mirror of
https://git.uploadfilter24.eu/lerentis/terraform-provider-gitea.git
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282cd097f9
Bumps [github.com/hashicorp/terraform-plugin-sdk/v2](https://github.com/hashicorp/terraform-plugin-sdk) from 2.20.0 to 2.24.1. - [Release notes](https://github.com/hashicorp/terraform-plugin-sdk/releases) - [Changelog](https://github.com/hashicorp/terraform-plugin-sdk/blob/main/CHANGELOG.md) - [Commits](https://github.com/hashicorp/terraform-plugin-sdk/compare/v2.20.0...v2.24.1) --- updated-dependencies: - dependency-name: github.com/hashicorp/terraform-plugin-sdk/v2 dependency-type: direct:production update-type: version-update:semver-minor ... Signed-off-by: dependabot[bot] <support@github.com>
210 lines
5.1 KiB
Go
210 lines
5.1 KiB
Go
package set
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import (
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"sort"
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)
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// Add inserts the given value into the receiving Set.
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//
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// This mutates the set in-place. This operation is not thread-safe.
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func (s Set[T]) Add(val T) {
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hv := s.rules.Hash(val)
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if _, ok := s.vals[hv]; !ok {
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s.vals[hv] = make([]T, 0, 1)
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}
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bucket := s.vals[hv]
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// See if an equivalent value is already present
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for _, ev := range bucket {
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if s.rules.Equivalent(val, ev) {
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return
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}
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}
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s.vals[hv] = append(bucket, val)
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}
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// Remove deletes the given value from the receiving set, if indeed it was
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// there in the first place. If the value is not present, this is a no-op.
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func (s Set[T]) Remove(val T) {
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hv := s.rules.Hash(val)
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bucket, ok := s.vals[hv]
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if !ok {
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return
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}
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for i, ev := range bucket {
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if s.rules.Equivalent(val, ev) {
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newBucket := make([]T, 0, len(bucket)-1)
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newBucket = append(newBucket, bucket[:i]...)
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newBucket = append(newBucket, bucket[i+1:]...)
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if len(newBucket) > 0 {
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s.vals[hv] = newBucket
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} else {
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delete(s.vals, hv)
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}
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return
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}
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}
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}
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// Has returns true if the given value is in the receiving set, or false if
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// it is not.
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func (s Set[T]) Has(val T) bool {
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hv := s.rules.Hash(val)
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bucket, ok := s.vals[hv]
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if !ok {
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return false
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}
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for _, ev := range bucket {
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if s.rules.Equivalent(val, ev) {
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return true
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}
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}
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return false
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}
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// Copy performs a shallow copy of the receiving set, returning a new set
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// with the same rules and elements.
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func (s Set[T]) Copy() Set[T] {
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ret := NewSet(s.rules)
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for k, v := range s.vals {
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ret.vals[k] = v
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}
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return ret
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}
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// Iterator returns an iterator over values in the set. If the set's rules
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// implement OrderedRules then the result is ordered per those rules. If
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// no order is provided, or if it is not a total order, then the iteration
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// order is undefined but consistent for a particular version of cty. Do not
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// rely on specific ordering between cty releases unless the rules order is a
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// total order.
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//
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// The pattern for using the returned iterator is:
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//
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// it := set.Iterator()
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// for it.Next() {
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// val := it.Value()
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// // ...
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// }
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//
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// Once an iterator has been created for a set, the set *must not* be mutated
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// until the iterator is no longer in use.
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func (s Set[T]) Iterator() *Iterator[T] {
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vals := s.Values()
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return &Iterator[T]{
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vals: vals,
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idx: -1,
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}
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}
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// EachValue calls the given callback once for each value in the set, in an
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// undefined order that callers should not depend on.
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func (s Set[T]) EachValue(cb func(T)) {
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it := s.Iterator()
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for it.Next() {
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cb(it.Value())
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}
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}
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// Values returns a slice of all the values in the set. If the set rules have
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// an order then the result is in that order. If no order is provided or if
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// it is not a total order then the result order is undefined, but consistent
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// for a particular set value within a specific release of cty.
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func (s Set[T]) Values() []T {
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var ret []T
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// Sort the bucketIds to ensure that we always traverse in a
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// consistent order.
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bucketIDs := make([]int, 0, len(s.vals))
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for id := range s.vals {
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bucketIDs = append(bucketIDs, id)
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}
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sort.Ints(bucketIDs)
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for _, bucketID := range bucketIDs {
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ret = append(ret, s.vals[bucketID]...)
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}
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if orderRules, ok := s.rules.(OrderedRules[T]); ok {
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sort.SliceStable(ret, func(i, j int) bool {
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return orderRules.Less(ret[i], ret[j])
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})
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}
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return ret
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}
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// Length returns the number of values in the set.
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func (s Set[T]) Length() int {
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var count int
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for _, bucket := range s.vals {
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count = count + len(bucket)
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}
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return count
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}
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// Union returns a new set that contains all of the members of both the
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// receiving set and the given set. Both sets must have the same rules, or
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// else this function will panic.
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func (s1 Set[T]) Union(s2 Set[T]) Set[T] {
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mustHaveSameRules(s1, s2)
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rs := NewSet(s1.rules)
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s1.EachValue(func(v T) {
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rs.Add(v)
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})
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s2.EachValue(func(v T) {
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rs.Add(v)
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})
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return rs
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}
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// Intersection returns a new set that contains the values that both the
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// receiver and given sets have in common. Both sets must have the same rules,
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// or else this function will panic.
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func (s1 Set[T]) Intersection(s2 Set[T]) Set[T] {
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mustHaveSameRules(s1, s2)
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rs := NewSet(s1.rules)
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s1.EachValue(func(v T) {
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if s2.Has(v) {
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rs.Add(v)
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}
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})
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return rs
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}
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// Subtract returns a new set that contains all of the values from the receiver
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// that are not also in the given set. Both sets must have the same rules,
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// or else this function will panic.
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func (s1 Set[T]) Subtract(s2 Set[T]) Set[T] {
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mustHaveSameRules(s1, s2)
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rs := NewSet(s1.rules)
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s1.EachValue(func(v T) {
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if !s2.Has(v) {
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rs.Add(v)
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}
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})
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return rs
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}
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// SymmetricDifference returns a new set that contains all of the values from
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// both the receiver and given sets, except those that both sets have in
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// common. Both sets must have the same rules, or else this function will
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// panic.
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func (s1 Set[T]) SymmetricDifference(s2 Set[T]) Set[T] {
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mustHaveSameRules(s1, s2)
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rs := NewSet(s1.rules)
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s1.EachValue(func(v T) {
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if !s2.Has(v) {
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rs.Add(v)
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}
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})
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s2.EachValue(func(v T) {
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if !s1.Has(v) {
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rs.Add(v)
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}
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})
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return rs
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}
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