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Add generated Bob database integration

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This commit is contained in:
Eli Ribble 2025-11-04 23:11:32 +00:00
parent 8203c50b08
commit 7c4a181cdf
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32 changed files with 5128 additions and 2 deletions
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12
README.md
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@ -13,3 +13,15 @@ nix develop
go build . go build .
``` ```
## Hacking
### bob
This uses the bob query framework. You can regenerate the models for bob with:
```
PSQL_DSN="postgresql://dbname?host=/var/run/postgresql&sslmode=disable" go run github.com/stephenafamo/bob/gen/bobgen-psql@latest"
PSQL_DSN="postgresql://?host=/var/run/postgresql&sslmode=disable&dbname=nidus-sync" go run github.com/stephenafamo/bob/gen/bobgen-psql@latest
```
This will generate a bunch of files. They're already committed, you only need this if you change the database schema in some way.

10
bobgen.yaml Normal file
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@ -0,0 +1,10 @@
aliases:
user_:
up_plural: "Users"
up_singular: "User"
down_plural: "users"
down_singular: "user"
psql:
queries:
- ./sql
plugins_preset: "all"

144
database.go Normal file
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@ -0,0 +1,144 @@
package main
import (
"context"
"database/sql"
"embed"
"errors"
"fmt"
"io/fs"
"log"
"sync"
//"github.com/georgysavva/scany/v2/pgxscan"
//"github.com/jackc/pgx/v5"
"github.com/jackc/pgx/v5/pgxpool"
"github.com/jackc/pgx/v5/stdlib"
_ "github.com/jackc/pgx/v5/stdlib"
"github.com/pressly/goose/v3"
"github.com/stephenafamo/bob"
)
//go:embed migrations/*.sql
var embedMigrations embed.FS
type postgres struct {
BobDB bob.DB
}
var (
PGInstance *postgres
pgOnce sync.Once
)
func doMigrations(connection_string string) error {
log.Println("Connecting to database at", connection_string)
db, err := sql.Open("pgx", connection_string)
if err != nil {
return fmt.Errorf("Failed to open database connection: %w", err)
}
defer db.Close()
row := db.QueryRowContext(context.Background(), "SELECT version()")
var val string
if err := row.Scan(&val); err != nil {
return fmt.Errorf("Failed to get database version query result: %w", err)
}
log.Printf("Connected to: %s", val)
fsys, err := fs.Sub(embedMigrations, "migrations")
if err != nil {
return fmt.Errorf("Failed to get migrations embedded directory: %w", err)
}
provider, err := goose.NewProvider(goose.DialectPostgres, db, fsys)
if err != nil {
return fmt.Errorf("Failed to create goose provider: %w", err)
}
//goose.SetBaseFS(embedMigrations)
current, target, err := provider.GetVersions(context.Background())
if err != nil {
return fmt.Errorf("Faield to get goose versions: %w", err)
}
log.Printf("Current version %d, need to be at version %d", current, target)
results, err := provider.Up(context.Background())
if err != nil {
return fmt.Errorf("Failed to run migrations: %w", err)
}
if len(results) > 0 {
for _, r := range results {
log.Printf("Migration %d %s", r.Source.Version, r.Direction)
}
} else {
log.Println("No migrations necessary.")
}
return nil
}
func initializeDatabase(ctx context.Context, uri string) error {
needs, err := needsMigrations(uri)
if err != nil {
return fmt.Errorf("Failed to determine if migrations are needed: %v", err)
}
if needs == nil {
return errors.New("Can't read variable 'needs' - it's nil")
}
if *needs {
//return errors.New(fmt.Sprintf("Must migrate database before connecting: %t", *needs))
log.Println("Handling database migrations")
err = doMigrations(uri)
if err != nil {
return fmt.Errorf("Failed to handle migrations: %v", err)
}
} else {
log.Println("No database migrations necessary")
}
pgOnce.Do(func() {
db, e := pgxpool.New(ctx, uri)
bobDB := bob.NewDB(stdlib.OpenDBFromPool(db))
PGInstance = &postgres{bobDB}
err = e
})
if err != nil {
return fmt.Errorf("unable to create connection pool: %w", err)
}
var current string
query := `SELECT current_database()`
err = PGInstance.BobDB.QueryRow(query).Scan(&current)
if err != nil {
return fmt.Errorf("Failed to get database current: %w", err)
}
log.Println("Connected to", current)
return nil
}
func needsMigrations(connection_string string) (*bool, error) {
log.Println("Connecting to database at", connection_string)
db, err := sql.Open("pgx", connection_string)
if err != nil {
return nil, fmt.Errorf("Failed to open database connection: %w", err)
}
defer db.Close()
row := db.QueryRowContext(context.Background(), "SELECT version()")
var val string
if err := row.Scan(&val); err != nil {
return nil, fmt.Errorf("Failed to get database version query result: %w", err)
}
log.Printf("Connected to: %s", val)
fsys, err := fs.Sub(embedMigrations, "migrations")
if err != nil {
return nil, fmt.Errorf("Failed to get migrations embedded directory: %w", err)
}
provider, err := goose.NewProvider(goose.DialectPostgres, db, fsys)
if err != nil {
return nil, fmt.Errorf("Failed to create goose provider: %w", err)
}
hasPending, err := provider.HasPending(context.Background())
if err != nil {
return nil, err
}
return &hasPending, nil
}

32
dberrors/bob_errors.bob.go Normal file
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@ -0,0 +1,32 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package dberrors
import "github.com/lib/pq"
// ErrUniqueConstraint captures all unique constraint errors by explicitly leaving `s` empty.
var ErrUniqueConstraint = &UniqueConstraintError{s: ""}
type UniqueConstraintError struct {
// schema is the schema where the unique constraint is defined.
schema string
// table is the name of the table where the unique constraint is defined.
table string
// columns are the columns constituting the unique constraint.
columns []string
// s is a string uniquely identifying the constraint in the raw error message returned from the database.
s string
}
func (e *UniqueConstraintError) Error() string {
return e.s
}
func (e *UniqueConstraintError) Is(target error) bool {
err, ok := target.(*pq.Error)
if !ok {
return false
}
return err.Code == "23505" && (e.s == "" || err.Constraint == e.s)
}

9
dberrors/bob_main.bob_test.go Normal file
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@ -0,0 +1,9 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package dberrors
import "github.com/stephenafamo/bob"
// Set the testDB to enable tests that use the database
var testDB bob.Transactor[bob.Tx]

17
dberrors/goose_db_version.bob.go Normal file
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@ -0,0 +1,17 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package dberrors
var GooseDBVersionErrors = &gooseDBVersionErrors{
ErrUniqueGooseDbVersionPkey: &UniqueConstraintError{
schema: "",
table: "goose_db_version",
columns: []string{"id"},
s: "goose_db_version_pkey",
},
}
type gooseDBVersionErrors struct {
ErrUniqueGooseDbVersionPkey *UniqueConstraintError
}

17
dberrors/organization.bob.go Normal file
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@ -0,0 +1,17 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package dberrors
var OrganizationErrors = &organizationErrors{
ErrUniqueOrganizationPkey: &UniqueConstraintError{
schema: "",
table: "organization",
columns: []string{"id"},
s: "organization_pkey",
},
}
type organizationErrors struct {
ErrUniqueOrganizationPkey *UniqueConstraintError
}

17
dberrors/user_.bob.go Normal file
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@ -0,0 +1,17 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package dberrors
var UserErrors = &userErrors{
ErrUniqueUser_Pkey: &UniqueConstraintError{
schema: "",
table: "user_",
columns: []string{"id"},
s: "user__pkey",
},
}
type userErrors struct {
ErrUniqueUser_Pkey *UniqueConstraintError
}

83
dbinfo/bob_types.bob.go Normal file
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@ -0,0 +1,83 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package dbinfo
import "github.com/aarondl/opt/null"
type Table[Cols columns, Idxs indexes, FKs foreignKeys, U uniques, C checks] struct {
Schema string
Name string
Columns Cols
Indexes Idxs
PrimaryKey *constraint
ForeignKeys FKs
Uniques U
Checks C
Comment string
}
type columns interface {
AsSlice() []column
}
type column struct {
Name string
DBType string
Default string
Comment string
Nullable bool
Generated bool
AutoIncr bool
}
type indexes interface {
AsSlice() []index
}
type index struct {
Type string
Name string
Columns []indexColumn
Unique bool
Comment string
NullsFirst []bool
NullsDistinct bool
Where string
Include []string
}
type indexColumn struct {
Name string
Desc null.Val[bool]
IsExpression bool
}
type constraint struct {
Name string
Columns []string
Comment string
}
type foreignKeys interface {
AsSlice() []foreignKey
}
type foreignKey struct {
constraint
ForeignTable string
ForeignColumns []string
}
type uniques interface {
AsSlice() []constraint
}
type checks interface {
AsSlice() []check
}
type check struct {
constraint
Expression string
}

122
dbinfo/goose_db_version.bob.go Normal file
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@ -0,0 +1,122 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package dbinfo
import "github.com/aarondl/opt/null"
var GooseDBVersions = Table[
gooseDBVersionColumns,
gooseDBVersionIndexes,
gooseDBVersionForeignKeys,
gooseDBVersionUniques,
gooseDBVersionChecks,
]{
Schema: "",
Name: "goose_db_version",
Columns: gooseDBVersionColumns{
ID: column{
Name: "id",
DBType: "integer",
Default: "IDENTITY",
Comment: "",
Nullable: false,
Generated: false,
AutoIncr: false,
},
VersionID: column{
Name: "version_id",
DBType: "bigint",
Default: "",
Comment: "",
Nullable: false,
Generated: false,
AutoIncr: false,
},
IsApplied: column{
Name: "is_applied",
DBType: "boolean",
Default: "",
Comment: "",
Nullable: false,
Generated: false,
AutoIncr: false,
},
Tstamp: column{
Name: "tstamp",
DBType: "timestamp without time zone",
Default: "now()",
Comment: "",
Nullable: false,
Generated: false,
AutoIncr: false,
},
},
Indexes: gooseDBVersionIndexes{
GooseDBVersionPkey: index{
Type: "btree",
Name: "goose_db_version_pkey",
Columns: []indexColumn{
{
Name: "id",
Desc: null.FromCond(false, true),
IsExpression: false,
},
},
Unique: true,
Comment: "",
NullsFirst: []bool{false},
NullsDistinct: false,
Where: "",
Include: []string{},
},
},
PrimaryKey: &constraint{
Name: "goose_db_version_pkey",
Columns: []string{"id"},
Comment: "",
},
Comment: "",
}
type gooseDBVersionColumns struct {
ID column
VersionID column
IsApplied column
Tstamp column
}
func (c gooseDBVersionColumns) AsSlice() []column {
return []column{
c.ID, c.VersionID, c.IsApplied, c.Tstamp,
}
}
type gooseDBVersionIndexes struct {
GooseDBVersionPkey index
}
func (i gooseDBVersionIndexes) AsSlice() []index {
return []index{
i.GooseDBVersionPkey,
}
}
type gooseDBVersionForeignKeys struct{}
func (f gooseDBVersionForeignKeys) AsSlice() []foreignKey {
return []foreignKey{}
}
type gooseDBVersionUniques struct{}
func (u gooseDBVersionUniques) AsSlice() []constraint {
return []constraint{}
}
type gooseDBVersionChecks struct{}
func (c gooseDBVersionChecks) AsSlice() []check {
return []check{}
}

102
dbinfo/organization.bob.go Normal file
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@ -0,0 +1,102 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package dbinfo
import "github.com/aarondl/opt/null"
var Organizations = Table[
organizationColumns,
organizationIndexes,
organizationForeignKeys,
organizationUniques,
organizationChecks,
]{
Schema: "",
Name: "organization",
Columns: organizationColumns{
ID: column{
Name: "id",
DBType: "integer",
Default: "nextval('organization_id_seq'::regclass)",
Comment: "",
Nullable: false,
Generated: false,
AutoIncr: false,
},
Name: column{
Name: "name",
DBType: "text",
Default: "NULL",
Comment: "",
Nullable: true,
Generated: false,
AutoIncr: false,
},
},
Indexes: organizationIndexes{
OrganizationPkey: index{
Type: "btree",
Name: "organization_pkey",
Columns: []indexColumn{
{
Name: "id",
Desc: null.FromCond(false, true),
IsExpression: false,
},
},
Unique: true,
Comment: "",
NullsFirst: []bool{false},
NullsDistinct: false,
Where: "",
Include: []string{},
},
},
PrimaryKey: &constraint{
Name: "organization_pkey",
Columns: []string{"id"},
Comment: "",
},
Comment: "",
}
type organizationColumns struct {
ID column
Name column
}
func (c organizationColumns) AsSlice() []column {
return []column{
c.ID, c.Name,
}
}
type organizationIndexes struct {
OrganizationPkey index
}
func (i organizationIndexes) AsSlice() []index {
return []index{
i.OrganizationPkey,
}
}
type organizationForeignKeys struct{}
func (f organizationForeignKeys) AsSlice() []foreignKey {
return []foreignKey{}
}
type organizationUniques struct{}
func (u organizationUniques) AsSlice() []constraint {
return []constraint{}
}
type organizationChecks struct{}
func (c organizationChecks) AsSlice() []check {
return []check{}
}

197
dbinfo/user_.bob.go Normal file
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@ -0,0 +1,197 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package dbinfo
import "github.com/aarondl/opt/null"
var Users = Table[
userColumns,
userIndexes,
userForeignKeys,
userUniques,
userChecks,
]{
Schema: "",
Name: "user_",
Columns: userColumns{
ID: column{
Name: "id",
DBType: "integer",
Default: "nextval('user__id_seq'::regclass)",
Comment: "",
Nullable: false,
Generated: false,
AutoIncr: false,
},
ArcgisAccessToken: column{
Name: "arcgis_access_token",
DBType: "text",
Default: "NULL",
Comment: "",
Nullable: true,
Generated: false,
AutoIncr: false,
},
ArcgisLicense: column{
Name: "arcgis_license",
DBType: "public.arcgis_license_type",
Default: "NULL",
Comment: "",
Nullable: true,
Generated: false,
AutoIncr: false,
},
ArcgisRefreshToken: column{
Name: "arcgis_refresh_token",
DBType: "text",
Default: "NULL",
Comment: "",
Nullable: true,
Generated: false,
AutoIncr: false,
},
ArcgisRefreshTokenExpires: column{
Name: "arcgis_refresh_token_expires",
DBType: "timestamp without time zone",
Default: "NULL",
Comment: "",
Nullable: true,
Generated: false,
AutoIncr: false,
},
ArcgisRole: column{
Name: "arcgis_role",
DBType: "text",
Default: "NULL",
Comment: "",
Nullable: true,
Generated: false,
AutoIncr: false,
},
DisplayName: column{
Name: "display_name",
DBType: "character varying",
Default: "NULL",
Comment: "",
Nullable: true,
Generated: false,
AutoIncr: false,
},
Email: column{
Name: "email",
DBType: "text",
Default: "NULL",
Comment: "",
Nullable: true,
Generated: false,
AutoIncr: false,
},
OrganizationID: column{
Name: "organization_id",
DBType: "integer",
Default: "NULL",
Comment: "",
Nullable: true,
Generated: false,
AutoIncr: false,
},
Username: column{
Name: "username",
DBType: "text",
Default: "",
Comment: "",
Nullable: false,
Generated: false,
AutoIncr: false,
},
},
Indexes: userIndexes{
UserPkey: index{
Type: "btree",
Name: "user__pkey",
Columns: []indexColumn{
{
Name: "id",
Desc: null.FromCond(false, true),
IsExpression: false,
},
},
Unique: true,
Comment: "",
NullsFirst: []bool{false},
NullsDistinct: false,
Where: "",
Include: []string{},
},
},
PrimaryKey: &constraint{
Name: "user__pkey",
Columns: []string{"id"},
Comment: "",
},
ForeignKeys: userForeignKeys{
UserUserOrganizationIDFkey: foreignKey{
constraint: constraint{
Name: "user_.user__organization_id_fkey",
Columns: []string{"organization_id"},
Comment: "",
},
ForeignTable: "organization",
ForeignColumns: []string{"id"},
},
},
Comment: "",
}
type userColumns struct {
ID column
ArcgisAccessToken column
ArcgisLicense column
ArcgisRefreshToken column
ArcgisRefreshTokenExpires column
ArcgisRole column
DisplayName column
Email column
OrganizationID column
Username column
}
func (c userColumns) AsSlice() []column {
return []column{
c.ID, c.ArcgisAccessToken, c.ArcgisLicense, c.ArcgisRefreshToken, c.ArcgisRefreshTokenExpires, c.ArcgisRole, c.DisplayName, c.Email, c.OrganizationID, c.Username,
}
}
type userIndexes struct {
UserPkey index
}
func (i userIndexes) AsSlice() []index {
return []index{
i.UserPkey,
}
}
type userForeignKeys struct {
UserUserOrganizationIDFkey foreignKey
}
func (f userForeignKeys) AsSlice() []foreignKey {
return []foreignKey{
f.UserUserOrganizationIDFkey,
}
}
type userUniques struct{}
func (u userUniques) AsSlice() []constraint {
return []constraint{}
}
type userChecks struct{}
func (c userChecks) AsSlice() []check {
return []check{}
}

118
enums/enums.bob.go Normal file
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// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package enums
import (
"database/sql/driver"
"fmt"
)
// Enum values for ArcgisLicenseType
const (
ArcgisLicenseTypeAdvancedut ArcgisLicenseType = "advancedUT"
ArcgisLicenseTypeBasicut ArcgisLicenseType = "basicUT"
ArcgisLicenseTypeCreatorut ArcgisLicenseType = "creatorUT"
ArcgisLicenseTypeEditorut ArcgisLicenseType = "editorUT"
ArcgisLicenseTypeFieldworkerut ArcgisLicenseType = "fieldWorkerUT"
ArcgisLicenseTypeGisprofessionaladvut ArcgisLicenseType = "GISProfessionalAdvUT"
ArcgisLicenseTypeGisprofessionalbasicut ArcgisLicenseType = "GISProfessionalBasicUT"
ArcgisLicenseTypeGisprofessionalstdut ArcgisLicenseType = "GISProfessionalStdUT"
ArcgisLicenseTypeIndoorsuserut ArcgisLicenseType = "IndoorsUserUT"
ArcgisLicenseTypeInsightsanalystut ArcgisLicenseType = "insightsAnalystUT"
ArcgisLicenseTypeLiteut ArcgisLicenseType = "liteUT"
ArcgisLicenseTypeStandardut ArcgisLicenseType = "standardUT"
ArcgisLicenseTypeStorytellerut ArcgisLicenseType = "storytellerUT"
ArcgisLicenseTypeViewerut ArcgisLicenseType = "viewerUT"
)
func AllArcgisLicenseType() []ArcgisLicenseType {
return []ArcgisLicenseType{
ArcgisLicenseTypeAdvancedut,
ArcgisLicenseTypeBasicut,
ArcgisLicenseTypeCreatorut,
ArcgisLicenseTypeEditorut,
ArcgisLicenseTypeFieldworkerut,
ArcgisLicenseTypeGisprofessionaladvut,
ArcgisLicenseTypeGisprofessionalbasicut,
ArcgisLicenseTypeGisprofessionalstdut,
ArcgisLicenseTypeIndoorsuserut,
ArcgisLicenseTypeInsightsanalystut,
ArcgisLicenseTypeLiteut,
ArcgisLicenseTypeStandardut,
ArcgisLicenseTypeStorytellerut,
ArcgisLicenseTypeViewerut,
}
}
type ArcgisLicenseType string
func (e ArcgisLicenseType) String() string {
return string(e)
}
func (e ArcgisLicenseType) Valid() bool {
switch e {
case ArcgisLicenseTypeAdvancedut,
ArcgisLicenseTypeBasicut,
ArcgisLicenseTypeCreatorut,
ArcgisLicenseTypeEditorut,
ArcgisLicenseTypeFieldworkerut,
ArcgisLicenseTypeGisprofessionaladvut,
ArcgisLicenseTypeGisprofessionalbasicut,
ArcgisLicenseTypeGisprofessionalstdut,
ArcgisLicenseTypeIndoorsuserut,
ArcgisLicenseTypeInsightsanalystut,
ArcgisLicenseTypeLiteut,
ArcgisLicenseTypeStandardut,
ArcgisLicenseTypeStorytellerut,
ArcgisLicenseTypeViewerut:
return true
default:
return false
}
}
// useful when testing in other packages
func (e ArcgisLicenseType) All() []ArcgisLicenseType {
return AllArcgisLicenseType()
}
func (e ArcgisLicenseType) MarshalText() ([]byte, error) {
return []byte(e), nil
}
func (e *ArcgisLicenseType) UnmarshalText(text []byte) error {
return e.Scan(text)
}
func (e ArcgisLicenseType) MarshalBinary() ([]byte, error) {
return []byte(e), nil
}
func (e *ArcgisLicenseType) UnmarshalBinary(data []byte) error {
return e.Scan(data)
}
func (e ArcgisLicenseType) Value() (driver.Value, error) {
return string(e), nil
}
func (e *ArcgisLicenseType) Scan(value any) error {
switch x := value.(type) {
case string:
*e = ArcgisLicenseType(x)
case []byte:
*e = ArcgisLicenseType(x)
case nil:
return fmt.Errorf("cannot nil into ArcgisLicenseType")
default:
return fmt.Errorf("cannot scan type %T: %v", value, value)
}
if !e.Valid() {
return fmt.Errorf("invalid ArcgisLicenseType value: %s", *e)
}
return nil
}

39
factory/bobfactory_context.bob.go Normal file
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// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package factory
import "context"
type contextKey string
var (
// Relationship Contexts for goose_db_version
gooseDBVersionWithParentsCascadingCtx = newContextual[bool]("gooseDBVersionWithParentsCascading")
// Relationship Contexts for organization
organizationWithParentsCascadingCtx = newContextual[bool]("organizationWithParentsCascading")
organizationRelUserCtx = newContextual[bool]("organization.user_.user_.user__organization_id_fkey")
// Relationship Contexts for user_
userWithParentsCascadingCtx = newContextual[bool]("userWithParentsCascading")
userRelOrganizationCtx = newContextual[bool]("organization.user_.user_.user__organization_id_fkey")
)
// Contextual is a convienience wrapper around context.WithValue and context.Value
type contextual[V any] struct {
key contextKey
}
func newContextual[V any](key string) contextual[V] {
return contextual[V]{key: contextKey(key)}
}
func (k contextual[V]) WithValue(ctx context.Context, val V) context.Context {
return context.WithValue(ctx, k.key, val)
}
func (k contextual[V]) Value(ctx context.Context) (V, bool) {
v, ok := ctx.Value(k.key).(V)
return v, ok
}

142
factory/bobfactory_main.bob.go Normal file
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// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package factory
import (
"context"
"time"
enums "github.com/Gleipnir-Technology/nidus-sync/enums"
models "github.com/Gleipnir-Technology/nidus-sync/models"
"github.com/aarondl/opt/null"
)
type Factory struct {
baseGooseDBVersionMods GooseDBVersionModSlice
baseOrganizationMods OrganizationModSlice
baseUserMods UserModSlice
}
func New() *Factory {
return &Factory{}
}
func (f *Factory) NewGooseDBVersion(mods ...GooseDBVersionMod) *GooseDBVersionTemplate {
return f.NewGooseDBVersionWithContext(context.Background(), mods...)
}
func (f *Factory) NewGooseDBVersionWithContext(ctx context.Context, mods ...GooseDBVersionMod) *GooseDBVersionTemplate {
o := &GooseDBVersionTemplate{f: f}
if f != nil {
f.baseGooseDBVersionMods.Apply(ctx, o)
}
GooseDBVersionModSlice(mods).Apply(ctx, o)
return o
}
func (f *Factory) FromExistingGooseDBVersion(m *models.GooseDBVersion) *GooseDBVersionTemplate {
o := &GooseDBVersionTemplate{f: f, alreadyPersisted: true}
o.ID = func() int32 { return m.ID }
o.VersionID = func() int64 { return m.VersionID }
o.IsApplied = func() bool { return m.IsApplied }
o.Tstamp = func() time.Time { return m.Tstamp }
return o
}
func (f *Factory) NewOrganization(mods ...OrganizationMod) *OrganizationTemplate {
return f.NewOrganizationWithContext(context.Background(), mods...)
}
func (f *Factory) NewOrganizationWithContext(ctx context.Context, mods ...OrganizationMod) *OrganizationTemplate {
o := &OrganizationTemplate{f: f}
if f != nil {
f.baseOrganizationMods.Apply(ctx, o)
}
OrganizationModSlice(mods).Apply(ctx, o)
return o
}
func (f *Factory) FromExistingOrganization(m *models.Organization) *OrganizationTemplate {
o := &OrganizationTemplate{f: f, alreadyPersisted: true}
o.ID = func() int32 { return m.ID }
o.Name = func() null.Val[string] { return m.Name }
ctx := context.Background()
if len(m.R.User) > 0 {
OrganizationMods.AddExistingUser(m.R.User...).Apply(ctx, o)
}
return o
}
func (f *Factory) NewUser(mods ...UserMod) *UserTemplate {
return f.NewUserWithContext(context.Background(), mods...)
}
func (f *Factory) NewUserWithContext(ctx context.Context, mods ...UserMod) *UserTemplate {
o := &UserTemplate{f: f}
if f != nil {
f.baseUserMods.Apply(ctx, o)
}
UserModSlice(mods).Apply(ctx, o)
return o
}
func (f *Factory) FromExistingUser(m *models.User) *UserTemplate {
o := &UserTemplate{f: f, alreadyPersisted: true}
o.ID = func() int32 { return m.ID }
o.ArcgisAccessToken = func() null.Val[string] { return m.ArcgisAccessToken }
o.ArcgisLicense = func() null.Val[enums.ArcgisLicenseType] { return m.ArcgisLicense }
o.ArcgisRefreshToken = func() null.Val[string] { return m.ArcgisRefreshToken }
o.ArcgisRefreshTokenExpires = func() null.Val[time.Time] { return m.ArcgisRefreshTokenExpires }
o.ArcgisRole = func() null.Val[string] { return m.ArcgisRole }
o.DisplayName = func() null.Val[string] { return m.DisplayName }
o.Email = func() null.Val[string] { return m.Email }
o.OrganizationID = func() null.Val[int32] { return m.OrganizationID }
o.Username = func() string { return m.Username }
ctx := context.Background()
if m.R.Organization != nil {
UserMods.WithExistingOrganization(m.R.Organization).Apply(ctx, o)
}
return o
}
func (f *Factory) ClearBaseGooseDBVersionMods() {
f.baseGooseDBVersionMods = nil
}
func (f *Factory) AddBaseGooseDBVersionMod(mods ...GooseDBVersionMod) {
f.baseGooseDBVersionMods = append(f.baseGooseDBVersionMods, mods...)
}
func (f *Factory) ClearBaseOrganizationMods() {
f.baseOrganizationMods = nil
}
func (f *Factory) AddBaseOrganizationMod(mods ...OrganizationMod) {
f.baseOrganizationMods = append(f.baseOrganizationMods, mods...)
}
func (f *Factory) ClearBaseUserMods() {
f.baseUserMods = nil
}
func (f *Factory) AddBaseUserMod(mods ...UserMod) {
f.baseUserMods = append(f.baseUserMods, mods...)
}

81
factory/bobfactory_main.bob_test.go Normal file
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// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package factory
import (
"context"
"testing"
)
func TestCreateGooseDBVersion(t *testing.T) {
if testDB == nil {
t.Skip("skipping test, no DSN provided")
}
ctx, cancel := context.WithCancel(t.Context())
t.Cleanup(cancel)
tx, err := testDB.Begin(ctx)
if err != nil {
t.Fatalf("Error starting transaction: %v", err)
}
defer func() {
if err := tx.Rollback(ctx); err != nil {
t.Fatalf("Error rolling back transaction: %v", err)
}
}()
if _, err := New().NewGooseDBVersionWithContext(ctx).Create(ctx, tx); err != nil {
t.Fatalf("Error creating GooseDBVersion: %v", err)
}
}
func TestCreateOrganization(t *testing.T) {
if testDB == nil {
t.Skip("skipping test, no DSN provided")
}
ctx, cancel := context.WithCancel(t.Context())
t.Cleanup(cancel)
tx, err := testDB.Begin(ctx)
if err != nil {
t.Fatalf("Error starting transaction: %v", err)
}
defer func() {
if err := tx.Rollback(ctx); err != nil {
t.Fatalf("Error rolling back transaction: %v", err)
}
}()
if _, err := New().NewOrganizationWithContext(ctx).Create(ctx, tx); err != nil {
t.Fatalf("Error creating Organization: %v", err)
}
}
func TestCreateUser(t *testing.T) {
if testDB == nil {
t.Skip("skipping test, no DSN provided")
}
ctx, cancel := context.WithCancel(t.Context())
t.Cleanup(cancel)
tx, err := testDB.Begin(ctx)
if err != nil {
t.Fatalf("Error starting transaction: %v", err)
}
defer func() {
if err := tx.Rollback(ctx); err != nil {
t.Fatalf("Error rolling back transaction: %v", err)
}
}()
if _, err := New().NewUserWithContext(ctx).Create(ctx, tx); err != nil {
t.Fatalf("Error creating User: %v", err)
}
}

76
factory/bobfactory_random.bob.go Normal file
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@ -0,0 +1,76 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package factory
import (
"strconv"
"strings"
"time"
enums "github.com/Gleipnir-Technology/nidus-sync/enums"
"github.com/jaswdr/faker/v2"
)
var defaultFaker = faker.New()
func random_bool(f *faker.Faker, limits ...string) bool {
if f == nil {
f = &defaultFaker
}
return f.Bool()
}
func random_enums_ArcgisLicenseType(f *faker.Faker, limits ...string) enums.ArcgisLicenseType {
if f == nil {
f = &defaultFaker
}
var e enums.ArcgisLicenseType
all := e.All()
return all[f.IntBetween(0, len(all)-1)]
}
func random_int32(f *faker.Faker, limits ...string) int32 {
if f == nil {
f = &defaultFaker
}
return f.Int32()
}
func random_int64(f *faker.Faker, limits ...string) int64 {
if f == nil {
f = &defaultFaker
}
return f.Int64()
}
func random_string(f *faker.Faker, limits ...string) string {
if f == nil {
f = &defaultFaker
}
val := strings.Join(f.Lorem().Words(f.IntBetween(1, 5)), " ")
if len(limits) == 0 {
return val
}
limitInt, _ := strconv.Atoi(limits[0])
if limitInt > 0 && limitInt < len(val) {
val = val[:limitInt]
}
return val
}
func random_time_Time(f *faker.Faker, limits ...string) time.Time {
if f == nil {
f = &defaultFaker
}
year := time.Hour * 24 * 365
min := time.Now().Add(-year)
max := time.Now().Add(year)
return f.Time().TimeBetween(min, max)
}

57
factory/bobfactory_random.bob_test.go Normal file
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@ -0,0 +1,57 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package factory
import (
"testing"
"github.com/stephenafamo/bob"
)
// Set the testDB to enable tests that use the database
var testDB bob.Transactor[bob.Tx]
func TestRandom_int32(t *testing.T) {
t.Parallel()
val1 := random_int32(nil)
val2 := random_int32(nil)
if val1 == val2 {
t.Fatalf("random_int32() returned the same value twice: %v", val1)
}
}
func TestRandom_int64(t *testing.T) {
t.Parallel()
val1 := random_int64(nil)
val2 := random_int64(nil)
if val1 == val2 {
t.Fatalf("random_int64() returned the same value twice: %v", val1)
}
}
func TestRandom_string(t *testing.T) {
t.Parallel()
val1 := random_string(nil)
val2 := random_string(nil)
if val1 == val2 {
t.Fatalf("random_string() returned the same value twice: %v", val1)
}
}
func TestRandom_time_Time(t *testing.T) {
t.Parallel()
val1 := random_time_Time(nil)
val2 := random_time_Time(nil)
if val1.Equal(val2) {
t.Fatalf("random_time_Time() returned the same value twice: %v", val1)
}
}

380
factory/goose_db_version.bob.go Normal file
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// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package factory
import (
"context"
"testing"
"time"
models "github.com/Gleipnir-Technology/nidus-sync/models"
"github.com/aarondl/opt/omit"
"github.com/jaswdr/faker/v2"
"github.com/stephenafamo/bob"
)
type GooseDBVersionMod interface {
Apply(context.Context, *GooseDBVersionTemplate)
}
type GooseDBVersionModFunc func(context.Context, *GooseDBVersionTemplate)
func (f GooseDBVersionModFunc) Apply(ctx context.Context, n *GooseDBVersionTemplate) {
f(ctx, n)
}
type GooseDBVersionModSlice []GooseDBVersionMod
func (mods GooseDBVersionModSlice) Apply(ctx context.Context, n *GooseDBVersionTemplate) {
for _, f := range mods {
f.Apply(ctx, n)
}
}
// GooseDBVersionTemplate is an object representing the database table.
// all columns are optional and should be set by mods
type GooseDBVersionTemplate struct {
ID func() int32
VersionID func() int64
IsApplied func() bool
Tstamp func() time.Time
f *Factory
alreadyPersisted bool
}
// Apply mods to the GooseDBVersionTemplate
func (o *GooseDBVersionTemplate) Apply(ctx context.Context, mods ...GooseDBVersionMod) {
for _, mod := range mods {
mod.Apply(ctx, o)
}
}
// setModelRels creates and sets the relationships on *models.GooseDBVersion
// according to the relationships in the template. Nothing is inserted into the db
func (t GooseDBVersionTemplate) setModelRels(o *models.GooseDBVersion) {}
// BuildSetter returns an *models.GooseDBVersionSetter
// this does nothing with the relationship templates
func (o GooseDBVersionTemplate) BuildSetter() *models.GooseDBVersionSetter {
m := &models.GooseDBVersionSetter{}
if o.ID != nil {
val := o.ID()
m.ID = omit.From(val)
}
if o.VersionID != nil {
val := o.VersionID()
m.VersionID = omit.From(val)
}
if o.IsApplied != nil {
val := o.IsApplied()
m.IsApplied = omit.From(val)
}
if o.Tstamp != nil {
val := o.Tstamp()
m.Tstamp = omit.From(val)
}
return m
}
// BuildManySetter returns an []*models.GooseDBVersionSetter
// this does nothing with the relationship templates
func (o GooseDBVersionTemplate) BuildManySetter(number int) []*models.GooseDBVersionSetter {
m := make([]*models.GooseDBVersionSetter, number)
for i := range m {
m[i] = o.BuildSetter()
}
return m
}
// Build returns an *models.GooseDBVersion
// Related objects are also created and placed in the .R field
// NOTE: Objects are not inserted into the database. Use GooseDBVersionTemplate.Create
func (o GooseDBVersionTemplate) Build() *models.GooseDBVersion {
m := &models.GooseDBVersion{}
if o.ID != nil {
m.ID = o.ID()
}
if o.VersionID != nil {
m.VersionID = o.VersionID()
}
if o.IsApplied != nil {
m.IsApplied = o.IsApplied()
}
if o.Tstamp != nil {
m.Tstamp = o.Tstamp()
}
o.setModelRels(m)
return m
}
// BuildMany returns an models.GooseDBVersionSlice
// Related objects are also created and placed in the .R field
// NOTE: Objects are not inserted into the database. Use GooseDBVersionTemplate.CreateMany
func (o GooseDBVersionTemplate) BuildMany(number int) models.GooseDBVersionSlice {
m := make(models.GooseDBVersionSlice, number)
for i := range m {
m[i] = o.Build()
}
return m
}
func ensureCreatableGooseDBVersion(m *models.GooseDBVersionSetter) {
if !(m.VersionID.IsValue()) {
val := random_int64(nil)
m.VersionID = omit.From(val)
}
if !(m.IsApplied.IsValue()) {
val := random_bool(nil)
m.IsApplied = omit.From(val)
}
}
// insertOptRels creates and inserts any optional the relationships on *models.GooseDBVersion
// according to the relationships in the template.
// any required relationship should have already exist on the model
func (o *GooseDBVersionTemplate) insertOptRels(ctx context.Context, exec bob.Executor, m *models.GooseDBVersion) error {
var err error
return err
}
// Create builds a gooseDBVersion and inserts it into the database
// Relations objects are also inserted and placed in the .R field
func (o *GooseDBVersionTemplate) Create(ctx context.Context, exec bob.Executor) (*models.GooseDBVersion, error) {
var err error
opt := o.BuildSetter()
ensureCreatableGooseDBVersion(opt)
m, err := models.GooseDBVersions.Insert(opt).One(ctx, exec)
if err != nil {
return nil, err
}
if err := o.insertOptRels(ctx, exec, m); err != nil {
return nil, err
}
return m, err
}
// MustCreate builds a gooseDBVersion and inserts it into the database
// Relations objects are also inserted and placed in the .R field
// panics if an error occurs
func (o *GooseDBVersionTemplate) MustCreate(ctx context.Context, exec bob.Executor) *models.GooseDBVersion {
m, err := o.Create(ctx, exec)
if err != nil {
panic(err)
}
return m
}
// CreateOrFail builds a gooseDBVersion and inserts it into the database
// Relations objects are also inserted and placed in the .R field
// It calls `tb.Fatal(err)` on the test/benchmark if an error occurs
func (o *GooseDBVersionTemplate) CreateOrFail(ctx context.Context, tb testing.TB, exec bob.Executor) *models.GooseDBVersion {
tb.Helper()
m, err := o.Create(ctx, exec)
if err != nil {
tb.Fatal(err)
return nil
}
return m
}
// CreateMany builds multiple gooseDBVersions and inserts them into the database
// Relations objects are also inserted and placed in the .R field
func (o GooseDBVersionTemplate) CreateMany(ctx context.Context, exec bob.Executor, number int) (models.GooseDBVersionSlice, error) {
var err error
m := make(models.GooseDBVersionSlice, number)
for i := range m {
m[i], err = o.Create(ctx, exec)
if err != nil {
return nil, err
}
}
return m, nil
}
// MustCreateMany builds multiple gooseDBVersions and inserts them into the database
// Relations objects are also inserted and placed in the .R field
// panics if an error occurs
func (o GooseDBVersionTemplate) MustCreateMany(ctx context.Context, exec bob.Executor, number int) models.GooseDBVersionSlice {
m, err := o.CreateMany(ctx, exec, number)
if err != nil {
panic(err)
}
return m
}
// CreateManyOrFail builds multiple gooseDBVersions and inserts them into the database
// Relations objects are also inserted and placed in the .R field
// It calls `tb.Fatal(err)` on the test/benchmark if an error occurs
func (o GooseDBVersionTemplate) CreateManyOrFail(ctx context.Context, tb testing.TB, exec bob.Executor, number int) models.GooseDBVersionSlice {
tb.Helper()
m, err := o.CreateMany(ctx, exec, number)
if err != nil {
tb.Fatal(err)
return nil
}
return m
}
// GooseDBVersion has methods that act as mods for the GooseDBVersionTemplate
var GooseDBVersionMods gooseDBVersionMods
type gooseDBVersionMods struct{}
func (m gooseDBVersionMods) RandomizeAllColumns(f *faker.Faker) GooseDBVersionMod {
return GooseDBVersionModSlice{
GooseDBVersionMods.RandomID(f),
GooseDBVersionMods.RandomVersionID(f),
GooseDBVersionMods.RandomIsApplied(f),
GooseDBVersionMods.RandomTstamp(f),
}
}
// Set the model columns to this value
func (m gooseDBVersionMods) ID(val int32) GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.ID = func() int32 { return val }
})
}
// Set the Column from the function
func (m gooseDBVersionMods) IDFunc(f func() int32) GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.ID = f
})
}
// Clear any values for the column
func (m gooseDBVersionMods) UnsetID() GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.ID = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
func (m gooseDBVersionMods) RandomID(f *faker.Faker) GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.ID = func() int32 {
return random_int32(f)
}
})
}
// Set the model columns to this value
func (m gooseDBVersionMods) VersionID(val int64) GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.VersionID = func() int64 { return val }
})
}
// Set the Column from the function
func (m gooseDBVersionMods) VersionIDFunc(f func() int64) GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.VersionID = f
})
}
// Clear any values for the column
func (m gooseDBVersionMods) UnsetVersionID() GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.VersionID = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
func (m gooseDBVersionMods) RandomVersionID(f *faker.Faker) GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.VersionID = func() int64 {
return random_int64(f)
}
})
}
// Set the model columns to this value
func (m gooseDBVersionMods) IsApplied(val bool) GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.IsApplied = func() bool { return val }
})
}
// Set the Column from the function
func (m gooseDBVersionMods) IsAppliedFunc(f func() bool) GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.IsApplied = f
})
}
// Clear any values for the column
func (m gooseDBVersionMods) UnsetIsApplied() GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.IsApplied = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
func (m gooseDBVersionMods) RandomIsApplied(f *faker.Faker) GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.IsApplied = func() bool {
return random_bool(f)
}
})
}
// Set the model columns to this value
func (m gooseDBVersionMods) Tstamp(val time.Time) GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.Tstamp = func() time.Time { return val }
})
}
// Set the Column from the function
func (m gooseDBVersionMods) TstampFunc(f func() time.Time) GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.Tstamp = f
})
}
// Clear any values for the column
func (m gooseDBVersionMods) UnsetTstamp() GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.Tstamp = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
func (m gooseDBVersionMods) RandomTstamp(f *faker.Faker) GooseDBVersionMod {
return GooseDBVersionModFunc(func(_ context.Context, o *GooseDBVersionTemplate) {
o.Tstamp = func() time.Time {
return random_time_Time(f)
}
})
}
func (m gooseDBVersionMods) WithParentsCascading() GooseDBVersionMod {
return GooseDBVersionModFunc(func(ctx context.Context, o *GooseDBVersionTemplate) {
if isDone, _ := gooseDBVersionWithParentsCascadingCtx.Value(ctx); isDone {
return
}
ctx = gooseDBVersionWithParentsCascadingCtx.WithValue(ctx, true)
})
}

406
factory/organization.bob.go Normal file
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// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package factory
import (
"context"
"testing"
models "github.com/Gleipnir-Technology/nidus-sync/models"
"github.com/aarondl/opt/null"
"github.com/aarondl/opt/omit"
"github.com/aarondl/opt/omitnull"
"github.com/jaswdr/faker/v2"
"github.com/stephenafamo/bob"
)
type OrganizationMod interface {
Apply(context.Context, *OrganizationTemplate)
}
type OrganizationModFunc func(context.Context, *OrganizationTemplate)
func (f OrganizationModFunc) Apply(ctx context.Context, n *OrganizationTemplate) {
f(ctx, n)
}
type OrganizationModSlice []OrganizationMod
func (mods OrganizationModSlice) Apply(ctx context.Context, n *OrganizationTemplate) {
for _, f := range mods {
f.Apply(ctx, n)
}
}
// OrganizationTemplate is an object representing the database table.
// all columns are optional and should be set by mods
type OrganizationTemplate struct {
ID func() int32
Name func() null.Val[string]
r organizationR
f *Factory
alreadyPersisted bool
}
type organizationR struct {
User []*organizationRUserR
}
type organizationRUserR struct {
number int
o *UserTemplate
}
// Apply mods to the OrganizationTemplate
func (o *OrganizationTemplate) Apply(ctx context.Context, mods ...OrganizationMod) {
for _, mod := range mods {
mod.Apply(ctx, o)
}
}
// setModelRels creates and sets the relationships on *models.Organization
// according to the relationships in the template. Nothing is inserted into the db
func (t OrganizationTemplate) setModelRels(o *models.Organization) {
if t.r.User != nil {
rel := models.UserSlice{}
for _, r := range t.r.User {
related := r.o.BuildMany(r.number)
for _, rel := range related {
rel.OrganizationID = null.From(o.ID) // h2
rel.R.Organization = o
}
rel = append(rel, related...)
}
o.R.User = rel
}
}
// BuildSetter returns an *models.OrganizationSetter
// this does nothing with the relationship templates
func (o OrganizationTemplate) BuildSetter() *models.OrganizationSetter {
m := &models.OrganizationSetter{}
if o.ID != nil {
val := o.ID()
m.ID = omit.From(val)
}
if o.Name != nil {
val := o.Name()
m.Name = omitnull.FromNull(val)
}
return m
}
// BuildManySetter returns an []*models.OrganizationSetter
// this does nothing with the relationship templates
func (o OrganizationTemplate) BuildManySetter(number int) []*models.OrganizationSetter {
m := make([]*models.OrganizationSetter, number)
for i := range m {
m[i] = o.BuildSetter()
}
return m
}
// Build returns an *models.Organization
// Related objects are also created and placed in the .R field
// NOTE: Objects are not inserted into the database. Use OrganizationTemplate.Create
func (o OrganizationTemplate) Build() *models.Organization {
m := &models.Organization{}
if o.ID != nil {
m.ID = o.ID()
}
if o.Name != nil {
m.Name = o.Name()
}
o.setModelRels(m)
return m
}
// BuildMany returns an models.OrganizationSlice
// Related objects are also created and placed in the .R field
// NOTE: Objects are not inserted into the database. Use OrganizationTemplate.CreateMany
func (o OrganizationTemplate) BuildMany(number int) models.OrganizationSlice {
m := make(models.OrganizationSlice, number)
for i := range m {
m[i] = o.Build()
}
return m
}
func ensureCreatableOrganization(m *models.OrganizationSetter) {
}
// insertOptRels creates and inserts any optional the relationships on *models.Organization
// according to the relationships in the template.
// any required relationship should have already exist on the model
func (o *OrganizationTemplate) insertOptRels(ctx context.Context, exec bob.Executor, m *models.Organization) error {
var err error
isUserDone, _ := organizationRelUserCtx.Value(ctx)
if !isUserDone && o.r.User != nil {
ctx = organizationRelUserCtx.WithValue(ctx, true)
for _, r := range o.r.User {
if r.o.alreadyPersisted {
m.R.User = append(m.R.User, r.o.Build())
} else {
rel0, err := r.o.CreateMany(ctx, exec, r.number)
if err != nil {
return err
}
err = m.AttachUser(ctx, exec, rel0...)
if err != nil {
return err
}
}
}
}
return err
}
// Create builds a organization and inserts it into the database
// Relations objects are also inserted and placed in the .R field
func (o *OrganizationTemplate) Create(ctx context.Context, exec bob.Executor) (*models.Organization, error) {
var err error
opt := o.BuildSetter()
ensureCreatableOrganization(opt)
m, err := models.Organizations.Insert(opt).One(ctx, exec)
if err != nil {
return nil, err
}
if err := o.insertOptRels(ctx, exec, m); err != nil {
return nil, err
}
return m, err
}
// MustCreate builds a organization and inserts it into the database
// Relations objects are also inserted and placed in the .R field
// panics if an error occurs
func (o *OrganizationTemplate) MustCreate(ctx context.Context, exec bob.Executor) *models.Organization {
m, err := o.Create(ctx, exec)
if err != nil {
panic(err)
}
return m
}
// CreateOrFail builds a organization and inserts it into the database
// Relations objects are also inserted and placed in the .R field
// It calls `tb.Fatal(err)` on the test/benchmark if an error occurs
func (o *OrganizationTemplate) CreateOrFail(ctx context.Context, tb testing.TB, exec bob.Executor) *models.Organization {
tb.Helper()
m, err := o.Create(ctx, exec)
if err != nil {
tb.Fatal(err)
return nil
}
return m
}
// CreateMany builds multiple organizations and inserts them into the database
// Relations objects are also inserted and placed in the .R field
func (o OrganizationTemplate) CreateMany(ctx context.Context, exec bob.Executor, number int) (models.OrganizationSlice, error) {
var err error
m := make(models.OrganizationSlice, number)
for i := range m {
m[i], err = o.Create(ctx, exec)
if err != nil {
return nil, err
}
}
return m, nil
}
// MustCreateMany builds multiple organizations and inserts them into the database
// Relations objects are also inserted and placed in the .R field
// panics if an error occurs
func (o OrganizationTemplate) MustCreateMany(ctx context.Context, exec bob.Executor, number int) models.OrganizationSlice {
m, err := o.CreateMany(ctx, exec, number)
if err != nil {
panic(err)
}
return m
}
// CreateManyOrFail builds multiple organizations and inserts them into the database
// Relations objects are also inserted and placed in the .R field
// It calls `tb.Fatal(err)` on the test/benchmark if an error occurs
func (o OrganizationTemplate) CreateManyOrFail(ctx context.Context, tb testing.TB, exec bob.Executor, number int) models.OrganizationSlice {
tb.Helper()
m, err := o.CreateMany(ctx, exec, number)
if err != nil {
tb.Fatal(err)
return nil
}
return m
}
// Organization has methods that act as mods for the OrganizationTemplate
var OrganizationMods organizationMods
type organizationMods struct{}
func (m organizationMods) RandomizeAllColumns(f *faker.Faker) OrganizationMod {
return OrganizationModSlice{
OrganizationMods.RandomID(f),
OrganizationMods.RandomName(f),
}
}
// Set the model columns to this value
func (m organizationMods) ID(val int32) OrganizationMod {
return OrganizationModFunc(func(_ context.Context, o *OrganizationTemplate) {
o.ID = func() int32 { return val }
})
}
// Set the Column from the function
func (m organizationMods) IDFunc(f func() int32) OrganizationMod {
return OrganizationModFunc(func(_ context.Context, o *OrganizationTemplate) {
o.ID = f
})
}
// Clear any values for the column
func (m organizationMods) UnsetID() OrganizationMod {
return OrganizationModFunc(func(_ context.Context, o *OrganizationTemplate) {
o.ID = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
func (m organizationMods) RandomID(f *faker.Faker) OrganizationMod {
return OrganizationModFunc(func(_ context.Context, o *OrganizationTemplate) {
o.ID = func() int32 {
return random_int32(f)
}
})
}
// Set the model columns to this value
func (m organizationMods) Name(val null.Val[string]) OrganizationMod {
return OrganizationModFunc(func(_ context.Context, o *OrganizationTemplate) {
o.Name = func() null.Val[string] { return val }
})
}
// Set the Column from the function
func (m organizationMods) NameFunc(f func() null.Val[string]) OrganizationMod {
return OrganizationModFunc(func(_ context.Context, o *OrganizationTemplate) {
o.Name = f
})
}
// Clear any values for the column
func (m organizationMods) UnsetName() OrganizationMod {
return OrganizationModFunc(func(_ context.Context, o *OrganizationTemplate) {
o.Name = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is sometimes null
func (m organizationMods) RandomName(f *faker.Faker) OrganizationMod {
return OrganizationModFunc(func(_ context.Context, o *OrganizationTemplate) {
o.Name = func() null.Val[string] {
if f == nil {
f = &defaultFaker
}
val := random_string(f)
return null.From(val)
}
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is never null
func (m organizationMods) RandomNameNotNull(f *faker.Faker) OrganizationMod {
return OrganizationModFunc(func(_ context.Context, o *OrganizationTemplate) {
o.Name = func() null.Val[string] {
if f == nil {
f = &defaultFaker
}
val := random_string(f)
return null.From(val)
}
})
}
func (m organizationMods) WithParentsCascading() OrganizationMod {
return OrganizationModFunc(func(ctx context.Context, o *OrganizationTemplate) {
if isDone, _ := organizationWithParentsCascadingCtx.Value(ctx); isDone {
return
}
ctx = organizationWithParentsCascadingCtx.WithValue(ctx, true)
})
}
func (m organizationMods) WithUser(number int, related *UserTemplate) OrganizationMod {
return OrganizationModFunc(func(ctx context.Context, o *OrganizationTemplate) {
o.r.User = []*organizationRUserR{{
number: number,
o: related,
}}
})
}
func (m organizationMods) WithNewUser(number int, mods ...UserMod) OrganizationMod {
return OrganizationModFunc(func(ctx context.Context, o *OrganizationTemplate) {
related := o.f.NewUserWithContext(ctx, mods...)
m.WithUser(number, related).Apply(ctx, o)
})
}
func (m organizationMods) AddUser(number int, related *UserTemplate) OrganizationMod {
return OrganizationModFunc(func(ctx context.Context, o *OrganizationTemplate) {
o.r.User = append(o.r.User, &organizationRUserR{
number: number,
o: related,
})
})
}
func (m organizationMods) AddNewUser(number int, mods ...UserMod) OrganizationMod {
return OrganizationModFunc(func(ctx context.Context, o *OrganizationTemplate) {
related := o.f.NewUserWithContext(ctx, mods...)
m.AddUser(number, related).Apply(ctx, o)
})
}
func (m organizationMods) AddExistingUser(existingModels ...*models.User) OrganizationMod {
return OrganizationModFunc(func(ctx context.Context, o *OrganizationTemplate) {
for _, em := range existingModels {
o.r.User = append(o.r.User, &organizationRUserR{
o: o.f.FromExistingUser(em),
})
}
})
}
func (m organizationMods) WithoutUser() OrganizationMod {
return OrganizationModFunc(func(ctx context.Context, o *OrganizationTemplate) {
o.r.User = nil
})
}

865
factory/user_.bob.go Normal file
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@ -0,0 +1,865 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package factory
import (
"context"
"testing"
"time"
enums "github.com/Gleipnir-Technology/nidus-sync/enums"
models "github.com/Gleipnir-Technology/nidus-sync/models"
"github.com/aarondl/opt/null"
"github.com/aarondl/opt/omit"
"github.com/aarondl/opt/omitnull"
"github.com/jaswdr/faker/v2"
"github.com/stephenafamo/bob"
)
type UserMod interface {
Apply(context.Context, *UserTemplate)
}
type UserModFunc func(context.Context, *UserTemplate)
func (f UserModFunc) Apply(ctx context.Context, n *UserTemplate) {
f(ctx, n)
}
type UserModSlice []UserMod
func (mods UserModSlice) Apply(ctx context.Context, n *UserTemplate) {
for _, f := range mods {
f.Apply(ctx, n)
}
}
// UserTemplate is an object representing the database table.
// all columns are optional and should be set by mods
type UserTemplate struct {
ID func() int32
ArcgisAccessToken func() null.Val[string]
ArcgisLicense func() null.Val[enums.ArcgisLicenseType]
ArcgisRefreshToken func() null.Val[string]
ArcgisRefreshTokenExpires func() null.Val[time.Time]
ArcgisRole func() null.Val[string]
DisplayName func() null.Val[string]
Email func() null.Val[string]
OrganizationID func() null.Val[int32]
Username func() string
r userR
f *Factory
alreadyPersisted bool
}
type userR struct {
Organization *userROrganizationR
}
type userROrganizationR struct {
o *OrganizationTemplate
}
// Apply mods to the UserTemplate
func (o *UserTemplate) Apply(ctx context.Context, mods ...UserMod) {
for _, mod := range mods {
mod.Apply(ctx, o)
}
}
// setModelRels creates and sets the relationships on *models.User
// according to the relationships in the template. Nothing is inserted into the db
func (t UserTemplate) setModelRels(o *models.User) {
if t.r.Organization != nil {
rel := t.r.Organization.o.Build()
rel.R.User = append(rel.R.User, o)
o.OrganizationID = null.From(rel.ID) // h2
o.R.Organization = rel
}
}
// BuildSetter returns an *models.UserSetter
// this does nothing with the relationship templates
func (o UserTemplate) BuildSetter() *models.UserSetter {
m := &models.UserSetter{}
if o.ID != nil {
val := o.ID()
m.ID = omit.From(val)
}
if o.ArcgisAccessToken != nil {
val := o.ArcgisAccessToken()
m.ArcgisAccessToken = omitnull.FromNull(val)
}
if o.ArcgisLicense != nil {
val := o.ArcgisLicense()
m.ArcgisLicense = omitnull.FromNull(val)
}
if o.ArcgisRefreshToken != nil {
val := o.ArcgisRefreshToken()
m.ArcgisRefreshToken = omitnull.FromNull(val)
}
if o.ArcgisRefreshTokenExpires != nil {
val := o.ArcgisRefreshTokenExpires()
m.ArcgisRefreshTokenExpires = omitnull.FromNull(val)
}
if o.ArcgisRole != nil {
val := o.ArcgisRole()
m.ArcgisRole = omitnull.FromNull(val)
}
if o.DisplayName != nil {
val := o.DisplayName()
m.DisplayName = omitnull.FromNull(val)
}
if o.Email != nil {
val := o.Email()
m.Email = omitnull.FromNull(val)
}
if o.OrganizationID != nil {
val := o.OrganizationID()
m.OrganizationID = omitnull.FromNull(val)
}
if o.Username != nil {
val := o.Username()
m.Username = omit.From(val)
}
return m
}
// BuildManySetter returns an []*models.UserSetter
// this does nothing with the relationship templates
func (o UserTemplate) BuildManySetter(number int) []*models.UserSetter {
m := make([]*models.UserSetter, number)
for i := range m {
m[i] = o.BuildSetter()
}
return m
}
// Build returns an *models.User
// Related objects are also created and placed in the .R field
// NOTE: Objects are not inserted into the database. Use UserTemplate.Create
func (o UserTemplate) Build() *models.User {
m := &models.User{}
if o.ID != nil {
m.ID = o.ID()
}
if o.ArcgisAccessToken != nil {
m.ArcgisAccessToken = o.ArcgisAccessToken()
}
if o.ArcgisLicense != nil {
m.ArcgisLicense = o.ArcgisLicense()
}
if o.ArcgisRefreshToken != nil {
m.ArcgisRefreshToken = o.ArcgisRefreshToken()
}
if o.ArcgisRefreshTokenExpires != nil {
m.ArcgisRefreshTokenExpires = o.ArcgisRefreshTokenExpires()
}
if o.ArcgisRole != nil {
m.ArcgisRole = o.ArcgisRole()
}
if o.DisplayName != nil {
m.DisplayName = o.DisplayName()
}
if o.Email != nil {
m.Email = o.Email()
}
if o.OrganizationID != nil {
m.OrganizationID = o.OrganizationID()
}
if o.Username != nil {
m.Username = o.Username()
}
o.setModelRels(m)
return m
}
// BuildMany returns an models.UserSlice
// Related objects are also created and placed in the .R field
// NOTE: Objects are not inserted into the database. Use UserTemplate.CreateMany
func (o UserTemplate) BuildMany(number int) models.UserSlice {
m := make(models.UserSlice, number)
for i := range m {
m[i] = o.Build()
}
return m
}
func ensureCreatableUser(m *models.UserSetter) {
if !(m.Username.IsValue()) {
val := random_string(nil)
m.Username = omit.From(val)
}
}
// insertOptRels creates and inserts any optional the relationships on *models.User
// according to the relationships in the template.
// any required relationship should have already exist on the model
func (o *UserTemplate) insertOptRels(ctx context.Context, exec bob.Executor, m *models.User) error {
var err error
isOrganizationDone, _ := userRelOrganizationCtx.Value(ctx)
if !isOrganizationDone && o.r.Organization != nil {
ctx = userRelOrganizationCtx.WithValue(ctx, true)
if o.r.Organization.o.alreadyPersisted {
m.R.Organization = o.r.Organization.o.Build()
} else {
var rel0 *models.Organization
rel0, err = o.r.Organization.o.Create(ctx, exec)
if err != nil {
return err
}
err = m.AttachOrganization(ctx, exec, rel0)
if err != nil {
return err
}
}
}
return err
}
// Create builds a user and inserts it into the database
// Relations objects are also inserted and placed in the .R field
func (o *UserTemplate) Create(ctx context.Context, exec bob.Executor) (*models.User, error) {
var err error
opt := o.BuildSetter()
ensureCreatableUser(opt)
m, err := models.Users.Insert(opt).One(ctx, exec)
if err != nil {
return nil, err
}
if err := o.insertOptRels(ctx, exec, m); err != nil {
return nil, err
}
return m, err
}
// MustCreate builds a user and inserts it into the database
// Relations objects are also inserted and placed in the .R field
// panics if an error occurs
func (o *UserTemplate) MustCreate(ctx context.Context, exec bob.Executor) *models.User {
m, err := o.Create(ctx, exec)
if err != nil {
panic(err)
}
return m
}
// CreateOrFail builds a user and inserts it into the database
// Relations objects are also inserted and placed in the .R field
// It calls `tb.Fatal(err)` on the test/benchmark if an error occurs
func (o *UserTemplate) CreateOrFail(ctx context.Context, tb testing.TB, exec bob.Executor) *models.User {
tb.Helper()
m, err := o.Create(ctx, exec)
if err != nil {
tb.Fatal(err)
return nil
}
return m
}
// CreateMany builds multiple users and inserts them into the database
// Relations objects are also inserted and placed in the .R field
func (o UserTemplate) CreateMany(ctx context.Context, exec bob.Executor, number int) (models.UserSlice, error) {
var err error
m := make(models.UserSlice, number)
for i := range m {
m[i], err = o.Create(ctx, exec)
if err != nil {
return nil, err
}
}
return m, nil
}
// MustCreateMany builds multiple users and inserts them into the database
// Relations objects are also inserted and placed in the .R field
// panics if an error occurs
func (o UserTemplate) MustCreateMany(ctx context.Context, exec bob.Executor, number int) models.UserSlice {
m, err := o.CreateMany(ctx, exec, number)
if err != nil {
panic(err)
}
return m
}
// CreateManyOrFail builds multiple users and inserts them into the database
// Relations objects are also inserted and placed in the .R field
// It calls `tb.Fatal(err)` on the test/benchmark if an error occurs
func (o UserTemplate) CreateManyOrFail(ctx context.Context, tb testing.TB, exec bob.Executor, number int) models.UserSlice {
tb.Helper()
m, err := o.CreateMany(ctx, exec, number)
if err != nil {
tb.Fatal(err)
return nil
}
return m
}
// User has methods that act as mods for the UserTemplate
var UserMods userMods
type userMods struct{}
func (m userMods) RandomizeAllColumns(f *faker.Faker) UserMod {
return UserModSlice{
UserMods.RandomID(f),
UserMods.RandomArcgisAccessToken(f),
UserMods.RandomArcgisLicense(f),
UserMods.RandomArcgisRefreshToken(f),
UserMods.RandomArcgisRefreshTokenExpires(f),
UserMods.RandomArcgisRole(f),
UserMods.RandomDisplayName(f),
UserMods.RandomEmail(f),
UserMods.RandomOrganizationID(f),
UserMods.RandomUsername(f),
}
}
// Set the model columns to this value
func (m userMods) ID(val int32) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ID = func() int32 { return val }
})
}
// Set the Column from the function
func (m userMods) IDFunc(f func() int32) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ID = f
})
}
// Clear any values for the column
func (m userMods) UnsetID() UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ID = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
func (m userMods) RandomID(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ID = func() int32 {
return random_int32(f)
}
})
}
// Set the model columns to this value
func (m userMods) ArcgisAccessToken(val null.Val[string]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisAccessToken = func() null.Val[string] { return val }
})
}
// Set the Column from the function
func (m userMods) ArcgisAccessTokenFunc(f func() null.Val[string]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisAccessToken = f
})
}
// Clear any values for the column
func (m userMods) UnsetArcgisAccessToken() UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisAccessToken = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is sometimes null
func (m userMods) RandomArcgisAccessToken(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisAccessToken = func() null.Val[string] {
if f == nil {
f = &defaultFaker
}
val := random_string(f)
return null.From(val)
}
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is never null
func (m userMods) RandomArcgisAccessTokenNotNull(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisAccessToken = func() null.Val[string] {
if f == nil {
f = &defaultFaker
}
val := random_string(f)
return null.From(val)
}
})
}
// Set the model columns to this value
func (m userMods) ArcgisLicense(val null.Val[enums.ArcgisLicenseType]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisLicense = func() null.Val[enums.ArcgisLicenseType] { return val }
})
}
// Set the Column from the function
func (m userMods) ArcgisLicenseFunc(f func() null.Val[enums.ArcgisLicenseType]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisLicense = f
})
}
// Clear any values for the column
func (m userMods) UnsetArcgisLicense() UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisLicense = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is sometimes null
func (m userMods) RandomArcgisLicense(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisLicense = func() null.Val[enums.ArcgisLicenseType] {
if f == nil {
f = &defaultFaker
}
val := random_enums_ArcgisLicenseType(f)
return null.From(val)
}
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is never null
func (m userMods) RandomArcgisLicenseNotNull(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisLicense = func() null.Val[enums.ArcgisLicenseType] {
if f == nil {
f = &defaultFaker
}
val := random_enums_ArcgisLicenseType(f)
return null.From(val)
}
})
}
// Set the model columns to this value
func (m userMods) ArcgisRefreshToken(val null.Val[string]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRefreshToken = func() null.Val[string] { return val }
})
}
// Set the Column from the function
func (m userMods) ArcgisRefreshTokenFunc(f func() null.Val[string]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRefreshToken = f
})
}
// Clear any values for the column
func (m userMods) UnsetArcgisRefreshToken() UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRefreshToken = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is sometimes null
func (m userMods) RandomArcgisRefreshToken(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRefreshToken = func() null.Val[string] {
if f == nil {
f = &defaultFaker
}
val := random_string(f)
return null.From(val)
}
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is never null
func (m userMods) RandomArcgisRefreshTokenNotNull(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRefreshToken = func() null.Val[string] {
if f == nil {
f = &defaultFaker
}
val := random_string(f)
return null.From(val)
}
})
}
// Set the model columns to this value
func (m userMods) ArcgisRefreshTokenExpires(val null.Val[time.Time]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRefreshTokenExpires = func() null.Val[time.Time] { return val }
})
}
// Set the Column from the function
func (m userMods) ArcgisRefreshTokenExpiresFunc(f func() null.Val[time.Time]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRefreshTokenExpires = f
})
}
// Clear any values for the column
func (m userMods) UnsetArcgisRefreshTokenExpires() UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRefreshTokenExpires = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is sometimes null
func (m userMods) RandomArcgisRefreshTokenExpires(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRefreshTokenExpires = func() null.Val[time.Time] {
if f == nil {
f = &defaultFaker
}
val := random_time_Time(f)
return null.From(val)
}
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is never null
func (m userMods) RandomArcgisRefreshTokenExpiresNotNull(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRefreshTokenExpires = func() null.Val[time.Time] {
if f == nil {
f = &defaultFaker
}
val := random_time_Time(f)
return null.From(val)
}
})
}
// Set the model columns to this value
func (m userMods) ArcgisRole(val null.Val[string]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRole = func() null.Val[string] { return val }
})
}
// Set the Column from the function
func (m userMods) ArcgisRoleFunc(f func() null.Val[string]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRole = f
})
}
// Clear any values for the column
func (m userMods) UnsetArcgisRole() UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRole = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is sometimes null
func (m userMods) RandomArcgisRole(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRole = func() null.Val[string] {
if f == nil {
f = &defaultFaker
}
val := random_string(f)
return null.From(val)
}
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is never null
func (m userMods) RandomArcgisRoleNotNull(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.ArcgisRole = func() null.Val[string] {
if f == nil {
f = &defaultFaker
}
val := random_string(f)
return null.From(val)
}
})
}
// Set the model columns to this value
func (m userMods) DisplayName(val null.Val[string]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.DisplayName = func() null.Val[string] { return val }
})
}
// Set the Column from the function
func (m userMods) DisplayNameFunc(f func() null.Val[string]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.DisplayName = f
})
}
// Clear any values for the column
func (m userMods) UnsetDisplayName() UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.DisplayName = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is sometimes null
func (m userMods) RandomDisplayName(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.DisplayName = func() null.Val[string] {
if f == nil {
f = &defaultFaker
}
val := random_string(f, "200")
return null.From(val)
}
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is never null
func (m userMods) RandomDisplayNameNotNull(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.DisplayName = func() null.Val[string] {
if f == nil {
f = &defaultFaker
}
val := random_string(f, "200")
return null.From(val)
}
})
}
// Set the model columns to this value
func (m userMods) Email(val null.Val[string]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.Email = func() null.Val[string] { return val }
})
}
// Set the Column from the function
func (m userMods) EmailFunc(f func() null.Val[string]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.Email = f
})
}
// Clear any values for the column
func (m userMods) UnsetEmail() UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.Email = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is sometimes null
func (m userMods) RandomEmail(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.Email = func() null.Val[string] {
if f == nil {
f = &defaultFaker
}
val := random_string(f)
return null.From(val)
}
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is never null
func (m userMods) RandomEmailNotNull(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.Email = func() null.Val[string] {
if f == nil {
f = &defaultFaker
}
val := random_string(f)
return null.From(val)
}
})
}
// Set the model columns to this value
func (m userMods) OrganizationID(val null.Val[int32]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.OrganizationID = func() null.Val[int32] { return val }
})
}
// Set the Column from the function
func (m userMods) OrganizationIDFunc(f func() null.Val[int32]) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.OrganizationID = f
})
}
// Clear any values for the column
func (m userMods) UnsetOrganizationID() UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.OrganizationID = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is sometimes null
func (m userMods) RandomOrganizationID(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.OrganizationID = func() null.Val[int32] {
if f == nil {
f = &defaultFaker
}
val := random_int32(f)
return null.From(val)
}
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
// The generated value is never null
func (m userMods) RandomOrganizationIDNotNull(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.OrganizationID = func() null.Val[int32] {
if f == nil {
f = &defaultFaker
}
val := random_int32(f)
return null.From(val)
}
})
}
// Set the model columns to this value
func (m userMods) Username(val string) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.Username = func() string { return val }
})
}
// Set the Column from the function
func (m userMods) UsernameFunc(f func() string) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.Username = f
})
}
// Clear any values for the column
func (m userMods) UnsetUsername() UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.Username = nil
})
}
// Generates a random value for the column using the given faker
// if faker is nil, a default faker is used
func (m userMods) RandomUsername(f *faker.Faker) UserMod {
return UserModFunc(func(_ context.Context, o *UserTemplate) {
o.Username = func() string {
return random_string(f)
}
})
}
func (m userMods) WithParentsCascading() UserMod {
return UserModFunc(func(ctx context.Context, o *UserTemplate) {
if isDone, _ := userWithParentsCascadingCtx.Value(ctx); isDone {
return
}
ctx = userWithParentsCascadingCtx.WithValue(ctx, true)
{
related := o.f.NewOrganizationWithContext(ctx, OrganizationMods.WithParentsCascading())
m.WithOrganization(related).Apply(ctx, o)
}
})
}
func (m userMods) WithOrganization(rel *OrganizationTemplate) UserMod {
return UserModFunc(func(ctx context.Context, o *UserTemplate) {
o.r.Organization = &userROrganizationR{
o: rel,
}
})
}
func (m userMods) WithNewOrganization(mods ...OrganizationMod) UserMod {
return UserModFunc(func(ctx context.Context, o *UserTemplate) {
related := o.f.NewOrganizationWithContext(ctx, mods...)
m.WithOrganization(related).Apply(ctx, o)
})
}
func (m userMods) WithExistingOrganization(em *models.Organization) UserMod {
return UserModFunc(func(ctx context.Context, o *UserTemplate) {
o.r.Organization = &userROrganizationR{
o: o.f.FromExistingOrganization(em),
}
})
}
func (m userMods) WithoutOrganization() UserMod {
return UserModFunc(func(ctx context.Context, o *UserTemplate) {
o.r.Organization = nil
})
}

17
go.mod
View file

@ -5,4 +5,21 @@ go 1.24.9
require ( require (
github.com/alexedwards/scs/v2 v2.9.0 github.com/alexedwards/scs/v2 v2.9.0
github.com/go-chi/chi/v5 v5.2.3 github.com/go-chi/chi/v5 v5.2.3
github.com/jackc/pgx/v5 v5.7.6
github.com/pressly/goose/v3 v3.26.0
github.com/stephenafamo/bob v0.41.1
)
require (
github.com/jackc/pgpassfile v1.0.0 // indirect
github.com/jackc/pgservicefile v0.0.0-20240606120523-5a60cdf6a761 // indirect
github.com/jackc/puddle/v2 v2.2.2 // indirect
github.com/mfridman/interpolate v0.0.2 // indirect
github.com/qdm12/reprint v0.0.0-20200326205758-722754a53494 // indirect
github.com/sethvargo/go-retry v0.3.0 // indirect
github.com/stephenafamo/scan v0.7.0 // indirect
go.uber.org/multierr v1.11.0 // indirect
golang.org/x/crypto v0.40.0 // indirect
golang.org/x/sync v0.16.0 // indirect
golang.org/x/text v0.27.0 // indirect
) )

72
go.sum
View file

@ -1,4 +1,76 @@
github.com/aarondl/opt v0.0.0-20250607033636-982744e1bd65 h1:lbdPe4LBNmNDzeQFwNhEc88w90841qv737MI4+aXSYU=
github.com/aarondl/opt v0.0.0-20250607033636-982744e1bd65/go.mod h1:+xKBXrTAUOvrDXO5PRwIr4E1wciHY3Glgl+6OkCXknU=
github.com/alexedwards/scs/v2 v2.9.0 h1:xa05mVpwTBm1iLeTMNFfAWpKUm4fXAW7CeAViqBVS90= github.com/alexedwards/scs/v2 v2.9.0 h1:xa05mVpwTBm1iLeTMNFfAWpKUm4fXAW7CeAViqBVS90=
github.com/alexedwards/scs/v2 v2.9.0/go.mod h1:ToaROZxyKukJKT/xLcVQAChi5k6+Pn1Gvmdl7h3RRj8= github.com/alexedwards/scs/v2 v2.9.0/go.mod h1:ToaROZxyKukJKT/xLcVQAChi5k6+Pn1Gvmdl7h3RRj8=
github.com/davecgh/go-spew v1.1.0/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38=
github.com/davecgh/go-spew v1.1.1 h1:vj9j/u1bqnvCEfJOwUhtlOARqs3+rkHYY13jYWTU97c=
github.com/davecgh/go-spew v1.1.1/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38=
github.com/dustin/go-humanize v1.0.1 h1:GzkhY7T5VNhEkwH0PVJgjz+fX1rhBrR7pRT3mDkpeCY=
github.com/dustin/go-humanize v1.0.1/go.mod h1:Mu1zIs6XwVuF/gI1OepvI0qD18qycQx+mFykh5fBlto=
github.com/go-chi/chi/v5 v5.2.3 h1:WQIt9uxdsAbgIYgid+BpYc+liqQZGMHRaUwp0JUcvdE= github.com/go-chi/chi/v5 v5.2.3 h1:WQIt9uxdsAbgIYgid+BpYc+liqQZGMHRaUwp0JUcvdE=
github.com/go-chi/chi/v5 v5.2.3/go.mod h1:L2yAIGWB3H+phAw1NxKwWM+7eUH/lU8pOMm5hHcoops= github.com/go-chi/chi/v5 v5.2.3/go.mod h1:L2yAIGWB3H+phAw1NxKwWM+7eUH/lU8pOMm5hHcoops=
github.com/google/go-cmp v0.7.0 h1:wk8382ETsv4JYUZwIsn6YpYiWiBsYLSJiTsyBybVuN8=
github.com/google/go-cmp v0.7.0/go.mod h1:pXiqmnSA92OHEEa9HXL2W4E7lf9JzCmGVUdgjX3N/iU=
github.com/google/uuid v1.6.0 h1:NIvaJDMOsjHA8n1jAhLSgzrAzy1Hgr+hNrb57e+94F0=
github.com/google/uuid v1.6.0/go.mod h1:TIyPZe4MgqvfeYDBFedMoGGpEw/LqOeaOT+nhxU+yHo=
github.com/jackc/pgpassfile v1.0.0 h1:/6Hmqy13Ss2zCq62VdNG8tM1wchn8zjSGOBJ6icpsIM=
github.com/jackc/pgpassfile v1.0.0/go.mod h1:CEx0iS5ambNFdcRtxPj5JhEz+xB6uRky5eyVu/W2HEg=
github.com/jackc/pgservicefile v0.0.0-20240606120523-5a60cdf6a761 h1:iCEnooe7UlwOQYpKFhBabPMi4aNAfoODPEFNiAnClxo=
github.com/jackc/pgservicefile v0.0.0-20240606120523-5a60cdf6a761/go.mod h1:5TJZWKEWniPve33vlWYSoGYefn3gLQRzjfDlhSJ9ZKM=
github.com/jackc/pgx/v5 v5.7.6 h1:rWQc5FwZSPX58r1OQmkuaNicxdmExaEz5A2DO2hUuTk=
github.com/jackc/pgx/v5 v5.7.6/go.mod h1:aruU7o91Tc2q2cFp5h4uP3f6ztExVpyVv88Xl/8Vl8M=
github.com/jackc/puddle/v2 v2.2.2 h1:PR8nw+E/1w0GLuRFSmiioY6UooMp6KJv0/61nB7icHo=
github.com/jackc/puddle/v2 v2.2.2/go.mod h1:vriiEXHvEE654aYKXXjOvZM39qJ0q+azkZFrfEOc3H4=
github.com/mattn/go-isatty v0.0.20 h1:xfD0iDuEKnDkl03q4limB+vH+GxLEtL/jb4xVJSWWEY=
github.com/mattn/go-isatty v0.0.20/go.mod h1:W+V8PltTTMOvKvAeJH7IuucS94S2C6jfK/D7dTCTo3Y=
github.com/mfridman/interpolate v0.0.2 h1:pnuTK7MQIxxFz1Gr+rjSIx9u7qVjf5VOoM/u6BbAxPY=
github.com/mfridman/interpolate v0.0.2/go.mod h1:p+7uk6oE07mpE/Ik1b8EckO0O4ZXiGAfshKBWLUM9Xg=
github.com/ncruces/go-strftime v0.1.9 h1:bY0MQC28UADQmHmaF5dgpLmImcShSi2kHU9XLdhx/f4=
github.com/ncruces/go-strftime v0.1.9/go.mod h1:Fwc5htZGVVkseilnfgOVb9mKy6w1naJmn9CehxcKcls=
github.com/pmezard/go-difflib v1.0.0 h1:4DBwDE0NGyQoBHbLQYPwSUPoCMWR5BEzIk/f1lZbAQM=
github.com/pmezard/go-difflib v1.0.0/go.mod h1:iKH77koFhYxTK1pcRnkKkqfTogsbg7gZNVY4sRDYZ/4=
github.com/pressly/goose/v3 v3.26.0 h1:KJakav68jdH0WDvoAcj8+n61WqOIaPGgH0bJWS6jpmM=
github.com/pressly/goose/v3 v3.26.0/go.mod h1:4hC1KrritdCxtuFsqgs1R4AU5bWtTAf+cnWvfhf2DNY=
github.com/qdm12/reprint v0.0.0-20200326205758-722754a53494 h1:wSmWgpuccqS2IOfmYrbRiUgv+g37W5suLLLxwwniTSc=
github.com/qdm12/reprint v0.0.0-20200326205758-722754a53494/go.mod h1:yipyliwI08eQ6XwDm1fEwKPdF/xdbkiHtrU+1Hg+vc4=
github.com/remyoudompheng/bigfft v0.0.0-20230129092748-24d4a6f8daec h1:W09IVJc94icq4NjY3clb7Lk8O1qJ8BdBEF8z0ibU0rE=
github.com/remyoudompheng/bigfft v0.0.0-20230129092748-24d4a6f8daec/go.mod h1:qqbHyh8v60DhA7CoWK5oRCqLrMHRGoxYCSS9EjAz6Eo=
github.com/sethvargo/go-retry v0.3.0 h1:EEt31A35QhrcRZtrYFDTBg91cqZVnFL2navjDrah2SE=
github.com/sethvargo/go-retry v0.3.0/go.mod h1:mNX17F0C/HguQMyMyJxcnU471gOZGxCLyYaFyAZraas=
github.com/stephenafamo/bob v0.41.1 h1:xcRPuRMCwtZZ9tS4JIVbZ5Erdm5Dy5dIvbS5kivwPpA=
github.com/stephenafamo/bob v0.41.1/go.mod h1:8l55917DM36gF518Iz1MHjLds7KGAfkitJfxISYlth8=
github.com/stephenafamo/fakedb v0.0.0-20221230081958-0b86f816ed97 h1:XItoZNmhOih06TC02jK7l3wlpZ0XT/sPQYutDcGOQjg=
github.com/stephenafamo/fakedb v0.0.0-20221230081958-0b86f816ed97/go.mod h1:bM3Vmw1IakoaXocHmMIGgJFYob0vuK+CFWiJHQvz0jQ=
github.com/stephenafamo/scan v0.7.0 h1:lfFiD9H5+n4AdK3qNzXQjj2M3NfTOpmWBIA39NwB94c=
github.com/stephenafamo/scan v0.7.0/go.mod h1:FhIUJ8pLNyex36xGFiazDJJ5Xry0UkAi+RkWRrEcRMg=
github.com/stretchr/objx v0.1.0/go.mod h1:HFkY916IF+rwdDfMAkV7OtwuqBVzrE8GR6GFx+wExME=
github.com/stretchr/testify v1.3.0/go.mod h1:M5WIy9Dh21IEIfnGCwXGc5bZfKNJtfHm1UVUgZn+9EI=
github.com/stretchr/testify v1.4.0/go.mod h1:j7eGeouHqKxXV5pUuKE4zz7dFj8WfuZ+81PSLYec5m4=
github.com/stretchr/testify v1.7.0/go.mod h1:6Fq8oRcR53rry900zMqJjRRixrwX3KX962/h/Wwjteg=
github.com/stretchr/testify v1.11.0 h1:ib4sjIrwZKxE5u/Japgo/7SJV3PvgjGiRNAvTVGqQl8=
github.com/stretchr/testify v1.11.0/go.mod h1:wZwfW3scLgRK+23gO65QZefKpKQRnfz6sD981Nm4B6U=
go.uber.org/multierr v1.11.0 h1:blXXJkSxSSfBVBlC76pxqeO+LN3aDfLQo+309xJstO0=
go.uber.org/multierr v1.11.0/go.mod h1:20+QtiLqy0Nd6FdQB9TLXag12DsQkrbs3htMFfDN80Y=
golang.org/x/crypto v0.40.0 h1:r4x+VvoG5Fm+eJcxMaY8CQM7Lb0l1lsmjGBQ6s8BfKM=
golang.org/x/crypto v0.40.0/go.mod h1:Qr1vMER5WyS2dfPHAlsOj01wgLbsyWtFn/aY+5+ZdxY=
golang.org/x/exp v0.0.0-20250620022241-b7579e27df2b h1:M2rDM6z3Fhozi9O7NWsxAkg/yqS/lQJ6PmkyIV3YP+o=
golang.org/x/exp v0.0.0-20250620022241-b7579e27df2b/go.mod h1:3//PLf8L/X+8b4vuAfHzxeRUl04Adcb341+IGKfnqS8=
golang.org/x/sync v0.16.0 h1:ycBJEhp9p4vXvUZNszeOq0kGTPghopOL8q0fq3vstxw=
golang.org/x/sync v0.16.0/go.mod h1:1dzgHSNfp02xaA81J2MS99Qcpr2w7fw1gpm99rleRqA=
golang.org/x/sys v0.34.0 h1:H5Y5sJ2L2JRdyv7ROF1he/lPdvFsd0mJHFw2ThKHxLA=
golang.org/x/sys v0.34.0/go.mod h1:BJP2sWEmIv4KK5OTEluFJCKSidICx8ciO85XgH3Ak8k=
golang.org/x/text v0.27.0 h1:4fGWRpyh641NLlecmyl4LOe6yDdfaYNrGb2zdfo4JV4=
golang.org/x/text v0.27.0/go.mod h1:1D28KMCvyooCX9hBiosv5Tz/+YLxj0j7XhWjpSUF7CU=
gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0=
gopkg.in/yaml.v2 v2.2.2/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
gopkg.in/yaml.v3 v3.0.0-20200313102051-9f266ea9e77c/go.mod h1:K4uyk7z7BCEPqu6E+C64Yfv1cQ7kz7rIZviUmN+EgEM=
gopkg.in/yaml.v3 v3.0.1 h1:fxVm/GzAzEWqLHuvctI91KS9hhNmmWOoWu0XTYJS7CA=
gopkg.in/yaml.v3 v3.0.1/go.mod h1:K4uyk7z7BCEPqu6E+C64Yfv1cQ7kz7rIZviUmN+EgEM=
modernc.org/libc v1.66.3 h1:cfCbjTUcdsKyyZZfEUKfoHcP3S0Wkvz3jgSzByEWVCQ=
modernc.org/libc v1.66.3/go.mod h1:XD9zO8kt59cANKvHPXpx7yS2ELPheAey0vjIuZOhOU8=
modernc.org/mathutil v1.7.1 h1:GCZVGXdaN8gTqB1Mf/usp1Y/hSqgI2vAGGP4jZMCxOU=
modernc.org/mathutil v1.7.1/go.mod h1:4p5IwJITfppl0G4sUEDtCr4DthTaT47/N3aT6MhfgJg=
modernc.org/memory v1.11.0 h1:o4QC8aMQzmcwCK3t3Ux/ZHmwFPzE6hf2Y5LbkRs+hbI=
modernc.org/memory v1.11.0/go.mod h1:/JP4VbVC+K5sU2wZi9bHoq2MAkCnrt2r98UGeSK7Mjw=
modernc.org/sqlite v1.38.2 h1:Aclu7+tgjgcQVShZqim41Bbw9Cho0y/7WzYptXqkEek=
modernc.org/sqlite v1.38.2/go.mod h1:cPTJYSlgg3Sfg046yBShXENNtPrWrDX8bsbAQBzgQ5E=

15
main.go
View file

@ -1,6 +1,7 @@
package main package main
import ( import (
"context"
"log" "log"
"net/http" "net/http"
"os" "os"
@ -18,12 +19,12 @@ var BaseURL, ClientID, ClientSecret string
func main() { func main() {
ClientID = os.Getenv("ARCGIS_CLIENT_ID") ClientID = os.Getenv("ARCGIS_CLIENT_ID")
if ClientID == "" { if ClientID == "" {
log.Println("You must specify a non-empty CLIENT_ID") log.Println("You must specify a non-empty ARCGIS_CLIENT_ID")
os.Exit(1) os.Exit(1)
} }
ClientSecret = os.Getenv("ARCGIS_CLIENT_SECRET") ClientSecret = os.Getenv("ARCGIS_CLIENT_SECRET")
if ClientSecret == "" { if ClientSecret == "" {
log.Println("You must specify a non-empty CLIENT_SECRET") log.Println("You must specify a non-empty ARCGIS_CLIENT_SECRET")
os.Exit(1) os.Exit(1)
} }
BaseURL = os.Getenv("BASE_URL") BaseURL = os.Getenv("BASE_URL")
@ -35,8 +36,18 @@ func main() {
if bind == "" { if bind == "" {
bind = ":9001" bind = ":9001"
} }
pg_dsn := os.Getenv("POSTGRES_DSN")
if pg_dsn == "" {
log.Println("You must specify a non-empty POSTGRES_DSN")
os.Exit(1)
}
log.Println("Starting...") log.Println("Starting...")
err := initializeDatabase(context.TODO(), pg_dsn)
if err != nil {
log.Printf("Failed to connect to database: %v", err)
os.Exit(2)
}
sessionManager = scs.New() sessionManager = scs.New()
sessionManager.Lifetime = 24 * time.Hour sessionManager.Lifetime = 24 * time.Hour

39
migrations/00001_initial.sql Normal file
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@ -0,0 +1,39 @@
-- +goose Up
CREATE TYPE arcgis_license_type AS ENUM (
'advancedUT',
'basicUT',
'creatorUT',
'editorUT',
'fieldWorkerUT',
'GISProfessionalAdvUT',
'GISProfessionalBasicUT',
'GISProfessionalStdUT',
'IndoorsUserUT',
'insightsAnalystUT',
'liteUT',
'standardUT',
'storytellerUT',
'viewerUT');
CREATE TABLE organization (
id SERIAL PRIMARY KEY,
name TEXT
);
CREATE TABLE user_ (
id SERIAL PRIMARY KEY,
arcgis_access_token TEXT,
arcgis_license arcgis_license_type,
arcgis_refresh_token TEXT,
arcgis_refresh_token_expires TIMESTAMP,
arcgis_role TEXT,
display_name VARCHAR(200),
email TEXT,
organization_id INTEGER REFERENCES organization (id),
username TEXT NOT NULL
);
-- +goose Down
DROP TABLE user_;
DROP TABLE organization;
DROP TYPE arcgis_license_type;

76
models/bob_joins.bob.go Normal file
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// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package models
import (
"hash/maphash"
"github.com/stephenafamo/bob"
"github.com/stephenafamo/bob/clause"
"github.com/stephenafamo/bob/dialect/psql/dialect"
)
var (
SelectJoins = getJoins[*dialect.SelectQuery]()
UpdateJoins = getJoins[*dialect.UpdateQuery]()
DeleteJoins = getJoins[*dialect.DeleteQuery]()
)
type joinSet[Q interface{ aliasedAs(string) Q }] struct {
InnerJoin Q
LeftJoin Q
RightJoin Q
}
func (j joinSet[Q]) AliasedAs(alias string) joinSet[Q] {
return joinSet[Q]{
InnerJoin: j.InnerJoin.aliasedAs(alias),
LeftJoin: j.LeftJoin.aliasedAs(alias),
RightJoin: j.RightJoin.aliasedAs(alias),
}
}
type joins[Q dialect.Joinable] struct {
Organizations joinSet[organizationJoins[Q]]
Users joinSet[userJoins[Q]]
}
func buildJoinSet[Q interface{ aliasedAs(string) Q }, C any, F func(C, string) Q](c C, f F) joinSet[Q] {
return joinSet[Q]{
InnerJoin: f(c, clause.InnerJoin),
LeftJoin: f(c, clause.LeftJoin),
RightJoin: f(c, clause.RightJoin),
}
}
func getJoins[Q dialect.Joinable]() joins[Q] {
return joins[Q]{
Organizations: buildJoinSet[organizationJoins[Q]](Organizations.Columns, buildOrganizationJoins),
Users: buildJoinSet[userJoins[Q]](Users.Columns, buildUserJoins),
}
}
type modAs[Q any, C interface{ AliasedAs(string) C }] struct {
c C
f func(C) bob.Mod[Q]
}
func (m modAs[Q, C]) Apply(q Q) {
m.f(m.c).Apply(q)
}
func (m modAs[Q, C]) AliasedAs(alias string) bob.Mod[Q] {
m.c = m.c.AliasedAs(alias)
return m
}
func randInt() int64 {
out := int64(new(maphash.Hash).Sum64())
if out < 0 {
return -out % 10000
}
return out % 10000
}

67
models/bob_loaders.bob.go Normal file
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@ -0,0 +1,67 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package models
import (
"context"
"database/sql"
"errors"
"fmt"
"github.com/stephenafamo/bob"
"github.com/stephenafamo/bob/dialect/psql/dialect"
"github.com/stephenafamo/bob/orm"
)
var Preload = getPreloaders()
type preloaders struct {
Organization organizationPreloader
User userPreloader
}
func getPreloaders() preloaders {
return preloaders{
Organization: buildOrganizationPreloader(),
User: buildUserPreloader(),
}
}
var (
SelectThenLoad = getThenLoaders[*dialect.SelectQuery]()
InsertThenLoad = getThenLoaders[*dialect.InsertQuery]()
UpdateThenLoad = getThenLoaders[*dialect.UpdateQuery]()
)
type thenLoaders[Q orm.Loadable] struct {
Organization organizationThenLoader[Q]
User userThenLoader[Q]
}
func getThenLoaders[Q orm.Loadable]() thenLoaders[Q] {
return thenLoaders[Q]{
Organization: buildOrganizationThenLoader[Q](),
User: buildUserThenLoader[Q](),
}
}
func thenLoadBuilder[Q orm.Loadable, T any](name string, f func(context.Context, bob.Executor, T, ...bob.Mod[*dialect.SelectQuery]) error) func(...bob.Mod[*dialect.SelectQuery]) orm.Loader[Q] {
return func(queryMods ...bob.Mod[*dialect.SelectQuery]) orm.Loader[Q] {
return func(ctx context.Context, exec bob.Executor, retrieved any) error {
loader, isLoader := retrieved.(T)
if !isLoader {
return fmt.Errorf("object %T cannot load %q", retrieved, name)
}
err := f(ctx, exec, loader, queryMods...)
// Don't cause an issue due to missing relationships
if errors.Is(err, sql.ErrNoRows) {
return nil
}
return err
}
}
}

30
models/bob_types.bob_test.go Normal file
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@ -0,0 +1,30 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package models
import (
"database/sql"
"database/sql/driver"
enums "github.com/Gleipnir-Technology/nidus-sync/enums"
"github.com/stephenafamo/bob"
)
// Set the testDB to enable tests that use the database
var testDB bob.Transactor[bob.Tx]
// Make sure the type GooseDBVersion runs hooks after queries
var _ bob.HookableType = &GooseDBVersion{}
// Make sure the type Organization runs hooks after queries
var _ bob.HookableType = &Organization{}
// Make sure the type User runs hooks after queries
var _ bob.HookableType = &User{}
// Make sure the type enums.ArcgisLicenseType satisfies database/sql.Scanner
var _ sql.Scanner = (*enums.ArcgisLicenseType)(nil)
// Make sure the type enums.ArcgisLicenseType satisfies database/sql/driver.Valuer
var _ driver.Valuer = *new(enums.ArcgisLicenseType)

33
models/bob_where.bob.go Normal file
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@ -0,0 +1,33 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package models
import (
"github.com/stephenafamo/bob/clause"
"github.com/stephenafamo/bob/dialect/psql"
"github.com/stephenafamo/bob/dialect/psql/dialect"
)
var (
SelectWhere = Where[*dialect.SelectQuery]()
UpdateWhere = Where[*dialect.UpdateQuery]()
DeleteWhere = Where[*dialect.DeleteQuery]()
OnConflictWhere = Where[*clause.ConflictClause]() // Used in ON CONFLICT DO UPDATE
)
func Where[Q psql.Filterable]() struct {
GooseDBVersions gooseDBVersionWhere[Q]
Organizations organizationWhere[Q]
Users userWhere[Q]
} {
return struct {
GooseDBVersions gooseDBVersionWhere[Q]
Organizations organizationWhere[Q]
Users userWhere[Q]
}{
GooseDBVersions: buildGooseDBVersionWhere[Q](GooseDBVersions.Columns),
Organizations: buildOrganizationWhere[Q](Organizations.Columns),
Users: buildUserWhere[Q](Users.Columns),
}
}

424
models/goose_db_version.bob.go Normal file
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@ -0,0 +1,424 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package models
import (
"context"
"io"
"time"
"github.com/aarondl/opt/omit"
"github.com/stephenafamo/bob"
"github.com/stephenafamo/bob/dialect/psql"
"github.com/stephenafamo/bob/dialect/psql/dialect"
"github.com/stephenafamo/bob/dialect/psql/dm"
"github.com/stephenafamo/bob/dialect/psql/sm"
"github.com/stephenafamo/bob/dialect/psql/um"
"github.com/stephenafamo/bob/expr"
)
// GooseDBVersion is an object representing the database table.
type GooseDBVersion struct {
ID int32 `db:"id,pk" `
VersionID int64 `db:"version_id" `
IsApplied bool `db:"is_applied" `
Tstamp time.Time `db:"tstamp" `
}
// GooseDBVersionSlice is an alias for a slice of pointers to GooseDBVersion.
// This should almost always be used instead of []*GooseDBVersion.
type GooseDBVersionSlice []*GooseDBVersion
// GooseDBVersions contains methods to work with the goose_db_version table
var GooseDBVersions = psql.NewTablex[*GooseDBVersion, GooseDBVersionSlice, *GooseDBVersionSetter]("", "goose_db_version", buildGooseDBVersionColumns("goose_db_version"))
// GooseDBVersionsQuery is a query on the goose_db_version table
type GooseDBVersionsQuery = *psql.ViewQuery[*GooseDBVersion, GooseDBVersionSlice]
func buildGooseDBVersionColumns(alias string) gooseDBVersionColumns {
return gooseDBVersionColumns{
ColumnsExpr: expr.NewColumnsExpr(
"id", "version_id", "is_applied", "tstamp",
).WithParent("goose_db_version"),
tableAlias: alias,
ID: psql.Quote(alias, "id"),
VersionID: psql.Quote(alias, "version_id"),
IsApplied: psql.Quote(alias, "is_applied"),
Tstamp: psql.Quote(alias, "tstamp"),
}
}
type gooseDBVersionColumns struct {
expr.ColumnsExpr
tableAlias string
ID psql.Expression
VersionID psql.Expression
IsApplied psql.Expression
Tstamp psql.Expression
}
func (c gooseDBVersionColumns) Alias() string {
return c.tableAlias
}
func (gooseDBVersionColumns) AliasedAs(alias string) gooseDBVersionColumns {
return buildGooseDBVersionColumns(alias)
}
// GooseDBVersionSetter is used for insert/upsert/update operations
// All values are optional, and do not have to be set
// Generated columns are not included
type GooseDBVersionSetter struct {
ID omit.Val[int32] `db:"id,pk" `
VersionID omit.Val[int64] `db:"version_id" `
IsApplied omit.Val[bool] `db:"is_applied" `
Tstamp omit.Val[time.Time] `db:"tstamp" `
}
func (s GooseDBVersionSetter) SetColumns() []string {
vals := make([]string, 0, 4)
if s.ID.IsValue() {
vals = append(vals, "id")
}
if s.VersionID.IsValue() {
vals = append(vals, "version_id")
}
if s.IsApplied.IsValue() {
vals = append(vals, "is_applied")
}
if s.Tstamp.IsValue() {
vals = append(vals, "tstamp")
}
return vals
}
func (s GooseDBVersionSetter) Overwrite(t *GooseDBVersion) {
if s.ID.IsValue() {
t.ID = s.ID.MustGet()
}
if s.VersionID.IsValue() {
t.VersionID = s.VersionID.MustGet()
}
if s.IsApplied.IsValue() {
t.IsApplied = s.IsApplied.MustGet()
}
if s.Tstamp.IsValue() {
t.Tstamp = s.Tstamp.MustGet()
}
}
func (s *GooseDBVersionSetter) Apply(q *dialect.InsertQuery) {
q.AppendHooks(func(ctx context.Context, exec bob.Executor) (context.Context, error) {
return GooseDBVersions.BeforeInsertHooks.RunHooks(ctx, exec, s)
})
q.AppendValues(bob.ExpressionFunc(func(ctx context.Context, w io.Writer, d bob.Dialect, start int) ([]any, error) {
vals := make([]bob.Expression, 4)
if s.ID.IsValue() {
vals[0] = psql.Arg(s.ID.MustGet())
} else {
vals[0] = psql.Raw("DEFAULT")
}
if s.VersionID.IsValue() {
vals[1] = psql.Arg(s.VersionID.MustGet())
} else {
vals[1] = psql.Raw("DEFAULT")
}
if s.IsApplied.IsValue() {
vals[2] = psql.Arg(s.IsApplied.MustGet())
} else {
vals[2] = psql.Raw("DEFAULT")
}
if s.Tstamp.IsValue() {
vals[3] = psql.Arg(s.Tstamp.MustGet())
} else {
vals[3] = psql.Raw("DEFAULT")
}
return bob.ExpressSlice(ctx, w, d, start, vals, "", ", ", "")
}))
}
func (s GooseDBVersionSetter) UpdateMod() bob.Mod[*dialect.UpdateQuery] {
return um.Set(s.Expressions()...)
}
func (s GooseDBVersionSetter) Expressions(prefix ...string) []bob.Expression {
exprs := make([]bob.Expression, 0, 4)
if s.ID.IsValue() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "id")...),
psql.Arg(s.ID),
}})
}
if s.VersionID.IsValue() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "version_id")...),
psql.Arg(s.VersionID),
}})
}
if s.IsApplied.IsValue() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "is_applied")...),
psql.Arg(s.IsApplied),
}})
}
if s.Tstamp.IsValue() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "tstamp")...),
psql.Arg(s.Tstamp),
}})
}
return exprs
}
// FindGooseDBVersion retrieves a single record by primary key
// If cols is empty Find will return all columns.
func FindGooseDBVersion(ctx context.Context, exec bob.Executor, IDPK int32, cols ...string) (*GooseDBVersion, error) {
if len(cols) == 0 {
return GooseDBVersions.Query(
sm.Where(GooseDBVersions.Columns.ID.EQ(psql.Arg(IDPK))),
).One(ctx, exec)
}
return GooseDBVersions.Query(
sm.Where(GooseDBVersions.Columns.ID.EQ(psql.Arg(IDPK))),
sm.Columns(GooseDBVersions.Columns.Only(cols...)),
).One(ctx, exec)
}
// GooseDBVersionExists checks the presence of a single record by primary key
func GooseDBVersionExists(ctx context.Context, exec bob.Executor, IDPK int32) (bool, error) {
return GooseDBVersions.Query(
sm.Where(GooseDBVersions.Columns.ID.EQ(psql.Arg(IDPK))),
).Exists(ctx, exec)
}
// AfterQueryHook is called after GooseDBVersion is retrieved from the database
func (o *GooseDBVersion) AfterQueryHook(ctx context.Context, exec bob.Executor, queryType bob.QueryType) error {
var err error
switch queryType {
case bob.QueryTypeSelect:
ctx, err = GooseDBVersions.AfterSelectHooks.RunHooks(ctx, exec, GooseDBVersionSlice{o})
case bob.QueryTypeInsert:
ctx, err = GooseDBVersions.AfterInsertHooks.RunHooks(ctx, exec, GooseDBVersionSlice{o})
case bob.QueryTypeUpdate:
ctx, err = GooseDBVersions.AfterUpdateHooks.RunHooks(ctx, exec, GooseDBVersionSlice{o})
case bob.QueryTypeDelete:
ctx, err = GooseDBVersions.AfterDeleteHooks.RunHooks(ctx, exec, GooseDBVersionSlice{o})
}
return err
}
// primaryKeyVals returns the primary key values of the GooseDBVersion
func (o *GooseDBVersion) primaryKeyVals() bob.Expression {
return psql.Arg(o.ID)
}
func (o *GooseDBVersion) pkEQ() dialect.Expression {
return psql.Quote("goose_db_version", "id").EQ(bob.ExpressionFunc(func(ctx context.Context, w io.Writer, d bob.Dialect, start int) ([]any, error) {
return o.primaryKeyVals().WriteSQL(ctx, w, d, start)
}))
}
// Update uses an executor to update the GooseDBVersion
func (o *GooseDBVersion) Update(ctx context.Context, exec bob.Executor, s *GooseDBVersionSetter) error {
v, err := GooseDBVersions.Update(s.UpdateMod(), um.Where(o.pkEQ())).One(ctx, exec)
if err != nil {
return err
}
*o = *v
return nil
}
// Delete deletes a single GooseDBVersion record with an executor
func (o *GooseDBVersion) Delete(ctx context.Context, exec bob.Executor) error {
_, err := GooseDBVersions.Delete(dm.Where(o.pkEQ())).Exec(ctx, exec)
return err
}
// Reload refreshes the GooseDBVersion using the executor
func (o *GooseDBVersion) Reload(ctx context.Context, exec bob.Executor) error {
o2, err := GooseDBVersions.Query(
sm.Where(GooseDBVersions.Columns.ID.EQ(psql.Arg(o.ID))),
).One(ctx, exec)
if err != nil {
return err
}
*o = *o2
return nil
}
// AfterQueryHook is called after GooseDBVersionSlice is retrieved from the database
func (o GooseDBVersionSlice) AfterQueryHook(ctx context.Context, exec bob.Executor, queryType bob.QueryType) error {
var err error
switch queryType {
case bob.QueryTypeSelect:
ctx, err = GooseDBVersions.AfterSelectHooks.RunHooks(ctx, exec, o)
case bob.QueryTypeInsert:
ctx, err = GooseDBVersions.AfterInsertHooks.RunHooks(ctx, exec, o)
case bob.QueryTypeUpdate:
ctx, err = GooseDBVersions.AfterUpdateHooks.RunHooks(ctx, exec, o)
case bob.QueryTypeDelete:
ctx, err = GooseDBVersions.AfterDeleteHooks.RunHooks(ctx, exec, o)
}
return err
}
func (o GooseDBVersionSlice) pkIN() dialect.Expression {
if len(o) == 0 {
return psql.Raw("NULL")
}
return psql.Quote("goose_db_version", "id").In(bob.ExpressionFunc(func(ctx context.Context, w io.Writer, d bob.Dialect, start int) ([]any, error) {
pkPairs := make([]bob.Expression, len(o))
for i, row := range o {
pkPairs[i] = row.primaryKeyVals()
}
return bob.ExpressSlice(ctx, w, d, start, pkPairs, "", ", ", "")
}))
}
// copyMatchingRows finds models in the given slice that have the same primary key
// then it first copies the existing relationships from the old model to the new model
// and then replaces the old model in the slice with the new model
func (o GooseDBVersionSlice) copyMatchingRows(from ...*GooseDBVersion) {
for i, old := range o {
for _, new := range from {
if new.ID != old.ID {
continue
}
o[i] = new
break
}
}
}
// UpdateMod modifies an update query with "WHERE primary_key IN (o...)"
func (o GooseDBVersionSlice) UpdateMod() bob.Mod[*dialect.UpdateQuery] {
return bob.ModFunc[*dialect.UpdateQuery](func(q *dialect.UpdateQuery) {
q.AppendHooks(func(ctx context.Context, exec bob.Executor) (context.Context, error) {
return GooseDBVersions.BeforeUpdateHooks.RunHooks(ctx, exec, o)
})
q.AppendLoader(bob.LoaderFunc(func(ctx context.Context, exec bob.Executor, retrieved any) error {
var err error
switch retrieved := retrieved.(type) {
case *GooseDBVersion:
o.copyMatchingRows(retrieved)
case []*GooseDBVersion:
o.copyMatchingRows(retrieved...)
case GooseDBVersionSlice:
o.copyMatchingRows(retrieved...)
default:
// If the retrieved value is not a GooseDBVersion or a slice of GooseDBVersion
// then run the AfterUpdateHooks on the slice
_, err = GooseDBVersions.AfterUpdateHooks.RunHooks(ctx, exec, o)
}
return err
}))
q.AppendWhere(o.pkIN())
})
}
// DeleteMod modifies an delete query with "WHERE primary_key IN (o...)"
func (o GooseDBVersionSlice) DeleteMod() bob.Mod[*dialect.DeleteQuery] {
return bob.ModFunc[*dialect.DeleteQuery](func(q *dialect.DeleteQuery) {
q.AppendHooks(func(ctx context.Context, exec bob.Executor) (context.Context, error) {
return GooseDBVersions.BeforeDeleteHooks.RunHooks(ctx, exec, o)
})
q.AppendLoader(bob.LoaderFunc(func(ctx context.Context, exec bob.Executor, retrieved any) error {
var err error
switch retrieved := retrieved.(type) {
case *GooseDBVersion:
o.copyMatchingRows(retrieved)
case []*GooseDBVersion:
o.copyMatchingRows(retrieved...)
case GooseDBVersionSlice:
o.copyMatchingRows(retrieved...)
default:
// If the retrieved value is not a GooseDBVersion or a slice of GooseDBVersion
// then run the AfterDeleteHooks on the slice
_, err = GooseDBVersions.AfterDeleteHooks.RunHooks(ctx, exec, o)
}
return err
}))
q.AppendWhere(o.pkIN())
})
}
func (o GooseDBVersionSlice) UpdateAll(ctx context.Context, exec bob.Executor, vals GooseDBVersionSetter) error {
if len(o) == 0 {
return nil
}
_, err := GooseDBVersions.Update(vals.UpdateMod(), o.UpdateMod()).All(ctx, exec)
return err
}
func (o GooseDBVersionSlice) DeleteAll(ctx context.Context, exec bob.Executor) error {
if len(o) == 0 {
return nil
}
_, err := GooseDBVersions.Delete(o.DeleteMod()).Exec(ctx, exec)
return err
}
func (o GooseDBVersionSlice) ReloadAll(ctx context.Context, exec bob.Executor) error {
if len(o) == 0 {
return nil
}
o2, err := GooseDBVersions.Query(sm.Where(o.pkIN())).All(ctx, exec)
if err != nil {
return err
}
o.copyMatchingRows(o2...)
return nil
}
type gooseDBVersionWhere[Q psql.Filterable] struct {
ID psql.WhereMod[Q, int32]
VersionID psql.WhereMod[Q, int64]
IsApplied psql.WhereMod[Q, bool]
Tstamp psql.WhereMod[Q, time.Time]
}
func (gooseDBVersionWhere[Q]) AliasedAs(alias string) gooseDBVersionWhere[Q] {
return buildGooseDBVersionWhere[Q](buildGooseDBVersionColumns(alias))
}
func buildGooseDBVersionWhere[Q psql.Filterable](cols gooseDBVersionColumns) gooseDBVersionWhere[Q] {
return gooseDBVersionWhere[Q]{
ID: psql.Where[Q, int32](cols.ID),
VersionID: psql.Where[Q, int64](cols.VersionID),
IsApplied: psql.Where[Q, bool](cols.IsApplied),
Tstamp: psql.Where[Q, time.Time](cols.Tstamp),
}
}

622
models/organization.bob.go Normal file
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@ -0,0 +1,622 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package models
import (
"context"
"fmt"
"io"
"github.com/aarondl/opt/null"
"github.com/aarondl/opt/omit"
"github.com/aarondl/opt/omitnull"
"github.com/stephenafamo/bob"
"github.com/stephenafamo/bob/dialect/psql"
"github.com/stephenafamo/bob/dialect/psql/dialect"
"github.com/stephenafamo/bob/dialect/psql/dm"
"github.com/stephenafamo/bob/dialect/psql/sm"
"github.com/stephenafamo/bob/dialect/psql/um"
"github.com/stephenafamo/bob/expr"
"github.com/stephenafamo/bob/mods"
"github.com/stephenafamo/bob/orm"
"github.com/stephenafamo/bob/types/pgtypes"
)
// Organization is an object representing the database table.
type Organization struct {
ID int32 `db:"id,pk" `
Name null.Val[string] `db:"name" `
R organizationR `db:"-" `
}
// OrganizationSlice is an alias for a slice of pointers to Organization.
// This should almost always be used instead of []*Organization.
type OrganizationSlice []*Organization
// Organizations contains methods to work with the organization table
var Organizations = psql.NewTablex[*Organization, OrganizationSlice, *OrganizationSetter]("", "organization", buildOrganizationColumns("organization"))
// OrganizationsQuery is a query on the organization table
type OrganizationsQuery = *psql.ViewQuery[*Organization, OrganizationSlice]
// organizationR is where relationships are stored.
type organizationR struct {
User UserSlice // user_.user__organization_id_fkey
}
func buildOrganizationColumns(alias string) organizationColumns {
return organizationColumns{
ColumnsExpr: expr.NewColumnsExpr(
"id", "name",
).WithParent("organization"),
tableAlias: alias,
ID: psql.Quote(alias, "id"),
Name: psql.Quote(alias, "name"),
}
}
type organizationColumns struct {
expr.ColumnsExpr
tableAlias string
ID psql.Expression
Name psql.Expression
}
func (c organizationColumns) Alias() string {
return c.tableAlias
}
func (organizationColumns) AliasedAs(alias string) organizationColumns {
return buildOrganizationColumns(alias)
}
// OrganizationSetter is used for insert/upsert/update operations
// All values are optional, and do not have to be set
// Generated columns are not included
type OrganizationSetter struct {
ID omit.Val[int32] `db:"id,pk" `
Name omitnull.Val[string] `db:"name" `
}
func (s OrganizationSetter) SetColumns() []string {
vals := make([]string, 0, 2)
if s.ID.IsValue() {
vals = append(vals, "id")
}
if !s.Name.IsUnset() {
vals = append(vals, "name")
}
return vals
}
func (s OrganizationSetter) Overwrite(t *Organization) {
if s.ID.IsValue() {
t.ID = s.ID.MustGet()
}
if !s.Name.IsUnset() {
t.Name = s.Name.MustGetNull()
}
}
func (s *OrganizationSetter) Apply(q *dialect.InsertQuery) {
q.AppendHooks(func(ctx context.Context, exec bob.Executor) (context.Context, error) {
return Organizations.BeforeInsertHooks.RunHooks(ctx, exec, s)
})
q.AppendValues(bob.ExpressionFunc(func(ctx context.Context, w io.Writer, d bob.Dialect, start int) ([]any, error) {
vals := make([]bob.Expression, 2)
if s.ID.IsValue() {
vals[0] = psql.Arg(s.ID.MustGet())
} else {
vals[0] = psql.Raw("DEFAULT")
}
if !s.Name.IsUnset() {
vals[1] = psql.Arg(s.Name.MustGetNull())
} else {
vals[1] = psql.Raw("DEFAULT")
}
return bob.ExpressSlice(ctx, w, d, start, vals, "", ", ", "")
}))
}
func (s OrganizationSetter) UpdateMod() bob.Mod[*dialect.UpdateQuery] {
return um.Set(s.Expressions()...)
}
func (s OrganizationSetter) Expressions(prefix ...string) []bob.Expression {
exprs := make([]bob.Expression, 0, 2)
if s.ID.IsValue() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "id")...),
psql.Arg(s.ID),
}})
}
if !s.Name.IsUnset() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "name")...),
psql.Arg(s.Name),
}})
}
return exprs
}
// FindOrganization retrieves a single record by primary key
// If cols is empty Find will return all columns.
func FindOrganization(ctx context.Context, exec bob.Executor, IDPK int32, cols ...string) (*Organization, error) {
if len(cols) == 0 {
return Organizations.Query(
sm.Where(Organizations.Columns.ID.EQ(psql.Arg(IDPK))),
).One(ctx, exec)
}
return Organizations.Query(
sm.Where(Organizations.Columns.ID.EQ(psql.Arg(IDPK))),
sm.Columns(Organizations.Columns.Only(cols...)),
).One(ctx, exec)
}
// OrganizationExists checks the presence of a single record by primary key
func OrganizationExists(ctx context.Context, exec bob.Executor, IDPK int32) (bool, error) {
return Organizations.Query(
sm.Where(Organizations.Columns.ID.EQ(psql.Arg(IDPK))),
).Exists(ctx, exec)
}
// AfterQueryHook is called after Organization is retrieved from the database
func (o *Organization) AfterQueryHook(ctx context.Context, exec bob.Executor, queryType bob.QueryType) error {
var err error
switch queryType {
case bob.QueryTypeSelect:
ctx, err = Organizations.AfterSelectHooks.RunHooks(ctx, exec, OrganizationSlice{o})
case bob.QueryTypeInsert:
ctx, err = Organizations.AfterInsertHooks.RunHooks(ctx, exec, OrganizationSlice{o})
case bob.QueryTypeUpdate:
ctx, err = Organizations.AfterUpdateHooks.RunHooks(ctx, exec, OrganizationSlice{o})
case bob.QueryTypeDelete:
ctx, err = Organizations.AfterDeleteHooks.RunHooks(ctx, exec, OrganizationSlice{o})
}
return err
}
// primaryKeyVals returns the primary key values of the Organization
func (o *Organization) primaryKeyVals() bob.Expression {
return psql.Arg(o.ID)
}
func (o *Organization) pkEQ() dialect.Expression {
return psql.Quote("organization", "id").EQ(bob.ExpressionFunc(func(ctx context.Context, w io.Writer, d bob.Dialect, start int) ([]any, error) {
return o.primaryKeyVals().WriteSQL(ctx, w, d, start)
}))
}
// Update uses an executor to update the Organization
func (o *Organization) Update(ctx context.Context, exec bob.Executor, s *OrganizationSetter) error {
v, err := Organizations.Update(s.UpdateMod(), um.Where(o.pkEQ())).One(ctx, exec)
if err != nil {
return err
}
o.R = v.R
*o = *v
return nil
}
// Delete deletes a single Organization record with an executor
func (o *Organization) Delete(ctx context.Context, exec bob.Executor) error {
_, err := Organizations.Delete(dm.Where(o.pkEQ())).Exec(ctx, exec)
return err
}
// Reload refreshes the Organization using the executor
func (o *Organization) Reload(ctx context.Context, exec bob.Executor) error {
o2, err := Organizations.Query(
sm.Where(Organizations.Columns.ID.EQ(psql.Arg(o.ID))),
).One(ctx, exec)
if err != nil {
return err
}
o2.R = o.R
*o = *o2
return nil
}
// AfterQueryHook is called after OrganizationSlice is retrieved from the database
func (o OrganizationSlice) AfterQueryHook(ctx context.Context, exec bob.Executor, queryType bob.QueryType) error {
var err error
switch queryType {
case bob.QueryTypeSelect:
ctx, err = Organizations.AfterSelectHooks.RunHooks(ctx, exec, o)
case bob.QueryTypeInsert:
ctx, err = Organizations.AfterInsertHooks.RunHooks(ctx, exec, o)
case bob.QueryTypeUpdate:
ctx, err = Organizations.AfterUpdateHooks.RunHooks(ctx, exec, o)
case bob.QueryTypeDelete:
ctx, err = Organizations.AfterDeleteHooks.RunHooks(ctx, exec, o)
}
return err
}
func (o OrganizationSlice) pkIN() dialect.Expression {
if len(o) == 0 {
return psql.Raw("NULL")
}
return psql.Quote("organization", "id").In(bob.ExpressionFunc(func(ctx context.Context, w io.Writer, d bob.Dialect, start int) ([]any, error) {
pkPairs := make([]bob.Expression, len(o))
for i, row := range o {
pkPairs[i] = row.primaryKeyVals()
}
return bob.ExpressSlice(ctx, w, d, start, pkPairs, "", ", ", "")
}))
}
// copyMatchingRows finds models in the given slice that have the same primary key
// then it first copies the existing relationships from the old model to the new model
// and then replaces the old model in the slice with the new model
func (o OrganizationSlice) copyMatchingRows(from ...*Organization) {
for i, old := range o {
for _, new := range from {
if new.ID != old.ID {
continue
}
new.R = old.R
o[i] = new
break
}
}
}
// UpdateMod modifies an update query with "WHERE primary_key IN (o...)"
func (o OrganizationSlice) UpdateMod() bob.Mod[*dialect.UpdateQuery] {
return bob.ModFunc[*dialect.UpdateQuery](func(q *dialect.UpdateQuery) {
q.AppendHooks(func(ctx context.Context, exec bob.Executor) (context.Context, error) {
return Organizations.BeforeUpdateHooks.RunHooks(ctx, exec, o)
})
q.AppendLoader(bob.LoaderFunc(func(ctx context.Context, exec bob.Executor, retrieved any) error {
var err error
switch retrieved := retrieved.(type) {
case *Organization:
o.copyMatchingRows(retrieved)
case []*Organization:
o.copyMatchingRows(retrieved...)
case OrganizationSlice:
o.copyMatchingRows(retrieved...)
default:
// If the retrieved value is not a Organization or a slice of Organization
// then run the AfterUpdateHooks on the slice
_, err = Organizations.AfterUpdateHooks.RunHooks(ctx, exec, o)
}
return err
}))
q.AppendWhere(o.pkIN())
})
}
// DeleteMod modifies an delete query with "WHERE primary_key IN (o...)"
func (o OrganizationSlice) DeleteMod() bob.Mod[*dialect.DeleteQuery] {
return bob.ModFunc[*dialect.DeleteQuery](func(q *dialect.DeleteQuery) {
q.AppendHooks(func(ctx context.Context, exec bob.Executor) (context.Context, error) {
return Organizations.BeforeDeleteHooks.RunHooks(ctx, exec, o)
})
q.AppendLoader(bob.LoaderFunc(func(ctx context.Context, exec bob.Executor, retrieved any) error {
var err error
switch retrieved := retrieved.(type) {
case *Organization:
o.copyMatchingRows(retrieved)
case []*Organization:
o.copyMatchingRows(retrieved...)
case OrganizationSlice:
o.copyMatchingRows(retrieved...)
default:
// If the retrieved value is not a Organization or a slice of Organization
// then run the AfterDeleteHooks on the slice
_, err = Organizations.AfterDeleteHooks.RunHooks(ctx, exec, o)
}
return err
}))
q.AppendWhere(o.pkIN())
})
}
func (o OrganizationSlice) UpdateAll(ctx context.Context, exec bob.Executor, vals OrganizationSetter) error {
if len(o) == 0 {
return nil
}
_, err := Organizations.Update(vals.UpdateMod(), o.UpdateMod()).All(ctx, exec)
return err
}
func (o OrganizationSlice) DeleteAll(ctx context.Context, exec bob.Executor) error {
if len(o) == 0 {
return nil
}
_, err := Organizations.Delete(o.DeleteMod()).Exec(ctx, exec)
return err
}
func (o OrganizationSlice) ReloadAll(ctx context.Context, exec bob.Executor) error {
if len(o) == 0 {
return nil
}
o2, err := Organizations.Query(sm.Where(o.pkIN())).All(ctx, exec)
if err != nil {
return err
}
o.copyMatchingRows(o2...)
return nil
}
// User starts a query for related objects on user_
func (o *Organization) User(mods ...bob.Mod[*dialect.SelectQuery]) UsersQuery {
return Users.Query(append(mods,
sm.Where(Users.Columns.OrganizationID.EQ(psql.Arg(o.ID))),
)...)
}
func (os OrganizationSlice) User(mods ...bob.Mod[*dialect.SelectQuery]) UsersQuery {
pkID := make(pgtypes.Array[int32], 0, len(os))
for _, o := range os {
if o == nil {
continue
}
pkID = append(pkID, o.ID)
}
PKArgExpr := psql.Select(sm.Columns(
psql.F("unnest", psql.Cast(psql.Arg(pkID), "integer[]")),
))
return Users.Query(append(mods,
sm.Where(psql.Group(Users.Columns.OrganizationID).OP("IN", PKArgExpr)),
)...)
}
func insertOrganizationUser0(ctx context.Context, exec bob.Executor, users1 []*UserSetter, organization0 *Organization) (UserSlice, error) {
for i := range users1 {
users1[i].OrganizationID = omitnull.From(organization0.ID)
}
ret, err := Users.Insert(bob.ToMods(users1...)).All(ctx, exec)
if err != nil {
return ret, fmt.Errorf("insertOrganizationUser0: %w", err)
}
return ret, nil
}
func attachOrganizationUser0(ctx context.Context, exec bob.Executor, count int, users1 UserSlice, organization0 *Organization) (UserSlice, error) {
setter := &UserSetter{
OrganizationID: omitnull.From(organization0.ID),
}
err := users1.UpdateAll(ctx, exec, *setter)
if err != nil {
return nil, fmt.Errorf("attachOrganizationUser0: %w", err)
}
return users1, nil
}
func (organization0 *Organization) InsertUser(ctx context.Context, exec bob.Executor, related ...*UserSetter) error {
if len(related) == 0 {
return nil
}
var err error
users1, err := insertOrganizationUser0(ctx, exec, related, organization0)
if err != nil {
return err
}
organization0.R.User = append(organization0.R.User, users1...)
for _, rel := range users1 {
rel.R.Organization = organization0
}
return nil
}
func (organization0 *Organization) AttachUser(ctx context.Context, exec bob.Executor, related ...*User) error {
if len(related) == 0 {
return nil
}
var err error
users1 := UserSlice(related)
_, err = attachOrganizationUser0(ctx, exec, len(related), users1, organization0)
if err != nil {
return err
}
organization0.R.User = append(organization0.R.User, users1...)
for _, rel := range related {
rel.R.Organization = organization0
}
return nil
}
type organizationWhere[Q psql.Filterable] struct {
ID psql.WhereMod[Q, int32]
Name psql.WhereNullMod[Q, string]
}
func (organizationWhere[Q]) AliasedAs(alias string) organizationWhere[Q] {
return buildOrganizationWhere[Q](buildOrganizationColumns(alias))
}
func buildOrganizationWhere[Q psql.Filterable](cols organizationColumns) organizationWhere[Q] {
return organizationWhere[Q]{
ID: psql.Where[Q, int32](cols.ID),
Name: psql.WhereNull[Q, string](cols.Name),
}
}
func (o *Organization) Preload(name string, retrieved any) error {
if o == nil {
return nil
}
switch name {
case "User":
rels, ok := retrieved.(UserSlice)
if !ok {
return fmt.Errorf("organization cannot load %T as %q", retrieved, name)
}
o.R.User = rels
for _, rel := range rels {
if rel != nil {
rel.R.Organization = o
}
}
return nil
default:
return fmt.Errorf("organization has no relationship %q", name)
}
}
type organizationPreloader struct{}
func buildOrganizationPreloader() organizationPreloader {
return organizationPreloader{}
}
type organizationThenLoader[Q orm.Loadable] struct {
User func(...bob.Mod[*dialect.SelectQuery]) orm.Loader[Q]
}
func buildOrganizationThenLoader[Q orm.Loadable]() organizationThenLoader[Q] {
type UserLoadInterface interface {
LoadUser(context.Context, bob.Executor, ...bob.Mod[*dialect.SelectQuery]) error
}
return organizationThenLoader[Q]{
User: thenLoadBuilder[Q](
"User",
func(ctx context.Context, exec bob.Executor, retrieved UserLoadInterface, mods ...bob.Mod[*dialect.SelectQuery]) error {
return retrieved.LoadUser(ctx, exec, mods...)
},
),
}
}
// LoadUser loads the organization's User into the .R struct
func (o *Organization) LoadUser(ctx context.Context, exec bob.Executor, mods ...bob.Mod[*dialect.SelectQuery]) error {
if o == nil {
return nil
}
// Reset the relationship
o.R.User = nil
related, err := o.User(mods...).All(ctx, exec)
if err != nil {
return err
}
for _, rel := range related {
rel.R.Organization = o
}
o.R.User = related
return nil
}
// LoadUser loads the organization's User into the .R struct
func (os OrganizationSlice) LoadUser(ctx context.Context, exec bob.Executor, mods ...bob.Mod[*dialect.SelectQuery]) error {
if len(os) == 0 {
return nil
}
users, err := os.User(mods...).All(ctx, exec)
if err != nil {
return err
}
for _, o := range os {
if o == nil {
continue
}
o.R.User = nil
}
for _, o := range os {
if o == nil {
continue
}
for _, rel := range users {
if !rel.OrganizationID.IsValue() {
continue
}
if !(rel.OrganizationID.IsValue() && o.ID == rel.OrganizationID.MustGet()) {
continue
}
rel.R.Organization = o
o.R.User = append(o.R.User, rel)
}
}
return nil
}
type organizationJoins[Q dialect.Joinable] struct {
typ string
User modAs[Q, userColumns]
}
func (j organizationJoins[Q]) aliasedAs(alias string) organizationJoins[Q] {
return buildOrganizationJoins[Q](buildOrganizationColumns(alias), j.typ)
}
func buildOrganizationJoins[Q dialect.Joinable](cols organizationColumns, typ string) organizationJoins[Q] {
return organizationJoins[Q]{
typ: typ,
User: modAs[Q, userColumns]{
c: Users.Columns,
f: func(to userColumns) bob.Mod[Q] {
mods := make(mods.QueryMods[Q], 0, 1)
{
mods = append(mods, dialect.Join[Q](typ, Users.Name().As(to.Alias())).On(
to.OrganizationID.EQ(cols.ID),
))
}
return mods
},
},
}
}

809
models/user_.bob.go Normal file
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@ -0,0 +1,809 @@
// Code generated by BobGen psql v0.41.1. DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package models
import (
"context"
"fmt"
"io"
"time"
enums "github.com/Gleipnir-Technology/nidus-sync/enums"
"github.com/aarondl/opt/null"
"github.com/aarondl/opt/omit"
"github.com/aarondl/opt/omitnull"
"github.com/stephenafamo/bob"
"github.com/stephenafamo/bob/dialect/psql"
"github.com/stephenafamo/bob/dialect/psql/dialect"
"github.com/stephenafamo/bob/dialect/psql/dm"
"github.com/stephenafamo/bob/dialect/psql/sm"
"github.com/stephenafamo/bob/dialect/psql/um"
"github.com/stephenafamo/bob/expr"
"github.com/stephenafamo/bob/mods"
"github.com/stephenafamo/bob/orm"
"github.com/stephenafamo/bob/types/pgtypes"
)
// User is an object representing the database table.
type User struct {
ID int32 `db:"id,pk" `
ArcgisAccessToken null.Val[string] `db:"arcgis_access_token" `
ArcgisLicense null.Val[enums.ArcgisLicenseType] `db:"arcgis_license" `
ArcgisRefreshToken null.Val[string] `db:"arcgis_refresh_token" `
ArcgisRefreshTokenExpires null.Val[time.Time] `db:"arcgis_refresh_token_expires" `
ArcgisRole null.Val[string] `db:"arcgis_role" `
DisplayName null.Val[string] `db:"display_name" `
Email null.Val[string] `db:"email" `
OrganizationID null.Val[int32] `db:"organization_id" `
Username string `db:"username" `
R userR `db:"-" `
}
// UserSlice is an alias for a slice of pointers to User.
// This should almost always be used instead of []*User.
type UserSlice []*User
// Users contains methods to work with the user_ table
var Users = psql.NewTablex[*User, UserSlice, *UserSetter]("", "user_", buildUserColumns("user_"))
// UsersQuery is a query on the user_ table
type UsersQuery = *psql.ViewQuery[*User, UserSlice]
// userR is where relationships are stored.
type userR struct {
Organization *Organization // user_.user__organization_id_fkey
}
func buildUserColumns(alias string) userColumns {
return userColumns{
ColumnsExpr: expr.NewColumnsExpr(
"id", "arcgis_access_token", "arcgis_license", "arcgis_refresh_token", "arcgis_refresh_token_expires", "arcgis_role", "display_name", "email", "organization_id", "username",
).WithParent("user_"),
tableAlias: alias,
ID: psql.Quote(alias, "id"),
ArcgisAccessToken: psql.Quote(alias, "arcgis_access_token"),
ArcgisLicense: psql.Quote(alias, "arcgis_license"),
ArcgisRefreshToken: psql.Quote(alias, "arcgis_refresh_token"),
ArcgisRefreshTokenExpires: psql.Quote(alias, "arcgis_refresh_token_expires"),
ArcgisRole: psql.Quote(alias, "arcgis_role"),
DisplayName: psql.Quote(alias, "display_name"),
Email: psql.Quote(alias, "email"),
OrganizationID: psql.Quote(alias, "organization_id"),
Username: psql.Quote(alias, "username"),
}
}
type userColumns struct {
expr.ColumnsExpr
tableAlias string
ID psql.Expression
ArcgisAccessToken psql.Expression
ArcgisLicense psql.Expression
ArcgisRefreshToken psql.Expression
ArcgisRefreshTokenExpires psql.Expression
ArcgisRole psql.Expression
DisplayName psql.Expression
Email psql.Expression
OrganizationID psql.Expression
Username psql.Expression
}
func (c userColumns) Alias() string {
return c.tableAlias
}
func (userColumns) AliasedAs(alias string) userColumns {
return buildUserColumns(alias)
}
// UserSetter is used for insert/upsert/update operations
// All values are optional, and do not have to be set
// Generated columns are not included
type UserSetter struct {
ID omit.Val[int32] `db:"id,pk" `
ArcgisAccessToken omitnull.Val[string] `db:"arcgis_access_token" `
ArcgisLicense omitnull.Val[enums.ArcgisLicenseType] `db:"arcgis_license" `
ArcgisRefreshToken omitnull.Val[string] `db:"arcgis_refresh_token" `
ArcgisRefreshTokenExpires omitnull.Val[time.Time] `db:"arcgis_refresh_token_expires" `
ArcgisRole omitnull.Val[string] `db:"arcgis_role" `
DisplayName omitnull.Val[string] `db:"display_name" `
Email omitnull.Val[string] `db:"email" `
OrganizationID omitnull.Val[int32] `db:"organization_id" `
Username omit.Val[string] `db:"username" `
}
func (s UserSetter) SetColumns() []string {
vals := make([]string, 0, 10)
if s.ID.IsValue() {
vals = append(vals, "id")
}
if !s.ArcgisAccessToken.IsUnset() {
vals = append(vals, "arcgis_access_token")
}
if !s.ArcgisLicense.IsUnset() {
vals = append(vals, "arcgis_license")
}
if !s.ArcgisRefreshToken.IsUnset() {
vals = append(vals, "arcgis_refresh_token")
}
if !s.ArcgisRefreshTokenExpires.IsUnset() {
vals = append(vals, "arcgis_refresh_token_expires")
}
if !s.ArcgisRole.IsUnset() {
vals = append(vals, "arcgis_role")
}
if !s.DisplayName.IsUnset() {
vals = append(vals, "display_name")
}
if !s.Email.IsUnset() {
vals = append(vals, "email")
}
if !s.OrganizationID.IsUnset() {
vals = append(vals, "organization_id")
}
if s.Username.IsValue() {
vals = append(vals, "username")
}
return vals
}
func (s UserSetter) Overwrite(t *User) {
if s.ID.IsValue() {
t.ID = s.ID.MustGet()
}
if !s.ArcgisAccessToken.IsUnset() {
t.ArcgisAccessToken = s.ArcgisAccessToken.MustGetNull()
}
if !s.ArcgisLicense.IsUnset() {
t.ArcgisLicense = s.ArcgisLicense.MustGetNull()
}
if !s.ArcgisRefreshToken.IsUnset() {
t.ArcgisRefreshToken = s.ArcgisRefreshToken.MustGetNull()
}
if !s.ArcgisRefreshTokenExpires.IsUnset() {
t.ArcgisRefreshTokenExpires = s.ArcgisRefreshTokenExpires.MustGetNull()
}
if !s.ArcgisRole.IsUnset() {
t.ArcgisRole = s.ArcgisRole.MustGetNull()
}
if !s.DisplayName.IsUnset() {
t.DisplayName = s.DisplayName.MustGetNull()
}
if !s.Email.IsUnset() {
t.Email = s.Email.MustGetNull()
}
if !s.OrganizationID.IsUnset() {
t.OrganizationID = s.OrganizationID.MustGetNull()
}
if s.Username.IsValue() {
t.Username = s.Username.MustGet()
}
}
func (s *UserSetter) Apply(q *dialect.InsertQuery) {
q.AppendHooks(func(ctx context.Context, exec bob.Executor) (context.Context, error) {
return Users.BeforeInsertHooks.RunHooks(ctx, exec, s)
})
q.AppendValues(bob.ExpressionFunc(func(ctx context.Context, w io.Writer, d bob.Dialect, start int) ([]any, error) {
vals := make([]bob.Expression, 10)
if s.ID.IsValue() {
vals[0] = psql.Arg(s.ID.MustGet())
} else {
vals[0] = psql.Raw("DEFAULT")
}
if !s.ArcgisAccessToken.IsUnset() {
vals[1] = psql.Arg(s.ArcgisAccessToken.MustGetNull())
} else {
vals[1] = psql.Raw("DEFAULT")
}
if !s.ArcgisLicense.IsUnset() {
vals[2] = psql.Arg(s.ArcgisLicense.MustGetNull())
} else {
vals[2] = psql.Raw("DEFAULT")
}
if !s.ArcgisRefreshToken.IsUnset() {
vals[3] = psql.Arg(s.ArcgisRefreshToken.MustGetNull())
} else {
vals[3] = psql.Raw("DEFAULT")
}
if !s.ArcgisRefreshTokenExpires.IsUnset() {
vals[4] = psql.Arg(s.ArcgisRefreshTokenExpires.MustGetNull())
} else {
vals[4] = psql.Raw("DEFAULT")
}
if !s.ArcgisRole.IsUnset() {
vals[5] = psql.Arg(s.ArcgisRole.MustGetNull())
} else {
vals[5] = psql.Raw("DEFAULT")
}
if !s.DisplayName.IsUnset() {
vals[6] = psql.Arg(s.DisplayName.MustGetNull())
} else {
vals[6] = psql.Raw("DEFAULT")
}
if !s.Email.IsUnset() {
vals[7] = psql.Arg(s.Email.MustGetNull())
} else {
vals[7] = psql.Raw("DEFAULT")
}
if !s.OrganizationID.IsUnset() {
vals[8] = psql.Arg(s.OrganizationID.MustGetNull())
} else {
vals[8] = psql.Raw("DEFAULT")
}
if s.Username.IsValue() {
vals[9] = psql.Arg(s.Username.MustGet())
} else {
vals[9] = psql.Raw("DEFAULT")
}
return bob.ExpressSlice(ctx, w, d, start, vals, "", ", ", "")
}))
}
func (s UserSetter) UpdateMod() bob.Mod[*dialect.UpdateQuery] {
return um.Set(s.Expressions()...)
}
func (s UserSetter) Expressions(prefix ...string) []bob.Expression {
exprs := make([]bob.Expression, 0, 10)
if s.ID.IsValue() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "id")...),
psql.Arg(s.ID),
}})
}
if !s.ArcgisAccessToken.IsUnset() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "arcgis_access_token")...),
psql.Arg(s.ArcgisAccessToken),
}})
}
if !s.ArcgisLicense.IsUnset() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "arcgis_license")...),
psql.Arg(s.ArcgisLicense),
}})
}
if !s.ArcgisRefreshToken.IsUnset() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "arcgis_refresh_token")...),
psql.Arg(s.ArcgisRefreshToken),
}})
}
if !s.ArcgisRefreshTokenExpires.IsUnset() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "arcgis_refresh_token_expires")...),
psql.Arg(s.ArcgisRefreshTokenExpires),
}})
}
if !s.ArcgisRole.IsUnset() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "arcgis_role")...),
psql.Arg(s.ArcgisRole),
}})
}
if !s.DisplayName.IsUnset() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "display_name")...),
psql.Arg(s.DisplayName),
}})
}
if !s.Email.IsUnset() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "email")...),
psql.Arg(s.Email),
}})
}
if !s.OrganizationID.IsUnset() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "organization_id")...),
psql.Arg(s.OrganizationID),
}})
}
if s.Username.IsValue() {
exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{
psql.Quote(append(prefix, "username")...),
psql.Arg(s.Username),
}})
}
return exprs
}
// FindUser retrieves a single record by primary key
// If cols is empty Find will return all columns.
func FindUser(ctx context.Context, exec bob.Executor, IDPK int32, cols ...string) (*User, error) {
if len(cols) == 0 {
return Users.Query(
sm.Where(Users.Columns.ID.EQ(psql.Arg(IDPK))),
).One(ctx, exec)
}
return Users.Query(
sm.Where(Users.Columns.ID.EQ(psql.Arg(IDPK))),
sm.Columns(Users.Columns.Only(cols...)),
).One(ctx, exec)
}
// UserExists checks the presence of a single record by primary key
func UserExists(ctx context.Context, exec bob.Executor, IDPK int32) (bool, error) {
return Users.Query(
sm.Where(Users.Columns.ID.EQ(psql.Arg(IDPK))),
).Exists(ctx, exec)
}
// AfterQueryHook is called after User is retrieved from the database
func (o *User) AfterQueryHook(ctx context.Context, exec bob.Executor, queryType bob.QueryType) error {
var err error
switch queryType {
case bob.QueryTypeSelect:
ctx, err = Users.AfterSelectHooks.RunHooks(ctx, exec, UserSlice{o})
case bob.QueryTypeInsert:
ctx, err = Users.AfterInsertHooks.RunHooks(ctx, exec, UserSlice{o})
case bob.QueryTypeUpdate:
ctx, err = Users.AfterUpdateHooks.RunHooks(ctx, exec, UserSlice{o})
case bob.QueryTypeDelete:
ctx, err = Users.AfterDeleteHooks.RunHooks(ctx, exec, UserSlice{o})
}
return err
}
// primaryKeyVals returns the primary key values of the User
func (o *User) primaryKeyVals() bob.Expression {
return psql.Arg(o.ID)
}
func (o *User) pkEQ() dialect.Expression {
return psql.Quote("user_", "id").EQ(bob.ExpressionFunc(func(ctx context.Context, w io.Writer, d bob.Dialect, start int) ([]any, error) {
return o.primaryKeyVals().WriteSQL(ctx, w, d, start)
}))
}
// Update uses an executor to update the User
func (o *User) Update(ctx context.Context, exec bob.Executor, s *UserSetter) error {
v, err := Users.Update(s.UpdateMod(), um.Where(o.pkEQ())).One(ctx, exec)
if err != nil {
return err
}
o.R = v.R
*o = *v
return nil
}
// Delete deletes a single User record with an executor
func (o *User) Delete(ctx context.Context, exec bob.Executor) error {
_, err := Users.Delete(dm.Where(o.pkEQ())).Exec(ctx, exec)
return err
}
// Reload refreshes the User using the executor
func (o *User) Reload(ctx context.Context, exec bob.Executor) error {
o2, err := Users.Query(
sm.Where(Users.Columns.ID.EQ(psql.Arg(o.ID))),
).One(ctx, exec)
if err != nil {
return err
}
o2.R = o.R
*o = *o2
return nil
}
// AfterQueryHook is called after UserSlice is retrieved from the database
func (o UserSlice) AfterQueryHook(ctx context.Context, exec bob.Executor, queryType bob.QueryType) error {
var err error
switch queryType {
case bob.QueryTypeSelect:
ctx, err = Users.AfterSelectHooks.RunHooks(ctx, exec, o)
case bob.QueryTypeInsert:
ctx, err = Users.AfterInsertHooks.RunHooks(ctx, exec, o)
case bob.QueryTypeUpdate:
ctx, err = Users.AfterUpdateHooks.RunHooks(ctx, exec, o)
case bob.QueryTypeDelete:
ctx, err = Users.AfterDeleteHooks.RunHooks(ctx, exec, o)
}
return err
}
func (o UserSlice) pkIN() dialect.Expression {
if len(o) == 0 {
return psql.Raw("NULL")
}
return psql.Quote("user_", "id").In(bob.ExpressionFunc(func(ctx context.Context, w io.Writer, d bob.Dialect, start int) ([]any, error) {
pkPairs := make([]bob.Expression, len(o))
for i, row := range o {
pkPairs[i] = row.primaryKeyVals()
}
return bob.ExpressSlice(ctx, w, d, start, pkPairs, "", ", ", "")
}))
}
// copyMatchingRows finds models in the given slice that have the same primary key
// then it first copies the existing relationships from the old model to the new model
// and then replaces the old model in the slice with the new model
func (o UserSlice) copyMatchingRows(from ...*User) {
for i, old := range o {
for _, new := range from {
if new.ID != old.ID {
continue
}
new.R = old.R
o[i] = new
break
}
}
}
// UpdateMod modifies an update query with "WHERE primary_key IN (o...)"
func (o UserSlice) UpdateMod() bob.Mod[*dialect.UpdateQuery] {
return bob.ModFunc[*dialect.UpdateQuery](func(q *dialect.UpdateQuery) {
q.AppendHooks(func(ctx context.Context, exec bob.Executor) (context.Context, error) {
return Users.BeforeUpdateHooks.RunHooks(ctx, exec, o)
})
q.AppendLoader(bob.LoaderFunc(func(ctx context.Context, exec bob.Executor, retrieved any) error {
var err error
switch retrieved := retrieved.(type) {
case *User:
o.copyMatchingRows(retrieved)
case []*User:
o.copyMatchingRows(retrieved...)
case UserSlice:
o.copyMatchingRows(retrieved...)
default:
// If the retrieved value is not a User or a slice of User
// then run the AfterUpdateHooks on the slice
_, err = Users.AfterUpdateHooks.RunHooks(ctx, exec, o)
}
return err
}))
q.AppendWhere(o.pkIN())
})
}
// DeleteMod modifies an delete query with "WHERE primary_key IN (o...)"
func (o UserSlice) DeleteMod() bob.Mod[*dialect.DeleteQuery] {
return bob.ModFunc[*dialect.DeleteQuery](func(q *dialect.DeleteQuery) {
q.AppendHooks(func(ctx context.Context, exec bob.Executor) (context.Context, error) {
return Users.BeforeDeleteHooks.RunHooks(ctx, exec, o)
})
q.AppendLoader(bob.LoaderFunc(func(ctx context.Context, exec bob.Executor, retrieved any) error {
var err error
switch retrieved := retrieved.(type) {
case *User:
o.copyMatchingRows(retrieved)
case []*User:
o.copyMatchingRows(retrieved...)
case UserSlice:
o.copyMatchingRows(retrieved...)
default:
// If the retrieved value is not a User or a slice of User
// then run the AfterDeleteHooks on the slice
_, err = Users.AfterDeleteHooks.RunHooks(ctx, exec, o)
}
return err
}))
q.AppendWhere(o.pkIN())
})
}
func (o UserSlice) UpdateAll(ctx context.Context, exec bob.Executor, vals UserSetter) error {
if len(o) == 0 {
return nil
}
_, err := Users.Update(vals.UpdateMod(), o.UpdateMod()).All(ctx, exec)
return err
}
func (o UserSlice) DeleteAll(ctx context.Context, exec bob.Executor) error {
if len(o) == 0 {
return nil
}
_, err := Users.Delete(o.DeleteMod()).Exec(ctx, exec)
return err
}
func (o UserSlice) ReloadAll(ctx context.Context, exec bob.Executor) error {
if len(o) == 0 {
return nil
}
o2, err := Users.Query(sm.Where(o.pkIN())).All(ctx, exec)
if err != nil {
return err
}
o.copyMatchingRows(o2...)
return nil
}
// Organization starts a query for related objects on organization
func (o *User) Organization(mods ...bob.Mod[*dialect.SelectQuery]) OrganizationsQuery {
return Organizations.Query(append(mods,
sm.Where(Organizations.Columns.ID.EQ(psql.Arg(o.OrganizationID))),
)...)
}
func (os UserSlice) Organization(mods ...bob.Mod[*dialect.SelectQuery]) OrganizationsQuery {
pkOrganizationID := make(pgtypes.Array[null.Val[int32]], 0, len(os))
for _, o := range os {
if o == nil {
continue
}
pkOrganizationID = append(pkOrganizationID, o.OrganizationID)
}
PKArgExpr := psql.Select(sm.Columns(
psql.F("unnest", psql.Cast(psql.Arg(pkOrganizationID), "integer[]")),
))
return Organizations.Query(append(mods,
sm.Where(psql.Group(Organizations.Columns.ID).OP("IN", PKArgExpr)),
)...)
}
func attachUserOrganization0(ctx context.Context, exec bob.Executor, count int, user0 *User, organization1 *Organization) (*User, error) {
setter := &UserSetter{
OrganizationID: omitnull.From(organization1.ID),
}
err := user0.Update(ctx, exec, setter)
if err != nil {
return nil, fmt.Errorf("attachUserOrganization0: %w", err)
}
return user0, nil
}
func (user0 *User) InsertOrganization(ctx context.Context, exec bob.Executor, related *OrganizationSetter) error {
var err error
organization1, err := Organizations.Insert(related).One(ctx, exec)
if err != nil {
return fmt.Errorf("inserting related objects: %w", err)
}
_, err = attachUserOrganization0(ctx, exec, 1, user0, organization1)
if err != nil {
return err
}
user0.R.Organization = organization1
organization1.R.User = append(organization1.R.User, user0)
return nil
}
func (user0 *User) AttachOrganization(ctx context.Context, exec bob.Executor, organization1 *Organization) error {
var err error
_, err = attachUserOrganization0(ctx, exec, 1, user0, organization1)
if err != nil {
return err
}
user0.R.Organization = organization1
organization1.R.User = append(organization1.R.User, user0)
return nil
}
type userWhere[Q psql.Filterable] struct {
ID psql.WhereMod[Q, int32]
ArcgisAccessToken psql.WhereNullMod[Q, string]
ArcgisLicense psql.WhereNullMod[Q, enums.ArcgisLicenseType]
ArcgisRefreshToken psql.WhereNullMod[Q, string]
ArcgisRefreshTokenExpires psql.WhereNullMod[Q, time.Time]
ArcgisRole psql.WhereNullMod[Q, string]
DisplayName psql.WhereNullMod[Q, string]
Email psql.WhereNullMod[Q, string]
OrganizationID psql.WhereNullMod[Q, int32]
Username psql.WhereMod[Q, string]
}
func (userWhere[Q]) AliasedAs(alias string) userWhere[Q] {
return buildUserWhere[Q](buildUserColumns(alias))
}
func buildUserWhere[Q psql.Filterable](cols userColumns) userWhere[Q] {
return userWhere[Q]{
ID: psql.Where[Q, int32](cols.ID),
ArcgisAccessToken: psql.WhereNull[Q, string](cols.ArcgisAccessToken),
ArcgisLicense: psql.WhereNull[Q, enums.ArcgisLicenseType](cols.ArcgisLicense),
ArcgisRefreshToken: psql.WhereNull[Q, string](cols.ArcgisRefreshToken),
ArcgisRefreshTokenExpires: psql.WhereNull[Q, time.Time](cols.ArcgisRefreshTokenExpires),
ArcgisRole: psql.WhereNull[Q, string](cols.ArcgisRole),
DisplayName: psql.WhereNull[Q, string](cols.DisplayName),
Email: psql.WhereNull[Q, string](cols.Email),
OrganizationID: psql.WhereNull[Q, int32](cols.OrganizationID),
Username: psql.Where[Q, string](cols.Username),
}
}
func (o *User) Preload(name string, retrieved any) error {
if o == nil {
return nil
}
switch name {
case "Organization":
rel, ok := retrieved.(*Organization)
if !ok {
return fmt.Errorf("user cannot load %T as %q", retrieved, name)
}
o.R.Organization = rel
if rel != nil {
rel.R.User = UserSlice{o}
}
return nil
default:
return fmt.Errorf("user has no relationship %q", name)
}
}
type userPreloader struct {
Organization func(...psql.PreloadOption) psql.Preloader
}
func buildUserPreloader() userPreloader {
return userPreloader{
Organization: func(opts ...psql.PreloadOption) psql.Preloader {
return psql.Preload[*Organization, OrganizationSlice](psql.PreloadRel{
Name: "Organization",
Sides: []psql.PreloadSide{
{
From: Users,
To: Organizations,
FromColumns: []string{"organization_id"},
ToColumns: []string{"id"},
},
},
}, Organizations.Columns.Names(), opts...)
},
}
}
type userThenLoader[Q orm.Loadable] struct {
Organization func(...bob.Mod[*dialect.SelectQuery]) orm.Loader[Q]
}
func buildUserThenLoader[Q orm.Loadable]() userThenLoader[Q] {
type OrganizationLoadInterface interface {
LoadOrganization(context.Context, bob.Executor, ...bob.Mod[*dialect.SelectQuery]) error
}
return userThenLoader[Q]{
Organization: thenLoadBuilder[Q](
"Organization",
func(ctx context.Context, exec bob.Executor, retrieved OrganizationLoadInterface, mods ...bob.Mod[*dialect.SelectQuery]) error {
return retrieved.LoadOrganization(ctx, exec, mods...)
},
),
}
}
// LoadOrganization loads the user's Organization into the .R struct
func (o *User) LoadOrganization(ctx context.Context, exec bob.Executor, mods ...bob.Mod[*dialect.SelectQuery]) error {
if o == nil {
return nil
}
// Reset the relationship
o.R.Organization = nil
related, err := o.Organization(mods...).One(ctx, exec)
if err != nil {
return err
}
related.R.User = UserSlice{o}
o.R.Organization = related
return nil
}
// LoadOrganization loads the user's Organization into the .R struct
func (os UserSlice) LoadOrganization(ctx context.Context, exec bob.Executor, mods ...bob.Mod[*dialect.SelectQuery]) error {
if len(os) == 0 {
return nil
}
organizations, err := os.Organization(mods...).All(ctx, exec)
if err != nil {
return err
}
for _, o := range os {
if o == nil {
continue
}
for _, rel := range organizations {
if !o.OrganizationID.IsValue() {
continue
}
if !(o.OrganizationID.IsValue() && o.OrganizationID.MustGet() == rel.ID) {
continue
}
rel.R.User = append(rel.R.User, o)
o.R.Organization = rel
break
}
}
return nil
}
type userJoins[Q dialect.Joinable] struct {
typ string
Organization modAs[Q, organizationColumns]
}
func (j userJoins[Q]) aliasedAs(alias string) userJoins[Q] {
return buildUserJoins[Q](buildUserColumns(alias), j.typ)
}
func buildUserJoins[Q dialect.Joinable](cols userColumns, typ string) userJoins[Q] {
return userJoins[Q]{
typ: typ,
Organization: modAs[Q, organizationColumns]{
c: Organizations.Columns,
f: func(to organizationColumns) bob.Mod[Q] {
mods := make(mods.QueryMods[Q], 0, 1)
{
mods = append(mods, dialect.Join[Q](typ, Organizations.Name().As(to.Alias())).On(
to.ID.EQ(cols.OrganizationID),
))
}
return mods
},
},
}
}