Не уверен какой именно ProgressBar
имеется ввиду.
Вот бибиотеки, которые реализую разнообразные ProgressBar
в стиле Google:
Там же можно найти их реализации.
Вот к примеру ProgressBar
:
Его реализация:
public class ChromeFloatingCirclesDrawable extends Drawable implements Drawable.Callback {
// constants
private static final int MAX_LEVEL = 10000;
private static final int CENT_LEVEL = MAX_LEVEL / 2;
private static final int MID_LEVEL = CENT_LEVEL / 2;
private static final int ALPHA_OPAQUE = 255;
private static final int ACCELERATION_LEVEL = 2;
// default
private int mAlpha = ALPHA_OPAQUE;
private ColorFilter mColorFilter;
// points and paints
private Point[] mArrowPoints;
private Paint mPaint1;
private Paint mPaint2;
private Paint mPaint3;
private Paint mPaint4;
private double unit;
private int width, x_beg, y_beg, x_end, y_end, offset;
// speed related
private int acceleration = ACCELERATION_LEVEL;
private double distance = 0.5 * ACCELERATION_LEVEL * MID_LEVEL * MID_LEVEL;
private double max_speed; // set in setAcceleration(...);
private double offsetPercentage;
// top color var
private int colorSign;
private ProgressStates currentProgressStates = ProgressStates.GREEN_TOP;
private enum ProgressStates {
GREEN_TOP,
YELLOW_TOP,
RED_TOP,
BLUE_TOP
}
public ChromeFloatingCirclesDrawable(int[] colors) {
initCirclesProgress(colors);
}
private void initCirclesProgress(int[] colors) {
//init Paint colors
initColors(colors);
// init alpha and color filter
setAlpha(mAlpha);
setColorFilter(mColorFilter);
// offset percentage
setAcceleration(ACCELERATION_LEVEL);
offsetPercentage = 0;
// init colorSign
colorSign = 1; // |= 1, |= 2, |= 4, |= 8 --> 0xF
}
private void initColors(int[] colors) {
// red circle, left up
mPaint1 = new Paint(Paint.ANTI_ALIAS_FLAG);
mPaint1.setColor(colors[0]);
mPaint1.setAntiAlias(true);
// blue circle, right down
mPaint2 = new Paint(Paint.ANTI_ALIAS_FLAG);
mPaint2.setColor(colors[1]);
mPaint2.setAntiAlias(true);
// yellow circle, left down
mPaint3 = new Paint(Paint.ANTI_ALIAS_FLAG);
mPaint3.setColor(colors[2]);
mPaint3.setAntiAlias(true);
// green circle, right up
mPaint4 = new Paint(Paint.ANTI_ALIAS_FLAG);
mPaint4.setColor(colors[3]);
mPaint4.setAntiAlias(true);
}
@Override
protected void onBoundsChange(Rect bounds) {
super.onBoundsChange(bounds);
measureCircleProgress(bounds.width(), bounds.height());
}
@Override
protected boolean onLevelChange(int level) {
// calc one offset data is enough
// 0.5 * a * t^2 / mCenterPoint.x = level / sideLevel
// t from 0 to 10,000, so divided into 4 parts.
// the ACCELERATION_LEVEL defines how many divisions in 10000 levels
level %= MAX_LEVEL / acceleration;
final int temp_level = level % (MID_LEVEL / acceleration);
final int ef_width = (int)(unit * 3.0); // effective width
if(level < CENT_LEVEL / acceleration) { // go
if(level < MID_LEVEL / acceleration) {
// set colorSign
if(colorSign == 0xF) {
changeTopColor();
colorSign = 1;
}
// from beg to mid
offsetPercentage = 0.5 * acceleration * temp_level * temp_level / distance;
offset = (int)(offsetPercentage * ef_width / 2); // x and y direction offset
}
else {
// set colorSign
colorSign |= 2;
// from mid to end
offsetPercentage = (max_speed * temp_level
- 0.5 * acceleration * temp_level * temp_level) / distance
+ 1.0;
offset = (int)(offsetPercentage * ef_width / 2); // x and y direction offset
}
}
else { // back
if(level < (CENT_LEVEL + MID_LEVEL) / acceleration) {
// set colorSign
if(colorSign == 0x3) {
changeTopColor();
colorSign |= 4;
}
// from end to mid
offsetPercentage = 0.5 * acceleration * temp_level * temp_level / distance;
offset = (int)(ef_width - offsetPercentage * ef_width / 2); // x and y direction offset
}
else {
// set colorSign
colorSign |= 8;
// from mid to beg
offsetPercentage = (max_speed * temp_level
- 0.5 * acceleration * temp_level * temp_level) / distance
+ 1.0;
offsetPercentage = offsetPercentage == 1.0 ? 2.0 : offsetPercentage;
offset = (int)(ef_width - offsetPercentage * ef_width / 2); // x and y direction offset
}
}
mArrowPoints[0].set((int)unit+x_beg+offset, (int)unit+y_beg+offset); // mPaint1, left up
mArrowPoints[1].set((int)(unit*4.0)+x_beg-offset, (int)(unit*4.0)+y_beg-offset); // mPaint2, right down
mArrowPoints[2].set((int)unit+x_beg+offset, (int)(unit*4.0)+y_beg-offset); // mPaint3, left down
mArrowPoints[3].set((int)(unit*4.0)+x_beg-offset, (int)unit+y_beg+offset); // mPaint4, right up
return true;
}
private void changeTopColor() {
switch(currentProgressStates){
case GREEN_TOP:
currentProgressStates = ProgressStates.YELLOW_TOP;
break;
case YELLOW_TOP:
currentProgressStates = ProgressStates.RED_TOP;
break;
case RED_TOP:
currentProgressStates = ProgressStates.BLUE_TOP;
break;
case BLUE_TOP:
currentProgressStates = ProgressStates.GREEN_TOP;
break;
}
}
@Override
public void draw(Canvas canvas) {
// draw circles
if(currentProgressStates != ProgressStates.RED_TOP)
canvas.drawCircle(mArrowPoints[0].x, mArrowPoints[0].y, (float)unit, mPaint1);
if(currentProgressStates != ProgressStates.BLUE_TOP)
canvas.drawCircle(mArrowPoints[1].x, mArrowPoints[1].y, (float)unit, mPaint2);
if(currentProgressStates != ProgressStates.YELLOW_TOP)
canvas.drawCircle(mArrowPoints[2].x, mArrowPoints[2].y, (float)unit, mPaint3);
if(currentProgressStates != ProgressStates.GREEN_TOP)
canvas.drawCircle(mArrowPoints[3].x, mArrowPoints[3].y, (float)unit, mPaint4);
// draw the top one
switch(currentProgressStates){
case GREEN_TOP:
canvas.drawCircle(mArrowPoints[3].x, mArrowPoints[3].y, (float)unit, mPaint4);
break;
case YELLOW_TOP:
canvas.drawCircle(mArrowPoints[2].x, mArrowPoints[2].y, (float)unit, mPaint3);
break;
case RED_TOP:
canvas.drawCircle(mArrowPoints[0].x, mArrowPoints[0].y, (float)unit, mPaint1);
break;
case BLUE_TOP:
canvas.drawCircle(mArrowPoints[1].x, mArrowPoints[1].y, (float)unit, mPaint2);
break;
}
}
private void measureCircleProgress(int width, int height) {
// get min edge as width
if(width > height) {
// use height
this.width = height - 1; // minus 1 to avoid "3/2=1"
x_beg = (width - height) / 2 + 1;
y_beg = 1;
x_end = x_beg + this.width;
y_end = this.width;
}
else {
//use width
this.width = width - 1;
x_beg = 1;
y_beg = (height - width) / 2 + 1;
x_end = this.width;
y_end = y_beg + this.width;
}
unit = (double)this.width / 5.0;
// init the original position, and then set position by offsets
mArrowPoints = new Point[4];
mArrowPoints[0] = new Point((int)unit+x_beg, (int)unit+y_beg); // mPaint1, left up
mArrowPoints[1] = new Point((int)(unit*4.0)+x_beg, (int)(unit*4.0)+y_beg); // mPaint2, right down
mArrowPoints[2] = new Point((int)unit+x_beg, (int)(unit*4.0)+y_beg); // mPaint3, left down
mArrowPoints[3] = new Point((int)(unit*4.0)+x_beg, (int)unit+y_beg); // mPaint4, right up
}
public void setAcceleration(int acceleration) {
this.acceleration = acceleration;
distance = 0.5 * acceleration * (MID_LEVEL / acceleration) * (MID_LEVEL / acceleration);
max_speed = acceleration * (MID_LEVEL / acceleration);
}
@Override
public void setAlpha(int alpha) {
mPaint1.setAlpha(alpha);
mPaint2.setAlpha(alpha);
mPaint3.setAlpha(alpha);
mPaint4.setAlpha(alpha);
}
@Override
public void setColorFilter(ColorFilter cf) {
mColorFilter = cf;
mPaint1.setColorFilter(cf);
mPaint2.setColorFilter(cf);
mPaint3.setColorFilter(cf);
mPaint4.setColorFilter(cf);
}
@Override
public int getOpacity() {
return PixelFormat.TRANSLUCENT;
}
@Override
public void invalidateDrawable(Drawable who) {
final Callback callback = getCallback();
if (callback != null) {
callback.invalidateDrawable(this);
}
}
@Override
public void scheduleDrawable(Drawable who, Runnable what, long when) {
final Callback callback = getCallback();
if (callback != null) {
callback.scheduleDrawable(this, what, when);
}
}
@Override
public void unscheduleDrawable(Drawable who, Runnable what) {
final Callback callback = getCallback();
if (callback != null) {
callback.unscheduleDrawable(this, what);
}
}
public static class Builder {
private int[] mColors;
public Builder(Context context){
initDefaults(context);
return;
}
private void initDefaults(Context context) {
//Default values
mColors = context.getResources().getIntArray(R.array.google_colors);
return;
}
public Builder colors(int[] colors) {
if (colors == null || colors.length == 0) {
throw new IllegalArgumentException("Your color array must contains at least 4 values");
}
mColors = colors;
return this;
}
public Drawable build() {
return new ChromeFloatingCirclesDrawable(mColors);
}
}
}