gitea/vendor/xorm.io/builder/builder.go

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// Copyright 2016 The Xorm Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
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package builder
import (
sql2 "database/sql"
"fmt"
)
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type optype byte
const (
condType optype = iota // only conditions
selectType // select
insertType // insert
updateType // update
deleteType // delete
unionType // union
)
// all databasees
const (
POSTGRES = "postgres"
SQLITE = "sqlite3"
MYSQL = "mysql"
MSSQL = "mssql"
ORACLE = "oracle"
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)
type join struct {
joinType string
joinTable interface{}
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joinCond Cond
}
type union struct {
unionType string
builder *Builder
}
type limit struct {
limitN int
offset int
}
// Builder describes a SQL statement
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type Builder struct {
optype
dialect string
isNested bool
into string
from string
subQuery *Builder
cond Cond
selects []string
joins []join
unions []union
limitation *limit
insertCols []string
insertVals []interface{}
updates []UpdateCond
orderBy string
groupBy string
having string
}
// Dialect sets the db dialect of Builder.
func Dialect(dialect string) *Builder {
builder := &Builder{cond: NewCond(), dialect: dialect}
return builder
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}
// MySQL is shortcut of Dialect(MySQL)
func MySQL() *Builder {
return Dialect(MYSQL)
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}
// MsSQL is shortcut of Dialect(MsSQL)
func MsSQL() *Builder {
return Dialect(MSSQL)
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}
// Oracle is shortcut of Dialect(Oracle)
func Oracle() *Builder {
return Dialect(ORACLE)
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}
// Postgres is shortcut of Dialect(Postgres)
func Postgres() *Builder {
return Dialect(POSTGRES)
}
// SQLite is shortcut of Dialect(SQLITE)
func SQLite() *Builder {
return Dialect(SQLITE)
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}
// Where sets where SQL
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func (b *Builder) Where(cond Cond) *Builder {
if b.cond.IsValid() {
b.cond = b.cond.And(cond)
} else {
b.cond = cond
}
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return b
}
// From sets from subject(can be a table name in string or a builder pointer) and its alias
func (b *Builder) From(subject interface{}, alias ...string) *Builder {
switch subject.(type) {
case *Builder:
b.subQuery = subject.(*Builder)
if len(alias) > 0 {
b.from = alias[0]
} else {
b.isNested = true
}
case string:
b.from = subject.(string)
if len(alias) > 0 {
b.from = b.from + " " + alias[0]
}
}
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return b
}
// TableName returns the table name
func (b *Builder) TableName() string {
if b.optype == insertType {
return b.into
}
return b.from
}
// Into sets insert table name
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func (b *Builder) Into(tableName string) *Builder {
b.into = tableName
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return b
}
// Union sets union conditions
func (b *Builder) Union(unionTp string, unionCond *Builder) *Builder {
var builder *Builder
if b.optype != unionType {
builder = &Builder{cond: NewCond()}
builder.optype = unionType
builder.dialect = b.dialect
builder.selects = b.selects
currentUnions := b.unions
// erase sub unions (actually append to new Builder.unions)
b.unions = nil
for e := range currentUnions {
currentUnions[e].builder.dialect = b.dialect
}
builder.unions = append(append(builder.unions, union{"", b}), currentUnions...)
} else {
builder = b
}
if unionCond != nil {
if unionCond.dialect == "" && builder.dialect != "" {
unionCond.dialect = builder.dialect
}
builder.unions = append(builder.unions, union{unionTp, unionCond})
}
return builder
}
// Limit sets limitN condition
func (b *Builder) Limit(limitN int, offset ...int) *Builder {
b.limitation = &limit{limitN: limitN}
if len(offset) > 0 {
b.limitation.offset = offset[0]
}
return b
}
// Select sets select SQL
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func (b *Builder) Select(cols ...string) *Builder {
b.selects = cols
if b.optype == condType {
b.optype = selectType
}
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return b
}
// And sets AND condition
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func (b *Builder) And(cond Cond) *Builder {
b.cond = And(b.cond, cond)
return b
}
// Or sets OR condition
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func (b *Builder) Or(cond Cond) *Builder {
b.cond = Or(b.cond, cond)
return b
}
// Update sets update SQL
func (b *Builder) Update(updates ...Cond) *Builder {
b.updates = make([]UpdateCond, 0, len(updates))
for _, update := range updates {
if u, ok := update.(UpdateCond); ok && u.IsValid() {
b.updates = append(b.updates, u)
}
}
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b.optype = updateType
return b
}
// Delete sets delete SQL
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func (b *Builder) Delete(conds ...Cond) *Builder {
b.cond = b.cond.And(conds...)
b.optype = deleteType
return b
}
// WriteTo implements Writer interface
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func (b *Builder) WriteTo(w Writer) error {
switch b.optype {
/*case condType:
return b.cond.WriteTo(w)*/
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case selectType:
return b.selectWriteTo(w)
case insertType:
return b.insertWriteTo(w)
case updateType:
return b.updateWriteTo(w)
case deleteType:
return b.deleteWriteTo(w)
case unionType:
return b.unionWriteTo(w)
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}
return ErrNotSupportType
}
// ToSQL convert a builder to SQL and args
func (b *Builder) ToSQL() (string, []interface{}, error) {
w := NewWriter()
if err := b.WriteTo(w); err != nil {
return "", nil, err
}
// in case of sql.NamedArg in args
for e := range w.args {
if namedArg, ok := w.args[e].(sql2.NamedArg); ok {
w.args[e] = namedArg.Value
}
}
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var sql = w.String()
var err error
switch b.dialect {
case ORACLE, MSSQL:
// This is for compatibility with different sql drivers
for e := range w.args {
w.args[e] = sql2.Named(fmt.Sprintf("p%d", e+1), w.args[e])
}
var prefix string
if b.dialect == ORACLE {
prefix = ":p"
} else {
prefix = "@p"
}
if sql, err = ConvertPlaceholder(sql, prefix); err != nil {
return "", nil, err
}
case POSTGRES:
if sql, err = ConvertPlaceholder(sql, "$"); err != nil {
return "", nil, err
}
}
return sql, w.args, nil
}
// ToBoundSQL generated a bound SQL string
func (b *Builder) ToBoundSQL() (string, error) {
w := NewWriter()
if err := b.WriteTo(w); err != nil {
return "", err
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}
return ConvertToBoundSQL(w.String(), w.args)
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}