Albirew/nyaa-pantsu
Albirew/nyaa-pantsu
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nyaa-pantsu/vendor/gopkg.in/go-playground/validator.v8/cache.go
akuma06 5991a21818 First batch of changes for the refactor (#1078) 
* First batch of changes for the refactor

Added the support of gin in routes and other services/utils
Begining implementation of JetHTML

* Remove os folder

* Move scrapers to own repo

* Second batch of changes

All .jet.html are the working templates.
You can now test this PR, the index Page and upload works. If you want to complete the other html templates, you're welcome

* Move captcha to util

* Move uploadService to utils

* Use govalidator instead of regex

* Third batch of changes

All the front end should as previously.
I also fixed some minor things unrelated to the refactor (mostly style issues on static pages)
Now errors can be accessed by importing the "errors" helpers and using the `yield errors(name="xxx")` command in templates.
Same for infos.
Templates are now more hierarchized with a base template "base.jet.html" which is extended depending on the context in "index_site" or "index_admin" layouts. Those layouts are extended than in every pages.
Other helpers are captcha to render a captcha `yield captcha(captchaid="xxx")`
And also csrf, with the command `yield csrf_field()`
To translate, you don't have anymore to do `call $.T "xxx"`, you just have to do `T("xxx")`.

Pages for the website part are in folders in the folder "templates/site". Pages for the admin part are in "templates/admin". Layouts are separated in "templates/layouts". Helpers and menu are in "templates/layouts/helpers" and "templates/layouts/menu". Error pages should be put in "templates/errors"

* Added test on templates

When adding a new template, you have to tell to template_test.go, the context of the new template (if it doesn't use the common context)

* Panel admin works

Now the templating part should work. The PR can now be fully tested.

I think we should push the templating PR  and do the routes/controllers/removal of services in another branch. So we know that this one is functional

* Updated dependencies

* Fixed test for modelhelper

* Fix testing for commentlist

* Fix travis :')

* Just renamed router and removed network

* Applying same SEO fix

* Update form_validator.go

* Added back regexp package
2017-06-28 21:42:38 +10:00

264 lignes
5,4 Kio
Go
Brut Annotations Historique

package validator
import (
"fmt"
"reflect"
"strings"
"sync"
"sync/atomic"
)
type tagType uint8
const (
typeDefault tagType = iota
typeOmitEmpty
typeNoStructLevel
typeStructOnly
typeDive
typeOr
typeExists
)
type structCache struct {
lock sync.Mutex
m atomic.Value // map[reflect.Type]*cStruct
}
func (sc *structCache) Get(key reflect.Type) (c *cStruct, found bool) {
c, found = sc.m.Load().(map[reflect.Type]*cStruct)[key]
return
}
func (sc *structCache) Set(key reflect.Type, value *cStruct) {
m := sc.m.Load().(map[reflect.Type]*cStruct)
nm := make(map[reflect.Type]*cStruct, len(m)+1)
for k, v := range m {
nm[k] = v
}
nm[key] = value
sc.m.Store(nm)
}
type tagCache struct {
lock sync.Mutex
m atomic.Value // map[string]*cTag
}
func (tc *tagCache) Get(key string) (c *cTag, found bool) {
c, found = tc.m.Load().(map[string]*cTag)[key]
return
}
func (tc *tagCache) Set(key string, value *cTag) {
m := tc.m.Load().(map[string]*cTag)
nm := make(map[string]*cTag, len(m)+1)
for k, v := range m {
nm[k] = v
}
nm[key] = value
tc.m.Store(nm)
}
type cStruct struct {
Name string
fields map[int]*cField
fn StructLevelFunc
}
type cField struct {
Idx int
Name string
AltName string
cTags *cTag
}
type cTag struct {
tag string
aliasTag string
actualAliasTag string
param string
hasAlias bool
typeof tagType
hasTag bool
fn Func
next *cTag
}
func (v *Validate) extractStructCache(current reflect.Value, sName string) *cStruct {
v.structCache.lock.Lock()
defer v.structCache.lock.Unlock() // leave as defer! because if inner panics, it will never get unlocked otherwise!
typ := current.Type()
// could have been multiple trying to access, but once first is done this ensures struct
// isn't parsed again.
cs, ok := v.structCache.Get(typ)
if ok {
return cs
}
cs = &cStruct{Name: sName, fields: make(map[int]*cField), fn: v.structLevelFuncs[typ]}
numFields := current.NumField()
var ctag *cTag
var fld reflect.StructField
var tag string
var customName string
for i := 0; i < numFields; i++ {
fld = typ.Field(i)
if !fld.Anonymous && fld.PkgPath != blank {
continue
}
tag = fld.Tag.Get(v.tagName)
if tag == skipValidationTag {
continue
}
customName = fld.Name
if v.fieldNameTag != blank {
name := strings.SplitN(fld.Tag.Get(v.fieldNameTag), ",", 2)[0]
// dash check is for json "-" (aka skipValidationTag) means don't output in json
if name != "" && name != skipValidationTag {
customName = name
}
}
// NOTE: cannot use shared tag cache, because tags may be equal, but things like alias may be different
// and so only struct level caching can be used instead of combined with Field tag caching
if len(tag) > 0 {
ctag, _ = v.parseFieldTagsRecursive(tag, fld.Name, blank, false)
} else {
// even if field doesn't have validations need cTag for traversing to potential inner/nested
// elements of the field.
ctag = new(cTag)
}
cs.fields[i] = &cField{Idx: i, Name: fld.Name, AltName: customName, cTags: ctag}
}
v.structCache.Set(typ, cs)
return cs
}
func (v *Validate) parseFieldTagsRecursive(tag string, fieldName string, alias string, hasAlias bool) (firstCtag *cTag, current *cTag) {
var t string
var ok bool
noAlias := len(alias) == 0
tags := strings.Split(tag, tagSeparator)
for i := 0; i < len(tags); i++ {
t = tags[i]
if noAlias {
alias = t
}
if v.hasAliasValidators {
// check map for alias and process new tags, otherwise process as usual
if tagsVal, found := v.aliasValidators[t]; found {
if i == 0 {
firstCtag, current = v.parseFieldTagsRecursive(tagsVal, fieldName, t, true)
} else {
next, curr := v.parseFieldTagsRecursive(tagsVal, fieldName, t, true)
current.next, current = next, curr
}
continue
}
}
if i == 0 {
current = &cTag{aliasTag: alias, hasAlias: hasAlias, hasTag: true}
firstCtag = current
} else {
current.next = &cTag{aliasTag: alias, hasAlias: hasAlias, hasTag: true}
current = current.next
}
switch t {
case diveTag:
current.typeof = typeDive
continue
case omitempty:
current.typeof = typeOmitEmpty
continue
case structOnlyTag:
current.typeof = typeStructOnly
continue
case noStructLevelTag:
current.typeof = typeNoStructLevel
continue
case existsTag:
current.typeof = typeExists
continue
default:
// if a pipe character is needed within the param you must use the utf8Pipe representation "0x7C"
orVals := strings.Split(t, orSeparator)
for j := 0; j < len(orVals); j++ {
vals := strings.SplitN(orVals[j], tagKeySeparator, 2)
if noAlias {
alias = vals[0]
current.aliasTag = alias
} else {
current.actualAliasTag = t
}
if j > 0 {
current.next = &cTag{aliasTag: alias, actualAliasTag: current.actualAliasTag, hasAlias: hasAlias, hasTag: true}
current = current.next
}
current.tag = vals[0]
if len(current.tag) == 0 {
panic(strings.TrimSpace(fmt.Sprintf(invalidValidation, fieldName)))
}
if current.fn, ok = v.validationFuncs[current.tag]; !ok {
panic(strings.TrimSpace(fmt.Sprintf(undefinedValidation, fieldName)))
}
if len(orVals) > 1 {
current.typeof = typeOr
}
if len(vals) > 1 {
current.param = strings.Replace(strings.Replace(vals[1], utf8HexComma, ",", -1), utf8Pipe, "|", -1)
}
}
}
}
return
}
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