From 1d4bb7ceb0cef79d68df0bacc913b01e40e6ddd6 Mon Sep 17 00:00:00 2001
From: Michael Muré <batolettre@gmail.com>
Date: Wed, 5 Feb 2020 22:03:19 +0100
Subject: migrate to go modules

---
 .../rules/overlapping_fields_can_be_merged.go      | 557 ---------------------
 1 file changed, 557 deletions(-)
 delete mode 100644 vendor/github.com/vektah/gqlparser/validator/rules/overlapping_fields_can_be_merged.go

(limited to 'vendor/github.com/vektah/gqlparser/validator/rules/overlapping_fields_can_be_merged.go')

diff --git a/vendor/github.com/vektah/gqlparser/validator/rules/overlapping_fields_can_be_merged.go b/vendor/github.com/vektah/gqlparser/validator/rules/overlapping_fields_can_be_merged.go
deleted file mode 100644
index bb2f1831..00000000
--- a/vendor/github.com/vektah/gqlparser/validator/rules/overlapping_fields_can_be_merged.go
+++ /dev/null
@@ -1,557 +0,0 @@
-package validator
-
-import (
-	"bytes"
-	"fmt"
-	"reflect"
-
-	"github.com/vektah/gqlparser/ast"
-	. "github.com/vektah/gqlparser/validator"
-)
-
-func init() {
-
-	AddRule("OverlappingFieldsCanBeMerged", func(observers *Events, addError AddErrFunc) {
-		/**
-		 * Algorithm:
-		 *
-		 * Conflicts occur when two fields exist in a query which will produce the same
-		 * response name, but represent differing values, thus creating a conflict.
-		 * The algorithm below finds all conflicts via making a series of comparisons
-		 * between fields. In order to compare as few fields as possible, this makes
-		 * a series of comparisons "within" sets of fields and "between" sets of fields.
-		 *
-		 * Given any selection set, a collection produces both a set of fields by
-		 * also including all inline fragments, as well as a list of fragments
-		 * referenced by fragment spreads.
-		 *
-		 * A) Each selection set represented in the document first compares "within" its
-		 * collected set of fields, finding any conflicts between every pair of
-		 * overlapping fields.
-		 * Note: This is the *only time* that a the fields "within" a set are compared
-		 * to each other. After this only fields "between" sets are compared.
-		 *
-		 * B) Also, if any fragment is referenced in a selection set, then a
-		 * comparison is made "between" the original set of fields and the
-		 * referenced fragment.
-		 *
-		 * C) Also, if multiple fragments are referenced, then comparisons
-		 * are made "between" each referenced fragment.
-		 *
-		 * D) When comparing "between" a set of fields and a referenced fragment, first
-		 * a comparison is made between each field in the original set of fields and
-		 * each field in the the referenced set of fields.
-		 *
-		 * E) Also, if any fragment is referenced in the referenced selection set,
-		 * then a comparison is made "between" the original set of fields and the
-		 * referenced fragment (recursively referring to step D).
-		 *
-		 * F) When comparing "between" two fragments, first a comparison is made between
-		 * each field in the first referenced set of fields and each field in the the
-		 * second referenced set of fields.
-		 *
-		 * G) Also, any fragments referenced by the first must be compared to the
-		 * second, and any fragments referenced by the second must be compared to the
-		 * first (recursively referring to step F).
-		 *
-		 * H) When comparing two fields, if both have selection sets, then a comparison
-		 * is made "between" both selection sets, first comparing the set of fields in
-		 * the first selection set with the set of fields in the second.
-		 *
-		 * I) Also, if any fragment is referenced in either selection set, then a
-		 * comparison is made "between" the other set of fields and the
-		 * referenced fragment.
-		 *
-		 * J) Also, if two fragments are referenced in both selection sets, then a
-		 * comparison is made "between" the two fragments.
-		 *
-		 */
-
-		m := &overlappingFieldsCanBeMergedManager{
-			comparedFragmentPairs: pairSet{data: make(map[string]map[string]bool)},
-		}
-
-		observers.OnOperation(func(walker *Walker, operation *ast.OperationDefinition) {
-			m.walker = walker
-			conflicts := m.findConflictsWithinSelectionSet(operation.SelectionSet)
-			for _, conflict := range conflicts {
-				conflict.addFieldsConflictMessage(addError)
-			}
-		})
-		observers.OnField(func(walker *Walker, field *ast.Field) {
-			if walker.CurrentOperation == nil {
-				// When checking both Operation and Fragment, errors are duplicated when processing FragmentDefinition referenced from Operation
-				return
-			}
-			m.walker = walker
-			conflicts := m.findConflictsWithinSelectionSet(field.SelectionSet)
-			for _, conflict := range conflicts {
-				conflict.addFieldsConflictMessage(addError)
-			}
-		})
-		observers.OnInlineFragment(func(walker *Walker, inlineFragment *ast.InlineFragment) {
-			m.walker = walker
-			conflicts := m.findConflictsWithinSelectionSet(inlineFragment.SelectionSet)
-			for _, conflict := range conflicts {
-				conflict.addFieldsConflictMessage(addError)
-			}
-		})
-		observers.OnFragment(func(walker *Walker, fragment *ast.FragmentDefinition) {
-			m.walker = walker
-			conflicts := m.findConflictsWithinSelectionSet(fragment.SelectionSet)
-			for _, conflict := range conflicts {
-				conflict.addFieldsConflictMessage(addError)
-			}
-		})
-	})
-}
-
-type pairSet struct {
-	data map[string]map[string]bool
-}
-
-func (pairSet *pairSet) Add(a *ast.FragmentSpread, b *ast.FragmentSpread, areMutuallyExclusive bool) {
-	add := func(a *ast.FragmentSpread, b *ast.FragmentSpread) {
-		m := pairSet.data[a.Name]
-		if m == nil {
-			m = make(map[string]bool)
-			pairSet.data[a.Name] = m
-		}
-		m[b.Name] = areMutuallyExclusive
-	}
-	add(a, b)
-	add(b, a)
-}
-
-func (pairSet *pairSet) Has(a *ast.FragmentSpread, b *ast.FragmentSpread, areMutuallyExclusive bool) bool {
-	am, ok := pairSet.data[a.Name]
-	if !ok {
-		return false
-	}
-	result, ok := am[b.Name]
-	if !ok {
-		return false
-	}
-
-	// areMutuallyExclusive being false is a superset of being true,
-	// hence if we want to know if this PairSet "has" these two with no
-	// exclusivity, we have to ensure it was added as such.
-	if !areMutuallyExclusive {
-		return !result
-	}
-
-	return true
-}
-
-type sequentialFieldsMap struct {
-	// We can't use map[string][]*ast.Field. because map is not stable...
-	seq  []string
-	data map[string][]*ast.Field
-}
-
-type fieldIterateEntry struct {
-	ResponseName string
-	Fields       []*ast.Field
-}
-
-func (m *sequentialFieldsMap) Push(responseName string, field *ast.Field) {
-	fields, ok := m.data[responseName]
-	if !ok {
-		m.seq = append(m.seq, responseName)
-	}
-	fields = append(fields, field)
-	m.data[responseName] = fields
-}
-
-func (m *sequentialFieldsMap) Get(responseName string) ([]*ast.Field, bool) {
-	fields, ok := m.data[responseName]
-	return fields, ok
-}
-
-func (m *sequentialFieldsMap) Iterator() [][]*ast.Field {
-	fieldsList := make([][]*ast.Field, 0, len(m.seq))
-	for _, responseName := range m.seq {
-		fields := m.data[responseName]
-		fieldsList = append(fieldsList, fields)
-	}
-	return fieldsList
-}
-
-func (m *sequentialFieldsMap) KeyValueIterator() []*fieldIterateEntry {
-	fieldEntriesList := make([]*fieldIterateEntry, 0, len(m.seq))
-	for _, responseName := range m.seq {
-		fields := m.data[responseName]
-		fieldEntriesList = append(fieldEntriesList, &fieldIterateEntry{
-			ResponseName: responseName,
-			Fields:       fields,
-		})
-	}
-	return fieldEntriesList
-}
-
-type conflictMessageContainer struct {
-	Conflicts []*ConflictMessage
-}
-
-type ConflictMessage struct {
-	Message      string
-	ResponseName string
-	Names        []string
-	SubMessage   []*ConflictMessage
-	Position     *ast.Position
-}
-
-func (m *ConflictMessage) String(buf *bytes.Buffer) {
-	if len(m.SubMessage) == 0 {
-		buf.WriteString(m.Message)
-		return
-	}
-
-	for idx, subMessage := range m.SubMessage {
-		buf.WriteString(`subfields "`)
-		buf.WriteString(subMessage.ResponseName)
-		buf.WriteString(`" conflict because `)
-		subMessage.String(buf)
-		if idx != len(m.SubMessage)-1 {
-			buf.WriteString(" and ")
-		}
-	}
-}
-
-func (m *ConflictMessage) addFieldsConflictMessage(addError AddErrFunc) {
-	var buf bytes.Buffer
-	m.String(&buf)
-	addError(
-		Message(`Fields "%s" conflict because %s. Use different aliases on the fields to fetch both if this was intentional.`, m.ResponseName, buf.String()),
-		At(m.Position),
-	)
-}
-
-type overlappingFieldsCanBeMergedManager struct {
-	walker *Walker
-
-	// per walker
-	comparedFragmentPairs pairSet
-	// cachedFieldsAndFragmentNames interface{}
-
-	// per selectionSet
-	comparedFragments map[string]bool
-}
-
-func (m *overlappingFieldsCanBeMergedManager) findConflictsWithinSelectionSet(selectionSet ast.SelectionSet) []*ConflictMessage {
-	if len(selectionSet) == 0 {
-		return nil
-	}
-
-	fieldsMap, fragmentSpreads := getFieldsAndFragmentNames(selectionSet)
-
-	var conflicts conflictMessageContainer
-
-	// (A) Find find all conflicts "within" the fieldMap of this selection set.
-	// Note: this is the *only place* `collectConflictsWithin` is called.
-	m.collectConflictsWithin(&conflicts, fieldsMap)
-
-	m.comparedFragments = make(map[string]bool)
-	for idx, fragmentSpreadA := range fragmentSpreads {
-		// (B) Then collect conflicts between these fieldMap and those represented by
-		// each spread fragment name found.
-		m.collectConflictsBetweenFieldsAndFragment(&conflicts, false, fieldsMap, fragmentSpreadA)
-
-		for _, fragmentSpreadB := range fragmentSpreads[idx+1:] {
-			// (C) Then compare this fragment with all other fragments found in this
-			// selection set to collect conflicts between fragments spread together.
-			// This compares each item in the list of fragment names to every other
-			// item in that same list (except for itself).
-			m.collectConflictsBetweenFragments(&conflicts, false, fragmentSpreadA, fragmentSpreadB)
-		}
-	}
-
-	return conflicts.Conflicts
-}
-
-func (m *overlappingFieldsCanBeMergedManager) collectConflictsBetweenFieldsAndFragment(conflicts *conflictMessageContainer, areMutuallyExclusive bool, fieldsMap *sequentialFieldsMap, fragmentSpread *ast.FragmentSpread) {
-	if m.comparedFragments[fragmentSpread.Name] {
-		return
-	}
-	m.comparedFragments[fragmentSpread.Name] = true
-
-	if fragmentSpread.Definition == nil {
-		return
-	}
-
-	fieldsMapB, fragmentSpreads := getFieldsAndFragmentNames(fragmentSpread.Definition.SelectionSet)
-
-	// Do not compare a fragment's fieldMap to itself.
-	if reflect.DeepEqual(fieldsMap, fieldsMapB) {
-		return
-	}
-
-	// (D) First collect any conflicts between the provided collection of fields
-	// and the collection of fields represented by the given fragment.
-	m.collectConflictsBetween(conflicts, areMutuallyExclusive, fieldsMap, fieldsMapB)
-
-	// (E) Then collect any conflicts between the provided collection of fields
-	// and any fragment names found in the given fragment.
-	baseFragmentSpread := fragmentSpread
-	for _, fragmentSpread := range fragmentSpreads {
-		if fragmentSpread.Name == baseFragmentSpread.Name {
-			continue
-		}
-		m.collectConflictsBetweenFieldsAndFragment(conflicts, areMutuallyExclusive, fieldsMap, fragmentSpread)
-	}
-}
-
-func (m *overlappingFieldsCanBeMergedManager) collectConflictsBetweenFragments(conflicts *conflictMessageContainer, areMutuallyExclusive bool, fragmentSpreadA *ast.FragmentSpread, fragmentSpreadB *ast.FragmentSpread) {
-
-	var check func(fragmentSpreadA *ast.FragmentSpread, fragmentSpreadB *ast.FragmentSpread)
-	check = func(fragmentSpreadA *ast.FragmentSpread, fragmentSpreadB *ast.FragmentSpread) {
-
-		if fragmentSpreadA.Name == fragmentSpreadB.Name {
-			return
-		}
-
-		if m.comparedFragmentPairs.Has(fragmentSpreadA, fragmentSpreadB, areMutuallyExclusive) {
-			return
-		}
-		m.comparedFragmentPairs.Add(fragmentSpreadA, fragmentSpreadB, areMutuallyExclusive)
-
-		if fragmentSpreadA.Definition == nil {
-			return
-		}
-		if fragmentSpreadB.Definition == nil {
-			return
-		}
-
-		fieldsMapA, fragmentSpreadsA := getFieldsAndFragmentNames(fragmentSpreadA.Definition.SelectionSet)
-		fieldsMapB, fragmentSpreadsB := getFieldsAndFragmentNames(fragmentSpreadB.Definition.SelectionSet)
-
-		// (F) First, collect all conflicts between these two collections of fields
-		// (not including any nested fragments).
-		m.collectConflictsBetween(conflicts, areMutuallyExclusive, fieldsMapA, fieldsMapB)
-
-		// (G) Then collect conflicts between the first fragment and any nested
-		// fragments spread in the second fragment.
-		for _, fragmentSpread := range fragmentSpreadsB {
-			check(fragmentSpreadA, fragmentSpread)
-		}
-		// (G) Then collect conflicts between the second fragment and any nested
-		// fragments spread in the first fragment.
-		for _, fragmentSpread := range fragmentSpreadsA {
-			check(fragmentSpread, fragmentSpreadB)
-		}
-	}
-
-	check(fragmentSpreadA, fragmentSpreadB)
-}
-
-func (m *overlappingFieldsCanBeMergedManager) findConflictsBetweenSubSelectionSets(areMutuallyExclusive bool, selectionSetA ast.SelectionSet, selectionSetB ast.SelectionSet) *conflictMessageContainer {
-	var conflicts conflictMessageContainer
-
-	fieldsMapA, fragmentSpreadsA := getFieldsAndFragmentNames(selectionSetA)
-	fieldsMapB, fragmentSpreadsB := getFieldsAndFragmentNames(selectionSetB)
-
-	// (H) First, collect all conflicts between these two collections of field.
-	m.collectConflictsBetween(&conflicts, areMutuallyExclusive, fieldsMapA, fieldsMapB)
-
-	// (I) Then collect conflicts between the first collection of fields and
-	// those referenced by each fragment name associated with the second.
-	for _, fragmentSpread := range fragmentSpreadsB {
-		m.comparedFragments = make(map[string]bool)
-		m.collectConflictsBetweenFieldsAndFragment(&conflicts, areMutuallyExclusive, fieldsMapA, fragmentSpread)
-	}
-
-	// (I) Then collect conflicts between the second collection of fields and
-	// those referenced by each fragment name associated with the first.
-	for _, fragmentSpread := range fragmentSpreadsA {
-		m.comparedFragments = make(map[string]bool)
-		m.collectConflictsBetweenFieldsAndFragment(&conflicts, areMutuallyExclusive, fieldsMapB, fragmentSpread)
-	}
-
-	// (J) Also collect conflicts between any fragment names by the first and
-	// fragment names by the second. This compares each item in the first set of
-	// names to each item in the second set of names.
-	for _, fragmentSpreadA := range fragmentSpreadsA {
-		for _, fragmentSpreadB := range fragmentSpreadsB {
-			m.collectConflictsBetweenFragments(&conflicts, areMutuallyExclusive, fragmentSpreadA, fragmentSpreadB)
-		}
-	}
-
-	if len(conflicts.Conflicts) == 0 {
-		return nil
-	}
-
-	return &conflicts
-}
-
-func (m *overlappingFieldsCanBeMergedManager) collectConflictsWithin(conflicts *conflictMessageContainer, fieldsMap *sequentialFieldsMap) {
-	for _, fields := range fieldsMap.Iterator() {
-		for idx, fieldA := range fields {
-			for _, fieldB := range fields[idx+1:] {
-				conflict := m.findConflict(false, fieldA, fieldB)
-				if conflict != nil {
-					conflicts.Conflicts = append(conflicts.Conflicts, conflict)
-				}
-			}
-		}
-	}
-}
-
-func (m *overlappingFieldsCanBeMergedManager) collectConflictsBetween(conflicts *conflictMessageContainer, parentFieldsAreMutuallyExclusive bool, fieldsMapA *sequentialFieldsMap, fieldsMapB *sequentialFieldsMap) {
-	for _, fieldsEntryA := range fieldsMapA.KeyValueIterator() {
-		fieldsB, ok := fieldsMapB.Get(fieldsEntryA.ResponseName)
-		if !ok {
-			continue
-		}
-		for _, fieldA := range fieldsEntryA.Fields {
-			for _, fieldB := range fieldsB {
-				conflict := m.findConflict(parentFieldsAreMutuallyExclusive, fieldA, fieldB)
-				if conflict != nil {
-					conflicts.Conflicts = append(conflicts.Conflicts, conflict)
-				}
-			}
-		}
-	}
-}
-
-func (m *overlappingFieldsCanBeMergedManager) findConflict(parentFieldsAreMutuallyExclusive bool, fieldA *ast.Field, fieldB *ast.Field) *ConflictMessage {
-	if fieldA.Definition == nil || fieldA.ObjectDefinition == nil || fieldB.Definition == nil || fieldB.ObjectDefinition == nil {
-		return nil
-	}
-
-	areMutuallyExclusive := parentFieldsAreMutuallyExclusive
-	if !areMutuallyExclusive {
-		tmp := fieldA.ObjectDefinition.Name != fieldB.ObjectDefinition.Name
-		tmp = tmp && fieldA.ObjectDefinition.Kind == ast.Object
-		tmp = tmp && fieldB.ObjectDefinition.Kind == ast.Object
-		areMutuallyExclusive = tmp
-	}
-
-	fieldNameA := fieldA.Name
-	if fieldA.Alias != "" {
-		fieldNameA = fieldA.Alias
-	}
-
-	if !areMutuallyExclusive {
-		// Two aliases must refer to the same field.
-		if fieldA.Name != fieldB.Name {
-			return &ConflictMessage{
-				ResponseName: fieldNameA,
-				Message:      fmt.Sprintf(`%s and %s are different fields`, fieldA.Name, fieldB.Name),
-				Position:     fieldB.Position,
-			}
-		}
-
-		// Two field calls must have the same arguments.
-		if !sameArguments(fieldA.Arguments, fieldB.Arguments) {
-			return &ConflictMessage{
-				ResponseName: fieldNameA,
-				Message:      "they have differing arguments",
-				Position:     fieldB.Position,
-			}
-		}
-	}
-
-	if doTypesConflict(m.walker, fieldA.Definition.Type, fieldB.Definition.Type) {
-		return &ConflictMessage{
-			ResponseName: fieldNameA,
-			Message:      fmt.Sprintf(`they return conflicting types %s and %s`, fieldA.Definition.Type.String(), fieldB.Definition.Type.String()),
-			Position:     fieldB.Position,
-		}
-	}
-
-	// Collect and compare sub-fields. Use the same "visited fragment names" list
-	// for both collections so fields in a fragment reference are never
-	// compared to themselves.
-	conflicts := m.findConflictsBetweenSubSelectionSets(areMutuallyExclusive, fieldA.SelectionSet, fieldB.SelectionSet)
-	if conflicts == nil {
-		return nil
-	}
-	return &ConflictMessage{
-		ResponseName: fieldNameA,
-		SubMessage:   conflicts.Conflicts,
-		Position:     fieldB.Position,
-	}
-}
-
-func sameArguments(args1 []*ast.Argument, args2 []*ast.Argument) bool {
-	if len(args1) != len(args2) {
-		return false
-	}
-	for _, arg1 := range args1 {
-		for _, arg2 := range args2 {
-			if arg1.Name != arg2.Name {
-				return false
-			}
-			if !sameValue(arg1.Value, arg2.Value) {
-				return false
-			}
-		}
-	}
-	return true
-}
-
-func sameValue(value1 *ast.Value, value2 *ast.Value) bool {
-	if value1.Kind != value2.Kind {
-		return false
-	}
-	if value1.Raw != value2.Raw {
-		return false
-	}
-	return true
-}
-
-func doTypesConflict(walker *Walker, type1 *ast.Type, type2 *ast.Type) bool {
-	if type1.Elem != nil {
-		if type2.Elem != nil {
-			return doTypesConflict(walker, type1.Elem, type2.Elem)
-		}
-		return true
-	}
-	if type2.Elem != nil {
-		return true
-	}
-	if type1.NonNull && !type2.NonNull {
-		return true
-	}
-	if !type1.NonNull && type2.NonNull {
-		return true
-	}
-
-	t1 := walker.Schema.Types[type1.NamedType]
-	t2 := walker.Schema.Types[type2.NamedType]
-	if (t1.Kind == ast.Scalar || t1.Kind == ast.Enum) && (t2.Kind == ast.Scalar || t2.Kind == ast.Enum) {
-		return t1.Name != t2.Name
-	}
-
-	return false
-}
-
-func getFieldsAndFragmentNames(selectionSet ast.SelectionSet) (*sequentialFieldsMap, []*ast.FragmentSpread) {
-	fieldsMap := sequentialFieldsMap{
-		data: make(map[string][]*ast.Field),
-	}
-	var fragmentSpreads []*ast.FragmentSpread
-
-	var walk func(selectionSet ast.SelectionSet)
-	walk = func(selectionSet ast.SelectionSet) {
-		for _, selection := range selectionSet {
-			switch selection := selection.(type) {
-			case *ast.Field:
-				responseName := selection.Name
-				if selection.Alias != "" {
-					responseName = selection.Alias
-				}
-				fieldsMap.Push(responseName, selection)
-
-			case *ast.InlineFragment:
-				walk(selection.SelectionSet)
-
-			case *ast.FragmentSpread:
-				fragmentSpreads = append(fragmentSpreads, selection)
-			}
-		}
-	}
-	walk(selectionSet)
-
-	return &fieldsMap, fragmentSpreads
-}
-- 
cgit