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package pkg
import (
"context"
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"database/sql/driver"
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"errors"
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"fmt"
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"github.com/jackc/pgtype"
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"html/template"
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"net/http"
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"net/mail"
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"net/url"
"regexp"
"strconv"
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"strings"
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"time"
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)
Add tags for contacts too
With Oriol we agreed that contacts should have tags, too, and that the
“tag pool”, as it were, should be shared with the one for invoices (and
all future tags we might add).
I added the contact_tag relation and tag_contact function, just like
with invoices, and then realized that the SQL queries that Go had to
execute were becoming “complex” enough: i had to get not only the slug,
but the contact id to call tag_contact, and all inside a transaction.
Therefore, i opted to create the add_contact and edit_contact functions,
that mirror those for invoice and products, so now each “major” section
has these functions. They also simplified a bit the handling of the
VATIN and phone numbers, because it is now encapsuled inside the
PL/pgSQL function and Go does not know how to assemble the parts.
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var tagsRegex = regexp . MustCompile ( "[^a-z0-9-]+" )
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type Attribute struct {
Key , Val string
}
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type InputField struct {
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Name string
Label string
Type string
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Val string
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Required bool
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Attributes [ ] template . HTMLAttr
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Errors [ ] error
}
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func ( field * InputField ) Scan ( value interface { } ) error {
if value == nil {
field . Val = ""
return nil
}
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switch v := value . ( type ) {
case time . Time :
if field . Type == "date" {
field . Val = v . Format ( "2006-01-02" )
} else if field . Type == "time" {
field . Val = v . Format ( "15:04" )
} else {
field . Val = v . Format ( time . RFC3339 )
}
default :
field . Val = fmt . Sprintf ( "%v" , v )
}
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return nil
}
func ( field * InputField ) Value ( ) ( driver . Value , error ) {
return field . Val , nil
}
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func ( field * InputField ) FillValue ( r * http . Request ) {
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field . Val = strings . TrimSpace ( r . FormValue ( field . Name ) )
}
func ( field * InputField ) Integer ( ) int {
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value , err := strconv . Atoi ( field . Val )
if err != nil {
panic ( err )
}
return value
}
func ( field * InputField ) Float64 ( ) float64 {
value , err := strconv . ParseFloat ( field . Val , 64 )
if err != nil {
panic ( err )
}
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return value
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}
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func ( field * InputField ) String ( ) string {
return field . Val
}
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type SelectOption struct {
Value string
Label string
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Group string
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}
type SelectField struct {
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Name string
Label string
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Selected [ ] string
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Options [ ] * SelectOption
Attributes [ ] template . HTMLAttr
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Required bool
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Multiple bool
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EmptyLabel string
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Errors [ ] error
}
func ( field * SelectField ) Scan ( value interface { } ) error {
if value == nil {
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field . Selected = append ( field . Selected , "" )
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return nil
}
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if str , ok := value . ( string ) ; ok {
if array , err := pgtype . ParseUntypedTextArray ( str ) ; err == nil {
for _ , element := range array . Elements {
field . Selected = append ( field . Selected , element )
}
return nil
}
}
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field . Selected = append ( field . Selected , fmt . Sprintf ( "%v" , value ) )
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return nil
}
func ( field * SelectField ) Value ( ) ( driver . Value , error ) {
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if field . Selected == nil {
return "" , nil
}
return field . Selected [ 0 ] , nil
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}
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func ( field * SelectField ) FillValue ( r * http . Request ) {
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field . Selected = r . Form [ field . Name ]
}
func ( field * SelectField ) HasValidOptions ( ) bool {
for _ , selected := range field . Selected {
if ! field . isValidOption ( selected ) {
return false
}
}
return true
}
func ( field * SelectField ) IsSelected ( v string ) bool {
for _ , selected := range field . Selected {
if selected == v {
return true
}
}
return false
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}
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func ( field * SelectField ) FindOption ( value string ) * SelectOption {
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for _ , option := range field . Options {
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if option . Value == value {
return option
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}
}
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return nil
}
func ( field * SelectField ) isValidOption ( selected string ) bool {
return field . FindOption ( selected ) != nil
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}
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func ( field * SelectField ) Clear ( ) {
field . Selected = [ ] string { }
}
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func MustGetOptions ( ctx context . Context , conn * Conn , sql string , args ... interface { } ) [ ] * SelectOption {
rows , err := conn . Query ( ctx , sql , args ... )
if err != nil {
panic ( err )
}
defer rows . Close ( )
var options [ ] * SelectOption
for rows . Next ( ) {
option := & SelectOption { }
err = rows . Scan ( & option . Value , & option . Label )
if err != nil {
panic ( err )
}
options = append ( options , option )
}
if rows . Err ( ) != nil {
panic ( rows . Err ( ) )
}
return options
}
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func MustGetGroupedOptions ( ctx context . Context , conn * Conn , sql string , args ... interface { } ) [ ] * SelectOption {
rows , err := conn . Query ( ctx , sql , args ... )
if err != nil {
panic ( err )
}
defer rows . Close ( )
var options [ ] * SelectOption
for rows . Next ( ) {
option := & SelectOption { }
err = rows . Scan ( & option . Value , & option . Label , & option . Group )
if err != nil {
panic ( err )
}
options = append ( options , option )
}
if rows . Err ( ) != nil {
panic ( rows . Err ( ) )
}
return options
}
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func mustGetCountryOptions ( ctx context . Context , conn * Conn , locale * Locale ) [ ] * SelectOption {
return MustGetOptions ( ctx , conn , "select country.country_code, coalesce(i18n.name, country.name) as l10n_name from country left join country_i18n as i18n on country.country_code = i18n.country_code and i18n.lang_tag = $1 order by l10n_name" , locale . Language )
}
Add tags for contacts too
With Oriol we agreed that contacts should have tags, too, and that the
“tag pool”, as it were, should be shared with the one for invoices (and
all future tags we might add).
I added the contact_tag relation and tag_contact function, just like
with invoices, and then realized that the SQL queries that Go had to
execute were becoming “complex” enough: i had to get not only the slug,
but the contact id to call tag_contact, and all inside a transaction.
Therefore, i opted to create the add_contact and edit_contact functions,
that mirror those for invoice and products, so now each “major” section
has these functions. They also simplified a bit the handling of the
VATIN and phone numbers, because it is now encapsuled inside the
PL/pgSQL function and Go does not know how to assemble the parts.
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type TagsField struct {
Name string
Label string
Tags [ ] string
Attributes [ ] template . HTMLAttr
Required bool
Errors [ ] error
}
func ( field * TagsField ) Value ( ) ( driver . Value , error ) {
if field . Tags == nil {
return [ ] string { } , nil
}
return field . Tags , nil
}
func ( field * TagsField ) Scan ( value interface { } ) error {
if value == nil {
return nil
}
if str , ok := value . ( string ) ; ok {
if array , err := pgtype . ParseUntypedTextArray ( str ) ; err == nil {
for _ , element := range array . Elements {
field . Tags = append ( field . Tags , element )
}
return nil
}
}
field . Tags = append ( field . Tags , fmt . Sprintf ( "%v" , value ) )
return nil
}
func ( field * TagsField ) FillValue ( r * http . Request ) {
field . Tags = strings . Split ( tagsRegex . ReplaceAllString ( r . FormValue ( field . Name ) , "," ) , "," )
if len ( field . Tags ) == 1 && len ( field . Tags [ 0 ] ) == 0 {
field . Tags = [ ] string { }
}
}
func ( field * TagsField ) String ( ) string {
return strings . Join ( field . Tags , "," )
}
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type FormValidator struct {
Valid bool
}
func newFormValidator ( ) * FormValidator {
return & FormValidator { true }
}
func ( v * FormValidator ) AllOK ( ) bool {
return v . Valid
}
func ( v * FormValidator ) CheckRequiredInput ( field * InputField , message string ) bool {
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return v . checkInput ( field , field . Val != "" , message )
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}
func ( v * FormValidator ) CheckValidEmailInput ( field * InputField , message string ) bool {
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_ , err := mail . ParseAddress ( field . Val )
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return v . checkInput ( field , err == nil , message )
}
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func ( v * FormValidator ) CheckValidVATINInput ( field * InputField , country string , message string ) bool {
// TODO: actual VATIN validation
return v . checkInput ( field , true , message )
}
func ( v * FormValidator ) CheckValidPhoneInput ( field * InputField , country string , message string ) bool {
// TODO: actual phone validation
return v . checkInput ( field , true , message )
}
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func ( v * FormValidator ) CheckPasswordConfirmation ( password * InputField , confirm * InputField , message string ) bool {
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return v . checkInput ( confirm , password . Val == confirm . Val , message )
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}
func ( v * FormValidator ) CheckValidSelectOption ( field * SelectField , message string ) bool {
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return v . checkSelect ( field , field . HasValidOptions ( ) , message )
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}
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func ( v * FormValidator ) CheckAtMostOneOfEachGroup ( field * SelectField , message string ) bool {
repeated := false
groups := map [ string ] bool { }
for _ , selected := range field . Selected {
option := field . FindOption ( selected )
if exists := groups [ option . Group ] ; exists {
repeated = true
break
}
groups [ option . Group ] = true
}
return v . checkSelect ( field , ! repeated , message )
}
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func ( v * FormValidator ) CheckValidURL ( field * InputField , message string ) bool {
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_ , err := url . ParseRequestURI ( field . Val )
return v . checkInput ( field , err == nil , message )
}
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func ( v * FormValidator ) CheckValidDate ( field * InputField , message string ) bool {
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_ , err := time . Parse ( "2006-01-02" , field . Val )
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return v . checkInput ( field , err == nil , message )
}
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func ( v * FormValidator ) CheckValidPostalCode ( ctx context . Context , conn * Conn , field * InputField , country string , message string ) bool {
pattern := "^" + conn . MustGetText ( ctx , ".{1,255}" , "select postal_code_regex from country where country_code = $1" , country ) + "$"
match , err := regexp . MatchString ( pattern , field . Val )
if err != nil {
panic ( err )
}
return v . checkInput ( field , match , message )
}
func ( v * FormValidator ) CheckValidInteger ( field * InputField , min int , max int , message string ) bool {
value , err := strconv . Atoi ( field . Val )
return v . checkInput ( field , err == nil && value >= min && value <= max , message )
}
Convert from cents to “price” and back
I do not want to use floats in the Go lang application, because it is
not supposed to do anything with these values other than to print and
retrieve them from the user; all computations will be performed by
PostgreSQL in cents.
That means i have to “convert” from the price format that users expect
to see (e.g., 1.234,56) to cents (e.g., 123456) and back when passing
data between Go and PostgreSQL, and that conversion depends on the
currency’s decimal places.
At first i did everything in Go, but saw that i would need to do it in
a loop when retrieving the list of products, and immediately knew it was
a mistake—i needed a PL/pgSQL function for that.
I still need to convert from string to float, however, when printing the
value to the user. Because the string representation is in C, but i
need to format it according to the locale with golang/x/text. That
package has the information of how to correctly format numbers, but it
is in an internal package that i can not use, and numbers.Digit only
accepts numeric types, not a string.
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func ( v * FormValidator ) CheckValidDecimal ( field * InputField , min float64 , max float64 , message string ) bool {
value , err := strconv . ParseFloat ( field . Val , 64 )
return v . checkInput ( field , err == nil && value >= min && value <= max , message )
}
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func ( v * FormValidator ) checkInput ( field * InputField , ok bool , message string ) bool {
if ! ok {
field . Errors = append ( field . Errors , errors . New ( message ) )
v . Valid = false
}
return ok
}
func ( v * FormValidator ) checkSelect ( field * SelectField , ok bool , message string ) bool {
if ! ok {
field . Errors = append ( field . Errors , errors . New ( message ) )
v . Valid = false
}
return ok
}