2024-02-18 10:42:21 +00:00
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// Package maps provides reusable functions for manipulating nested
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// map[string]interface{} maps are common unmarshal products from
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// various serializers such as json, yaml etc.
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package maps
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import (
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"fmt"
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"reflect"
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"strings"
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2024-06-14 08:41:36 +00:00
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"github.com/mitchellh/copystructure"
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2024-02-18 10:42:21 +00:00
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)
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// Flatten takes a map[string]interface{} and traverses it and flattens
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// nested children into keys delimited by delim.
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//
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// It's important to note that all nested maps should be
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// map[string]interface{} and not map[interface{}]interface{}.
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// Use IntfaceKeysToStrings() to convert if necessary.
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//
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// eg: `{ "parent": { "child": 123 }}` becomes `{ "parent.child": 123 }`
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// In addition, it keeps track of and returns a map of the delimited keypaths with
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// a slice of key parts, for eg: { "parent.child": ["parent", "child"] }. This
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// parts list is used to remember the key path's original structure to
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// unflatten later.
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func Flatten(m map[string]interface{}, keys []string, delim string) (map[string]interface{}, map[string][]string) {
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var (
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out = make(map[string]interface{})
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keyMap = make(map[string][]string)
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)
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flatten(m, keys, delim, out, keyMap)
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return out, keyMap
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}
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func flatten(m map[string]interface{}, keys []string, delim string, out map[string]interface{}, keyMap map[string][]string) {
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for key, val := range m {
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// Copy the incoming key paths into a fresh list
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// and append the current key in the iteration.
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kp := make([]string, 0, len(keys)+1)
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kp = append(kp, keys...)
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kp = append(kp, key)
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switch cur := val.(type) {
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case map[string]interface{}:
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// Empty map.
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if len(cur) == 0 {
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newKey := strings.Join(kp, delim)
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out[newKey] = val
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keyMap[newKey] = kp
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continue
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}
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// It's a nested map. Flatten it recursively.
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flatten(cur, kp, delim, out, keyMap)
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default:
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newKey := strings.Join(kp, delim)
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out[newKey] = val
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keyMap[newKey] = kp
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}
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}
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}
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// Unflatten takes a flattened key:value map (non-nested with delimited keys)
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// and returns a nested map where the keys are split into hierarchies by the given
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// delimiter. For instance, `parent.child.key: 1` to `{parent: {child: {key: 1}}}`
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//
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// It's important to note that all nested maps should be
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// map[string]interface{} and not map[interface{}]interface{}.
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// Use IntfaceKeysToStrings() to convert if necessary.
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func Unflatten(m map[string]interface{}, delim string) map[string]interface{} {
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out := make(map[string]interface{})
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// Iterate through the flat conf map.
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for k, v := range m {
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var (
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keys = strings.Split(k, delim)
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next = out
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)
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// Iterate through key parts, for eg:, parent.child.key
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// will be ["parent", "child", "key"]
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for _, k := range keys[:len(keys)-1] {
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sub, ok := next[k]
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if !ok {
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// If the key does not exist in the map, create it.
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sub = make(map[string]interface{})
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next[k] = sub
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}
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if n, ok := sub.(map[string]interface{}); ok {
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next = n
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}
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}
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// Assign the value.
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next[keys[len(keys)-1]] = v
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}
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return out
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}
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// Merge recursively merges map a into b (left to right), mutating
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// and expanding map b. Note that there's no copying involved, so
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// map b will retain references to map a.
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//
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// It's important to note that all nested maps should be
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// map[string]interface{} and not map[interface{}]interface{}.
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// Use IntfaceKeysToStrings() to convert if necessary.
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func Merge(a, b map[string]interface{}) {
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for key, val := range a {
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// Does the key exist in the target map?
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// If no, add it and move on.
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bVal, ok := b[key]
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if !ok {
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b[key] = val
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continue
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}
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// If the incoming val is not a map, do a direct merge.
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if _, ok := val.(map[string]interface{}); !ok {
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b[key] = val
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continue
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}
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// The source key and target keys are both maps. Merge them.
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switch v := bVal.(type) {
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case map[string]interface{}:
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Merge(val.(map[string]interface{}), v)
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default:
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b[key] = val
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}
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}
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}
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// MergeStrict recursively merges map a into b (left to right), mutating
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// and expanding map b. Note that there's no copying involved, so
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// map b will retain references to map a.
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// If an equal key in either of the maps has a different value type, it will return the first error.
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//
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// It's important to note that all nested maps should be
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// map[string]interface{} and not map[interface{}]interface{}.
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// Use IntfaceKeysToStrings() to convert if necessary.
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func MergeStrict(a, b map[string]interface{}) error {
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return mergeStrict(a, b, "")
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}
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func mergeStrict(a, b map[string]interface{}, fullKey string) error {
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for key, val := range a {
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// Does the key exist in the target map?
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// If no, add it and move on.
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bVal, ok := b[key]
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if !ok {
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b[key] = val
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continue
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}
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newFullKey := key
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if fullKey != "" {
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newFullKey = fmt.Sprintf("%v.%v", fullKey, key)
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}
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// If the incoming val is not a map, do a direct merge between the same types.
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if _, ok := val.(map[string]interface{}); !ok {
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if reflect.TypeOf(b[key]) == reflect.TypeOf(val) {
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b[key] = val
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} else {
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return fmt.Errorf("incorrect types at key %v, type %T != %T", fullKey, b[key], val)
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}
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continue
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}
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// The source key and target keys are both maps. Merge them.
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switch v := bVal.(type) {
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case map[string]interface{}:
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return mergeStrict(val.(map[string]interface{}), v, newFullKey)
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default:
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b[key] = val
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}
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}
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return nil
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}
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// Delete removes the entry present at a given path, from the map. The path
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// is the key map slice, for eg:, parent.child.key -> [parent child key].
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// Any empty, nested map on the path, is recursively deleted.
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//
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// It's important to note that all nested maps should be
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// map[string]interface{} and not map[interface{}]interface{}.
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// Use IntfaceKeysToStrings() to convert if necessary.
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func Delete(mp map[string]interface{}, path []string) {
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next, ok := mp[path[0]]
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if ok {
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if len(path) == 1 {
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delete(mp, path[0])
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return
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}
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switch nval := next.(type) {
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case map[string]interface{}:
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Delete(nval, path[1:])
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// Delete map if it has no keys.
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if len(nval) == 0 {
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delete(mp, path[0])
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}
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}
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}
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}
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// Search recursively searches a map for a given path. The path is
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// the key map slice, for eg:, parent.child.key -> [parent child key].
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//
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// It's important to note that all nested maps should be
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// map[string]interface{} and not map[interface{}]interface{}.
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// Use IntfaceKeysToStrings() to convert if necessary.
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func Search(mp map[string]interface{}, path []string) interface{} {
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next, ok := mp[path[0]]
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if ok {
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if len(path) == 1 {
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return next
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}
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switch m := next.(type) {
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case map[string]interface{}:
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return Search(m, path[1:])
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default:
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return nil
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} //
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// It's important to note that all nested maps should be
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// map[string]interface{} and not map[interface{}]interface{}.
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// Use IntfaceKeysToStrings() to convert if necessary.
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}
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return nil
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}
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// Copy returns a deep copy of a conf map.
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//
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// It's important to note that all nested maps should be
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// map[string]interface{} and not map[interface{}]interface{}.
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// Use IntfaceKeysToStrings() to convert if necessary.
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func Copy(mp map[string]interface{}) map[string]interface{} {
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out, _ := copystructure.Copy(&mp)
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if res, ok := out.(*map[string]interface{}); ok {
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return *res
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}
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return map[string]interface{}{}
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}
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// IntfaceKeysToStrings recursively converts map[interface{}]interface{} to
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// map[string]interface{}. Some parses such as YAML unmarshal return this.
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func IntfaceKeysToStrings(mp map[string]interface{}) {
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for key, val := range mp {
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switch cur := val.(type) {
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case map[interface{}]interface{}:
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x := make(map[string]interface{})
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for k, v := range cur {
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x[fmt.Sprintf("%v", k)] = v
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}
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mp[key] = x
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IntfaceKeysToStrings(x)
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case []interface{}:
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for i, v := range cur {
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switch sub := v.(type) {
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case map[interface{}]interface{}:
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x := make(map[string]interface{})
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for k, v := range sub {
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x[fmt.Sprintf("%v", k)] = v
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}
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cur[i] = x
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IntfaceKeysToStrings(x)
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case map[string]interface{}:
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IntfaceKeysToStrings(sub)
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}
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}
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case map[string]interface{}:
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IntfaceKeysToStrings(cur)
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}
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}
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}
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// StringSliceToLookupMap takes a slice of strings and returns a lookup map
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// with the slice values as keys with true values.
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func StringSliceToLookupMap(s []string) map[string]bool {
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mp := make(map[string]bool, len(s))
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for _, v := range s {
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mp[v] = true
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}
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return mp
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}
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// Int64SliceToLookupMap takes a slice of int64s and returns a lookup map
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// with the slice values as keys with true values.
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func Int64SliceToLookupMap(s []int64) map[int64]bool {
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mp := make(map[int64]bool, len(s))
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for _, v := range s {
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mp[v] = true
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}
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return mp
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}
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