camper/pkg/booking/public.go

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/*
* SPDX-FileCopyrightText: 2023 jordi fita mas <jfita@peritasoft.com>
* SPDX-License-Identifier: AGPL-3.0-only
*/
package booking
import (
"context"
"errors"
"fmt"
"net/http"
"strconv"
"time"
"dev.tandem.ws/tandem/camper/pkg/auth"
"dev.tandem.ws/tandem/camper/pkg/database"
"dev.tandem.ws/tandem/camper/pkg/form"
httplib "dev.tandem.ws/tandem/camper/pkg/http"
"dev.tandem.ws/tandem/camper/pkg/locale"
"dev.tandem.ws/tandem/camper/pkg/template"
)
type PublicHandler struct {
}
func NewPublicHandler() *PublicHandler {
return &PublicHandler{}
}
func (h *PublicHandler) Handler(user *auth.User, company *auth.Company, conn *database.Conn) http.Handler {
return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
var head string
head, r.URL.Path = httplib.ShiftPath(r.URL.Path)
switch head {
case "":
switch r.Method {
case http.MethodGet:
page, err := newPublicPage(r, company, conn, user.Locale)
if err != nil {
http.Error(w, err.Error(), http.StatusBadRequest)
return
}
page.MustRender(w, r, user, company, conn)
case http.MethodPost:
requestPayment(w, r, user, company, conn)
default:
httplib.MethodNotAllowed(w, r, http.MethodGet, http.MethodPost)
}
default:
http.NotFound(w, r)
}
})
}
type publicPage struct {
*template.PublicPage
Form *bookingForm
HasErrors bool
Environment string
}
func newPublicPage(r *http.Request, company *auth.Company, conn *database.Conn, l *locale.Locale) (*publicPage, error) {
f, err := newBookingForm(r, company, conn, l)
if err != nil {
return nil, err
}
return newPublicPageWithForm(f), nil
}
func newPublicPageWithForm(form *bookingForm) *publicPage {
return &publicPage{
PublicPage: template.NewPublicPage(),
Form: form,
}
}
func (p *publicPage) MustRender(w http.ResponseWriter, r *http.Request, user *auth.User, company *auth.Company, conn *database.Conn) {
p.Setup(r, user, company, conn)
if err := conn.QueryRow(r.Context(), "select environment from redsys where company_id = $1", company.ID).Scan(&p.Environment); err != nil && !database.ErrorIsNotFound(err) {
panic(err)
}
if httplib.IsHTMxRequest(r) {
template.MustRenderPublicNoLayout(w, r, user, company, "booking/fields.gohtml", p)
} else {
template.MustRenderPublicFiles(w, r, user, company, p, "booking/page.gohtml", "booking/fields.gohtml")
}
}
type bookingForm struct {
CampsiteType *form.Select
Add payment relation and use it to compute the booking’s cart I had to add the payment concept separate from the booking, unlike other eCommerce solutions that subsume the two into a single “order”, like WooCommerce, because bookings should be done in a separate Camper instance that will sync to the public instance, but the payment is done by the public instance. There will be a queue or something between the public and the private instance to pass along the booking information once the payment is complete, but the public instance still needs to keep track of payments without creating bookings. To compute the total for that payment i had to do the same as was doing until now for the cart. To prevent duplications, or having functions with complex return types, i now create a “draft” payment while the user is filling in the form, and compute the cart there; from Go i only have to retrieve the data from the relation, that simplifies the work, actually. Since the payment is computed way before customers enter their details, i can not have that data in the same payment relation, unless i allow NULL values. Allowing NULL values means that i can create a payment without customer, thus i moved all customer details to a separate relation. It still allows payment without customer, but at least there are no NULL values. Draft payments should be removed after a time, but i believe this needs to be done in a cronjob or similar, not in the Go application. To update the same payment while filling the same booking form, i now have a hidden field with the payment slug. A competent developer would have used a cookie or something like that; i am not competent.
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PaymentSlug *form.Input
Dates *DateFields
Guests *bookingGuestFields
Options *bookingOptionFields
Customer *bookingCustomerFields
Cart *bookingCart
}
type DateFields struct {
MinNights int
MaxNights int
ArrivalDate *bookingDateInput
DepartureDate *bookingDateInput
}
type bookingDateInput struct {
*form.Input
MinDate time.Time
MaxDate time.Time
}
type bookingGuestFields struct {
MaxGuests int
OverflowAllowed bool
Overflow bool
NumberAdults *form.Input
NumberTeenagers *form.Input
NumberChildren *form.Input
NumberDogs *form.Input
ACSICard *form.Checkbox
Error error
}
type bookingOptionFields struct {
Legend string
ZonePreferences *form.Input
Options []*campsiteTypeOption
}
type campsiteTypeOption struct {
“Mockup” for the new booking form It does nothing but compute the total of a booking, much like it does for guests. In fact, i use the same payment relations to do the exact same computation, otherwise i am afraid i will make a mistake in the ACSI or such, now or in future version; better if both are exactly the same. The idea is that once the user creates the booking, i will delete that payment, because it makes no sense to keep it in this case; nobody is going to pay for it. Had to reuse the grid showing the bookings of campsites because employees need to select one or more campsites to book, and need to see which are available. In this case, i have to filter by campsite type and use the arrival and departure dates to filter the months, now up to the day, not just month. Had to change max width of th and td in the grid to take into account that now a month could have a single day, for instance, and the month heading can not stretch the day or booking spans would not be in their correct positions. For that, i needed to access campsiteEntry, bookingEntry, and Month from campsite package, but campsite imports campsite/types, and campsite/types already imports booking for the BookingDates type. To break the cycle, had to move all that to booking and use from campsite; it is mostly unchanged, except for the granularity of dates up to days instead of just months. The design of this form calls for a different way of showing the totals, because here employees have to see the amount next to the input with the units, instead of having a footer with the table. I did not like the idea of having to query the database for that, therefore i “lifter” the payment draft into a struct that both public and admin forms use to show they respective views of the cart.
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ID int
Label string
Min int
Max int
Input *form.Input
Subtotal string
}
type bookingCustomerFields struct {
FullName *form.Input
Address *form.Input
PostalCode *form.Input
City *form.Input
Country *form.Select
Email *form.Input
Phone *form.Input
Agreement *form.Checkbox
}
func newEmptyBookingForm(ctx context.Context, conn *database.Conn, company *auth.Company, l *locale.Locale) *bookingForm {
return &bookingForm{
CampsiteType: &form.Select{
Name: "campsite_type",
Options: form.MustGetOptions(ctx, conn, "select type.slug, coalesce(i18n.name, type.name) as l10n_name from campsite_type as type left join campsite_type_i18n as i18n on type.campsite_type_id = i18n.campsite_type_id and i18n.lang_tag = $1 where company_id = $2 and active order by position, l10n_name", l.Language, company.ID),
},
Add payment relation and use it to compute the booking’s cart I had to add the payment concept separate from the booking, unlike other eCommerce solutions that subsume the two into a single “order”, like WooCommerce, because bookings should be done in a separate Camper instance that will sync to the public instance, but the payment is done by the public instance. There will be a queue or something between the public and the private instance to pass along the booking information once the payment is complete, but the public instance still needs to keep track of payments without creating bookings. To compute the total for that payment i had to do the same as was doing until now for the cart. To prevent duplications, or having functions with complex return types, i now create a “draft” payment while the user is filling in the form, and compute the cart there; from Go i only have to retrieve the data from the relation, that simplifies the work, actually. Since the payment is computed way before customers enter their details, i can not have that data in the same payment relation, unless i allow NULL values. Allowing NULL values means that i can create a payment without customer, thus i moved all customer details to a separate relation. It still allows payment without customer, but at least there are no NULL values. Draft payments should be removed after a time, but i believe this needs to be done in a cronjob or similar, not in the Go application. To update the same payment while filling the same booking form, i now have a hidden field with the payment slug. A competent developer would have used a cookie or something like that; i am not competent.
2024-02-12 04:21:00 +00:00
PaymentSlug: &form.Input{
Name: "payment_slug",
},
}
}
func newBookingForm(r *http.Request, company *auth.Company, conn *database.Conn, l *locale.Locale) (*bookingForm, error) {
if err := r.ParseForm(); err != nil {
return nil, err
}
f := newEmptyBookingForm(r.Context(), conn, company, l)
f.CampsiteType.FillValue(r)
Add payment relation and use it to compute the booking’s cart I had to add the payment concept separate from the booking, unlike other eCommerce solutions that subsume the two into a single “order”, like WooCommerce, because bookings should be done in a separate Camper instance that will sync to the public instance, but the payment is done by the public instance. There will be a queue or something between the public and the private instance to pass along the booking information once the payment is complete, but the public instance still needs to keep track of payments without creating bookings. To compute the total for that payment i had to do the same as was doing until now for the cart. To prevent duplications, or having functions with complex return types, i now create a “draft” payment while the user is filling in the form, and compute the cart there; from Go i only have to retrieve the data from the relation, that simplifies the work, actually. Since the payment is computed way before customers enter their details, i can not have that data in the same payment relation, unless i allow NULL values. Allowing NULL values means that i can create a payment without customer, thus i moved all customer details to a separate relation. It still allows payment without customer, but at least there are no NULL values. Draft payments should be removed after a time, but i believe this needs to be done in a cronjob or similar, not in the Go application. To update the same payment while filling the same booking form, i now have a hidden field with the payment slug. A competent developer would have used a cookie or something like that; i am not competent.
2024-02-12 04:21:00 +00:00
f.PaymentSlug.FillValue(r)
campsiteType := f.CampsiteType.String()
if campsiteType == "" {
return f, nil
}
if !f.CampsiteType.ValidOptionsSelected() {
f.CampsiteType.Error = errors.New(l.Gettext("Selected campsite type is not valid."))
return f, nil
}
var err error
f.Dates, err = NewDateFields(r.Context(), conn, campsiteType)
if err != nil {
return nil, err
}
f.Dates.FillValues(r, l)
if f.Dates.ArrivalDate.Val == "" || f.Dates.ArrivalDate.Error != nil || f.Dates.DepartureDate.Val == "" || f.Dates.DepartureDate.Error != nil {
return f, nil
}
f.Guests, err = newBookingGuestFields(r.Context(), conn, campsiteType, f.Dates.ArrivalDate.Val, f.Dates.DepartureDate.Val)
if err != nil {
return nil, err
}
f.Guests.FillValues(r, l)
f.Options, err = newBookingOptionFields(r.Context(), conn, campsiteType, l)
if err != nil {
return nil, err
}
if f.Options != nil {
f.Options.FillValues(r)
}
f.Customer = newBookingCustomerFields(r.Context(), conn, l)
f.Customer.FillValues(r)
f.Cart, err = newBookingCart(r.Context(), conn, f, campsiteType)
if err != nil {
return nil, err
}
return f, nil
}
func (f *bookingForm) Valid(ctx context.Context, conn *database.Conn, l *locale.Locale) (bool, error) {
v := form.NewValidator(l)
if f.Dates == nil {
return false, errors.New("no booking date fields")
}
if f.Guests == nil {
return false, errors.New("no guests fields")
}
if f.Customer == nil {
return false, errors.New("no customer fields")
}
if f.Cart == nil {
return false, errors.New("no booking cart")
}
v.CheckSelectedOptions(f.CampsiteType, l.GettextNoop("Selected campsite type is not valid."))
f.Dates.Valid(v, l)
f.Guests.Valid(v, l)
if err := f.Customer.Valid(ctx, conn, v, l); err != nil {
return false, err
}
if f.Options != nil {
f.Options.Valid(v, l)
}
return v.AllOK, nil
}
func NewDateFields(ctx context.Context, conn *database.Conn, campsiteType string) (*DateFields, error) {
row := conn.QueryRow(ctx, `
select lower(bookable_nights),
upper(bookable_nights) - 1,
greatest(min(lower(season_range)), current_timestamp::date),
max(upper(season_range))
from campsite_type
join campsite_type_cost using (campsite_type_id)
join season_calendar using (season_id)
where campsite_type.slug = $1
and season_range >> daterange(date_trunc('year', current_timestamp)::date, date_trunc('year', current_timestamp)::date + 1)
group by bookable_nights;
`, campsiteType)
f := &DateFields{
ArrivalDate: &bookingDateInput{
Input: &form.Input{Name: "arrival_date"},
},
DepartureDate: &bookingDateInput{
Input: &form.Input{Name: "departure_date"},
},
}
if err := row.Scan(&f.MinNights, &f.MaxNights, &f.ArrivalDate.MinDate, &f.DepartureDate.MaxDate); err != nil {
return nil, err
}
f.ArrivalDate.MaxDate = f.DepartureDate.MaxDate.AddDate(0, 0, -f.MinNights)
f.DepartureDate.MinDate = f.ArrivalDate.MinDate.AddDate(0, 0, f.MinNights)
return f, nil
}
func (f *DateFields) FillValues(r *http.Request, l *locale.Locale) {
f.ArrivalDate.FillValue(r)
f.DepartureDate.FillValue(r)
f.AdjustValues(l)
}
func (f *DateFields) AdjustValues(l *locale.Locale) {
if f.ArrivalDate.Val != "" {
arrivalDate, err := time.Parse(database.ISODateFormat, f.ArrivalDate.Val)
if err != nil {
f.ArrivalDate.Error = errors.New(l.Gettext("Arrival date must be a valid date."))
return
}
f.DepartureDate.MinDate = arrivalDate.AddDate(0, 0, f.MinNights)
maxDate := arrivalDate.AddDate(0, 0, f.MaxNights)
if maxDate.Before(f.DepartureDate.MaxDate) {
f.DepartureDate.MaxDate = maxDate
}
if f.DepartureDate.Val == "" {
f.DepartureDate.Val = f.DepartureDate.MinDate.Format(database.ISODateFormat)
} else {
departureDate, err := time.Parse(database.ISODateFormat, f.DepartureDate.Val)
if err != nil {
f.DepartureDate.Error = errors.New(l.Gettext("Departure date must be a valid date."))
return
}
if departureDate.Before(f.DepartureDate.MinDate) {
f.DepartureDate.Val = f.DepartureDate.MinDate.Format(database.ISODateFormat)
} else if departureDate.After(f.DepartureDate.MaxDate) {
f.DepartureDate.Val = f.DepartureDate.MaxDate.Format(database.ISODateFormat)
}
}
}
}
func (f *DateFields) Valid(v *form.Validator, l *locale.Locale) {
var validBefore bool
if v.CheckRequired(f.ArrivalDate.Input, l.GettextNoop("Arrival date can not be empty")) {
if v.CheckValidDate(f.ArrivalDate.Input, l.GettextNoop("Arrival date must be a valid date.")) {
if v.CheckMinDate(f.ArrivalDate.Input, f.ArrivalDate.MinDate, fmt.Sprintf(l.Gettext("Arrival date must be %s or after."), f.ArrivalDate.MinDate.Format(database.ISODateFormat))) {
v.CheckMaxDate(f.ArrivalDate.Input, f.ArrivalDate.MaxDate, fmt.Sprintf(l.Gettext("Arrival date must be %s or before."), f.ArrivalDate.MaxDate.Format(database.ISODateFormat)))
}
}
}
if v.CheckRequired(f.DepartureDate.Input, l.GettextNoop("Departure date can not be empty")) {
if v.CheckValidDate(f.DepartureDate.Input, l.GettextNoop("Departure date must be a valid date.")) && validBefore {
if v.CheckMinDate(f.DepartureDate.Input, f.DepartureDate.MinDate, fmt.Sprintf(l.Gettext("Departure date must be %s or after."), f.DepartureDate.MinDate.Format(database.ISODateFormat))) {
v.CheckMaxDate(f.DepartureDate.Input, f.DepartureDate.MaxDate, fmt.Sprintf(l.Gettext("Departure date must be %s or before."), f.DepartureDate.MaxDate.Format(database.ISODateFormat)))
}
}
}
}
func newBookingGuestFields(ctx context.Context, conn *database.Conn, campsiteType string, arrivalDate string, departureDate string) (*bookingGuestFields, error) {
f := &bookingGuestFields{
NumberAdults: &form.Input{Name: "number_adults"},
NumberTeenagers: &form.Input{Name: "number_teenagers"},
NumberChildren: &form.Input{Name: "number_children"},
}
row := conn.QueryRow(ctx, `
select max_campers
, overflow_allowed
, pet.cost_per_night is not null as dogs_allowed
, exists (
select 1 from acsi_calendar
where acsi_calendar.campsite_type_id = campsite_type.campsite_type_id
and acsi_range && daterange($2::date, $3::date)
) as acsi_allowed
from campsite_type
left join campsite_type_pet_cost as pet using (campsite_type_id)
where slug = $1
`, campsiteType, arrivalDate, departureDate)
var dogsAllowed bool
var ACSIAllowed bool
if err := row.Scan(&f.MaxGuests, &f.OverflowAllowed, &dogsAllowed, &ACSIAllowed); err != nil {
return nil, err
}
if dogsAllowed {
f.NumberDogs = &form.Input{Name: "number_dogs"}
}
if ACSIAllowed {
f.ACSICard = &form.Checkbox{Name: "acsi_card"}
}
return f, nil
}
func (f *bookingGuestFields) FillValues(r *http.Request, l *locale.Locale) {
numGuests := 0
numGuests += fillNumericField(f.NumberAdults, r, 1)
numGuests += fillNumericField(f.NumberTeenagers, r, 0)
numGuests += fillNumericField(f.NumberChildren, r, 0)
if f.NumberDogs != nil {
fillNumericField(f.NumberDogs, r, 0)
}
if f.ACSICard != nil {
f.ACSICard.FillValue(r)
}
f.AdjustValues(numGuests, l)
}
func (f *bookingGuestFields) AdjustValues(numGuests int, l *locale.Locale) {
if numGuests > f.MaxGuests {
if f.OverflowAllowed {
f.Overflow = true
} else {
f.Error = fmt.Errorf(l.Gettext("There can be at most %d guests in this accommodation."), f.MaxGuests)
}
}
}
func fillNumericField(input *form.Input, r *http.Request, min int) int {
input.FillValue(r)
if input.Val == "" {
input.Val = strconv.Itoa(min)
return min
}
val, err := strconv.Atoi(input.Val)
if err != nil {
input.Val = strconv.Itoa(min)
val = min
}
return val
}
func (f *bookingGuestFields) Valid(v *form.Validator, l *locale.Locale) {
if v.CheckRequired(f.NumberAdults, l.GettextNoop("Number of adults can not be empty")) {
if v.CheckValidInteger(f.NumberAdults, l.GettextNoop("Number of adults must be an integer.")) {
v.CheckMinInteger(f.NumberAdults, 1, l.GettextNoop("There must be at least one adult."))
}
}
if v.CheckRequired(f.NumberTeenagers, l.GettextNoop("Number of teenagers can not be empty")) {
if v.CheckValidInteger(f.NumberTeenagers, l.GettextNoop("Number of teenagers must be an integer.")) {
v.CheckMinInteger(f.NumberTeenagers, 0, l.GettextNoop("Number of teenagers can not be negative."))
}
}
if v.CheckRequired(f.NumberChildren, l.GettextNoop("Number of children can not be empty")) {
if v.CheckValidInteger(f.NumberChildren, l.GettextNoop("Number of children must be an integer.")) {
v.CheckMinInteger(f.NumberChildren, 0, l.GettextNoop("Number of children can not be negative."))
}
}
if f.NumberDogs != nil && v.CheckRequired(f.NumberDogs, l.GettextNoop("Number of dogs can not be empty")) {
if v.CheckValidInteger(f.NumberDogs, l.GettextNoop("Number of dogs must be an integer.")) {
v.CheckMinInteger(f.NumberDogs, 0, l.GettextNoop("Number of dogs can not be negative."))
}
}
}
func newBookingOptionFields(ctx context.Context, conn *database.Conn, campsiteType string, l *locale.Locale) (*bookingOptionFields, error) {
f := &bookingOptionFields{}
row := conn.QueryRow(ctx, `
select coalesce(i18n.name, campsite_type.name)
, ask_zone_preferences
from campsite_type
left join campsite_type_i18n as i18n on i18n.campsite_type_id = campsite_type.campsite_type_id and i18n.lang_tag = $1
where slug = $2
`, l.Language, campsiteType)
var askZonePreferences bool
if err := row.Scan(&f.Legend, &askZonePreferences); err != nil {
return nil, err
}
if askZonePreferences {
f.ZonePreferences = &form.Input{Name: "zone_preferences"}
}
rows, err := conn.Query(ctx, `
select option.campsite_type_option_id
, 'campsite_type_option_' || option.campsite_type_option_id
, coalesce(i18n.name, option.name) as l10_name
, lower(range)::text
, lower(range)
, upper(range)
from campsite_type_option as option
join campsite_type using (campsite_type_id)
left join campsite_type_option_i18n as i18n on i18n.campsite_type_option_id = option.campsite_type_option_id and i18n.lang_tag = $1
where slug = $2
and campsite_type.active
order by option.position, l10_name
`, l.Language, campsiteType)
if err != nil {
return nil, err
}
defer rows.Close()
for rows.Next() {
option := &campsiteTypeOption{
Input: &form.Input{},
}
if err = rows.Scan(&option.ID, &option.Input.Name, &option.Label, &option.Input.Val, &option.Min, &option.Max); err != nil {
return nil, err
}
f.Options = append(f.Options, option)
}
if rows.Err() != nil {
return nil, rows.Err()
}
if f.ZonePreferences == nil && len(f.Options) == 0 {
return nil, nil
}
return f, nil
}
func (f *bookingOptionFields) FillValues(r *http.Request) {
if f.ZonePreferences != nil {
f.ZonePreferences.FillValue(r)
}
for _, option := range f.Options {
fillNumericField(option.Input, r, option.Min)
}
}
func (f *bookingOptionFields) FillFromDatabase(ctx context.Context, conn *database.Conn, bookingID int) error {
rows, err := conn.Query(ctx, `
select campsite_type_option.campsite_type_option_id
, coalesce(units, lower(range))::text
, to_price(coalesce(subtotal, 0), decimal_digits)
from booking
join campsite_type_option using (campsite_type_id)
left join booking_option
on booking.booking_id = booking_option.booking_id
and booking_option.campsite_type_option_id = campsite_type_option.campsite_type_option_id
join currency using (currency_code)
where booking.booking_id = $1
`, bookingID)
if err != nil {
return err
}
defer rows.Close()
for rows.Next() {
var id int
var units string
var subtotal string
if err = rows.Scan(&id, &units, &subtotal); err != nil {
return err
}
for _, option := range f.Options {
if option.ID == id {
option.Input.Val = units
option.Subtotal = subtotal
break
}
}
}
return nil
}
func (f *bookingOptionFields) Valid(v *form.Validator, l *locale.Locale) {
for _, option := range f.Options {
if v.CheckRequired(option.Input, fmt.Sprintf(l.Gettext("%s can not be empty"), option.Label)) {
if v.CheckValidInteger(option.Input, fmt.Sprintf(l.Gettext("%s must be an integer."), option.Label)) {
if v.CheckMinInteger(option.Input, option.Min, fmt.Sprintf(l.Gettext("%s must be %d or greater."), option.Label, option.Min)) {
v.CheckMaxInteger(option.Input, option.Max, fmt.Sprintf(l.Gettext("%s must be at most %d."), option.Label, option.Max))
}
}
}
}
}
func newBookingCustomerFields(ctx context.Context, conn *database.Conn, l *locale.Locale) *bookingCustomerFields {
return &bookingCustomerFields{
FullName: &form.Input{
Name: "full_name",
},
Address: &form.Input{
Name: "address",
},
PostalCode: &form.Input{
Name: "postal_code",
},
City: &form.Input{
Name: "city",
},
Country: &form.Select{
Name: "country",
Options: form.MustGetCountryOptions(ctx, conn, l),
},
Email: &form.Input{
Name: "email",
},
Phone: &form.Input{
Name: "phone",
},
Agreement: &form.Checkbox{
Name: "agreement",
},
}
}
func (f *bookingCustomerFields) FillValues(r *http.Request) {
f.FullName.FillValue(r)
f.Address.FillValue(r)
f.PostalCode.FillValue(r)
f.City.FillValue(r)
f.Country.FillValue(r)
f.Email.FillValue(r)
f.Phone.FillValue(r)
f.Agreement.FillValue(r)
}
func (f *bookingCustomerFields) Valid(ctx context.Context, conn *database.Conn, v *form.Validator, l *locale.Locale) error {
var country string
if v.CheckSelectedOptions(f.Country, l.GettextNoop("Selected country is not valid.")) {
country = f.Country.Selected[0]
}
if v.CheckRequired(f.FullName, l.GettextNoop("Full name can not be empty.")) {
v.CheckMinLength(f.FullName, 1, l.GettextNoop("Full name must have at least one letter."))
}
v.CheckRequired(f.Address, l.GettextNoop("Address can not be empty."))
v.CheckRequired(f.City, l.GettextNoop("Town or village can not be empty."))
if v.CheckRequired(f.PostalCode, l.GettextNoop("Postcode can not be empty.")) && country != "" {
if _, err := v.CheckValidPostalCode(ctx, conn, f.PostalCode, country, l.GettextNoop("This postcode is not valid.")); err != nil {
return err
}
}
if v.CheckRequired(f.Email, l.GettextNoop("Email can not be empty.")) {
v.CheckValidEmail(f.Email, l.GettextNoop("This email is not valid. It should be like name@domain.com."))
}
if v.CheckRequired(f.Phone, l.GettextNoop("Phone can not be empty.")) && country != "" {
if _, err := v.CheckValidPhone(ctx, conn, f.Phone, country, l.GettextNoop("This phone number is not valid.")); err != nil {
return err
}
}
v.Check(f.Agreement, f.Agreement.Checked, l.GettextNoop("It is mandatory to agree to the reservation conditions."))
return nil
}