Examples of HeaderPrintWriter

• org.apache.derby.iapi.services.stream.HeaderPrintWriter
  A HeaderPrintWriter is like a PrintWriter with support for including a header in the output. It is expected users will use HeaderPrintWriters to prepend headings to trace and log messages.

Examples of org.apache.derby.iapi.services.stream.HeaderPrintWriter

      LanguageConnectionContext lccToUse = activation.getLanguageConnectionContext();

       if (lccToUse.getLogStatementText())
      {
        HeaderPrintWriter istream = Monitor.getStream();
        String xactId = lccToUse.getTransactionExecute().getActiveStateTxIdString();
        String pvsString = "";
        ParameterValueSet pvs = activation.getParameterValueSet();
        if (pvs != null && pvs.getParameterCount() > 0)
        {
          pvsString = " with " + pvs.getParameterCount() +
              " parameters " + pvs.toString();
        }
        istream.printlnWithHeader(LanguageConnectionContext.xidStr +
                      xactId +
                      "), " +
                      LanguageConnectionContext.lccStr +
                      lccToUse.getInstanceNumber() +
                      "), " +

Examples of org.apache.derby.iapi.services.stream.HeaderPrintWriter

      preparedStmt.setActivationClass(null);
    }

    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 !=
        ExecutionContext.UNSPECIFIED_ISOLATION_LEVEL)
      {
        cc.setScanIsolationLevel(prepareIsolationLevel);
      }


      // Look for stored statements that are in a system schema
      // and with a match compilation schema. If so, allow them
      // to compile using internal SQL constructs.

      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 = p.parseStatement(statementText, paramDefaults);

        parseTime = getCurrentTimeMillis(lcc);

        if (SanityManager.DEBUG)
        {
          if (SanityManager.DEBUG_ON("DumpParseTree"))
          {
            qt.treePrint();
          }

          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);

          if (SanityManager.DEBUG)
          {
            if (SanityManager.DEBUG_ON("DumpBindTree"))
            {
              qt.treePrint();
            }

            if (SanityManager.DEBUG_ON("StopAfterBinding")) {
              throw StandardException.newException(SQLState.LANG_STOP_AFTER_BINDING);
            }
          }

          //Derby424 - In order to avoid caching select statements referencing
          // any SESSION schema objects (including statements referencing views
          // in SESSION schema), we need to do the SESSION schema object check
          // here.
          //a specific eg for statement referencing a view in SESSION schema
          //CREATE TABLE t28A (c28 int)
          //INSERT INTO t28A VALUES (280),(281)
          //CREATE VIEW SESSION.t28v1 as select * from t28A
          //SELECT * from SESSION.t28v1 should show contents of view and we
          // should not cache this statement because a user can later define
          // a global temporary table with the same name as the view name.
          //Following demonstrates that
          //DECLARE GLOBAL TEMPORARY TABLE SESSION.t28v1(c21 int, c22 int) not
          //     logged
          //INSERT INTO SESSION.t28v1 VALUES (280,1),(281,2)
          //SELECT * from SESSION.t28v1 should show contents of global temporary
          //table and not the view.  Since this select statement was not cached
          // earlier, it will be compiled again and will go to global temporary
          // table to fetch data. This plan will not be cached either because
          // select statement is using SESSION schema object.
          //
          //Following if statement makes sure that if the statement is
          // referencing SESSION schema objects, then we do not want to cache it.
          // We will remove the entry that was made into the cache for
          //this statement at the beginning of the compile phase.
          //The reason we do this check here rather than later in the compile
          // phase is because for a view, later on, we loose the information that
          // it was referencing SESSION schema because the reference
          //view gets replaced with the actual view definition. Right after
          // binding, we still have the information on the view and that is why
          // we do the check here.
          if (preparedStmt.referencesSessionSchema(qt)) {
            if (foundInCache)
              ((GenericLanguageConnectionContext)lcc).removeStatement(this);
          }

          qt.optimizeStatement();

          optimizeTime = getCurrentTimeMillis(lcc);

          // 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() +
                          "), " +

Examples of org.apache.derby.iapi.services.stream.HeaderPrintWriter

      LanguageConnectionContext lccToUse = activation.getLanguageConnectionContext();

       if (lccToUse.getLogStatementText())
      {
        HeaderPrintWriter istream = Monitor.getStream();
        String xactId = lccToUse.getTransactionExecute().getActiveStateTxIdString();
        String pvsString = "";
        ParameterValueSet pvs = activation.getParameterValueSet();
        if (pvs != null && pvs.getParameterCount() > 0)
        {
          pvsString = " with " + pvs.getParameterCount() +
              " parameters " + pvs.toString();
        }
        istream.printlnWithHeader(LanguageConnectionContext.xidStr +
                      xactId +
                      "), " +
                      LanguageConnectionContext.lccStr +
                      lccToUse.getInstanceNumber() +
                      "), " +

Examples of org.apache.derby.iapi.services.stream.HeaderPrintWriter

            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);
      }


      // Look for stored statements that are in a system schema
      // and with a match compilation schema. If so, allow them
      // to compile using internal SQL constructs.

      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);
            }
          }

          //Derby424 - In order to avoid caching select statements referencing
          // any SESSION schema objects (including statements referencing views
          // in SESSION schema), we need to do the SESSION schema object check
          // here.
          //a specific eg for statement referencing a view in SESSION schema
          //CREATE TABLE t28A (c28 int)
          //INSERT INTO t28A VALUES (280),(281)
          //CREATE VIEW SESSION.t28v1 as select * from t28A
          //SELECT * from SESSION.t28v1 should show contents of view and we
          // should not cache this statement because a user can later define
          // a global temporary table with the same name as the view name.
          //Following demonstrates that
          //DECLARE GLOBAL TEMPORARY TABLE SESSION.t28v1(c21 int, c22 int) not
          //     logged
          //INSERT INTO SESSION.t28v1 VALUES (280,1),(281,2)
          //SELECT * from SESSION.t28v1 should show contents of global temporary
          //table and not the view.  Since this select statement was not cached
          // earlier, it will be compiled again and will go to global temporary
          // table to fetch data. This plan will not be cached either because
          // select statement is using SESSION schema object.
          //
          //Following if statement makes sure that if the statement is
          // referencing SESSION schema objects, then we do not want to cache it.
          // We will remove the entry that was made into the cache for
          //this statement at the beginning of the compile phase.
          //The reason we do this check here rather than later in the compile
          // phase is because for a view, later on, we loose the information that
          // it was referencing SESSION schema because the reference
          //view gets replaced with the actual view definition. Right after
          // binding, we still have the information on the view and that is why
          // 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() +
                          "), " +

Examples of org.apache.derby.iapi.services.stream.HeaderPrintWriter

      fos.write(bytecode.getArray(),
        bytecode.getOffset(), bytecode.getLength());
      fos.flush();
      if (logMessage) {
            // find the error stream
            HeaderPrintWriter errorStream = Monitor.getStream();
        errorStream.printlnWithHeader("Wrote class "+getFullName()+" to file "+classFile.toString()+". Please provide support with the file and the following exception message: "+t);
      }
      fos.close();
    } catch (IOException e) {
      if (SanityManager.DEBUG)
        SanityManager.THROWASSERT("Unable to write .class file", e);

Examples of org.apache.derby.iapi.services.stream.HeaderPrintWriter

   */
  private HeaderPrintWriter makeStream() {

    // get the header
    PrintWriterGetHeader header = makeHeader();
    HeaderPrintWriter hpw = makeHPW(header);

    // If hpw == null then no properties were specified for the stream
    // so use/create the default stream.
    if (hpw == null)
      hpw = createDefaultStream(header);

Examples of org.apache.derby.iapi.services.stream.HeaderPrintWriter

      try {
        Method theMethod = theClass.getMethod(methodName,  new Class[0]);

        if (!Modifier.isStatic(theMethod.getModifiers())) {
          HeaderPrintWriter hpw = useDefaultStream(header);
          hpw.printlnWithHeader(theMethod.toString() + " is not static");
          return hpw;
        }

        try {
          return makeValueHPW(theMethod, theMethod.invoke((Object) null,

Examples of org.apache.derby.iapi.services.stream.HeaderPrintWriter

  }

  private HeaderPrintWriter makeStyleHPW(String style,
                      PrintWriterGetHeader header) {
    HeaderPrintWriter res = null;
    if ("rollingFile".equals(style)) {
    String className = "org.apache.derby.impl.services.stream.RollingFileStreamProvider.getOutputStream";
      res = makeMethodHPW(className, header, true);
    } else {
      try {

Examples of org.apache.derby.iapi.services.stream.HeaderPrintWriter

      try {
        Field theField = theClass.getField(fieldName);

        if (!Modifier.isStatic(theField.getModifiers())) {
          HeaderPrintWriter hpw = useDefaultStream(header);
          hpw.printlnWithHeader(theField.toString() + " is not static");
          return hpw;
        }

        try {
          return makeValueHPW(theField, theField.get((Object) null),

Examples of org.apache.derby.iapi.services.stream.HeaderPrintWriter

    if (value instanceof OutputStream)
       return new BasicHeaderPrintWriter((OutputStream) value, header, canClose, name);
    else if (value instanceof Writer)
       return new BasicHeaderPrintWriter((Writer) value, header, canClose, name);

    HeaderPrintWriter hpw = useDefaultStream(header);

    if (value == null)
      hpw.printlnWithHeader(whereFrom.toString() + "=null");
    else
      hpw.printlnWithHeader(whereFrom.toString() + " instanceof " + value.getClass().getName());

    return hpw;
  }