/** Fills the chart with the content of the list of {@link HeapSegmentElement}. */ private void showChart(ArrayList<HeapSegmentElement> list) { mAllocCountDataSet.clear(); if (list != null) { String rowKey = "Alloc Count"; long currentSize = -1; int currentCount = 0; for (HeapSegmentElement element : list) { if (element.getLength() != currentSize) { if (currentSize != -1) { ByteLong columnKey = new ByteLong(currentSize); mAllocCountDataSet.addValue(currentCount, rowKey, columnKey); } currentSize = element.getLength(); currentCount = 1; } else { currentCount++; } } // add the last item if (currentSize != -1) { ByteLong columnKey = new ByteLong(currentSize); mAllocCountDataSet.addValue(currentCount, rowKey, columnKey); } } }
@Override public void dispose() { try { // clear our componenents // ... freeze charts if (chart != null) chart.setNotify(false); // ... empty data if (dataset != null) dataset.clear(); // ... dispose chart composites if (chartComposites != null && !chartComposites.isDisposed()) chartComposites.dispose(); if (form != null) form.dispose(); if (toolkit != null) toolkit.dispose(); } catch (RuntimeException e) { e.printStackTrace(); } super.dispose(); }
public void loadDataFromTable() { if (lastVersionDataToDisplay == null) return; if (compositeCharts.isDisposed()) return; try { showBusy(true); if (DEBUG_DURATIONS) Timers.SINGLETON.startTask(DEBUG_KEY_LOAD_DATA); chart.setNotify(false); dataset.clear(); // decode metadata final Map<String, Map<String, String>> metadata = getMetadataFromTable(); if (metadata == null) return; final String columnIteration = (String) lastVersionDataToDisplay.getTableMetaData( GeneticExplorationAlgoConstants.TABLE_METADATA_KEY_COLTITLE_ITERATION); // define what is the last iteration final Integer iterationToDisplay = (Integer) lastVersionDataToDisplay.getValue( lastVersionDataToDisplay.getRowsCount() - 1, columnIteration); // search for the first line to display int currentRow = lastVersionDataToDisplay.getRowsCount(); Integer currentRowIteration = null; do { currentRow--; currentRowIteration = (Integer) lastVersionDataToDisplay.getValue(currentRow, columnIteration); } while (currentRowIteration != iterationToDisplay); final int rowFirst = currentRow; // first iterate to find // * the row end // * the min and max for each goal Map<String, Number> key2min = new HashMap<String, Number>(metadata.keySet().size()); Map<String, Number> key2max = new HashMap<String, Number>(metadata.keySet().size()); do { // for each goal, measure min and max for (String goal : metadata.keySet()) { final Map<String, String> metadataGoal = metadata.get(goal); String colGoalValue = metadataGoal.get( GeneticExplorationAlgoConstants.TABLE_COLUMN_GOAL_METADATA_VALUE_VALUE); Number goalValue = (Number) lastVersionDataToDisplay.getValue(currentRow, colGoalValue); if (goalValue == null) { // data not available continue; } Number minBefore = key2min.get(colGoalValue); if ((minBefore == null) || (minBefore.doubleValue() > goalValue.doubleValue())) { key2min.put(colGoalValue, goalValue); } Number maxBefore = key2max.get(colGoalValue); if ((maxBefore == null) || (maxBefore.doubleValue() < goalValue.doubleValue())) { key2max.put(colGoalValue, goalValue); } } currentRowIteration = (Integer) lastVersionDataToDisplay.getValue(currentRow, columnIteration); currentRow--; } while ((currentRowIteration == iterationToDisplay) && (currentRow >= 0)); if (DEBUG_DURATIONS) Timers.SINGLETON.endTask(DEBUG_KEY_LOAD_DATA, 5); // display all the individuals for this iteration ID final int rowEnd = currentRow + 1; labelIteration.setText( "results for iteration " + iterationToDisplay + " (" + (rowFirst - rowEnd) + " Pareto efficient solutions)"); // for each individual... int individualDisplayId = 1; for (currentRow = rowFirst; currentRow > rowEnd; currentRow--) { // for each goal... for (String goal : metadata.keySet()) { // retrieve information about this goal final Map<String, String> metadataGoal = metadata.get(goal); String colGoalTarget = metadataGoal.get( GeneticExplorationAlgoConstants.TABLE_COLUMN_GOAL_METADATA_VALUE_TARGET); String colGoalValue = metadataGoal.get( GeneticExplorationAlgoConstants.TABLE_COLUMN_GOAL_METADATA_VALUE_VALUE); final Object goalValueObject = lastVersionDataToDisplay.getValue(currentRow, colGoalValue); if (goalValueObject == null) { // data not available continue; } double goalTarget = ((Number) lastVersionDataToDisplay.getValue(rowFirst, colGoalTarget)).doubleValue(); double goalValue = ((Number) goalValueObject).doubleValue(); double valueMin = Math.min(key2min.get(colGoalValue).doubleValue(), goalTarget); double valueMax = Math.max(key2max.get(colGoalValue).doubleValue(), goalTarget); valueMin -= valueMin / 10; double ratio = (valueMax - valueMin); double b = 1; // ratio/(goalTarget-valueMin)*0.5; // for the first individual, let's display the goal first if (currentRow == rowFirst) { double propTarget = (goalTarget - valueMin) / ratio * b; final String axisTarget = "target"; dataset.addValue(propTarget, axisTarget, goal); } // for all the individuals, also display the value ! double propValue = (goalValue - valueMin) / ratio * b; dataset.addValue(propValue, "solution " + individualDisplayId, goal); } individualDisplayId++; } chart.setNotify(true); // hide all the other ones if (DEBUG_DURATIONS) Timers.SINGLETON.startTask(DEBUG_KEY_HIDE_USELESS); if (DEBUG_DURATIONS) Timers.SINGLETON.endTask(DEBUG_KEY_HIDE_USELESS, 5); } catch (RuntimeException e) { e.printStackTrace(); } finally { showBusy(false); } }