public EPStatementObjectModel mapRawToSODA(StatementSpecRaw raw) {
StatementSpecUnMapResult unmapped = StatementSpecMapper.unmap(raw);
if (unmapped.getIndexedParams().size() != 0) {
throw new EPException(SUBS_PARAM_INVALID_USE);
}
return unmapped.getObjectModel();
}
public EPStatementObjectModel compileEPL(String eplStatement) throws EPException {
StatementSpecRaw statementSpec =
EPAdministratorHelper.compileEPL(
eplStatement, eplStatement, true, null, services, defaultStreamSelector);
StatementSpecUnMapResult unmapped = StatementSpecMapper.unmap(statementSpec);
if (unmapped.getIndexedParams().size() != 0) {
throw new EPException(SUBS_PARAM_INVALID_USE);
}
return unmapped.getObjectModel();
}
public EPPreparedStatement prepareEPL(String eplExpression) throws EPException {
// compile to specification
StatementSpecRaw statementSpec =
EPAdministratorHelper.compileEPL(
eplExpression, eplExpression, true, null, services, defaultStreamSelector);
// map to object model thus finding all substitution parameters and their indexes
StatementSpecUnMapResult unmapped = StatementSpecMapper.unmap(statementSpec);
// the prepared statement is the object model plus a list of substitution parameters
// map to specification will refuse any substitution parameters that are unfilled
return new EPPreparedStatementImpl(unmapped.getObjectModel(), unmapped.getIndexedParams());
}
public EPPreparedStatement preparePattern(String patternExpression) throws EPException {
StatementSpecRaw rawPattern =
EPAdministratorHelper.compilePattern(
patternExpression,
patternExpression,
true,
services,
SelectClauseStreamSelectorEnum.ISTREAM_ONLY);
// map to object model thus finding all substitution parameters and their indexes
StatementSpecUnMapResult unmapped = StatementSpecMapper.unmap(rawPattern);
// the prepared statement is the object model plus a list of substitution parameters
// map to specification will refuse any substitution parameters that are unfilled
return new EPPreparedStatementImpl(unmapped.getObjectModel(), unmapped.getIndexedParams());
}