In 2014, we built a similar type event-driven system (but specifically for document distribution (a document can be distributed to a target set of entities; if a new entity is added, we need to resolve which distributions match)) and also ended up using Cypher via Neo4j (because of the complex taxonomical structure of how we mapped entities).
It is a super underrated query language and while most of the queries could also be translated to relational SQL, Cypher's linear construction using WITH clauses is far, far easier to reason about, IMO.
EDIT: feel like the devs went overboard with the mix of languages. Shoehorned in C# Blazor? Using JS and Jest for e2e testing?
> while most of the queries could also be translated to relational SQL, Cypher's linear construction using WITH clauses is far, far easier to reason about, IMO.
Didn't look too deeply, but one of the keys with Cypher (at least in the context of graph databases) is that it has a nice way of representing `JOIN` operations as graph traversals.
MATCH (p:Person)-[r]-(c:Company) RETURN p.Name, c.Name
Where `r` can represent any relationship (AKA `JOIN`) between the two collections `Person` and `Company` such as `WORKS_AT`, `EMPLOYED_BY`, `CONTRACTOR_FOR`, etc.
So I'd say that linear queries are one of the things I like about Cypher, but the clean abstraction of complex `JOIN` operations is another huge one.
> […] Where `r` can represent any relationship […]
… and «-[r]-» can represent any relationship direction, which obviates the need for constructing separate queries for inverse traversing relationships. Kinda like running a compiler forward and backward.
We made a health backend partly using Cypher and the only thing I found was the simple queries looked amazing, but as soon as you need to join non-linearly it started looking a lot like SQL again. And when you're using an ORM it stops mattering. And when you need migrations it gets painful!
At least in our use case, even with some very gnarly 20+ line Cypher queries, it never got to the point where it felt like SQL and certainly, those same queries would be even gnarlier as nested sub-selects, CTEs, or recursive selects, IMO.
Perhaps a characteristic of our model (a taxonomy of Region, Country, Sponsor, Program, Trial, Site, Staff for global clinical trials and documents required by Region/Country/Program/Trial).
presumably it has a semantic model of sorts, defining intrinsic relationships between entities (parent-child, composed-of, sibling-of, and so on)
A bit similar how certain joins in SQL can be very straightforward with the "USING" clause, or when it can rely on extra information such as analytic views to derive materialized views (vendor specific)
If you haven't been following it, I recently found out that it is now supported in a limited capacity by Google Spanner[0]. The openCypher initiative started a few years back and it looks like it's evolved into the (unfortunate moniker) GQL[1].
So it may be the case that we'll see more Cypher out in the wild.
In 2014, we built a similar type event-driven system (but specifically for document distribution (a document can be distributed to a target set of entities; if a new entity is added, we need to resolve which distributions match)) and also ended up using Cypher via Neo4j (because of the complex taxonomical structure of how we mapped entities).
It is a super underrated query language and while most of the queries could also be translated to relational SQL, Cypher's linear construction using WITH clauses is far, far easier to reason about, IMO.
EDIT: feel like the devs went overboard with the mix of languages. Shoehorned in C# Blazor? Using JS and Jest for e2e testing?
[0] https://drasi.io/reference/query-language/