gorm/statement.go

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package gorm
import (
"context"
"database/sql"
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"database/sql/driver"
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"fmt"
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"reflect"
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"sort"
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"strconv"
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"strings"
"sync"
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"gorm.io/gorm/clause"
"gorm.io/gorm/logger"
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"gorm.io/gorm/schema"
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"gorm.io/gorm/utils"
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)
// Statement statement
type Statement struct {
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*DB
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TableExpr *clause.Expr
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Table string
Model interface{}
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Unscoped bool
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Dest interface{}
ReflectValue reflect.Value
Clauses map[string]clause.Clause
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Distinct bool
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Selects []string // selected columns
Omits []string // omit columns
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Joins []join
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Preloads map[string][]interface{}
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Settings sync.Map
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ConnPool ConnPool
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Schema *schema.Schema
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Context context.Context
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RaiseErrorOnNotFound bool
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SkipHooks bool
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SQL strings.Builder
Vars []interface{}
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CurDestIndex int
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attrs []interface{}
assigns []interface{}
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scopes []func(*DB) *DB
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}
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type join struct {
Name string
Conds []interface{}
}
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// StatementModifier statement modifier interface
type StatementModifier interface {
ModifyStatement(*Statement)
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}
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// Write write string
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func (stmt *Statement) WriteString(str string) (int, error) {
return stmt.SQL.WriteString(str)
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}
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// Write write string
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func (stmt *Statement) WriteByte(c byte) error {
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return stmt.SQL.WriteByte(c)
}
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// WriteQuoted write quoted value
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func (stmt *Statement) WriteQuoted(value interface{}) {
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stmt.QuoteTo(&stmt.SQL, value)
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}
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// QuoteTo write quoted value to writer
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func (stmt *Statement) QuoteTo(writer clause.Writer, field interface{}) {
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switch v := field.(type) {
case clause.Table:
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if v.Name == clause.CurrentTable {
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if stmt.TableExpr != nil {
stmt.TableExpr.Build(stmt)
} else {
stmt.DB.Dialector.QuoteTo(writer, stmt.Table)
}
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} else if v.Raw {
writer.WriteString(v.Name)
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} else {
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stmt.DB.Dialector.QuoteTo(writer, v.Name)
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}
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if v.Alias != "" {
writer.WriteByte(' ')
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stmt.DB.Dialector.QuoteTo(writer, v.Alias)
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}
case clause.Column:
if v.Table != "" {
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if v.Table == clause.CurrentTable {
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stmt.DB.Dialector.QuoteTo(writer, stmt.Table)
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} else {
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stmt.DB.Dialector.QuoteTo(writer, v.Table)
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}
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writer.WriteByte('.')
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}
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if v.Name == clause.PrimaryKey {
if stmt.Schema == nil {
stmt.DB.AddError(ErrModelValueRequired)
} else if stmt.Schema.PrioritizedPrimaryField != nil {
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stmt.DB.Dialector.QuoteTo(writer, stmt.Schema.PrioritizedPrimaryField.DBName)
} else if len(stmt.Schema.DBNames) > 0 {
stmt.DB.Dialector.QuoteTo(writer, stmt.Schema.DBNames[0])
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}
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} else if v.Raw {
writer.WriteString(v.Name)
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} else {
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stmt.DB.Dialector.QuoteTo(writer, v.Name)
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}
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if v.Alias != "" {
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writer.WriteString(" AS ")
stmt.DB.Dialector.QuoteTo(writer, v.Alias)
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}
case []clause.Column:
writer.WriteByte('(')
for idx, d := range v {
if idx > 0 {
writer.WriteString(",")
}
stmt.QuoteTo(writer, d)
}
writer.WriteByte(')')
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case string:
stmt.DB.Dialector.QuoteTo(writer, v)
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case []string:
writer.WriteByte('(')
for idx, d := range v {
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if idx > 0 {
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writer.WriteString(",")
}
stmt.DB.Dialector.QuoteTo(writer, d)
}
writer.WriteByte(')')
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default:
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stmt.DB.Dialector.QuoteTo(writer, fmt.Sprint(field))
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}
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}
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// Quote returns quoted value
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func (stmt *Statement) Quote(field interface{}) string {
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var builder strings.Builder
stmt.QuoteTo(&builder, field)
return builder.String()
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}
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// Write write string
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func (stmt *Statement) AddVar(writer clause.Writer, vars ...interface{}) {
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for idx, v := range vars {
if idx > 0 {
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writer.WriteByte(',')
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}
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switch v := v.(type) {
case sql.NamedArg:
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stmt.Vars = append(stmt.Vars, v.Value)
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case clause.Column, clause.Table:
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stmt.QuoteTo(writer, v)
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case Valuer:
stmt.AddVar(writer, v.GormValue(stmt.Context, stmt.DB))
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case clause.Expr:
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v.Build(stmt)
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case driver.Valuer:
stmt.Vars = append(stmt.Vars, v)
stmt.DB.Dialector.BindVarTo(writer, stmt, v)
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case []byte:
stmt.Vars = append(stmt.Vars, v)
stmt.DB.Dialector.BindVarTo(writer, stmt, v)
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case []interface{}:
if len(v) > 0 {
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writer.WriteByte('(')
stmt.AddVar(writer, v...)
writer.WriteByte(')')
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} else {
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writer.WriteString("(NULL)")
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}
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case *DB:
subdb := v.Session(&Session{Logger: logger.Discard, DryRun: true}).getInstance()
if v.Statement.SQL.Len() > 0 {
var (
vars = subdb.Statement.Vars
sql = v.Statement.SQL.String()
)
subdb.Statement.Vars = make([]interface{}, 0, len(vars))
for _, vv := range vars {
subdb.Statement.Vars = append(subdb.Statement.Vars, vv)
bindvar := strings.Builder{}
v.Dialector.BindVarTo(&bindvar, subdb.Statement, vv)
sql = strings.Replace(sql, bindvar.String(), "?", 1)
}
subdb.Statement.SQL.Reset()
subdb.Statement.Vars = stmt.Vars
if strings.Contains(sql, "@") {
clause.NamedExpr{SQL: sql, Vars: vars}.Build(subdb.Statement)
} else {
clause.Expr{SQL: sql, Vars: vars}.Build(subdb.Statement)
}
} else {
subdb.Statement.Vars = append(stmt.Vars, subdb.Statement.Vars...)
subdb.callbacks.Query().Execute(subdb)
}
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writer.WriteString(subdb.Statement.SQL.String())
stmt.Vars = subdb.Statement.Vars
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default:
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switch rv := reflect.ValueOf(v); rv.Kind() {
case reflect.Slice, reflect.Array:
if rv.Len() == 0 {
writer.WriteString("(NULL)")
} else {
writer.WriteByte('(')
for i := 0; i < rv.Len(); i++ {
if i > 0 {
writer.WriteByte(',')
}
stmt.AddVar(writer, rv.Index(i).Interface())
}
writer.WriteByte(')')
}
default:
stmt.Vars = append(stmt.Vars, v)
stmt.DB.Dialector.BindVarTo(writer, stmt, v)
}
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}
}
}
// AddClause add clause
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func (stmt *Statement) AddClause(v clause.Interface) {
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if optimizer, ok := v.(StatementModifier); ok {
optimizer.ModifyStatement(stmt)
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} else {
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name := v.Name()
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c := stmt.Clauses[name]
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c.Name = name
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v.MergeClause(&c)
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stmt.Clauses[name] = c
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}
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}
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// AddClauseIfNotExists add clause if not exists
func (stmt *Statement) AddClauseIfNotExists(v clause.Interface) {
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if c, ok := stmt.Clauses[v.Name()]; !ok || c.Expression == nil {
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stmt.AddClause(v)
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}
}
// BuildCondition build condition
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func (stmt *Statement) BuildCondition(query interface{}, args ...interface{}) []clause.Expression {
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if s, ok := query.(string); ok {
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// if it is a number, then treats it as primary key
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if _, err := strconv.Atoi(s); err != nil {
if s == "" && len(args) == 0 {
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return nil
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} else if len(args) == 0 || (len(args) > 0 && strings.Contains(s, "?")) {
// looks like a where condition
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return []clause.Expression{clause.Expr{SQL: s, Vars: args}}
} else if len(args) > 0 && strings.Contains(s, "@") {
// looks like a named query
return []clause.Expression{clause.NamedExpr{SQL: s, Vars: args}}
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} else if len(args) == 1 {
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return []clause.Expression{clause.Eq{Column: s, Value: args[0]}}
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}
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}
}
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conds := make([]clause.Expression, 0, 4)
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args = append([]interface{}{query}, args...)
for idx, arg := range args {
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if valuer, ok := arg.(driver.Valuer); ok {
arg, _ = valuer.Value()
}
switch v := arg.(type) {
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case clause.Expression:
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conds = append(conds, v)
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case *DB:
if cs, ok := v.Statement.Clauses["WHERE"]; ok {
if where, ok := cs.Expression.(clause.Where); ok {
if len(where.Exprs) == 1 {
if orConds, ok := where.Exprs[0].(clause.OrConditions); ok {
where.Exprs[0] = clause.AndConditions(orConds)
}
}
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conds = append(conds, clause.And(where.Exprs...))
} else if cs.Expression != nil {
conds = append(conds, cs.Expression)
}
}
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case map[interface{}]interface{}:
for i, j := range v {
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conds = append(conds, clause.Eq{Column: i, Value: j})
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}
case map[string]string:
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var keys = make([]string, 0, len(v))
for i := range v {
keys = append(keys, i)
}
sort.Strings(keys)
for _, key := range keys {
conds = append(conds, clause.Eq{Column: key, Value: v[key]})
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}
case map[string]interface{}:
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var keys = make([]string, 0, len(v))
for i := range v {
keys = append(keys, i)
}
sort.Strings(keys)
for _, key := range keys {
reflectValue := reflect.Indirect(reflect.ValueOf(v[key]))
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switch reflectValue.Kind() {
case reflect.Slice, reflect.Array:
if _, ok := v[key].(driver.Valuer); ok {
conds = append(conds, clause.Eq{Column: key, Value: v[key]})
} else if _, ok := v[key].(Valuer); ok {
conds = append(conds, clause.Eq{Column: key, Value: v[key]})
} else {
values := make([]interface{}, reflectValue.Len())
for i := 0; i < reflectValue.Len(); i++ {
values[i] = reflectValue.Index(i).Interface()
}
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conds = append(conds, clause.IN{Column: key, Values: values})
}
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default:
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conds = append(conds, clause.Eq{Column: key, Value: v[key]})
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}
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}
default:
reflectValue := reflect.Indirect(reflect.ValueOf(arg))
for reflectValue.Kind() == reflect.Ptr {
reflectValue = reflectValue.Elem()
}
if s, err := schema.Parse(arg, stmt.DB.cacheStore, stmt.DB.NamingStrategy); err == nil {
selectedColumns := map[string]bool{}
if idx == 0 {
for _, v := range args[1:] {
if vs, ok := v.(string); ok {
selectedColumns[vs] = true
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}
}
}
restricted := len(selectedColumns) != 0
switch reflectValue.Kind() {
case reflect.Struct:
for _, field := range s.Fields {
selected := selectedColumns[field.DBName] || selectedColumns[field.Name]
if selected || (!restricted && field.Readable) {
if v, isZero := field.ValueOf(reflectValue); !isZero || selected {
if field.DBName != "" {
conds = append(conds, clause.Eq{Column: clause.Column{Table: clause.CurrentTable, Name: field.DBName}, Value: v})
} else if field.DataType != "" {
conds = append(conds, clause.Eq{Column: clause.Column{Table: clause.CurrentTable, Name: field.Name}, Value: v})
}
}
}
}
case reflect.Slice, reflect.Array:
for i := 0; i < reflectValue.Len(); i++ {
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for _, field := range s.Fields {
selected := selectedColumns[field.DBName] || selectedColumns[field.Name]
if selected || (!restricted && field.Readable) {
if v, isZero := field.ValueOf(reflectValue.Index(i)); !isZero || selected {
if field.DBName != "" {
conds = append(conds, clause.Eq{Column: clause.Column{Table: clause.CurrentTable, Name: field.DBName}, Value: v})
} else if field.DataType != "" {
conds = append(conds, clause.Eq{Column: clause.Column{Table: clause.CurrentTable, Name: field.Name}, Value: v})
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}
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}
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}
}
}
}
if restricted {
break
}
} else if !reflectValue.IsValid() {
stmt.AddError(ErrInvalidData)
} else if len(conds) == 0 {
if len(args) == 1 {
switch reflectValue.Kind() {
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case reflect.Slice, reflect.Array:
values := make([]interface{}, reflectValue.Len())
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for i := 0; i < reflectValue.Len(); i++ {
values[i] = reflectValue.Index(i).Interface()
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}
if len(values) > 0 {
conds = append(conds, clause.IN{Column: clause.PrimaryColumn, Values: values})
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}
return conds
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}
}
conds = append(conds, clause.IN{Column: clause.PrimaryColumn, Values: args})
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}
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}
}
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return conds
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}
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// Build build sql with clauses names
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func (stmt *Statement) Build(clauses ...string) {
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var firstClauseWritten bool
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for _, name := range clauses {
if c, ok := stmt.Clauses[name]; ok {
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if firstClauseWritten {
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stmt.WriteByte(' ')
}
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firstClauseWritten = true
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if b, ok := stmt.DB.ClauseBuilders[name]; ok {
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b(c, stmt)
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} else {
c.Build(stmt)
}
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}
}
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}
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func (stmt *Statement) Parse(value interface{}) (err error) {
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if stmt.Schema, err = schema.Parse(value, stmt.DB.cacheStore, stmt.DB.NamingStrategy); err == nil && stmt.Table == "" {
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if tables := strings.Split(stmt.Schema.Table, "."); len(tables) == 2 {
stmt.TableExpr = &clause.Expr{SQL: stmt.Quote(stmt.Schema.Table)}
stmt.Table = tables[1]
return
}
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stmt.Table = stmt.Schema.Table
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}
return err
}
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func (stmt *Statement) clone() *Statement {
newStmt := &Statement{
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TableExpr: stmt.TableExpr,
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Table: stmt.Table,
Model: stmt.Model,
Unscoped: stmt.Unscoped,
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Dest: stmt.Dest,
ReflectValue: stmt.ReflectValue,
Clauses: map[string]clause.Clause{},
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Distinct: stmt.Distinct,
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Selects: stmt.Selects,
Omits: stmt.Omits,
Preloads: map[string][]interface{}{},
ConnPool: stmt.ConnPool,
Schema: stmt.Schema,
Context: stmt.Context,
RaiseErrorOnNotFound: stmt.RaiseErrorOnNotFound,
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SkipHooks: stmt.SkipHooks,
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}
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if stmt.SQL.Len() > 0 {
newStmt.SQL.WriteString(stmt.SQL.String())
newStmt.Vars = make([]interface{}, 0, len(stmt.Vars))
newStmt.Vars = append(newStmt.Vars, stmt.Vars...)
}
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for k, c := range stmt.Clauses {
newStmt.Clauses[k] = c
}
for k, p := range stmt.Preloads {
newStmt.Preloads[k] = p
}
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if len(stmt.Joins) > 0 {
newStmt.Joins = make([]join, len(stmt.Joins))
copy(newStmt.Joins, stmt.Joins)
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}
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if len(stmt.scopes) > 0 {
newStmt.scopes = make([]func(*DB) *DB, len(stmt.scopes))
copy(newStmt.scopes, stmt.scopes)
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}
stmt.Settings.Range(func(k, v interface{}) bool {
newStmt.Settings.Store(k, v)
return true
})
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return newStmt
}
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// Helpers
// SetColumn set column's value
// stmt.SetColumn("Name", "jinzhu") // Hooks Method
// stmt.SetColumn("Name", "jinzhu", true) // Callbacks Method
func (stmt *Statement) SetColumn(name string, value interface{}, fromCallbacks ...bool) {
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if v, ok := stmt.Dest.(map[string]interface{}); ok {
v[name] = value
} else if v, ok := stmt.Dest.([]map[string]interface{}); ok {
for _, m := range v {
m[name] = value
}
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} else if stmt.Schema != nil {
if field := stmt.Schema.LookUpField(name); field != nil {
destValue := reflect.ValueOf(stmt.Dest)
for destValue.Kind() == reflect.Ptr {
destValue = destValue.Elem()
}
if stmt.ReflectValue != destValue {
if !destValue.CanAddr() {
destValueCanAddr := reflect.New(destValue.Type())
destValueCanAddr.Elem().Set(destValue)
stmt.Dest = destValueCanAddr.Interface()
destValue = destValueCanAddr.Elem()
}
switch destValue.Kind() {
case reflect.Struct:
field.Set(destValue, value)
default:
stmt.AddError(ErrInvalidData)
}
}
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switch stmt.ReflectValue.Kind() {
case reflect.Slice, reflect.Array:
if len(fromCallbacks) > 0 {
for i := 0; i < stmt.ReflectValue.Len(); i++ {
field.Set(stmt.ReflectValue.Index(i), value)
}
} else {
field.Set(stmt.ReflectValue.Index(stmt.CurDestIndex), value)
}
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case reflect.Struct:
field.Set(stmt.ReflectValue, value)
}
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} else {
stmt.AddError(ErrInvalidField)
}
} else {
stmt.AddError(ErrInvalidField)
}
}
// Changed check model changed or not when updating
func (stmt *Statement) Changed(fields ...string) bool {
modelValue := stmt.ReflectValue
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switch modelValue.Kind() {
case reflect.Slice, reflect.Array:
modelValue = stmt.ReflectValue.Index(stmt.CurDestIndex)
}
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selectColumns, restricted := stmt.SelectAndOmitColumns(false, true)
changed := func(field *schema.Field) bool {
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fieldValue, _ := field.ValueOf(modelValue)
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if v, ok := selectColumns[field.DBName]; (ok && v) || (!ok && !restricted) {
if v, ok := stmt.Dest.(map[string]interface{}); ok {
if fv, ok := v[field.Name]; ok {
return !utils.AssertEqual(fv, fieldValue)
} else if fv, ok := v[field.DBName]; ok {
return !utils.AssertEqual(fv, fieldValue)
}
} else {
destValue := reflect.ValueOf(stmt.Dest)
for destValue.Kind() == reflect.Ptr {
destValue = destValue.Elem()
}
changedValue, zero := field.ValueOf(destValue)
return !zero && !utils.AssertEqual(changedValue, fieldValue)
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}
}
return false
}
if len(fields) == 0 {
for _, field := range stmt.Schema.FieldsByDBName {
if changed(field) {
return true
}
}
} else {
for _, name := range fields {
if field := stmt.Schema.LookUpField(name); field != nil {
if changed(field) {
return true
}
}
}
}
return false
}
// SelectAndOmitColumns get select and omit columns, select -> true, omit -> false
func (stmt *Statement) SelectAndOmitColumns(requireCreate, requireUpdate bool) (map[string]bool, bool) {
results := map[string]bool{}
notRestricted := false
// select columns
for _, column := range stmt.Selects {
if stmt.Schema == nil {
results[column] = true
} else if column == "*" {
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notRestricted = true
for _, dbName := range stmt.Schema.DBNames {
results[dbName] = true
}
} else if column == clause.Associations {
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for _, rel := range stmt.Schema.Relationships.Relations {
results[rel.Name] = true
}
} else if field := stmt.Schema.LookUpField(column); field != nil && field.DBName != "" {
results[field.DBName] = true
} else {
results[column] = true
}
}
// omit columns
for _, omit := range stmt.Omits {
if stmt.Schema == nil {
results[omit] = false
} else if omit == clause.Associations {
for _, rel := range stmt.Schema.Relationships.Relations {
results[rel.Name] = false
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}
} else if field := stmt.Schema.LookUpField(omit); field != nil && field.DBName != "" {
results[field.DBName] = false
} else {
results[omit] = false
}
}
if stmt.Schema != nil {
for _, field := range stmt.Schema.FieldsByName {
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name := field.DBName
if name == "" {
name = field.Name
}
if requireCreate && !field.Creatable {
results[name] = false
} else if requireUpdate && !field.Updatable {
results[name] = false
}
}
}
return results, !notRestricted && len(stmt.Selects) > 0
}