Awesome
sqlf
A fast SQL query builder for Go.
What sqlf
does?
- It helps you efficiently build an SQL statement in run-time.
- You may change the number of affected columns and change the number of arguments in a safe way.
- You may use SQL expressions (like
UPDATE counters SET counter = counter + 1
) in your SQL statements. - You may dynamically apply filters by adding where conditions, change result ordering, etc.
- You may safely use
?
placeholders in your SQL fragments -sqlf
converts them to PostgreSQL-like$1, $2, ...
placeholders if needed and does the numbering for you. - You may
.Bind
your structure to database columns like you do with other similar libraries. sqlf.Stmt
has methods to execute a query using anydatabase/sql
compatible driver.
What sqlf
doesn't?
sqlf
isn't an ORM, you'll still have to use raw SQL.- There are no database schema migrations or any other database schema maintenance tools.
- There are no compile-time type checks for query arguments, column and table names.
- There is no wrapper for
OR
clause. It affects performance and in most cases can be avoided by usingUNION
expressions,WITH
clause or window functions. Other option is to split a query into two. sqlf
doesn't help a developer to pinpoint the cause of issue with SQL statement.
Is It Fast?
It is. See benchmarks: https://github.com/leporo/golang-sql-builder-benchmark
In order to maximize performance and minimize memory footprint, sqlf
reuses memory allocated for query building. The heavier load is, the faster sqlf
works.
Usage
Build complex statements:
var (
region string
product string
productUnits int
productSales float64
)
sqlf.SetDialect(sqlf.PostgreSQL)
err := sqlf.From("orders").
With("regional_sales",
sqlf.From("orders").
Select("region, SUM(amount) AS total_sales").
GroupBy("region")).
With("top_regions",
sqlf.From("regional_sales").
Select("region").
Where("total_sales > (SELECT SUM(total_sales)/10 FROM regional_sales)")).
// Map query fields to variables
Select("region").To(®ion).
Select("product").To(&product).
Select("SUM(quantity)").To(&productUnits).
Select("SUM(amount) AS product_sales").To(&productSales).
//
Where("region IN (SELECT region FROM top_regions)").
GroupBy("region, product").
OrderBy("product_sales DESC").
// Execute the query
QueryAndClose(ctx, db, func(row *sql.Rows){
// Callback function is called for every returned row.
// Row values are scanned automatically to bound variables.
fmt.Printf("%s\t%s\t%d\t$%.2f\n", region, product, productUnits, productSales)
})
if err != nil {
panic(err)
}
Bind a structure:
type Offer struct {
Id int64 `db:"id"`
ProductId int64 `db:"product_id"`
Price float64 `db:"price"`
IsDeleted bool `db:"is_deleted"`
}
var o Offer
err := sqlf.From("offers").
Bind(&o).
Where("id = ?", 42).
QueryRowAndClose(ctx, db)
if err != nil {
panic(err)
}
Retrieve data to private fields with more granular control on retrieved fields:
type Offer struct {
id int64
productId int64
price float64
isDeleted bool
}
var o Offer
err := sqlf.From("offers").
Select("id").To(&o.id).
Select("product_id").To(&o.productId).
Select("price").To(&o.price).
Select("is_deleted").To(&o.isDeleted).
Where("id = ?", 42).
QueryRowAndClose(ctx, db)
if err != nil {
panic(err)
}
Some SQL fragments, like a list of fields to be selected or filtering condition may appear over and over. It can be annoying to repeat them or combine an SQL statement from chunks. Use sqlf.Stmt
to construct a basic query and extend it for a case:
func (o *Offer) Select() *sqlf.Stmt {
return sqlf.From("products").
.Bind(o)
// Ignore records, marked as deleted
Where("is_deleted = false")
}
func (o Offer) Print() {
fmt.Printf("%d\t%s\t$%.2f\n", o.id, o.name, o.price)
}
var o Offer
// Fetch offer data
err := o.Select().
Where("id = ?", offerId).
QueryRowAndClose(ctx, db)
if err != nil {
panic(err)
}
o.Print()
// ...
// Select and print 5 most recently placed
// offers for a given product
err = o.Select().
Where("product_id = ?", productId).
OrderBy("id DESC").
Limit(5).
QueryAndClose(ctx, db, func(row *sql.Rows){
o.Print()
})
if err != nil {
panic(err)
}
// ...
SQL Statement Construction and Execution
SELECT
Value Binding
Bind columns to values using To
method:
var (
minAmountRequested = true
maxAmount float64
minAmount float64
)
q := sqlf.From("offers").
Select("MAX(amount)").To(&maxAmount).
Where("is_deleted = false")
if minAmountRequested {
q.Select("MIN(amount)").To(&minAmount)
}
err := q.QueryRowAndClose(ctx, db)
if err != nil {
panic(err)
}
if minAmountRequested {
fmt.Printf("Cheapest offer: $%.2f\n", minAmount)
}
fmt.Printf("Most expensive offer: $%.2f\n", minAmount)
Joins
There are helper methods to construct a JOIN clause: Join
, LeftJoin
, RightJoin
and FullJoin
.
var (
offerId int64
productName string
price float64
}
err := sqlf.From("offers o").
Select("o.id").To(&offerId).
Select("price").To(&price).
Where("is_deleted = false").
// Join
LeftJoin("products p", "p.id = o.product_id").
// Bind a column from joined table to variable
Select("p.name").To(&productName).
// Print top 10 offers
OrderBy("price DEST").
Limit(10).
QueryAndClose(ctx, db, func(row *sql.Rows){
fmt.Printf("%d\t%s\t$%.2f\n", offerId, productName, price)
})
if err != nil {
panic(err)
}
Use plain SQL for more fancy cases:
var (
num int64
name string
value string
)
err := sqlf.From("t1 CROSS JOIN t2 ON t1.num = t2.num AND t2.value IN (?, ?)", "xxx", "yyy").
Select("t1.num").To(&num).
Select("t1.name").To(&name).
Select("t2.value").To(&value).
QueryAndClose(ctx, db, func(row *sql.Rows){
fmt.Printf("%d\t%s\ts\n", num, name, value)
})
if err != nil {
panic(err)
}
Subqueries
Use SubQuery
method to add a sub query to a statement:
q := sqlf.From("orders o").
Select("date, region").
SubQuery("(", ") AS prev_order_date",
sqlf.From("orders po").
Select("date").
Where("region = o.region").
Where("id < o.id").
OrderBy("id DESC").
Clause("LIMIT 1")).
Where("date > CURRENT_DATE - interval '1 day'").
OrderBy("id DESC")
fmt.Println(q.String())
q.Close()
Note that if a subquery uses no arguments, it's more effective to add it as SQL fragment:
q := sqlf.From("orders o").
Select("date, region").
Where("date > CURRENT_DATE - interval '1 day'").
Where("exists (SELECT 1 FROM orders po WHERE region = o.region AND id < o.id ORDER BY id DESC LIMIT 1)").
OrderBy("id DESC")
// ...
q.Close()
To select from sub-query pass an empty string to From and immediately call a SubQuery method.
The query constructed by the following example returns top 5 news in each section:
q := sqlf.Select("").
From("").
SubQuery(
"(", ") counted_news",
sqlf.From("news").
Select("id, section, header, score").
Select("row_number() OVER (PARTITION BY section ORDER BY score DESC) AS rating_in_section").
OrderBy("section, rating_in_section")).
Where("rating_in_section <= 5")
// ...
q.Close()
Unions
Use Union
method to combine results of two queries:
q := sqlf.From("tasks").
Select("id, status").
Where("status = ?", "new").
Union(true, sqlf.PostgreSQL.From("tasks").
Select("id, status").
Where("status = ?", "wip"))
// ...
q.Close()
INSERT
sqlf
provides a Set
method to be used both for UPDATE and INSERT statements:
var userId int64
_, err := sqlf.InsertInto("users").
Set("email", "new@email.com").
Set("address", "320 Some Avenue, Somewhereville, GA, US").
Returning("id").To(&userId).
Clause("ON CONFLICT (email) DO UPDATE SET address = users.address").
QueryRowAndClose(ctx, db)
The same statement execution using the database/sql
standard library looks like this:
var userId int64
// database/sql
err := db.ExecContext(ctx, "INSERT INTO users (email, address) VALUES ($1, $2) RETURNING id ON CONFLICT (email) DO UPDATE SET address = users.address", "new@email.com", "320 Some Avenue, Somewhereville, GA, US").Scan(&userId)
There are just 2 fields of a new database record to be populated, and yet it takes some time to figure out what columns are being updated and what values are to be assigned to them.
In real-world cases there are tens of fields. On any update both the list of field names and the list of values, passed to ExecContext
method, have to to be reviewed and updated. It's a common thing to have values misplaced.
The use of Set
method to maintain a field-value map is a way to solve this issue.
Bulk Insert
To insert a multiple rows via a single query, use NewRow
method:
_, err := sqlf.InsertInto("users").
NewRow().
Set("email", "first@email.com").
Set("address", "320 Some Avenue, Somewhereville, GA, US").
NewRow().
Set("email", "second@email.com").
Set("address", "320 Some Avenue, Somewhereville, GA, US").
ExecAndClose(ctx, db)
UPDATE
_, err := sqlf.Update("users").
Set("email", "new@email.com").
ExecAndClose(ctx, db)
DELETE
_, err := sqlf.DeleteFrom("products").
Where("id = ?", 42)
ExecAndClose(ctx, db)