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validator
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Investigating difference speed architectures

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investigation if goroutines in a consumer producer pattern vs passing a map
Spoiler: the map wins out big time!
pull/114/head
joeybloggs 10 years ago
parent ed304c7fdf
commit c62550c414
5 changed files with 4723 additions and 4564 deletions
Show all changes Ignore whitespace when comparing lines Ignore changes in amount of whitespace Ignore changes in whitespace at EOL
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  1. 248
      benchmarks_test.go
  2. 180
      examples_test.go
  3. 989
      old/validator_old.go
  4. 1036
      validator.go
  5. 6566
      validator_test.go

248
benchmarks_test.go
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@ -2,11 +2,11 @@ package validator
import "testing" import "testing"
func BenchmarkValidateField(b *testing.B) { // func BenchmarkValidateField(b *testing.B) {
for n := 0; n < b.N; n++ { // for n := 0; n < b.N; n++ {
validate.Field("1", "len=1") // validate.Field("1", "len=1")
} // }
} // }
func BenchmarkValidateStructSimple(b *testing.B) { func BenchmarkValidateStructSimple(b *testing.B) {
@ -42,122 +42,122 @@ func BenchmarkTemplateParallelSimple(b *testing.B) {
}) })
} }
func BenchmarkValidateStructLarge(b *testing.B) { // func BenchmarkValidateStructLarge(b *testing.B) {
tFail := &TestString{ // tFail := &TestString{
Required: "", // Required: "",
Len: "", // Len: "",
Min: "", // Min: "",
Max: "12345678901", // Max: "12345678901",
MinMax: "", // MinMax: "",
Lt: "0123456789", // Lt: "0123456789",
Lte: "01234567890", // Lte: "01234567890",
Gt: "1", // Gt: "1",
Gte: "1", // Gte: "1",
OmitEmpty: "12345678901", // OmitEmpty: "12345678901",
Sub: &SubTest{ // Sub: &SubTest{
Test: "", // Test: "",
}, // },
Anonymous: struct { // Anonymous: struct {
A string `validate:"required"` // A string `validate:"required"`
}{ // }{
A: "", // A: "",
}, // },
Iface: &Impl{ // Iface: &Impl{
F: "12", // F: "12",
}, // },
} // }
tSuccess := &TestString{ // tSuccess := &TestString{
Required: "Required", // Required: "Required",
Len: "length==10", // Len: "length==10",
Min: "min=1", // Min: "min=1",
Max: "1234567890", // Max: "1234567890",
MinMax: "12345", // MinMax: "12345",
Lt: "012345678", // Lt: "012345678",
Lte: "0123456789", // Lte: "0123456789",
Gt: "01234567890", // Gt: "01234567890",
Gte: "0123456789", // Gte: "0123456789",
OmitEmpty: "", // OmitEmpty: "",
Sub: &SubTest{ // Sub: &SubTest{
Test: "1", // Test: "1",
}, // },
SubIgnore: &SubTest{ // SubIgnore: &SubTest{
Test: "", // Test: "",
}, // },
Anonymous: struct { // Anonymous: struct {
A string `validate:"required"` // A string `validate:"required"`
}{ // }{
A: "1", // A: "1",
}, // },
Iface: &Impl{ // Iface: &Impl{
F: "123", // F: "123",
}, // },
} // }
for n := 0; n < b.N; n++ { // for n := 0; n < b.N; n++ {
validate.Struct(tSuccess) // validate.Struct(tSuccess)
validate.Struct(tFail) // validate.Struct(tFail)
} // }
} // }
func BenchmarkTemplateParallelLarge(b *testing.B) { // func BenchmarkTemplateParallelLarge(b *testing.B) {
tFail := &TestString{ // tFail := &TestString{
Required: "", // Required: "",
Len: "", // Len: "",
Min: "", // Min: "",
Max: "12345678901", // Max: "12345678901",
MinMax: "", // MinMax: "",
Lt: "0123456789", // Lt: "0123456789",
Lte: "01234567890", // Lte: "01234567890",
Gt: "1", // Gt: "1",
Gte: "1", // Gte: "1",
OmitEmpty: "12345678901", // OmitEmpty: "12345678901",
Sub: &SubTest{ // Sub: &SubTest{
Test: "", // Test: "",
}, // },
Anonymous: struct { // Anonymous: struct {
A string `validate:"required"` // A string `validate:"required"`
}{ // }{
A: "", // A: "",
}, // },
Iface: &Impl{ // Iface: &Impl{
F: "12", // F: "12",
}, // },
} // }
tSuccess := &TestString{ // tSuccess := &TestString{
Required: "Required", // Required: "Required",
Len: "length==10", // Len: "length==10",
Min: "min=1", // Min: "min=1",
Max: "1234567890", // Max: "1234567890",
MinMax: "12345", // MinMax: "12345",
Lt: "012345678", // Lt: "012345678",
Lte: "0123456789", // Lte: "0123456789",
Gt: "01234567890", // Gt: "01234567890",
Gte: "0123456789", // Gte: "0123456789",
OmitEmpty: "", // OmitEmpty: "",
Sub: &SubTest{ // Sub: &SubTest{
Test: "1", // Test: "1",
}, // },
SubIgnore: &SubTest{ // SubIgnore: &SubTest{
Test: "", // Test: "",
}, // },
Anonymous: struct { // Anonymous: struct {
A string `validate:"required"` // A string `validate:"required"`
}{ // }{
A: "1", // A: "1",
}, // },
Iface: &Impl{ // Iface: &Impl{
F: "123", // F: "123",
}, // },
} // }
b.RunParallel(func(pb *testing.PB) { // b.RunParallel(func(pb *testing.PB) {
for pb.Next() { // for pb.Next() {
validate.Struct(tSuccess) // validate.Struct(tSuccess)
validate.Struct(tFail) // validate.Struct(tFail)
} // }
}) // })
} // }

180
examples_test.go
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@ -1,95 +1,89 @@
package validator_test package validator_test
import ( // func ExampleValidate_new() {
"fmt" // validator.New("validate", validator.BakedInValidators)
// }
"../validator"
) // func ExampleValidate_addFunction() {
// // This should be stored somewhere globally
func ExampleValidate_new() { // var validate *validator.Validate
validator.New("validate", validator.BakedInValidators)
} // validate = validator.New("validate", validator.BakedInValidators)
func ExampleValidate_addFunction() { // fn := func(top interface{}, current interface{}, field interface{}, param string) bool {
// This should be stored somewhere globally // return field.(string) == "hello"
var validate *validator.Validate // }
validate = validator.New("validate", validator.BakedInValidators) // validate.AddFunction("valueishello", fn)
fn := func(top interface{}, current interface{}, field interface{}, param string) bool { // message := "hello"
return field.(string) == "hello" // err := validate.Field(message, "valueishello")
} // fmt.Println(err)
// //Output:
validate.AddFunction("valueishello", fn) // //<nil>
// }
message := "hello"
err := validate.Field(message, "valueishello") // func ExampleValidate_field() {
fmt.Println(err) // // This should be stored somewhere globally
//Output: // var validate *validator.Validate
//<nil>
} // validate = validator.New("validate", validator.BakedInValidators)
func ExampleValidate_field() { // i := 0
// This should be stored somewhere globally // err := validate.Field(i, "gt=1,lte=10")
var validate *validator.Validate // fmt.Println(err.Field)
// fmt.Println(err.Tag)
validate = validator.New("validate", validator.BakedInValidators) // fmt.Println(err.Kind) // NOTE: Kind and Type can be different i.e. time Kind=struct and Type=time.Time
// fmt.Println(err.Type)
i := 0 // fmt.Println(err.Param)
err := validate.Field(i, "gt=1,lte=10") // fmt.Println(err.Value)
fmt.Println(err.Field) // //Output:
fmt.Println(err.Tag) // //
fmt.Println(err.Kind) // NOTE: Kind and Type can be different i.e. time Kind=struct and Type=time.Time // //gt
fmt.Println(err.Type) // //int
fmt.Println(err.Param) // //int
fmt.Println(err.Value) // //1
//Output: // //0
// // }
//gt
//int // func ExampleValidate_struct() {
//int // // This should be stored somewhere globally
//1 // var validate *validator.Validate
//0
} // validate = validator.New("validate", validator.BakedInValidators)
func ExampleValidate_struct() { // type ContactInformation struct {
// This should be stored somewhere globally // Phone string `validate:"required"`
var validate *validator.Validate // Street string `validate:"required"`
// City string `validate:"required"`
validate = validator.New("validate", validator.BakedInValidators) // }
type ContactInformation struct { // type User struct {
Phone string `validate:"required"` // Name string `validate:"required,excludesall=!@#$%^&*()_+-=:;?/0x2C"` // 0x2C = comma (,)
Street string `validate:"required"` // Age int8 `validate:"required,gt=0,lt=150"`
City string `validate:"required"` // Email string `validate:"email"`
} // ContactInformation []*ContactInformation
// }
type User struct {
Name string `validate:"required,excludesall=!@#$%^&*()_+-=:;?/0x2C"` // 0x2C = comma (,) // contactInfo := &ContactInformation{
Age int8 `validate:"required,gt=0,lt=150"` // Street: "26 Here Blvd.",
Email string `validate:"email"` // City: "Paradeso",
ContactInformation []*ContactInformation // }
}
// user := &User{
contactInfo := &ContactInformation{ // Name: "Joey Bloggs",
Street: "26 Here Blvd.", // Age: 31,
City: "Paradeso", // Email: "joeybloggs@gmail.com",
} // ContactInformation: []*ContactInformation{contactInfo},
// }
user := &User{
Name: "Joey Bloggs", // structError := validate.Struct(user)
Age: 31, // for _, fieldError := range structError.Errors {
Email: "joeybloggs@gmail.com", // fmt.Println(fieldError.Field) // Phone
ContactInformation: []*ContactInformation{contactInfo}, // fmt.Println(fieldError.Tag) // required
} // //... and so forth
// //Output:
structError := validate.Struct(user) // //Phone
for _, fieldError := range structError.Errors { // //required
fmt.Println(fieldError.Field) // Phone // }
fmt.Println(fieldError.Tag) // required // }
//... and so forth
//Output:
//Phone
//required
}
}

989
old/validator_old.go
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@ -0,0 +1,989 @@
/**
* Package validator
*
* MISC:
* - anonymous structs - they don't have names so expect the Struct name within StructErrors to be blank
*
*/
package validator
import (
"bytes"
"errors"
"fmt"
"reflect"
"strings"
"sync"
"time"
"unicode"
)
const (
utf8HexComma = "0x2C"
tagSeparator = ","
orSeparator = "|"
noValidationTag = "-"
tagKeySeparator = "="
structOnlyTag = "structonly"
omitempty = "omitempty"
required = "required"
fieldErrMsg = "Field validation for \"%s\" failed on the \"%s\" tag"
sliceErrMsg = "Field validation for \"%s\" failed at index \"%d\" with error(s): %s"
mapErrMsg = "Field validation for \"%s\" failed on key \"%v\" with error(s): %s"
structErrMsg = "Struct:%s\n"
diveTag = "dive"
arrayIndexFieldName = "%s[%d]"
mapIndexFieldName = "%s[%v]"
)
var structPool *sync.Pool
// returns new *StructErrors to the pool
func newStructErrors() interface{} {
return &StructErrors{
Errors: map[string]*FieldError{},
StructErrors: map[string]*StructErrors{},
}
}
type cachedTags struct {
keyVals [][]string
isOrVal bool
}
type cachedField struct {
index int
name string
tags []*cachedTags
tag string
kind reflect.Kind
typ reflect.Type
isTime bool
isSliceOrArray bool
isMap bool
isTimeSubtype bool
sliceSubtype reflect.Type
mapSubtype reflect.Type
sliceSubKind reflect.Kind
mapSubKind reflect.Kind
dive bool
diveTag string
}
type cachedStruct struct {
children int
name string
kind reflect.Kind
fields []*cachedField
}
type structsCacheMap struct {
lock sync.RWMutex
m map[reflect.Type]*cachedStruct
}
func (s *structsCacheMap) Get(key reflect.Type) (*cachedStruct, bool) {
s.lock.RLock()
defer s.lock.RUnlock()
value, ok := s.m[key]
return value, ok
}
func (s *structsCacheMap) Set(key reflect.Type, value *cachedStruct) {
s.lock.Lock()
defer s.lock.Unlock()
s.m[key] = value
}
var structCache = &structsCacheMap{m: map[reflect.Type]*cachedStruct{}}
type fieldsCacheMap struct {
lock sync.RWMutex
m map[string][]*cachedTags
}
func (s *fieldsCacheMap) Get(key string) ([]*cachedTags, bool) {
s.lock.RLock()
defer s.lock.RUnlock()
value, ok := s.m[key]
return value, ok
}
func (s *fieldsCacheMap) Set(key string, value []*cachedTags) {
s.lock.Lock()
defer s.lock.Unlock()
s.m[key] = value
}
var fieldsCache = &fieldsCacheMap{m: map[string][]*cachedTags{}}
// FieldError contains a single field's validation error along
// with other properties that may be needed for error message creation
type FieldError struct {
Field string
Tag string
Kind reflect.Kind
Type reflect.Type
Param string
Value interface{}
IsPlaceholderErr bool
IsSliceOrArray bool
IsMap bool
SliceOrArrayErrs map[int]error // counld be FieldError, StructErrors
MapErrs map[interface{}]error // counld be FieldError, StructErrors
}
// This is intended for use in development + debugging and not intended to be a production error message.
// it also allows FieldError to be used as an Error interface
func (e *FieldError) Error() string {
if e.IsPlaceholderErr {
buff := bytes.NewBufferString("")
if e.IsSliceOrArray {
for j, err := range e.SliceOrArrayErrs {
buff.WriteString("\n")
buff.WriteString(fmt.Sprintf(sliceErrMsg, e.Field, j, "\n"+err.Error()))
}
} else if e.IsMap {
for key, err := range e.MapErrs {
buff.WriteString(fmt.Sprintf(mapErrMsg, e.Field, key, "\n"+err.Error()))
}
}
return strings.TrimSpace(buff.String())
}
return fmt.Sprintf(fieldErrMsg, e.Field, e.Tag)
}
// Flatten flattens the FieldError hierarchical structure into a flat namespace style field name
// for those that want/need it.
// This is now needed because of the new dive functionality
func (e *FieldError) Flatten() map[string]*FieldError {
errs := map[string]*FieldError{}
if e.IsPlaceholderErr {
if e.IsSliceOrArray {
for key, err := range e.SliceOrArrayErrs {
fe, ok := err.(*FieldError)
if ok {
if flat := fe.Flatten(); flat != nil && len(flat) > 0 {
for k, v := range flat {
if fe.IsPlaceholderErr {
errs[fmt.Sprintf("[%#v]%s", key, k)] = v
} else {
errs[fmt.Sprintf("[%#v]", key)] = v
}
}
}
} else {
se := err.(*StructErrors)
if flat := se.Flatten(); flat != nil && len(flat) > 0 {
for k, v := range flat {
errs[fmt.Sprintf("[%#v].%s.%s", key, se.Struct, k)] = v
}
}
}
}
}
if e.IsMap {
for key, err := range e.MapErrs {
fe, ok := err.(*FieldError)
if ok {
if flat := fe.Flatten(); flat != nil && len(flat) > 0 {
for k, v := range flat {
if fe.IsPlaceholderErr {
errs[fmt.Sprintf("[%#v]%s", key, k)] = v
} else {
errs[fmt.Sprintf("[%#v]", key)] = v
}
}
}
} else {
se := err.(*StructErrors)
if flat := se.Flatten(); flat != nil && len(flat) > 0 {
for k, v := range flat {
errs[fmt.Sprintf("[%#v].%s.%s", key, se.Struct, k)] = v
}
}
}
}
}
return errs
}
errs[e.Field] = e
return errs
}
// StructErrors is hierarchical list of field and struct validation errors
// for a non hierarchical representation please see the Flatten method for StructErrors
type StructErrors struct {
// Name of the Struct
Struct string
// Struct Field Errors
Errors map[string]*FieldError
// Struct Fields of type struct and their errors
// key = Field Name of current struct, but internally Struct will be the actual struct name unless anonymous struct, it will be blank
StructErrors map[string]*StructErrors
}
// This is intended for use in development + debugging and not intended to be a production error message.
// it also allows StructErrors to be used as an Error interface
func (e *StructErrors) Error() string {
buff := bytes.NewBufferString(fmt.Sprintf(structErrMsg, e.Struct))
for _, err := range e.Errors {
buff.WriteString(err.Error())
buff.WriteString("\n")
}
for _, err := range e.StructErrors {
buff.WriteString(err.Error())
}
return strings.TrimSpace(buff.String())
}
// Flatten flattens the StructErrors hierarchical structure into a flat namespace style field name
// for those that want/need it
func (e *StructErrors) Flatten() map[string]*FieldError {
if e == nil {
return nil
}
errs := map[string]*FieldError{}
for _, f := range e.Errors {
if flat := f.Flatten(); flat != nil && len(flat) > 0 {
for k, fe := range flat {
if f.IsPlaceholderErr {
errs[f.Field+k] = fe
} else {
errs[k] = fe
}
}
}
}
for key, val := range e.StructErrors {
otherErrs := val.Flatten()
for _, f2 := range otherErrs {
f2.Field = fmt.Sprintf("%s.%s", key, f2.Field)
errs[f2.Field] = f2
}
}
return errs
}
// Func accepts all values needed for file and cross field validation
// top = top level struct when validating by struct otherwise nil
// current = current level struct when validating by struct otherwise optional comparison value
// f = field value for validation
// param = parameter used in validation i.e. gt=0 param would be 0
type Func func(top interface{}, current interface{}, f interface{}, param string) bool
// Validate implements the Validate Struct
// NOTE: Fields within are not thread safe and that is on purpose
// Functions and Tags should all be predifined before use, so subscribe to the philosiphy
// or make it thread safe on your end
type Validate struct {
// tagName being used.
tagName string
// validateFuncs is a map of validation functions and the tag keys
validationFuncs map[string]Func
}
// New creates a new Validate instance for use.
func New(tagName string, funcs map[string]Func) *Validate {
structPool = &sync.Pool{New: newStructErrors}
return &Validate{
tagName: tagName,
validationFuncs: funcs,
}
}
// SetTag sets tagName of the Validator to one of your choosing after creation
// perhaps to dodge a tag name conflict in a specific section of code
// NOTE: this method is not thread-safe
func (v *Validate) SetTag(tagName string) {
v.tagName = tagName
}
// SetMaxStructPoolSize sets the struct pools max size. this may be usefull for fine grained
// performance tuning towards your application, however, the default should be fine for
// nearly all cases. only increase if you have a deeply nested struct structure.
// NOTE: this method is not thread-safe
// NOTE: this is only here to keep compatibility with v5, in v6 the method will be removed
func (v *Validate) SetMaxStructPoolSize(max int) {
structPool = &sync.Pool{New: newStructErrors}
}
// AddFunction adds a validation Func to a Validate's map of validators denoted by the key
// NOTE: if the key already exists, it will get replaced.
// NOTE: this method is not thread-safe
func (v *Validate) AddFunction(key string, f Func) error {
if len(key) == 0 {
return errors.New("Function Key cannot be empty")
}
if f == nil {
return errors.New("Function cannot be empty")
}
v.validationFuncs[key] = f
return nil
}
// Struct validates a struct, even it's nested structs, and returns a struct containing the errors
// NOTE: Nested Arrays, or Maps of structs do not get validated only the Array or Map itself; the reason is that there is no good
// way to represent or report which struct within the array has the error, besides can validate the struct prior to adding it to
// the Array or Map.
func (v *Validate) Struct(s interface{}) *StructErrors {
return v.structRecursive(s, s, s)
}
// structRecursive validates a struct recursivly and passes the top level and current struct around for use in validator functions and returns a struct containing the errors
func (v *Validate) structRecursive(top interface{}, current interface{}, s interface{}) *StructErrors {
structValue := reflect.ValueOf(s)
if structValue.Kind() == reflect.Ptr && !structValue.IsNil() {
return v.structRecursive(top, current, structValue.Elem().Interface())
}
if structValue.Kind() != reflect.Struct && structValue.Kind() != reflect.Interface {
panic("interface passed for validation is not a struct")
}
structType := reflect.TypeOf(s)
var structName string
var numFields int
var cs *cachedStruct
var isCached bool
cs, isCached = structCache.Get(structType)
if isCached {
structName = cs.name
numFields = cs.children
} else {
structName = structType.Name()
numFields = structValue.NumField()
cs = &cachedStruct{name: structName, children: numFields}
}
validationErrors := structPool.Get().(*StructErrors)
validationErrors.Struct = structName
for i := 0; i < numFields; i++ {
var valueField reflect.Value
var cField *cachedField
var typeField reflect.StructField
if isCached {
cField = cs.fields[i]
valueField = structValue.Field(cField.index)
if valueField.Kind() == reflect.Ptr && !valueField.IsNil() {
valueField = valueField.Elem()
}
} else {
valueField = structValue.Field(i)
if valueField.Kind() == reflect.Ptr && !valueField.IsNil() {
valueField = valueField.Elem()
}
typeField = structType.Field(i)
cField = &cachedField{index: i, tag: typeField.Tag.Get(v.tagName), isTime: (valueField.Type() == reflect.TypeOf(time.Time{}) || valueField.Type() == reflect.TypeOf(&time.Time{}))}
if cField.tag == noValidationTag {
cs.children--
continue
}
// if no validation and not a struct (which may containt fields for validation)
if cField.tag == "" && ((valueField.Kind() != reflect.Struct && valueField.Kind() != reflect.Interface) || valueField.Type() == reflect.TypeOf(time.Time{})) {
cs.children--
continue
}
cField.name = typeField.Name
cField.kind = valueField.Kind()
cField.typ = valueField.Type()
}
// this can happen if the first cache value was nil
// but the second actually has a value
if cField.kind == reflect.Ptr {
cField.kind = valueField.Kind()
}
switch cField.kind {
case reflect.Struct, reflect.Interface:
if !unicode.IsUpper(rune(cField.name[0])) {
cs.children--
continue
}
if cField.isTime {
if fieldError := v.fieldWithNameAndValue(top, current, valueField.Interface(), cField.tag, cField.name, false, cField); fieldError != nil {
validationErrors.Errors[fieldError.Field] = fieldError
// free up memory reference
fieldError = nil
}
} else {
if strings.Contains(cField.tag, structOnlyTag) {
cs.children--
continue
}
if (valueField.Kind() == reflect.Ptr || cField.kind == reflect.Interface) && valueField.IsNil() {
if strings.Contains(cField.tag, omitempty) {
goto CACHEFIELD
}
tags := strings.Split(cField.tag, tagSeparator)
if len(tags) > 0 {
var param string
vals := strings.SplitN(tags[0], tagKeySeparator, 2)
if len(vals) > 1 {
param = vals[1]
}
validationErrors.Errors[cField.name] = &FieldError{
Field: cField.name,
Tag: vals[0],
Param: param,
Value: valueField.Interface(),
Kind: valueField.Kind(),
Type: valueField.Type(),
}
goto CACHEFIELD
}
}
// if we get here, the field is interface and could be a struct or a field
// and we need to check the inner type and validate
if cField.kind == reflect.Interface {
valueField = valueField.Elem()
if valueField.Kind() == reflect.Ptr && !valueField.IsNil() {
valueField = valueField.Elem()
}
if valueField.Kind() == reflect.Struct {
goto VALIDATESTRUCT
}
// sending nil for cField as it was type interface and could be anything
// each time and so must be calculated each time and can't be cached reliably
if fieldError := v.fieldWithNameAndValue(top, current, valueField.Interface(), cField.tag, cField.name, false, nil); fieldError != nil {
validationErrors.Errors[fieldError.Field] = fieldError
// free up memory reference
fieldError = nil
}
goto CACHEFIELD
}
VALIDATESTRUCT:
if structErrors := v.structRecursive(top, valueField.Interface(), valueField.Interface()); structErrors != nil {
validationErrors.StructErrors[cField.name] = structErrors
// free up memory map no longer needed
structErrors = nil
}
}
case reflect.Slice, reflect.Array:
cField.isSliceOrArray = true
cField.sliceSubtype = cField.typ.Elem()
cField.isTimeSubtype = (cField.sliceSubtype == reflect.TypeOf(time.Time{}) || cField.sliceSubtype == reflect.TypeOf(&time.Time{}))
cField.sliceSubKind = cField.sliceSubtype.Kind()
if fieldError := v.fieldWithNameAndValue(top, current, valueField.Interface(), cField.tag, cField.name, false, cField); fieldError != nil {
validationErrors.Errors[fieldError.Field] = fieldError
// free up memory reference
fieldError = nil
}
case reflect.Map:
cField.isMap = true
cField.mapSubtype = cField.typ.Elem()
cField.isTimeSubtype = (cField.mapSubtype == reflect.TypeOf(time.Time{}) || cField.mapSubtype == reflect.TypeOf(&time.Time{}))
cField.mapSubKind = cField.mapSubtype.Kind()
if fieldError := v.fieldWithNameAndValue(top, current, valueField.Interface(), cField.tag, cField.name, false, cField); fieldError != nil {
validationErrors.Errors[fieldError.Field] = fieldError
// free up memory reference
fieldError = nil
}
default:
if fieldError := v.fieldWithNameAndValue(top, current, valueField.Interface(), cField.tag, cField.name, false, cField); fieldError != nil {
validationErrors.Errors[fieldError.Field] = fieldError
// free up memory reference
fieldError = nil
}
}
CACHEFIELD:
if !isCached {
cs.fields = append(cs.fields, cField)
}
}
structCache.Set(structType, cs)
if len(validationErrors.Errors) == 0 && len(validationErrors.StructErrors) == 0 {
structPool.Put(validationErrors)
return nil
}
return validationErrors
}
// Field allows validation of a single field, still using tag style validation to check multiple errors
func (v *Validate) Field(f interface{}, tag string) *FieldError {
return v.FieldWithValue(nil, f, tag)
}
// FieldWithValue allows validation of a single field, possibly even against another fields value, still using tag style validation to check multiple errors
func (v *Validate) FieldWithValue(val interface{}, f interface{}, tag string) *FieldError {
return v.fieldWithNameAndValue(nil, val, f, tag, "", true, nil)
}
func (v *Validate) fieldWithNameAndValue(val interface{}, current interface{}, f interface{}, tag string, name string, isSingleField bool, cacheField *cachedField) *FieldError {
var cField *cachedField
var isCached bool
var valueField reflect.Value
// This is a double check if coming from validate.Struct but need to be here in case function is called directly
if tag == noValidationTag || tag == "" {
return nil
}
if strings.Contains(tag, omitempty) && !hasValue(val, current, f, "") {
return nil
}
valueField = reflect.ValueOf(f)
if cacheField == nil {
if valueField.Kind() == reflect.Ptr && !valueField.IsNil() {
valueField = valueField.Elem()
f = valueField.Interface()
}
cField = &cachedField{name: name, kind: valueField.Kind(), tag: tag, typ: valueField.Type()}
switch cField.kind {
case reflect.Slice, reflect.Array:
isSingleField = false // cached tags mean nothing because it will be split up while diving
cField.isSliceOrArray = true
cField.sliceSubtype = cField.typ.Elem()
cField.isTimeSubtype = (cField.sliceSubtype == reflect.TypeOf(time.Time{}) || cField.sliceSubtype == reflect.TypeOf(&time.Time{}))
cField.sliceSubKind = cField.sliceSubtype.Kind()
case reflect.Map:
isSingleField = false // cached tags mean nothing because it will be split up while diving
cField.isMap = true
cField.mapSubtype = cField.typ.Elem()
cField.isTimeSubtype = (cField.mapSubtype == reflect.TypeOf(time.Time{}) || cField.mapSubtype == reflect.TypeOf(&time.Time{}))
cField.mapSubKind = cField.mapSubtype.Kind()
}
} else {
cField = cacheField
}
switch cField.kind {
case reflect.Struct, reflect.Interface, reflect.Invalid:
if cField.typ != reflect.TypeOf(time.Time{}) {
panic("Invalid field passed to fieldWithNameAndValue")
}
}
if len(cField.tags) == 0 {
if isSingleField {
cField.tags, isCached = fieldsCache.Get(tag)
}
if !isCached {
for _, t := range strings.Split(tag, tagSeparator) {
if t == diveTag {
cField.dive = true
cField.diveTag = strings.TrimLeft(strings.SplitN(tag, diveTag, 2)[1], ",")
break
}
orVals := strings.Split(t, orSeparator)
cTag := &cachedTags{isOrVal: len(orVals) > 1, keyVals: make([][]string, len(orVals))}
cField.tags = append(cField.tags, cTag)
for i, val := range orVals {
vals := strings.SplitN(val, tagKeySeparator, 2)
key := strings.TrimSpace(vals[0])
if len(key) == 0 {
panic(fmt.Sprintf("Invalid validation tag on field %s", name))
}
param := ""
if len(vals) > 1 {
param = strings.Replace(vals[1], utf8HexComma, ",", -1)
}
cTag.keyVals[i] = []string{key, param}
}
}
if isSingleField {
fieldsCache.Set(cField.tag, cField.tags)
}
}
}
var fieldErr *FieldError
var err error
for _, cTag := range cField.tags {
if cTag.isOrVal {
errTag := ""
for _, val := range cTag.keyVals {
fieldErr, err = v.fieldWithNameAndSingleTag(val, current, f, val[0], val[1], name)
if err == nil {
return nil
}
errTag += orSeparator + fieldErr.Tag
}
errTag = strings.TrimLeft(errTag, orSeparator)
fieldErr.Tag = errTag
fieldErr.Kind = cField.kind
fieldErr.Type = cField.typ
return fieldErr
}
if fieldErr, err = v.fieldWithNameAndSingleTag(val, current, f, cTag.keyVals[0][0], cTag.keyVals[0][1], name); err != nil {
fieldErr.Kind = cField.kind
fieldErr.Type = cField.typ
return fieldErr
}
}
if cField.dive {
if cField.isSliceOrArray {
if errs := v.traverseSliceOrArray(val, current, valueField, cField); errs != nil && len(errs) > 0 {
return &FieldError{
Field: cField.name,
Kind: cField.kind,
Type: cField.typ,
Value: f,
IsPlaceholderErr: true,
IsSliceOrArray: true,
SliceOrArrayErrs: errs,
}
}
} else if cField.isMap {
if errs := v.traverseMap(val, current, valueField, cField); errs != nil && len(errs) > 0 {
return &FieldError{
Field: cField.name,
Kind: cField.kind,
Type: cField.typ,
Value: f,
IsPlaceholderErr: true,
IsMap: true,
MapErrs: errs,
}
}
} else {
// throw error, if not a slice or map then should not have gotten here
panic("dive error! can't dive on a non slice or map")
}
}
return nil
}
func (v *Validate) traverseMap(val interface{}, current interface{}, valueField reflect.Value, cField *cachedField) map[interface{}]error {
errs := map[interface{}]error{}
for _, key := range valueField.MapKeys() {
idxField := valueField.MapIndex(key)
if cField.mapSubKind == reflect.Ptr && !idxField.IsNil() {
idxField = idxField.Elem()
cField.mapSubKind = idxField.Kind()
}
switch cField.mapSubKind {
case reflect.Struct, reflect.Interface:
if cField.isTimeSubtype {
if fieldError := v.fieldWithNameAndValue(val, current, idxField.Interface(), cField.diveTag, fmt.Sprintf(mapIndexFieldName, cField.name, key.Interface()), false, nil); fieldError != nil {
errs[key.Interface()] = fieldError
}
continue
}
if (idxField.Kind() == reflect.Ptr || idxField.Kind() == reflect.Interface) && idxField.IsNil() {
if strings.Contains(cField.diveTag, omitempty) {
continue
}
tags := strings.Split(cField.diveTag, tagSeparator)
if len(tags) > 0 {
var param string
vals := strings.SplitN(tags[0], tagKeySeparator, 2)
if len(vals) > 1 {
param = vals[1]
}
errs[key.Interface()] = &FieldError{
Field: fmt.Sprintf(mapIndexFieldName, cField.name, key.Interface()),
Tag: vals[0],
Param: param,
Value: idxField.Interface(),
Kind: idxField.Kind(),
Type: cField.mapSubtype,
}
}
continue
}
// if we get here, the field is interface and could be a struct or a field
// and we need to check the inner type and validate
if idxField.Kind() == reflect.Interface {
idxField = idxField.Elem()
if idxField.Kind() == reflect.Ptr && !idxField.IsNil() {
idxField = idxField.Elem()
}
if idxField.Kind() == reflect.Struct {
goto VALIDATESTRUCT
}
// sending nil for cField as it was type interface and could be anything
// each time and so must be calculated each time and can't be cached reliably
if fieldError := v.fieldWithNameAndValue(val, current, idxField.Interface(), cField.diveTag, fmt.Sprintf(mapIndexFieldName, cField.name, key.Interface()), false, nil); fieldError != nil {
errs[key.Interface()] = fieldError
}
continue
}
VALIDATESTRUCT:
if structErrors := v.structRecursive(val, current, idxField.Interface()); structErrors != nil {
errs[key.Interface()] = structErrors
}
default:
if fieldError := v.fieldWithNameAndValue(val, current, idxField.Interface(), cField.diveTag, fmt.Sprintf(mapIndexFieldName, cField.name, key.Interface()), false, nil); fieldError != nil {
errs[key.Interface()] = fieldError
}
}
}
return errs
}
func (v *Validate) traverseSliceOrArray(val interface{}, current interface{}, valueField reflect.Value, cField *cachedField) map[int]error {
errs := map[int]error{}
for i := 0; i < valueField.Len(); i++ {
idxField := valueField.Index(i)
if cField.sliceSubKind == reflect.Ptr && !idxField.IsNil() {
idxField = idxField.Elem()
cField.sliceSubKind = idxField.Kind()
}
switch cField.sliceSubKind {
case reflect.Struct, reflect.Interface:
if cField.isTimeSubtype {
if fieldError := v.fieldWithNameAndValue(val, current, idxField.Interface(), cField.diveTag, fmt.Sprintf(arrayIndexFieldName, cField.name, i), false, nil); fieldError != nil {
errs[i] = fieldError
}
continue
}
if (idxField.Kind() == reflect.Ptr || idxField.Kind() == reflect.Interface) && idxField.IsNil() {
if strings.Contains(cField.diveTag, omitempty) {
continue
}
tags := strings.Split(cField.diveTag, tagSeparator)
if len(tags) > 0 {
var param string
vals := strings.SplitN(tags[0], tagKeySeparator, 2)
if len(vals) > 1 {
param = vals[1]
}
errs[i] = &FieldError{
Field: fmt.Sprintf(arrayIndexFieldName, cField.name, i),
Tag: vals[0],
Param: param,
Value: idxField.Interface(),
Kind: idxField.Kind(),
Type: cField.sliceSubtype,
}
}
continue
}
// if we get here, the field is interface and could be a struct or a field
// and we need to check the inner type and validate
if idxField.Kind() == reflect.Interface {
idxField = idxField.Elem()
if idxField.Kind() == reflect.Ptr && !idxField.IsNil() {
idxField = idxField.Elem()
}
if idxField.Kind() == reflect.Struct {
goto VALIDATESTRUCT
}
// sending nil for cField as it was type interface and could be anything
// each time and so must be calculated each time and can't be cached reliably
if fieldError := v.fieldWithNameAndValue(val, current, idxField.Interface(), cField.diveTag, fmt.Sprintf(arrayIndexFieldName, cField.name, i), false, nil); fieldError != nil {
errs[i] = fieldError
}
continue
}
VALIDATESTRUCT:
if structErrors := v.structRecursive(val, current, idxField.Interface()); structErrors != nil {
errs[i] = structErrors
}
default:
if fieldError := v.fieldWithNameAndValue(val, current, idxField.Interface(), cField.diveTag, fmt.Sprintf(arrayIndexFieldName, cField.name, i), false, nil); fieldError != nil {
errs[i] = fieldError
}
}
}
return errs
}
func (v *Validate) fieldWithNameAndSingleTag(val interface{}, current interface{}, f interface{}, key string, param string, name string) (*FieldError, error) {
// OK to continue because we checked it's existance before getting into this loop
if key == omitempty {
return nil, nil
}
valFunc, ok := v.validationFuncs[key]
if !ok {
panic(fmt.Sprintf("Undefined validation function on field %s", name))
}
if err := valFunc(val, current, f, param); err {
return nil, nil
}
return &FieldError{
Field: name,
Tag: key,
Value: f,
Param: param,
}, errors.New(key)
}

1036
validator.go
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6566
validator_test.go
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