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query.go
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query.go
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package pop
import (
"fmt"
"strings"
"github.com/gobuffalo/pop/logging"
)
// Query is the main value that is used to build up a query
// to be executed against the `Connection`.
type Query struct {
RawSQL *clause
limitResults int
addColumns []string
eager bool
eagerFields []string
whereClauses clauses
orderClauses clauses
fromClauses fromClauses
belongsToThroughClauses belongsToThroughClauses
joinClauses joinClauses
groupClauses groupClauses
havingClauses havingClauses
Paginator *Paginator
Connection *Connection
}
// Clone will fill targetQ query with the connection used in q, if
// targetQ is not empty, Clone will override all the fields.
func (q *Query) Clone(targetQ *Query) {
rawSQL := *q.RawSQL
targetQ.RawSQL = &rawSQL
targetQ.limitResults = q.limitResults
targetQ.whereClauses = q.whereClauses
targetQ.orderClauses = q.orderClauses
targetQ.fromClauses = q.fromClauses
targetQ.belongsToThroughClauses = q.belongsToThroughClauses
targetQ.joinClauses = q.joinClauses
targetQ.groupClauses = q.groupClauses
targetQ.havingClauses = q.havingClauses
targetQ.addColumns = q.addColumns
if q.Paginator != nil {
paginator := *q.Paginator
targetQ.Paginator = &paginator
}
if q.Connection != nil {
connection := *q.Connection
targetQ.Connection = &connection
}
}
// RawQuery will override the query building feature of Pop and will use
// whatever query you want to execute against the `Connection`. You can continue
// to use the `?` argument syntax.
//
// c.RawQuery("select * from foo where id = ?", 1)
func (c *Connection) RawQuery(stmt string, args ...interface{}) *Query {
return Q(c).RawQuery(stmt, args...)
}
// RawQuery will override the query building feature of Pop and will use
// whatever query you want to execute against the `Connection`. You can continue
// to use the `?` argument syntax.
//
// q.RawQuery("select * from foo where id = ?", 1)
func (q *Query) RawQuery(stmt string, args ...interface{}) *Query {
q.RawSQL = &clause{stmt, args}
return q
}
// Eager will enable associations loading of the model.
// by defaults loads all the associations on the model,
// but can take a variadic list of associations to load.
//
// c.Eager().Find(model, 1) // will load all associations for model.
// c.Eager("Books").Find(model, 1) // will load only Book association for model.
//
// Eager also enable nested models creation:
//
// model := Parent{Child: Child{}, Parent: &Parent{}}
// c.Eager().Create(&model) // will create all associations for model.
// c.Eager("Child").Create(&model) // will only create the Child association for model.
func (c *Connection) Eager(fields ...string) *Connection {
con := c.copy()
con.eager = true
con.eagerFields = append(c.eagerFields, fields...)
return con
}
// Eager will enable load associations of the model.
// by defaults loads all the associations on the model,
// but can take a variadic list of associations to load.
//
// q.Eager().Find(model, 1) // will load all associations for model.
// q.Eager("Books").Find(model, 1) // will load only Book association for model.
func (q *Query) Eager(fields ...string) *Query {
q.eager = true
q.eagerFields = append(q.eagerFields, fields...)
return q
}
// disableEager disables eager mode for current query and Connection.
func (q *Query) disableEager() {
q.Connection.eager, q.eager = false, false
q.Connection.eagerFields, q.eagerFields = []string{}, []string{}
}
// Where will append a where clause to the query. You may use `?` in place of
// arguments.
//
// c.Where("id = ?", 1)
// q.Where("id in (?)", 1, 2, 3)
func (c *Connection) Where(stmt string, args ...interface{}) *Query {
q := Q(c)
return q.Where(stmt, args...)
}
// Where will append a where clause to the query. You may use `?` in place of
// arguments.
//
// q.Where("id = ?", 1)
// q.Where("id in (?)", 1, 2, 3)
func (q *Query) Where(stmt string, args ...interface{}) *Query {
if q.RawSQL.Fragment != "" {
log(logging.Warn, "Query is setup to use raw SQL")
return q
}
if inRegex.MatchString(stmt) {
var inq []string
for i := 0; i < len(args); i++ {
inq = append(inq, "?")
}
qs := fmt.Sprintf("(%s)", strings.Join(inq, ","))
stmt = strings.Replace(stmt, "(?)", qs, 1)
}
q.whereClauses = append(q.whereClauses, clause{stmt, args})
return q
}
// Order will append an order clause to the query.
//
// c.Order("name desc")
func (c *Connection) Order(stmt string) *Query {
return Q(c).Order(stmt)
}
// Order will append an order clause to the query.
//
// q.Order("name desc")
func (q *Query) Order(stmt string) *Query {
if q.RawSQL.Fragment != "" {
log(logging.Warn, "Query is setup to use raw SQL")
return q
}
q.orderClauses = append(q.orderClauses, clause{stmt, []interface{}{}})
return q
}
// Limit will create a query and add a limit clause to it.
//
// c.Limit(10)
func (c *Connection) Limit(limit int) *Query {
return Q(c).Limit(limit)
}
// Limit will add a limit clause to the query.
//
// q.Limit(10)
func (q *Query) Limit(limit int) *Query {
q.limitResults = limit
return q
}
// Q will create a new "empty" query from the current connection.
func Q(c *Connection) *Query {
return &Query{
RawSQL: &clause{},
Connection: c,
eager: c.eager,
eagerFields: c.eagerFields,
}
}
// ToSQL will generate SQL and the appropriate arguments for that SQL
// from the `Model` passed in.
func (q Query) ToSQL(model *Model, addColumns ...string) (string, []interface{}) {
sb := q.toSQLBuilder(model, addColumns...)
return sb.String(), sb.Args()
}
// ToSQLBuilder returns a new `SQLBuilder` that can be used to generate SQL,
// get arguments, and more.
func (q Query) toSQLBuilder(model *Model, addColumns ...string) *sqlBuilder {
if len(q.addColumns) != 0 {
addColumns = q.addColumns
}
return newSQLBuilder(q, model, addColumns...)
}