Examples with CompilerContext org.apache.derby.iapi.sql.compile.CompilerContext used on opensource projects

Example 51 with CompilerContext

use of org.apache.derby.iapi.sql.compile.CompilerContext in project derby by apache.

the class InsertNode method getAffectedIndexes.

/**
 * Get the list of indexes on the table being inserted into.  This
 * is used by INSERT.  This is an optimized version of what
 * UPDATE and DELETE use.
 *
 * @param td	TableDescriptor for the table being inserted into
 *				or deleted from
 *
 * @exception StandardException		Thrown on error
 */
private void getAffectedIndexes(TableDescriptor td) throws StandardException {
    IndexLister indexLister = td.getIndexLister();
    indicesToMaintain = indexLister.getDistinctIndexRowGenerators();
    indexConglomerateNumbers = indexLister.getDistinctIndexConglomerateNumbers();
    indexNames = indexLister.getDistinctIndexNames();
    /* Add dependencies on all indexes in the list */
    ConglomerateDescriptor[] cds = td.getConglomerateDescriptors();
    CompilerContext cc = getCompilerContext();
    for (int index = 0; index < cds.length; index++) {
        cc.createDependency(cds[index]);
    }
}

Example 52 with CompilerContext

use of org.apache.derby.iapi.sql.compile.CompilerContext in project derby by apache.

the class DropTableNode method bindStatement.

/**
 * Bind this LockTableNode.  This means looking up the table,
 * verifying it exists and getting the heap conglomerate number.
 *
 * @exception StandardException		Thrown on error
 */
@Override
public void bindStatement() throws StandardException {
    CompilerContext cc = getCompilerContext();
    td = getTableDescriptor();
    conglomerateNumber = td.getHeapConglomerateId();
    /* Get the base conglomerate descriptor */
    ConglomerateDescriptor cd = td.getConglomerateDescriptor(conglomerateNumber);
    /* Statement is dependent on the TableDescriptor and ConglomerateDescriptor */
    cc.createDependency(td);
    cc.createDependency(cd);
}

Example 53 with CompilerContext

use of org.apache.derby.iapi.sql.compile.CompilerContext in project derby by apache.

the class GenericStatement method prepMinion.

private PreparedStatement prepMinion(LanguageConnectionContext lcc, boolean cacheMe, Object[] paramDefaults, SchemaDescriptor spsSchema, boolean internalSQL) throws StandardException {
    long beginTime = 0;
    long parseTime = 0;
    long bindTime = 0;
    long optimizeTime = 0;
    long generateTime = 0;
    Timestamp beginTimestamp = null;
    Timestamp endTimestamp = null;
    StatementContext statementContext = null;
    // if it is invalid, we will recompile now.
    if (preparedStmt != null) {
        if (preparedStmt.upToDate())
            return preparedStmt;
    }
    // Start a new optimizer trace for this statement
    if (lcc.optimizerTracingIsOn()) {
        lcc.getOptimizerTracer().traceStartStatement(getSource());
    }
    beginTime = getCurrentTimeMillis(lcc);
    /* beginTimestamp only meaningful if beginTime is meaningful.
		 * beginTime is meaningful if STATISTICS TIMING is ON.
		 */
    if (beginTime != 0) {
        beginTimestamp = new Timestamp(beginTime);
    }
    /**
     * set the prepare isolation from the LanguageConnectionContext now as
     * we need to consider it in caching decisions
     */
    prepareIsolationLevel = lcc.getPrepareIsolationLevel();
    /* a note on statement caching:
		 * 
		 * A GenericPreparedStatement (GPS) is only added it to the cache if the
		 * parameter cacheMe is set to TRUE when the GPS is created.
		 * 
		 * Earlier only CacheStatement (CS) looked in the statement cache for a
		 * prepared statement when prepare was called. Now the functionality 
		 * of CS has been folded into GenericStatement (GS). So we search the
		 * cache for an existing PreparedStatement only when cacheMe is TRUE.
		 * i.e if the user calls prepare with cacheMe set to TRUE:
		 * then we 
		 *         a) look for the prepared statement in the cache.
		 *         b) add the prepared statement to the cache.
		 *
		 * In cases where the statement cache has been disabled (by setting the
		 * relevant Derby property) then the value of cacheMe is irrelevant.
		 */
    boolean foundInCache = false;
    if (preparedStmt == null) {
        if (cacheMe)
            preparedStmt = (GenericPreparedStatement) ((GenericLanguageConnectionContext) lcc).lookupStatement(this);
        if (preparedStmt == null) {
            preparedStmt = new GenericPreparedStatement(this);
        } else {
            foundInCache = true;
        }
    }
    // cache of prepared statement objects...
    synchronized (preparedStmt) {
        for (; ; ) {
            if (foundInCache) {
                if (preparedStmt.referencesSessionSchema()) {
                    // cannot use this state since it is private to a connection.
                    // switch to a new statement.
                    foundInCache = false;
                    preparedStmt = new GenericPreparedStatement(this);
                    break;
                }
            }
            // did it get updated while we waited for the lock on it?
            if (preparedStmt.upToDate()) {
                return preparedStmt;
            }
            if (!preparedStmt.isCompiling()) {
                break;
            }
            try {
                preparedStmt.wait();
            } catch (InterruptedException ie) {
                InterruptStatus.setInterrupted();
            }
        }
        preparedStmt.beginCompiling();
    }
    try {
        HeaderPrintWriter istream = lcc.getLogStatementText() ? Monitor.getStream() : null;
        /*
			** For stored prepared statements, we want all
			** errors, etc in the context of the underlying
			** EXECUTE STATEMENT statement, so don't push/pop
			** another statement context unless we don't have
			** one.  We won't have one if it is an internal
			** SPS (e.g. jdbcmetadata).
			*/
        if (!preparedStmt.isStorable() || lcc.getStatementDepth() == 0) {
            // since this is for compilation only, set atomic
            // param to true and timeout param to 0
            statementContext = lcc.pushStatementContext(true, isForReadOnly, getSource(), null, false, 0L);
        }
        /*
			** RESOLVE: we may ultimately wish to pass in
			** whether we are a jdbc metadata query or not to
			** get the CompilerContext to make the createDependency()
			** call a noop.
			*/
        CompilerContext cc = lcc.pushCompilerContext(compilationSchema);
        if (prepareIsolationLevel != TransactionControl.UNSPECIFIED_ISOLATION_LEVEL) {
            cc.setScanIsolationLevel(prepareIsolationLevel);
        }
        if (internalSQL || (spsSchema != null) && (spsSchema.isSystemSchema()) && (spsSchema.equals(compilationSchema))) {
            cc.setReliability(CompilerContext.INTERNAL_SQL_LEGAL);
        }
        try {
            // Statement logging if lcc.getLogStatementText() is true
            if (istream != null) {
                String xactId = lcc.getTransactionExecute().getActiveStateTxIdString();
                istream.printlnWithHeader(LanguageConnectionContext.xidStr + xactId + "), " + LanguageConnectionContext.lccStr + lcc.getInstanceNumber() + "), " + LanguageConnectionContext.dbnameStr + lcc.getDbname() + "), " + LanguageConnectionContext.drdaStr + lcc.getDrdaID() + "), Begin compiling prepared statement: " + getSource() + " :End prepared statement");
            }
            Parser p = cc.getParser();
            cc.setCurrentDependent(preparedStmt);
            // Only top level statements go through here, nested statement
            // will invoke this method from other places
            StatementNode qt = (StatementNode) p.parseStatement(statementText, paramDefaults);
            parseTime = getCurrentTimeMillis(lcc);
            // Call user-written tree-printer if it exists
            walkAST(lcc, qt, ASTVisitor.AFTER_PARSE);
            if (SanityManager.DEBUG) {
                if (SanityManager.DEBUG_ON("DumpParseTree")) {
                    SanityManager.GET_DEBUG_STREAM().print("\n\n============PARSE===========\n\n");
                    qt.treePrint();
                    lcc.getPrintedObjectsMap().clear();
                }
                if (SanityManager.DEBUG_ON("StopAfterParsing")) {
                    lcc.setLastQueryTree(qt);
                    throw StandardException.newException(SQLState.LANG_STOP_AFTER_PARSING);
                }
            }
            /*
				** Tell the data dictionary that we are about to do
				** a bunch of "get" operations that must be consistent with
				** each other.
				*/
            DataDictionary dataDictionary = lcc.getDataDictionary();
            int ddMode = dataDictionary == null ? 0 : dataDictionary.startReading(lcc);
            try {
                // start a nested transaction -- all locks acquired by bind
                // and optimize will be released when we end the nested
                // transaction.
                lcc.beginNestedTransaction(true);
                qt.bindStatement();
                bindTime = getCurrentTimeMillis(lcc);
                // Call user-written tree-printer if it exists
                walkAST(lcc, qt, ASTVisitor.AFTER_BIND);
                if (SanityManager.DEBUG) {
                    if (SanityManager.DEBUG_ON("DumpBindTree")) {
                        SanityManager.GET_DEBUG_STREAM().print("\n\n============BIND===========\n\n");
                        qt.treePrint();
                        lcc.getPrintedObjectsMap().clear();
                    }
                    if (SanityManager.DEBUG_ON("StopAfterBinding")) {
                        throw StandardException.newException(SQLState.LANG_STOP_AFTER_BINDING);
                    }
                }
                // we do the check here.
                if (preparedStmt.referencesSessionSchema(qt)) {
                    if (foundInCache)
                        ((GenericLanguageConnectionContext) lcc).removeStatement(this);
                }
                // stop adding privileges for user-defined types
                cc.skipTypePrivileges(true);
                qt.optimizeStatement();
                optimizeTime = getCurrentTimeMillis(lcc);
                // Call user-written tree-printer if it exists
                walkAST(lcc, qt, ASTVisitor.AFTER_OPTIMIZE);
                // Statement logging if lcc.getLogStatementText() is true
                if (istream != null) {
                    String xactId = lcc.getTransactionExecute().getActiveStateTxIdString();
                    istream.printlnWithHeader(LanguageConnectionContext.xidStr + xactId + "), " + LanguageConnectionContext.lccStr + lcc.getInstanceNumber() + "), " + LanguageConnectionContext.dbnameStr + lcc.getDbname() + "), " + LanguageConnectionContext.drdaStr + lcc.getDrdaID() + "), End compiling prepared statement: " + getSource() + " :End prepared statement");
                }
            } catch (StandardException se) {
                lcc.commitNestedTransaction();
                // Statement logging if lcc.getLogStatementText() is true
                if (istream != null) {
                    String xactId = lcc.getTransactionExecute().getActiveStateTxIdString();
                    istream.printlnWithHeader(LanguageConnectionContext.xidStr + xactId + "), " + LanguageConnectionContext.lccStr + lcc.getInstanceNumber() + "), " + LanguageConnectionContext.dbnameStr + lcc.getDbname() + "), " + LanguageConnectionContext.drdaStr + lcc.getDrdaID() + "), Error compiling prepared statement: " + getSource() + " :End prepared statement");
                }
                throw se;
            } finally {
                /* Tell the data dictionary that we are done reading */
                if (dataDictionary != null)
                    dataDictionary.doneReading(ddMode, lcc);
            }
            /* we need to move the commit of nested sub-transaction
				 * after we mark PS valid, during compilation, we might need
				 * to get some lock to synchronize with another thread's DDL
				 * execution, in particular, the compilation of insert/update/
				 * delete vs. create index/constraint (see Beetle 3976).  We
				 * can't release such lock until after we mark the PS valid.
				 * Otherwise we would just erase the DDL's invalidation when
				 * we mark it valid.
				 */
            try // put in try block, commit sub-transaction if bad
            {
                if (SanityManager.DEBUG) {
                    if (SanityManager.DEBUG_ON("DumpOptimizedTree")) {
                        SanityManager.GET_DEBUG_STREAM().print("\n\n============OPT===========\n\n");
                        qt.treePrint();
                        lcc.getPrintedObjectsMap().clear();
                    }
                    if (SanityManager.DEBUG_ON("StopAfterOptimizing")) {
                        throw StandardException.newException(SQLState.LANG_STOP_AFTER_OPTIMIZING);
                    }
                }
                GeneratedClass ac = qt.generate(preparedStmt.getByteCodeSaver());
                generateTime = getCurrentTimeMillis(lcc);
                /* endTimestamp only meaningful if generateTime is meaningful.
					 * generateTime is meaningful if STATISTICS TIMING is ON.
					 */
                if (generateTime != 0) {
                    endTimestamp = new Timestamp(generateTime);
                }
                if (SanityManager.DEBUG) {
                    if (SanityManager.DEBUG_ON("StopAfterGenerating")) {
                        throw StandardException.newException(SQLState.LANG_STOP_AFTER_GENERATING);
                    }
                }
                /*
						copy over the compile-time created objects
						to the prepared statement.  This always happens
						at the end of a compile, so there is no need
						to erase the previous entries on a re-compile --
						this erases as it replaces.  Set the activation
						class in case it came from a StorablePreparedStatement
					*/
                preparedStmt.setConstantAction(qt.makeConstantAction());
                preparedStmt.setSavedObjects(cc.getSavedObjects());
                preparedStmt.setRequiredPermissionsList(cc.getRequiredPermissionsList());
                preparedStmt.incrementVersionCounter();
                preparedStmt.setActivationClass(ac);
                preparedStmt.setNeedsSavepoint(qt.needsSavepoint());
                preparedStmt.setCursorInfo((CursorInfo) cc.getCursorInfo());
                preparedStmt.setIsAtomic(qt.isAtomic());
                preparedStmt.setExecuteStatementNameAndSchema(qt.executeStatementName(), qt.executeSchemaName());
                preparedStmt.setSPSName(qt.getSPSName());
                preparedStmt.completeCompile(qt);
                preparedStmt.setCompileTimeWarnings(cc.getWarnings());
                // Schedule updates of any stale index statistics we may
                // have detected when creating the plan.
                TableDescriptor[] tds = qt.updateIndexStatisticsFor();
                if (tds.length > 0) {
                    IndexStatisticsDaemon isd = lcc.getDataDictionary().getIndexStatsRefresher(true);
                    if (isd != null) {
                        for (int i = 0; i < tds.length; i++) {
                            isd.schedule(tds[i]);
                        }
                    }
                }
            } catch (// hold it, throw it
            StandardException e) {
                lcc.commitNestedTransaction();
                throw e;
            }
            if (lcc.getRunTimeStatisticsMode()) {
                preparedStmt.setCompileTimeMillis(// parse time
                parseTime - beginTime, // bind time
                bindTime - parseTime, // optimize time
                optimizeTime - bindTime, // generate time
                generateTime - optimizeTime, // total compile time
                generateTime - beginTime, beginTimestamp, endTimestamp);
            }
        } finally // for block introduced by pushCompilerContext()
        {
            lcc.popCompilerContext(cc);
        }
    } catch (StandardException se) {
        if (foundInCache)
            ((GenericLanguageConnectionContext) lcc).removeStatement(this);
        throw se;
    } finally {
        preparedStmt.endCompiling();
    }
    lcc.commitNestedTransaction();
    if (statementContext != null)
        lcc.popStatementContext(statementContext, null);
    return preparedStmt;
}