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// Copyright 2012 The Gorilla Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package schema
import (
"encoding"
"errors"
"fmt"
"reflect"
"strings"
)
// NewDecoder returns a new Decoder.
func NewDecoder ( ) * Decoder {
return & Decoder { cache : newCache ( ) }
}
// Decoder decodes values from a map[string][]string to a struct.
type Decoder struct {
cache * cache
zeroEmpty bool
ignoreUnknownKeys bool
}
// SetAliasTag changes the tag used to locate custom field aliases.
// The default tag is "schema".
func ( d * Decoder ) SetAliasTag ( tag string ) {
d . cache . tag = tag
}
// ZeroEmpty controls the behaviour when the decoder encounters empty values
// in a map.
// If z is true and a key in the map has the empty string as a value
// then the corresponding struct field is set to the zero value.
// If z is false then empty strings are ignored.
//
// The default value is false, that is empty values do not change
// the value of the struct field.
func ( d * Decoder ) ZeroEmpty ( z bool ) {
d . zeroEmpty = z
}
// IgnoreUnknownKeys controls the behaviour when the decoder encounters unknown
// keys in the map.
// If i is true and an unknown field is encountered, it is ignored. This is
// similar to how unknown keys are handled by encoding/json.
// If i is false then Decode will return an error. Note that any valid keys
// will still be decoded in to the target struct.
//
// To preserve backwards compatibility, the default value is false.
func ( d * Decoder ) IgnoreUnknownKeys ( i bool ) {
d . ignoreUnknownKeys = i
}
// RegisterConverter registers a converter function for a custom type.
func ( d * Decoder ) RegisterConverter ( value interface { } , converterFunc Converter ) {
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d . cache . registerConverter ( value , converterFunc )
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}
// Decode decodes a map[string][]string to a struct.
//
// The first parameter must be a pointer to a struct.
//
// The second parameter is a map, typically url.Values from an HTTP request.
// Keys are "paths" in dotted notation to the struct fields and nested structs.
//
// See the package documentation for a full explanation of the mechanics.
func ( d * Decoder ) Decode ( dst interface { } , src map [ string ] [ ] string ) error {
v := reflect . ValueOf ( dst )
if v . Kind ( ) != reflect . Ptr || v . Elem ( ) . Kind ( ) != reflect . Struct {
return errors . New ( "schema: interface must be a pointer to struct" )
}
v = v . Elem ( )
t := v . Type ( )
errors := MultiError { }
for path , values := range src {
if parts , err := d . cache . parsePath ( path , t ) ; err == nil {
if err = d . decode ( v , path , parts , values ) ; err != nil {
errors [ path ] = err
}
} else if ! d . ignoreUnknownKeys {
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errors [ path ] = UnknownKeyError { Key : path }
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}
}
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errors . merge ( d . setDefaults ( t , v ) )
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errors . merge ( d . checkRequired ( t , src ) )
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if len ( errors ) > 0 {
return errors
}
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return nil
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}
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//setDefaults sets the default values when the `default` tag is specified,
//default is supported on basic/primitive types and their pointers,
//nested structs can also have default tags
func ( d * Decoder ) setDefaults ( t reflect . Type , v reflect . Value ) MultiError {
struc := d . cache . get ( t )
if struc == nil {
// unexpect, cache.get never return nil
return MultiError { "default-" + t . Name ( ) : errors . New ( "cache fail" ) }
}
errs := MultiError { }
for _ , f := range struc . fields {
vCurrent := v . FieldByName ( f . name )
if vCurrent . Type ( ) . Kind ( ) == reflect . Struct && f . defaultValue == "" {
errs . merge ( d . setDefaults ( vCurrent . Type ( ) , vCurrent ) )
} else if isPointerToStruct ( vCurrent ) && f . defaultValue == "" {
errs . merge ( d . setDefaults ( vCurrent . Elem ( ) . Type ( ) , vCurrent . Elem ( ) ) )
}
if f . defaultValue != "" && f . isRequired {
errs . merge ( MultiError { "default-" + f . name : errors . New ( "required fields cannot have a default value" ) } )
} else if f . defaultValue != "" && vCurrent . IsZero ( ) && ! f . isRequired {
if f . typ . Kind ( ) == reflect . Struct {
errs . merge ( MultiError { "default-" + f . name : errors . New ( "default option is supported only on: bool, float variants, string, unit variants types or their corresponding pointers or slices" ) } )
} else if f . typ . Kind ( ) == reflect . Slice {
vals := strings . Split ( f . defaultValue , "|" )
//check if slice has one of the supported types for defaults
if _ , ok := builtinConverters [ f . typ . Elem ( ) . Kind ( ) ] ; ! ok {
errs . merge ( MultiError { "default-" + f . name : errors . New ( "default option is supported only on: bool, float variants, string, unit variants types or their corresponding pointers or slices" ) } )
continue
}
defaultSlice := reflect . MakeSlice ( f . typ , 0 , cap ( vals ) )
for _ , val := range vals {
//this check is to handle if the wrong value is provided
if convertedVal := builtinConverters [ f . typ . Elem ( ) . Kind ( ) ] ( val ) ; convertedVal . IsValid ( ) {
defaultSlice = reflect . Append ( defaultSlice , convertedVal )
}
}
vCurrent . Set ( defaultSlice )
} else if f . typ . Kind ( ) == reflect . Ptr {
t1 := f . typ . Elem ( )
if t1 . Kind ( ) == reflect . Struct || t1 . Kind ( ) == reflect . Slice {
errs . merge ( MultiError { "default-" + f . name : errors . New ( "default option is supported only on: bool, float variants, string, unit variants types or their corresponding pointers or slices" ) } )
}
//this check is to handle if the wrong value is provided
if convertedVal := convertPointer ( t1 . Kind ( ) , f . defaultValue ) ; convertedVal . IsValid ( ) {
vCurrent . Set ( convertedVal )
}
} else {
//this check is to handle if the wrong value is provided
if convertedVal := builtinConverters [ f . typ . Kind ( ) ] ( f . defaultValue ) ; convertedVal . IsValid ( ) {
vCurrent . Set ( builtinConverters [ f . typ . Kind ( ) ] ( f . defaultValue ) )
}
}
}
}
return errs
}
func isPointerToStruct ( v reflect . Value ) bool {
return ! v . IsZero ( ) && v . Type ( ) . Kind ( ) == reflect . Ptr && v . Elem ( ) . Type ( ) . Kind ( ) == reflect . Struct
}
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// checkRequired checks whether required fields are empty
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//
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// check type t recursively if t has struct fields.
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//
// src is the source map for decoding, we use it here to see if those required fields are included in src
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func ( d * Decoder ) checkRequired ( t reflect . Type , src map [ string ] [ ] string ) MultiError {
m , errs := d . findRequiredFields ( t , "" , "" )
for key , fields := range m {
if isEmptyFields ( fields , src ) {
errs [ key ] = EmptyFieldError { Key : key }
}
}
return errs
}
// findRequiredFields recursively searches the struct type t for required fields.
//
// canonicalPrefix and searchPrefix are used to resolve full paths in dotted notation
// for nested struct fields. canonicalPrefix is a complete path which never omits
// any embedded struct fields. searchPrefix is a user-friendly path which may omit
// some embedded struct fields to point promoted fields.
func ( d * Decoder ) findRequiredFields ( t reflect . Type , canonicalPrefix , searchPrefix string ) ( map [ string ] [ ] fieldWithPrefix , MultiError ) {
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struc := d . cache . get ( t )
if struc == nil {
// unexpect, cache.get never return nil
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return nil , MultiError { canonicalPrefix + "*" : errors . New ( "cache fail" ) }
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}
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m := map [ string ] [ ] fieldWithPrefix { }
errs := MultiError { }
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for _ , f := range struc . fields {
if f . typ . Kind ( ) == reflect . Struct {
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fcprefix := canonicalPrefix + f . canonicalAlias + "."
for _ , fspath := range f . paths ( searchPrefix ) {
fm , ferrs := d . findRequiredFields ( f . typ , fcprefix , fspath + "." )
for key , fields := range fm {
m [ key ] = append ( m [ key ] , fields ... )
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}
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errs . merge ( ferrs )
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}
}
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if f . isRequired {
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key := canonicalPrefix + f . canonicalAlias
m [ key ] = append ( m [ key ] , fieldWithPrefix {
fieldInfo : f ,
prefix : searchPrefix ,
} )
}
}
return m , errs
}
type fieldWithPrefix struct {
* fieldInfo
prefix string
}
// isEmptyFields returns true if all of specified fields are empty.
func isEmptyFields ( fields [ ] fieldWithPrefix , src map [ string ] [ ] string ) bool {
for _ , f := range fields {
for _ , path := range f . paths ( f . prefix ) {
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v , ok := src [ path ]
if ok && ! isEmpty ( f . typ , v ) {
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return false
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}
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for key := range src {
if ! isEmpty ( f . typ , src [ key ] ) && strings . HasPrefix ( key , path ) {
return false
}
}
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}
}
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return true
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}
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// isEmpty returns true if value is empty for specific type
func isEmpty ( t reflect . Type , value [ ] string ) bool {
if len ( value ) == 0 {
return true
}
switch t . Kind ( ) {
case boolType , float32Type , float64Type , intType , int8Type , int32Type , int64Type , stringType , uint8Type , uint16Type , uint32Type , uint64Type :
return len ( value [ 0 ] ) == 0
}
return false
}
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// decode fills a struct field using a parsed path.
func ( d * Decoder ) decode ( v reflect . Value , path string , parts [ ] pathPart , values [ ] string ) error {
// Get the field walking the struct fields by index.
for _ , name := range parts [ 0 ] . path {
if v . Type ( ) . Kind ( ) == reflect . Ptr {
if v . IsNil ( ) {
v . Set ( reflect . New ( v . Type ( ) . Elem ( ) ) )
}
v = v . Elem ( )
}
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// alloc embedded structs
if v . Type ( ) . Kind ( ) == reflect . Struct {
for i := 0 ; i < v . NumField ( ) ; i ++ {
field := v . Field ( i )
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if field . Type ( ) . Kind ( ) == reflect . Ptr && field . IsNil ( ) && v . Type ( ) . Field ( i ) . Anonymous {
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field . Set ( reflect . New ( field . Type ( ) . Elem ( ) ) )
}
}
}
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v = v . FieldByName ( name )
}
// Don't even bother for unexported fields.
if ! v . CanSet ( ) {
return nil
}
// Dereference if needed.
t := v . Type ( )
if t . Kind ( ) == reflect . Ptr {
t = t . Elem ( )
if v . IsNil ( ) {
v . Set ( reflect . New ( t ) )
}
v = v . Elem ( )
}
// Slice of structs. Let's go recursive.
if len ( parts ) > 1 {
idx := parts [ 0 ] . index
if v . IsNil ( ) || v . Len ( ) < idx + 1 {
value := reflect . MakeSlice ( t , idx + 1 , idx + 1 )
if v . Len ( ) < idx + 1 {
// Resize it.
reflect . Copy ( value , v )
}
v . Set ( value )
}
return d . decode ( v . Index ( idx ) , path , parts [ 1 : ] , values )
}
// Get the converter early in case there is one for a slice type.
conv := d . cache . converter ( t )
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m := isTextUnmarshaler ( v )
if conv == nil && t . Kind ( ) == reflect . Slice && m . IsSliceElement {
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var items [ ] reflect . Value
elemT := t . Elem ( )
isPtrElem := elemT . Kind ( ) == reflect . Ptr
if isPtrElem {
elemT = elemT . Elem ( )
}
// Try to get a converter for the element type.
conv := d . cache . converter ( elemT )
if conv == nil {
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conv = builtinConverters [ elemT . Kind ( ) ]
if conv == nil {
// As we are not dealing with slice of structs here, we don't need to check if the type
// implements TextUnmarshaler interface
return fmt . Errorf ( "schema: converter not found for %v" , elemT )
}
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}
for key , value := range values {
if value == "" {
if d . zeroEmpty {
items = append ( items , reflect . Zero ( elemT ) )
}
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} else if m . IsValid {
u := reflect . New ( elemT )
if m . IsSliceElementPtr {
u = reflect . New ( reflect . PtrTo ( elemT ) . Elem ( ) )
}
if err := u . Interface ( ) . ( encoding . TextUnmarshaler ) . UnmarshalText ( [ ] byte ( value ) ) ; err != nil {
return ConversionError {
Key : path ,
Type : t ,
Index : key ,
Err : err ,
}
}
if m . IsSliceElementPtr {
items = append ( items , u . Elem ( ) . Addr ( ) )
} else if u . Kind ( ) == reflect . Ptr {
items = append ( items , u . Elem ( ) )
} else {
items = append ( items , u )
}
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} else if item := conv ( value ) ; item . IsValid ( ) {
if isPtrElem {
ptr := reflect . New ( elemT )
ptr . Elem ( ) . Set ( item )
item = ptr
}
if item . Type ( ) != elemT && ! isPtrElem {
item = item . Convert ( elemT )
}
items = append ( items , item )
} else {
if strings . Contains ( value , "," ) {
values := strings . Split ( value , "," )
for _ , value := range values {
if value == "" {
if d . zeroEmpty {
items = append ( items , reflect . Zero ( elemT ) )
}
} else if item := conv ( value ) ; item . IsValid ( ) {
if isPtrElem {
ptr := reflect . New ( elemT )
ptr . Elem ( ) . Set ( item )
item = ptr
}
if item . Type ( ) != elemT && ! isPtrElem {
item = item . Convert ( elemT )
}
items = append ( items , item )
} else {
return ConversionError {
Key : path ,
Type : elemT ,
Index : key ,
}
}
}
} else {
return ConversionError {
Key : path ,
Type : elemT ,
Index : key ,
}
}
}
}
value := reflect . Append ( reflect . MakeSlice ( t , 0 , 0 ) , items ... )
v . Set ( value )
} else {
val := ""
// Use the last value provided if any values were provided
if len ( values ) > 0 {
val = values [ len ( values ) - 1 ]
}
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if conv != nil {
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if value := conv ( val ) ; value . IsValid ( ) {
v . Set ( value . Convert ( t ) )
} else {
return ConversionError {
Key : path ,
Type : t ,
Index : - 1 ,
}
}
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} else if m . IsValid {
if m . IsPtr {
u := reflect . New ( v . Type ( ) )
if err := u . Interface ( ) . ( encoding . TextUnmarshaler ) . UnmarshalText ( [ ] byte ( val ) ) ; err != nil {
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return ConversionError {
Key : path ,
Type : t ,
Index : - 1 ,
Err : err ,
}
}
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v . Set ( reflect . Indirect ( u ) )
} else {
// If the value implements the encoding.TextUnmarshaler interface
// apply UnmarshalText as the converter
if err := m . Unmarshaler . UnmarshalText ( [ ] byte ( val ) ) ; err != nil {
return ConversionError {
Key : path ,
Type : t ,
Index : - 1 ,
Err : err ,
}
}
}
} else if val == "" {
if d . zeroEmpty {
v . Set ( reflect . Zero ( t ) )
}
} else if conv := builtinConverters [ t . Kind ( ) ] ; conv != nil {
if value := conv ( val ) ; value . IsValid ( ) {
v . Set ( value . Convert ( t ) )
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} else {
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return ConversionError {
Key : path ,
Type : t ,
Index : - 1 ,
}
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}
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} else {
return fmt . Errorf ( "schema: converter not found for %v" , t )
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}
}
return nil
}
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func isTextUnmarshaler ( v reflect . Value ) unmarshaler {
// Create a new unmarshaller instance
m := unmarshaler { }
if m . Unmarshaler , m . IsValid = v . Interface ( ) . ( encoding . TextUnmarshaler ) ; m . IsValid {
return m
}
// As the UnmarshalText function should be applied to the pointer of the
// type, we check that type to see if it implements the necessary
// method.
if m . Unmarshaler , m . IsValid = reflect . New ( v . Type ( ) ) . Interface ( ) . ( encoding . TextUnmarshaler ) ; m . IsValid {
m . IsPtr = true
return m
}
// if v is []T or *[]T create new T
t := v . Type ( )
if t . Kind ( ) == reflect . Ptr {
t = t . Elem ( )
}
if t . Kind ( ) == reflect . Slice {
// Check if the slice implements encoding.TextUnmarshaller
if m . Unmarshaler , m . IsValid = v . Interface ( ) . ( encoding . TextUnmarshaler ) ; m . IsValid {
return m
}
// If t is a pointer slice, check if its elements implement
// encoding.TextUnmarshaler
m . IsSliceElement = true
if t = t . Elem ( ) ; t . Kind ( ) == reflect . Ptr {
t = reflect . PtrTo ( t . Elem ( ) )
v = reflect . Zero ( t )
m . IsSliceElementPtr = true
m . Unmarshaler , m . IsValid = v . Interface ( ) . ( encoding . TextUnmarshaler )
return m
}
}
v = reflect . New ( t )
m . Unmarshaler , m . IsValid = v . Interface ( ) . ( encoding . TextUnmarshaler )
return m
}
// TextUnmarshaler helpers ----------------------------------------------------
// unmarshaller contains information about a TextUnmarshaler type
type unmarshaler struct {
Unmarshaler encoding . TextUnmarshaler
// IsValid indicates whether the resolved type indicated by the other
// flags implements the encoding.TextUnmarshaler interface.
IsValid bool
// IsPtr indicates that the resolved type is the pointer of the original
// type.
IsPtr bool
// IsSliceElement indicates that the resolved type is a slice element of
// the original type.
IsSliceElement bool
// IsSliceElementPtr indicates that the resolved type is a pointer to a
// slice element of the original type.
IsSliceElementPtr bool
}
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// Errors ---------------------------------------------------------------------
// ConversionError stores information about a failed conversion.
type ConversionError struct {
Key string // key from the source map.
Type reflect . Type // expected type of elem
Index int // index for multi-value fields; -1 for single-value fields.
Err error // low-level error (when it exists)
}
func ( e ConversionError ) Error ( ) string {
var output string
if e . Index < 0 {
output = fmt . Sprintf ( "schema: error converting value for %q" , e . Key )
} else {
output = fmt . Sprintf ( "schema: error converting value for index %d of %q" ,
e . Index , e . Key )
}
if e . Err != nil {
output = fmt . Sprintf ( "%s. Details: %s" , output , e . Err )
}
return output
}
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// UnknownKeyError stores information about an unknown key in the source map.
type UnknownKeyError struct {
Key string // key from the source map.
}
func ( e UnknownKeyError ) Error ( ) string {
return fmt . Sprintf ( "schema: invalid path %q" , e . Key )
}
// EmptyFieldError stores information about an empty required field.
type EmptyFieldError struct {
Key string // required key in the source map.
}
func ( e EmptyFieldError ) Error ( ) string {
return fmt . Sprintf ( "%v is empty" , e . Key )
}
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// MultiError stores multiple decoding errors.
//
// Borrowed from the App Engine SDK.
type MultiError map [ string ] error
func ( e MultiError ) Error ( ) string {
s := ""
for _ , err := range e {
s = err . Error ( )
break
}
switch len ( e ) {
case 0 :
return "(0 errors)"
case 1 :
return s
case 2 :
return s + " (and 1 other error)"
}
return fmt . Sprintf ( "%s (and %d other errors)" , s , len ( e ) - 1 )
}
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func ( e MultiError ) merge ( errors MultiError ) {
for key , err := range errors {
if e [ key ] == nil {
e [ key ] = err
}
}
}