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SQL Object Definition Keyword Search Stored Procedure

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There are many times when you encounter a SQL database that has had a lot of fingers in it but not a lot of guidance for you to follow, that you need to find a given concept or word to find what objects you need to be looking at in a given situation. The stored procedure below will allow you to do that. It searches both parent and child objects definition for words that are like or equal to your search term and returns them in order of rank, and then in order of object creation using their object id.


USE [YOURDB]
GO

/****** Object: StoredProcedure [dbo].[Object_Dependency_Keyword_SP] Script Date: 1/3/2018 3:26:16 PM ******/
SET ANSI_NULLS ON
GO

SET QUOTED_IDENTIFIER ON
GO

-- =============================================

-- =============================================
CREATE PROCEDURE [dbo].[Object_Dependency_Keyword_SP]
@DefSearchTerm AS varchar(50)
AS
BEGIN
SET NOCOUNT ON;
IF 1=0 BEGIN
SET FMTONLY OFF
END

-- step 1 create temp ta
--DROP TABLE #tempdep
CREATE TABLE #tempdep (objid int NOT NULL, objtype smallint NOT NULL)

-- step 2 load temp table
INSERT INTO #tempdep
SELECT
tbl.object_id AS [ID],
3
FROM
sys.tables AS tbl
--WHERE
--(tbl.name=N'Employee' and SCHEMA_NAME(tbl.schema_id)=N'HumanResources')

-- step 3 find dependencies
declare @find_referencing_objects int
set @find_referencing_objects = 1
-- parameters:
-- 1. create table #tempdep (objid int NOT NULL, objtype smallint NOT NULL)
-- contains source objects
-- 2. @find_referencing_objects defines ordering
-- 1 order for drop
-- 0 order for script

declare @must_set_nocount_off bit
set @must_set_nocount_off = 0

IF @@OPTIONS & 512 = 0
set @must_set_nocount_off = 1
set nocount on

declare @u int
declare @udf int
declare @v int
declare @sp int
declare @def int
declare @rule int
declare @tr int
declare @uda int
declare @uddt int
declare @xml int
declare @udt int
declare @assm int
declare @part_sch int
declare @part_func int
declare @synonym int

set @u = 3
set @udf = 0
set @v = 2
set @sp = 4
set @def = 6
set @rule = 7
set @tr = 8
set @uda = 11
set @synonym = 12
--above 100 -> not in sys.objects
set @uddt = 101
set @xml = 102
set @udt = 103
set @assm = 1000
set @part_sch = 201
set @part_func = 202

/*
* Create #t1 as temp object holding areas. Columns are:
* object_id - temp object id
* object_type - temp object type
* relative_id - parent or child object id
* relative_type - parent or child object type
* rank - NULL means dependencies not yet evaluated, else nonNULL.
* soft_link - this row should not be used to compute ordering among objects
* object_name - name of the temp object
* object_schema - name the temp object's schema (if any)
* relative_name - name of the relative object
* relative_schema - name of the relative object's schema (if any)
* degree - the number of relatives that the object has, will be used for computing the rank
* object_key - surrogate key that combines object_id and object_type
* relative_key - surrogate key that combines relative_id and relative_type
*/
-- DROP TABLE #t1
create table #t1(
object_id int NULL,
object_type smallint NULL,
relative_id int NULL,
relative_type smallint NULL,
rank smallint NULL,
soft_link bit NULL,
object_name sysname NULL,
object_schema sysname NULL,
relative_name sysname NULL,
relative_schema sysname NULL,
degree int NULL,
object_key bigint NULL,
relative_key bigint NULL
)

create unique clustered index i1 on #t1(object_id, object_type, relative_id, relative_type) with IGNORE_DUP_KEY

declare @iter_no int
set @iter_no = 1

declare @rows int
set @rows = 1

declare @rowcount_ck int
set @rowcount_ck = 0

insert #t1 (relative_id, relative_type, rank)
select l.objid, l.objtype, @iter_no from #tempdep l

while @rows > 0
begin
set @rows = 0
if( 1 = @find_referencing_objects )
begin
--tables that reference uddts or udts (parameters that reference types are in sql_dependencies )
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, c.object_id, @u, @iter_no + 1
from #t1 as t
join sys.columns as c on c.user_type_id = t.relative_id
join sys.tables as tbl on tbl.object_id = c.object_id -- eliminate views
where @iter_no = t.rank and (t.relative_type=@uddt OR t.relative_type=@udt)
set @rows = @rows + @@rowcount

--tables that reference defaults ( only default objects )
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, clmns.object_id, @u, @iter_no + 1
from #t1 as t
join sys.columns as clmns on clmns.default_object_id = t.relative_id
join sys.objects as o on o.object_id = t.relative_id and 0 = isnull(o.parent_object_id, 0)
where @iter_no = t.rank and t.relative_type = @def
set @rows = @rows + @@rowcount

--types that reference defaults ( only default objects )
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, tp.user_type_id, @uddt, @iter_no + 1
from #t1 as t
join sys.types as tp on tp.default_object_id = t.relative_id
join sys.objects as o on o.object_id = t.relative_id and 0 = isnull(o.parent_object_id, 0)
where @iter_no = t.rank and t.relative_type = @def
set @rows = @rows + @@rowcount

--tables that reference rules
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, clmns.object_id, @u, @iter_no + 1
from #t1 as t
join sys.columns as clmns on clmns.rule_object_id = t.relative_id
where @iter_no = t.rank and t.relative_type = @rule
set @rows = @rows + @@rowcount

--types that reference rules
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, tp.user_type_id, @uddt, @iter_no + 1
from #t1 as t
join sys.types as tp on tp.rule_object_id = t.relative_id
where @iter_no = t.rank and t.relative_type = @rule
set @rows = @rows + @@rowcount

--tables that reference XmlSchemaCollections
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, c.object_id, @u, @iter_no + 1
from #t1 as t
join sys.columns as c on c.xml_collection_id = t.relative_id
join sys.tables as tbl on tbl.object_id = c.object_id -- eliminate views
where @iter_no = t.rank and t.relative_type = @xml
set @rows = @rows + @@rowcount

--procedures that reference XmlSchemaCollections
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, c.object_id, case when o.type in ( 'P', 'RF', 'PC' ) then @sp else @udf end, @iter_no + 1
from #t1 as t
join sys.parameters as c on c.xml_collection_id = t.relative_id
join sys.objects as o on o.object_id = c.object_id
where @iter_no = t.rank and t.relative_type = @xml
set @rows = @rows + @@rowcount

--udf, sp, uda, trigger all that reference assembly
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, am.object_id, (case o.type when 'AF' then @uda when 'PC' then @sp when 'FS' then @udf when 'FT' then @udf
when 'TA' then @tr else @udf end), @iter_no + 1
from #t1 as t
join sys.assembly_modules as am on am.assembly_id = t.relative_id
join sys.objects as o on am.object_id = o.object_id
where @iter_no = t.rank and t.relative_type = @assm
set @rows = @rows + @@rowcount

-- CLR udf, sp, uda that reference udt
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select distinct t.relative_id,
t.relative_type,
am.object_id,
(case o.type
when 'AF' then @uda
when 'PC' then @sp
when 'FS' then @udf
when 'FT' then @udf
when 'TA' then @tr
else @udf end),
@iter_no + 1
from #t1 as t
join sys.parameters as sp on sp.user_type_id = t.relative_id
join sys.assembly_modules as am on sp.object_id = am.object_id
join sys.objects as o on sp.object_id = o.object_id
where @iter_no = t.rank and t.relative_type = @udt
set @rows = @rows + @@rowcount

--udt that reference assembly
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, at.user_type_id, @udt, @iter_no + 1
from #t1 as t
join sys.assembly_types as at on at.assembly_id = t.relative_id
where @iter_no = t.rank and t.relative_type = @assm
set @rows = @rows + @@rowcount

--assembly that reference assembly
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, ar.assembly_id, @assm, @iter_no + 1
from #t1 as t
join sys.assembly_references as ar on ar.referenced_assembly_id = t.relative_id
where @iter_no = t.rank and t.relative_type = @assm
set @rows = @rows + @@rowcount

--table references table
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, fk.parent_object_id, @u, @iter_no + 1
from #t1 as t
join sys.foreign_keys as fk on fk.referenced_object_id = t.relative_id
where @iter_no = t.rank and t.relative_type = @u
set @rows = @rows + @@rowcount

--table,view references partition scheme
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, idx.object_id, case o.type when 'V' then @v else @u end, @iter_no + 1
from #t1 as t
join sys.indexes as idx on idx.data_space_id = t.relative_id
join sys.objects as o on o.object_id = idx.object_id
where @iter_no = t.rank and t.relative_type = @part_sch
set @rows = @rows + @@rowcount

--partition scheme references partition function
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, ps.data_space_id, @part_sch, @iter_no + 1
from #t1 as t
join sys.partition_schemes as ps on ps.function_id = t.relative_id
where @iter_no = t.rank and t.relative_type = @part_func
set @rows = @rows + @@rowcount

--view, procedure references table, view, procedure
--procedure references type
--table(check) references procedure
--trigger references table, procedure
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, case when 'C' = obj.type then obj.parent_object_id else dp.object_id end,
case when obj.type in ('U', 'C') then @u when 'V' = obj.type then @v when 'TR' = obj.type then @tr
when obj.type in ( 'P', 'RF', 'PC' ) then @sp
when obj.type in ( 'TF', 'FN', 'IF', 'FS', 'FT' ) then @udf
end, @iter_no + 1
from #t1 as t
join sys.sql_dependencies as dp on
-- reference table, view procedure
( class < 2 and dp.referenced_major_id = t.relative_id and t.relative_type in ( @u, @v, @sp, @udf) )
--reference type
or ( 2 = class and dp.referenced_major_id = t.relative_id and t.relative_type in (@uddt, @udt))
--reference xml namespace ( not supported by server right now )
--or ( 3 = class and dp.referenced_major_id = t.relative_id and @xml = t.relative_type )
join sys.objects as obj on obj.object_id = dp.object_id and obj.type in ( 'U', 'V', 'P', 'RF', 'PC', 'TR', 'TF', 'FN', 'IF', 'FS', 'FT', 'C')
where @iter_no = t.rank
set @rows = @rows + @@rowcount

end -- 1 = @find_referencing_objects
else
begin -- find referenced objects
--check references table
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, dp.object_id, 77 /*place holder for check*/, @iter_no
from #t1 as t
join sys.sql_dependencies as dp on
-- reference table
class < 2 and dp.referenced_major_id = t.relative_id and t.relative_type = @u
join sys.objects as obj on obj.object_id = dp.object_id and obj.type = 'C'
where @iter_no = t.rank
set @rowcount_ck = @@rowcount

--view, procedure referenced by table, view, procedure
--type referenced by procedure
--check referenced by table
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select distinct
case when 77 = t.relative_type then obj2.parent_object_id else t.relative_id end, -- object_id
case when 77 = t.relative_type then @u else relative_type end, -- object_type
dp.referenced_major_id, -- relative_id
case -- relative_type
when dp.class < 2 then
case when 'U' = obj.type then @u
when 'V' = obj.type then @v
when 'TR' = obj.type then @tr
when obj.type in ( 'P', 'RF', 'PC' ) then @sp
when obj.type in ( 'TF', 'FN', 'IF', 'FS', 'FT' ) then @udf
when exists (select * from sys.synonyms syn where syn.object_id = dp.referenced_major_id ) then @synonym
end
when dp.class = 2 then (case
when exists (select * from sys.assembly_types sat where sat.user_type_id = dp.referenced_major_id) then @udt
else @uddt
end)
end,
@iter_no + 1
from #t1 as t
join sys.sql_dependencies as dp on
-- reference table, view procedure
( class 0
begin
set @iter_no = @iter_no + 1
end

--defaults referenced by types
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, tp.default_object_id, @def, @iter_no + 1
from #t1 as t
join sys.types as tp on tp.user_type_id = t.relative_id and tp.default_object_id > 0
join sys.objects as o on o.object_id = tp.default_object_id and 0 = isnull(o.parent_object_id, 0)
where t.relative_type = @uddt

--defaults referenced by tables( only default objects )
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, clmns.default_object_id, @def, @iter_no + 1
from #t1 as t
join sys.columns as clmns on clmns.object_id = t.relative_id
join sys.objects as o on o.object_id = clmns.default_object_id and 0 = isnull(o.parent_object_id, 0)
where t.relative_type = @u

--rules referenced by types
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, tp.rule_object_id, @rule, @iter_no + 1
from #t1 as t
join sys.types as tp on tp.user_type_id = t.relative_id and tp.rule_object_id > 0
where t.relative_type = @uddt

--rules referenced by tables
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, clmns.rule_object_id, @rule, @iter_no + 1
from #t1 as t
join sys.columns as clmns on clmns.object_id = t.relative_id and clmns.rule_object_id > 0
where t.relative_type = @u

--XmlSchemaCollections referenced by table
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, c.xml_collection_id, @xml, @iter_no + 1
from #t1 as t
join sys.columns as c on c.object_id = t.relative_id and c.xml_collection_id > 0
where t.relative_type = @u

--XmlSchemaCollections referenced by procedures
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, c.xml_collection_id, @xml, @iter_no + 1
from #t1 as t
join sys.parameters as c on c.object_id = t.relative_id and c.xml_collection_id > 0
where t.relative_type in ( @sp, @udf)

--partition scheme referenced by table,view
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, ps.data_space_id, @part_sch, @iter_no + 1
from #t1 as t
join sys.indexes as idx on idx.object_id = t.relative_id
join sys.partition_schemes as ps on ps.data_space_id = idx.data_space_id
where t.relative_type in (@u, @v)

--partition function referenced by partition scheme
insert #t1 (object_id, object_type, relative_id, relative_type, rank)
select t.relative_id, t.relative_type, ps.function_id, @part_func, @iter_no + 1
from #t1 as t
join sys.partition_schemes as ps on ps.data_space_id = t.relative_id
where t.relative_type = @part_sch

end

--cleanup circular references
delete #t1 where object_id = relative_id and object_type=relative_type

--allow circular dependencies by cuting one of the branches
--mark as soft links dependencies between tables or table depending on udf
-- at script time we will need to take care to script fks and checks separately
update #t1 set soft_link = 1 where ( object_type = @u and relative_type = @u ) or
( 0 = @find_referencing_objects and object_type = @u and relative_type = @udf ) or
( 1 = @find_referencing_objects and relative_type = @u and object_type = @udf )

--add independent objects first in the list
insert #t1 ( object_id, object_type, rank)
select t.relative_id, t.relative_type, 1 from #t1 t where t.relative_id not in ( select t2.object_id from #t1 t2 where not t2.object_id is null )

--delete initial objects
delete #t1 where object_id is null

-- compute the surrogate keys to make sorting easier
update #t1 set object_key = object_id + convert(bigint, 0xfFFFFFFF) * object_type
update #t1 set relative_key = relative_id + convert(bigint, 0xfFFFFFFF) * relative_type

create index index_key on #t1 (object_key, relative_key)

update #t1 set rank = 0
-- computing the degree of the nodes
update #t1 set degree = (
select count(*)
from #t1 t_alias
where t_alias.object_key = #t1.object_key and
t_alias.relative_id is not null and
t_alias.soft_link is null)

-- perform topological sorting
set @iter_no=1
while 1=1
begin
update #t1 set rank=@iter_no where degree=0
-- end the loop if no more rows left to process
if (@@rowcount=0) break
update #t1 set degree=NULL where rank = @iter_no

update #t1 set degree = (
select count(*)
from #t1 t_alias
where t_alias.object_key = #t1.object_key and
t_alias.relative_key is not null and
t_alias.relative_key in (select t_alias2.object_key from #t1 t_alias2 where t_alias2.rank=0 and t_alias2.soft_link is null) and
t_alias.rank=0 and t_alias.soft_link is null)
where degree is not null

set @iter_no=@iter_no+1
end

--add name schema
update #t1 set object_name = o.name, object_schema = schema_name(o.schema_id)
from sys.objects AS o
where o.object_id = #t1.object_id and object_type in ( @u, @udf, @v, @sp, @def, @rule, @uda)

update #t1 set relative_type = case op.type when 'V' then @v else @u end, object_name = o.name, object_schema = schema_name(o.schema_id), relative_name =
op.name, relative_schema = schema_name(op.schema_id)
from sys.objects AS o
LEFT OUTER join sys.objects AS op on op.object_id = o.parent_object_id
--join sys.objects AS op on op.object_id = o.object_id
where o.object_id = #t1.object_id and object_type = @tr

update #t1 set object_name = t.name, object_schema = schema_name(t.schema_id)
from sys.types AS t
where t.user_type_id = #t1.object_id and object_type in ( @uddt, @udt )

update #t1 set object_name = x.name, object_schema = schema_name(x.schema_id)
from sys.xml_schema_collections AS x
where x.xml_collection_id = #t1.object_id and object_type = @xml

update #t1 set object_name = p.name, object_schema = null
from sys.partition_schemes AS p
where p.data_space_id = #t1.object_id and object_type = @part_sch

update #t1 set object_name = p.name, object_schema = null
from sys.partition_functions AS p
where p.function_id = #t1.object_id and object_type = @part_func

update #t1 set object_name = a.name, object_schema = null
from sys.assemblies AS a
where a.assembly_id = #t1.object_id and object_type = @assm

update #t1 set object_name = syn.name, object_schema = schema_name(syn.schema_id)
from sys.synonyms AS syn
where syn.object_id = #t1.object_id and object_type = @synonym

-- delete objects for which we could not resolve the table name or schema
-- because we may not have enough privileges
delete from #t1
where
object_name is null or
(object_schema is null and object_type not in (@assm, @part_func, @part_sch))

--final select
select a.object_id,
object_name,
--object_type,
ISNULL(c.type_desc,'') AS Object_Type,
--LTRIM(RTRIM(ISNULL(sm.definition,''))) AS PARENT_DEF,
ISNULL(relative_id,'') AS relative_id,
relative_name = ISNULL(b.name,''),
Rank,
--ISNULL(relative_type,'') AS Relative_Type,

--object_schema,

ISNULL(b.type_desc,'') AS Type_Desc--,
--LTRIM(RTRIM(ISNULL(smc.definition,''))) AS CHILD_DEF
from #t1 a
LEFT JOIN sys.objects b ON b.object_id = a.relative_id
LEFT JOIN sys.Objects c ON c.object_id = a.object_id
LEFT JOIN sys.sql_modules sm ON sm.object_id = c.object_id
LEFT JOIN sys.sql_modules smc ON smc.object_id = b.object_id
WHERE (sm.definition LIKE '%' + @DefSearchTerm + '%' OR smc.definition LIKE '%' + @DefSearchTerm + '%')
-- WHERE object_name = 'Organization_all'
order by Rank,relative_id

drop table #t1
drop table #tempdep

IF @must_set_nocount_off > 0
set nocount off

END;
GO


 


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