gf/database/gdb/gdb_core_transaction.go

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// Copyright GoFrame Author(https://goframe.org). All Rights Reserved.
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//
// This Source Code Form is subject to the terms of the MIT License.
// If a copy of the MIT was not distributed with this file,
// You can obtain one at https://github.com/gogf/gf.
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package gdb
import (
"context"
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"database/sql"
"reflect"
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"github.com/gogf/gf/v2/container/gtype"
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"github.com/gogf/gf/v2/errors/gcode"
"github.com/gogf/gf/v2/errors/gerror"
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"github.com/gogf/gf/v2/internal/reflection"
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"github.com/gogf/gf/v2/text/gregex"
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"github.com/gogf/gf/v2/util/gconv"
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)
// TX is the struct for transaction management.
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type TX struct {
db DB // db is the current gdb database manager.
tx *sql.Tx // tx is the raw and underlying transaction manager.
ctx context.Context // ctx is the context for this transaction only.
master *sql.DB // master is the raw and underlying database manager.
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transactionId string // transactionId is a unique id generated by this object for this transaction.
transactionCount int // transactionCount marks the times that Begins.
isClosed bool // isClosed marks this transaction has already been committed or rolled back.
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}
const (
transactionPointerPrefix = "transaction"
contextTransactionKeyPrefix = "TransactionObjectForGroup_"
transactionIdForLoggerCtx = "TransactionId"
)
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var transactionIdGenerator = gtype.NewUint64()
// Begin starts and returns the transaction object.
// You should call Commit or Rollback functions of the transaction object
// if you no longer use the transaction. Commit or Rollback functions will also
// close the transaction automatically.
func (c *Core) Begin(ctx context.Context) (tx *TX, err error) {
return c.doBeginCtx(ctx)
}
func (c *Core) doBeginCtx(ctx context.Context) (*TX, error) {
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master, err := c.db.Master()
if err != nil {
return nil, err
}
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var out DoCommitOutput
out, err = c.db.DoCommit(ctx, DoCommitInput{
Db: master,
Sql: "BEGIN",
Type: SqlTypeBegin,
IsTransaction: true,
})
return out.Tx, err
}
// Transaction wraps the transaction logic using function `f`.
// It rollbacks the transaction and returns the error from function `f` if
// it returns non-nil error. It commits the transaction and returns nil if
// function `f` returns nil.
//
// Note that, you should not Commit or Rollback the transaction in function `f`
// as it is automatically handled by this function.
func (c *Core) Transaction(ctx context.Context, f func(ctx context.Context, tx *TX) error) (err error) {
if ctx == nil {
ctx = c.db.GetCtx()
}
ctx = c.InjectInternalCtxData(ctx)
// Check transaction object from context.
var tx *TX
tx = TXFromCtx(ctx, c.db.GetGroup())
if tx != nil {
return tx.Transaction(ctx, f)
}
tx, err = c.doBeginCtx(ctx)
if err != nil {
return err
}
// Inject transaction object into context.
tx.ctx = WithTX(tx.ctx, tx)
defer func() {
if err == nil {
if exception := recover(); exception != nil {
if v, ok := exception.(error); ok && gerror.HasStack(v) {
err = v
} else {
err = gerror.Newf("%+v", exception)
}
}
}
if err != nil {
if e := tx.Rollback(); e != nil {
err = e
}
} else {
if e := tx.Commit(); e != nil {
err = e
}
}
}()
err = f(tx.ctx, tx)
return
}
// WithTX injects given transaction object into context and returns a new context.
func WithTX(ctx context.Context, tx *TX) context.Context {
if tx == nil {
return ctx
}
// Check repeat injection from given.
group := tx.db.GetGroup()
if ctxTx := TXFromCtx(ctx, group); ctxTx != nil && ctxTx.db.GetGroup() == group {
return ctx
}
dbCtx := tx.db.GetCtx()
if ctxTx := TXFromCtx(dbCtx, group); ctxTx != nil && ctxTx.db.GetGroup() == group {
return dbCtx
}
// Inject transaction object and id into context.
ctx = context.WithValue(ctx, transactionKeyForContext(group), tx)
return ctx
}
// TXFromCtx retrieves and returns transaction object from context.
// It is usually used in nested transaction feature, and it returns nil if it is not set previously.
func TXFromCtx(ctx context.Context, group string) *TX {
if ctx == nil {
return nil
}
v := ctx.Value(transactionKeyForContext(group))
if v != nil {
tx := v.(*TX)
if tx.IsClosed() {
return nil
}
tx.ctx = ctx
return tx
}
return nil
}
// transactionKeyForContext forms and returns a string for storing transaction object of certain database group into context.
func transactionKeyForContext(group string) string {
return contextTransactionKeyPrefix + group
}
// transactionKeyForNestedPoint forms and returns the transaction key at current save point.
func (tx *TX) transactionKeyForNestedPoint() string {
return tx.db.GetCore().QuoteWord(transactionPointerPrefix + gconv.String(tx.transactionCount))
}
// Ctx sets the context for current transaction.
func (tx *TX) Ctx(ctx context.Context) *TX {
tx.ctx = ctx
if tx.ctx != nil {
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tx.ctx = tx.db.GetCore().InjectInternalCtxData(tx.ctx)
}
return tx
}
// Commit commits current transaction.
// Note that it releases previous saved transaction point if it's in a nested transaction procedure,
// or else it commits the hole transaction.
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func (tx *TX) Commit() error {
if tx.transactionCount > 0 {
tx.transactionCount--
_, err := tx.Exec("RELEASE SAVEPOINT " + tx.transactionKeyForNestedPoint())
return err
}
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_, err := tx.db.DoCommit(tx.ctx, DoCommitInput{
Tx: tx.tx,
Sql: "COMMIT",
Type: SqlTypeTXCommit,
IsTransaction: true,
})
if err == nil {
tx.isClosed = true
}
return err
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}
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// Rollback aborts current transaction.
// Note that it aborts current transaction if it's in a nested transaction procedure,
// or else it aborts the hole transaction.
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func (tx *TX) Rollback() error {
if tx.transactionCount > 0 {
tx.transactionCount--
_, err := tx.Exec("ROLLBACK TO SAVEPOINT " + tx.transactionKeyForNestedPoint())
return err
}
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_, err := tx.db.DoCommit(tx.ctx, DoCommitInput{
Tx: tx.tx,
Sql: "ROLLBACK",
Type: SqlTypeTXRollback,
IsTransaction: true,
})
if err == nil {
tx.isClosed = true
}
return err
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}
// IsClosed checks and returns this transaction has already been committed or rolled back.
func (tx *TX) IsClosed() bool {
return tx.isClosed
}
// Begin starts a nested transaction procedure.
func (tx *TX) Begin() error {
_, err := tx.Exec("SAVEPOINT " + tx.transactionKeyForNestedPoint())
if err != nil {
return err
}
tx.transactionCount++
return nil
}
// SavePoint performs `SAVEPOINT xxx` SQL statement that saves transaction at current point.
// The parameter `point` specifies the point name that will be saved to server.
func (tx *TX) SavePoint(point string) error {
_, err := tx.Exec("SAVEPOINT " + tx.db.GetCore().QuoteWord(point))
return err
}
// RollbackTo performs `ROLLBACK TO SAVEPOINT xxx` SQL statement that rollbacks to specified saved transaction.
// The parameter `point` specifies the point name that was saved previously.
func (tx *TX) RollbackTo(point string) error {
_, err := tx.Exec("ROLLBACK TO SAVEPOINT " + tx.db.GetCore().QuoteWord(point))
return err
}
// Transaction wraps the transaction logic using function `f`.
// It rollbacks the transaction and returns the error from function `f` if
// it returns non-nil error. It commits the transaction and returns nil if
// function `f` returns nil.
//
// Note that, you should not Commit or Rollback the transaction in function `f`
// as it is automatically handled by this function.
func (tx *TX) Transaction(ctx context.Context, f func(ctx context.Context, tx *TX) error) (err error) {
if ctx != nil {
tx.ctx = ctx
}
// Check transaction object from context.
if TXFromCtx(tx.ctx, tx.db.GetGroup()) == nil {
// Inject transaction object into context.
tx.ctx = WithTX(tx.ctx, tx)
}
err = tx.Begin()
if err != nil {
return err
}
defer func() {
if err == nil {
if exception := recover(); exception != nil {
if v, ok := exception.(error); ok && gerror.HasStack(v) {
err = v
} else {
err = gerror.Newf("%+v", exception)
}
}
}
if err != nil {
if e := tx.Rollback(); e != nil {
err = e
}
} else {
if e := tx.Commit(); e != nil {
err = e
}
}
}()
err = f(tx.ctx, tx)
return
}
// Query does query operation on transaction.
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// See Core.Query.
func (tx *TX) Query(sql string, args ...interface{}) (result Result, err error) {
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return tx.db.DoQuery(tx.ctx, &txLink{tx.tx}, sql, args...)
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}
// Exec does none query operation on transaction.
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// See Core.Exec.
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func (tx *TX) Exec(sql string, args ...interface{}) (sql.Result, error) {
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return tx.db.DoExec(tx.ctx, &txLink{tx.tx}, sql, args...)
}
// Prepare creates a prepared statement for later queries or executions.
// Multiple queries or executions may be run concurrently from the
// returned statement.
// The caller must call the statement's Close method
// when the statement is no longer needed.
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func (tx *TX) Prepare(sql string) (*Stmt, error) {
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return tx.db.DoPrepare(tx.ctx, &txLink{tx.tx}, sql)
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}
// GetAll queries and returns data records from database.
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func (tx *TX) GetAll(sql string, args ...interface{}) (Result, error) {
return tx.Query(sql, args...)
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}
// GetOne queries and returns one record from database.
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func (tx *TX) GetOne(sql string, args ...interface{}) (Record, error) {
list, err := tx.GetAll(sql, args...)
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if err != nil {
return nil, err
}
if len(list) > 0 {
return list[0], nil
}
return nil, nil
}
// GetStruct queries one record from database and converts it to given struct.
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// The parameter `pointer` should be a pointer to struct.
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func (tx *TX) GetStruct(obj interface{}, sql string, args ...interface{}) error {
one, err := tx.GetOne(sql, args...)
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if err != nil {
return err
}
return one.Struct(obj)
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}
// GetStructs queries records from database and converts them to given struct.
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// The parameter `pointer` should be type of struct slice: []struct/[]*struct.
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func (tx *TX) GetStructs(objPointerSlice interface{}, sql string, args ...interface{}) error {
all, err := tx.GetAll(sql, args...)
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if err != nil {
return err
}
return all.Structs(objPointerSlice)
}
// GetScan queries one or more records from database and converts them to given struct or
// struct array.
//
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// If parameter `pointer` is type of struct pointer, it calls GetStruct internally for
// the conversion. If parameter `pointer` is type of slice, it calls GetStructs internally
// for conversion.
func (tx *TX) GetScan(pointer interface{}, sql string, args ...interface{}) error {
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reflectInfo := reflection.OriginTypeAndKind(pointer)
if reflectInfo.InputKind != reflect.Ptr {
return gerror.NewCodef(
gcode.CodeInvalidParameter,
"params should be type of pointer, but got: %v",
reflectInfo.InputKind,
)
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}
switch reflectInfo.OriginKind {
case reflect.Array, reflect.Slice:
return tx.GetStructs(pointer, sql, args...)
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case reflect.Struct:
return tx.GetStruct(pointer, sql, args...)
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}
return gerror.NewCodef(
gcode.CodeInvalidParameter,
`in valid parameter type "%v", of which element type should be type of struct/slice`,
reflectInfo.InputType,
)
}
// GetValue queries and returns the field value from database.
// The sql should query only one field from database, or else it returns only one
// field of the result.
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func (tx *TX) GetValue(sql string, args ...interface{}) (Value, error) {
one, err := tx.GetOne(sql, args...)
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if err != nil {
return nil, err
}
for _, v := range one {
return v, nil
}
return nil, nil
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}
// GetCount queries and returns the count from database.
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func (tx *TX) GetCount(sql string, args ...interface{}) (int, error) {
if !gregex.IsMatchString(`(?i)SELECT\s+COUNT\(.+\)\s+FROM`, sql) {
sql, _ = gregex.ReplaceString(`(?i)(SELECT)\s+(.+)\s+(FROM)`, `$1 COUNT($2) $3`, sql)
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}
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value, err := tx.GetValue(sql, args...)
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if err != nil {
return 0, err
}
return value.Int(), nil
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}
// Insert does "INSERT INTO ..." statement for the table.
// If there's already one unique record of the data in the table, it returns error.
//
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// The parameter `data` can be type of map/gmap/struct/*struct/[]map/[]struct, etc.
// Eg:
// Data(g.Map{"uid": 10000, "name":"john"})
// Data(g.Slice{g.Map{"uid": 10000, "name":"john"}, g.Map{"uid": 20000, "name":"smith"})
//
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// The parameter `batch` specifies the batch operation count when given data is slice.
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func (tx *TX) Insert(table string, data interface{}, batch ...int) (sql.Result, error) {
if len(batch) > 0 {
return tx.Model(table).Ctx(tx.ctx).Data(data).Batch(batch[0]).Insert()
}
return tx.Model(table).Ctx(tx.ctx).Data(data).Insert()
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}
// InsertIgnore does "INSERT IGNORE INTO ..." statement for the table.
// If there's already one unique record of the data in the table, it ignores the inserting.
//
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// The parameter `data` can be type of map/gmap/struct/*struct/[]map/[]struct, etc.
// Eg:
// Data(g.Map{"uid": 10000, "name":"john"})
// Data(g.Slice{g.Map{"uid": 10000, "name":"john"}, g.Map{"uid": 20000, "name":"smith"})
//
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// The parameter `batch` specifies the batch operation count when given data is slice.
func (tx *TX) InsertIgnore(table string, data interface{}, batch ...int) (sql.Result, error) {
if len(batch) > 0 {
return tx.Model(table).Ctx(tx.ctx).Data(data).Batch(batch[0]).InsertIgnore()
}
return tx.Model(table).Ctx(tx.ctx).Data(data).InsertIgnore()
}
// InsertAndGetId performs action Insert and returns the last insert id that automatically generated.
func (tx *TX) InsertAndGetId(table string, data interface{}, batch ...int) (int64, error) {
if len(batch) > 0 {
return tx.Model(table).Ctx(tx.ctx).Data(data).Batch(batch[0]).InsertAndGetId()
}
return tx.Model(table).Ctx(tx.ctx).Data(data).InsertAndGetId()
}
// Replace does "REPLACE INTO ..." statement for the table.
// If there's already one unique record of the data in the table, it deletes the record
// and inserts a new one.
//
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// The parameter `data` can be type of map/gmap/struct/*struct/[]map/[]struct, etc.
// Eg:
// Data(g.Map{"uid": 10000, "name":"john"})
// Data(g.Slice{g.Map{"uid": 10000, "name":"john"}, g.Map{"uid": 20000, "name":"smith"})
//
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// The parameter `data` can be type of map/gmap/struct/*struct/[]map/[]struct, etc.
// If given data is type of slice, it then does batch replacing, and the optional parameter
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// `batch` specifies the batch operation count.
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func (tx *TX) Replace(table string, data interface{}, batch ...int) (sql.Result, error) {
if len(batch) > 0 {
return tx.Model(table).Ctx(tx.ctx).Data(data).Batch(batch[0]).Replace()
}
return tx.Model(table).Ctx(tx.ctx).Data(data).Replace()
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}
// Save does "INSERT INTO ... ON DUPLICATE KEY UPDATE..." statement for the table.
// It updates the record if there's primary or unique index in the saving data,
// or else it inserts a new record into the table.
//
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// The parameter `data` can be type of map/gmap/struct/*struct/[]map/[]struct, etc.
// Eg:
// Data(g.Map{"uid": 10000, "name":"john"})
// Data(g.Slice{g.Map{"uid": 10000, "name":"john"}, g.Map{"uid": 20000, "name":"smith"})
//
// If given data is type of slice, it then does batch saving, and the optional parameter
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// `batch` specifies the batch operation count.
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func (tx *TX) Save(table string, data interface{}, batch ...int) (sql.Result, error) {
if len(batch) > 0 {
return tx.Model(table).Ctx(tx.ctx).Data(data).Batch(batch[0]).Save()
}
return tx.Model(table).Ctx(tx.ctx).Data(data).Save()
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}
// Update does "UPDATE ... " statement for the table.
//
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// The parameter `data` can be type of string/map/gmap/struct/*struct, etc.
// Eg: "uid=10000", "uid", 10000, g.Map{"uid": 10000, "name":"john"}
//
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// The parameter `condition` can be type of string/map/gmap/slice/struct/*struct, etc.
// It is commonly used with parameter `args`.
// Eg:
// "uid=10000",
// "uid", 10000
// "money>? AND name like ?", 99999, "vip_%"
// "status IN (?)", g.Slice{1,2,3}
// "age IN(?,?)", 18, 50
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// User{ Id : 1, UserName : "john"}.
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func (tx *TX) Update(table string, data interface{}, condition interface{}, args ...interface{}) (sql.Result, error) {
return tx.Model(table).Ctx(tx.ctx).Data(data).Where(condition, args...).Update()
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}
// Delete does "DELETE FROM ... " statement for the table.
//
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// The parameter `condition` can be type of string/map/gmap/slice/struct/*struct, etc.
// It is commonly used with parameter `args`.
// Eg:
// "uid=10000",
// "uid", 10000
// "money>? AND name like ?", 99999, "vip_%"
// "status IN (?)", g.Slice{1,2,3}
// "age IN(?,?)", 18, 50
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// User{ Id : 1, UserName : "john"}.
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func (tx *TX) Delete(table string, condition interface{}, args ...interface{}) (sql.Result, error) {
return tx.Model(table).Ctx(tx.ctx).Where(condition, args...).Delete()
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}