ThemeParameters* ThemeParameters::Parse(const wchar_t* expressionString)
{
// parse the expression and see if it consists of one of our theming functions
FdoPtr<FdoExpression> expression;
try
{
expression = FdoExpression::Parse(expressionString);
}
catch (FdoException* e)
{
ProcessStylizerException(e, __LINE__, __WFILE__);
}
FdoFunction* function = dynamic_cast<FdoFunction*>(expression.p);
if (function != NULL)
{
FdoString* name = function->GetName();
FdoPtr<FdoExpressionCollection> exprColl = function->GetArguments();
if (_wcsicmp(name, L"lookup") == 0)
return new LookupThemeParameters(exprColl);
if (_wcsicmp(name, L"range") == 0)
return new RangeThemeParameters(exprColl);
}
// not one of our functions
return NULL;
}
//
// The TRIM function requires special processing.
void FdoRdbmsMySqlFilterProcessor::ProcessTrimFunction( FdoFunction& expr)
{
// Append the function name and the opening bracket.
ProcessFunctionName(expr);
AppendString( "( " );
// Process the arguments. This is were the special processing is required.
// If the call includes an operator (BOTH, LEADING, TRAILING), it is required
// to add a FROM clause after the operation keyword.
FdoPtr<FdoExpressionCollection> exprCol = expr.GetArguments();
for ( int i=0; i<exprCol->GetCount(); i++ )
{
FdoPtr<FdoExpression>exp = exprCol->GetItem( i );
if ( (i == 0) && (IsDataValue( exp )) )
{
FdoDataValue *dataValue = (static_cast<FdoDataValue *>(exp.p) );
if ( dataValue->GetDataType() == FdoDataType_String )
{
FdoStringValue *stringValue = static_cast<FdoStringValue *>(dataValue);
AppendString( stringValue->GetString() );
AppendString( " FROM " );
}
else
throw FdoFilterException::Create(NlsMsgGet(FDORDBMS_29, "Unsupported FDO type in expression"));
}
else
HandleExpr( exp );
}
AppendString( " )" );
}
//
// The function checks whether or not the function has a correct set of arguments.
bool FdoRdbmsMySqlFilterProcessor::HasNativeSupportedFunctionArguments(FdoFunction& expr) const
{
// If the function needs argument checking, execute the verification and return
// the result back to the calling routine. Otherwise, the arguments are always
// deemed valid and the corresponding indication is returned.
if (FdoCommonOSUtil::wcsicmp(L"STDDEV", expr.GetName()) == 0)
{
// The signatures for the function STDDEV allow an optional first
// parameter that identifies the operation type (ALL, DISTINCT). In
// MySQL this is not natively supported. Therefore, instead of sending
// the request to MySQL it needs to be redirected to the Expression
// Engine.
// The following checks for the number of arguments. If there are two
// arguments, the request needs to be redirected to the Expression
// Engine.
return (expr.GetArguments()->GetCount() > 1) ? false : true;
}
if (FdoCommonOSUtil::wcsicmp(L"TRUNC", expr.GetName()) == 0)
{
// The signatures for the function TRUNC allow the truncation of date
// and numeric data. If the input is data then the request cannot be
// handled by MySQL as this is not supported. In this case the request
// needs to be handed to the Expression Engine.
// NOTE: The current implementation hands the request to the Expression
// Engine in all cases. This needs to be updated later.
return false;
}
return true;;
}
void UnitTestProcessor::ProcessFunction(FdoFunction& expr)
{
prependTabs();
wprintf(L"Function : %s\n", expr.GetName());
FdoExpressionCollection* pColl = expr.GetArguments();
m_tabLevel++;
for (FdoInt32 i = 0; i < pColl->GetCount(); i++)
{
FdoExpression* pExpr;
pExpr = pColl->GetItem(i);
pExpr->Process(this);
pExpr->Release();
}
m_tabLevel--;
pColl->Release();
}
void FdoRdbmsMySqlFilterProcessor::ProcessToInt32Int64Function (FdoFunction& expr)
{
// MySQL uses a different native function name for the expression functions
// TOINT32, TOINT64.
AppendString(MYSQL_FUNCTION_TONUM);
AppendString(OPEN_PARENTH);
FdoPtr<FdoExpressionCollection> exprCol = expr.GetArguments();
for(int i=0; i<exprCol->GetCount(); i++ )
{
if( i!= 0 )
AppendString( L", " );
FdoPtr<FdoExpression>exp = exprCol->GetItem( i );
HandleExpr( exp );
}
// Add the keyword that performs the conversion and the closing bracket.
AppendString( L", SIGNED)" );
}
void FdoRdbmsMySqlFilterProcessor::ProcessCurrentDateFunction (FdoFunction& expr)
{
// MySQL uses a different native function name for the expression function
// CurrentDate.
AppendString(MYSQL_FUNCTION_CURRENTDATE);
AppendString(OPEN_PARENTH);
// Note, that the function does not allow any arguments. However, if some
// are given, they are added to the function call and it is left to MySQL
// to deal with it.
FdoPtr<FdoExpressionCollection> exprCol = expr.GetArguments();
for(int i=0; i<exprCol->GetCount(); i++ )
{
if( i!= 0 )
AppendString( L", " );
FdoPtr<FdoExpression>exp = exprCol->GetItem( i );
HandleExpr( exp );
}
AppendString( CLOSE_PARENTH );
}
//
// Aggregate functions require special processing because of the optional
// first parameter. The value of this parameter may be ALL or DISTINCT.
void FdoRdbmsMySqlFilterProcessor::ProcessAggregateFunction (FdoFunction& expr)
{
// Append the function name and the opening bracket.
ProcessFunctionName(expr);
AppendString( "( " );
// Process the arguments. This is were the special processing is required as
// it is required to have the parameters listed sequencially without a comma
// between them.
FdoPtr<FdoExpressionCollection> exprCol = expr.GetArguments();
for (int i=0; i<exprCol->GetCount(); i++)
{
FdoPtr<FdoExpression>exp = exprCol->GetItem(i);
if ((i == 0) && (IsDataValue(exp)))
{
FdoDataValue *dataValue = (static_cast<FdoDataValue *>(exp.p));
if (dataValue->GetDataType() == FdoDataType_String)
{
// Omit ALL if specified as this keyword is not supported in
// MySQL.
FdoStringValue *stringValue = static_cast<FdoStringValue *>(dataValue);
FdoStringP strValue = stringValue->GetString();
if (FdoCommonOSUtil::wcsicmp(strValue, L"ALL") != 0)
{
AppendString(stringValue->GetString());
AppendString(L" ");
}
}
else
throw FdoFilterException::Create(NlsMsgGet(FDORDBMS_29, "Unsupported FDO type in expression"));
}
else
HandleExpr(exp);
}
AppendString(" )");
}
FdoRdbmsFeatureReader *FdoRdbmsSelectCommand::GetOptimizedFeatureReader( const FdoSmLpClassDefinition *classDefinition )
{
// Verify if this is a special case we can optimize (no grouping filter,
// and only aggregate functions Count() and/or SpatialExtents())
FdoRdbmsFeatureReader *reader = NULL;
bool bOtherAggrSelected = false;
aggr_list *selAggrList = new aggr_list;
if ( (classDefinition->GetClassType() == FdoClassType_FeatureClass ) && mIdentifiers &&
!mGroupingCol)
{
for (int i = 0; i < mIdentifiers->GetCount() && !bOtherAggrSelected; i++ )
{
FdoPtr<FdoIdentifier> identifier = mIdentifiers->GetItem(i);
FdoComputedIdentifier* computedIdentifier = dynamic_cast<FdoComputedIdentifier*>(identifier.p);
if (computedIdentifier)
{
FdoPtr<FdoExpression> expr = computedIdentifier->GetExpression();
FdoFunction* func = dynamic_cast<FdoFunction*>(expr.p);
if (func && 0==FdoCommonOSUtil::wcsicmp(func->GetName(), FDO_FUNCTION_SPATIALEXTENTS))
{
FdoPtr<FdoExpressionCollection> args = func->GetArguments();
FdoPtr<FdoExpression> arg = args->GetItem(0);
FdoIdentifier* argId = dynamic_cast<FdoIdentifier*>(arg.p);
AggregateElement *id = new AggregateElement;
id->propName = argId->GetName();
id->name = computedIdentifier->GetName();
id->type = FdoPropertyType_GeometricProperty;
selAggrList->push_back( id );
}
else if (func && 0 == FdoCommonOSUtil::wcsicmp(func->GetName(), FDO_FUNCTION_COUNT))
{
// Only if the argument count for the function is 1 do some
// special handling.
FdoPtr<FdoExpressionCollection> exprArgColl = func->GetArguments();
if (exprArgColl->GetCount() == 1)
{
AggregateElement *id = new AggregateElement;
id->name = computedIdentifier->GetName();
id->type = FdoPropertyType_DataProperty;
selAggrList->push_back( id );
}
else
{
bOtherAggrSelected = true;
}
}
else
{
bOtherAggrSelected = true;
}
}
}
}
// Now perform the actual select aggregates and return the data reader:
if ( !bOtherAggrSelected && ( selAggrList->size() > 0 ))
{
reader = mFdoConnection->GetOptimizedAggregateReader( classDefinition, selAggrList, GetFilterRef() ); // The reader takes ownership of the selAggrList
}
else
{
// Sorry, no optimization. Clean up.
for ( size_t j = 0; j < selAggrList->size(); j++ )
delete selAggrList->at(j);
delete selAggrList;
}
return reader;
}