Aside from doing a direct match on something like a whitespace normalized hash of a query, what might be a useful (but-not-necessarily-perfect) way to handle query cache in a partial manner? For example, let's take the following basic case:

    Product,  # VARCHAR
    Revenue   # DOUBLE

This potentially could be used as a 'base-cache' upon which a further query could be executed to potentially improve performance:

    Product,  # VARCHAR
    Revenue   # DOUBLE
    Country='US' AND State='CA'

So, assuming the data in the from table(s) don't change, the following might serve as a starting point for determining cache:

  • fields: [field:type, ...] // can be less but not more
  • from: hash of table(s)+joins
  • filters: [filter1, filter2, ...] // can be less but not more
  • aggregations: [agg1, agg2, ...] // can be less but not more
  • having: [having1, having2, ...] // can be less but not more
  • order+limit+offset if limited result-set // can be less but not more

However, this becomes quite tricky when we think about something like the following case:

    ProductGroup AS Product,  # Would produce a Product:VARCHAR hash

What might be a realistic starting point for how a partial- query cache could be implemented.

Use case: writing SQL to query data in a non-DBMS-managed source, such as a CSV file which will take ~20s or so to issue any query and we cannot create indexes on the file. https://en.wikipedia.org/wiki/SQL/MED or Spark-like.

  • Are you using any real world DBMS (which you forgot to tag) and should this solve a real world performance problem? Then you likely just want to create indexes on (country) and (country, state) (or even include the projected column like (country, product, revenue) and (country, state, product, revenue) (or include productgroup as well or have an extra set of indexes for that)) and be done.
    – sticky bit
    Nov 3, 2021 at 23:41
  • @stickybit not really it's more for querying a non-managed source, such as a CSV/Parquet/etc. file from a database (something like federated data access, where queries take a long time and no option for indexes).
    – David542
    Nov 3, 2021 at 23:51
  • 1
    OK. But why cannot you create indexes but caches?
    – sticky bit
    Nov 3, 2021 at 23:54
  • @stickybit cache is the application layer. i.e., we store the cache data remotely so we don't even have to hit the file at all.
    – David542
    Nov 3, 2021 at 23:55
  • As I imagine it, you're programming said application layer? Then you could also implement (covering) indexes there?
    – sticky bit
    Nov 3, 2021 at 23:57

1 Answer 1


I think the following might be a good starting place for a basic cache implementation that allows the usage of a cache that can be further queried for refinements:

  1. Start by substituting any udf's or cte's. The query itself needs to be self-contained.
  2. Normalize whitespaces and capitalization.
  3. Hash the entire query. This will be our starting place.
  4. Remove the select fields and hash the rest of the query. Now store a hash of all the individual items in the select list.
  5. For partial cache, generate a hash minus select fields, where, sort, and limit+offset. Hash the where's list (separated by AND), making sure no filter is contained in the cache that is not contained in the current query, the orderby, seeing if the data needs to be re-sorted, and the limit+offset number, making sure the limit+offset in the initial query is null or greater than the current query.

Here would be an example of how the data might look saved:

Hash 673c0185c6a580d51266e78608e8e9b2
HashMinusFields 41257d239fb19ec0ccf34c36eba1948e
HashOfFields [dc99e4006c8a77025c0407c1fdebeed3, …]
HashMinusFieldsWhereOrderLimit d50961b6ca0afe05120a0196a93726f5
HashOfWheres [0519669bae709d2efdc4dc8db2d171aa, ...]
HashOfOrder 81961d1ff6063ed9d7515a3cefb0c2a5
LimitOffset null

Now let's try a few examples, I will use human-readable hashes for easier readability:

SELECT Name, Age FROM Sales WHERE id=2
-- fullHash:   selectname,agefromsaleswhereid=2
-- selectless: fromsaleswhereid=2
-- hashoffields: [name, age]
-- minusfieldswhereorderlimit: null
-- hashofwheres:  [id=2, ]
-- hashororder: null
-- limitoffset: null

-- query1
select age FROM sales where id=2
-- selectless: fromsaleswhereid=2
-- fields: [age] OK, all fields contained in initial fields

-- query2
select age FROM sales where id=2 and country='us' order by id limit 100 
-- minusfieldswhereorderlimit: null
-- hashofwheres: [id=2, country=us] OK initial query does not contain any additional filters
-- limitoffset: 100 OK initial limitoffset is null (infinity)
-- hashorder: orderbyid
--> Can grab partial cache, need to apply one filter and re-sort/limit:
    --> SELECT * FROM <cache> WHERE country='us' order by id limit 100

Does the above seem like a valid initial implementation?

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