I'm going to add a somewhat longer and more detailed explanation of the steps to take to solve this problem. I apologize if it's too long.

I'll start out with the base you've given and use it to define a couple of terms that I'll use for the rest of this post. This will be the **base table**:

```
select * from history;
+--------+----------+-----------+
| hostid | itemname | itemvalue |
+--------+----------+-----------+
| 1 | A | 10 |
| 1 | B | 3 |
| 2 | A | 9 |
| 2 | C | 40 |
+--------+----------+-----------+
```

This will be our goal, the **pretty pivot table**:

```
select * from history_itemvalue_pivot;
+--------+------+------+------+
| hostid | A | B | C |
+--------+------+------+------+
| 1 | 10 | 3 | 0 |
| 2 | 9 | 0 | 40 |
+--------+------+------+------+
```

Values in the `history.hostid`

column will become **y-values** in the pivot table. Values in the `history.itemname`

column will become **x-values** (for obvious reasons).

When I have to solve the problem of creating a pivot table, I tackle it using a three-step process (with an optional fourth step):

- select the columns of interest, i.e.
**y-values** and **x-values**
- extend the base table with extra columns -- one for each
**x-value**
- group and aggregate the extended table -- one group for each
**y-value**
- (optional) prettify the aggregated table

Let's apply these steps to your problem and see what we get:

**Step 1: select columns of interest**. In the desired result, `hostid`

provides the **y-values** and `itemname`

provides the **x-values**.

**Step 2: extend the base table with extra columns**. We typically need one column per x-value. Recall that our x-value column is `itemname`

:

```
create view history_extended as (
select
history.*,
case when itemname = "A" then itemvalue end as A,
case when itemname = "B" then itemvalue end as B,
case when itemname = "C" then itemvalue end as C
from history
);
select * from history_extended;
+--------+----------+-----------+------+------+------+
| hostid | itemname | itemvalue | A | B | C |
+--------+----------+-----------+------+------+------+
| 1 | A | 10 | 10 | NULL | NULL |
| 1 | B | 3 | NULL | 3 | NULL |
| 2 | A | 9 | 9 | NULL | NULL |
| 2 | C | 40 | NULL | NULL | 40 |
+--------+----------+-----------+------+------+------+
```

Note that we didn't change the number of rows -- we just added extra columns. Also note the pattern of `NULL`

s -- a row with `itemname = "A"`

has a non-null value for new column `A`

, and null values for the other new columns.

**Step 3: group and aggregate the extended table**. We need to `group by hostid`

, since it provides the y-values:

```
create view history_itemvalue_pivot as (
select
hostid,
sum(A) as A,
sum(B) as B,
sum(C) as C
from history_extended
group by hostid
);
select * from history_itemvalue_pivot;
+--------+------+------+------+
| hostid | A | B | C |
+--------+------+------+------+
| 1 | 10 | 3 | NULL |
| 2 | 9 | NULL | 40 |
+--------+------+------+------+
```

*(Note that we now have one row per y-value.)* Okay, we're almost there! We just need to get rid of those ugly `NULL`

s.

**Step 4: prettify**. We're just going to replace any null values with zeroes so the result set is nicer to look at:

```
create view history_itemvalue_pivot_pretty as (
select
hostid,
coalesce(A, 0) as A,
coalesce(B, 0) as B,
coalesce(C, 0) as C
from history_itemvalue_pivot
);
select * from history_itemvalue_pivot_pretty;
+--------+------+------+------+
| hostid | A | B | C |
+--------+------+------+------+
| 1 | 10 | 3 | 0 |
| 2 | 9 | 0 | 40 |
+--------+------+------+------+
```

And we're done -- we've built a nice, pretty pivot table using MySQL.

Considerations when applying this procedure:

- what value to use in the extra columns. I used
`itemvalue`

in this example
- what "neutral" value to use in the extra columns. I used
`NULL`

, but it could also be `0`

or `""`

, depending on your exact situation
- what aggregate function to use when grouping. I used
`sum`

, but `count`

and `max`

are also often used (`max`

is often used when building one-row "objects" that had been spread across many rows)
- using multiple columns for y-values. This solution isn't limited to using a single column for the y-values -- just plug the extra columns into the
`group by`

clause (and don't forget to `select`

them)

Known limitations:

- this solution doesn't allow n columns in the pivot table -- each pivot column needs to be manually added when extending the base table. So for 5 or 10 x-values, this solution is nice. For 100, not so nice. There are some solutions with stored procedures generating a query, but they're ugly and difficult to get right. I currently don't know of a good way to solve this problem when the pivot table needs to have lots of columns.