Yes, Wes, that solves the simple case where only 2 nodes are involved. What about the situation where 4 or 5 nodes on the path? with a coupe of OR's?
It's a bit late for me right now. But I will try come up with a more concrete example tomorrow. Cheers, Kai On Tue, Oct 28, 2014 at 10:28 PM, Wes Freeman <[email protected]> wrote: > How about this? Defer predicates until you match more than you need, then > double check what you need to confirm in WHERE. > > MATCH (c:circle) > OPTIONAL MATCH (c)-->(s:square) > WITH c, s > WHERE c.id = 4 > OR ((c)-->(s) AND s.id < 4) > RETURN c,s > > Wes > > On Wed, Oct 29, 2014 at 1:13 AM, S. Kai Chen <[email protected]> > wrote: > >> Hi, Michael, >> >> Thanks for the quick response! And sorry about my own late reply: I had >> to go to a meeting right after I sent the first post and have just gotten >> back right now. >> >> Interesting suggestion with using path expression and collection >> predicates. How would you include an optional path here? Is there a way >> to return the 4th circle, which won't match in the path? >> >> I agree union is a clearer way to write it, especially when there are >> only 2 subsets. However, I'm concerned about situations where one needs to >> include more subsets, sometimes maybe 4 or 5 or more. With compound >> criteria, it's easier to read when all the conditions are in the where >> clause -- to me at least. >> >> What makes it harder for me is that I'm generating the Cypher queries >> dynamically, based on a tiny query language that the user puts together >> using a web UI (originally through a lot of NOT|AND|OR dropdowns but now >> with a rich editor embellished with auto-complete). So essentially the >> query comes in the form of such-and-such-class-with-these-properties; it >> gets compiled and then gets translated into Cypher after it passes >> validation. >> >> It's definitely a lot easier to translate that user query into a Cypher >> that actually allows new identifiers in the predicate; a lot more work to >> do the translation in terms of union -- maybe even more than what I might >> spend implementing the identifier in the predicates in Cypher. >> >> Does that make sense or would some examples with the more complex type of >> queries help? >> >> Cheers, >> Kai >> >> >> On Tue, Oct 28, 2014 at 6:54 PM, Michael Hunger < >> [email protected]> wrote: >> >>> You can also do number 3) because you actually don't need "s" >>> >>> match (c:circle) where (c.id=4) or ( (c)-->(:square{id:1}) ) return c >>> >>> Only #4 is trickier but still possible, only not so nice to read :) >>> >>> *I think union is still the better choice here as you combine 2 >>> different use-cases:* >>> >>> match (c:circle)-->(s:square) where s.id < 4 return c,s >>> union match (c:circle{id:4}) optional match (c)-->(s) return c,s; >>> >>> But you can use a path expression as a collection of paths, which you >>> then can use in collection predicates (all, any, single, none) , filter, >>> extract, reduce. >>> >>> match (c:circle) >>> where any(p in (c)-->(:square) where last(nodes(p)).id <http://s.id/> < >>> 4) return c >>> >>> >>> >>> On Wed, Oct 29, 2014 at 2:12 AM, Kai Chen <[email protected]> >>> wrote: >>> >>>> Hi, >>>> >>>> I'm not sure if this is the right place to submit this. I was going to >>>> open an FR ticket on github but changed my mind because I thought maybe >>>> it's better to have a discussion here first. >>>> >>>> I've run into a couple of places where being able to say something like >>>> match (n ....) /* criteria doesn't involve binding an identifier n2 >>>> */ >>>> where n.prop > threshold or ( (n)-->(n2:label{qualifier:"value"}) >>>> and n2.prop < threshold ) >>>> would make the query a lot easier to read. I'm aware that, in the case >>>> of 'OR', I could use a union after using 2 separate match clauses. And >>>> that's what I've been going along with, until now when I need to >>>> dynamically translate a user query into Cypher. Here using union can >>>> become very complex, as the relationships can nest arbitrary levels deep. >>>> But if we had a syntax that can bind new identifiers in predicates, it >>>> would be very easy and, more importantly, very readable. >>>> >>>> I've prepared a few simple use cases below. (See attached image of the >>>> model) >>>> >>>> * Data Set >>>> >>>> Below creates a set of 7 nodes consisting of 4 circles, 2 squares, >>>> and 1 triangle. >>>> 2 circles point to 2 squares, 1 circle point to the triangle, and >>>> another circle is dangling. >>>> >>>> create (:circle{id:1})-[:uses]->(:square{id:1}); >>>> create (:circle{id:2})-[:uses]->(:square{id:2}); >>>> create (:circle{id:3})-[:uses]->(:triangle{id:3}); >>>> create (:circle{id:4}); >>>> >>>> * Verification >>>> >>>> neo4j-sh (?)$ match (c:circle) optional match (c)-[r]->(n) return c, >>>> labels(c), r, n, labels(n); >>>> >>>> +--------------------------------------------------------------------------+ >>>> | c | labels(c) | r | n | labels(n) >>>> | >>>> >>>> +--------------------------------------------------------------------------+ >>>> | Node[10]{id:1} | ["circle"] | :uses[7]{} | Node[11]{id:1} | >>>> ["square"] | >>>> | Node[12]{id:2} | ["circle"] | :uses[8]{} | Node[13]{id:2} | >>>> ["square"] | >>>> | Node[14]{id:3} | ["circle"] | :uses[9]{} | Node[15]{id:3} | >>>> ["triangle"] | >>>> | Node[16]{id:4} | ["circle"] | <null> | <null> | <null> >>>> | >>>> >>>> +--------------------------------------------------------------------------+ >>>> >>>> * Queries >>>> >>>> 1) Circles that don't point to any Squares >>>> This is easy and can be supported with the current syntax. >>>> >>>> neo4j-sh (?)$ match (c:circle) where not (c)-->(:square) return c; >>>> >>>> >>>> +----------------+ >>>> | c | >>>> +----------------+ >>>> | Node[14]{id:3} | >>>> | Node[16]{id:4} | >>>> +----------------+ >>>> >>>> 2) Circles that don't point Square(1) >>>> This can also be accomplished using the current syntax. So path is >>>> already supported; the only thing missing is to bind an identifier which >>>> would allow filtering with additional predicate expressions. >>>> >>>> neo4j-sh (?)$ match (c:circle) where not (c)-->(:square{id:1}) return c; >>>> +----------------+ >>>> | c | >>>> +----------------+ >>>> | Node[12]{id:2} | >>>> | Node[14]{id:3} | >>>> | Node[16]{id:4} | >>>> +----------------+ >>>> >>>> 3) Circles that point to Square(1) or with id(4) >>>> Here it's starting to get hairy. Union queries may also become >>>> grossly inefficient if the result sets are large. This is where >>>> identifier-binding in predicates can help make query more efficient and >>>> maybe easier to read also. >>>> >>>> neo4j-sh (?)$ match (c:circle{id:4}) return c >>>> > union match (c:circle)-->(s:square{id:1}) return c; >>>> +----------------+ >>>> | c | >>>> +----------------+ >>>> | Node[16]{id:4} | >>>> | Node[10]{id:1} | >>>> +----------------+ >>>> >>>> Would like to say >>>> match (c:circle) where (c.id=4) or ( (c)-->(s:square{id:1}) ) >>>> return c >>>> >>>> 4) (Circle, Square) where Circle is either id(4) or points to Squares >>>> with id < 4 >>>> This is where the union query is beginning to deteriorate in >>>> comprehensibility. One has to remember to use optional match. And I don't >>>> know what it would look like, if the optional match is 2 or 3 levels deep. >>>> Now imagine this is a portion of a larger query, where the 'c' nodes are >>>> found by matching in another pattern. Using the union would require one to >>>> duplicate that code in all the subsets. Having more shared predicates >>>> would have the same effect. >>>> >>>> neo4j-sh (?)$ match (c:circle)-->(s:square) where s.id < 4 return c,s >>>> > union match (c:circle{id:4}) optional match (c)-->(s) return c,s; >>>> +---------------------------------+ >>>> | c | s | >>>> +---------------------------------+ >>>> | Node[10]{id:1} | Node[11]{id:1} | >>>> | Node[12]{id:2} | Node[13]{id:2} | >>>> | Node[16]{id:4} | <null> | >>>> +---------------------------------+ >>>> >>>> >>>> Hope that was clear. And sorry for the long post. >>>> >>>> I also would be more than happy to help implement this if it's not too >>>> difficult and someone can point me to the right place to start -- it'd be a >>>> feature that I'd really use a lot. >>>> >>>> Cheers, >>>> Kai >>>> >>>> -- >>>> You received this message because you are subscribed to the Google >>>> Groups "Neo4j" group. >>>> To unsubscribe from this group and stop receiving emails from it, send >>>> an email to [email protected]. >>>> For more options, visit https://groups.google.com/d/optout. >>>> >>> >>> -- >>> You received this message because you are subscribed to a topic in the >>> Google Groups "Neo4j" group. >>> To unsubscribe from this topic, visit >>> https://groups.google.com/d/topic/neo4j/N5k06664XYI/unsubscribe. >>> To unsubscribe from this group and all its topics, send an email to >>> [email protected]. >>> For more options, visit https://groups.google.com/d/optout. >>> >> >> -- >> You received this message because you are subscribed to the Google Groups >> "Neo4j" group. >> To unsubscribe from this group and stop receiving emails from it, send an >> email to [email protected]. >> For more options, visit https://groups.google.com/d/optout. >> > > -- > You received this message because you are subscribed to a topic in the > Google Groups "Neo4j" group. > To unsubscribe from this topic, visit > https://groups.google.com/d/topic/neo4j/N5k06664XYI/unsubscribe. > To unsubscribe from this group and all its topics, send an email to > [email protected]. > For more options, visit https://groups.google.com/d/optout. > -- You received this message because you are subscribed to the Google Groups "Neo4j" group. 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