Subtotal help in recursive query

  • Hi experts,

    i've following data in a recursive query:

    Par_IdIDABCDEFLevel

    Null022646000100022646\

    022646022426320000022646\022426\

    022646022532321000022646\022532\

    022646022540820000022646\022540\

    022646022557511000022646\022557\

    022646022650820000022646\022650\

    022646022737311000022646\022737\

    022646023683010000022646\023683\

    023683024089600000022646\023683\024089\

    023683024488131000022646\023683\024488\

    023683024863914000022646\023683\024863\

    These are the aspected results.

    Par_IdIDABCDEFLevel

    Null22646000100022646\

    G_Total621913100GrandTotal

    2264622426320000022646\022426\

    2264622532321000022646\022532\

    2264622540820000022646\022540\

    2264622557511000022646\022557\

    2264622650820000022646\022650\

    2264622737311000022646\022737\

    2264623683010000022646\023683\

    2368324089600000022646\023683\024089\

    2368324488131000022646\023683\024488\

    2368324863914000022646\023683\024863\

    23683Subtot1655000Subtotal - 23683

    in few words i need subtotal only for who have children.

    I tried with rollup but i wasn't able to have it similar to the aspected.

    I put it the level just to let clearer the dependencies...

    Thanks in advance

    Tony

  • this link will help you to get subtotals and grand totals

    http://www.sqlusa.com/bestpractices2005/subtotaltotalgrandtotal/

  • You could expand the hierarchy (i.e. create a direct relationship between each node and all of its parents) and then run your queries against the expanded hierarchy.

    This example does something along these lines, it might be of use as a starting point.

    -------------------------------

    -- create a temporary hierarchy

    -------------------------------

    create table #Hierarchy (HierarchyId int, ParentId int)

    insert #Hierarchy select 1,5

    insert #Hierarchy select 2,5

    insert #Hierarchy select 3,6

    insert #Hierarchy select 4,6

    insert #Hierarchy select 5,7

    insert #Hierarchy select 6,7

    insert #Hierarchy select 7,8

    insert #Hierarchy select 8,null

    alter table #Hierarchy add constraint pk_H primary key clustered (HierarchyId)

    -----------------------------------

    -- create a temporary "sales" table

    -----------------------------------

    create table #sales (Id int, A int, B int, C int)

    insert #sales values (1,10,4,4)

    insert #sales values (1,12,3,9)

    insert #sales values (1,7,30,0)

    insert #sales values (2,6,21,3)

    insert #sales values (3,1,5,6)

    insert #sales values (4,13,3,8)

    insert #sales values (5,4,4,5)

    ---------------------------------

    -- create a temporary tally table

    ---------------------------------

    -- we'll use this later to expand the hierarchy

    -- count in fours as this is all we need to split the binary identifiers

    if isnull(object_id('tempdb..#QuadTally'),0) <> 0

    begin

    drop table #QuadTally

    end

    ; with e1(n) as (

    select 1 union all select 1 union all select 1 union all

    select 1 union all select 1 union all select 1 union all

    select 1 union all select 1 union all select 1 union all

    select 1

    )

    , e2(n) as (select 1 from e1 a cross join e1 b) -- 1*10^2 or 100 rows - more than enough for our purposes

    select top (100) n = isnull(cast((row_number() over (order by (select null))-1) * 4 + 1 as int),0)

    into #QuadTally

    from e2

    -- add clustered index to the temporary tally table

    alter table #QuadTally add constraint pk_qt primary key clustered (n)

    ---------------------------------------------------------------

    -- create a temporary table with all hierarchical relationships

    ---------------------------------------------------------------

    /*

    The following cascading cte creates a direct column to column relationship

    for each member of the hierarchy with both itself and all of its upline records

    This allows very simple rollup of totals

    */

    ; with cteExpandedHierarchy as ( -- use a recursive cte to expand the hierarchy

    select ParentId

    , HierarchyId -- ANCHOR

    , SortPath = cast(cast(HierarchyId as binary(4)) as varbinary(4000))

    , Lv = 1

    from #Hierarchy anchor

    where ParentId is null

    union all

    select recurse.ParentId

    , recurse.HierarchyId -- CHILD NODES

    , SortPath = cast(cte.SortPath + cast(recurse.HierarchyId as binary(4)) as varbinary(4000)) -- concatenate HierarchyIds into the SortPath column

    , Lv = cte.Lv + 1

    from cteExpandedHierarchy cte

    join #Hierarchy recurse

    on cte.HierarchyId = recurse.ParentId

    )

    , cteSplit as ( -- expand the SortPath to create a direct relationship between each member and all of their parents

    select dval.HierarchyId

    , SuperiorId = cast(substring(dval.SortPath,qt.n,4) as int)

    , Lv

    from dbo.#QuadTally qt

    cross join cteExpandedHierarchy dval

    where qt.n between 1 and datalength(sortpath)

    )

    select *

    into #ExpandedHierarchy

    from cteSplit

    -- show the effect of joining to the table

    select *

    from #ExpandedHierarchy eh

    join #sales s

    on eh.HierarchyId = s.Id

    -- use the expanded hierarchy to get totals for each node's sales + children's sales

    -- where HierarchyId = SuperiorId, this is the actual value of the sales table for that member of the hierarchy

    select SuperiorId

    , sum(A) as sumA

    , sum(B) as sumB

    , sum(C) as sumC

    from #ExpandedHierarchy eh

    join #sales s

    on eh.HierarchyId = s.Id

    group by SuperiorId

    -- use the expanded hierarchy to get totals for each node with children - children's sales only at any level

    select SuperiorId

    , sum(case when HierarchyId = SuperiorId then 0 else A end) as sumA

    , sum(case when HierarchyId = SuperiorId then 0 else B end) as sumB

    , sum(case when HierarchyId = SuperiorId then 0 else C end) as sumC

    from #ExpandedHierarchy eh

    join #sales s

    on eh.HierarchyId = s.Id

    group by SuperiorId

    This borrows fairly heavily from Jeff Moden's "Hierarchies on Steroids", which I'd recommend reading if you haven't already:

    http://www.sqlservercentral.com/articles/T-SQL/94570/

    Regards, Iain

  • Tony,

    Can you provide some DDL (table definition and insert statements)?

    One way to accomplish this is traversing one level at a time in a procedural way. You can start from the leave nodes and using a temporary table to hold intermediate calculations. This approach tend to be the one with better performance.

    Another way is using the transitive closure of the DAG. This wait you can have a combination of each node with itself and all its subordinates, then you can join this to the sales table and group by the parent side.

    Transitive Closure

    http://sqlmag.com/t-sql/transitive-closure

    Calculate the Sum of Salaries in an Employee Tree

    http://sqlmag.com/t-sql/calculate-sum-salaries-employee-tree

    Thanks to "irebertson" for providing sample data.

    SET NOCOUNT ON;

    USE tempdb;

    GO

    create table #Hierarchy (HierarchyId int NOT NULL, ParentId int)

    insert #Hierarchy select 1,5

    insert #Hierarchy select 2,5

    insert #Hierarchy select 3,6

    insert #Hierarchy select 4,6

    insert #Hierarchy select 5,7

    insert #Hierarchy select 6,7

    insert #Hierarchy select 7,8

    insert #Hierarchy select 8,null

    alter table #Hierarchy add constraint pk_H primary key clustered (HierarchyId)

    -----------------------------------

    -- create a temporary "sales" table

    -----------------------------------

    create table #sales (Id int, A int, B int, C int)

    insert #sales values (1,10,4,4)

    insert #sales values (1,12,3,9)

    insert #sales values (1,7,30,0)

    insert #sales values (2,6,21,3)

    insert #sales values (3,1,5,6)

    insert #sales values (4,13,3,8)

    insert #sales values (5,4,4,5)

    GO

    WITH TC AS (

    SELECT

    HierarchyId AS PKey,

    HierarchyId AS SKey

    FROM

    #Hierarchy AS H1

    WHERE

    EXISTS (

    SELECT

    *

    FROM

    #Hierarchy AS H2

    WHERE

    H2.ParentId = H1.HierarchyId

    )

    UNION ALL

    SELECT

    P.PKey,

    C.HierarchyId AS SKey

    FROM

    TC AS P

    INNER JOIN

    #Hierarchy AS C

    ON C.ParentId = P.SKey

    )

    SELECT

    PKey,

    SUM(A) AS sum_A,

    SUM(B) AS sum_B,

    SUM(C) AS sum_C

    FROM

    TC

    INNER JOIN

    #sales AS S

    ON S.Id = TC.SKey

    GROUP BY

    TC.PKey

    GO

    DROP TABLE #Hierarchy, #sales;

    GO

  • Here other example data and how i solved it (in different way because wasn't able to have GrandTotal and SubTotal as i wanted)

    declare @TestData table(

    [Par_Id] [varchar](6) NULL,

    [ID] [varchar](6) NULL,

    [A] [int] NULL,

    [int] NULL,

    [C] [int] NULL,

    [D] [int] NULL,

    [E] [int] NULL,

    [F] [int] NULL,

    [Level] [HierarchyId] NULL

    )

    INSERT INTO @TestData([Par_Id], [ID], [A], , [C], [D], [E], [F], [Level])

    SELECT NULL, 22646, 0, 0, 0, 1, 0, 0, N'/1/' UNION ALL

    SELECT 22646, 22426, 3, 2, 0, 0, 0, 0, N'/1/2/' UNION ALL

    SELECT 22646, 22532, 3, 2, 1, 0, 0, 0, N'/1/3/' UNION ALL

    SELECT 22646, 22540, 8, 2, 0, 0, 0, 0, N'/1/4/' UNION ALL

    SELECT 22646, 22557, 5, 1, 1, 0, 0, 0, N'/1/5/' UNION ALL

    SELECT 22646, 22650, 8, 2, 0, 0, 0, 0, N'/1/6/' UNION ALL

    SELECT 22646, 22737, 3, 1, 1, 0, 0, 0, N'/1/7/' UNION ALL

    SELECT 22646, 23683, 0, 1, 0, 0, 0, 0, N'/1/8/' UNION ALL

    SELECT 23683, 24089, 6, 0, 0, 0, 0, 0, N'/1/8/1/' UNION ALL

    SELECT 23683, 24488, 1, 3, 1, 0, 0, 0, N'/1/8/2/' UNION ALL

    SELECT 23683, 24863, 9, 1, 4, 0, 0, 0, N'/1/8/3/'

    select Level.ToString(), *, Level.GetLevel() as [Level],

    ( select Sum( A )

    from @TestData where Level.IsDescendantOf( P.Level ) = 1 ) as [TotalA],

    ( select Sum( B )

    from @TestData where Level.IsDescendantOf( P.Level ) = 1 ) as [TotalB],

    ( select Sum( C )

    from @TestData where Level.IsDescendantOf( P.Level ) = 1 ) as [TotalC],

    ( select Sum( D )

    from @TestData where Level.IsDescendantOf( P.Level ) = 1 ) as [TotalD],

    ( select Sum( E )

    from @TestData where Level.IsDescendantOf( P.Level ) = 1 ) as [TotalE],

    ( select Sum( F )

    from @TestData where Level.IsDescendantOf( P.Level ) = 1 ) as [TotalF]

    from @TestData as P order by 1

    i'll appreciate any suggestions

    Thanks again

  • Tony,

    Thanks for providing the sample data. It makes our life easier. 🙂

    Here is the example using the transitive closure but as I said this is not the best solution performance wise.

    SET NOCOUNT ON;

    USE tempdb;

    GO

    declare @TestData table(

    [Par_Id] [varchar](6) NULL,

    [ID] [varchar](6) NULL,

    [A] [int] NULL,

    [int] NULL,

    [C] [int] NULL,

    [D] [int] NULL,

    [E] [int] NULL,

    [F] [int] NULL,

    [Level] [HierarchyId] NULL

    )

    INSERT INTO @TestData([Par_Id], [ID], [A], , [C], [D], [E], [F], [Level])

    SELECT NULL, 22646, 0, 0, 0, 1, 0, 0, N'/1/' UNION ALL

    SELECT 22646, 22426, 3, 2, 0, 0, 0, 0, N'/1/2/' UNION ALL

    SELECT 22646, 22532, 3, 2, 1, 0, 0, 0, N'/1/3/' UNION ALL

    SELECT 22646, 22540, 8, 2, 0, 0, 0, 0, N'/1/4/' UNION ALL

    SELECT 22646, 22557, 5, 1, 1, 0, 0, 0, N'/1/5/' UNION ALL

    SELECT 22646, 22650, 8, 2, 0, 0, 0, 0, N'/1/6/' UNION ALL

    SELECT 22646, 22737, 3, 1, 1, 0, 0, 0, N'/1/7/' UNION ALL

    SELECT 22646, 23683, 0, 1, 0, 0, 0, 0, N'/1/8/' UNION ALL

    SELECT 23683, 24089, 6, 0, 0, 0, 0, 0, N'/1/8/1/' UNION ALL

    SELECT 23683, 24488, 1, 3, 1, 0, 0, 0, N'/1/8/2/' UNION ALL

    SELECT 23683, 24863, 9, 1, 4, 0, 0, 0, N'/1/8/3/';

    WITH TC AS (

    SELECT

    [ID] AS PKey,

    [ID] AS SKey

    FROM

    @TestData AS H1

    WHERE

    EXISTS (

    SELECT

    *

    FROM

    @TestData AS H2

    WHERE

    H2.[Par_Id] = H1.[ID]

    )

    UNION ALL

    SELECT

    P.PKey,

    C.[ID] AS SKey

    FROM

    TC AS P

    INNER JOIN

    @TestData AS C

    ON C.[Par_Id] = P.SKey

    )

    , Agg AS (

    SELECT

    PKey,

    SUM(A) AS sum_A,

    SUM(B) AS sum_B,

    SUM(C) AS sum_C,

    SUM(D) AS sum_D,

    SUM(E) AS sum_E,

    SUM(F) AS sum_F

    FROM

    TC

    INNER JOIN

    @TestData AS S

    ON S.[ID] = TC.SKey

    GROUP BY

    TC.PKey

    )

    SELECT

    A.Level.ToString() AS MPath,

    A.*,

    A.Level.GetLevel() as [Level],

    ISNULL(B.sum_A, A.A) AS TotalA,

    ISNULL(B.sum_B, A.B) AS TotalB,

    ISNULL(B.sum_C, A.C) AS TotalC,

    ISNULL(B.sum_D, A.D) AS TotalD,

    ISNULL(B.sum_E, A.E) AS TotalE,

    ISNULL(B.sum_F, A.F) AS TotalF

    FROM

    @TestData AS A

    LEFT OUTER JOIN

    Agg AS B

    ON A.[ID] = B.PKey

    ORDER BY

    MPath;

    GO

  • Since you already has a hierarchyid type column in your sample, may be using methods from this type will do it for you.

    SELECT

    A.Level.ToString() AS MPath,

    A.*,

    A.Level.GetLevel() as [Level],

    ISNULL(C.sum_A, A.A) AS TotalA,

    ISNULL(C.sum_B, A.B) AS TotalB,

    ISNULL(C.sum_C, A.C) AS TotalC,

    ISNULL(C.sum_D, A.D) AS TotalD,

    ISNULL(C.sum_E, A.E) AS TotalE,

    ISNULL(C.sum_F, A.F) AS TotalF

    FROM

    @TestData AS A

    OUTER APPLY

    (

    SELECT

    SUM(B.A) AS sum_A,

    SUM(B.B) AS sum_B,

    SUM(B.C) AS sum_C,

    SUM(B.D) AS sum_D,

    SUM(B.E) AS sum_E,

    SUM(B.F) AS sum_F

    FROM

    @TestData AS B

    WHERE

    B.[Level].IsDescendantOf(A.[Level]) = 1

    ) AS C

    ORDER BY

    MPath;

    GO

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