The way I would approach this problem is much different from the approaches given in other answers.
The approach I would use would be to
1) order the rows, first by
imei, and then by
datetime within each
imei. (I'm assuming that
datetime is how you are going to determine if a row is "previous" to another row.
2) sequentially process the rows, first comparing
imei from the current row to the
imei from the previous row, and then checking if the
ACC from the current row is
1 and the
ACC from the previous row is
0. Then I would know that the current row was a row to be returned.
3) for each processed row, in the resultset, include a column that indicates whether the row should be returned or not
4) return only the rows that have the indicator column set
A query something like this:
FROM ( SELECT IF(s.imei=@prev_imei AND s.acc=1 AND @prev_acc=0,1,0) AS ret
, s.code AS code
, @prev_imei := s.imei AS imei
, @prev_acc := s.acc AS acc
, s.datetime AS datetime
FROM (SELECT @prev_imei := NULL, @prev_acc := NULL) i
JOIN `status` s
WHERE s.imei = '123456789012345'
ORDER BY s.imei, s.datetime, s.code
WHERE t.ret = 1
(I can unpack that a bit, to explain how it works.)
But the big drawback of this approach is that it requires MySQL to materialize the inline view as a derived table (temporary MyISAM table). If there was no predicate (WHERE clause) on the
status table, the inline view would essentially be a copy of the entire
status table. And with MySQL 5.5 and earlier, that derived table won't be indexed. So, this could present a performance issue for large sets.
Including predicates (e.g.
WHERE s.imei = '123456789' to limit rows from the
status table in the inline view query may sufficiently limit the size of the temporary MyISAM table.
The other gotcha with this approach is that the behavior of user-defined variables in the statement is not guaranteed. But we do observe a consistent behavior, which we can make use of; it does work, but the MySQL documentation warns that the behavior is not guaranteed.
Here's a rough overview of how MySQL processes this query.
First, MySQL runs the query for the inline view aliased as
i. We don't really care what this query returns, except that we need it to return exactly one row, because of the JOIN operation. What we care about is the initialization of the two MySQL user-defined variables,
@prev_acc. Later, we are going to use these user-defined variables to "preserve" the values from the previously processed row, so we can compare those values to the current row.
The rows from the
status table are processed in sequence, according to the ORDER BY clause. (This may change in some future release, but we can observe that it works like this in MySQL 5.1 and 5.5.)
For each row, we compare the values of
acc from the current row to the values preserved from the previous row. If the boolean in the IF expression evaluates to TRUE, we return a 1, to indicate that this row should be returned. Otherwise, we return a 0, to indicate that we don't want to return this row. (For the first row processed, we previously initialized the user-defined variables to NULL, so the IF expression will evaluate to 0.)
@prev_imei := s.imei and
@prev_acc := s.acc assigns the values from the current row to the user-defined values, so they will be available for the next row processed.
Note that it's important that the tests of the user-defined variables (the first expression in the SELECT list) before we overwrite the previous values with the values from the current row.
We can run just the query from the inline view
t, to observe the behavior.
The outer query returns rows from the inline view that have the derived
ret column set to a 1, rows that we wanted to return.