Ejemplo n.º 1
0
        /**
         * Runs the graph to generate a feature store. The graph should only
         * contain FeatureFilter and CollectionFilter type filters.
         *
         * Executes the graph by passing features to the first filter in the
         * chain. That filter will process the data, pass the results along to
         * the next filter, and so on until completion.
         *
         * @param cursor
         *      Source cursor for features to process
         * @param env
         *      Contextual compilation environment
         * @param output_uri
         *      URI of a feature store to create and in which to store the results
         * @return
         *      A structure describing the result of the compilation.
         */
        public FilterGraphResult computeFeatureStore(FeatureCursor cursor, FilterEnv env, string output_uri)
        {
#if TODO
            bool ok = false;

            // first build the filter state chain, validating that there are ONLY feature filters
            // present. No other filter type is permitted when generating a feature store.
            FilterState first = null;
            foreach (Filter i in filter_prototypes)
            {
                Filter filter = i;

                if (!(filter is FeatureFilter))
                {
                    //TODO osgGIS.notify(osg.WARN) << "Error: illegal filter of type \"" << filter.getFilterType() << "\" in graph. Only feature features are allowed." << std.endl;
                    return(FilterGraphResult.error("Illegal first filter type in filter graph"));
                }

                FilterState next_state = filter.newState();
                if (first == null)
                {
                    first = next_state;
                }
                else
                {
                    first.appendState(next_state);
                }
            }

            if (first == null)
            {
                //TODO osgGIS.notify(osg.WARN) << "Error: filter graph \"" << getName() << "\" is empty." << std.endl;
                return(FilterGraphResult.error("Illegal: empty filter graph"));
            }

            // next, append a WriteFeatures filter that will generate the output
            // feature store.
            WriteFeaturesFilter writer = new WriteFeaturesFilter();
            writer.setOutputURI(output_uri);
            //writer.setAppendMode( WriteFeaturesFilter.OVERWRITE );

            FilterState output_state = writer.newState();
            first.appendState(output_state);

            // now run the graph.
            FilterStateResult state_result;
            int         count = 0;
            osg.Timer_t start = osg.Timer.instance().tick();

            env.setOutputSRS(env.getInputSRS());

            FeatureFilterState state = (FeatureFilterState)first;
            while (state_result.isOK() && cursor.hasNext())
            {
                state.push(cursor.next());
                state_result = state.traverse(env);
                count++;
            }

            if (state_result.isOK())
            {
                state_result = state.signalCheckpoint();
            }

            osg.Timer_t end = osg.Timer.instance().tick();
            double      dur = osg.Timer.instance().delta_s(start, end);

            if (state_result.isOK())
            {
                return(FilterGraphResult.ok(output_state.getLastKnownFilterEnv()));
            }
            else
            {
                return(FilterGraphResult.error("Filter graph failed to compute feature store"));
            }
#endif
            throw new NotImplementedException();
        }
Ejemplo n.º 2
0
        /**
         * Runs the graph to generate a scene graph.
         *
         * Executes the graph by passing features to the first filter in the
         * chain. That filter will process the data, pass the results along to
         * the next filter, and so on until completion.
         *
         * @param cursor
         *      Source cursor for features to process
         * @param env
         *      Contextual compilation environment
         * @param output
         *      Group node that, upon success, contains resulting nodes of compiled scene
         *      as its children
         * @return
         *      A structure describing the result of the compilation.
         */
        public FilterGraphResult computeNodes(FeatureCursor cursor, FilterEnv env, osg.Group output)
        {
            FilterStateResult state_result;

            output = null;

            NodeFilterState output_state;

            // first build a new state chain corresponding to our filter prototype chain.
            FilterState first = null;

            foreach (Filter i in filter_prototypes)
            {
                FilterState next_state = i.newState();
                if (first == null)
                {
                    first = next_state;
                }
                else
                {
                    first.appendState(next_state);
                }

                if (next_state is NodeFilterState)
                {
                    output_state = (NodeFilterState)next_state;
                }
            }

            // now traverse the states.
            if (first != null)
            {
                int         count = 0;
                osg.Timer_t start = osg.Timer.instance().tick();

                env.setOutputSRS(env.getInputSRS());

                if (first is FeatureFilterState)
                {
                    FeatureFilterState state = (FeatureFilterState)first;
                    while (state_result.isOK() && cursor.hasNext())
                    {
                        state.push(wind(cursor.next()));
                        state_result = state.traverse(env);
                        count++;
                    }
                    if (state_result.isOK())
                    {
                        state_result = state.signalCheckpoint();
                    }
                }
                else if (first is FragmentFilterState)
                {
                    FragmentFilterState state = (FragmentFilterState)first;
                    while (state_result.isOK() && cursor.hasNext())
                    {
                        state.push(wind(cursor.next()));
                        state_result = state.traverse(env);
                        count++;
                    }
                    if (state_result.isOK())
                    {
                        state_result = state.signalCheckpoint();
                    }
                }
                else if (first is CollectionFilterState)
                {
                    CollectionFilterState state = (CollectionFilterState)first;
                    while (state_result.isOK() && cursor.hasNext())
                    {
                        state.push(wind(cursor.next()));
                        state_result = state.traverse(env);
                        count++;
                    }
                    if (state_result.isOK())
                    {
                        state_result = state.signalCheckpoint();
                    }
                }

                osg.Timer_t end = osg.Timer.instance().tick();

                double dur = osg.Timer.instance().delta_s(start, end);
                //osgGIS.notify( osg.ALWAYS ) << std.endl << "Time = " << dur << " s; Per Feature Avg = " << (dur/(double)count) << " s" << std.endl;
            }
            else
            {
                state_result.set(FilterStateResult.Status.STATUS_NODATA);
            }

            if (output_state != null && state_result.hasData())
            {
                output = new osg.Group();
                foreach (AttributedNode i in output_state.getOutput())
                {
                    output.addChild(i.getNode());
                }
            }

            if (state_result.isOK())
            {
                return(FilterGraphResult.ok(output_state.getLastKnownFilterEnv()));
            }
            else
            {
                return(FilterGraphResult.error("Filter graph failed to compute any nodes"));
            }
        }