package ast import "github.com/neilotoole/sq/libsq/ast/internal/slq" // OrderByNode implements the SQL "ORDER BY" clause. type OrderByNode struct { baseNode } // String returns a log/debug-friendly representation. func (n *OrderByNode) String() string { return nodeString(n) } // Terms returns a new slice containing the ordering terms of the OrderByNode. // The returned slice has at least one term. func (n *OrderByNode) Terms() []*OrderByTermNode { terms := make([]*OrderByTermNode, len(n.children)) for i := range n.children { terms[i], _ = n.children[i].(*OrderByTermNode) } return terms } // AddChild implements Node.AddChild. It returns an error // if child is nil or not type OrderByTermNode. func (n *OrderByNode) AddChild(child Node) error { term, ok := child.(*OrderByTermNode) if !ok { return errorf("can only add child of type %T to %T but got %T", term, n, child) } n.addChild(child) return nil } // SetChildren implements ast.Node. func (n *OrderByNode) SetChildren(children []Node) error { if len(children) > 1 { return errorf("%T can have only 1 child but attempt to set %d children", n, len(children)) } for i := range children { if _, ok := children[i].(*OrderByTermNode); !ok { return errorf("illegal child type %T {%s} for %T", children[i], children[i], n) } } n.doSetChildren(children) return nil } // OrderByDirection specifies the "ORDER BY" direction. type OrderByDirection string const ( // OrderByDirectionNone is the default order direction. OrderByDirectionNone OrderByDirection = "" // OrderByDirectionAsc is the ascending (DESC) order direction. OrderByDirectionAsc OrderByDirection = "ASC" // OrderByDirectionDesc is the descending (DESC) order direction. OrderByDirectionDesc OrderByDirection = "DESC" ) // OrderByTermNode is a child of OrderByNode. type OrderByTermNode struct { baseNode direction OrderByDirection } // AddChild accepts a single child of type *SelectorNode. func (n *OrderByTermNode) AddChild(child Node) error { if len(n.children) > 0 { return errorf("%T is only allowed a single child", n) } selNode, ok := child.(*SelectorNode) if !ok { return errorf("illegal %T child type %T: %s", n, child, child) } n.addChild(selNode) return child.SetParent(n) } // SetChildren implements ast.Node. func (n *OrderByTermNode) SetChildren(children []Node) error { switch len(children) { case 0: // fallthrough case 1: if _, ok := children[0].(Selector); !ok { return errorf("illegal child type %T {%s} for %T", children[0], children[0], n) } default: return errorf("%T can have only 1 child but attempt to set %d children", n, len(children)) } n.doSetChildren(children) return nil } // Selector returns the ordering term's selector. func (n *OrderByTermNode) Selector() Node { return n.children[0] } // Direction returns the ordering term's direction. func (n *OrderByTermNode) Direction() OrderByDirection { return n.direction } // String returns a log/debug-friendly representation. func (n *OrderByTermNode) String() string { return nodeString(n) } // VisitOrderBy implements slq.SLQVisitor. func (v *parseTreeVisitor) VisitOrderBy(ctx *slq.OrderByContext) interface{} { node := &OrderByNode{} node.parent = v.cur node.ctx = ctx node.text = ctx.GetText() if err := v.cur.AddChild(node); err != nil { return err } return v.using(node, func() any { // This will result in VisitOrderByTerm being called on the children. return v.VisitChildren(ctx) }) } // VisitOrderByTerm implements slq.SLQVisitor. func (v *parseTreeVisitor) VisitOrderByTerm(ctx *slq.OrderByTermContext) interface{} { node := &OrderByTermNode{} node.parent = v.cur node.ctx = ctx node.text = ctx.GetText() selNode, err := newSelectorNode(node, ctx.Selector()) if err != nil { return nil } if ctx.ORDER_ASC() != nil { node.direction = OrderByDirectionAsc } else if ctx.ORDER_DESC() != nil { node.direction = OrderByDirectionDesc } if err := node.AddChild(selNode); err != nil { return err } return v.cur.AddChild(node) }