Package logformat.slog2

Examples of logformat.slog2.TreeDirValue


    {
        PipedInputLog      dobj_ins;
        OutputLog          slog_outs;
        Kind               next_kind;
        Topology           topo;
        CategoryMap        objdefs;   // Drawable def'n
        Map                shadefs;   // Shadow   def'n
        Category           objdef;
        LineIDMapList      lineIDmaps;
        LineIDMap          lineIDmap;
        Primitive          prime_obj;
        Composite          cmplx_obj;
        long               Nobjs;

        TreeTrunk          treetrunk;
        double             prev_dobj_endtime;
        double             curr_dobj_endtime;
        long               offended_Nobjs;
        Drawable           offended_dobj;



        //  Initialize prev_dobj_endtime to avoid complaint by compiler
        prev_dobj_endtime = Double.NEGATIVE_INFINITY;
        offended_Nobjs    = Integer.MIN_VALUE;
        offended_dobj     = null;

        out_filename      = null;
        del_iobjdefs      = null;
        parseCmdLineArgs( args );
        if ( out_filename == null )
            out_filename  = TraceName.getDefaultSLOG2Name( in_filename );

        objdefs       = new CategoryMap();
        shadefs       = new HashMap();
        lineIDmaps    = new LineIDMapList();
        Nobjs         = 0;

        // Initialize the SLOG-2 file for piped-input, output for this program.
        dobj_ins   = new PipedInputLog( in_filename );
        if ( dobj_ins == null ) {
            System.err.println( "Null input logfile!" );
            System.exit( 1 );
        }
        if ( ! dobj_ins.isSLOG2() ) {
            System.err.println( in_filename + " is NOT SLOG-2 file!." );
            System.exit( 1 );
        }
        String err_msg;
        if ( (err_msg = dobj_ins.getCompatibleHeader()) != null ) {
            System.err.print( err_msg );
            PipedInputLog.stdoutConfirmation();
        }
        dobj_ins.initialize();

        /* */    Date time1 = new Date();
        slog_outs  = new OutputLog( out_filename );

        //  Set Tree properties, !optional!
        //  TreeNode's minimum size, without any drawable/shadow, is 38 bytes.
        //  Drawable;s minimum size is 32 bytes, whether it is state/arrow.
        //  Arrow( with 2 integer infovalues ) is 40 bytes long.
        //  So, for 1 state primitive leaf, the size is 38 + 40 = 78 .
        if ( leaf_bytesize > 0 )
            slog_outs.setTreeLeafByteSize( leaf_bytesize );
        else
            slog_outs.setTreeLeafByteSize( dobj_ins.getTreeLeafByteSize() );
        if ( num_children_per_node > 0 )
            slog_outs.setNumChildrenPerNode( num_children_per_node );
        else
            slog_outs.setNumChildrenPerNode( dobj_ins.getNumChildrenPerNode() );

        treetrunk = new TreeTrunk( slog_outs, shadefs );
        /* */    Date time2 = new Date();
        while ( ( next_kind = dobj_ins.peekNextKind() ) != Kind.EOF ) {
            if ( next_kind == Kind.TOPOLOGY ) {
                topo = dobj_ins.getNextTopology();
                // Put in the default Shadow categories in case the original
                // does not have any shadow categories, i.e no shadows.
                objdef = Category.getShadowCategory( topo );
                objdefs.put( new Integer( objdef.getIndex() ), objdef );
                shadefs.put( topo, objdef );
            }
            else if ( next_kind == Kind.YCOORDMAP ) {
                lineIDmap = new LineIDMap( dobj_ins.getNextYCoordMap() );
                lineIDmaps.add( lineIDmap );
            }
            else if ( next_kind == Kind.CATEGORY ) {
                objdef = dobj_ins.getNextCategory();
                if ( objdef.isShadowCategory() ) {
                    objdefs.put( new Integer( objdef.getIndex() ), objdef );
                    shadefs.put( objdef.getTopology(), objdef );
                }
                // Category can be removed here for efficiency reason.
                // Instead let CategoryMap.removeUnusedCategories() do the work.
                // if ( isCategoryToBeRemoved( objdef.getIndex() ) )
                //     continue;
                objdefs.put( new Integer( objdef.getIndex() ), objdef );
                objdef.setUsed( false );
            }
            else if ( next_kind == Kind.PRIMITIVE ) {
                prime_obj = dobj_ins.getNextPrimitive();
                // Undo InfoBox.resolveCategory() when the Drawable is read.
                prime_obj.releaseCategory();
                if ( isCategoryToBeRemoved( prime_obj.getCategoryIndex() ) ) {
                    // System.out.println( "Removing ... " + prime_obj );
                    continue;
                }
                prime_obj.resolveCategory( objdefs );
                // postponed, wait till on-demand decoding of InfoBuffer
                // prime_obj.decodeInfoBuffer();
                Nobjs++;
                // System.out.println( Nobjs + " : " + prime_obj );
                if ( enable_endtime_check ) {
                    if ( ! prime_obj.isTimeOrdered() ) {
                        System.out.println( "**** Primitive Time Error ****" );
                        if ( ! continue_when_violation )
                            System.exit( 1 );
                    }
                    curr_dobj_endtime = prime_obj.getLatestTime();
                    if ( prev_dobj_endtime > curr_dobj_endtime ) {
                        System.err.println( "**** Violation of "
                                          + "Increasing Endtime Order ****\n"
                                          + "\t Offended Drawable -> "
                                          + offended_Nobjs + " : "
                                          + offended_dobj + "\n"
                                          + "\t Offending Primitive -> "
                                          + Nobjs + " : " + prime_obj + "\n"
                                          + "   previous drawable endtime ( "
                                          + prev_dobj_endtime + " ) "
                                          + " > current drawable endtiime ( "
                                          + curr_dobj_endtime + " ) " );
                        if ( ! continue_when_violation )
                            System.exit( 1 );
                    }
                    offended_Nobjs    = Nobjs;
                    offended_dobj     = prime_obj;
                    prev_dobj_endtime = curr_dobj_endtime;
                }
                treetrunk.addDrawable( prime_obj );
            }
            else if ( next_kind == Kind.COMPOSITE ) {
                cmplx_obj = dobj_ins.getNextComposite();
                // Undo InfoBox.resolveCategory() when the Drawable is read.
                cmplx_obj.releaseCategory();
                if ( isCategoryToBeRemoved( cmplx_obj.getCategoryIndex() ) ) {
                    // System.out.println( "Removing ... " + cmplx_obj );
                    continue;
                }
                cmplx_obj.resolveCategory( objdefs );
                // postponed, wait till on-demand decoding of InfoBuffer
                // cmplx_obj.decodeInfoBuffer();
                Nobjs++;
                // System.out.println( Nobjs + " : " + cmplx_obj );
                if ( enable_endtime_check ) {
                    if ( ! cmplx_obj.isTimeOrdered() ) {
                        System.out.println( "**** Composite Time Error ****" );
                        if ( ! continue_when_violation )
                            System.exit( 1 );
                    }
                    curr_dobj_endtime = cmplx_obj.getLatestTime();
                    if ( prev_dobj_endtime > curr_dobj_endtime ) {
                        System.err.println( "***** Violation of "
                                          + "Increasing Endtime Order! *****\n"
                                          + "\t Offended Drawable -> "
                                          + offended_Nobjs + " : "
                                          + offended_dobj + "\n"
                                          + "\t Offending Composite -> "
                                          + Nobjs + " : " + cmplx_obj + "\n"
                                          + "   previous drawable endtime ( "
                                          + prev_dobj_endtime + " ) "
                                          + " > current drawable endtiime ( "
                                          + curr_dobj_endtime + " ) " );
                        if ( ! continue_when_violation )
                            System.exit( 1 );
                    }
                    offended_Nobjs    = Nobjs;
                    offended_dobj     = cmplx_obj;
                    prev_dobj_endtime = curr_dobj_endtime;
                }
                treetrunk.addDrawable( cmplx_obj );
            }
            else {
                System.err.println( "Slog2ToSlog2: Unrecognized return "
                                  + "from peekNextKind() = " + next_kind );
            }
        }   // Endof while ( dobj_ins.peekNextKind() )
        treetrunk.flushToFile();

        objdefs.removeUnusedCategories();
        slog_outs.writeCategoryMap( objdefs );

        // treetrunk's IdentityLineIDMap could be duplicate of the one
        // in the logfile
        // lineIDmaps.add( treetrunk.getIdentityLineIDMap() );
View Full Code Here


    {
        WrappedInputLog    dobj_ins;
        OutputLog          slog_outs;
        Kind               next_kind;
        Topology           topo;
        CategoryMap        objdefs;   // Drawable def'n
        Map                shadefs;   // Shadow   def'n
        Category           objdef;
        LineIDMapList      lineIDmaps;
        LineIDMap          lineIDmap;
        Primitive          prime_obj;
        Composite          cmplx_obj;
        long               Nobjs;

        TreeTrunk          treetrunk;
        double             prev_dobj_endtime;
        double             curr_dobj_endtime;
        long               offended_Nobjs;
        Drawable           offended_dobj;



        //  Initialize prev_dobj_endtime to avoid complaint by compiler
        prev_dobj_endtime = Double.NEGATIVE_INFINITY;
        offended_Nobjs    = Integer.MIN_VALUE;
        offended_dobj     = null;

        out_filename      = null;
        del_iobjdefs      = null;
        parseCmdLineArgs( args );
        if ( out_filename == null )
            out_filename  = TraceName.getDefaultSLOG2Name( in_filename );

        objdefs       = new CategoryMap();
        shadefs       = new HashMap();
        lineIDmaps    = new LineIDMapList();
        Nobjs         = 0;

        // Initialize the SLOG-2 file for piped-input, output for this program.
        dobj_ins   = new WrappedInputLog( in_filename );
        if ( dobj_ins == null ) {
            System.err.println( "Null input logfile!" );
            System.exit( 1 );
        }
        if ( ! dobj_ins.isSLOG2() ) {
            System.err.println( in_filename + " is NOT SLOG-2 file!." );
            System.exit( 1 );
        }
        String err_msg;
        if ( (err_msg = dobj_ins.getCompatibleHeader()) != null ) {
            System.err.print( err_msg );
            WrappedInputLog.stdoutConfirmation();
        }
        dobj_ins.initialize();

        /* */    Date time1 = new Date();
        slog_outs  = new OutputLog( out_filename );

        //  Set Tree properties, !optional!
        //  TreeNode's minimum size, without any drawable/shadow, is 38 bytes.
        //  Drawable;s minimum size is 32 bytes, whether it is state/arrow.
        //  Arrow( with 2 integer infovalues ) is 40 bytes long.
        //  So, for 1 state primitive leaf, the size is 38 + 40 = 78 .
        if ( leaf_bytesize > 0 )
            slog_outs.setTreeLeafByteSize( leaf_bytesize );
        else
            slog_outs.setTreeLeafByteSize( dobj_ins.getTreeLeafByteSize() );
        if ( num_children_per_node > 0 )
            slog_outs.setNumChildrenPerNode( num_children_per_node );
        else
            slog_outs.setNumChildrenPerNode( dobj_ins.getNumChildrenPerNode() );

        treetrunk = new TreeTrunk( slog_outs, shadefs );
        /* */    Date time2 = new Date();
        while ( ( next_kind = dobj_ins.peekNextKind() ) != Kind.EOF ) {
            if ( next_kind == Kind.TOPOLOGY ) {
                topo = dobj_ins.getNextTopology();
                // Put in the default Shadow categories in case the original
                // does not have any shadow categories, i.e no shadows.
                objdef = Category.getShadowCategory( topo );
                objdefs.put( new Integer( objdef.getIndex() ), objdef );
                shadefs.put( topo, objdef );
            }
            else if ( next_kind == Kind.YCOORDMAP ) {
                lineIDmap = new LineIDMap( dobj_ins.getNextYCoordMap() );
                lineIDmaps.add( lineIDmap );
            }
            else if ( next_kind == Kind.CATEGORY ) {
                objdef = dobj_ins.getNextCategory();
                if ( objdef.isShadowCategory() ) {
                    objdefs.put( new Integer( objdef.getIndex() ), objdef );
                    shadefs.put( objdef.getTopology(), objdef );
                }
                // Category can be removed here for efficiency reason.
                // Instead let CategoryMap.removeUnusedCategories() do the work.
                // if ( isCategoryToBeRemoved( objdef.getIndex() ) )
                //     continue;
                objdefs.put( new Integer( objdef.getIndex() ), objdef );
                objdef.setUsed( false );
            }
            else if ( next_kind == Kind.PRIMITIVE ) {
                prime_obj = dobj_ins.getNextPrimitive();
                // Undo InfoBox.resolveCategory() when the Drawable is read.
                prime_obj.releaseCategory();
                if ( isCategoryToBeRemoved( prime_obj.getCategoryIndex() ) ) {
                    // System.out.println( "Removing ... " + prime_obj );
                    continue;
                }
                prime_obj.resolveCategory( objdefs );
                // postponed, wait till on-demand decoding of InfoBuffer
                // prime_obj.decodeInfoBuffer();
                Nobjs++;
                // System.out.println( Nobjs + " : " + prime_obj );
                if ( enable_endtime_check ) {
                    if ( ! prime_obj.isTimeOrdered() ) {
                        System.out.println( "**** Primitive Time Error ****" );
                        if ( ! continue_when_violation )
                            System.exit( 1 );
                    }
                    curr_dobj_endtime = prime_obj.getLatestTime();
                    if ( prev_dobj_endtime > curr_dobj_endtime ) {
                        System.err.println( "**** Violation of "
                                          + "Increasing Endtime Order ****\n"
                                          + "\t Offended Drawable -> "
                                          + offended_Nobjs + " : "
                                          + offended_dobj + "\n"
                                          + "\t Offending Primitive -> "
                                          + Nobjs + " : " + prime_obj + "\n"
                                          + "   previous drawable endtime ( "
                                          + prev_dobj_endtime + " ) "
                                          + " > current drawable endtiime ( "
                                          + curr_dobj_endtime + " ) " );
                        if ( ! continue_when_violation )
                            System.exit( 1 );
                    }
                    offended_Nobjs    = Nobjs;
                    offended_dobj     = prime_obj;
                    prev_dobj_endtime = curr_dobj_endtime;
                }
                treetrunk.addDrawable( prime_obj );
            }
            else if ( next_kind == Kind.COMPOSITE ) {
                cmplx_obj = dobj_ins.getNextComposite();
                // Undo InfoBox.resolveCategory() when the Drawable is read.
                cmplx_obj.releaseCategory();
                if ( isCategoryToBeRemoved( cmplx_obj.getCategoryIndex() ) ) {
                    // System.out.println( "Removing ... " + cmplx_obj );
                    continue;
                }
                cmplx_obj.resolveCategory( objdefs );
                // postponed, wait till on-demand decoding of InfoBuffer
                // cmplx_obj.decodeInfoBuffer();
                Nobjs++;
                // System.out.println( Nobjs + " : " + cmplx_obj );
                if ( enable_endtime_check ) {
                    if ( ! cmplx_obj.isTimeOrdered() ) {
                        System.out.println( "**** Composite Time Error ****" );
                        if ( ! continue_when_violation )
                            System.exit( 1 );
                    }
                    curr_dobj_endtime = cmplx_obj.getLatestTime();
                    if ( prev_dobj_endtime > curr_dobj_endtime ) {
                        System.err.println( "***** Violation of "
                                          + "Increasing Endtime Order! *****\n"
                                          + "\t Offended Drawable -> "
                                          + offended_Nobjs + " : "
                                          + offended_dobj + "\n"
                                          + "\t Offending Composite -> "
                                          + Nobjs + " : " + cmplx_obj + "\n"
                                          + "   previous drawable endtime ( "
                                          + prev_dobj_endtime + " ) "
                                          + " > current drawable endtiime ( "
                                          + curr_dobj_endtime + " ) " );
                        if ( ! continue_when_violation )
                            System.exit( 1 );
                    }
                    offended_Nobjs    = Nobjs;
                    offended_dobj     = cmplx_obj;
                    prev_dobj_endtime = curr_dobj_endtime;
                }
                treetrunk.addDrawable( cmplx_obj );
            }
            else {
                System.err.println( "Slog2ToSlog2: Unrecognized return "
                                  + "from peekNextKind() = " + next_kind );
            }
        }   // Endof while ( dobj_ins.peekNextKind() )
        treetrunk.flushToFile();

        objdefs.removeUnusedCategories();
        slog_outs.writeCategoryMap( objdefs );

        // treetrunk's IdentityLineIDMap could be duplicate of the one
        // in the logfile
        // lineIDmaps.add( treetrunk.getIdentityLineIDMap() );
View Full Code Here

        public CategoryIterator( int kind_idx )
        {
            PipedInputLog.this.next_kind_idx  = kind_idx;

            CategoryMap  objdefs;
            objdefs     = PipedInputLog.super.getCategoryMap();
            objdef_itr  = objdefs.values().iterator();
            if ( objdef_itr.hasNext() )
                next_objdef = (Category) objdef_itr.next();
            else
                next_objdef = null;
        }
View Full Code Here

            return  next_lineIDmap != null;
        }
   
        public Object next()
        {
            LineIDMap  loosen_lineIDmap  = next_lineIDmap;
            if ( lineIDmap_itr.hasNext() )
                next_lineIDmap = (LineIDMap) lineIDmap_itr.next();
            else
                next_lineIDmap = null;
            return loosen_lineIDmap;
View Full Code Here

        Topology           topo;
        CategoryMap        objdefs;   // Drawable def'n
        Map                shadefs;   // Shadow   def'n
        Category           objdef;
        LineIDMapList      lineIDmaps;
        LineIDMap          lineIDmap;
        Primitive          prime_obj;
        Composite          cmplx_obj;
        long               Nobjs;

        TreeTrunk          treetrunk;
        double             prev_dobj_endtime;
        double             curr_dobj_endtime;
        long               offended_Nobjs;
        Drawable           offended_dobj;



        //  Initialize prev_dobj_endtime to avoid complaint by compiler
        prev_dobj_endtime = Double.NEGATIVE_INFINITY;
        offended_Nobjs    = Integer.MIN_VALUE;
        offended_dobj     = null;

        out_filename      = null;
        del_iobjdefs      = null;
        parseCmdLineArgs( args );
        if ( out_filename == null )
            out_filename  = TraceName.getDefaultSLOG2Name( in_filename );

        objdefs       = new CategoryMap();
        shadefs       = new HashMap();
        lineIDmaps    = new LineIDMapList();
        Nobjs         = 0;

        // Initialize the SLOG-2 file for piped-input, output for this program.
        dobj_ins   = new PipedInputLog( in_filename );
        if ( dobj_ins == null ) {
            System.err.println( "Null input logfile!" );
            System.exit( 1 );
        }
        if ( ! dobj_ins.isSLOG2() ) {
            System.err.println( in_filename + " is NOT SLOG-2 file!." );
            System.exit( 1 );
        }
        String err_msg;
        if ( (err_msg = dobj_ins.getCompatibleHeader()) != null ) {
            System.err.print( err_msg );
            PipedInputLog.stdoutConfirmation();
        }
        dobj_ins.initialize();

        /* */    Date time1 = new Date();
        slog_outs  = new OutputLog( out_filename );

        //  Set Tree properties, !optional!
        //  TreeNode's minimum size, without any drawable/shadow, is 38 bytes.
        //  Drawable;s minimum size is 32 bytes, whether it is state/arrow.
        //  Arrow( with 2 integer infovalues ) is 40 bytes long.
        //  So, for 1 state primitive leaf, the size is 38 + 40 = 78 .
        if ( leaf_bytesize > 0 )
            slog_outs.setTreeLeafByteSize( leaf_bytesize );
        else
            slog_outs.setTreeLeafByteSize( dobj_ins.getTreeLeafByteSize() );
        if ( num_children_per_node > 0 )
            slog_outs.setNumChildrenPerNode( num_children_per_node );
        else
            slog_outs.setNumChildrenPerNode( dobj_ins.getNumChildrenPerNode() );

        treetrunk = new TreeTrunk( slog_outs, shadefs );
        /* */    Date time2 = new Date();
        while ( ( next_kind = dobj_ins.peekNextKind() ) != Kind.EOF ) {
            if ( next_kind == Kind.TOPOLOGY ) {
                topo = dobj_ins.getNextTopology();
                // Put in the default Shadow categories in case the original
                // does not have any shadow categories, i.e no shadows.
                objdef = Category.getShadowCategory( topo );
                objdefs.put( new Integer( objdef.getIndex() ), objdef );
                shadefs.put( topo, objdef );
            }
            else if ( next_kind == Kind.YCOORDMAP ) {
                lineIDmap = new LineIDMap( dobj_ins.getNextYCoordMap() );
                lineIDmaps.add( lineIDmap );
            }
            else if ( next_kind == Kind.CATEGORY ) {
                objdef = dobj_ins.getNextCategory();
                if ( objdef.isShadowCategory() ) {
View Full Code Here

    public YCoordMap getNextYCoordMap()
    {
        old_base.drawable.YCoordMap   old_ymap;
        YCoordMap                     new_ymap;
        old_logformat.slog2.LineIDMap old_lidmap;
        LineIDMap                     new_lidmap;

        old_ymap   = old_dobj_ins.getNextYCoordMap();
        old_lidmap = new old_logformat.slog2.LineIDMap( old_ymap );
        new_lidmap = new LineIDMap();
        updateObject( old_lidmap, new_lidmap );
        new_ymap   = new_lidmap.toYCoordMap();

        return new_ymap;
    }
View Full Code Here

        Topology           topo;
        CategoryMap        objdefs;   // Drawable def'n
        Map                shadefs;   // Shadow   def'n
        Category           objdef;
        LineIDMapList      lineIDmaps;
        LineIDMap          lineIDmap;
        Primitive          prime_obj;
        Composite          cmplx_obj;
        long               Nobjs;

        TreeTrunk          treetrunk;
        double             prev_dobj_endtime;
        double             curr_dobj_endtime;
        long               offended_Nobjs;
        Drawable           offended_dobj;



        //  Initialize prev_dobj_endtime to avoid complaint by compiler
        prev_dobj_endtime = Double.NEGATIVE_INFINITY;
        offended_Nobjs    = Integer.MIN_VALUE;
        offended_dobj     = null;

        out_filename      = null;
        del_iobjdefs      = null;
        parseCmdLineArgs( args );
        if ( out_filename == null )
            out_filename  = TraceName.getDefaultSLOG2Name( in_filename );

        objdefs       = new CategoryMap();
        shadefs       = new HashMap();
        lineIDmaps    = new LineIDMapList();
        Nobjs         = 0;

        // Initialize the SLOG-2 file for piped-input, output for this program.
        dobj_ins   = new WrappedInputLog( in_filename );
        if ( dobj_ins == null ) {
            System.err.println( "Null input logfile!" );
            System.exit( 1 );
        }
        if ( ! dobj_ins.isSLOG2() ) {
            System.err.println( in_filename + " is NOT SLOG-2 file!." );
            System.exit( 1 );
        }
        String err_msg;
        if ( (err_msg = dobj_ins.getCompatibleHeader()) != null ) {
            System.err.print( err_msg );
            WrappedInputLog.stdoutConfirmation();
        }
        dobj_ins.initialize();

        /* */    Date time1 = new Date();
        slog_outs  = new OutputLog( out_filename );

        //  Set Tree properties, !optional!
        //  TreeNode's minimum size, without any drawable/shadow, is 38 bytes.
        //  Drawable;s minimum size is 32 bytes, whether it is state/arrow.
        //  Arrow( with 2 integer infovalues ) is 40 bytes long.
        //  So, for 1 state primitive leaf, the size is 38 + 40 = 78 .
        if ( leaf_bytesize > 0 )
            slog_outs.setTreeLeafByteSize( leaf_bytesize );
        else
            slog_outs.setTreeLeafByteSize( dobj_ins.getTreeLeafByteSize() );
        if ( num_children_per_node > 0 )
            slog_outs.setNumChildrenPerNode( num_children_per_node );
        else
            slog_outs.setNumChildrenPerNode( dobj_ins.getNumChildrenPerNode() );

        treetrunk = new TreeTrunk( slog_outs, shadefs );
        /* */    Date time2 = new Date();
        while ( ( next_kind = dobj_ins.peekNextKind() ) != Kind.EOF ) {
            if ( next_kind == Kind.TOPOLOGY ) {
                topo = dobj_ins.getNextTopology();
                // Put in the default Shadow categories in case the original
                // does not have any shadow categories, i.e no shadows.
                objdef = Category.getShadowCategory( topo );
                objdefs.put( new Integer( objdef.getIndex() ), objdef );
                shadefs.put( topo, objdef );
            }
            else if ( next_kind == Kind.YCOORDMAP ) {
                lineIDmap = new LineIDMap( dobj_ins.getNextYCoordMap() );
                lineIDmaps.add( lineIDmap );
            }
            else if ( next_kind == Kind.CATEGORY ) {
                objdef = dobj_ins.getNextCategory();
                if ( objdef.isShadowCategory() ) {
View Full Code Here

        UIManager.put( "ScrollBar.minimumThumbSize", sb_minThumbSz );


        /* Initialize the YaxisMaps through the initialization of YaxisTree */
        LineIDMapList lineIDmaps = slog_ins.getLineIDMapList();
        LineIDMap     lineIDmap  = (LineIDMap) lineIDmaps.get( view_ID );
        String[]      y_colnames = lineIDmap.getColumnLabels();
        y_maps      = new YaxisMaps( lineIDmap );
        y_tree      = new YaxisTree( y_maps.getTreeRoot() );
        y_maps.setTreeView( y_tree );  
                    /* done YaxisMaps initialization */
        methods     = lineIDmap.getMethods();
        /*
           y_scroller for y_tree needs to be created before time_canvas, so
           y_model can be extracted to be used for the creation of time_canvas
        */
        y_scroller  = new JScrollPane( y_tree,
View Full Code Here

        public LineIDMapIterator( int kind_idx )
        {
            PipedInputLog.this.next_kind_idx  = kind_idx;
   
            LineIDMapList  lineIDmaps;
            lineIDmaps     = PipedInputLog.super.getLineIDMapList();
            lineIDmap_itr  = lineIDmaps.iterator();
            if ( lineIDmap_itr.hasNext() )
                next_lineIDmap = (LineIDMap) lineIDmap_itr.next();
            else
                next_lineIDmap = null;
        }
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        Kind               next_kind;
        Topology           topo;
        CategoryMap        objdefs;   // Drawable def'n
        Map                shadefs;   // Shadow   def'n
        Category           objdef;
        LineIDMapList      lineIDmaps;
        LineIDMap          lineIDmap;
        Primitive          prime_obj;
        Composite          cmplx_obj;
        long               Nobjs;

        TreeTrunk          treetrunk;
        double             prev_dobj_endtime;
        double             curr_dobj_endtime;
        long               offended_Nobjs;
        Drawable           offended_dobj;



        //  Initialize prev_dobj_endtime to avoid complaint by compiler
        prev_dobj_endtime = Double.NEGATIVE_INFINITY;
        offended_Nobjs    = Integer.MIN_VALUE;
        offended_dobj     = null;

        out_filename      = null;
        del_iobjdefs      = null;
        parseCmdLineArgs( args );
        if ( out_filename == null )
            out_filename  = TraceName.getDefaultSLOG2Name( in_filename );

        objdefs       = new CategoryMap();
        shadefs       = new HashMap();
        lineIDmaps    = new LineIDMapList();
        Nobjs         = 0;

        // Initialize the SLOG-2 file for piped-input, output for this program.
        dobj_ins   = new PipedInputLog( in_filename );
        if ( dobj_ins == null ) {
            System.err.println( "Null input logfile!" );
            System.exit( 1 );
        }
        if ( ! dobj_ins.isSLOG2() ) {
            System.err.println( in_filename + " is NOT SLOG-2 file!." );
            System.exit( 1 );
        }
        String err_msg;
        if ( (err_msg = dobj_ins.getCompatibleHeader()) != null ) {
            System.err.print( err_msg );
            PipedInputLog.stdoutConfirmation();
        }
        dobj_ins.initialize();

        /* */    Date time1 = new Date();
        slog_outs  = new OutputLog( out_filename );

        //  Set Tree properties, !optional!
        //  TreeNode's minimum size, without any drawable/shadow, is 38 bytes.
        //  Drawable;s minimum size is 32 bytes, whether it is state/arrow.
        //  Arrow( with 2 integer infovalues ) is 40 bytes long.
        //  So, for 1 state primitive leaf, the size is 38 + 40 = 78 .
        if ( leaf_bytesize > 0 )
            slog_outs.setTreeLeafByteSize( leaf_bytesize );
        else
            slog_outs.setTreeLeafByteSize( dobj_ins.getTreeLeafByteSize() );
        if ( num_children_per_node > 0 )
            slog_outs.setNumChildrenPerNode( num_children_per_node );
        else
            slog_outs.setNumChildrenPerNode( dobj_ins.getNumChildrenPerNode() );

        treetrunk = new TreeTrunk( slog_outs, shadefs );
        /* */    Date time2 = new Date();
        while ( ( next_kind = dobj_ins.peekNextKind() ) != Kind.EOF ) {
            if ( next_kind == Kind.TOPOLOGY ) {
                topo = dobj_ins.getNextTopology();
                // Put in the default Shadow categories in case the original
                // does not have any shadow categories, i.e no shadows.
                objdef = Category.getShadowCategory( topo );
                objdefs.put( new Integer( objdef.getIndex() ), objdef );
                shadefs.put( topo, objdef );
            }
            else if ( next_kind == Kind.YCOORDMAP ) {
                lineIDmap = new LineIDMap( dobj_ins.getNextYCoordMap() );
                lineIDmaps.add( lineIDmap );
            }
            else if ( next_kind == Kind.CATEGORY ) {
                objdef = dobj_ins.getNextCategory();
                if ( objdef.isShadowCategory() ) {
                    objdefs.put( new Integer( objdef.getIndex() ), objdef );
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