package pgtype_test import ( "context" "errors" "fmt" "os" "github.com/jackc/pgtype" pgx "github.com/jackc/pgx/v4" ) type MyType struct { a int32 // NULL will cause decoding error b *string // there can be NULL in this position in SQL } func (dst *MyType) DecodeBinary(ci *pgtype.ConnInfo, src []byte) error { if src == nil { return errors.New("NULL values can't be decoded. Scan into a &*MyType to handle NULLs") } if err := (pgtype.CompositeFields{&dst.a, &dst.b}).DecodeBinary(ci, src); err != nil { return err } return nil } func (src MyType) EncodeBinary(ci *pgtype.ConnInfo, buf []byte) (newBuf []byte, err error) { a := pgtype.Int4{src.a, pgtype.Present} var b pgtype.Text if src.b != nil { b = pgtype.Text{*src.b, pgtype.Present} } else { b = pgtype.Text{Status: pgtype.Null} } return (pgtype.CompositeFields{&a, &b}).EncodeBinary(ci, buf) } func ptrS(s string) *string { return &s } func E(err error) { if err != nil { panic(err) } } // ExampleCustomCompositeTypes demonstrates how support for custom types mappable to SQL // composites can be added. func Example_customCompositeTypes() { conn, err := pgx.Connect(context.Background(), os.Getenv("PGX_TEST_DATABASE")) E(err) defer conn.Close(context.Background()) _, err = conn.Exec(context.Background(), `drop type if exists mytype; create type mytype as ( a int4, b text );`) E(err) defer conn.Exec(context.Background(), "drop type mytype") var result *MyType // Demonstrates both passing and reading back composite values err = conn.QueryRow(context.Background(), "select $1::mytype", pgx.QueryResultFormats{pgx.BinaryFormatCode}, MyType{1, ptrS("foo")}). Scan(&result) E(err) fmt.Printf("First row: a=%d b=%s\n", result.a, *result.b) // Because we scan into &*MyType, NULLs are handled generically by assigning nil to result err = conn.QueryRow(context.Background(), "select NULL::mytype", pgx.QueryResultFormats{pgx.BinaryFormatCode}).Scan(&result) E(err) fmt.Printf("Second row: %v\n", result) // Output: // First row: a=1 b=foo // Second row: }