internal/model/hash.go
// Code generated by SQLBoiler 4.13.0 (https://github.com/volatiletech/sqlboiler). DO NOT EDIT.
// This file is meant to be re-generated in place and/or deleted at any time.
package model
import (
"context"
"database/sql"
"fmt"
"reflect"
"strconv"
"strings"
"sync"
"time"
"github.com/friendsofgo/errors"
"github.com/volatiletech/sqlboiler/v4/boil"
"github.com/volatiletech/sqlboiler/v4/queries"
"github.com/volatiletech/sqlboiler/v4/queries/qm"
"github.com/volatiletech/sqlboiler/v4/queries/qmhelper"
"github.com/volatiletech/strmangle"
)
// Hash is an object representing the database table.
type Hash struct {
ID int64 `boil:"id" json:"id" toml:"id" yaml:"id"`
Hash string `boil:"hash" json:"hash" toml:"hash" yaml:"hash"`
Filepath string `boil:"filepath" json:"filepath" toml:"filepath" yaml:"filepath"`
R *hashR `boil:"-" json:"-" toml:"-" yaml:"-"`
L hashL `boil:"-" json:"-" toml:"-" yaml:"-"`
}
var HashColumns = struct {
ID string
Hash string
Filepath string
}{
ID: "id",
Hash: "hash",
Filepath: "filepath",
}
var HashTableColumns = struct {
ID string
Hash string
Filepath string
}{
ID: "hash.id",
Hash: "hash.hash",
Filepath: "hash.filepath",
}
// Generated where
type whereHelperint64 struct{ field string }
func (w whereHelperint64) EQ(x int64) qm.QueryMod { return qmhelper.Where(w.field, qmhelper.EQ, x) }
func (w whereHelperint64) NEQ(x int64) qm.QueryMod { return qmhelper.Where(w.field, qmhelper.NEQ, x) }
func (w whereHelperint64) LT(x int64) qm.QueryMod { return qmhelper.Where(w.field, qmhelper.LT, x) }
func (w whereHelperint64) LTE(x int64) qm.QueryMod { return qmhelper.Where(w.field, qmhelper.LTE, x) }
func (w whereHelperint64) GT(x int64) qm.QueryMod { return qmhelper.Where(w.field, qmhelper.GT, x) }
func (w whereHelperint64) GTE(x int64) qm.QueryMod { return qmhelper.Where(w.field, qmhelper.GTE, x) }
func (w whereHelperint64) IN(slice []int64) qm.QueryMod {
values := make([]interface{}, 0, len(slice))
for _, value := range slice {
values = append(values, value)
}
return qm.WhereIn(fmt.Sprintf("%s IN ?", w.field), values...)
}
func (w whereHelperint64) NIN(slice []int64) qm.QueryMod {
values := make([]interface{}, 0, len(slice))
for _, value := range slice {
values = append(values, value)
}
return qm.WhereNotIn(fmt.Sprintf("%s NOT IN ?", w.field), values...)
}
type whereHelperstring struct{ field string }
func (w whereHelperstring) EQ(x string) qm.QueryMod { return qmhelper.Where(w.field, qmhelper.EQ, x) }
func (w whereHelperstring) NEQ(x string) qm.QueryMod { return qmhelper.Where(w.field, qmhelper.NEQ, x) }
func (w whereHelperstring) LT(x string) qm.QueryMod { return qmhelper.Where(w.field, qmhelper.LT, x) }
func (w whereHelperstring) LTE(x string) qm.QueryMod { return qmhelper.Where(w.field, qmhelper.LTE, x) }
func (w whereHelperstring) GT(x string) qm.QueryMod { return qmhelper.Where(w.field, qmhelper.GT, x) }
func (w whereHelperstring) GTE(x string) qm.QueryMod { return qmhelper.Where(w.field, qmhelper.GTE, x) }
func (w whereHelperstring) IN(slice []string) qm.QueryMod {
values := make([]interface{}, 0, len(slice))
for _, value := range slice {
values = append(values, value)
}
return qm.WhereIn(fmt.Sprintf("%s IN ?", w.field), values...)
}
func (w whereHelperstring) NIN(slice []string) qm.QueryMod {
values := make([]interface{}, 0, len(slice))
for _, value := range slice {
values = append(values, value)
}
return qm.WhereNotIn(fmt.Sprintf("%s NOT IN ?", w.field), values...)
}
var HashWhere = struct {
ID whereHelperint64
Hash whereHelperstring
Filepath whereHelperstring
}{
ID: whereHelperint64{field: "\"hash\".\"id\""},
Hash: whereHelperstring{field: "\"hash\".\"hash\""},
Filepath: whereHelperstring{field: "\"hash\".\"filepath\""},
}
// HashRels is where relationship names are stored.
var HashRels = struct {
Meta string
}{
Meta: "Meta",
}
// hashR is where relationships are stored.
type hashR struct {
Meta MetumSlice `boil:"Meta" json:"Meta" toml:"Meta" yaml:"Meta"`
}
// NewStruct creates a new relationship struct
func (*hashR) NewStruct() *hashR {
return &hashR{}
}
func (r *hashR) GetMeta() MetumSlice {
if r == nil {
return nil
}
return r.Meta
}
// hashL is where Load methods for each relationship are stored.
type hashL struct{}
var (
hashAllColumns = []string{"id", "hash", "filepath"}
hashColumnsWithoutDefault = []string{"hash", "filepath"}
hashColumnsWithDefault = []string{"id"}
hashPrimaryKeyColumns = []string{"id"}
hashGeneratedColumns = []string{"id"}
)
type (
// HashSlice is an alias for a slice of pointers to Hash.
// This should almost always be used instead of []Hash.
HashSlice []*Hash
// HashHook is the signature for custom Hash hook methods
HashHook func(context.Context, boil.ContextExecutor, *Hash) error
hashQuery struct {
*queries.Query
}
)
// Cache for insert, update and upsert
var (
hashType = reflect.TypeOf(&Hash{})
hashMapping = queries.MakeStructMapping(hashType)
hashPrimaryKeyMapping, _ = queries.BindMapping(hashType, hashMapping, hashPrimaryKeyColumns)
hashInsertCacheMut sync.RWMutex
hashInsertCache = make(map[string]insertCache)
hashUpdateCacheMut sync.RWMutex
hashUpdateCache = make(map[string]updateCache)
hashUpsertCacheMut sync.RWMutex
hashUpsertCache = make(map[string]insertCache)
)
var (
// Force time package dependency for automated UpdatedAt/CreatedAt.
_ = time.Second
// Force qmhelper dependency for where clause generation (which doesn't
// always happen)
_ = qmhelper.Where
)
var hashAfterSelectHooks []HashHook
var hashBeforeInsertHooks []HashHook
var hashAfterInsertHooks []HashHook
var hashBeforeUpdateHooks []HashHook
var hashAfterUpdateHooks []HashHook
var hashBeforeDeleteHooks []HashHook
var hashAfterDeleteHooks []HashHook
var hashBeforeUpsertHooks []HashHook
var hashAfterUpsertHooks []HashHook
// doAfterSelectHooks executes all "after Select" hooks.
func (o *Hash) doAfterSelectHooks(ctx context.Context, exec boil.ContextExecutor) (err error) {
if boil.HooksAreSkipped(ctx) {
return nil
}
for _, hook := range hashAfterSelectHooks {
if err := hook(ctx, exec, o); err != nil {
return err
}
}
return nil
}
// doBeforeInsertHooks executes all "before insert" hooks.
func (o *Hash) doBeforeInsertHooks(ctx context.Context, exec boil.ContextExecutor) (err error) {
if boil.HooksAreSkipped(ctx) {
return nil
}
for _, hook := range hashBeforeInsertHooks {
if err := hook(ctx, exec, o); err != nil {
return err
}
}
return nil
}
// doAfterInsertHooks executes all "after Insert" hooks.
func (o *Hash) doAfterInsertHooks(ctx context.Context, exec boil.ContextExecutor) (err error) {
if boil.HooksAreSkipped(ctx) {
return nil
}
for _, hook := range hashAfterInsertHooks {
if err := hook(ctx, exec, o); err != nil {
return err
}
}
return nil
}
// doBeforeUpdateHooks executes all "before Update" hooks.
func (o *Hash) doBeforeUpdateHooks(ctx context.Context, exec boil.ContextExecutor) (err error) {
if boil.HooksAreSkipped(ctx) {
return nil
}
for _, hook := range hashBeforeUpdateHooks {
if err := hook(ctx, exec, o); err != nil {
return err
}
}
return nil
}
// doAfterUpdateHooks executes all "after Update" hooks.
func (o *Hash) doAfterUpdateHooks(ctx context.Context, exec boil.ContextExecutor) (err error) {
if boil.HooksAreSkipped(ctx) {
return nil
}
for _, hook := range hashAfterUpdateHooks {
if err := hook(ctx, exec, o); err != nil {
return err
}
}
return nil
}
// doBeforeDeleteHooks executes all "before Delete" hooks.
func (o *Hash) doBeforeDeleteHooks(ctx context.Context, exec boil.ContextExecutor) (err error) {
if boil.HooksAreSkipped(ctx) {
return nil
}
for _, hook := range hashBeforeDeleteHooks {
if err := hook(ctx, exec, o); err != nil {
return err
}
}
return nil
}
// doAfterDeleteHooks executes all "after Delete" hooks.
func (o *Hash) doAfterDeleteHooks(ctx context.Context, exec boil.ContextExecutor) (err error) {
if boil.HooksAreSkipped(ctx) {
return nil
}
for _, hook := range hashAfterDeleteHooks {
if err := hook(ctx, exec, o); err != nil {
return err
}
}
return nil
}
// doBeforeUpsertHooks executes all "before Upsert" hooks.
func (o *Hash) doBeforeUpsertHooks(ctx context.Context, exec boil.ContextExecutor) (err error) {
if boil.HooksAreSkipped(ctx) {
return nil
}
for _, hook := range hashBeforeUpsertHooks {
if err := hook(ctx, exec, o); err != nil {
return err
}
}
return nil
}
// doAfterUpsertHooks executes all "after Upsert" hooks.
func (o *Hash) doAfterUpsertHooks(ctx context.Context, exec boil.ContextExecutor) (err error) {
if boil.HooksAreSkipped(ctx) {
return nil
}
for _, hook := range hashAfterUpsertHooks {
if err := hook(ctx, exec, o); err != nil {
return err
}
}
return nil
}
// AddHashHook registers your hook function for all future operations.
func AddHashHook(hookPoint boil.HookPoint, hashHook HashHook) {
switch hookPoint {
case boil.AfterSelectHook:
hashAfterSelectHooks = append(hashAfterSelectHooks, hashHook)
case boil.BeforeInsertHook:
hashBeforeInsertHooks = append(hashBeforeInsertHooks, hashHook)
case boil.AfterInsertHook:
hashAfterInsertHooks = append(hashAfterInsertHooks, hashHook)
case boil.BeforeUpdateHook:
hashBeforeUpdateHooks = append(hashBeforeUpdateHooks, hashHook)
case boil.AfterUpdateHook:
hashAfterUpdateHooks = append(hashAfterUpdateHooks, hashHook)
case boil.BeforeDeleteHook:
hashBeforeDeleteHooks = append(hashBeforeDeleteHooks, hashHook)
case boil.AfterDeleteHook:
hashAfterDeleteHooks = append(hashAfterDeleteHooks, hashHook)
case boil.BeforeUpsertHook:
hashBeforeUpsertHooks = append(hashBeforeUpsertHooks, hashHook)
case boil.AfterUpsertHook:
hashAfterUpsertHooks = append(hashAfterUpsertHooks, hashHook)
}
}
// One returns a single hash record from the query.
func (q hashQuery) One(ctx context.Context, exec boil.ContextExecutor) (*Hash, error) {
o := &Hash{}
queries.SetLimit(q.Query, 1)
err := q.Bind(ctx, exec, o)
if err != nil {
if errors.Is(err, sql.ErrNoRows) {
return nil, sql.ErrNoRows
}
return nil, errors.Wrap(err, "model: failed to execute a one query for hash")
}
if err := o.doAfterSelectHooks(ctx, exec); err != nil {
return o, err
}
return o, nil
}
// All returns all Hash records from the query.
func (q hashQuery) All(ctx context.Context, exec boil.ContextExecutor) (HashSlice, error) {
var o []*Hash
err := q.Bind(ctx, exec, &o)
if err != nil {
return nil, errors.Wrap(err, "model: failed to assign all query results to Hash slice")
}
if len(hashAfterSelectHooks) != 0 {
for _, obj := range o {
if err := obj.doAfterSelectHooks(ctx, exec); err != nil {
return o, err
}
}
}
return o, nil
}
// Count returns the count of all Hash records in the query.
func (q hashQuery) Count(ctx context.Context, exec boil.ContextExecutor) (int64, error) {
var count int64
queries.SetSelect(q.Query, nil)
queries.SetCount(q.Query)
err := q.Query.QueryRowContext(ctx, exec).Scan(&count)
if err != nil {
return 0, errors.Wrap(err, "model: failed to count hash rows")
}
return count, nil
}
// Exists checks if the row exists in the table.
func (q hashQuery) Exists(ctx context.Context, exec boil.ContextExecutor) (bool, error) {
var count int64
queries.SetSelect(q.Query, nil)
queries.SetCount(q.Query)
queries.SetLimit(q.Query, 1)
err := q.Query.QueryRowContext(ctx, exec).Scan(&count)
if err != nil {
return false, errors.Wrap(err, "model: failed to check if hash exists")
}
return count > 0, nil
}
// Meta retrieves all the metum's Meta with an executor.
func (o *Hash) Meta(mods ...qm.QueryMod) metumQuery {
var queryMods []qm.QueryMod
if len(mods) != 0 {
queryMods = append(queryMods, mods...)
}
queryMods = append(queryMods,
qm.Where("\"meta\".\"hash_id\"=?", o.ID),
)
return Meta(queryMods...)
}
// LoadMeta allows an eager lookup of values, cached into the
// loaded structs of the objects. This is for a 1-M or N-M relationship.
func (hashL) LoadMeta(ctx context.Context, e boil.ContextExecutor, singular bool, maybeHash interface{}, mods queries.Applicator) error {
var slice []*Hash
var object *Hash
if singular {
var ok bool
object, ok = maybeHash.(*Hash)
if !ok {
object = new(Hash)
ok = queries.SetFromEmbeddedStruct(&object, &maybeHash)
if !ok {
return errors.New(fmt.Sprintf("failed to set %T from embedded struct %T", object, maybeHash))
}
}
} else {
s, ok := maybeHash.(*[]*Hash)
if ok {
slice = *s
} else {
ok = queries.SetFromEmbeddedStruct(&slice, maybeHash)
if !ok {
return errors.New(fmt.Sprintf("failed to set %T from embedded struct %T", slice, maybeHash))
}
}
}
args := make([]interface{}, 0, 1)
if singular {
if object.R == nil {
object.R = &hashR{}
}
args = append(args, object.ID)
} else {
Outer:
for _, obj := range slice {
if obj.R == nil {
obj.R = &hashR{}
}
for _, a := range args {
if a == obj.ID {
continue Outer
}
}
args = append(args, obj.ID)
}
}
if len(args) == 0 {
return nil
}
query := NewQuery(
qm.From(`meta`),
qm.WhereIn(`meta.hash_id in ?`, args...),
)
if mods != nil {
mods.Apply(query)
}
results, err := query.QueryContext(ctx, e)
if err != nil {
return errors.Wrap(err, "failed to eager load meta")
}
var resultSlice []*Metum
if err = queries.Bind(results, &resultSlice); err != nil {
return errors.Wrap(err, "failed to bind eager loaded slice meta")
}
if err = results.Close(); err != nil {
return errors.Wrap(err, "failed to close results in eager load on meta")
}
if err = results.Err(); err != nil {
return errors.Wrap(err, "error occurred during iteration of eager loaded relations for meta")
}
if len(metumAfterSelectHooks) != 0 {
for _, obj := range resultSlice {
if err := obj.doAfterSelectHooks(ctx, e); err != nil {
return err
}
}
}
if singular {
object.R.Meta = resultSlice
for _, foreign := range resultSlice {
if foreign.R == nil {
foreign.R = &metumR{}
}
foreign.R.Hash = object
}
return nil
}
for _, foreign := range resultSlice {
for _, local := range slice {
if local.ID == foreign.HashID {
local.R.Meta = append(local.R.Meta, foreign)
if foreign.R == nil {
foreign.R = &metumR{}
}
foreign.R.Hash = local
break
}
}
}
return nil
}
// AddMeta adds the given related objects to the existing relationships
// of the hash, optionally inserting them as new records.
// Appends related to o.R.Meta.
// Sets related.R.Hash appropriately.
func (o *Hash) AddMeta(ctx context.Context, exec boil.ContextExecutor, insert bool, related ...*Metum) error {
var err error
for _, rel := range related {
if insert {
rel.HashID = o.ID
if err = rel.Insert(ctx, exec, boil.Infer()); err != nil {
return errors.Wrap(err, "failed to insert into foreign table")
}
} else {
updateQuery := fmt.Sprintf(
"UPDATE \"meta\" SET %s WHERE %s",
strmangle.SetParamNames("\"", "\"", 0, []string{"hash_id"}),
strmangle.WhereClause("\"", "\"", 0, metumPrimaryKeyColumns),
)
values := []interface{}{o.ID, rel.ID}
if boil.IsDebug(ctx) {
writer := boil.DebugWriterFrom(ctx)
fmt.Fprintln(writer, updateQuery)
fmt.Fprintln(writer, values)
}
if _, err = exec.ExecContext(ctx, updateQuery, values...); err != nil {
return errors.Wrap(err, "failed to update foreign table")
}
rel.HashID = o.ID
}
}
if o.R == nil {
o.R = &hashR{
Meta: related,
}
} else {
o.R.Meta = append(o.R.Meta, related...)
}
for _, rel := range related {
if rel.R == nil {
rel.R = &metumR{
Hash: o,
}
} else {
rel.R.Hash = o
}
}
return nil
}
// Hashes retrieves all the records using an executor.
func Hashes(mods ...qm.QueryMod) hashQuery {
mods = append(mods, qm.From("\"hash\""))
q := NewQuery(mods...)
if len(queries.GetSelect(q)) == 0 {
queries.SetSelect(q, []string{"\"hash\".*"})
}
return hashQuery{q}
}
// FindHash retrieves a single record by ID with an executor.
// If selectCols is empty Find will return all columns.
func FindHash(ctx context.Context, exec boil.ContextExecutor, iD int64, selectCols ...string) (*Hash, error) {
hashObj := &Hash{}
sel := "*"
if len(selectCols) > 0 {
sel = strings.Join(strmangle.IdentQuoteSlice(dialect.LQ, dialect.RQ, selectCols), ",")
}
query := fmt.Sprintf(
"select %s from \"hash\" where \"id\"=?", sel,
)
q := queries.Raw(query, iD)
err := q.Bind(ctx, exec, hashObj)
if err != nil {
if errors.Is(err, sql.ErrNoRows) {
return nil, sql.ErrNoRows
}
return nil, errors.Wrap(err, "model: unable to select from hash")
}
if err = hashObj.doAfterSelectHooks(ctx, exec); err != nil {
return hashObj, err
}
return hashObj, nil
}
// Insert a single record using an executor.
// See boil.Columns.InsertColumnSet documentation to understand column list inference for inserts.
func (o *Hash) Insert(ctx context.Context, exec boil.ContextExecutor, columns boil.Columns) error {
if o == nil {
return errors.New("model: no hash provided for insertion")
}
var err error
if err := o.doBeforeInsertHooks(ctx, exec); err != nil {
return err
}
nzDefaults := queries.NonZeroDefaultSet(hashColumnsWithDefault, o)
key := makeCacheKey(columns, nzDefaults)
hashInsertCacheMut.RLock()
cache, cached := hashInsertCache[key]
hashInsertCacheMut.RUnlock()
if !cached {
wl, returnColumns := columns.InsertColumnSet(
hashAllColumns,
hashColumnsWithDefault,
hashColumnsWithoutDefault,
nzDefaults,
)
wl = strmangle.SetComplement(wl, hashGeneratedColumns)
cache.valueMapping, err = queries.BindMapping(hashType, hashMapping, wl)
if err != nil {
return err
}
cache.retMapping, err = queries.BindMapping(hashType, hashMapping, returnColumns)
if err != nil {
return err
}
if len(wl) != 0 {
cache.query = fmt.Sprintf("INSERT INTO \"hash\" (\"%s\") %%sVALUES (%s)%%s", strings.Join(wl, "\",\""), strmangle.Placeholders(dialect.UseIndexPlaceholders, len(wl), 1, 1))
} else {
cache.query = "INSERT INTO \"hash\" %sDEFAULT VALUES%s"
}
var queryOutput, queryReturning string
if len(cache.retMapping) != 0 {
queryReturning = fmt.Sprintf(" RETURNING \"%s\"", strings.Join(returnColumns, "\",\""))
}
cache.query = fmt.Sprintf(cache.query, queryOutput, queryReturning)
}
value := reflect.Indirect(reflect.ValueOf(o))
vals := queries.ValuesFromMapping(value, cache.valueMapping)
if boil.IsDebug(ctx) {
writer := boil.DebugWriterFrom(ctx)
fmt.Fprintln(writer, cache.query)
fmt.Fprintln(writer, vals)
}
if len(cache.retMapping) != 0 {
err = exec.QueryRowContext(ctx, cache.query, vals...).Scan(queries.PtrsFromMapping(value, cache.retMapping)...)
} else {
_, err = exec.ExecContext(ctx, cache.query, vals...)
}
if err != nil {
return errors.Wrap(err, "model: unable to insert into hash")
}
if !cached {
hashInsertCacheMut.Lock()
hashInsertCache[key] = cache
hashInsertCacheMut.Unlock()
}
return o.doAfterInsertHooks(ctx, exec)
}
// Update uses an executor to update the Hash.
// See boil.Columns.UpdateColumnSet documentation to understand column list inference for updates.
// Update does not automatically update the record in case of default values. Use .Reload() to refresh the records.
func (o *Hash) Update(ctx context.Context, exec boil.ContextExecutor, columns boil.Columns) (int64, error) {
var err error
if err = o.doBeforeUpdateHooks(ctx, exec); err != nil {
return 0, err
}
key := makeCacheKey(columns, nil)
hashUpdateCacheMut.RLock()
cache, cached := hashUpdateCache[key]
hashUpdateCacheMut.RUnlock()
if !cached {
wl := columns.UpdateColumnSet(
hashAllColumns,
hashPrimaryKeyColumns,
)
wl = strmangle.SetComplement(wl, hashGeneratedColumns)
if !columns.IsWhitelist() {
wl = strmangle.SetComplement(wl, []string{"created_at"})
}
if len(wl) == 0 {
return 0, errors.New("model: unable to update hash, could not build whitelist")
}
cache.query = fmt.Sprintf("UPDATE \"hash\" SET %s WHERE %s",
strmangle.SetParamNames("\"", "\"", 0, wl),
strmangle.WhereClause("\"", "\"", 0, hashPrimaryKeyColumns),
)
cache.valueMapping, err = queries.BindMapping(hashType, hashMapping, append(wl, hashPrimaryKeyColumns...))
if err != nil {
return 0, err
}
}
values := queries.ValuesFromMapping(reflect.Indirect(reflect.ValueOf(o)), cache.valueMapping)
if boil.IsDebug(ctx) {
writer := boil.DebugWriterFrom(ctx)
fmt.Fprintln(writer, cache.query)
fmt.Fprintln(writer, values)
}
var result sql.Result
result, err = exec.ExecContext(ctx, cache.query, values...)
if err != nil {
return 0, errors.Wrap(err, "model: unable to update hash row")
}
rowsAff, err := result.RowsAffected()
if err != nil {
return 0, errors.Wrap(err, "model: failed to get rows affected by update for hash")
}
if !cached {
hashUpdateCacheMut.Lock()
hashUpdateCache[key] = cache
hashUpdateCacheMut.Unlock()
}
return rowsAff, o.doAfterUpdateHooks(ctx, exec)
}
// UpdateAll updates all rows with the specified column values.
func (q hashQuery) UpdateAll(ctx context.Context, exec boil.ContextExecutor, cols M) (int64, error) {
queries.SetUpdate(q.Query, cols)
result, err := q.Query.ExecContext(ctx, exec)
if err != nil {
return 0, errors.Wrap(err, "model: unable to update all for hash")
}
rowsAff, err := result.RowsAffected()
if err != nil {
return 0, errors.Wrap(err, "model: unable to retrieve rows affected for hash")
}
return rowsAff, nil
}
// UpdateAll updates all rows with the specified column values, using an executor.
func (o HashSlice) UpdateAll(ctx context.Context, exec boil.ContextExecutor, cols M) (int64, error) {
ln := int64(len(o))
if ln == 0 {
return 0, nil
}
if len(cols) == 0 {
return 0, errors.New("model: update all requires at least one column argument")
}
colNames := make([]string, len(cols))
args := make([]interface{}, len(cols))
i := 0
for name, value := range cols {
colNames[i] = name
args[i] = value
i++
}
// Append all of the primary key values for each column
for _, obj := range o {
pkeyArgs := queries.ValuesFromMapping(reflect.Indirect(reflect.ValueOf(obj)), hashPrimaryKeyMapping)
args = append(args, pkeyArgs...)
}
sql := fmt.Sprintf("UPDATE \"hash\" SET %s WHERE %s",
strmangle.SetParamNames("\"", "\"", 0, colNames),
strmangle.WhereClauseRepeated(string(dialect.LQ), string(dialect.RQ), 0, hashPrimaryKeyColumns, len(o)))
if boil.IsDebug(ctx) {
writer := boil.DebugWriterFrom(ctx)
fmt.Fprintln(writer, sql)
fmt.Fprintln(writer, args...)
}
result, err := exec.ExecContext(ctx, sql, args...)
if err != nil {
return 0, errors.Wrap(err, "model: unable to update all in hash slice")
}
rowsAff, err := result.RowsAffected()
if err != nil {
return 0, errors.Wrap(err, "model: unable to retrieve rows affected all in update all hash")
}
return rowsAff, nil
}
// Upsert attempts an insert using an executor, and does an update or ignore on conflict.
// See boil.Columns documentation for how to properly use updateColumns and insertColumns.
func (o *Hash) Upsert(ctx context.Context, exec boil.ContextExecutor, updateOnConflict bool, conflictColumns []string, updateColumns, insertColumns boil.Columns) error {
if o == nil {
return errors.New("model: no hash provided for upsert")
}
if err := o.doBeforeUpsertHooks(ctx, exec); err != nil {
return err
}
nzDefaults := queries.NonZeroDefaultSet(hashColumnsWithDefault, o)
// Build cache key in-line uglily - mysql vs psql problems
buf := strmangle.GetBuffer()
if updateOnConflict {
buf.WriteByte('t')
} else {
buf.WriteByte('f')
}
buf.WriteByte('.')
for _, c := range conflictColumns {
buf.WriteString(c)
}
buf.WriteByte('.')
buf.WriteString(strconv.Itoa(updateColumns.Kind))
for _, c := range updateColumns.Cols {
buf.WriteString(c)
}
buf.WriteByte('.')
buf.WriteString(strconv.Itoa(insertColumns.Kind))
for _, c := range insertColumns.Cols {
buf.WriteString(c)
}
buf.WriteByte('.')
for _, c := range nzDefaults {
buf.WriteString(c)
}
key := buf.String()
strmangle.PutBuffer(buf)
hashUpsertCacheMut.RLock()
cache, cached := hashUpsertCache[key]
hashUpsertCacheMut.RUnlock()
var err error
if !cached {
insert, ret := insertColumns.InsertColumnSet(
hashAllColumns,
hashColumnsWithDefault,
hashColumnsWithoutDefault,
nzDefaults,
)
update := updateColumns.UpdateColumnSet(
hashAllColumns,
hashPrimaryKeyColumns,
)
if updateOnConflict && len(update) == 0 {
return errors.New("model: unable to upsert hash, could not build update column list")
}
conflict := conflictColumns
if len(conflict) == 0 {
conflict = make([]string, len(hashPrimaryKeyColumns))
copy(conflict, hashPrimaryKeyColumns)
}
cache.query = buildUpsertQuerySQLite(dialect, "\"hash\"", updateOnConflict, ret, update, conflict, insert)
cache.valueMapping, err = queries.BindMapping(hashType, hashMapping, insert)
if err != nil {
return err
}
if len(ret) != 0 {
cache.retMapping, err = queries.BindMapping(hashType, hashMapping, ret)
if err != nil {
return err
}
}
}
value := reflect.Indirect(reflect.ValueOf(o))
vals := queries.ValuesFromMapping(value, cache.valueMapping)
var returns []interface{}
if len(cache.retMapping) != 0 {
returns = queries.PtrsFromMapping(value, cache.retMapping)
}
if boil.IsDebug(ctx) {
writer := boil.DebugWriterFrom(ctx)
fmt.Fprintln(writer, cache.query)
fmt.Fprintln(writer, vals)
}
if len(cache.retMapping) != 0 {
err = exec.QueryRowContext(ctx, cache.query, vals...).Scan(returns...)
if errors.Is(err, sql.ErrNoRows) {
err = nil // Postgres doesn't return anything when there's no update
}
} else {
_, err = exec.ExecContext(ctx, cache.query, vals...)
}
if err != nil {
return errors.Wrap(err, "model: unable to upsert hash")
}
if !cached {
hashUpsertCacheMut.Lock()
hashUpsertCache[key] = cache
hashUpsertCacheMut.Unlock()
}
return o.doAfterUpsertHooks(ctx, exec)
}
// Delete deletes a single Hash record with an executor.
// Delete will match against the primary key column to find the record to delete.
func (o *Hash) Delete(ctx context.Context, exec boil.ContextExecutor) (int64, error) {
if o == nil {
return 0, errors.New("model: no Hash provided for delete")
}
if err := o.doBeforeDeleteHooks(ctx, exec); err != nil {
return 0, err
}
args := queries.ValuesFromMapping(reflect.Indirect(reflect.ValueOf(o)), hashPrimaryKeyMapping)
sql := "DELETE FROM \"hash\" WHERE \"id\"=?"
if boil.IsDebug(ctx) {
writer := boil.DebugWriterFrom(ctx)
fmt.Fprintln(writer, sql)
fmt.Fprintln(writer, args...)
}
result, err := exec.ExecContext(ctx, sql, args...)
if err != nil {
return 0, errors.Wrap(err, "model: unable to delete from hash")
}
rowsAff, err := result.RowsAffected()
if err != nil {
return 0, errors.Wrap(err, "model: failed to get rows affected by delete for hash")
}
if err := o.doAfterDeleteHooks(ctx, exec); err != nil {
return 0, err
}
return rowsAff, nil
}
// DeleteAll deletes all matching rows.
func (q hashQuery) DeleteAll(ctx context.Context, exec boil.ContextExecutor) (int64, error) {
if q.Query == nil {
return 0, errors.New("model: no hashQuery provided for delete all")
}
queries.SetDelete(q.Query)
result, err := q.Query.ExecContext(ctx, exec)
if err != nil {
return 0, errors.Wrap(err, "model: unable to delete all from hash")
}
rowsAff, err := result.RowsAffected()
if err != nil {
return 0, errors.Wrap(err, "model: failed to get rows affected by deleteall for hash")
}
return rowsAff, nil
}
// DeleteAll deletes all rows in the slice, using an executor.
func (o HashSlice) DeleteAll(ctx context.Context, exec boil.ContextExecutor) (int64, error) {
if len(o) == 0 {
return 0, nil
}
if len(hashBeforeDeleteHooks) != 0 {
for _, obj := range o {
if err := obj.doBeforeDeleteHooks(ctx, exec); err != nil {
return 0, err
}
}
}
var args []interface{}
for _, obj := range o {
pkeyArgs := queries.ValuesFromMapping(reflect.Indirect(reflect.ValueOf(obj)), hashPrimaryKeyMapping)
args = append(args, pkeyArgs...)
}
sql := "DELETE FROM \"hash\" WHERE " +
strmangle.WhereClauseRepeated(string(dialect.LQ), string(dialect.RQ), 0, hashPrimaryKeyColumns, len(o))
if boil.IsDebug(ctx) {
writer := boil.DebugWriterFrom(ctx)
fmt.Fprintln(writer, sql)
fmt.Fprintln(writer, args)
}
result, err := exec.ExecContext(ctx, sql, args...)
if err != nil {
return 0, errors.Wrap(err, "model: unable to delete all from hash slice")
}
rowsAff, err := result.RowsAffected()
if err != nil {
return 0, errors.Wrap(err, "model: failed to get rows affected by deleteall for hash")
}
if len(hashAfterDeleteHooks) != 0 {
for _, obj := range o {
if err := obj.doAfterDeleteHooks(ctx, exec); err != nil {
return 0, err
}
}
}
return rowsAff, nil
}
// Reload refetches the object from the database
// using the primary keys with an executor.
func (o *Hash) Reload(ctx context.Context, exec boil.ContextExecutor) error {
ret, err := FindHash(ctx, exec, o.ID)
if err != nil {
return err
}
*o = *ret
return nil
}
// ReloadAll refetches every row with matching primary key column values
// and overwrites the original object slice with the newly updated slice.
func (o *HashSlice) ReloadAll(ctx context.Context, exec boil.ContextExecutor) error {
if o == nil || len(*o) == 0 {
return nil
}
slice := HashSlice{}
var args []interface{}
for _, obj := range *o {
pkeyArgs := queries.ValuesFromMapping(reflect.Indirect(reflect.ValueOf(obj)), hashPrimaryKeyMapping)
args = append(args, pkeyArgs...)
}
sql := "SELECT \"hash\".* FROM \"hash\" WHERE " +
strmangle.WhereClauseRepeated(string(dialect.LQ), string(dialect.RQ), 0, hashPrimaryKeyColumns, len(*o))
q := queries.Raw(sql, args...)
err := q.Bind(ctx, exec, &slice)
if err != nil {
return errors.Wrap(err, "model: unable to reload all in HashSlice")
}
*o = slice
return nil
}
// HashExists checks if the Hash row exists.
func HashExists(ctx context.Context, exec boil.ContextExecutor, iD int64) (bool, error) {
var exists bool
sql := "select exists(select 1 from \"hash\" where \"id\"=? limit 1)"
if boil.IsDebug(ctx) {
writer := boil.DebugWriterFrom(ctx)
fmt.Fprintln(writer, sql)
fmt.Fprintln(writer, iD)
}
row := exec.QueryRowContext(ctx, sql, iD)
err := row.Scan(&exists)
if err != nil {
return false, errors.Wrap(err, "model: unable to check if hash exists")
}
return exists, nil
}