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BaseSeries.java
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BaseSeries.java
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/**
* GraphView
* Copyright 2016 Jonas Gehring
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.jjoe64.graphview.series;
import android.graphics.Canvas;
import android.graphics.PointF;
import android.util.Log;
import com.jjoe64.graphview.GraphView;
import java.lang.ref.WeakReference;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.NoSuchElementException;
import java.util.Set;
/**
* Basis implementation for series.
* Used for series that are plotted on
* a default x/y 2d viewport.
*
* Extend this class to implement your own custom
* graph type.
*
* This implementation uses a internal Array to store
* the data. If you want to implement a custom data provider
* you may want to implement {@link com.jjoe64.graphview.series.Series}.
*
* @author jjoe64
*/
public abstract class BaseSeries<E extends DataPointInterface> implements Series<E> {
/**
* holds the data
*/
final private List<E> mData = new ArrayList<E>();
/**
* stores the used coordinates to find the
* corresponding data point on a tap
*
* Key => x/y pixel
* Value => Plotted Datapoint
*
* will be filled while drawing via {@link #registerDataPoint(float, float, DataPointInterface)}
*/
private Map<PointF, E> mDataPoints = new HashMap<PointF, E>();
/**
* title for this series that can be displayed
* in the legend.
*/
private String mTitle;
/**
* base color for this series. will be used also in
* the legend
*/
private int mColor = 0xff0077cc;
/**
* cache for lowest y value
*/
private double mLowestYCache = Double.NaN;
/**
* cahce for highest y value
*/
private double mHighestYCache = Double.NaN;
/**
* listener to handle tap events on a data point
*/
protected OnDataPointTapListener mOnDataPointTapListener;
/**
* stores the graphviews where this series is used.
* Can be more than one.
*/
private List<WeakReference<GraphView>> mGraphViews;
private Boolean mIsCursorModeCache;
/**
* creates series without data
*/
public BaseSeries() {
mGraphViews = new ArrayList<>();
}
/**
* creates series with data
*
* @param data data points
* important: array has to be sorted from lowest x-value to the highest
*/
public BaseSeries(E[] data) {
mGraphViews = new ArrayList<>();
for (E d : data) {
mData.add(d);
}
checkValueOrder(null);
}
/**
* @return the lowest x value, or 0 if there is no data
*/
public double getLowestValueX() {
if (mData.isEmpty()) return 0d;
return mData.get(0).getX();
}
/**
* @return the highest x value, or 0 if there is no data
*/
public double getHighestValueX() {
if (mData.isEmpty()) return 0d;
return mData.get(mData.size()-1).getX();
}
/**
* @return the lowest y value, or 0 if there is no data
*/
public double getLowestValueY() {
if (mData.isEmpty()) return 0d;
if (!Double.isNaN(mLowestYCache)) {
return mLowestYCache;
}
double l = mData.get(0).getY();
for (int i = 1; i < mData.size(); i++) {
double c = mData.get(i).getY();
if (l > c) {
l = c;
}
}
return mLowestYCache = l;
}
/**
* @return the highest y value, or 0 if there is no data
*/
public double getHighestValueY() {
if (mData.isEmpty()) return 0d;
if (!Double.isNaN(mHighestYCache)) {
return mHighestYCache;
}
double h = mData.get(0).getY();
for (int i = 1; i < mData.size(); i++) {
double c = mData.get(i).getY();
if (h < c) {
h = c;
}
}
return mHighestYCache = h;
}
/**
* get the values for a given x range. if from and until are bigger or equal than
* all the data, the original data is returned.
* If it is only a part of the data, the range is returned plus one datapoint
* before and after to get a nice scrolling.
*
* @param from minimal x-value
* @param until maximal x-value
* @return data for the range +/- 1 datapoint
*/
@Override
public Iterator<E> getValues(final double from, final double until) {
if (from <= getLowestValueX() && until >= getHighestValueX()) {
return mData.iterator();
} else {
return new Iterator<E>() {
Iterator<E> org = mData.iterator();
E nextValue = null;
E nextNextValue = null;
boolean plusOne = true;
{
// go to first
boolean found = false;
E prevValue = null;
if (org.hasNext()) {
prevValue = org.next();
}
if (prevValue != null) {
if (prevValue.getX() >= from) {
nextValue = prevValue;
found = true;
} else {
while (org.hasNext()) {
nextValue = org.next();
if (nextValue.getX() >= from) {
found = true;
nextNextValue = nextValue;
nextValue = prevValue;
break;
}
prevValue = nextValue;
}
}
}
if (!found) {
nextValue = null;
}
}
@Override
public void remove() {
throw new UnsupportedOperationException();
}
@Override
public E next() {
if (hasNext()) {
E r = nextValue;
if (r.getX() > until) {
plusOne = false;
}
if (nextNextValue != null) {
nextValue = nextNextValue;
nextNextValue = null;
} else if (org.hasNext()) nextValue = org.next();
else nextValue = null;
return r;
} else {
throw new NoSuchElementException();
}
}
@Override
public boolean hasNext() {
return nextValue != null && (nextValue.getX() <= until || plusOne);
}
};
}
}
/**
* @return the title of the series
*/
public String getTitle() {
return mTitle;
}
/**
* set the title of the series. This will be used in
* the legend.
*
* @param mTitle title of the series
*/
public void setTitle(String mTitle) {
this.mTitle = mTitle;
}
/**
* @return color of the series
*/
public int getColor() {
return mColor;
}
/**
* set the color of the series. This will be used in
* plotting (depends on the series implementation) and
* is used in the legend.
*
* @param mColor
*/
public void setColor(int mColor) {
this.mColor = mColor;
}
/**
* set a listener for tap on a data point.
*
* @param l listener
*/
public void setOnDataPointTapListener(OnDataPointTapListener l) {
this.mOnDataPointTapListener = l;
}
/**
* called by the tap detector in order to trigger
* the on tap on datapoint event.
*
* @param x pixel
* @param y pixel
*/
@Override
public void onTap(float x, float y) {
if (mOnDataPointTapListener != null) {
E p = findDataPoint(x, y);
if (p != null) {
mOnDataPointTapListener.onTap(this, p);
}
}
}
/**
* find the data point which is next to the
* coordinates
*
* @param x pixel
* @param y pixel
* @return the data point or null if nothing was found
*/
protected E findDataPoint(float x, float y) {
float shortestDistance = Float.NaN;
E shortest = null;
for (Map.Entry<PointF, E> entry : mDataPoints.entrySet()) {
float x1 = entry.getKey().x;
float y1 = entry.getKey().y;
float x2 = x;
float y2 = y;
float distance = (float) Math.sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2));
if (shortest == null || distance < shortestDistance) {
shortestDistance = distance;
shortest = entry.getValue();
}
}
if (shortest != null) {
if (shortestDistance < 120) {
return shortest;
}
}
return null;
}
public E findDataPointAtX(float x) {
float shortestDistance = Float.NaN;
E shortest = null;
for (Map.Entry<PointF, E> entry : mDataPoints.entrySet()) {
float x1 = entry.getKey().x;
float x2 = x;
float distance = Math.abs(x1 - x2);
if (shortest == null || distance < shortestDistance) {
shortestDistance = distance;
shortest = entry.getValue();
}
}
if (shortest != null) {
if (shortestDistance < 200) {
return shortest;
}
}
return null;
}
/**
* register the datapoint to find it at a tap
*
* @param x pixel
* @param y pixel
* @param dp the data point to save
*/
protected void registerDataPoint(float x, float y, E dp) {
// performance
// TODO maybe invalidate after setting the listener
if (mOnDataPointTapListener != null || isCursorMode()) {
mDataPoints.put(new PointF(x, y), dp);
}
}
private boolean isCursorMode() {
if (mIsCursorModeCache != null) {
return mIsCursorModeCache;
}
for (WeakReference<GraphView> graphView : mGraphViews) {
if (graphView != null && graphView.get() != null && graphView.get().isCursorMode()) {
return mIsCursorModeCache = true;
}
}
return mIsCursorModeCache = false;
}
/**
* clears the cached data point coordinates
*/
protected void resetDataPoints() {
mDataPoints.clear();
}
/**
* clears the data of this series and sets new.
* will redraw the graph
*
* @param data the values must be in the correct order!
* x-value has to be ASC. First the lowest x value and at least the highest x value.
*/
public void resetData(E[] data) {
mData.clear();
for (E d : data) {
mData.add(d);
}
checkValueOrder(null);
mHighestYCache = mLowestYCache = Double.NaN;
// update graphview
for (WeakReference<GraphView> gv : mGraphViews) {
if (gv != null && gv.get() != null) {
gv.get().onDataChanged(true, false);
}
}
}
/**
* stores the reference of the used graph
*
* @param graphView graphview
*/
@Override
public void onGraphViewAttached(GraphView graphView) {
mGraphViews.add(new WeakReference<>(graphView));
}
/**
*
* @param dataPoint values the values must be in the correct order!
* x-value has to be ASC. First the lowest x value and at least the highest x value.
* @param scrollToEnd true => graphview will scroll to the end (maxX)
* @param maxDataPoints if max data count is reached, the oldest data
* value will be lost to avoid memory leaks
* @param silent set true to avoid rerender the graph
*/
public void appendData(E dataPoint, boolean scrollToEnd, int maxDataPoints, boolean silent) {
checkValueOrder(dataPoint);
if (!mData.isEmpty() && dataPoint.getX() < mData.get(mData.size()-1).getX()) {
throw new IllegalArgumentException("new x-value must be greater then the last value. x-values has to be ordered in ASC.");
}
synchronized (mData) {
int curDataCount = mData.size();
if (curDataCount < maxDataPoints) {
// enough space
mData.add(dataPoint);
} else {
// we have to trim one data
mData.remove(0);
mData.add(dataPoint);
}
// update lowest/highest cache
double dataPointY = dataPoint.getY();
if (!Double.isNaN(mHighestYCache)) {
if (dataPointY > mHighestYCache) {
mHighestYCache = dataPointY;
}
}
if (!Double.isNaN(mLowestYCache)) {
if (dataPointY < mLowestYCache) {
mLowestYCache = dataPointY;
}
}
}
if (!silent) {
// recalc the labels when it was the first data
boolean keepLabels = mData.size() != 1;
// update linked graph views
// update graphview
for (WeakReference<GraphView> gv : mGraphViews) {
if (gv != null && gv.get() != null) {
if (scrollToEnd) {
gv.get().getViewport().scrollToEnd();
} else {
gv.get().onDataChanged(keepLabels, scrollToEnd);
}
}
}
}
}
/**
*
* @param dataPoint values the values must be in the correct order!
* x-value has to be ASC. First the lowest x value and at least the highest x value.
* @param scrollToEnd true => graphview will scroll to the end (maxX)
* @param maxDataPoints if max data count is reached, the oldest data
* value will be lost to avoid memory leaks
*/
public void appendData(E dataPoint, boolean scrollToEnd, int maxDataPoints) {
appendData(dataPoint, scrollToEnd, maxDataPoints, false);
}
/**
* @return whether there are data points
*/
@Override
public boolean isEmpty() {
return mData.isEmpty();
}
/**
* checks that the data is in the correct order
*
* @param onlyLast if not null, it will only check that this
* datapoint is after the last point.
*/
protected void checkValueOrder(DataPointInterface onlyLast) {
if (mData.size()>1) {
if (onlyLast != null) {
// only check last
if (onlyLast.getX() < mData.get(mData.size()-1).getX()) {
throw new IllegalArgumentException("new x-value must be greater then the last value. x-values has to be ordered in ASC.");
}
} else {
double lx = mData.get(0).getX();
for (int i = 1; i < mData.size(); i++) {
if (mData.get(i).getX() != Double.NaN) {
if (lx > mData.get(i).getX()) {
throw new IllegalArgumentException("The order of the values is not correct. X-Values have to be ordered ASC. First the lowest x value and at least the highest x value.");
}
lx = mData.get(i).getX();
}
}
}
}
}
public abstract void drawSelection(GraphView mGraphView, Canvas canvas, boolean b, DataPointInterface value);
public void clearCursorModeCache() {
mIsCursorModeCache = null;
}
@Override
public void clearReference(GraphView graphView) {
// find and remove
for (WeakReference<GraphView> view : mGraphViews) {
if (view != null && view.get() != null && view.get() == graphView) {
mGraphViews.remove(view);
break;
}
}
}
}