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select.go
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select.go
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package dat
// SelectBuilder contains the clauses for a SELECT statement
type SelectBuilder struct {
Execer
isDistinct bool
distinctColumns []string
isInterpolated bool
columns []string
fors []string
table string
whereFragments []*whereFragment
groupBys []string
havingFragments []*whereFragment
orderBys []*whereFragment
limitCount uint64
limitValid bool
offsetCount uint64
offsetValid bool
scope Scope
}
// NewSelectBuilder creates a new SelectBuilder for the given columns
func NewSelectBuilder(columns ...string) *SelectBuilder {
if len(columns) == 0 || columns[0] == "" {
logger.Error("Select requires 1 or more columns")
return nil
}
return &SelectBuilder{columns: columns, isInterpolated: EnableInterpolation}
}
// Columns adds additional select columns to the builder.
func (b *SelectBuilder) Columns(columns ...string) *SelectBuilder {
if len(columns) == 0 || columns[0] == "" {
logger.Error("Select requires 1 or more columns")
return nil
}
b.columns = append(b.columns, columns...)
return b
}
// Distinct marks the statement as a DISTINCT SELECT
func (b *SelectBuilder) Distinct() *SelectBuilder {
b.isDistinct = true
return b
}
// DistinctOn sets the columns for DISTINCT ON
func (b *SelectBuilder) DistinctOn(columns ...string) *SelectBuilder {
b.isDistinct = true
b.distinctColumns = columns
return b
}
// From sets the table to SELECT FROM. JOINs may also be defined here.
func (b *SelectBuilder) From(from string) *SelectBuilder {
b.table = from
return b
}
// For adds FOR clause to SELECT.
func (b *SelectBuilder) For(options ...string) *SelectBuilder {
b.fors = options
return b
}
// ScopeMap uses a predefined scope in place of WHERE.
func (b *SelectBuilder) ScopeMap(mapScope *MapScope, m M) *SelectBuilder {
b.scope = mapScope.mergeClone(m)
return b
}
// Scope uses a predefined scope in place of WHERE.
func (b *SelectBuilder) Scope(sql string, args ...interface{}) *SelectBuilder {
b.scope = ScopeFunc(func(table string) (string, []interface{}) {
return sql, args
})
return b
}
// Where appends a WHERE clause to the statement for the given string and args
// or map of column/value pairs
func (b *SelectBuilder) Where(whereSQLOrMap interface{}, args ...interface{}) *SelectBuilder {
b.whereFragments = append(b.whereFragments, newWhereFragment(whereSQLOrMap, args))
return b
}
// GroupBy appends a column to group the statement
func (b *SelectBuilder) GroupBy(group string) *SelectBuilder {
b.groupBys = append(b.groupBys, group)
return b
}
// Having appends a HAVING clause to the statement
func (b *SelectBuilder) Having(whereSQLOrMap interface{}, args ...interface{}) *SelectBuilder {
b.havingFragments = append(b.havingFragments, newWhereFragment(whereSQLOrMap, args))
return b
}
// OrderBy appends a column to ORDER the statement by
func (b *SelectBuilder) OrderBy(whereSQLOrMap interface{}, args ...interface{}) *SelectBuilder {
b.orderBys = append(b.orderBys, newWhereFragment(whereSQLOrMap, args))
return b
}
// Limit sets a limit for the statement; overrides any existing LIMIT
func (b *SelectBuilder) Limit(limit uint64) *SelectBuilder {
b.limitCount = limit
b.limitValid = true
return b
}
// Offset sets an offset for the statement; overrides any existing OFFSET
func (b *SelectBuilder) Offset(offset uint64) *SelectBuilder {
b.offsetCount = offset
b.offsetValid = true
return b
}
// Paginate sets LIMIT/OFFSET for the statement based on the given page/perPage
// Assumes page/perPage are valid. Page and perPage must be >= 1
func (b *SelectBuilder) Paginate(page, perPage uint64) *SelectBuilder {
b.Limit(perPage)
b.Offset((page - 1) * perPage)
return b
}
// ToSQL serialized the SelectBuilder to a SQL string
// It returns the string with placeholders and a slice of query arguments
func (b *SelectBuilder) ToSQL() (string, []interface{}) {
if len(b.columns) == 0 {
panic("no columns specified")
}
if len(b.table) == 0 {
panic("no table specified")
}
buf := bufPool.Get()
defer bufPool.Put(buf)
var args []interface{}
buf.WriteString("SELECT ")
if b.isDistinct {
if len(b.distinctColumns) == 0 {
buf.WriteString("DISTINCT ")
} else {
buf.WriteString("DISTINCT ON (")
for i, s := range b.distinctColumns {
if i > 0 {
buf.WriteString(", ")
}
buf.WriteString(s)
}
buf.WriteString(") ")
}
}
for i, s := range b.columns {
if i > 0 {
buf.WriteString(", ")
}
buf.WriteString(s)
}
buf.WriteString(" FROM ")
buf.WriteString(b.table)
var placeholderStartPos int64 = 1
if b.scope != nil {
var where string
sql, args2 := b.scope.ToSQL(b.table)
sql, where = splitWhere(sql)
buf.WriteString(sql)
if where != "" {
fragment := newWhereFragment(where, args2)
b.whereFragments = append(b.whereFragments, fragment)
}
}
if len(b.whereFragments) > 0 {
buf.WriteString(" WHERE ")
writeAndFragmentsToSQL(buf, b.whereFragments, &args, &placeholderStartPos)
}
if len(b.groupBys) > 0 {
buf.WriteString(" GROUP BY ")
for i, s := range b.groupBys {
if i > 0 {
buf.WriteString(", ")
}
buf.WriteString(s)
}
}
if len(b.havingFragments) > 0 {
buf.WriteString(" HAVING ")
writeAndFragmentsToSQL(buf, b.havingFragments, &args, &placeholderStartPos)
}
if len(b.orderBys) > 0 {
buf.WriteString(" ORDER BY ")
writeCommaFragmentsToSQL(buf, b.orderBys, &args, &placeholderStartPos)
}
if b.limitValid {
buf.WriteString(" LIMIT ")
writeUint64(buf, b.limitCount)
}
if b.offsetValid {
buf.WriteString(" OFFSET ")
writeUint64(buf, b.offsetCount)
}
// add FOR clause
if len(b.fors) > 0 {
buf.WriteString(" FOR")
for _, s := range b.fors {
buf.WriteString(" ")
buf.WriteString(s)
}
}
return buf.String(), args
}