package com.hotbitmapgg.moequest.widget; import android.content.Context; import android.content.res.TypedArray; import android.graphics.Canvas; import android.graphics.Paint; import android.graphics.Paint.Style; import android.graphics.RectF; import android.os.Parcel; import android.os.Parcelable; import android.os.SystemClock; import android.support.annotation.NonNull; import android.util.AttributeSet; import android.util.DisplayMetrics; import android.util.TypedValue; import android.view.View; import com.hotbitmapgg.moequest.R; public class CircleProgressView extends View { private static final String TAG = CircleProgressView.class.getSimpleName(); private int circleRadius = 28; private int barWidth = 4; private int rimWidth = 4; private final int barLength = 16; private final int barMaxLength = 270; private boolean fillRadius = false; private double timeStartGrowing = 0; private double barSpinCycleTime = 460; private float barExtraLength = 0; private boolean barGrowingFromFront = true; private long pausedTimeWithoutGrowing = 0; private final long pauseGrowingTime = 200; private int barColor = 0xAA000000; private int rimColor = 0x00FFFFFF; private Paint barPaint = new Paint(); private Paint rimPaint = new Paint(); private RectF circleBounds = new RectF(); private float spinSpeed = 230.0f; private long lastTimeAnimated = 0; private boolean linearProgress; private float mProgress = 0.0f; private float mTargetProgress = 0.0f; private boolean isSpinning = false; private ProgressCallback callback; /** * The constructor for the ProgressWheel */ public CircleProgressView(Context context, AttributeSet attrs) { super(context, attrs); parseAttributes(context.obtainStyledAttributes(attrs, R.styleable.CircleProgressView)); } /** * The constructor for the ProgressWheel */ public CircleProgressView(Context context) { super(context); } @Override protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { super.onMeasure(widthMeasureSpec, heightMeasureSpec); int viewWidth = circleRadius + this.getPaddingLeft() + this.getPaddingRight(); int viewHeight = circleRadius + this.getPaddingTop() + this.getPaddingBottom(); int widthMode = MeasureSpec.getMode(widthMeasureSpec); int widthSize = MeasureSpec.getSize(widthMeasureSpec); int heightMode = MeasureSpec.getMode(heightMeasureSpec); int heightSize = MeasureSpec.getSize(heightMeasureSpec); int width; int height; if (widthMode == MeasureSpec.EXACTLY) { width = widthSize; } else if (widthMode == MeasureSpec.AT_MOST) { width = Math.min(viewWidth, widthSize); } else { width = viewWidth; } if (heightMode == MeasureSpec.EXACTLY || widthMode == MeasureSpec.EXACTLY) { height = heightSize; } else if (heightMode == MeasureSpec.AT_MOST) { height = Math.min(viewHeight, heightSize); } else { height = viewHeight; } setMeasuredDimension(width, height); } /** * Use onSizeChanged instead of onAttachedToWindow to get the dimensions of the view, * because this method is called after measuring the dimensions of MATCH_PARENT & WRAP_CONTENT. * Use this dimensions to setup the bounds and paints. */ @Override protected void onSizeChanged(int w, int h, int oldw, int oldh) { super.onSizeChanged(w, h, oldw, oldh); setupBounds(w, h); setupPaints(); invalidate(); } /** * Set the properties of the paints we're using to * draw the progress wheel */ private void setupPaints() { barPaint.setColor(barColor); barPaint.setAntiAlias(true); barPaint.setStyle(Style.STROKE); barPaint.setStrokeWidth(barWidth); rimPaint.setColor(rimColor); rimPaint.setAntiAlias(true); rimPaint.setStyle(Style.STROKE); rimPaint.setStrokeWidth(rimWidth); } /** * Set the bounds of the component */ private void setupBounds(int layout_width, int layout_height) { int paddingTop = getPaddingTop(); int paddingBottom = getPaddingBottom(); int paddingLeft = getPaddingLeft(); int paddingRight = getPaddingRight(); if (!fillRadius) { int minValue = Math.min(layout_width - paddingLeft - paddingRight, layout_height - paddingBottom - paddingTop); int circleDiameter = Math.min(minValue, circleRadius * 2 - barWidth * 2); int xOffset = (layout_width - paddingLeft - paddingRight - circleDiameter) / 2 + paddingLeft; int yOffset = (layout_height - paddingTop - paddingBottom - circleDiameter) / 2 + paddingTop; circleBounds = new RectF(xOffset + barWidth, yOffset + barWidth, xOffset + circleDiameter - barWidth, yOffset + circleDiameter - barWidth); } else { circleBounds = new RectF(paddingLeft + barWidth, paddingTop + barWidth, layout_width - paddingRight - barWidth, layout_height - paddingBottom - barWidth); } } /** * Parse the attributes passed to the view from the XML * * @param a the attributes to parse */ private void parseAttributes(TypedArray a) { DisplayMetrics metrics = getContext().getResources().getDisplayMetrics(); barWidth = (int) TypedValue.applyDimension(TypedValue.COMPLEX_UNIT_DIP, barWidth, metrics); rimWidth = (int) TypedValue.applyDimension(TypedValue.COMPLEX_UNIT_DIP, rimWidth, metrics); circleRadius = (int) TypedValue.applyDimension(TypedValue.COMPLEX_UNIT_DIP, circleRadius, metrics); circleRadius = (int) a.getDimension(R.styleable.CircleProgressView_matProg_circleRadius, circleRadius); fillRadius = a.getBoolean(R.styleable.CircleProgressView_matProg_fillRadius, false); barWidth = (int) a.getDimension(R.styleable.CircleProgressView_matProg_barWidth, barWidth); rimWidth = (int) a.getDimension(R.styleable.CircleProgressView_matProg_rimWidth, rimWidth); float baseSpinSpeed = a.getFloat(R.styleable.CircleProgressView_matProg_spinSpeed, spinSpeed / 360.0f); spinSpeed = baseSpinSpeed * 360; barSpinCycleTime = a.getInt(R.styleable.CircleProgressView_matProg_barSpinCycleTime, (int) barSpinCycleTime); barColor = a.getColor(R.styleable.CircleProgressView_matProg_barColor, barColor); rimColor = a.getColor(R.styleable.CircleProgressView_matProg_rimColor, rimColor); linearProgress = a.getBoolean(R.styleable.CircleProgressView_matProg_linearProgress, false); if (a.getBoolean(R.styleable.CircleProgressView_matProg_progressIndeterminate, false)) { spin(); } a.recycle(); } public void setCallback(ProgressCallback progressCallback) { callback = progressCallback; if (!isSpinning) { runCallback(); } } protected void onDraw(Canvas canvas) { super.onDraw(canvas); canvas.drawArc(circleBounds, 360, 360, false, rimPaint); boolean mustInvalidate = false; if (isSpinning) { mustInvalidate = true; long deltaTime = (SystemClock.uptimeMillis() - lastTimeAnimated); float deltaNormalized = deltaTime * spinSpeed / 1000.0f; updateBarLength(deltaTime); mProgress += deltaNormalized; if (mProgress > 360) { mProgress -= 360f; runCallback(-1.0f); } lastTimeAnimated = SystemClock.uptimeMillis(); float from = mProgress - 90; float length = barLength + barExtraLength; if (isInEditMode()) { from = 0; length = 135; } canvas.drawArc(circleBounds, from, length, false, barPaint); } else { float oldProgress = mProgress; if (mProgress != mTargetProgress) { mustInvalidate = true; float deltaTime = (float) (SystemClock.uptimeMillis() - lastTimeAnimated) / 1000; float deltaNormalized = deltaTime * spinSpeed; mProgress = Math.min(mProgress + deltaNormalized, mTargetProgress); lastTimeAnimated = SystemClock.uptimeMillis(); } if (oldProgress != mProgress) { runCallback(); } float offset = 0.0f; float progress = mProgress; if (!linearProgress) { float factor = 2.0f; offset = (float) (1.0f - Math.pow(1.0f - mProgress / 360.0f, 2.0f * factor)) * 360.0f; progress = (float) (1.0f - Math.pow(1.0f - mProgress / 360.0f, factor)) * 360.0f; } if (isInEditMode()) { progress = 360; } canvas.drawArc(circleBounds, offset - 90, progress, false, barPaint); } if (mustInvalidate) { invalidate(); } } @Override protected void onVisibilityChanged(@NonNull View changedView, int visibility) { super.onVisibilityChanged(changedView, visibility); if (visibility == VISIBLE) { lastTimeAnimated = SystemClock.uptimeMillis(); } } private void updateBarLength(long deltaTimeInMilliSeconds) { if (pausedTimeWithoutGrowing >= pauseGrowingTime) { timeStartGrowing += deltaTimeInMilliSeconds; if (timeStartGrowing > barSpinCycleTime) { timeStartGrowing -= barSpinCycleTime; pausedTimeWithoutGrowing = 0; barGrowingFromFront = !barGrowingFromFront; } float distance = (float) Math.cos((timeStartGrowing / barSpinCycleTime + 1) * Math.PI) / 2 + 0.5f; float destLength = (barMaxLength - barLength); if (barGrowingFromFront) { barExtraLength = distance * destLength; } else { float newLength = destLength * (1 - distance); mProgress += (barExtraLength - newLength); barExtraLength = newLength; } } else { pausedTimeWithoutGrowing += deltaTimeInMilliSeconds; } } /** * Check if the wheel is currently spinning */ public boolean isSpinning() { return isSpinning; } /** * Reset the count (in increment mode) */ public void resetCount() { mProgress = 0.0f; mTargetProgress = 0.0f; invalidate(); } /** * Turn off spin mode */ public void stopSpinning() { isSpinning = false; mProgress = 0.0f; mTargetProgress = 0.0f; invalidate(); } /** * Puts the view on spin mode */ public void spin() { lastTimeAnimated = SystemClock.uptimeMillis(); isSpinning = true; invalidate(); } private void runCallback(float value) { if (callback != null) { callback.onProgressUpdate(value); } } private void runCallback() { if (callback != null) { float normalizedProgress = (float) Math.round(mProgress * 100 / 360.0f) / 100; callback.onProgressUpdate(normalizedProgress); } } /** * Set the progress to a specific value, * the bar will smoothly animate until that value * * @param progress the progress between 0 and 1 */ public void setProgress(float progress) { if (isSpinning) { mProgress = 0.0f; isSpinning = false; runCallback(); } if (progress > 1.0f) { progress -= 1.0f; } else if (progress < 0) { progress = 0; } if (progress == mTargetProgress) { return; } if (mProgress == mTargetProgress) { lastTimeAnimated = SystemClock.uptimeMillis(); } mTargetProgress = Math.min(progress * 360.0f, 360.0f); invalidate(); } /** * Set the progress to a specific value, * the bar will be set instantly to that value * * @param progress the progress between 0 and 1 */ public void setInstantProgress(float progress) { if (isSpinning) { mProgress = 0.0f; isSpinning = false; } if (progress > 1.0f) { progress -= 1.0f; } else if (progress < 0) { progress = 0; } if (progress == mTargetProgress) { return; } mTargetProgress = Math.min(progress * 360.0f, 360.0f); mProgress = mTargetProgress; lastTimeAnimated = SystemClock.uptimeMillis(); invalidate(); } @Override public Parcelable onSaveInstanceState() { Parcelable superState = super.onSaveInstanceState(); WheelSavedState ss = new WheelSavedState(superState); ss.mProgress = this.mProgress; ss.mTargetProgress = this.mTargetProgress; ss.isSpinning = this.isSpinning; ss.spinSpeed = this.spinSpeed; ss.barWidth = this.barWidth; ss.barColor = this.barColor; ss.rimWidth = this.rimWidth; ss.rimColor = this.rimColor; ss.circleRadius = this.circleRadius; ss.linearProgress = this.linearProgress; ss.fillRadius = this.fillRadius; return ss; } @Override public void onRestoreInstanceState(Parcelable state) { if (!(state instanceof WheelSavedState)) { super.onRestoreInstanceState(state); return; } WheelSavedState ss = (WheelSavedState) state; super.onRestoreInstanceState(ss.getSuperState()); this.mProgress = ss.mProgress; this.mTargetProgress = ss.mTargetProgress; this.isSpinning = ss.isSpinning; this.spinSpeed = ss.spinSpeed; this.barWidth = ss.barWidth; this.barColor = ss.barColor; this.rimWidth = ss.rimWidth; this.rimColor = ss.rimColor; this.circleRadius = ss.circleRadius; this.linearProgress = ss.linearProgress; this.fillRadius = ss.fillRadius; this.lastTimeAnimated = SystemClock.uptimeMillis(); } /** * @return the current progress between 0.0 and 1.0, * if the wheel is indeterminate, then the result is -1 */ public float getProgress() { return isSpinning ? -1 : mProgress / 360.0f; } /** * Sets the determinate progress mode * * @param isLinear if the progress should increase linearly */ public void setLinearProgress(boolean isLinear) { linearProgress = isLinear; if (!isSpinning) { invalidate(); } } /** * @return the radius of the wheel in pixels */ public int getCircleRadius() { return circleRadius; } /** * Sets the radius of the wheel * * @param circleRadius the expected radius, in pixels */ public void setCircleRadius(int circleRadius) { this.circleRadius = circleRadius; if (!isSpinning) { invalidate(); } } /** * @return the width of the spinning bar */ public int getBarWidth() { return barWidth; } /** * Sets the width of the spinning bar * * @param barWidth the spinning bar width in pixels */ public void setBarWidth(int barWidth) { this.barWidth = barWidth; if (!isSpinning) { invalidate(); } } /** * @return the color of the spinning bar */ public int getBarColor() { return barColor; } /** * Sets the color of the spinning bar * * @param barColor The spinning bar color */ public void setBarColor(int barColor) { this.barColor = barColor; setupPaints(); if (!isSpinning) { invalidate(); } } /** * @return the color of the wheel's contour */ public int getRimColor() { return rimColor; } /** * Sets the color of the wheel's contour * * @param rimColor the color for the wheel */ public void setRimColor(int rimColor) { this.rimColor = rimColor; setupPaints(); if (!isSpinning) { invalidate(); } } /** * @return the base spinning speed, in full circle turns per second * (1.0 equals on full turn in one second), this value also is applied for * the smoothness when setting a progress */ public float getSpinSpeed() { return spinSpeed / 360.0f; } /** * Sets the base spinning speed, in full circle turns per second * (1.0 equals on full turn in one second), this value also is applied for * the smoothness when setting a progress * * @param spinSpeed the desired base speed in full turns per second */ public void setSpinSpeed(float spinSpeed) { this.spinSpeed = spinSpeed * 360.0f; } /** * @return the width of the wheel's contour in pixels */ public int getRimWidth() { return rimWidth; } /** * Sets the width of the wheel's contour * * @param rimWidth the width in pixels */ public void setRimWidth(int rimWidth) { this.rimWidth = rimWidth; if (!isSpinning) { invalidate(); } } static class WheelSavedState extends BaseSavedState { float mProgress; float mTargetProgress; boolean isSpinning; float spinSpeed; int barWidth; int barColor; int rimWidth; int rimColor; int circleRadius; boolean linearProgress; boolean fillRadius; WheelSavedState(Parcelable superState) { super(superState); } private WheelSavedState(Parcel in) { super(in); this.mProgress = in.readFloat(); this.mTargetProgress = in.readFloat(); this.isSpinning = in.readByte() != 0; this.spinSpeed = in.readFloat(); this.barWidth = in.readInt(); this.barColor = in.readInt(); this.rimWidth = in.readInt(); this.rimColor = in.readInt(); this.circleRadius = in.readInt(); this.linearProgress = in.readByte() != 0; this.fillRadius = in.readByte() != 0; } @Override public void writeToParcel(Parcel out, int flags) { super.writeToParcel(out, flags); out.writeFloat(this.mProgress); out.writeFloat(this.mTargetProgress); out.writeByte((byte) (isSpinning ? 1 : 0)); out.writeFloat(this.spinSpeed); out.writeInt(this.barWidth); out.writeInt(this.barColor); out.writeInt(this.rimWidth); out.writeInt(this.rimColor); out.writeInt(this.circleRadius); out.writeByte((byte) (linearProgress ? 1 : 0)); out.writeByte((byte) (fillRadius ? 1 : 0)); } public static final Creator<WheelSavedState> CREATOR = new Creator<WheelSavedState>() { public WheelSavedState createFromParcel(Parcel in) { return new WheelSavedState(in); } public WheelSavedState[] newArray(int size) { return new WheelSavedState[size]; } }; } public interface ProgressCallback { /** * Method to call when the progress reaches a value * in order to avoid float precision issues, the progress * is rounded to a float with two decimals. * <p/> * In indeterminate mode, the callback is called each time * the wheel completes an animation cycle, with, the progress value is -1.0f * * @param progress a double value between 0.00 and 1.00 both included */ public void onProgressUpdate(float progress); } }