package gorm import ( "context" "database/sql" "database/sql/driver" "fmt" "reflect" "strconv" "strings" "sync" "github.com/jinzhu/gorm/clause" "github.com/jinzhu/gorm/schema" ) // Statement statement type Statement struct { Table string Model interface{} Dest interface{} ReflectValue reflect.Value Clauses map[string]clause.Clause Selects []string // selected columns Omits []string // omit columns Settings sync.Map ConnPool ConnPool DB *DB Schema *schema.Schema Context context.Context Error error RowsAffected int64 RaiseErrorOnNotFound bool // SQL Builder SQL strings.Builder Vars []interface{} NamedVars []sql.NamedArg } // StatementOptimizer statement optimizer interface type StatementOptimizer interface { OptimizeStatement(*Statement) } // Write write string func (stmt *Statement) Write(sql ...string) (err error) { for _, s := range sql { _, err = stmt.SQL.WriteString(s) } return } // Write write string func (stmt *Statement) WriteByte(c byte) (err error) { return stmt.SQL.WriteByte(c) } // WriteQuoted write quoted value func (stmt *Statement) WriteQuoted(value interface{}) error { stmt.QuoteTo(&stmt.SQL, value) return nil } // QuoteTo write quoted value to writer func (stmt Statement) QuoteTo(writer *strings.Builder, field interface{}) { switch v := field.(type) { case clause.Table: if v.Name == clause.CurrentTable { stmt.DB.Dialector.QuoteTo(writer, stmt.Table) } else { stmt.DB.Dialector.QuoteTo(writer, v.Name) } if v.Alias != "" { writer.WriteString(" AS ") stmt.DB.Dialector.QuoteTo(writer, v.Alias) } case clause.Column: if v.Table != "" { if v.Table == clause.CurrentTable { stmt.DB.Dialector.QuoteTo(writer, stmt.Table) } else { stmt.DB.Dialector.QuoteTo(writer, v.Table) } writer.WriteByte('.') } if v.Name == clause.PrimaryKey { if stmt.Schema != nil && stmt.Schema.PrioritizedPrimaryField != nil { stmt.DB.Dialector.QuoteTo(writer, stmt.Schema.PrioritizedPrimaryField.DBName) } } else { stmt.DB.Dialector.QuoteTo(writer, v.Name) } if v.Alias != "" { writer.WriteString(" AS ") stmt.DB.Dialector.QuoteTo(writer, v.Alias) } default: stmt.DB.Dialector.QuoteTo(writer, fmt.Sprint(field)) } } // Quote returns quoted value func (stmt Statement) Quote(field interface{}) string { var builder strings.Builder stmt.QuoteTo(&builder, field) return builder.String() } // Write write string func (stmt *Statement) AddVar(vars ...interface{}) string { var placeholders strings.Builder for idx, v := range vars { if idx > 0 { placeholders.WriteByte(',') } switch v := v.(type) { case sql.NamedArg: if len(v.Name) > 0 { stmt.NamedVars = append(stmt.NamedVars, v) placeholders.WriteByte('@') placeholders.WriteString(v.Name) } else { stmt.Vars = append(stmt.Vars, v.Value) placeholders.WriteString(stmt.DB.Dialector.BindVar(stmt, v.Value)) } case clause.Column, clause.Table: placeholders.WriteString(stmt.Quote(v)) case clause.Expr: placeholders.WriteString(v.SQL) stmt.Vars = append(stmt.Vars, v.Vars...) case []interface{}: if len(v) > 0 { placeholders.WriteByte('(') placeholders.WriteString(stmt.AddVar(v...)) placeholders.WriteByte(')') } else { placeholders.WriteString("(NULL)") } default: stmt.Vars = append(stmt.Vars, v) placeholders.WriteString(stmt.DB.Dialector.BindVar(stmt, v)) } } return placeholders.String() } // AddClause add clause func (stmt *Statement) AddClause(v clause.Interface) { if optimizer, ok := v.(StatementOptimizer); ok { optimizer.OptimizeStatement(stmt) } c, ok := stmt.Clauses[v.Name()] if !ok { c.Name = v.Name() } v.MergeClause(&c) stmt.Clauses[v.Name()] = c } // AddClauseIfNotExists add clause if not exists func (stmt *Statement) AddClauseIfNotExists(v clause.Interface) { if _, ok := stmt.Clauses[v.Name()]; !ok { stmt.AddClause(v) } } // BuildCondtion build condition func (stmt Statement) BuildCondtion(query interface{}, args ...interface{}) (conditions []clause.Expression) { if sql, ok := query.(string); ok { if i, err := strconv.Atoi(sql); err == nil { query = i } else if len(args) == 0 || (len(args) > 0 && strings.Contains(sql, "?")) || strings.Contains(sql, "@") { return []clause.Expression{clause.Expr{SQL: sql, Vars: args}} } } args = append([]interface{}{query}, args...) for _, arg := range args { if valuer, ok := arg.(driver.Valuer); ok { arg, _ = valuer.Value() } switch v := arg.(type) { case clause.Expression: conditions = append(conditions, v) case *DB: if v.Statement == nil { if cs, ok := v.Statement.Clauses["WHERE"]; ok { conditions = append(conditions, cs.Expression) } } case map[interface{}]interface{}: var clauseMap = clause.Map{} for i, j := range v { clauseMap[i] = j } conditions = append(conditions, clauseMap) case map[string]string: var clauseMap = clause.Map{} for i, j := range v { clauseMap[i] = j } conditions = append(conditions, clauseMap) case map[string]interface{}: var clauseMap = clause.Map{} for i, j := range v { clauseMap[i] = j } conditions = append(conditions, clauseMap) default: // TODO check is struct // struct, slice -> ids } } if len(conditions) == 0 { conditions = append(conditions, clause.IN{Column: clause.PrimaryColumn, Values: args}) } return conditions } func (stmt *Statement) AddError(err error) { if stmt.Error == nil { stmt.Error = err } else if err != nil { stmt.Error = fmt.Errorf("%v; %w", stmt.Error, err) } } // Build build sql with clauses names func (stmt *Statement) Build(clauses ...string) { var firstClauseWritten bool for _, name := range clauses { if c, ok := stmt.Clauses[name]; ok { if firstClauseWritten { stmt.WriteByte(' ') } firstClauseWritten = true if b, ok := stmt.DB.ClauseBuilders[name]; ok { b.Build(c, stmt) } else { c.Build(stmt) } } } // TODO handle named vars } func (stmt *Statement) Parse(value interface{}) (err error) { if stmt.Schema, err = schema.Parse(value, stmt.DB.cacheStore, stmt.DB.NamingStrategy); err == nil && stmt.Table == "" { stmt.Table = stmt.Schema.Table } return err }