package callbacks import ( "fmt" "reflect" "sort" "strings" "gorm.io/gorm" "gorm.io/gorm/clause" "gorm.io/gorm/schema" "gorm.io/gorm/utils" ) func Query(db *gorm.DB) { if db.Error == nil { BuildQuerySQL(db) if !db.DryRun && db.Error == nil { rows, err := db.Statement.ConnPool.QueryContext(db.Statement.Context, db.Statement.SQL.String(), db.Statement.Vars...) if err != nil { db.AddError(err) return } defer func() { db.AddError(rows.Close()) }() gorm.Scan(rows, db, 0) } } } func BuildQuerySQL(db *gorm.DB) { if db.Statement.Schema != nil { for _, c := range db.Statement.Schema.QueryClauses { db.Statement.AddClause(c) } } if db.Statement.SQL.Len() == 0 { db.Statement.SQL.Grow(100) clauseSelect := clause.Select{Distinct: db.Statement.Distinct} if db.Statement.ReflectValue.Kind() == reflect.Struct && db.Statement.ReflectValue.Type() == db.Statement.Schema.ModelType { var conds []clause.Expression for _, primaryField := range db.Statement.Schema.PrimaryFields { if v, isZero := primaryField.ValueOf(db.Statement.Context, db.Statement.ReflectValue); !isZero { conds = append(conds, clause.Eq{Column: clause.Column{Table: db.Statement.Table, Name: primaryField.DBName}, Value: v}) } } if len(conds) > 0 { db.Statement.AddClause(clause.Where{Exprs: conds}) } } if len(db.Statement.Selects) > 0 { clauseSelect.Columns = make([]clause.Column, len(db.Statement.Selects)) for idx, name := range db.Statement.Selects { if db.Statement.Schema == nil { clauseSelect.Columns[idx] = clause.Column{Name: name, Raw: true} } else if f := db.Statement.Schema.LookUpField(name); f != nil { clauseSelect.Columns[idx] = clause.Column{Name: f.DBName} } else { clauseSelect.Columns[idx] = clause.Column{Name: name, Raw: true} } } } else if db.Statement.Schema != nil && len(db.Statement.Omits) > 0 { selectColumns, _ := db.Statement.SelectAndOmitColumns(false, false) clauseSelect.Columns = make([]clause.Column, 0, len(db.Statement.Schema.DBNames)) for _, dbName := range db.Statement.Schema.DBNames { if v, ok := selectColumns[dbName]; (ok && v) || !ok { clauseSelect.Columns = append(clauseSelect.Columns, clause.Column{Table: db.Statement.Table, Name: dbName}) } } } else if db.Statement.Schema != nil && db.Statement.ReflectValue.IsValid() { queryFields := db.QueryFields if !queryFields { switch db.Statement.ReflectValue.Kind() { case reflect.Struct: queryFields = db.Statement.ReflectValue.Type() != db.Statement.Schema.ModelType case reflect.Slice: queryFields = db.Statement.ReflectValue.Type().Elem() != db.Statement.Schema.ModelType } } if queryFields { stmt := gorm.Statement{DB: db} // smaller struct if err := stmt.Parse(db.Statement.Dest); err == nil && (db.QueryFields || stmt.Schema.ModelType != db.Statement.Schema.ModelType) { clauseSelect.Columns = make([]clause.Column, len(stmt.Schema.DBNames)) for idx, dbName := range stmt.Schema.DBNames { clauseSelect.Columns[idx] = clause.Column{Table: db.Statement.Table, Name: dbName} } } } } // inline joins fromClause := clause.From{} if v, ok := db.Statement.Clauses["FROM"].Expression.(clause.From); ok { fromClause = v } if len(db.Statement.Joins) != 0 || len(fromClause.Joins) != 0 { if len(db.Statement.Selects) == 0 && len(db.Statement.Omits) == 0 && db.Statement.Schema != nil { clauseSelect.Columns = make([]clause.Column, len(db.Statement.Schema.DBNames)) for idx, dbName := range db.Statement.Schema.DBNames { clauseSelect.Columns[idx] = clause.Column{Table: db.Statement.Table, Name: dbName} } } specifiedRelationsName := make(map[string]interface{}) for _, join := range db.Statement.Joins { if db.Statement.Schema != nil { var isRelations bool // is relations or raw sql var relations []*schema.Relationship relation, ok := db.Statement.Schema.Relationships.Relations[join.Name] if ok { isRelations = true relations = append(relations, relation) } else { // handle nested join like "Manager.Company" nestedJoinNames := strings.Split(join.Name, ".") if len(nestedJoinNames) > 1 { isNestedJoin := true gussNestedRelations := make([]*schema.Relationship, 0, len(nestedJoinNames)) currentRelations := db.Statement.Schema.Relationships.Relations for _, relname := range nestedJoinNames { // incomplete match, only treated as raw sql if relation, ok = currentRelations[relname]; ok { gussNestedRelations = append(gussNestedRelations, relation) currentRelations = relation.FieldSchema.Relationships.Relations } else { isNestedJoin = false break } } if isNestedJoin { isRelations = true relations = gussNestedRelations } } } if isRelations { genJoinClause := func(joinType clause.JoinType, parentTableName string, relation *schema.Relationship) clause.Join { tableAliasName := relation.Name if parentTableName != clause.CurrentTable { tableAliasName = utils.NestedRelationName(parentTableName, tableAliasName) } columnStmt := gorm.Statement{ Table: tableAliasName, DB: db, Schema: relation.FieldSchema, Selects: join.Selects, Omits: join.Omits, } selectColumns, restricted := columnStmt.SelectAndOmitColumns(false, false) for _, s := range relation.FieldSchema.DBNames { if v, ok := selectColumns[s]; (ok && v) || (!ok && !restricted) { clauseSelect.Columns = append(clauseSelect.Columns, clause.Column{ Table: tableAliasName, Name: s, Alias: utils.NestedRelationName(tableAliasName, s), }) } } exprs := make([]clause.Expression, len(relation.References)) for idx, ref := range relation.References { if ref.OwnPrimaryKey { exprs[idx] = clause.Eq{ Column: clause.Column{Table: parentTableName, Name: ref.PrimaryKey.DBName}, Value: clause.Column{Table: tableAliasName, Name: ref.ForeignKey.DBName}, } } else { if ref.PrimaryValue == "" { exprs[idx] = clause.Eq{ Column: clause.Column{Table: parentTableName, Name: ref.ForeignKey.DBName}, Value: clause.Column{Table: tableAliasName, Name: ref.PrimaryKey.DBName}, } } else { exprs[idx] = clause.Eq{ Column: clause.Column{Table: tableAliasName, Name: ref.ForeignKey.DBName}, Value: ref.PrimaryValue, } } } } { onStmt := gorm.Statement{Table: tableAliasName, DB: db, Clauses: map[string]clause.Clause{}} for _, c := range relation.FieldSchema.QueryClauses { onStmt.AddClause(c) } if join.On != nil { onStmt.AddClause(join.On) } if cs, ok := onStmt.Clauses["WHERE"]; ok { if where, ok := cs.Expression.(clause.Where); ok { where.Build(&onStmt) if onSQL := onStmt.SQL.String(); onSQL != "" { vars := onStmt.Vars for idx, v := range vars { bindvar := strings.Builder{} onStmt.Vars = vars[0 : idx+1] db.Dialector.BindVarTo(&bindvar, &onStmt, v) onSQL = strings.Replace(onSQL, bindvar.String(), "?", 1) } exprs = append(exprs, clause.Expr{SQL: onSQL, Vars: vars}) } } } } return clause.Join{ Type: joinType, Table: clause.Table{Name: relation.FieldSchema.Table, Alias: tableAliasName}, ON: clause.Where{Exprs: exprs}, } } parentTableName := clause.CurrentTable for _, rel := range relations { // joins table alias like "Manager, Company, Manager__Company" nestedAlias := utils.NestedRelationName(parentTableName, rel.Name) if _, ok := specifiedRelationsName[nestedAlias]; !ok { fromClause.Joins = append(fromClause.Joins, genJoinClause(join.JoinType, parentTableName, rel)) specifiedRelationsName[nestedAlias] = nil } parentTableName = rel.Name } } else { fromClause.Joins = append(fromClause.Joins, clause.Join{ Expression: clause.NamedExpr{SQL: join.Name, Vars: join.Conds}, }) } } else { fromClause.Joins = append(fromClause.Joins, clause.Join{ Expression: clause.NamedExpr{SQL: join.Name, Vars: join.Conds}, }) } } db.Statement.AddClause(fromClause) db.Statement.Joins = nil } else { db.Statement.AddClauseIfNotExists(clause.From{}) } db.Statement.AddClauseIfNotExists(clauseSelect) db.Statement.Build(db.Statement.BuildClauses...) } } func Preload(db *gorm.DB) { if db.Error == nil && len(db.Statement.Preloads) > 0 { if db.Statement.Schema == nil { db.AddError(fmt.Errorf("%w when using preload", gorm.ErrModelValueRequired)) return } preloadMap := parsePreloadMap(db.Statement.Schema, db.Statement.Preloads) preloadNames := make([]string, 0, len(preloadMap)) for key := range preloadMap { preloadNames = append(preloadNames, key) } sort.Strings(preloadNames) preloadDB := db.Session(&gorm.Session{Context: db.Statement.Context, NewDB: true, SkipHooks: db.Statement.SkipHooks, Initialized: true}) db.Statement.Settings.Range(func(k, v interface{}) bool { preloadDB.Statement.Settings.Store(k, v) return true }) if err := preloadDB.Statement.Parse(db.Statement.Dest); err != nil { return } preloadDB.Statement.ReflectValue = db.Statement.ReflectValue preloadDB.Statement.Unscoped = db.Statement.Unscoped for _, name := range preloadNames { if relations := preloadDB.Statement.Schema.Relationships.EmbeddedRelations[name]; relations != nil { db.AddError(preloadEmbedded(preloadDB.Table("").Session(&gorm.Session{Context: db.Statement.Context, SkipHooks: db.Statement.SkipHooks}), relations, db.Statement.Schema, preloadMap[name], db.Statement.Preloads[clause.Associations])) } else if rel := preloadDB.Statement.Schema.Relationships.Relations[name]; rel != nil { db.AddError(preload(preloadDB.Table("").Session(&gorm.Session{Context: db.Statement.Context, SkipHooks: db.Statement.SkipHooks}), rel, append(db.Statement.Preloads[name], db.Statement.Preloads[clause.Associations]...), preloadMap[name])) } else { db.AddError(fmt.Errorf("%s: %w for schema %s", name, gorm.ErrUnsupportedRelation, db.Statement.Schema.Name)) } } } } func AfterQuery(db *gorm.DB) { if db.Error == nil && db.Statement.Schema != nil && !db.Statement.SkipHooks && db.Statement.Schema.AfterFind && db.RowsAffected > 0 { callMethod(db, func(value interface{}, tx *gorm.DB) bool { if i, ok := value.(AfterFindInterface); ok { db.AddError(i.AfterFind(tx)) return true } return false }) } }