string
}

type DirectiveConfigurations

type DirectiveConfigurations []DirectiveConfiguration

func NewDirectiveConfigurations

func NewDirectiveConfigurations(configs []DirectiveConfiguration) *DirectiveConfigurations

func (*DirectiveConfigurations) RenameTypeNameOnMatchBytes

func (d *DirectiveConfigurations) RenameTypeNameOnMatchBytes(directiveName []byte) []byte

func (*DirectiveConfigurations) RenameTypeNameOnMatchStr

func (d *DirectiveConfigurations) RenameTypeNameOnMatchStr(directiveName string) string

type DirectivesConfigurations

type DirectivesConfigurations interface {
	DirectiveConfigurations() *DirectiveConfigurations
}

type EntityInterfaceConfiguration

type EntityInterfaceConfiguration struct {
	InterfaceTypeName string
	ConcreteTypeNames []string
}

type FederationFieldConfiguration

type FederationFieldConfiguration struct {
	TypeName              string
	FieldName             string
	SelectionSet          string
	DisableEntityResolver bool // applicable only for the keys. If true it means that the given entity could not be resolved by this key.
}

type FederationFieldConfigurations

type FederationFieldConfigurations []FederationFieldConfiguration

func (*FederationFieldConfigurations) AppendIfNotPresent

func (f *FederationFieldConfigurations) AppendIfNotPresent(config FederationFieldConfiguration) (added bool)

func (*FederationFieldConfigurations) FilterByTypeAndResolvability

func (f *FederationFieldConfigurations) FilterByTypeAndResolvability(typeName string, skipUnresovable bool) (out []FederationFieldConfiguration)

func (*FederationFieldConfigurations) FirstByTypeAndField

func (f *FederationFieldConfigurations) FirstByTypeAndField(typeName, fieldName string) (cfg FederationFieldConfiguration, exists bool)

func (*FederationFieldConfigurations) HasSelectionSet

func (f *FederationFieldConfigurations) HasSelectionSet(typeName, fieldName, selectionSet string) bool

func (*FederationFieldConfigurations) UniqueTypes

func (f *FederationFieldConfigurations) UniqueTypes() (out []string)

type FederationInfo

type FederationInfo interface {
	HasKeyRequirement(typeName, requiresFields string) bool
	RequiredFieldsByKey(typeName string) []FederationFieldConfiguration
	RequiredFieldsByRequires(typeName, fieldName string) (cfg FederationFieldConfiguration, exists bool)
	HasEntity(typeName string) bool
}

type FederationMetaData

type FederationMetaData struct {
	Keys             FederationFieldConfigurations
	Requires         FederationFieldConfigurations
	Provides         FederationFieldConfigurations
	EntityInterfaces []EntityInterfaceConfiguration
	InterfaceObjects []EntityInterfaceConfiguration
}

func (*FederationMetaData) HasEntity

func (d *FederationMetaData) HasEntity(typeName string) bool

func (*FederationMetaData) HasKeyRequirement

func (d *FederationMetaData) HasKeyRequirement(typeName, requiresFields string) bool

func (*FederationMetaData) RequiredFieldsByKey

func (d *FederationMetaData) RequiredFieldsByKey(typeName string) []FederationFieldConfiguration

func (*FederationMetaData) RequiredFieldsByRequires

func (d *FederationMetaData) RequiredFieldsByRequires(typeName, fieldName string) (cfg FederationFieldConfiguration, exists bool)

type FieldConfiguration

type FieldConfiguration struct {
	TypeName  string
	FieldName string
	// DisableDefaultMapping - instructs planner whether to use path mapping coming from Path field
	DisableDefaultMapping bool
	// Path - represents a json path to lookup for a field value in response json
	Path      []string
	Arguments ArgumentsConfigurations
	// UnescapeResponseJson set to true will allow fields (String,List,Object)
	// to be resolved from an escaped JSON string
	// e.g. {"response":"{\"foo\":\"bar\"}"} will be returned as {"foo":"bar"} when path is "response"
	// This way, it is possible to resolve a JSON string as part of the response without extra String encoding of the JSON
	UnescapeResponseJson bool
	// HasAuthorizationRule needs to be set to true if the Authorizer should be called for this field
	HasAuthorizationRule bool

	SubscriptionFilterCondition *SubscriptionFilterCondition
}

type FieldConfigurations

type FieldConfigurations []FieldConfiguration

func (FieldConfigurations) ForTypeField

func (f FieldConfigurations) ForTypeField(typeName, fieldName string) *FieldConfiguration

type InputTypeFieldUsageInfo

type InputTypeFieldUsageInfo struct {
	// IsRootVariable is true if the field is a root variable, e.g. $id
	IsRootVariable bool
	// Count is the number of times this field usage was captured, it's usually 1 but can be higher if the field is used multiple times
	Count int
	// FieldName is the name of the field, e.g. "id" for this selection set: { id }
	FieldName string
	// FieldTypeName is the name of the field type, e.g. "ID" for this selection set: { id }
	FieldTypeName string
	// EnclosingTypeNames is a list of all possible enclosing types, e.g. ["User"] for the "id" field: { user { id } }
	EnclosingTypeNames []string
	// IsEnumField is true if the field is an enum
	IsEnumField bool
	// EnumValues is a list of all enum values that were used for this field
	EnumValues []string
}

func (*InputTypeFieldUsageInfo) Equals

type Kind

type Kind int
const (
	SynchronousResponseKind Kind = iota + 1
	SubscriptionResponseKind
)

type NodeSuggestion

type NodeSuggestion struct {
	TypeName       string
	FieldName      string
	DataSourceHash DSHash
	Path           string
	ParentPath     string
	IsRootNode     bool
	LessPreferable bool // is true in case the node is an entity root node and has a key with disabled resolver

	Selected         bool
	SelectionReasons []string
	// contains filtered or unexported fields
}

func (*NodeSuggestion) String

func (n *NodeSuggestion) String() string

type NodeSuggestionHint

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

type NodeSuggestions

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

func NewNodeSuggestions

func NewNodeSuggestions() *NodeSuggestions

func NewNodeSuggestionsWithSize

func NewNodeSuggestionsWithSize(size int) *NodeSuggestions

func (*NodeSuggestions) AddItems

func (f *NodeSuggestions) AddItems(items ...*NodeSuggestion)

func (*NodeSuggestions) AddSeenField

func (f *NodeSuggestions) AddSeenField(fieldRef int)

func (*NodeSuggestions) HasSuggestionForPath

func (f *NodeSuggestions) HasSuggestionForPath(typeName, fieldName, path string) (dsHash DSHash, ok bool)

func (*NodeSuggestions) IsFieldSeen

func (f *NodeSuggestions) IsFieldSeen(fieldRef int) bool

func (*NodeSuggestions) SuggestionsForPath

func (f *NodeSuggestions) SuggestionsForPath(typeName, fieldName, path string) (suggestions []*NodeSuggestion)

type NodesAccess

type NodesAccess interface {
	ListRootNodes() TypeFields
	ListChildNodes() TypeFields
}

type NodesInfo

type NodesInfo interface {
	HasRootNode(typeName, fieldName string) bool
	HasRootNodeWithTypename(typeName string) bool
	HasChildNode(typeName, fieldName string) bool
	HasChildNodeWithTypename(typeName string) bool
}

type PathType

type PathType int
const (
	PathTypeField PathType = iota
	PathTypeFragment
	PathTypeParent
)

type Plan

type Plan interface {
	PlanKind() Kind
	SetFlushInterval(interval int64)
}

type Planner

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

func NewPlanner

func NewPlanner(config Configuration) (*Planner, error)

NewPlanner creates a new Planner from the Configuration NOTE: All stateful DataSources should be initiated with the same context.Context object provided to the PlannerFactory. The context.Context object is used to determine the lifecycle of stateful DataSources It's important to note that stateful DataSources must be closed when they are no longer being used Stateful DataSources could be those that initiate a WebSocket connection to an origin, a database client, a streaming client, etc... To ensure that there are no memory leaks, it's therefore important to add a cancel func or timeout to the context.Context At the time when the resolver and all operations should be garbage collected, ensure to first cancel or timeout the ctx object If you don't cancel the context.Context, the goroutines will run indefinitely and there's no reference left to stop them

func (*Planner) Plan

func (p *Planner) Plan(operation, definition *ast.Document, operationName string, report *operationreport.Report) (plan Plan)

func (*Planner) SetConfig

func (p *Planner) SetConfig(config Configuration)

func (*Planner) SetDebugConfig

func (p *Planner) SetDebugConfig(config DebugConfiguration)

type PlannerConfiguration

type PlannerConfiguration interface {
	DataSourceBehavior
	PlannerPathConfiguration

	ObjectFetchConfiguration() *objectFetchConfiguration
	DataSourceConfiguration() DataSource

	RequiredFields() *FederationFieldConfigurations
	ProvidedFields() *NodeSuggestions

	Debugger() (d DataSourceDebugger, ok bool)
	Planner() any
	Register(visitor *Visitor) error
	UpstreamSchema() (doc *ast.Document, ok bool)
}

type PlannerFactory

type PlannerFactory[DataSourceSpecificConfiguration any] interface {
	// Planner creates a new DataSourcePlanner
	Planner(logger abstractlogger.Logger) DataSourcePlanner[DataSourceSpecificConfiguration]
	// Context returns the execution context of the factory
	// For stateful datasources, the factory should contain cancellable global execution context
	// This method serves as a flag that factory should have a context
	Context() context.Context
}

PlannerFactory is the factory for the creation of the concrete DataSourcePlanner For stateful datasources, the factory should contain execution context Once the context gets cancelled, all stateful DataSources must close their connections and cleanup themselves.

type PlannerPathConfiguration

type PlannerPathConfiguration interface {
	ForEachPath(each func(*pathConfiguration) (shouldBreak bool))
	RemoveLeafFragmentPaths() (hasRemovals bool)
	ParentPath() string
	AddPath(configuration pathConfiguration)
	IsNestedPlanner() bool
	HasPath(path string) bool
	HasPathWithFieldRef(fieldRef int) bool
	HasFragmentPath(fragmentRef int) bool
	ShouldWalkFieldsOnPath(path string, typeName string) bool
	HasParent(parent string) bool
}

type PlannerPathType

type PlannerPathType int
const (
	PlannerPathObject PlannerPathType = iota
	PlannerPathArrayItem
	PlannerPathNestedInArray
)

type SchemaUsageInfo

type SchemaUsageInfo struct {
	// OperationType is the type of the operation that was executed, e.g. query, mutation, subscription
	OperationType ast.OperationType
	// TypeFields is a list of all fields that were used to define the response shape
	TypeFields []TypeFieldUsageInfo
	// Arguments is a list of all arguments that were used on response fields
	Arguments []ArgumentUsageInfo
	// InputTypeFields is a list of all fields that were used to define the input shape
	InputTypeFields []InputTypeFieldUsageInfo
}

func GetSchemaUsageInfo

func GetSchemaUsageInfo(plan Plan, operation, definition *ast.Document, variables []byte) (*SchemaUsageInfo, error)

type SourceType

type SourceType string

SourceType is used to determine the source of an argument

const (
	ObjectFieldSource   SourceType = "object_field"
	FieldArgumentSource SourceType = "field_argument"
)

type SubgraphRequestMinifier

type SubgraphRequestMinifier interface {
	EnableSubgraphRequestMinifier()
}

type SubscriptionConfiguration

type SubscriptionConfiguration struct {
	Input          string
	Variables      resolve.Variables
	DataSource     resolve.SubscriptionDataSource
	PostProcessing resolve.PostProcessingConfiguration
}

type SubscriptionFieldCondition

type SubscriptionFieldCondition struct {
	FieldPath []string
	Values    []string
}

type SubscriptionResponsePlan

type SubscriptionResponsePlan struct {
	Response      *resolve.GraphQLSubscription
	FlushInterval int64
}

func (*SubscriptionResponsePlan) PlanKind

func (_ *SubscriptionResponsePlan) PlanKind() Kind

func (*SubscriptionResponsePlan) SetFlushInterval

func (s *SubscriptionResponsePlan) SetFlushInterval(interval int64)

type SynchronousResponsePlan

type SynchronousResponsePlan struct {
	Response      *resolve.GraphQLResponse
	FlushInterval int64
}

func (*SynchronousResponsePlan) PlanKind

func (_ *SynchronousResponsePlan) PlanKind() Kind

func (*SynchronousResponsePlan) SetFlushInterval

func (s *SynchronousResponsePlan) SetFlushInterval(interval int64)

type TypeConfiguration

type TypeConfiguration struct {
	TypeName string
	// RenameTo modifies the TypeName
	// so that a downstream Operation can contain a different TypeName than the upstream Schema
	// e.g. if the downstream Operation contains { ... on Human_api { height } }
	// the upstream Operation can be rewritten to { ... on Human { height }}
	// by setting RenameTo to Human
	// This way, Types can be suffixed / renamed in downstream Schemas while keeping the contract with the upstream ok
	RenameTo string
}

type TypeConfigurations

type TypeConfigurations []TypeConfiguration

func (*TypeConfigurations) RenameTypeNameOnMatchBytes

func (t *TypeConfigurations) RenameTypeNameOnMatchBytes(typeName []byte) []byte

func (*TypeConfigurations) RenameTypeNameOnMatchStr

func (t *TypeConfigurations) RenameTypeNameOnMatchStr(typeName string) string

type TypeField

type TypeField struct {
	TypeName   string
	FieldNames []string
}

type TypeFieldSource

type TypeFieldSource struct {
	// IDs is a list of data source IDs that can be used to resolve the field
	IDs []string
}

type TypeFieldUsageInfo

type TypeFieldUsageInfo struct {
	// FieldName is the name of the field, e.g. "id" for this selection set: { id }
	FieldName string
	// FieldTypeName is the name of the field type, e.g. "ID" for this selection set: { id }
	FieldTypeName string
	// EnclosingTypeNames is a list of all possible enclosing types, e.g. ["User"] for the "id" field: { user { id } }
	EnclosingTypeNames []string
	// Path is a list of field names that lead to the field, e.g. ["user", "id"] for this selection set: { user { id } }
	Path []string
	// Source is a list of data source IDs that can be used to resolve the field
	Source TypeFieldSource
}

func (*TypeFieldUsageInfo) Equals

func (t *TypeFieldUsageInfo) Equals(other TypeFieldUsageInfo) bool

type TypeFields

type TypeFields []TypeField

func (TypeFields) HasNode

func (f TypeFields) HasNode(typeName, fieldName string) bool

func (TypeFields) HasNodeWithTypename

func (f TypeFields) HasNodeWithTypename(typeName string) bool

type Visitor

type Visitor struct {
	Operation, Definition *ast.Document
	Walker                *astvisitor.Walker
	Importer              astimport.Importer
	Config                Configuration

	OperationName string
	// contains filtered or unexported fields
}

func (*Visitor) AllowVisitor

func (v *Visitor) AllowVisitor(kind astvisitor.VisitorKind, ref int, visitor any, skipFor astvisitor.SkipVisitors) bool

func (*Visitor) EnterDirective

func (v *Visitor) EnterDirective(ref int)

func (*Visitor) EnterDocument

func (v *Visitor) EnterDocument(operation, definition *ast.Document)

func (*Visitor) EnterField

func (v *Visitor) EnterField(ref int)

func (*Visitor) EnterInlineFragment

func (v *Visitor) EnterInlineFragment(ref int)

func (*Visitor) EnterOperationDefinition

func (v *Visitor) EnterOperationDefinition(ref int)

func (*Visitor) EnterSelectionSet

func (v *Visitor) EnterSelectionSet(ref int)

func (*Visitor) LeaveDocument

func (v *Visitor) LeaveDocument(_, _ *ast.Document)

func (*Visitor) LeaveField

func (v *Visitor) LeaveField(ref int)

func (*Visitor) LeaveInlineFragment

func (v *Visitor) LeaveInlineFragment(ref int)

func (*Visitor) LeaveSelectionSet

func (v *Visitor) LeaveSelectionSet(ref int)

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