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I want to be able to do is sum up the time for each "episode" of time the ID is with one group and than get the first episode time for NC to C and C to NC and also the last episode time from NC to C and C to NC In the table below I manually added the GRP_Time column. Also I have added the end result table

This is the metric I'm trying to generate systematically.

ID    ASSign_ID  GRP      Time            GRP_Time   
11    1788       NC       6             
11    1802       NC       1               7
11    2995       C        7               7
11    5496       NC       11              11
11    6077       C        2 
11    6216       C        2
11    6226       C        4               8  
11    6790       NC       5               5
12    1234       C        6               6
12    2345       NC       1               
12    3456       NC       8               9
12    4567       C       11              11
14    6789       C        2 
14    7890       C        2
14    8900       C        4               8  
14    8904       NC       5               5

Result Table

ID   First_ET_NC_C    First_ET_C_NC   LAST_ET_NC_C   LAST_ET_C_NC
11   7                7               11             8
12   9                6                9             6 
14   -                8                -             8
share|improve this question

3 Answers 3

Try this:

with seq as 
(    
  select tbl.*, 
      row_number() over(order by assign_id) rn  -- naturalized the order
  from tbl
),
grp as 
(
  select cr.*,          
     sum(case when cr.grp = pr.grp or pr.grp is null then 0 else 1 end)
     over(order by cr.rn) gn      
  from seq cr -- current row
  left join seq pr -- previous row
  on pr.rn = cr.rn - 1
)
,run as
(
  select grp.*,
      sum(time) over(partition by gn order by rn) as run_tot
  from grp
)
select 
   id, assign_id, grp, time,
   case when max(rn) over(partition by gn) <> rn then 
      null
   else
      run_tot
   end as run_total
from run r;

Output:

ID        ASSIGN_ID GRP       TIME      RUN_TOTAL
11        1788      NC        6         (null)
11        1802      NC        1         7
11        2995      C         7         7
11        5496      NC        11        11
11        6077      C         2         (null)
11        6216      C         2         (null)
11        6226      C         4         8
11        6790      NC        5         5

Live test: http://www.sqlfiddle.com/#!4/faacc/1


How it works:

ID        ASSIGN_ID GRP       TIME      RN        GN
11        1788      NC        6         1         0
11        1802      NC        1         2         0
11        2995      C         7         3         1
11        5496      NC        11        4         2
11        6077      C         2         5         3
11        6216      C         2         6         3
11        6226      C         4         7         3
11        6790      NC        5         8         4

We basically need to assign a group number(GN column) to a contiguous grp. Then from that we can do a running total partitioned by GN

You can see the progression of the query here: http://www.sqlfiddle.com/#!4/faacc/1

Each step builds on the top of the previous step. Just scroll down to see how the solution progresses


EDIT

The query could be shortened, since your report doesn't show the running of total on each row, and it only shows on last row, instead of sum(time) over(partition by gn order by rn) as run_tot, we could just do sum(time) over(partition by gn) as run_tot, i.e. we remove the order by rn; then detect if the row is the last row, if it is then do the sum over, otherwise show null.

Final query:

with seq as 
(

  select

     tbl.*, 
     row_number() over(order by assign_id) rn  -- naturalized the order
  from tbl
),
grp as 
(
  select 

     cr.*,

     sum(case when cr.grp = pr.grp or pr.grp is null then 0 else 1 end)
     over(order by cr.rn) gn

  from seq cr -- current row
  left join seq pr -- previous row
  on pr.rn = cr.rn - 1
)
select
     grp.*,

     case when max(rn) over(partition by gn) <> rn then -- if not last row
        null
     else -- if last row
        sum(time) over(partition by gn) 
     end as running_total
from grp;

Live test: http://www.sqlfiddle.com/#!4/faacc/7



EDIT

Regarding multiple ID, e.g. 6790:

ID        ASSIGN_ID GRP       TIME
11        1788      NC        6
11        1802      NC        1
11        2995      C         7
11        5496      NC        11
11        6077      C         2
11        6216      C         2
11        6226      C         4
11        6790      NC        5
12        6790      NC        1
12        6791      NC        3
12        6792      NC        1
12        6793      NC        4
12        6794      C         1
12        6795      C         6
12        6797      C         8
13        6793      C         1
13        6794      C         4
13        6795      C         3

There's two similar ASSIGN_ID, e.g. 6790, yet it belong on a bigger group(on ID, for 11 and 12), so in order to segregate those two group, we must partition them by ID.

Here's the final query, note the added this on comments: http://www.sqlfiddle.com/#!4/83789/2

with seq as 
(    
  select tbl.*, 

     -- added this: partition by id
     -- naturalized the order: rn       
     row_number() over(partition by id order by assign_id) rn  
  from tbl
)
,grp as 
(
  select cr.*,        

     -- added this: partition by cr.id
     sum(case when cr.grp = pr.grp then 0 else 1 end)
     over(partition by cr.id order by cr.rn) gn      
  from seq cr -- current row
  left join seq pr -- previous row
  on 
    pr.id = cr.id -- added this
    and pr.rn = cr.rn - 1
)
select id, assign_id, grp, time, 

     -- added this: partition by id
     case when max(rn) over(partition by id,gn) <> rn then 
        null
     else
        -- added this: partition by id
        sum(time) over(partition by id,gn) 
     end as running_total
from grp
order by id, rn;

Output:

ID        ASSIGN_ID GRP       TIME      RUNNING_TOTAL
11        1788      NC        6         (null)
11        1802      NC        1         7
11        2995      C         7         7
11        5496      NC        11        11
11        6077      C         2         (null)
11        6216      C         2         (null)
11        6226      C         4         8
11        6790      NC        5         5
12        6790      NC        1         (null)
12        6791      NC        3         (null)
12        6792      NC        1         (null)
12        6793      NC        4         9
12        6794      C         1         (null)
12        6795      C         6         (null)
12        6797      C         8         15
13        6793      C         1         (null)
13        6794      C         4         (null)
13        6795      C         3         8

How that works, note the ID and GN:

ID        ASSIGN_ID GRP       TIME      RN        GN        RUNNING_TOTAL
11        1788      NC        6         1         1         (null)
11        1802      NC        1         2         1         7
11        2995      C         7         3         2         7
11        5496      NC        11        4         3         11
11        6077      C         2         5         4         (null)
11        6216      C         2         6         4         (null)
11        6226      C         4         7         4         8
11        6790      NC        5         8         5         5
12        6790      NC        1         1         1         (null)
12        6791      NC        3         2         1         (null)
12        6792      NC        1         3         1         (null)
12        6793      NC        4         4         1         9
12        6794      C         1         5         2         (null)
12        6795      C         6         6         2         (null)
12        6797      C         8         7         2         15
13        6793      C         1         1         1         (null)
13        6794      C         4         2         1         (null)
13        6795      C         3         3         1         8

See the query progression here: http://www.sqlfiddle.com/#!4/83789/2


UPDATE Try to use this one, it's more concise and readable: http://stackoverflow.com/a/10629498

share|improve this answer
    
I like how showed the breakouts of the different queries, however if you're going the ROW_NUMBER() route its probably safe to assume that assign_id is a sequence id but its not guaranteed to be contiguous for a given ID. So I would do ROW_NUBMER OVER (PARTITION BY ID, ORDER BY ASSIGN_ID) instead of ORDER BY (NULL) –  Conrad Frix May 16 '12 at 18:07
    
Yep, it's only now I noticed that the assign_id is already sequential, I removed the order by null already. I thought the OP's data has no available sequential column(I made one and just follow the natural order based on INSERT order, hence the order by null), upon realizing assign_id is already sequential, I removed the order by null immediately –  Michael Buen May 16 '12 at 18:09
    
Nice +1 btw I'm totally stealing your progression of queries idea –  Conrad Frix May 16 '12 at 18:16
    
You flatten first the result of your previous query, and you put it in CTE, you give it an alias, say tbl for example. Then that tbl will be easier to manage as it provides you a flatter view of your query; then you assign a row_number on that tbl, then you put it on another CTE, then you give it an alias, say seq (as in sequential); then after that, you can easily join the current row of seq to its previous row –  Michael Buen May 16 '12 at 18:58
    
Thanks Michael, I was able to put in in ym query but now what is happening is since I have multiple ID it suming up everything but I wanted it per ID –  user1399137 May 16 '12 at 19:51

I'm so bent on my previous answer to use row_number, on my presumption that there's no good candidate for sorting rows(in fact I do an ORDER BY NULL at first code iteration, to make it explicit that the code rely on physical ordering of the rows). I should have started from the clean slate already when I noticed that there's a natural order on your data.

The id + assign_id is a natural fit for partitioning rows and ordering, we could formulate a simpler query then, we could just use LAG.

This is the shortest and simplest query: http://www.sqlfiddle.com/#!4/b6c14/3

with hm as -- headers marked
(
    select tbl.*,

      case when lag(grp) over(partition by id order by assign_id) = grp then 
        0 
      else 
        1 
      end mark_header

    from tbl
)
,grp as -- grouping
(
    select 
      hm.*,

      -- gn: group number
      sum(mark_header) over(partition by id order by assign_id) as gn
    from hm
)
select -- final query
    id, assign_id, grp, time,

    case when max(assign_id) over(partition by id,gn) = assign_id then
       sum(time) over(partition by id,gn) 
    else
       null
    end as running_total
from grp
order by id, assign_id;

Output:

ID        ASSIGN_ID GRP       TIME      RUNNING_TOTAL
11        1788      NC        6         (null)
11        1802      NC        1         7
11        2995      C         7         7
11        5496      NC        11        11
11        6077      C         2         (null)
11        6216      C         2         (null)
11        6226      C         4         8
11        6790      NC        5         5
12        6790      NC        1         (null)
12        6791      NC        3         (null)
12        6792      NC        1         (null)
12        6793      NC        4         9
12        6794      C         1         (null)
12        6795      C         6         (null)
12        6797      C         8         15
13        6793      C         1         (null)
13        6794      C         4         (null)
13        6795      C         3         8

How that works, note the ID and GN, that's where we build upon our running total:

ID        ASSIGN_ID GRP       TIME      MARK_HEADER  GN
11        1788      NC        6         1            1
11        1802      NC        1         0            1
11        2995      C         7         1            2
11        5496      NC        11        1            3
11        6077      C         2         1            4
11        6216      C         2         0            4
11        6226      C         4         0            4
11        6790      NC        5         1            5
12        6790      NC        1         1            1
12        6791      NC        3         0            1
12        6792      NC        1         0            1
12        6793      NC        4         0            1
12        6794      C         1         1            2
12        6795      C         6         0            2
12        6797      C         8         0            2
13        6793      C         1         1            1
13        6794      C         4         0            1
13        6795      C         3         0            1

See the progression here: http://www.sqlfiddle.com/#!4/b6c14/3


Could be Oracle-optimized (use DECODE instead of CASE WHEN): http://www.sqlfiddle.com/#!4/b6c14/6

with hm as -- headers marked
(
    select tbl.*,

      decode(lag(grp) over(partition by id order by assign_id), grp, 0, 1)
         as mark_header

    from tbl
)
,grp as -- grouping
(
    select 
      hm.*,

      sum(mark_header) over(partition by id order by assign_id) as gn
    from hm
)
select -- final query
    id, assign_id, grp, time,

    decode(max(assign_id) over(partition by id,gn), assign_id,           
       sum(time) over(partition by id,gn), null) as running_total 

from grp
order by id, assign_id;
share|improve this answer

You can use the following query on Oracle only since it uses LAG()

SELECT Table1.ID, 
       Table1.ASSign_ID, 
       Table1.GRP, 
       Table1.TIME, 
       grpSum.GRP_TIME 
FROM   Table1 
       left join (SELECT ID, 
                         MAX(ASSIGN_ID) ASSIGN_ID, 
                         SUM(TIME)      GRP_TIME 
                  FROM   (SELECT ID, 
                                 ASSIGN_ID, 
                                 GRP, 
                                 TIME, 
                                 SUM(GC) over (PARTITION BY GRP ORDER BY ID, ASSIGN_ID ) g 
                          FROM   (SELECT ID, 
                                         ASSIGN_ID, 
                                         GRP, 
                                         TIME, 
                                         CASE 
                                           WHEN GRP = Lag(GRP) over (ORDER BY ID, ASSIGN_ID) 
                                               THEN  0 
                                               ELSE 1 
                                         END gc 
                                  FROM   TABLE1) a) b
                  GROUP  BY ID, 
                            GRP, 
                            g) grpSum 
         ON table1.ID = grpSum.ID 
            AND table1.ASSIGN_ID = grpSum.ASSIGN_ID 
ORDER BY Table1.ID, 
         Table1.ASSign_ID

DEMO

Gaps and Islands solutions are a little difficult to describe but here's what each part does

  • The inner most query "A" uses LAG to assign a 1 to first item in a "episode" and then 0 for every member aftwards.

  • The next query "B" uses SUM OVER to assign each member of a "episode" the same identifier. Note the same identifier will be used for different episode if the GRP is different

  • The query grpSum just does a sum for the time for each "episode" and Identifies the largest Assing_ID as the last time in the "episode"

  • Then we left join the original table on the ID and do the projection.

I'm stealing Michael's progression demonstration idea

You can see the progression of the subqueries here (scroll down)

Note: you can use also use the CASE MAX OVER and SUM OVER technique from Micheal's answer to remove the LEFT JOIN and grpSUM query

SELECT ID, 
       ASSIGN_ID, 
       GRP, 
       TIME, 
       CASE 
         WHEN Max(ASSIGN_ID) OVER (partition BY ID, GRP, G) = ASSIGN_ID THEN 
         SUM (TIME) OVER (partition BY ID, GRP, G) 
         ELSE NULL 
       END GRP_TIME 
FROM   (SELECT ID, 
               ASSIGN_ID, 
               GRP, 
               TIME, 
               Sum(GC) OVER (partition BY GRP ORDER BY ID, ASSIGN_ID ) g 
        FROM   (SELECT ID, 
                       ASSIGN_ID, 
                       GRP, 
                       TIME, 
                       CASE 
                         WHEN GRP = Lag(GRP) OVER (ORDER BY ID, ASSIGN_ID) THEN 
                         0 
                         ELSE 1 
                       END gc 
                FROM   TABLE1) a) b
    ORDER BY ID, 
             ASSign_ID

DEMO

share|improve this answer
    
Sample with multiple IDs can be found at sqlfiddle.com/#!4/64a0e/1 –  Conrad Frix May 16 '12 at 20:27

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