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So this might be a bit silly, but the alternative I was using is worse. I am trying to write an excel sheet using data from my database and a PHP tool called Box/Spout. The thing is that Box/Spout reads rows one at a time, and they are not retrieved via index ( e.g. rows[10], rows[42], rows[156] )

I need to retrieve data from the database in the order the rows come out. I have a database with a list of customers, that came in via Import and I have to write them into the excel spreadsheet. They have phone numbers, emails, and an address. Sorry for the confusion... :/ So I compiled this fairly complex query:

SELECT
      `Import`.`UniqueID`,
      `Import`.`RowNum`,
      `People`.`PeopleID`,
      `People`.`First`,
      `People`.`Last`,
      GROUP_CONCAT(
        DISTINCT CONCAT_WS(',', `PhonesTable`.`Phone`, `PhonesTable`.`Type`)
          ORDER BY `PhonesTable`.`PhoneID` DESC
          SEPARATOR ';'
      ) AS `Phones`,
      GROUP_CONCAT(
        DISTINCT CONCAT_WS(',', `EmailsTable`.`Email`)
          ORDER BY `EmailsTable`.`EmailID` DESC
          SEPARATOR ';'
      ) AS `Emails`,
      `Properties`.`Address1`,
      `Properties`.`city`,
      `Properties`.`state`,
      `Properties`.`PostalCode5`,
      ...(17 more `People` Columns)...,
      FROM `T_Import` AS `Import`
      LEFT JOIN `T_CustomerStorageJoin` AS `CustomerJoin` 
        ON `Import`.`UniqueID` = `CustomerJoin`.`ImportID`
      LEFT JOIN `T_People` AS `People` 
        ON `CustomerJoin`.`PersID`=`People`.`PeopleID`
      LEFT JOIN `T_JoinPeopleIDPhoneID` AS `PeIDPhID` 
        ON `People`.`PeopleID` = `PeIDPhID`.`PeopleID`
      LEFT JOIN `T_Phone` AS `PhonesTable` 
        ON `PeIDPhID`.`PhoneID`=`PhonesTable`.`PhoneID`
      LEFT JOIN `T_JoinPeopleIDEmailID` AS `PeIDEmID` 
        ON `People`.`PeopleID` = `PeIDEmID`.`PeopleID`
      LEFT JOIN `T_Email` AS `EmailsTable` 
        ON `PeIDEmID`.`EmailID`=`EmailsTable`.`EmailID`
      LEFT JOIN `T_JoinPeopleIDPropertyID` AS `PeIDPrID` 
        ON `People`.`PeopleID` = `PeIDPrID`.`PeopleID` 
        AND `PeIDPrID`.`PropertyCP`='CurrentImported'
      LEFT JOIN `T_Property` AS `Properties` 
        ON `PeIDPrID`.`PropertyID`=`Properties`.`PropertyID`
      WHERE `Import`.`CustomerCollectionID`=$ccID
        AND `RowNum` >= $rnOffset 
        AND `RowNum` < $rnLimit 
      GROUP BY `RowNum`;

So I have indexes on every ON segment, and the WHERE segment. When RowNumber is like around 0->2500 in value, the query runs great and executes within a couple seconds. But it seems like the query execution time exponentially multiplies the larger RowNumber gets.

I have an EXPLAIN here: and at pastebin( https://pastebin.com/PksYB4n2 )

id  select_type table         partitions  type    possible_keys                     key                   key_len   ref                                          rows    filtered    Extra
1   SIMPLE      Import        NULL        ref     CustomerCollectionID,RowNumIndex  CustomerCollectionID  4         const                                        48108   8.74        Using index condition; Using where; Using filesort;
1   SIMPLE      CustomerJoin  NULL        ref     ImportID                          ImportID              4         MyDatabase.Import.UniqueID                       1   100         NULL
1   SIMPLE      People        NULL        eq_ref  PRIMARY,PeopleID                  PRIMARY               4         MyDatabase.CustomerJoin.PersID                   1   100         NULL
1   SIMPLE      PeIDPhID      NULL        ref     PeopleID                          PeopleID              5         MyDatabase.People.PeopleID                       8   100         NULL
1   SIMPLE      PhonesTable   NULL        eq_ref  PRIMARY,PhoneID,PhoneID_2         PRIMARY               4         MyDatabase.PeIDPhID.PhoneID                      1   100         NULL
1   SIMPLE      PeIDEmID      NULL        ref     PeopleID                          PeopleID              5         MyDatabase.People.PeopleID                       5   100         NULL
1   SIMPLE      EmailsTable   NULL        eq_ref  PRIMARY,EmailID,DupeDeleteSelect  PRIMARY               4         MyDatabase.PeIDEmID.EmailID                      1   100         NULL
1   SIMPLE      PeIDPrID      NULL        ref     PeopleMSCP,PeopleID,PropertyCP    PeopleMSCP            5         MyDatabase.People.PeopleID                       4   100         Using where
1   SIMPLE      Properties    NULL        eq_ref  PRIMARY,PropertyID                PRIMARY               4         MyDatabase.PeIDPrID.PropertyID                   1   100         NULL

I apologize if the formatting is absolutely terrible. I'm not sure what good formatting looks like so I may have jumbled it a bit on accident, plus the tabs got screwed up.

What I want to know is how to speed up the query time. The databases are very large, like in the 10s of millions of rows. And they aren't always like this as our tables are constantly changing, however I would like to be able to handle it when they are.

I tried using LIMIT 2000, 1000 for example, but I know that it's less efficient than using an indexed column. So I switched over to RowNumber. I feel like this was a good decision, but it seems like MySQL is still looping every single row before the offset variable which kind of defeats the purpose of my index... I think? I'm not sure. I also basically split this particular query into about 10 singular queries, and ran them one by one, for each row of the excel file. It takes a LONG time... TOO LONG. This is fast, but, obviously I'm having a problem.

Any help would be greatly appreciated, and thank you ahead of time. I'm sorry again for my lack of post organization.

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  • Which table is column1 in?? – Rick James Feb 12 '20 at 23:17
  • I removed the PHP tag as this is strictly a MySQL question, but from what I can see of the package it is only concerned with reading and writing spreadsheets, not reading from databases. So any problems with "[reading] rows one at a time" would seem to come from other code that you've written. – miken32 Feb 12 '20 at 23:27
  • @RickJames Sorry, I know I jumbled this pretty bad. It's T8. I edited the query in my code and the question. – Pixelknight1398 Feb 13 '20 at 0:13
  • @miken32 You are correct, sorry for including the PHP tag, I was thinking about what languages I was using and PHP is one of them. Thank you. – Pixelknight1398 Feb 13 '20 at 0:13
  • @Pixelknight1398 - I updated my answer. – Rick James Feb 13 '20 at 3:36
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  • The order of the columns in an index matters. The order of the clauses in WHERE does not matter (usually).
  • INDEX(a), INDEX(b) is not the same as the "composite" INDEX(a,b). I deliberately made composite indexes where they seemed useful.
  • INDEX(a,b) and INDEX(b,a) are not interchangeable unless both a and b are tested with =. (Plus a few exceptions.)
  • A "covering" index is one where all the columns for the one table are found in the one index. This sometimes provides an extra performance boost. Some of my recommended indexes are "covering". It implies that only the index BTree need be accessed, not also the data BTree; this is where it picks up some speed.
  • In EXPLAIN SELECT ... a "covering" index is indicated by "Using index" (which is not the same as "Using index condition"). (Your Explain shows no covering indexes currently.)
  • An index 'should not' have more than 5 columns. (This is not a hard and fast rule.) T5's index had f5 columns to be covering; it was not practical to make a covering index for T2.

When JOINing, the order of the tables does not matter; the Optimizer is free to shuffle them around. However, these "rules" apply:

  • A LEFT JOIN may force ordering of the tables. (I think it does in this case.) (I ordered the columns based on what I think the Optimizer wants; there may be some flexibility.)
  • The WHERE clause usually determines which table to "start with". (You test on T1 only, so obviously it will start with T1.
  • The "next table" to be referenced (via NLJ - Nested Loop Join) is determined by a variety of things. (In your case it is pretty obvious -- namely the ON column(s).)

More on indexing: http://mysql.rjweb.org/doc.php/index_cookbook_mysql

Revised Query

1. Import:  (CustomerCollectionID,  -- '=' comes first
             RowNum,                -- 'range'
             UniqueID)              -- 'covering'
    Import shows up in WHERE, so is first in Explain; Also due to LEFTs
Properties:  (PropertyID)   -- is that the PK?
PeIDPrID:  (PropertyCP, PeopleID, PropertyID)
3. People:  (PeopleID)
    I assume that is the `PRIMARY KEY`?  (Too many for "covering")
    (Since `People` leads to 3 other table; I won't number the rest.)
EmailsTable:  (EmailID, Email)
PeIDEmID:  (PeopleID,    -- JOIN from People
            EmailID)     -- covering
PhonesTable:  (PhoneID, Type, Phone)
PeIDPhID:  (PeopleID, PhoneID)
2. CustomerJoin:  (ImportID,   -- coming from `Import` (see ON...)
                   PersID)     -- covering

After adding those, I expect most lines of EXPLAIN to say Using index.

The lack of at least a composite index on Import is the main problem leading to your performance complaint.

Bad GROUP BY

When there is a GROUP BY that does not include all the non-aggregated columns that are not directly dependent on the group by column(s), you get random values for the extras. I see from the EXPLAIN ("Rows") that several tables probably have multiple rows. You really ought to think about the garbage being generated by this query.

Curiously, Phones and Emails are feed into GROUP_CONCAT(), thereby avoiding the above issue, but the "Rows" is only 1.

(Read about ONLY_FULL_GROUP_BY; it might explain the issue better.)

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  • I made a terrible mistake in renaming the column names inconsistently as I can hardly understand my own question. I have indexes on all of the table columns listed in the ON sections, as well as the WHERE section of the query. Mostly because I thought this was where it would be important. I am curious how an index on f, d, and c would change anything? There is also an index that I added to column1 that I didn't have before but it didn't create a significant difference in query time. I am using LEFT because I need the entire row to exist even if data doesn't. Strict formatting. – Pixelknight1398 Feb 13 '20 at 23:44
  • @Pixelknight1398 - I added some more "rules" that I used to create my INDEXes. – Rick James Feb 14 '20 at 1:59
  • Okay thank you I appreciate your time. I understand what you mean by covering index, as well as composite indexes. I try to use composite indexes for large, important queries such as this one. My main question is, why include SELECT values as indexes? And two things to mention. One, is that I REALLY screwed up by trying to conceal the information in the query. SO I am going to work on editing it, AND the question. That may change your index recommendations. Due to heavy inserting processes, indexes are need be of high value. – Pixelknight1398 Feb 14 '20 at 2:33
  • I have updated the question, both with the actual query, and a better formatted explain including a pastebin. Would you by any chance be willing to reiterate your indexes with this? I apologize for being a giant idiot. Additionally I bookmarked your cookbook. Thank you. I had another MySQL helper months back recommend your webpage and I can't believe you are "the" Rick. Now I am ultimately embarrassed.... – Pixelknight1398 Feb 14 '20 at 3:02
  • I forgot to include in my last comments, is LEFT JOIN the only option for showing all rows regardless of if data is available or not? I used JOIN only and I only got 80% of the rows I needed. I understand LEFT might be restricting. Do you have suggestions? – Pixelknight1398 Feb 14 '20 at 3:10
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(I'm listing this as a separate Answer since it is orthogonal to my other Answer.)

I call this the "explode-implode" syndrome. The query does a JOIN, getting a bunch of rows, thereby generating several rows, and puts multiple rows into an intermediate table. Then the GROUP BY implodes back to down to the original set of rows.

Let me focus on a portion of the query that could be reformulated to provide a performance improvement:

SELECT ...
      GROUP_CONCAT(
        DISTINCT CONCAT_WS(',', `EmailsTable`.`Email`)
          ORDER BY `EmailsTable`.`EmailID` DESC
          SEPARATOR ';'
      ) AS `Emails`,
      ...
    FROM ...
      LEFT JOIN `T_Email` AS `EmailsTable` 
        ON `PeIDEmID`.`EmailID`=`EmailsTable`.`EmailID`
      ...
    GROUP BY `RowNum`;

Instead, move the table and aggregation function into a subquery

SELECT ...
      ( SELECT GROUP_CONCAT(
                DISTINCT CONCAT_WS(',', `Email`)
                    ORDER BY `EmailID` DESC
                    SEPARATOR ';' )
            FROM T_Email
            WHERE `PeIDEmID`.`EmailID` = `EmailID`
      ) AS `Emails`,
      ...
   FROM ...
      -- and Remove:  LEFT JOIN `T_Email` ON ...
      ...
      -- and possibly Remove:  GROUP BY ...;

Ditto for PhonesTable.

(It is unclear whether the GROUP BY can be removed; other things may need it.)

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  • Ahh I didn't even know this was possible! lol... Good thinking! I'll be sure to implement this. Thank you. – Pixelknight1398 Feb 16 '20 at 21:35
  • I wish I could mark both of these as answers/helpful – Pixelknight1398 Feb 16 '20 at 22:01
  • Quick question on this answer. The first example will give me a string like "email;email;email;". While the second only shows "email;" This is of course for conditions that allow for more than one email. i don't understand why this is the case but it is... I am going to break it down further and see if I did something wrong. The same can be said for the phones. – Pixelknight1398 Feb 17 '20 at 2:10
  • Hmmm... Check that DISTINCT was right inside GROUP_CONCAT(...). – Rick James Feb 17 '20 at 2:22
  • It is. The same result occurs whether it exists or not. To help, I basically copied and pasted your code and then just translated for phones. – Pixelknight1398 Feb 17 '20 at 2:45

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