how to construct range query in cassandra?

不打扰是莪最后的温柔 提交于 2019-12-05 05:34:09

Range queries is a prikly question. The way to perform a real range query is to use a compound primary key, making the range on the clustering part. Since the range is on clustering part you can't perform the queries you wrote: you need at least to have an equal condition on the whole partition key. Let's see an example:

CREATE TABLE users (
  mainland text,
  state text,
  uid int,
  name text,
  zip int,
  PRIMARY KEY ((mainland), state, uid)
) 

The uid is now an int just to make tests easier

insert into users (mainland, state, uid, name, zip) VALUES ( 'northamerica', 'washington', 1, 'john', 98100);
insert into users (mainland, state, uid, name, zip) VALUES ( 'northamerica', 'texas', 2, 'lukas', 75000);
insert into users (mainland, state, uid, name, zip) VALUES ( 'northamerica', 'delaware', 3, 'henry', 19904);
insert into users (mainland, state, uid, name, zip) VALUES ( 'northamerica', 'delaware', 4, 'dawson', 19910);
insert into users (mainland, state, uid, name, zip) VALUES ( 'centraleurope', 'italy', 5, 'fabio', 20150);
insert into users (mainland, state, uid, name, zip) VALUES ( 'southamerica', 'argentina', 6, 'alex', 10840);

Now the query can perform what you need:

 select * from users where mainland = 'northamerica' and state > 'ca' and state < 'ny';

Output

 mainland    | state    | uid | name   | zip
-------------+----------+-----+--------+-------
northamerica | delaware |   3 |  henry | 19904
northamerica | delaware |   4 | dawson | 19910

if you put an int (age, zipcode) as first column of the clustering key you can perform the same queries comparing integers.

TAKE CARE: most of people when looking at this situation starts thinking "ok, I can put a fake partition key that is always the same and then I can perform range queries". This is a huge error, the partition key is responsible for data distribution accross nodes. Setting a fix partition key means that all data will finish in the same node (and in its replica).

Dividing the world zone into 15/20 zones (in order to have 15/20 partition key) is something but is not enough and is made just to create a valid example.


EDIT: due to question's edit

I did not say that this is the only possibility; if you can't find a valid way to partition your users and need to perform this kind of query this is one possibility, not the only one. Range queries should be performed on clustering key portion. A weak point of the AGE as partition key is that you can't perform an UPDATE over it, anytime you need to update the user's age you have to perform a delete and an insert (an alternative could be writing the birth_year/birth_date and not the age, and then calculate client side)

To answer your question on adding a secondary index: actually queries on secondary index does not support IN operator. From the CQL message it looks like they're going to develop it soon

Bad Request: IN predicates on non-primary-key columns (xxx) is not yet supported

However even if secondary index would support IN operator your query wouldn't change from

select * from users where age IN (15,16,17,....30)

Just to clarify my concept: anything that does not have a "clean" and "ready" solution requires the effort of the user to model data in a way that satisfy its needs. To make an example (I don't say this is a good solution: I would not use it)

CREATE TABLE users (
  years_range text,
  age int,
  uid int,
  PRIMARY KEY ((years_range), age, uid)
)

put some data

insert into users (years_range, age , uid) VALUES ( '11_15', 14, 1);
insert into users (years_range, age , uid) VALUES ( '26_30', 28, 3);
insert into users (years_range, age , uid) VALUES ( '16_20', 16, 2);
insert into users (years_range, age , uid) VALUES ( '26_30', 29, 4);
insert into users (years_range, age , uid) VALUES ( '41_45', 41, 5);
insert into users (years_range, age , uid) VALUES ( '21_25', 23, 5);

query data

select * from users where years_range in('11_15', '16_20', '21_25', '26_30') and age > 14 and age < 29;

output

 years_range | age | uid
-------------+-----+-----
       16_20 |  16 |   2
       21_25 |  23 |   5
       26_30 |  28 |   3

This solution might solve your problem and could be used in a small cluster, where about 20 keys (0_5 ...106_110) might have a good distribution. But this solution, like the one before, does not allow an UPDATE and reduces the distribution of key. The advantage is that you have small IN sets.

In a perfect world where S.I. already allows IN clause I'd use the UUID as partition key, the years_range (set as birth_year_range) as S.I. and "filter" my data client side (if interested in 10 > age > 22 I would ask for IN('1991_1995', '1996_2000', '2001_2005', '2006_2010', '2011_2015') calculating and removing unuseful years on my application)

HTH, Carlo

I found that using allow filtering, I can query for range: example is here:

 CREATE TABLE users2 (
  mainland text,
  state text,
  uid int,
  name text,
  age int,
  PRIMARY KEY (uid, age, state)
) ;

insert into users2 (mainland, state, uid, name, age) VALUES ( 'northamerica', 'washington', 1, 'john', 81);
insert into users2 (mainland, state, uid, name, age) VALUES ( 'northamerica', 'texas', 1, 'lukas', 75);
insert into users2 (mainland, state, uid, name, age) VALUES ( 'northamerica', 'delaware', 1, 'henry', 19);
insert into users2 (mainland, state, uid, name, age) VALUES ( 'northamerica', 'delaware', 4, 'dawson', 90);
insert into users2 (mainland, state, uid, name, age) VALUES ( 'centraleurope', 'italy', 5, 'fabio', 50);
insert into users2 (mainland, state, uid, name, age) VALUES ( 'southamerica', 'argentina', 6, 'alex', 40);

select * from users2 where age>50 and age<=100 allow filtering;

    uid | age | state      | mainland     | name
-----+-----+------------+--------------+--------
   1 |  75 |      texas | northamerica |  lukas
   1 |  81 | washington | northamerica |   john
   2 |  75 |      texas | northamerica |  lukas
   4 |  90 |   delaware | northamerica | dawson

(4 rows)

I am not sure if this performance killer. But this seems to work. Infact, I don't even have to give the primary key which is uid in this case during query execution

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