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Reformat all code to coding standard

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Andrew Hutchings
2017-10-26 17:18:17 +01:00
parent 4985f3456e
commit 01446d1e22
1296 changed files with 403852 additions and 353747 deletions
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242
utils/udfsdk/allnull.h Executable file → Normal file
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@ -21,26 +21,26 @@
* mcsv1_UDAF.h
***********************************************************************/
/**
* Columnstore interface for writing a User Defined Aggregate
* Functions (UDAF) and User Defined Analytic Functions (UDAnF)
* or a function that can act as either - UDA(n)F
*
/**
* Columnstore interface for writing a User Defined Aggregate
* Functions (UDAF) and User Defined Analytic Functions (UDAnF)
* or a function that can act as either - UDA(n)F
*
* The basic steps are:
*
* 1. Create a the UDA(n)F function interface in some .h file.
* 2. Create the UDF function implementation in some .cpp file
* 3. Create the connector stub (MariaDB UDAF definition) for
* this UDF function.
* 4. build the dynamic library using all of the source.
* 5 Put the library in $COLUMNSTORE_INSTALL/lib of
* all modules
* 6. restart the Columnstore system.
* 1. Create a the UDA(n)F function interface in some .h file.
* 2. Create the UDF function implementation in some .cpp file
* 3. Create the connector stub (MariaDB UDAF definition) for
* this UDF function.
* 4. build the dynamic library using all of the source.
* 5 Put the library in $COLUMNSTORE_INSTALL/lib of
* all modules
* 6. restart the Columnstore system.
* 7. notify mysqld about the new functions with commands like:
*
*
* CREATE AGGREGATE FUNCTION allnull returns BOOL soname
* 'libudf_mysql.so';
*
*
*/
#ifndef HEADER_allnull
#define HEADER_allnull
@ -69,124 +69,124 @@ using namespace execplan;
namespace mcsv1sdk
{
// Override mcsv1_UDAF to build your User Defined Aggregate (UDAF) and/or
// Override mcsv1_UDAF to build your User Defined Aggregate (UDAF) and/or
// User Defined Analytic Function (UDAnF).
// These will be singleton classes, so don't put any instance
// specific data in here. All instance data is stored in mcsv1Context
// passed to each user function and retrieved by the getUserData() method.
//
// Each API function returns a ReturnCode. If ERROR is returned at any time,
// the query is aborted, getInterrupted() will begin to return true and the
// message set in config->setErrorMessage() is returned to MariaDB.
//
// Each API function returns a ReturnCode. If ERROR is returned at any time,
// the query is aborted, getInterrupted() will begin to return true and the
// message set in config->setErrorMessage() is returned to MariaDB.
class allnull : public mcsv1_UDAF
{
public:
// Defaults OK
allnull() : mcsv1_UDAF(){};
virtual ~allnull(){};
// Defaults OK
allnull() : mcsv1_UDAF() {};
virtual ~allnull() {};
/**
* init()
*
* Mandatory. Implement this to initialize flags and instance
* data. Called once per SQL statement. You can do any sanity
* checks here.
*
* colTypes (in) - A vector of ColDataType defining the
* parameters of the UDA(n)F call. These can be used to decide
* to override the default return type. If desired, the new
* return type can be set by context->setReturnType() and
* decimal precision can be set in context->
* setResultDecimalCharacteristics.
*
* Return mcsv1_UDAF::ERROR on any error, such as non-compatible
* colTypes or wrong number of arguments. Else return
* mcsv1_UDAF::SUCCESS.
*/
virtual ReturnCode init(mcsv1Context* context, COL_TYPES& colTypes);
/**
* init()
*
* Mandatory. Implement this to initialize flags and instance
* data. Called once per SQL statement. You can do any sanity
* checks here.
*
* colTypes (in) - A vector of ColDataType defining the
* parameters of the UDA(n)F call. These can be used to decide
* to override the default return type. If desired, the new
* return type can be set by context->setReturnType() and
* decimal precision can be set in context->
* setResultDecimalCharacteristics.
*
* Return mcsv1_UDAF::ERROR on any error, such as non-compatible
* colTypes or wrong number of arguments. Else return
* mcsv1_UDAF::SUCCESS.
*/
virtual ReturnCode init(mcsv1Context* context, COL_TYPES& colTypes);
/**
* reset()
*
* Mandatory. Reset the UDA(n)F for a new group, partition or,
* in some cases, new Window Frame. Do not free any memory
* allocated by context->setUserDataSize(). The SDK Framework owns
* that memory and will handle that. Use this opportunity to
* reset any variables in context->getUserData() needed for the
* next aggregation. May be called multiple times if running in
* a ditributed fashion.
*
* Use this opportunity to initialize the userData.
*/
virtual ReturnCode reset(mcsv1Context* context);
/**
* reset()
*
* Mandatory. Reset the UDA(n)F for a new group, partition or,
* in some cases, new Window Frame. Do not free any memory
* allocated by context->setUserDataSize(). The SDK Framework owns
* that memory and will handle that. Use this opportunity to
* reset any variables in context->getUserData() needed for the
* next aggregation. May be called multiple times if running in
* a ditributed fashion.
*
* Use this opportunity to initialize the userData.
*/
virtual ReturnCode reset(mcsv1Context* context);
/**
* nextValue()
*
* Mandatory. Handle a single row.
*
* colsIn - A vector of data structure describing the input
* data.
*
* This function is called once for every row in the filtered
* result set (before aggregation). It is very important that
* this function is efficient.
*
* If the UDAF is running in a distributed fashion, nextValue
* cannot depend on order, as it will only be called for each
* row found on the specific PM.
*
* valsIn (in) - a vector of the parameters from the row.
*/
virtual ReturnCode nextValue(mcsv1Context* context, std::vector<ColumnDatum>& valsIn);
/**
* nextValue()
*
* Mandatory. Handle a single row.
*
* colsIn - A vector of data structure describing the input
* data.
*
* This function is called once for every row in the filtered
* result set (before aggregation). It is very important that
* this function is efficient.
*
* If the UDAF is running in a distributed fashion, nextValue
* cannot depend on order, as it will only be called for each
* row found on the specific PM.
*
* valsIn (in) - a vector of the parameters from the row.
*/
virtual ReturnCode nextValue(mcsv1Context* context, std::vector<ColumnDatum>& valsIn);
/**
* subEvaluate()
*
* Mandatory -- Called if the UDAF is running in a distributed
* fashion. Columnstore tries to run all aggregate functions
* distributed, depending on context.
*
* Perform an aggregation on rows partially aggregated by
* nextValue. Columnstore calls nextValue for each row on a
* given PM for a group (GROUP BY). subEvaluate is called on the
* UM to consolodate those values into a single instance of
* userData. Keep your aggregated totals in context's userData.
* The first time this is called for a group, reset() would have
* been called with this version of userData.
*
* Called for every partial data set in each group in GROUP BY.
*
* When subEvaluate has been called for all subAggregated data
* sets, Evaluate will be called with the same context as here.
*
* valIn (In) - This is a pointer to a memory block of the size
* set in setUserDataSize. It will contain the value of userData
* as seen in the last call to NextValue for a given PM.
*
*/
virtual ReturnCode subEvaluate(mcsv1Context* context, const UserData* userDataIn);
/**
* subEvaluate()
*
* Mandatory -- Called if the UDAF is running in a distributed
* fashion. Columnstore tries to run all aggregate functions
* distributed, depending on context.
*
* Perform an aggregation on rows partially aggregated by
* nextValue. Columnstore calls nextValue for each row on a
* given PM for a group (GROUP BY). subEvaluate is called on the
* UM to consolodate those values into a single instance of
* userData. Keep your aggregated totals in context's userData.
* The first time this is called for a group, reset() would have
* been called with this version of userData.
*
* Called for every partial data set in each group in GROUP BY.
*
* When subEvaluate has been called for all subAggregated data
* sets, Evaluate will be called with the same context as here.
*
* valIn (In) - This is a pointer to a memory block of the size
* set in setUserDataSize. It will contain the value of userData
* as seen in the last call to NextValue for a given PM.
*
*/
virtual ReturnCode subEvaluate(mcsv1Context* context, const UserData* userDataIn);
/**
* evaluate()
*
* Mandatory. Get the aggregated value.
*
* Called for every new group if UDAF GROUP BY, UDAnF partition
* or, in some cases, new Window Frame.
*
* Set the aggregated value into valOut. The datatype is assumed
* to be the same as that set in the init() function;
*
* If the UDAF is running in a distributed fashion, evaluate is
* called after a series of subEvaluate calls.
*
* valOut (out) - Set the aggregated value here. The datatype is
* assumed to be the same as that set in the init() function;
*
* To return a NULL value, don't assign to valOut.
*/
virtual ReturnCode evaluate(mcsv1Context* context, static_any::any& valOut);
/**
* evaluate()
*
* Mandatory. Get the aggregated value.
*
* Called for every new group if UDAF GROUP BY, UDAnF partition
* or, in some cases, new Window Frame.
*
* Set the aggregated value into valOut. The datatype is assumed
* to be the same as that set in the init() function;
*
* If the UDAF is running in a distributed fashion, evaluate is
* called after a series of subEvaluate calls.
*
* valOut (out) - Set the aggregated value here. The datatype is
* assumed to be the same as that set in the init() function;
*
* To return a NULL value, don't assign to valOut.
*/
virtual ReturnCode evaluate(mcsv1Context* context, static_any::any& valOut);
protected: