/** * Returns true if highlighting of all underlying values is enabled, false * if not. * * @return */ public boolean isHighlightEnabled() { for (IDataSet set : mDataSets) { if (!set.isHighlightEnabled()) return false; } return true; }
/** * Returns a list of Highlight objects representing the entries closest to the given xVal. * The returned list contains two objects per DataSet (closest rounding up, closest rounding down). * * @param xVal the transformed x-value of the x-touch position * @param x touch position * @param y touch position * @return */ protected List<Highlight> getHighlightsAtXValue(float xVal, float x, float y) { mHighlightBuffer.clear(); BarLineScatterCandleBubbleData data = getData(); if (data == null) return mHighlightBuffer; for (int i = 0, dataSetCount = data.getDataSetCount(); i < dataSetCount; i++) { IDataSet dataSet = data.getDataSetByIndex(i); // don't include DataSets that cannot be highlighted if (!dataSet.isHighlightEnabled()) continue; mHighlightBuffer.addAll(buildHighlights(dataSet, i, xVal, DataSet.Rounding.CLOSEST)); } return mHighlightBuffer; }
@Override protected List<Highlight> getHighlightsAtXValue(float xVal, float x, float y) { mHighlightBuffer.clear(); List<BarLineScatterCandleBubbleData> dataObjects = mChart.getCombinedData().getAllData(); for (int i = 0; i < dataObjects.size(); i++) { ChartData dataObject = dataObjects.get(i); // in case of BarData, let the BarHighlighter take over if (barHighlighter != null && dataObject instanceof BarData) { Highlight high = barHighlighter.getHighlight(x, y); if (high != null) { high.setDataIndex(i); mHighlightBuffer.add(high); } } else { for (int j = 0, dataSetCount = dataObject.getDataSetCount(); j < dataSetCount; j++) { IDataSet dataSet = dataObjects.get(i).getDataSetByIndex(j); // don't include datasets that cannot be highlighted if (!dataSet.isHighlightEnabled()) continue; List<Highlight> highs = buildHighlights(dataSet, j, xVal, DataSet.Rounding.CLOSEST); for (Highlight high : highs) { high.setDataIndex(i); mHighlightBuffer.add(high); } } } } return mHighlightBuffer; }
/** * Returns true if highlighting of all underlying values is enabled, false * if not. * * @return */ public boolean isHighlightEnabled() { for (IDataSet set : mDataSets) { if (!set.isHighlightEnabled()) return false; } return true; }
/** * Returns true if highlighting of all underlying values is enabled, false * if not. * * @return */ public boolean isHighlightEnabled() { for (IDataSet set : mDataSets) { if (!set.isHighlightEnabled()) return false; } return true; }
/** * Returns true if highlighting of all underlying values is enabled, false * if not. * * @return */ public boolean isHighlightEnabled() { for (IDataSet set : mDataSets) { if (!set.isHighlightEnabled()) return false; } return true; }
/** * Returns true if highlighting of all underlying values is enabled, false * if not. * * @return */ public boolean isHighlightEnabled() { for (IDataSet set : mDataSets) { if (!set.isHighlightEnabled()) { return false; } } return true; }
/** * Returns a list of Highlight objects representing the entries closest to the given xVal. * The returned list contains two objects per DataSet (closest rounding up, closest rounding down). * * @param xVal the transformed x-value of the x-touch position * @param x touch position * @param y touch position * @return */ protected List<Highlight> getHighlightsAtXValue(float xVal, float x, float y) { mHighlightBuffer.clear(); BarLineScatterCandleBubbleData data = getData(); if (data == null) return mHighlightBuffer; for (int i = 0, dataSetCount = data.getDataSetCount(); i < dataSetCount; i++) { IDataSet dataSet = data.getDataSetByIndex(i); // don't include DataSets that cannot be highlighted if (!dataSet.isHighlightEnabled()) continue; mHighlightBuffer.addAll(buildHighlights(dataSet, i, xVal, DataSet.Rounding.CLOSEST)); } return mHighlightBuffer; }
/** * Returns a list of Highlight objects representing the entries closest to the given xVal. * The returned list contains two objects per DataSet (closest rounding up, closest rounding down). * * @param xVal the transformed x-value of the x-touch position * @param x touch position * @param y touch position * @return */ protected List<Highlight> getHighlightsAtXValue(float xVal, float x, float y) { mHighlightBuffer.clear(); BarLineScatterCandleBubbleData data = getData(); if (data == null) return mHighlightBuffer; for (int i = 0, dataSetCount = data.getDataSetCount(); i < dataSetCount; i++) { IDataSet dataSet = data.getDataSetByIndex(i); // don't include DataSets that cannot be highlighted if (!dataSet.isHighlightEnabled()) continue; mHighlightBuffer.addAll(buildHighlights(dataSet, i, xVal, DataSet.Rounding.CLOSEST)); } return mHighlightBuffer; }
/** * Returns a list of Highlight objects representing the entries closest to the given xVal. * The returned list contains two objects per DataSet (closest rounding up, closest rounding down). * * @param xVal the transformed x-value of the x-touch position * @param x touch position * @param y touch position * @return */ protected List<Highlight> getHighlightsAtXValue(float xVal, float x, float y) { mHighlightBuffer.clear(); BarLineScatterCandleBubbleData data = getData(); if (data == null) return mHighlightBuffer; for (int i = 0, dataSetCount = data.getDataSetCount(); i < dataSetCount; i++) { IDataSet dataSet = data.getDataSetByIndex(i); // don't include DataSets that cannot be highlighted if (!dataSet.isHighlightEnabled()) continue; mHighlightBuffer.addAll(buildHighlights(dataSet, i, xVal, DataSet.Rounding.CLOSEST)); } return mHighlightBuffer; }
/** * Returns a list of Highlight objects representing the entries closest to the given xVal. * The returned list contains two objects per DataSet (closest rounding up, closest rounding down). * * @param xVal the transformed x-value of the x-touch position * @param x touch position * @param y touch position * @return */ protected List<Highlight> getHighlightsAtXValue(float xVal, float x, float y) { mHighlightBuffer.clear(); BarLineScatterCandleBubbleData data = getData(); if (data == null) { return mHighlightBuffer; } for (int i = 0, dataSetCount = data.getDataSetCount(); i < dataSetCount; i++) { IDataSet dataSet = data.getDataSetByIndex(i); // don't include DataSets that cannot be highlighted if (!dataSet.isHighlightEnabled()) { continue; } mHighlightBuffer.addAll(buildHighlights(dataSet, i, xVal, DataSet.Rounding.CLOSEST)); } return mHighlightBuffer; }
@Override protected List<Highlight> getHighlightsAtXValue(float xVal, float x, float y) { mHighlightBuffer.clear(); List<BarLineScatterCandleBubbleData> dataObjects = mChart.getCombinedData().getAllData(); for (int i = 0; i < dataObjects.size(); i++) { ChartData dataObject = dataObjects.get(i); // in case of BarData, let the BarHighlighter take over if (barHighlighter != null && dataObject instanceof BarData) { Highlight high = barHighlighter.getHighlight(x, y); if (high != null) { high.setDataIndex(i); mHighlightBuffer.add(high); } } else { for (int j = 0, dataSetCount = dataObject.getDataSetCount(); j < dataSetCount; j++) { IDataSet dataSet = dataObjects.get(i).getDataSetByIndex(j); // don't include datasets that cannot be highlighted if (!dataSet.isHighlightEnabled()) continue; List<Highlight> highs = buildHighlights(dataSet, j, xVal, DataSet.Rounding.CLOSEST); for (Highlight high : highs) { high.setDataIndex(i); mHighlightBuffer.add(high); } } } } return mHighlightBuffer; }
@Override protected List<Highlight> getHighlightsAtXValue(float xVal, float x, float y) { mHighlightBuffer.clear(); List<BarLineScatterCandleBubbleData> dataObjects = mChart.getCombinedData().getAllData(); for (int i = 0; i < dataObjects.size(); i++) { ChartData dataObject = dataObjects.get(i); // in case of BarData, let the BarHighlighter take over if (barHighlighter != null && dataObject instanceof BarData) { Highlight high = barHighlighter.getHighlight(x, y); if (high != null) { high.setDataIndex(i); mHighlightBuffer.add(high); } } else { for (int j = 0, dataSetCount = dataObject.getDataSetCount(); j < dataSetCount; j++) { IDataSet dataSet = dataObjects.get(i).getDataSetByIndex(j); // don't include datasets that cannot be highlighted if (!dataSet.isHighlightEnabled()) continue; List<Highlight> highs = buildHighlights(dataSet, j, xVal, DataSet.Rounding.CLOSEST); for (Highlight high : highs) { high.setDataIndex(i); mHighlightBuffer.add(high); } } } } return mHighlightBuffer; }
@Override protected List<Highlight> getHighlightsAtXValue(float xVal, float x, float y) { mHighlightBuffer.clear(); List<BarLineScatterCandleBubbleData> dataObjects = mChart.getCombinedData().getAllData(); for (int i = 0; i < dataObjects.size(); i++) { ChartData dataObject = dataObjects.get(i); // in case of BarData, let the BarHighlighter take over if (barHighlighter != null && dataObject instanceof BarData) { Highlight high = barHighlighter.getHighlight(x, y); if (high != null) { high.setDataIndex(i); mHighlightBuffer.add(high); } } else { for (int j = 0, dataSetCount = dataObject.getDataSetCount(); j < dataSetCount; j++) { IDataSet dataSet = dataObjects.get(i).getDataSetByIndex(j); // don't include datasets that cannot be highlighted if (!dataSet.isHighlightEnabled()) { continue; } List<Highlight> highs = buildHighlights(dataSet, j, xVal, DataSet.Rounding.CLOSEST); for (Highlight high : highs) { high.setDataIndex(i); mHighlightBuffer.add(high); } } } } return mHighlightBuffer; }
@Override protected List<Highlight> getHighlightsAtXValue(float xVal, float x, float y) { mHighlightBuffer.clear(); List<BarLineScatterCandleBubbleData> dataObjects = mChart.getCombinedData().getAllData(); for (int i = 0; i < dataObjects.size(); i++) { ChartData dataObject = dataObjects.get(i); // in case of BarData, let the BarHighlighter take over if (barHighlighter != null && dataObject instanceof BarData) { Highlight high = barHighlighter.getHighlight(x, y); if (high != null) { high.setDataIndex(i); mHighlightBuffer.add(high); } } else { for (int j = 0, dataSetCount = dataObject.getDataSetCount(); j < dataSetCount; j++) { IDataSet dataSet = dataObjects.get(i).getDataSetByIndex(j); // don't include datasets that cannot be highlighted if (!dataSet.isHighlightEnabled()) continue; List<Highlight> highs = buildHighlights(dataSet, j, xVal, DataSet.Rounding.CLOSEST); for (Highlight high : highs) { high.setDataIndex(i); mHighlightBuffer.add(high); } } } } return mHighlightBuffer; }