// Copyright 2018 The Hugo Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package maps import ( "fmt" "strings" "github.com/gohugoio/hugo/common/types" "github.com/gobwas/glob" "github.com/spf13/cast" ) // ToStringMapE converts in to map[string]interface{}. func ToStringMapE(in any) (map[string]any, error) { switch vv := in.(type) { case Params: return vv, nil case map[string]string: m := map[string]any{} for k, v := range vv { m[k] = v } return m, nil default: return cast.ToStringMapE(in) } } // ToParamsAndPrepare converts in to Params and prepares it for use. // If in is nil, an empty map is returned. // See PrepareParams. func ToParamsAndPrepare(in any) (Params, error) { if types.IsNil(in) { return Params{}, nil } m, err := ToStringMapE(in) if err != nil { return nil, err } PrepareParams(m) return m, nil } // MustToParamsAndPrepare calls ToParamsAndPrepare and panics if it fails. func MustToParamsAndPrepare(in any) Params { p, err := ToParamsAndPrepare(in) if err != nil { panic(fmt.Sprintf("cannot convert %T to maps.Params: %s", in, err)) } return p } // ToStringMap converts in to map[string]interface{}. func ToStringMap(in any) map[string]any { m, _ := ToStringMapE(in) return m } // ToStringMapStringE converts in to map[string]string. func ToStringMapStringE(in any) (map[string]string, error) { m, err := ToStringMapE(in) if err != nil { return nil, err } return cast.ToStringMapStringE(m) } // ToStringMapString converts in to map[string]string. func ToStringMapString(in any) map[string]string { m, _ := ToStringMapStringE(in) return m } // ToStringMapBool converts in to bool. func ToStringMapBool(in any) map[string]bool { m, _ := ToStringMapE(in) return cast.ToStringMapBool(m) } // ToSliceStringMap converts in to []map[string]interface{}. func ToSliceStringMap(in any) ([]map[string]any, error) { switch v := in.(type) { case []map[string]any: return v, nil case Params: return []map[string]any{v}, nil case []any: var s []map[string]any for _, entry := range v { if vv, ok := entry.(map[string]any); ok { s = append(s, vv) } } return s, nil default: return nil, fmt.Errorf("unable to cast %#v of type %T to []map[string]interface{}", in, in) } } // LookupEqualFold finds key in m with case insensitive equality checks. func LookupEqualFold[T any | string](m map[string]T, key string) (T, string, bool) { if v, found := m[key]; found { return v, key, true } for k, v := range m { if strings.EqualFold(k, key) { return v, k, true } } var s T return s, "", false } // MergeShallow merges src into dst, but only if the key does not already exist in dst. // The keys are compared case insensitively. func MergeShallow(dst, src map[string]any) { for k, v := range src { found := false for dk := range dst { if strings.EqualFold(dk, k) { found = true break } } if !found { dst[k] = v } } } type keyRename struct { pattern glob.Glob newKey string } // KeyRenamer supports renaming of keys in a map. type KeyRenamer struct { renames []keyRename } // NewKeyRenamer creates a new KeyRenamer given a list of pattern and new key // value pairs. func NewKeyRenamer(patternKeys ...string) (KeyRenamer, error) { var renames []keyRename for i := 0; i < len(patternKeys); i += 2 { g, err := glob.Compile(strings.ToLower(patternKeys[i]), '/') if err != nil { return KeyRenamer{}, err } renames = append(renames, keyRename{pattern: g, newKey: patternKeys[i+1]}) } return KeyRenamer{renames: renames}, nil } func (r KeyRenamer) getNewKey(keyPath string) string { for _, matcher := range r.renames { if matcher.pattern.Match(keyPath) { return matcher.newKey } } return "" } // Rename renames the keys in the given map according // to the patterns in the current KeyRenamer. func (r KeyRenamer) Rename(m map[string]any) { r.renamePath("", m) } func (KeyRenamer) keyPath(k1, k2 string) string { k1, k2 = strings.ToLower(k1), strings.ToLower(k2) if k1 == "" { return k2 } return k1 + "/" + k2 } func (r KeyRenamer) renamePath(parentKeyPath string, m map[string]any) { for k, v := range m { keyPath := r.keyPath(parentKeyPath, k) switch vv := v.(type) { case map[any]any: r.renamePath(keyPath, cast.ToStringMap(vv)) case map[string]any: r.renamePath(keyPath, vv) } newKey := r.getNewKey(keyPath) if newKey != "" { delete(m, k) m[newKey] = v } } } // ConvertFloat64WithNoDecimalsToInt converts float64 values with no decimals to int recursively. func ConvertFloat64WithNoDecimalsToInt(m map[string]any) { for k, v := range m { switch vv := v.(type) { case float64: if v == float64(int64(vv)) { m[k] = int64(vv) } case map[string]any: ConvertFloat64WithNoDecimalsToInt(vv) case []any: for i, vvv := range vv { switch vvvv := vvv.(type) { case float64: if vvv == float64(int64(vvvv)) { vv[i] = int64(vvvv) } case map[string]any: ConvertFloat64WithNoDecimalsToInt(vvvv) } } } } }