Documentation ¶
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Constants ¶
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Variables ¶
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Functions ¶
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Types ¶
type DeleteModApply ¶
type DeleteModApply = sq.QueryModApply[tag.DeleteTag]
type DeleteQuery ¶
func Delete ¶
func Delete(mods ...DeleteMod) DeleteQuery
type InsertModApply ¶
type InsertModApply = sq.QueryModApply[tag.InsertTag]
type InsertQuery ¶
func Insert ¶
func Insert(mods ...InsertMod) InsertQuery
type SelectModApply ¶
type SelectModApply = sq.QueryModApply[tag.SelectTag]
type SelectQuery ¶
func Select ¶
func Select(mods ...SelectMod) SelectQuery
Example (LiteralJoin) ¶
package main import ( "fmt" "github.com/rrgmc/litsql/dialect/sqlite" "github.com/rrgmc/litsql/dialect/sqlite/sm" "github.com/rrgmc/litsql/expr" ) func main() { // SELECT q := sqlite.Select( // orders.id as order_id, orders.date sm.Columns("orders.id AS order_id", "orders.date"), // u.id AS user_id, u.name as user_name sm.Columns("u.id AS user_id", "u.name AS user_name"), // FROM orders sm.From("orders"), // INNER JOIN users AS u ON orders.user_id = u.id sm.InnerJoin("users AS u").On("orders.user_id = u.id"), // WHERE u.age > ?1 sm.WhereClause("u.age ?", // example to use either IS NULL or a comparison expr.IfElse(true, // some condition expr.Clause("> ?", 32), expr.String("IS NULL"))), // AND u.deleted_at IS NOT NULL sm.Where("u.deleted_at IS NOT NULL"), // ORDER BY order.date DESC, u.name ASC sm.OrderBy("orders.date DESC", "u.name ASC"), ) qs, args, err := q.Build() if err != nil { panic(err) } fmt.Println(qs) fmt.Println("===") fmt.Println(args) }
Output: SELECT orders.id AS order_id, orders.date, u.id AS user_id, u.name AS user_name FROM orders INNER JOIN users AS u ON orders.user_id = u.id WHERE u.age > ?1 AND u.deleted_at IS NOT NULL ORDER BY orders.date DESC, u.name ASC === [32]
Example (LiteralSimple) ¶
package main import ( "fmt" "github.com/rrgmc/litsql/dialect/sqlite" "github.com/rrgmc/litsql/dialect/sqlite/sm" "github.com/rrgmc/litsql/sq" ) func main() { // SELECT q := sqlite.Select( // u.id, u.name sm.Columns("u.id", "u.name"), // , u.created_at, u.updated_at sm.Columns("u.created_at", "u.updated_at"), // FROM users AS u sm.From("users AS u"), // WHERE u.age > ?1 sm.WhereClause("u.age > ?", 40), // WHERE u.city_id = ?2 sm.WhereClause("u.city_id = ?", sq.NamedArg("city_id")), // AND u.deleted_at IS NOT NULL sm.Where("u.deleted_at IS NOT NULL"), // ORDER BY u.name ASC, u.age DESC sm.OrderBy("u.name ASC", "u.age DESC"), ) qs, args, err := q.Build( sq.WithParseArgs(sq.MapArgValues{ "city_id": 66, }), ) if err != nil { panic(err) } fmt.Println(qs) fmt.Println("===") fmt.Println(args) }
Output: SELECT u.id, u.name, u.created_at, u.updated_at FROM users AS u WHERE u.age > ?1 AND u.city_id = ?2 AND u.deleted_at IS NOT NULL ORDER BY u.name ASC, u.age DESC === [40 66]
Example (LiteralSimpleInvalid) ¶
package main import ( "fmt" "github.com/rrgmc/litsql/dialect/sqlite" "github.com/rrgmc/litsql/dialect/sqlite/sm" ) func main() { // the library won't prevent invalid SQL from being generated, like when using raw string. // SELECT q := sqlite.Select( // u.id, u.name of user sm.Columns("u.id", "u.name of user"), // FROM users AND NOT users sm.From("users AND NOT users"), // WHERE CREATE TABLE users sm.Where("CREATE TABLE users"), ) qs, _, err := q.Build() if err != nil { panic(err) } fmt.Println(qs) }
Output: SELECT u.id, u.name of user FROM users AND NOT users WHERE CREATE TABLE users
Example (LiteralWith) ¶
package main import ( "fmt" "github.com/rrgmc/litsql/dialect/sqlite" "github.com/rrgmc/litsql/dialect/sqlite/sm" ) func main() { q := sqlite.Select( // WITH regional_sales AS ( sm.With("regional_sales").As( // SELECT sqlite.Select( // region, SUM(amount) AS total_sales sm.Columns("region", "SUM(amount) AS total_sales"), // FROM orders sm.From("orders"), // GROUP BY region sm.GroupBy("region"), ), ), // ), top_regions AS ( sm.With("top_regions").As( // SELECT sqlite.Select( // region sm.Columns("region"), // FROM regional_sales sm.From("regional_sales"), // WHERE total_sales > (SELECT SUM(total_sales)/10 FROM regional_sales) sm.WhereClause("total_sales > ?", sqlite.Select( sm.Columns("SUM(total_sales)/10"), sm.From("regional_sales"), ), ), ), ), // ) // SELECT // region, product, SUM(quantity) AS product_units, SUM(amount) AS product_sales sm.Columns("region", "product", "SUM(quantity) AS product_units", "SUM(amount) AS product_sales"), // FROM orders sm.From("orders"), // WHERE region IN (SELECT region FROM top_regions) sm.WhereClause("region IN ?", sqlite.Select( sm.Columns("region"), sm.From("top_regions"), ), ), // GROUP BY region, product sm.GroupBy("region", "product"), ) qs, _, err := q.Build() if err != nil { panic(err) } fmt.Println(qs) }
Output: WITH regional_sales AS ( SELECT region, SUM(amount) AS total_sales FROM orders GROUP BY region ), top_regions AS ( SELECT region FROM regional_sales WHERE total_sales > ( SELECT SUM(total_sales)/10 FROM regional_sales ) ) SELECT region, product, SUM(quantity) AS product_units, SUM(amount) AS product_sales FROM orders WHERE region IN ( SELECT region FROM top_regions ) GROUP BY region, product
type UpdateModApply ¶
type UpdateModApply = sq.QueryModApply[tag.UpdateTag]
type UpdateQuery ¶
func Update ¶
func Update(mods ...UpdateMod) UpdateQuery
Directories ¶
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Code generated by "litsql-dialectgen"; DO NOT EDIT.
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