public Line rawInterpretedLine() {
Line line = new Line(rawInterpretedValues);
line.setHasLines(false);
line.setPointRadius(1);
line.setHasPoints(true);
return line;
}
public Line inRangeValuesLine() {
Line inRangeValuesLine = new Line(inRangeValues);
inRangeValuesLine.setColor(Utils.COLOR_BLUE);
inRangeValuesLine.setHasLines(false);
inRangeValuesLine.setPointRadius(pointSize);
inRangeValuesLine.setHasPoints(true);
return inRangeValuesLine;
}
public Line highValuesLine() {
Line highValuesLine = new Line(highValues);
highValuesLine.setColor(Utils.COLOR_ORANGE);
highValuesLine.setHasLines(false);
highValuesLine.setPointRadius(pointSize);
highValuesLine.setHasPoints(true);
return highValuesLine;
}
public Line lowValuesLine() {
Line lowValuesLine = new Line(lowValues);
lowValuesLine.setColor(Color.parseColor("#C30909"));
lowValuesLine.setHasLines(false);
lowValuesLine.setPointRadius(pointSize);
lowValuesLine.setHasPoints(true);
return lowValuesLine;
}
public Line inRangeValuesLine() {
Line inRangeValuesLine = new Line(inRangeValues);
inRangeValuesLine.setColor(Color.parseColor("#00FF00"));
inRangeValuesLine.setHasLines(false);
inRangeValuesLine.setPointRadius(pointSize);
inRangeValuesLine.setHasPoints(true);
return inRangeValuesLine;
}
public Line highValuesLine() {
Line highValuesLine = new Line(highValues);
highValuesLine.setColor(Color.parseColor("#FFFF00"));
highValuesLine.setHasLines(false);
highValuesLine.setPointRadius(pointSize);
highValuesLine.setHasPoints(true);
return highValuesLine;
}
public Line minShowLine() {
List<PointValue> minShowValues = new ArrayList<PointValue>();
minShowValues.add(new PointValue((float) start_time, (float) defaultMinY));
minShowValues.add(new PointValue((float) end_time, (float) defaultMinY));
Line minShowLine = new Line(minShowValues);
minShowLine.setHasPoints(false);
minShowLine.setHasLines(false);
return minShowLine;
}
public Line maxShowLine() {
List<PointValue> maxShowValues = new ArrayList<PointValue>();
maxShowValues.add(new PointValue((float) start_time / FUZZER, (float) defaultMaxY));
maxShowValues.add(new PointValue((float) end_time / FUZZER, (float) defaultMaxY));
Line maxShowLine = new Line(maxShowValues);
maxShowLine.setHasLines(false);
maxShowLine.setHasPoints(false);
return maxShowLine;
}
@Override
public void onDataReceived(DataReadResult dataReadResult) {
Log.d(TAG, "Received activity result");
final String DATE_FORMAT = "dd/MM";
SimpleDateFormat dateFormat = new SimpleDateFormat(DATE_FORMAT);
List<Line> lines = new ArrayList<>(); // all lines
List<PointValue> calories; // a single line
calories = new ArrayList<>();
int x_val = 0;
List<AxisValue> xAxisValues = new ArrayList<>();
if (dataReadResult.getBuckets().size() > 0) {
for (Bucket bucket : dataReadResult.getBuckets()) {
String date = dateFormat.format(bucket.getStartTime(TimeUnit.MILLISECONDS));
DataSet dataSet = bucket.getDataSet(DataType.AGGREGATE_CALORIES_EXPENDED);
Log.d(TAG, "New databucket with date: " + date);
// Increase counter
x_val = x_val + 1;
// Set axis labels
xAxisValues.add(new AxisValue(x_val).setLabel(date));
// Add a zero measurement point
calories.add(new PointValue(x_val, 0));
List<DataPoint> dataPointList = dataSet.getDataPoints();
for (DataPoint dp : dataPointList) {
String timestamp = dateFormat.format(dp.getTimestamp(TimeUnit.MILLISECONDS));
float calorie = dp.getValue(Field.FIELD_CALORIES).asFloat();
// Set graph values
calories.set(x_val - 1, new PointValue(x_val, calorie));
Log.d(TAG, "timestamp: " + timestamp + ", calories: " + calorie);
}
}
Line line = new Line(calories);
line.setColor(ChartUtils.COLOR_BLUE);
line.setHasLines(true);
line.setHasPoints(false);
line.setCubic(false);
line.setHasLabels(false);
line.setHasLabelsOnlyForSelected(true);
lines.add(line);
fitnessFragment.setCalorieData(xAxisValues, lines);
}
}
@Override
public void onDataReceived(DataReadResult dataReadResult) {
Log.d(TAG, "Received activity result");
final String DATE_FORMAT = "dd/MM";
SimpleDateFormat dateFormat = new SimpleDateFormat(DATE_FORMAT);
// GoogleApiSubscription.printData(dataReadResult);
List<Line> lines = new ArrayList<>(); // all lines
List<PointValue> walking = new ArrayList<>(); // a single line
List<PointValue> biking = new ArrayList<>();
List<PointValue> in_vehicle = new ArrayList<>();
List<AxisValue> xAxisValues = new ArrayList<>();
int x_val = 0;
if (dataReadResult.getBuckets().size() > 0) {
for (Bucket bucket : dataReadResult.getBuckets()) {
String date = dateFormat.format(bucket.getStartTime(TimeUnit.MILLISECONDS));
DataSet dataSet = bucket.getDataSet(DataType.AGGREGATE_ACTIVITY_SUMMARY);
Log.d(TAG, "New databucket with date: " + date);
// Increase counter
x_val = x_val + 1;
// Set axis labels
xAxisValues.add(new AxisValue(x_val).setLabel(date));
// Add a zero measurement point
walking.add(new PointValue(x_val, 0));
biking.add(new PointValue(x_val, 0));
in_vehicle.add(new PointValue(x_val, 0));
List<DataPoint> dataPointList = dataSet.getDataPoints();
for (DataPoint dp : dataPointList) {
String timestamp = dateFormat.format(dp.getTimestamp(TimeUnit.MILLISECONDS));
String activity = dp.getValue(Field.FIELD_ACTIVITY).asActivity();
int duration = dp.getValue(Field.FIELD_DURATION).asInt();
if (dp.getValue(Field.FIELD_ACTIVITY).asActivity() == "walking") {
walking.set(x_val - 1, new PointValue(x_val, duration / 60000));
} else if (dp.getValue(Field.FIELD_ACTIVITY).asActivity() == "biking") {
biking.set(x_val - 1, new PointValue(x_val, duration / 60000));
} else if (dp.getValue(Field.FIELD_ACTIVITY).asActivity() == "in_vehicle") {
in_vehicle.set(x_val - 1, new PointValue(x_val, duration / 60000));
}
Log.d(
TAG,
"timestamp: "
+ timestamp
+ ", activity: "
+ activity
+ ", duration: "
+ duration / 60000);
}
}
Line line = new Line(walking);
line.setColor(ChartUtils.COLOR_GREEN);
line.setHasLines(true);
line.setHasPoints(false);
line.setCubic(false);
lines.add(line);
line = new Line(biking);
line.setColor(ChartUtils.COLOR_BLUE);
line.setHasLines(true);
line.setHasPoints(false);
line.setCubic(false);
lines.add(line);
line = new Line(in_vehicle);
line.setColor(ChartUtils.COLOR_VIOLET);
line.setHasLines(true);
line.setHasPoints(false);
line.setCubic(false);
lines.add(line);
fitnessFragment.setActivityData(xAxisValues, lines);
}
}