Awesome
Form
Easily create HTML forms with Go structs.
Overview
The form
package makes it easy to take a Go struct and turn it into an HTML form using whatever HTML format you want. Below is an example, along with the output, but first let's just look at an example of what I mean.
Let's say you have a Go struct that looks like this:
type customer struct {
Name string
Email string
Address *address
}
type address struct {
Street1 string
Street2 string
City string
State string
Zip string `form:"label=Postal Code"`
}
Now you want to generate an HTML form for it, but that is somewhat annoying if you want to persist user-entered values if there is an error, or if you want to support loading URL query params and auto-filling the form for the user. With this package you can very easily do both of those things simply by defining what the HTML for an input field should be:
<div class="mb-4">
<label class="block text-grey-darker text-sm font-bold mb-2" {{with .ID}}for="{{.}}"{{end}}>
{{.Label}}
</label>
<input class="shadow appearance-none border rounded w-full py-2 px-3 text-grey-darker leading-tight {{if errors}}border-red{{end}}" {{with .ID}}id="{{.}}"{{end}} type="{{.Type}}" name="{{.Name}}" placeholder="{{.Placeholder}}" {{with .Value}}value="{{.}}"{{end}}>
{{range errors}}
<p class="text-red pt-2 text-xs italic">{{.}}</p>
{{end}}
</div>
This particular example is using Tailwind CSS to style the values, along with the errors
template function which is provided via this form
package when it creates the inputs for each field.
Now we can render this entire struct as a form by simply using the inputs_for
template function which is provided by the form.Builder
's FuncMap
method:
<form class="bg-white shadow-md rounded px-8 pt-6 pb-8 mb-4" action="/" method="post">
{{inputs_for .Customer}}
<!-- ... add buttons here -->
</form>
And with it we will generate an HTML form like the one below:
Data set in the .Customer
variable in our template will also be used when rendering the form, which is why you see Michael Scott
and michael@dunder.com
in the screenshot - these were set in the .Customer
and were thus used to set the input's value.
Error rendering is also possible, but requires the usage of the inputs_and_errors_for
template function, and you need to pass in errors that implement the fieldError
interface (shown below, but NOT exported):
type fieldError interface {
FieldError() (field, err string)
}
For instance, in examples/errors/errors.go we pass data similar the following into our template when executing it:
data := struct {
Form customer
Errors []error
}{
Form: customer{
Name: "Michael Scott",
Email: "michael@dunder.com",
Address: nil,
},
Errors: []error{
fieldError{
Field: "Email",
Issue: "is already taken",
},
fieldError{
Field: "Address.Street1",
Issue: "is required",
},
...
},
}
tpl.Execute(w, data)
And then in the template we call the inputs_and_errors_for
function:
<form class="bg-white shadow-md rounded px-8 pt-6 pb-8 mb-4" action="/" method="post">
{{inputs_and_errors_for .Form .Errors}}
<!-- ... buttons here -->
</form>
And we get an output like this:
Installation
To install this package, simply go get
it:
go get github.com/joncalhoun/form
Complete Examples
This entire example can be found in the examples/readme directory. Additional examples can also be found in the examples/ directory and are a great way to see how this package could be used.
Source Code
package main
import (
"html/template"
"net/http"
"github.com/joncalhoun/form"
)
var inputTpl = `
<label {{with .ID}}for="{{.}}"{{end}}>
{{.Label}}
</label>
<input {{with .ID}}id="{{.}}"{{end}} type="{{.Type}}" name="{{.Name}}" placeholder="{{.Placeholder}}" {{with .Value}}value="{{.}}"{{end}}>
{{with .Footer}}
<p>{{.}}</p>
{{end}}
`
type Address struct {
Street1 string `form:"label=Street;placeholder=123 Sample St"`
Street2 string `form:"label=Street (cont);placeholder=Apt 123"`
City string
State string `form:"footer=Or your Province"`
Zip string `form:"label=Postal Code"`
Country string
}
func main() {
tpl := template.Must(template.New("").Parse(inputTpl))
fb := form.Builder{
InputTemplate: tpl,
}
pageTpl := template.Must(template.New("").Funcs(fb.FuncMap()).Parse(`
<html>
<body>
<form>
{{inputs_for .}}
</form>
</body>
</html>`))
http.HandleFunc("/", func(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "text/html")
pageTpl.Execute(w, Address{
Street1: "123 Known St",
Country: "United States",
})
})
http.ListenAndServe(":3000", nil)
}
Relevant HTML trimmed for brevity
<form>
<label >
Street
</label>
<input type="text" name="Street1" placeholder="123 Sample St" value="123 Known St">
<label >
Street (cont)
</label>
<input type="text" name="Street2" placeholder="Apt 123" >
<label >
City
</label>
<input type="text" name="City" placeholder="City" >
<label >
State
</label>
<input type="text" name="State" placeholder="State" >
<p>Or your Province</p>
<label >
Postal Code
</label>
<input type="text" name="Zip" placeholder="Postal Code" >
<label >
Country
</label>
<input type="text" name="Country" placeholder="Country" value="United States">
</form>
How it works
The form.Builder
type provides a single method - Inputs
- which will parse the provided struct to determine which fields it contains, any values set for each field, and any struct tags provided for the form package. Once that information is parsed it will execute the provided InputTemplate
field in the builder for each field in the struct, including nested fields.
Most of the time you will probably want to just make this helper available to your html templates via the template.Funcs()
functions and the template.FuncMap
type, as I did in the example above.
I don't recommend tagging domain types
It is also worth mentioning that I don't really recommend adding form
struct tags to your domain types, and I typically create types specifically used to generate forms. Eg:
// This is my domain type
type User struct {
ID int
Name string
Email string
PasswordHash string
}
// Somewhere else I'll create my html-specific type:
type signupForm struct {
Name string `form:"..."`
Email string `form:"type=email"`
Password string `form:"type=password"`
Confirmation string `form:"type=password;label=Password Confirmation"`
}
Parsing submitted forms
If you also need to parse forms created by this package, I recommend using the gorilla/schema package. This package should generate input names compliant with the gorilla/schema
package by default, so as long as you don't change the names it should be pretty trivial to decode.
There is an example of this in the examples/tailwind directory.
Rendering errors
If you want to render errors, see the examples/errors/errors.go example and most notably check out the inputs_and_errors_for
function provided to templates via the Builder.FuncMap()
function.
TODO: Add some better examples here, but the provided code sample is a complete example.
This may have bugs
This is a very early iteration of the package, and while it appears to be working for my needs chances are it doesn't cover every use case. If you do find one that isn't covered, try to provide a PR with a breaking test.
Notes
This section is mostly for myself to jot down notes, but feel free to read away.
Potential features
Parsing forms
Long term this could also support parsing forms, but gorilla/schema does a great job of that already so I don't see any reason to at this time. It would likely be easier to just make the default input names line up with what gorilla/schema expects and provide examples for how to use the two together.
Checkboxes and other data types
Maybe allow for various templates for different types, but for now this is possible to do in the HTML templates so it isn't completely missing.
Headers on nested structs
Let's say we have this type:
type Nested struct {
Name string
Email string
Address Address
}
type Address struct {
Street1 string
Street2 string
// ...
}
It might make sense to make an optional way to add headers in the form when the nested Address portion is rendered, so the form looks like:
Name: [ ]
Email: [ ]
<Address Header Here>
Street1: [ ]
Street2: [ ]
...
This should be pretty easy to do with struct tags on the Address Address
line.