Merge pull request #95 from joeybloggs/v5-development

Update  README
pull/96/head
Dean Karn 10 years ago
commit e5ebe76ccf
  1. 4
      .gitignore
  2. 117
      README.md
  3. 85
      examples/simple.go
  4. 25
      validator_test.go

4
.gitignore vendored

@ -23,4 +23,6 @@ _testmain.go
*.test
*.prof
*.test
*.out
*.out
cover.html
README.html

@ -5,10 +5,15 @@ Package validator
[![GoDoc](https://godoc.org/gopkg.in/bluesuncorp/validator.v5?status.svg)](https://godoc.org/gopkg.in/bluesuncorp/validator.v5)
Package validator implements value validations for structs and individual fields based on tags.
It is also capable of Cross Field and Cross Struct validations.
It has the following **unique** features:
- Cross Field and Cross Struct validations.
- Slice, Array and Map diving, which allows any or all levels of a multidimensional field to be validated.
- Handles type interface by determining it's underlying type prior to validation.
Installation
============
------------
Use go get.
@ -23,12 +28,114 @@ Then import the validator package into your own code.
import "gopkg.in/bluesuncorp/validator.v5"
Usage and documentation
=======================
------
Please see http://godoc.org/gopkg.in/bluesuncorp/validator.v5 for detailed usage docs.
##### Example:
```go
package main
import (
"fmt"
"gopkg.in/bluesuncorp/validator.v5"
)
// User contains user information
type User struct {
FirstName string `validate:"required"`
LastName string `validate:"required"`
Age uint8 `validate:"gte=0,lte=130"`
Email string `validate:"required,email"`
FavouriteColor string `validate:"hexcolor|rgb|rgba"`
Addresses []*Address `validate:"required,dive,required"` // a person can have a home and cottage...
}
// Address houses a users address information
type Address struct {
Street string `validate:"required"`
City string `validate:"required"`
Planet string `validate:"required"`
Phone string `validate:"required"`
}
var validate *validator.Validate
func main() {
validate = validator.New("validate", validator.BakedInValidators)
address := &Address{
Street: "Eavesdown Docks",
Planet: "Persphone",
Phone: "none",
}
user := &User{
FirstName: "Badger",
LastName: "Smith",
Age: 135,
Email: "Badger.Smith@gmail.com",
FavouriteColor: "#000",
Addresses: []*Address{address},
}
// returns nil or *StructErrors
errs := validate.Struct(user)
if errs != nil {
// err will be of type *FieldError
err := errs.Errors["Age"]
fmt.Println(err.Error()) // output: Field validation for "Age" failed on the "lte" tag
fmt.Println(err.Field) // output: Age
fmt.Println(err.Tag) // output: lte
fmt.Println(err.Kind) // output: uint8
fmt.Println(err.Type) // output: uint8
fmt.Println(err.Param) // output: 130
fmt.Println(err.Value) // output: 135
// or if you prefer you can use the Flatten function
// NOTE: I find this usefull when using a more hard static approach of checking field errors.
// The above, is best for passing to some generic code to say parse the errors. i.e. I pass errs
// to a routine which loops through the errors, creates and translates the error message into the
// users locale and returns a map of map[string]string // field and error which I then use
// within the HTML rendering.
flat := errs.Flatten()
fmt.Println(flat) // output: map[Age:Field validation for "Age" failed on the "lte" tag Addresses[0].Address.City:Field validation for "City" failed on the "required" tag]
err = flat["Addresses[0].Address.City"]
fmt.Println(err.Field) // output: City
fmt.Println(err.Tag) // output: required
fmt.Println(err.Kind) // output: string
fmt.Println(err.Type) // output: string
fmt.Println(err.Param) // output:
fmt.Println(err.Value) // output:
// from here you can create your own error messages in whatever language you wish
return
}
// save user to database
}
```
Benchmarks
------
###### Run on MacBook Pro (Retina, 15-inch, Late 2013) 2.6 GHz Intel Core i7 16 GB 1600 MHz DDR3
```go
$ go test -cpu=4 -bench=. -benchmem=true
PASS
BenchmarkValidateField-4 3000000 436 ns/op 192 B/op 2 allocs/op
BenchmarkValidateStructSimple-4 500000 2863 ns/op 784 B/op 13 allocs/op
BenchmarkTemplateParallelSimple-4 500000 3044 ns/op 784 B/op 13 allocs/op
BenchmarkValidateStructLarge-4 100000 15226 ns/op 4853 B/op 74 allocs/op
BenchmarkTemplateParallelLarge-4 100000 14637 ns/op 4856 B/op 74 allocs/op
```
How to Contribute
=================
------
There will always be a development branch for each version i.e. `v1-development`. In order to contribute,
please make your pull requests against those branches.
@ -41,5 +148,5 @@ I strongly encourage everyone whom creates a custom validation function to contr
help make this package even better.
License
=======
------
Distributed under MIT License, please see license file in code for more details.

@ -0,0 +1,85 @@
package main
import (
"fmt"
"gopkg.in/bluesuncorp/validator.v5"
)
// User contains user information
type User struct {
FirstName string `validate:"required"`
LastName string `validate:"required"`
Age uint8 `validate:"gte=0,lte=130"`
Email string `validate:"required,email"`
FavouriteColor string `validate:"hexcolor|rgb|rgba"`
Addresses []*Address `validate:"required,dive,required"` // a person can have a home and cottage...
}
// Address houses a users address information
type Address struct {
Street string `validate:"required"`
City string `validate:"required"`
Planet string `validate:"required"`
Phone string `validate:"required"`
}
var validate *validator.Validate
func main() {
validate = validator.New("validate", validator.BakedInValidators)
address := &Address{
Street: "Eavesdown Docks",
Planet: "Persphone",
Phone: "none",
}
user := &User{
FirstName: "Badger",
LastName: "Smith",
Age: 135,
Email: "Badger.Smith@gmail.com",
FavouriteColor: "#000",
Addresses: []*Address{address},
}
// returns nil or *StructErrors
errs := validate.Struct(user)
if errs != nil {
// err will be of type *FieldError
err := errs.Errors["Age"]
fmt.Println(err.Error()) // output: Field validation for "Age" failed on the "lte" tag
fmt.Println(err.Field) // output: Age
fmt.Println(err.Tag) // output: lte
fmt.Println(err.Kind) // output: uint8
fmt.Println(err.Type) // output: uint8
fmt.Println(err.Param) // output: 130
fmt.Println(err.Value) // output: 135
// or if you prefer you can use the Flatten function
// NOTE: I find this usefull when using a more hard static approach of checking field errors.
// The above, is best for passing to some generic code to say parse the errors. i.e. I pass errs
// to a routine which loops through the errors, creates and translates the error message into the
// users locale and returns a map of map[string]string // field and error which I then use
// within the HTML rendering.
flat := errs.Flatten()
fmt.Println(flat) // output: map[Age:Field validation for "Age" failed on the "lte" tag Addresses[0].Address.City:Field validation for "City" failed on the "required" tag]
err = flat["Addresses[0].Address.City"]
fmt.Println(err.Field) // output: City
fmt.Println(err.Tag) // output: required
fmt.Println(err.Kind) // output: string
fmt.Println(err.Type) // output: string
fmt.Println(err.Param) // output:
fmt.Println(err.Value) // output:
// from here you can create your own error messages in whatever language you wish
return
}
// save user to database
}

@ -14,6 +14,11 @@ import (
// - Run "gocov test | gocov report" to report on test converage by file
// - Run "gocov test | gocov annotate -" to report on all code and functions, those ,marked with "MISS" were never called
//
// or
//
// -- may be a good idea to change to output path to somewherelike /tmp
// go test -coverprofile cover.out && go tool cover -html=cover.out -o cover.html
//
//
// go test -cpuprofile cpu.out
// ./validator.test -test.bench=. -test.cpuprofile=cpu.prof
@ -3765,3 +3770,23 @@ func TestInvalidValidatorFunction(t *testing.T) {
PanicMatches(t, func() { validate.Field(s.Test, "zzxxBadFunction") }, fmt.Sprintf("Undefined validation function on field %s", ""))
}
func TestPoolObjectMaxSizeValidation(t *testing.T) {
// this will ensure that the pool objects are let go
// when the pool is saturated
validate.SetMaxStructPoolSize(0)
tSuccess := &TestSlice{
Required: []int{1},
Len: []int{1, 2, 3, 4, 5, 6, 7, 8, 9, 0},
Min: []int{1, 2},
Max: []int{1, 2, 3, 4, 5, 6, 7, 8, 9, 0},
MinMax: []int{1, 2, 3, 4, 5},
OmitEmpty: []int{},
}
for i := 0; i < 2; i++ {
err := validate.Struct(tSuccess)
Equal(t, err, nil)
}
}

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