sq/libsq/ast/join.go

261 lines
5.6 KiB
Go

package ast
import (
"fmt"
"github.com/neilotoole/sq/libsq/core/jointype"
"github.com/neilotoole/sq/libsq/ast/internal/slq"
"github.com/neilotoole/sq/libsq/core/errz"
"github.com/antlr4-go/antlr/v4"
)
// VisitJoin implements slq.SLQVisitor.
func (v *parseTreeVisitor) VisitJoin(ctx *slq.JoinContext) any {
// parent node must be a segment
seg, ok := v.cur.(*SegmentNode)
if !ok {
return errorf("parent of JOIN() must be SegmentNode, but got: %T", v.cur)
}
var err error
node := &JoinNode{
seg: seg,
ctx: ctx,
text: ctx.GetText(),
}
if node.jt, node.jtVal, err = getJoinType(ctx); err != nil {
return err
}
if ctx.JoinTable() == nil {
return errz.Errorf("invalid join: %s: table is nil: %s", node.jtVal, node.text)
}
var jtCtx *slq.JoinTableContext
if jtCtx, ok = ctx.JoinTable().(*slq.JoinTableContext); !ok {
return errz.Errorf("invalid join: %s: invalid table type: expected %T but got %T: %s",
node.jtVal, jtCtx, ctx.JoinTable(), node.text)
}
if e := v.using(node, func() any {
return v.VisitJoinTable(jtCtx)
}); e != nil {
return e
}
if ctx.Expr() == nil {
if node.jt.HasPredicate() {
return errorf("invalid join: %s: predicate required: %s",
node.jtVal, node.text)
}
}
if ctx.Expr() != nil {
// Expression can be nil for cross join.
var exprCtx *slq.ExprContext
if exprCtx, ok = ctx.Expr().(*slq.ExprContext); !ok {
return errorf("invalid join: %s: expression type: expected %T but got %T: %s",
node.jtVal, exprCtx, ctx.Expr(), node.text)
}
if e := v.using(node, func() any {
return v.VisitExpr(exprCtx)
}); e != nil {
return e
}
}
return seg.AddChild(node)
}
// VisitJoinTable implements slq.SLQVisitor.
func (v *parseTreeVisitor) VisitJoinTable(ctx *slq.JoinTableContext) any {
joinNode, ok := v.cur.(*JoinNode)
if !ok {
return errorf("JOIN constraint must have JOIN parent, but got %T", v.cur)
}
var handle string
var tblName string
if ctx.HANDLE() != nil {
// It's ok to have a nil/empty handle
handle = ctx.HANDLE().GetText()
}
if ctx.NAME() == nil {
return errorf("invalid %T: table name is nil", ctx)
}
tblName, err := extractSelVal(ctx.NAME())
if err != nil {
return err
}
tblSelNode := &TblSelectorNode{
SelectorNode: SelectorNode{
baseNode: baseNode{
parent: joinNode,
ctx: ctx.NAME(),
text: ctx.NAME().GetText(),
},
name0: tblName,
},
handle: handle,
tblName: tblName,
}
var aliasCtx *slq.AliasContext
if ctx.Alias() != nil {
if aliasCtx, ok = ctx.Alias().(*slq.AliasContext); !ok {
return errorf("invalid %T: expected %T but got %T", ctx, aliasCtx, ctx.Alias())
}
}
if e := v.using(tblSelNode, func() any {
return v.VisitAlias(aliasCtx)
}); e != nil {
return e
}
joinNode.targetTbl = tblSelNode
return nil
}
var _ Node = (*JoinNode)(nil)
// JoinNode models a SQL JOIN node.
type JoinNode struct {
seg *SegmentNode
ctx antlr.ParseTree
text string
jt jointype.Type
jtVal string
predicateExpr *ExprNode
targetTbl *TblSelectorNode
}
// Predicate returns the join predicate, which
// may be nil.
func (n *JoinNode) Predicate() *ExprNode {
return n.predicateExpr
}
// JoinType returns the join type.
func (n *JoinNode) JoinType() jointype.Type {
return n.jt
}
// Table is the selector for join's target table.
func (n *JoinNode) Table() *TblSelectorNode {
return n.targetTbl
}
// Parent implements ast.Node.
func (n *JoinNode) Parent() Node {
return n.seg
}
// SetParent implements ast.Node.
func (n *JoinNode) SetParent(parent Node) error {
seg, ok := parent.(*SegmentNode)
if !ok {
return errorf("%T requires parent of type %s", n, typeSegmentNode)
}
n.seg = seg
return nil
}
// Children implements ast.Node.
func (n *JoinNode) Children() []Node {
if n.predicateExpr == nil {
return []Node{}
}
return []Node{n.predicateExpr}
}
// AddChild implements ast.Node.
func (n *JoinNode) AddChild(node Node) error {
expr, ok := node.(*ExprNode)
if !ok {
return errorf("join child must be %T, but got: %T", expr, node)
}
if n.predicateExpr != nil {
return errorf("JOIN() has max 1 child: failed to add: %T", node)
}
n.predicateExpr = expr
return nil
}
// SetChildren implements ast.Node.
func (n *JoinNode) SetChildren(children []Node) error {
switch len(children) {
case 0:
n.predicateExpr = nil
return nil
case 1:
n.predicateExpr = nil
return n.AddChild(children[0])
default:
return errorf("join: max of one child allowed; failed to add %d children", len(children))
}
}
// context implements ast.Node.
func (n *JoinNode) context() antlr.ParseTree {
return n.ctx
}
// setContext implements ast.Node.
func (n *JoinNode) setContext(ctx antlr.ParseTree) error {
n.ctx = ctx
return nil
}
// Text implements ast.Node.
func (n *JoinNode) Text() string {
return n.ctx.GetText()
}
func (n *JoinNode) Segment() *SegmentNode {
return n.seg
}
// String implements ast.Node.
func (n *JoinNode) String() string {
text := nodeString(n)
rightTblName := ""
if n.targetTbl != nil {
rightTblName, _ = n.targetTbl.SelValue()
}
text += fmt.Sprintf("|target:%s", rightTblName)
return text
}
// getJoinType returns the canonical join type, as well as the
// input value (which could be the canonical type, or the type's alias).
func getJoinType(ctx *slq.JoinContext) (typ jointype.Type, val string, err error) {
if ctx == nil {
return "", val, errorf("%T is nil", ctx)
}
terminal := ctx.JOIN_TYPE()
if terminal == nil {
// Shouldn't happen
return "", val, errz.Errorf("JOIN_TYPE (%T) is nil", terminal)
}
val = terminal.GetText()
err = typ.UnmarshalText([]byte(val))
return typ, val, err
}