mirror of
https://github.com/rocky-linux/peridot.git
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270 lines
8.7 KiB
Go
270 lines
8.7 KiB
Go
/*
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Copyright 2019 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package value
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import (
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"sort"
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)
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// Map represents a Map or go structure.
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type Map interface {
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// Set changes or set the value of the given key.
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Set(key string, val Value)
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// Get returns the value for the given key, if present, or (nil, false) otherwise.
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Get(key string) (Value, bool)
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// GetUsing uses the provided allocator and returns the value for the given key,
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// if present, or (nil, false) otherwise.
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// The returned Value should be given back to the Allocator when no longer needed
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// by calling Allocator.Free(Value).
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GetUsing(a Allocator, key string) (Value, bool)
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// Has returns true if the key is present, or false otherwise.
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Has(key string) bool
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// Delete removes the key from the map.
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Delete(key string)
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// Equals compares the two maps, and return true if they are the same, false otherwise.
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// Implementations can use MapEquals as a general implementation for this methods.
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Equals(other Map) bool
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// EqualsUsing uses the provided allocator and compares the two maps, and return true if
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// they are the same, false otherwise. Implementations can use MapEqualsUsing as a general
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// implementation for this methods.
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EqualsUsing(a Allocator, other Map) bool
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// Iterate runs the given function for each key/value in the
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// map. Returning false in the closure prematurely stops the
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// iteration.
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Iterate(func(key string, value Value) bool) bool
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// IterateUsing uses the provided allocator and runs the given function for each key/value
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// in the map. Returning false in the closure prematurely stops the iteration.
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IterateUsing(Allocator, func(key string, value Value) bool) bool
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// Length returns the number of items in the map.
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Length() int
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// Empty returns true if the map is empty.
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Empty() bool
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// Zip iterates over the entries of two maps together. If both maps contain a value for a given key, fn is called
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// with the values from both maps, otherwise it is called with the value of the map that contains the key and nil
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// for the map that does not contain the key. Returning false in the closure prematurely stops the iteration.
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Zip(other Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool
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// ZipUsing uses the provided allocator and iterates over the entries of two maps together. If both maps
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// contain a value for a given key, fn is called with the values from both maps, otherwise it is called with
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// the value of the map that contains the key and nil for the map that does not contain the key. Returning
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// false in the closure prematurely stops the iteration.
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ZipUsing(a Allocator, other Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool
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}
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// MapTraverseOrder defines the map traversal ordering available.
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type MapTraverseOrder int
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const (
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// Unordered indicates that the map traversal has no ordering requirement.
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Unordered = iota
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// LexicalKeyOrder indicates that the map traversal is ordered by key, lexically.
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LexicalKeyOrder
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)
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// MapZip iterates over the entries of two maps together. If both maps contain a value for a given key, fn is called
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// with the values from both maps, otherwise it is called with the value of the map that contains the key and nil
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// for the other map. Returning false in the closure prematurely stops the iteration.
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func MapZip(lhs, rhs Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool {
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return MapZipUsing(HeapAllocator, lhs, rhs, order, fn)
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}
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// MapZipUsing uses the provided allocator and iterates over the entries of two maps together. If both maps
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// contain a value for a given key, fn is called with the values from both maps, otherwise it is called with
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// the value of the map that contains the key and nil for the other map. Returning false in the closure
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// prematurely stops the iteration.
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func MapZipUsing(a Allocator, lhs, rhs Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool {
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if lhs != nil {
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return lhs.ZipUsing(a, rhs, order, fn)
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}
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if rhs != nil {
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return rhs.ZipUsing(a, lhs, order, func(key string, rhs, lhs Value) bool { // arg positions of lhs and rhs deliberately swapped
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return fn(key, lhs, rhs)
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})
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}
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return true
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}
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// defaultMapZip provides a default implementation of Zip for implementations that do not need to provide
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// their own optimized implementation.
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func defaultMapZip(a Allocator, lhs, rhs Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool {
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switch order {
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case Unordered:
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return unorderedMapZip(a, lhs, rhs, fn)
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case LexicalKeyOrder:
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return lexicalKeyOrderedMapZip(a, lhs, rhs, fn)
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default:
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panic("Unsupported map order")
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}
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}
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func unorderedMapZip(a Allocator, lhs, rhs Map, fn func(key string, lhs, rhs Value) bool) bool {
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if (lhs == nil || lhs.Empty()) && (rhs == nil || rhs.Empty()) {
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return true
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}
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if lhs != nil {
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ok := lhs.IterateUsing(a, func(key string, lhsValue Value) bool {
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var rhsValue Value
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if rhs != nil {
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if item, ok := rhs.GetUsing(a, key); ok {
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rhsValue = item
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defer a.Free(rhsValue)
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}
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}
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return fn(key, lhsValue, rhsValue)
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})
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if !ok {
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return false
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}
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}
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if rhs != nil {
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return rhs.IterateUsing(a, func(key string, rhsValue Value) bool {
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if lhs == nil || !lhs.Has(key) {
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return fn(key, nil, rhsValue)
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}
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return true
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})
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}
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return true
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}
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func lexicalKeyOrderedMapZip(a Allocator, lhs, rhs Map, fn func(key string, lhs, rhs Value) bool) bool {
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var lhsLength, rhsLength int
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var orderedLength int // rough estimate of length of union of map keys
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if lhs != nil {
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lhsLength = lhs.Length()
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orderedLength = lhsLength
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}
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if rhs != nil {
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rhsLength = rhs.Length()
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if rhsLength > orderedLength {
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orderedLength = rhsLength
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}
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}
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if lhsLength == 0 && rhsLength == 0 {
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return true
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}
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ordered := make([]string, 0, orderedLength)
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if lhs != nil {
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lhs.IterateUsing(a, func(key string, _ Value) bool {
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ordered = append(ordered, key)
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return true
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})
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}
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if rhs != nil {
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rhs.IterateUsing(a, func(key string, _ Value) bool {
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if lhs == nil || !lhs.Has(key) {
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ordered = append(ordered, key)
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}
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return true
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})
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}
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sort.Strings(ordered)
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for _, key := range ordered {
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var litem, ritem Value
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if lhs != nil {
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litem, _ = lhs.GetUsing(a, key)
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}
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if rhs != nil {
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ritem, _ = rhs.GetUsing(a, key)
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}
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ok := fn(key, litem, ritem)
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if litem != nil {
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a.Free(litem)
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}
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if ritem != nil {
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a.Free(ritem)
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}
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if !ok {
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return false
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}
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}
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return true
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}
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// MapLess compares two maps lexically.
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func MapLess(lhs, rhs Map) bool {
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return MapCompare(lhs, rhs) == -1
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}
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// MapCompare compares two maps lexically.
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func MapCompare(lhs, rhs Map) int {
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return MapCompareUsing(HeapAllocator, lhs, rhs)
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}
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// MapCompareUsing uses the provided allocator and compares two maps lexically.
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func MapCompareUsing(a Allocator, lhs, rhs Map) int {
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c := 0
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var llength, rlength int
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if lhs != nil {
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llength = lhs.Length()
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}
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if rhs != nil {
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rlength = rhs.Length()
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}
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if llength == 0 && rlength == 0 {
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return 0
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}
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i := 0
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MapZipUsing(a, lhs, rhs, LexicalKeyOrder, func(key string, lhs, rhs Value) bool {
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switch {
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case i == llength:
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c = -1
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case i == rlength:
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c = 1
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case lhs == nil:
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c = 1
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case rhs == nil:
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c = -1
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default:
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c = CompareUsing(a, lhs, rhs)
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}
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i++
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return c == 0
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})
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return c
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}
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// MapEquals returns true if lhs == rhs, false otherwise. This function
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// acts on generic types and should not be used by callers, but can help
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// implement Map.Equals.
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// WARN: This is a naive implementation, calling lhs.Equals(rhs) is typically the most efficient.
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func MapEquals(lhs, rhs Map) bool {
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return MapEqualsUsing(HeapAllocator, lhs, rhs)
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}
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// MapEqualsUsing uses the provided allocator and returns true if lhs == rhs,
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// false otherwise. This function acts on generic types and should not be used
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// by callers, but can help implement Map.Equals.
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// WARN: This is a naive implementation, calling lhs.EqualsUsing(allocator, rhs) is typically the most efficient.
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func MapEqualsUsing(a Allocator, lhs, rhs Map) bool {
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if lhs == nil && rhs == nil {
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return true
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}
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if lhs == nil || rhs == nil {
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return false
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}
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if lhs.Length() != rhs.Length() {
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return false
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}
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return MapZipUsing(a, lhs, rhs, Unordered, func(key string, lhs, rhs Value) bool {
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if lhs == nil || rhs == nil {
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return false
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}
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return EqualsUsing(a, lhs, rhs)
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})
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}
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