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select statement in x++

Im copy paste the manual from msdn about select statement in x++,

I hope it usefull for ax programmer

Select Statement Syntax [AX 2012]

Updated: February 3, 2012

Applies To: Microsoft Dynamics AX 2012 R3, Microsoft Dynamics AX 2012 R2, Microsoft Dynamics AX 2012 Feature Pack, Microsoft Dynamics AX 2012

SelectStatement=select Parameters
Parameters[ [  FindOptions  ]  FieldList  from ] ] TableBufferVariable [ IndexClause ]  Options  ] [ WhereClause  ]  JoinClause  ]
FindOptions=crossCompany | reverse | firstFast | [ firstOnly | firstOnly10 | firstOnly100 | firstOnly1000 ] | forUpdate | noFetch | [forcePlaceholders | forceLiterals] | forceselectorder | forceNestedLoop | repeatableRead | validTimeState
FieldList=Field  { ,  Field  } | *
Field=Aggregate  (  FieldIdentifier  ) |  FieldIdentifier
Aggregate=sum | avg | minof | maxof | count
Options=[ order by , group by ,  FieldIdentifier  [ asc | desc ] { ,  FieldIdentifier  [ asc | desc ] }] | [ IndexClause  ]
IndexClause=index  IndexName | index hint  IndexName
WhereClause=where  Expression
JoinClause=[exists | notexists | outer ] join  Parameters

 

KeywordDescriptionExample
ascAn option on the order by or group byclause. The sorting is ascending. (Sort is ascending by default.)select * from custTable

    order by Name asc;

avgReturns the average of the fields.CustTable custTable;

;

select avg(value) from custTable;

print custTable.value;

countReturns the number of records.CustTable xCT;

int64 iCountRows; ;

Select COUNT(RecID) from xCT;

iCountRows = xCT.RecID;

crossCompanyReturns data for all companies that the user is authorized to read from. (A containercan be added to reduce the number of companies involved.)CustTable custTable;

container conCompanies = [‘dat’,’dmo’];

;

select crossCompany :conCompanies

    * from custTable;

descAn option on the order by or group byclause. The sorting is descending.select * from custTable

    order by Name desc;

existsA method that returns a Boolean value and a join clause.while select AccountNum, Name from custTable

    order by AccountNum

    exists join * from ctr

    where (ctr.AccountNum ==

      custTable.AccountNum)

firstFastA priority hint. The first row appears more quickly but the total return time for this option might be slower. The firstFasthint is automatically issued from all forms, but is rarely used directly from X++.select firstFast custTable

    order by AccountNum;

firstOnlySpeeds up the fetch. Instructs MorphX to fetch only the first record.static InventTable find(

    ItemId   itemId,

    boolean  update = false)

{

    InventTable inventTable;

    ;

    inventTable.selectForUpdate

        (update);

    if (itemId)

    {

         select firstonly inventTable

            index hint ItemIdx

            where inventTable.itemId

                == itemId;

    }

    return inventTable;

}

firstOnly10Same as firstOnly, except returns 10 rows instead of one.
firstOnly100Same as firstOnly, except returns 100 rows instead of one.
firstOnly1000Same as firstOnly, except returns 1000 rows instead of one.
forceLiterals
NoteNote
You are advised not to use the forceLiterals keyword in X++ selectstatements, because it could expose code to an SQL injection security threat.

forceLiterals instructs the kernel to reveal the actual values that are used in whereclauses to the Microsoft SQL Server database at the time of optimization.

forceLiterals and forcePlaceholders are mutually exclusive.

forceNestedLoopForces the Microsoft SQL Server database to use a nested-loop algorithm to process a particular SQL statement containing a join algorithm. This means that a record from the first table is fetched before any records from the second table are fetched. Typically, other join algorithms, such as hash-joins and merge-joins, would be considered. This keyword is often combined with the forceSelectOrderkeyword.while select forceSelectOrder

    forceNestedLoop inventTransThis

    index hint TransIdIdx

    where inventTransThis.InventTransId

        == inventTrans.InventTransId

        && inventTransThis.StatusIssue

        <= StatusIssue::ReservOrdered

forcePlaceholdersInstructs the kernel not to reveal the actual values used in where clauses to the SQL Server database at the time of optimization. This is the default in all statements that are not join statements.

The advantage of using this keyword is that the kernel can reuse the access plan for other similar statements with other search values. The disadvantage is that the access plan is computed without taking into consideration that data distribution might not be even. The access plan is an on-average access plan.

forcePlaceholders and forceLiterals are mutually exclusive.

static void forcePlaceHoldersExample(Args _args)

{

    SalesTable salesTable;

    SalesLine salesLine;

    ;

    while select forcePlaceholders salesLine

        join salesTable

           where salesTable.SalesId ==

            salesLine.SalesId

               && salesTable.SalesId == ’10’

    {

        //more code

    }

}

forceSelectOrderForces the SQL Server database to access the tables in a join in the specified order. If two tables are joined, the first table in the statement is always accessed first. This keyword is often combined with the forceNestedLoop keyword.display ForecastHasPurch hasForecastPurch()

{

    ForecastPurch   forecastPurch;

    InventDim       inventDim;

    ;

    select firstOnly forcePlaceholders

        forceSelectOrder recId

        from forecastPurch

        index hint ItemIdx

        where forecastPurch.itemId == this.itemId

    exists join inventDim

        index hint DimIdIdx

        where inventDim.inventDimId ==

            forecastPurch.inventDimId

        && inventDim.configId == this.configId;

    return forecastPurch.recId;

}

forUpdateSelects records exclusively for update. Depending on the underlying database, the records may be locked for other users.ttsBegin;

while select forUpdate ledgerJournalTrans

    index hint NumVoucherIdx

    where ledgerJournalTrans.journalNum ==

    _journalNum &&

    ledgerJournalTrans.voucher == _voucher

{

    ledgerJournalTrans.doDelete();

    counter++;

}

if (counter

    && ledgerJournalTable.journalType

    != LedgerJournalType::Periodic)

{

    NumberSeq::release(

      ledgerJournalTable.voucherSeries,

      _voucher);

}

ttsCommit;

group byInstructs the database to group selected records by fields.CustTable custTable;

;

while select sum(CreditMax) from custTable

    group by CustGroup

{

    print custTable.CustGroup, ” “,custTable.CreditMax;

}

indexInstructs the database to sort the selected records as defined by the index.CustTable custTable;

;

while select AccountNum, Name from custTable

    index AccountIdx

{

    print custTable.AccountNum, ” “, custTable.Name;

}

index hintGives the database a hint to use this index to sort the selected records as defined by the index. The database can ignore the hint.

NoteNote
A wrong index hint can have a big performance impact. Index hints should only be applied to SQL statements that do not have dynamic where clauses or order by clauses, and where the effect of the hint can be verified.
while select forUpdate ledgerJournalTrans

    index hint NumVoucherIdx

    where ledgerJournalTrans.journalNum

        == _journalNum

joinUsed to join tables on a column that is common to both tables. The join criteria are specified in the where clause because there is no on keyword in X++ SQL.

Reduces the number of SQL statements that are needed if you want to loop through a table and update transactions in a related table.

For example, if you process 500 records in a table, and want to update related records in another table, and use a nested while select to do this, there will be 501 trips to the database. If you use a join, there will be a single trip to the database.

while select ledgerTable

    join ledgerTrans

        where ledgerTrans.accountNum ==

            ledgerTable.accountNum

    {

        amountMST += ledgerTrans.amountMST;

    }

maxofReturns the maximum of the fields.CustTable custTable;

;

select maxof(CreditMax) from custTable;

minofReturns the minimum of the fields.CustTable custTable;

;

select minof(CreditMax) from custTable;

noFetchIndicates that no records are to be fetched at present. This is typically used when the result of the select is passed on to another application object, for example, a query that performs the actual fetch.select noFetch custTable

    order by AccountNum

notExistsChosen only if there are no posts.while select AccountNum, Name from custTable

    order by AccountNum

    notExists join * from ctr

    where (ctr.AccountNum ==

        custTable.AccountNum)

optimisticLockForces a statement to run with Optimistic Concurrency Control even if a different value is set on the table.

For more information, see Optimistic Concurrency Control.

select optimisticLock custTable

    where custTable.AccountNum > ‘1000’

order byInstructs the database to sort the selected records by fields in the order by list.select * from custTable

    order by accountNum desc

    where custTable.AccountNum > “100”;

outerReturns all rows from the first-named table, including rows that have no match in the second-named table. This is a left outer join, although there is no left keyword. There is no right outer join in X++ SQL.
while select AccountNum
 from custTable
 order by AccountNum
 outer join * from custBankAccount
 where custBankAccount.AccountNum ==
    custTable.AccountNum
{
 print custTable.AccountNum,
    " , ", custBankAccount.DlvMode;
}
pause;
pessimisticLockForces a statement to run with Pessimistic Concurrency Control even if a different value is set on the table.

For more information, see Optimistic Concurrency Control.

select pessimisticLock custTable

    where custTable.AccountNum > ‘1000’;

repeatableReadSpecifies that no other transactions can modify data that has been read by logic inside the current transaction, until after the current transaction completes.

An explicit transaction completes at either ttsAbort or at the outermost ttsCommit.

For a stand-alone select statement, the transaction duration is the duration of the select command. However, the database sometimes enforces the equivalent of repeatableRead in individual selectstatements even without this keyword appearing in your X++ code (depending on how the database decides to scan the tables).

For more information, see the documentation for the underlying relational database product.
reverseRecords are returned in reverse order.select reverse custTable

    order by AccountNum;

sumReturns the sum of the fields. Can be used to sum all accounts, order lines, and so on.CustTable custTable;

;

select sum(CreditMax) from custTable;

validTimeStateFilters rows from a table that has its ValidTimeStateFieldType property set to a value other than None. For more information, see Valid Time State Tables and Date Effective Data.
static void VtsJob1(Args _args)
{
    // A VTS table in AX 2012.
    CustPackingSlipTransHistory xrec1;
    utcDateTime myDateFrom , myDateTo;
    anytype myAnytype = -1;

    myDateFrom = DateTimeUtil::utcNow();
    myDateTo = myDateFrom;

    SELECT 
        validTimeState(myDateFrom, myDateTo)
            *
        FROM xrec1;

    myAnytype = xrec1.getFieldValue("RecId");
    info(myAnytype);
}

Author

Ronny

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