Scan standard lib database rows directly to structs or slices. For the most comprehensive and up-to-date docs see the godoc
import "github.com/blockloop/scan/v2"db, err := sql.Open("sqlite3", "database.sqlite")
rows, err := db.Query("SELECT * FROM persons")
var persons []Person
err := scan.Rows(&persons, rows)
fmt.Printf("%#v", persons)
// []Person{
// {ID: 1, Name: "brett"},
// {ID: 2, Name: "fred"},
// {ID: 3, Name: "stacy"},
// }rows, err := db.Query("SELECT name FROM persons")
var names []string
err := scan.Rows(&names, rows)
fmt.Printf("%#v", names)
// []string{
// "brett",
// "fred",
// "stacy",
// }rows, err := db.Query("SELECT * FROM persons where name = 'brett' LIMIT 1")
var person Person
err := scan.Row(&person, rows)
fmt.Printf("%#v", person)
// Person{ ID: 1, Name: "brett" }rows, err := db.Query("SELECT age FROM persons where name = 'brett' LIMIT 1")
var age int8
err := scan.Row(&age, rows)
fmt.Printf("%d", age)
// 100rows, err := db.Query(`
SELECT person.id,person.name,company.name FROM person
JOIN company on company.id = person.company_id
LIMIT 1
`)
var person struct {
ID int `db:"person.id"`
Name string `db:"person.name"`
Company struct {
Name string `db:"company.name"`
}
}
err = scan.RowStrict(&person, rows)
err = json.NewEncoder(os.Stdout).Encode(&person)
// Output:
// {"ID":1,"Name":"brett","Company":{"Name":"costco"}}By default, column names are mapped to and from database column names using basic title case conversion. You can override this behavior by setting ColumnsMapper and ScannerMapper to custom functions.
Both Rows and Row have strict alternatives to allow scanning to structs strictly based on their db tag.
To avoid unwanted behavior you can use RowsStrict or RowStrict to scan without using field names.
Any fields not tagged with the db tag will be ignored even if columns are found that match the field names.
Columns scans a struct and returns a string slice of the assumed column names based on the db tag or the struct field name respectively. To avoid assumptions, use ColumnsStrict which will only return the fields tagged with the db tag. Both Columns and ColumnsStrict are variadic. They both accept a string slice of column names to exclude from the list. It is recommended that you cache this slice.
package main
type User struct {
ID int64
Name string
Age int
BirthDate string `db:"bday"`
Zipcode string `db:"-"`
Store struct {
ID int
// ...
}
}
var nobody = new(User)
var userInsertCols = scan.Columns(nobody, "ID")
// []string{ "Name", "Age", "bday" }
var userSelectCols = scan.Columns(nobody)
// []string{ "ID", "Name", "Age", "bday" }Values scans a struct and returns the values associated with the provided columns. Values uses a sync.Map to cache fields of structs to greatly improve the performance of scanning types. The first time a struct is scanned it's exported fields locations are cached. When later retrieving values from the same struct it should be much faster. See Benchmarks below.
user := &User{
ID: 1,
Name: "Brett",
Age: 100,
}
vals := scan.Values([]string{"ID", "Name"}, user)
// []interface{}{ 1, "Brett" }I find that the usefulness of both Values and Columns lies within using a library such as sq.
sq.Insert(userCols...).
Into("users").
Values(scan.Values(userCols, &user)...)AutoClose: Automatically call rows.Close() after scan completes (default true)
While many other projects support similar features (i.e. sqlx) scan allows you to use any database lib such as the stdlib or squirrel to write fluent SQL statements and pass the resulting rows to scan for scanning.
$ go test -bench=. -benchtime=10s ./...
goos: linux
goarch: amd64
pkg: github.com/blockloop/scan
cpu: 11th Gen Intel(R) Core(TM) i7-1165G7 @ 2.80GHz
BenchmarkColumnsLargeStruct-8 41527964 288.0 ns/op
BenchmarkValuesLargeStruct-8 6816885 1807 ns/op
BenchmarkScanRowOneField-8 5686971 2074 ns/op
BenchmarkScanRowFiveFields-8 4962622 2381 ns/op
BenchmarkScanTenRowsOneField-8 1537761 8598 ns/op
BenchmarkScanTenRowsTenFields-8 322106 50431 ns/op
PASS
ok github.com/blockloop/scan 92.374s