正在查看: SpeedCash v6.5.1482 应用的 PieChartRenderer.java JAVA 源代码文件
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SpeedCash v6.5.1482 - PieChartRenderer.java 源代码
package com.github.mikephil.charting.renderer;
import android.graphics.Bitmap;
import android.graphics.Canvas;
import android.graphics.Color;
import android.graphics.Paint;
import android.graphics.Path;
import android.graphics.RectF;
import android.graphics.drawable.Drawable;
import android.text.Layout;
import android.text.StaticLayout;
import android.text.TextPaint;
import com.github.mikephil.charting.animation.ChartAnimator;
import com.github.mikephil.charting.charts.PieChart;
import com.github.mikephil.charting.data.PieData;
import com.github.mikephil.charting.data.PieDataSet;
import com.github.mikephil.charting.data.PieEntry;
import com.github.mikephil.charting.formatter.ValueFormatter;
import com.github.mikephil.charting.highlight.Highlight;
import com.github.mikephil.charting.interfaces.datasets.IPieDataSet;
import com.github.mikephil.charting.utils.MPPointF;
import com.github.mikephil.charting.utils.Utils;
import com.github.mikephil.charting.utils.ViewPortHandler;
import java.lang.ref.WeakReference;
import java.util.List;
public class PieChartRenderer extends DataRenderer {
public TextPaint a;
public Paint b;
public StaticLayout c;
public CharSequence d;
public RectF e;
public RectF[] f;
public Path g;
public RectF h;
public Path i;
protected Canvas mBitmapCanvas;
protected PieChart mChart;
protected WeakReference<Bitmap> mDrawBitmap;
protected Path mDrawCenterTextPathBuffer;
protected RectF mDrawHighlightedRectF;
protected Paint mHolePaint;
protected Paint mTransparentCirclePaint;
protected Paint mValueLinePaint;
public PieChartRenderer(PieChart pieChart, ChartAnimator chartAnimator, ViewPortHandler viewPortHandler) {
super(chartAnimator, viewPortHandler);
this.e = new RectF();
this.f = new RectF[]{new RectF(), new RectF(), new RectF()};
this.g = new Path();
this.h = new RectF();
this.i = new Path();
this.mDrawCenterTextPathBuffer = new Path();
this.mDrawHighlightedRectF = new RectF();
this.mChart = pieChart;
Paint paint = new Paint(1);
this.mHolePaint = paint;
paint.setColor(-1);
this.mHolePaint.setStyle(Paint.Style.FILL);
Paint paint2 = new Paint(1);
this.mTransparentCirclePaint = paint2;
paint2.setColor(-1);
this.mTransparentCirclePaint.setStyle(Paint.Style.FILL);
this.mTransparentCirclePaint.setAlpha(105);
TextPaint textPaint = new TextPaint(1);
this.a = textPaint;
textPaint.setColor(-16777216);
this.a.setTextSize(Utils.convertDpToPixel(12.0f));
this.mValuePaint.setTextSize(Utils.convertDpToPixel(13.0f));
this.mValuePaint.setColor(-1);
this.mValuePaint.setTextAlign(Paint.Align.CENTER);
Paint paint3 = new Paint(1);
this.b = paint3;
paint3.setColor(-1);
this.b.setTextAlign(Paint.Align.CENTER);
this.b.setTextSize(Utils.convertDpToPixel(13.0f));
Paint paint4 = new Paint(1);
this.mValueLinePaint = paint4;
paint4.setStyle(Paint.Style.STROKE);
}
public float calculateMinimumRadiusForSpacedSlice(MPPointF mPPointF, float f, float f2, float f3, float f4, float f5, float f6) {
double d = (f5 + f6) * 0.017453292f;
float cos = mPPointF.x + (((float) Math.cos(d)) * f);
float sin = mPPointF.y + (((float) Math.sin(d)) * f);
double d2 = (f5 + (f6 / 2.0f)) * 0.017453292f;
return (float) ((f - ((float) ((Math.sqrt(Math.pow(cos - f3, 2.0d) + Math.pow(sin - f4, 2.0d)) / 2.0d) * Math.tan(((180.0d - f2) / 2.0d) * 0.017453292519943295d)))) - Math.sqrt(Math.pow((mPPointF.x + (((float) Math.cos(d2)) * f)) - ((cos + f3) / 2.0f), 2.0d) + Math.pow((mPPointF.y + (((float) Math.sin(d2)) * f)) - ((sin + f4) / 2.0f), 2.0d)));
}
public void drawCenterText(Canvas canvas) {
MPPointF mPPointF;
CharSequence centerText = this.mChart.getCenterText();
if (!this.mChart.isDrawCenterTextEnabled() || centerText == null) {
return;
}
MPPointF centerCircleBox = this.mChart.getCenterCircleBox();
MPPointF centerTextOffset = this.mChart.getCenterTextOffset();
float f = centerCircleBox.x + centerTextOffset.x;
float f2 = centerCircleBox.y + centerTextOffset.y;
float radius = (!this.mChart.isDrawHoleEnabled() || this.mChart.isDrawSlicesUnderHoleEnabled()) ? this.mChart.getRadius() : this.mChart.getRadius() * (this.mChart.getHoleRadius() / 100.0f);
RectF[] rectFArr = this.f;
RectF rectF = rectFArr[0];
rectF.left = f - radius;
rectF.top = f2 - radius;
rectF.right = f + radius;
rectF.bottom = f2 + radius;
RectF rectF2 = rectFArr[1];
rectF2.set(rectF);
float centerTextRadiusPercent = this.mChart.getCenterTextRadiusPercent() / 100.0f;
if (centerTextRadiusPercent > Utils.DOUBLE_EPSILON) {
rectF2.inset((rectF2.width() - (rectF2.width() * centerTextRadiusPercent)) / 2.0f, (rectF2.height() - (rectF2.height() * centerTextRadiusPercent)) / 2.0f);
}
if (centerText.equals(this.d) && rectF2.equals(this.e)) {
mPPointF = centerTextOffset;
} else {
this.e.set(rectF2);
this.d = centerText;
mPPointF = centerTextOffset;
this.c = new StaticLayout(centerText, 0, centerText.length(), this.a, (int) Math.max(Math.ceil(this.e.width()), 1.0d), Layout.Alignment.ALIGN_CENTER, 1.0f, 0.0f, false);
}
float height = this.c.getHeight();
canvas.save();
Path path = this.mDrawCenterTextPathBuffer;
path.reset();
path.addOval(rectF, Path.Direction.CW);
canvas.clipPath(path);
canvas.translate(rectF2.left, rectF2.top + ((rectF2.height() - height) / 2.0f));
this.c.draw(canvas);
canvas.restore();
MPPointF.recycleInstance(centerCircleBox);
MPPointF.recycleInstance(mPPointF);
}
@Override
public void drawData(Canvas canvas) {
int chartWidth = (int) this.mViewPortHandler.getChartWidth();
int chartHeight = (int) this.mViewPortHandler.getChartHeight();
WeakReference<Bitmap> weakReference = this.mDrawBitmap;
Bitmap bitmap = weakReference == null ? null : weakReference.get();
if (bitmap == null || bitmap.getWidth() != chartWidth || bitmap.getHeight() != chartHeight) {
if (chartWidth <= 0 || chartHeight <= 0) {
return;
}
bitmap = Bitmap.createBitmap(chartWidth, chartHeight, Bitmap.Config.ARGB_4444);
this.mDrawBitmap = new WeakReference<>(bitmap);
this.mBitmapCanvas = new Canvas(bitmap);
}
bitmap.eraseColor(0);
for (IPieDataSet iPieDataSet : ((PieData) this.mChart.getData()).getDataSets()) {
if (iPieDataSet.isVisible() && iPieDataSet.getEntryCount() > 0) {
drawDataSet(canvas, iPieDataSet);
}
}
}
public void drawDataSet(Canvas canvas, IPieDataSet iPieDataSet) {
int i;
int i2;
int i3;
float f;
float f2;
float[] fArr;
float f3;
float f4;
int i4;
RectF rectF;
RectF rectF2;
MPPointF mPPointF;
float f5;
MPPointF mPPointF2;
int i5;
float f6;
MPPointF mPPointF3;
IPieDataSet iPieDataSet2 = iPieDataSet;
float rotationAngle = this.mChart.getRotationAngle();
float phaseX = this.mAnimator.getPhaseX();
float phaseY = this.mAnimator.getPhaseY();
RectF circleBox = this.mChart.getCircleBox();
int entryCount = iPieDataSet.getEntryCount();
float[] drawAngles = this.mChart.getDrawAngles();
MPPointF centerCircleBox = this.mChart.getCenterCircleBox();
float radius = this.mChart.getRadius();
boolean z = this.mChart.isDrawHoleEnabled() && !this.mChart.isDrawSlicesUnderHoleEnabled();
float holeRadius = z ? (this.mChart.getHoleRadius() / 100.0f) * radius : 0.0f;
float holeRadius2 = (radius - ((this.mChart.getHoleRadius() * radius) / 100.0f)) / 2.0f;
RectF rectF3 = new RectF();
boolean z2 = z && this.mChart.isDrawRoundedSlicesEnabled();
int i6 = 0;
for (int i7 = 0; i7 < entryCount; i7++) {
if (Math.abs(iPieDataSet2.getEntryForIndex(i7).getY()) > Utils.FLOAT_EPSILON) {
i6++;
}
}
float sliceSpace = i6 <= 1 ? 0.0f : getSliceSpace(iPieDataSet2);
int i8 = 0;
float f7 = 0.0f;
while (i8 < entryCount) {
float f8 = drawAngles[i8];
float abs = Math.abs(iPieDataSet2.getEntryForIndex(i8).getY());
float f9 = Utils.FLOAT_EPSILON;
if (abs > f9 && (!this.mChart.needsHighlight(i8) || z2)) {
boolean z3 = sliceSpace > 0.0f && f8 <= 180.0f;
i = entryCount;
this.mRenderPaint.setColor(iPieDataSet2.getColor(i8));
float f10 = i6 == 1 ? 0.0f : sliceSpace / (radius * 0.017453292f);
float f11 = rotationAngle + ((f7 + (f10 / 2.0f)) * phaseY);
float f12 = (f8 - f10) * phaseY;
float f13 = f12 < 0.0f ? 0.0f : f12;
this.g.reset();
if (z2) {
float f14 = radius - holeRadius2;
i2 = i8;
i3 = i6;
double d = f11 * 0.017453292f;
f = rotationAngle;
f2 = phaseX;
float cos = centerCircleBox.x + (((float) Math.cos(d)) * f14);
float sin = centerCircleBox.y + (f14 * ((float) Math.sin(d)));
rectF3.set(cos - holeRadius2, sin - holeRadius2, cos + holeRadius2, sin + holeRadius2);
} else {
i2 = i8;
i3 = i6;
f = rotationAngle;
f2 = phaseX;
}
double d2 = f11 * 0.017453292f;
float f15 = holeRadius;
float cos2 = centerCircleBox.x + (((float) Math.cos(d2)) * radius);
float sin2 = centerCircleBox.y + (((float) Math.sin(d2)) * radius);
if (f13 < 360.0f || f13 % 360.0f > f9) {
fArr = drawAngles;
if (z2) {
this.g.arcTo(rectF3, f11 + 180.0f, -180.0f);
}
this.g.arcTo(circleBox, f11, f13);
} else {
fArr = drawAngles;
this.g.addCircle(centerCircleBox.x, centerCircleBox.y, radius, Path.Direction.CW);
}
RectF rectF4 = this.h;
float f16 = centerCircleBox.x;
float f17 = centerCircleBox.y;
RectF rectF5 = rectF3;
rectF4.set(f16 - f15, f17 - f15, f16 + f15, f17 + f15);
if (!z) {
f3 = radius;
f4 = f15;
i4 = i3;
rectF = rectF5;
rectF2 = circleBox;
mPPointF = centerCircleBox;
f5 = 360.0f;
} else if (f15 > 0.0f || z3) {
if (z3) {
i4 = i3;
rectF2 = circleBox;
f4 = f15;
i5 = 1;
f3 = radius;
mPPointF2 = centerCircleBox;
float calculateMinimumRadiusForSpacedSlice = calculateMinimumRadiusForSpacedSlice(centerCircleBox, radius, f8 * phaseY, cos2, sin2, f11, f13);
if (calculateMinimumRadiusForSpacedSlice < 0.0f) {
calculateMinimumRadiusForSpacedSlice = -calculateMinimumRadiusForSpacedSlice;
}
f6 = Math.max(f4, calculateMinimumRadiusForSpacedSlice);
} else {
f3 = radius;
mPPointF2 = centerCircleBox;
f4 = f15;
i4 = i3;
rectF2 = circleBox;
i5 = 1;
f6 = f4;
}
float f18 = (i4 == i5 || f6 == 0.0f) ? 0.0f : sliceSpace / (f6 * 0.017453292f);
float f19 = f + ((f7 + (f18 / 2.0f)) * phaseY);
float f20 = (f8 - f18) * phaseY;
if (f20 < 0.0f) {
f20 = 0.0f;
}
float f21 = f19 + f20;
if (f13 < 360.0f || f13 % 360.0f > f9) {
if (z2) {
float f22 = f3 - holeRadius2;
double d3 = 0.017453292f * f21;
mPPointF3 = mPPointF2;
float cos3 = mPPointF2.x + (((float) Math.cos(d3)) * f22);
float sin3 = mPPointF3.y + (f22 * ((float) Math.sin(d3)));
rectF = rectF5;
rectF.set(cos3 - holeRadius2, sin3 - holeRadius2, cos3 + holeRadius2, sin3 + holeRadius2);
this.g.arcTo(rectF, f21, 180.0f);
} else {
mPPointF3 = mPPointF2;
rectF = rectF5;
double d4 = f21 * 0.017453292f;
this.g.lineTo(mPPointF3.x + (((float) Math.cos(d4)) * f6), mPPointF3.y + (f6 * ((float) Math.sin(d4))));
}
this.g.arcTo(this.h, f21, -f20);
} else {
this.g.addCircle(mPPointF2.x, mPPointF2.y, f6, Path.Direction.CCW);
mPPointF3 = mPPointF2;
rectF = rectF5;
}
mPPointF = mPPointF3;
this.g.close();
this.mBitmapCanvas.drawPath(this.g, this.mRenderPaint);
f7 += f8 * f2;
} else {
f3 = radius;
f4 = f15;
i4 = i3;
rectF = rectF5;
f5 = 360.0f;
rectF2 = circleBox;
mPPointF = centerCircleBox;
}
if (f13 % f5 > f9) {
if (z3) {
float calculateMinimumRadiusForSpacedSlice2 = calculateMinimumRadiusForSpacedSlice(mPPointF, f3, f8 * phaseY, cos2, sin2, f11, f13);
double d5 = 0.017453292f * (f11 + (f13 / 2.0f));
this.g.lineTo(mPPointF.x + (((float) Math.cos(d5)) * calculateMinimumRadiusForSpacedSlice2), mPPointF.y + (calculateMinimumRadiusForSpacedSlice2 * ((float) Math.sin(d5))));
} else {
this.g.lineTo(mPPointF.x, mPPointF.y);
}
}
this.g.close();
this.mBitmapCanvas.drawPath(this.g, this.mRenderPaint);
f7 += f8 * f2;
} else {
f7 += f8 * phaseX;
i2 = i8;
f3 = radius;
f = rotationAngle;
f2 = phaseX;
rectF2 = circleBox;
i = entryCount;
fArr = drawAngles;
i4 = i6;
rectF = rectF3;
f4 = holeRadius;
mPPointF = centerCircleBox;
}
i8 = i2 + 1;
iPieDataSet2 = iPieDataSet;
holeRadius = f4;
rectF3 = rectF;
centerCircleBox = mPPointF;
i6 = i4;
radius = f3;
entryCount = i;
circleBox = rectF2;
rotationAngle = f;
phaseX = f2;
drawAngles = fArr;
}
MPPointF.recycleInstance(centerCircleBox);
}
public void drawEntryLabel(Canvas canvas, String str, float f, float f2) {
canvas.drawText(str, f, f2, this.b);
}
@Override
public void drawExtras(Canvas canvas) {
drawHole(canvas);
canvas.drawBitmap(this.mDrawBitmap.get(), 0.0f, 0.0f, (Paint) null);
drawCenterText(canvas);
}
@Override
public void drawHighlighted(Canvas canvas, Highlight[] highlightArr) {
int i;
RectF rectF;
float f;
float[] fArr;
boolean z;
float f2;
float f3;
MPPointF mPPointF;
IPieDataSet dataSetByIndex;
float f4;
int i2;
float[] fArr2;
float f5;
int i3;
float f6;
float f7;
Highlight[] highlightArr2 = highlightArr;
boolean z2 = this.mChart.isDrawHoleEnabled() && !this.mChart.isDrawSlicesUnderHoleEnabled();
if (z2 && this.mChart.isDrawRoundedSlicesEnabled()) {
return;
}
float phaseX = this.mAnimator.getPhaseX();
float phaseY = this.mAnimator.getPhaseY();
float rotationAngle = this.mChart.getRotationAngle();
float[] drawAngles = this.mChart.getDrawAngles();
float[] absoluteAngles = this.mChart.getAbsoluteAngles();
MPPointF centerCircleBox = this.mChart.getCenterCircleBox();
float radius = this.mChart.getRadius();
float holeRadius = z2 ? (this.mChart.getHoleRadius() / 100.0f) * radius : 0.0f;
RectF rectF2 = this.mDrawHighlightedRectF;
rectF2.set(0.0f, 0.0f, 0.0f, 0.0f);
int i4 = 0;
while (i4 < highlightArr2.length) {
int x = (int) highlightArr2[i4].getX();
if (x < drawAngles.length && (dataSetByIndex = ((PieData) this.mChart.getData()).getDataSetByIndex(highlightArr2[i4].getDataSetIndex())) != null && dataSetByIndex.isHighlightEnabled()) {
int entryCount = dataSetByIndex.getEntryCount();
int i5 = 0;
for (int i6 = 0; i6 < entryCount; i6++) {
if (Math.abs(dataSetByIndex.getEntryForIndex(i6).getY()) > Utils.FLOAT_EPSILON) {
i5++;
}
}
if (x == 0) {
i2 = 1;
f4 = 0.0f;
} else {
f4 = absoluteAngles[x - 1] * phaseX;
i2 = 1;
}
float sliceSpace = i5 <= i2 ? 0.0f : dataSetByIndex.getSliceSpace();
float f8 = drawAngles[x];
float selectionShift = dataSetByIndex.getSelectionShift();
int i7 = i4;
float f9 = radius + selectionShift;
float f10 = holeRadius;
rectF2.set(this.mChart.getCircleBox());
float f11 = -selectionShift;
rectF2.inset(f11, f11);
boolean z3 = sliceSpace > 0.0f && f8 <= 180.0f;
this.mRenderPaint.setColor(dataSetByIndex.getColor(x));
float f12 = i5 == 1 ? 0.0f : sliceSpace / (radius * 0.017453292f);
float f13 = i5 == 1 ? 0.0f : sliceSpace / (f9 * 0.017453292f);
float f14 = rotationAngle + (((f12 / 2.0f) + f4) * phaseY);
float f15 = (f8 - f12) * phaseY;
float f16 = f15 < 0.0f ? 0.0f : f15;
float f17 = (((f13 / 2.0f) + f4) * phaseY) + rotationAngle;
float f18 = (f8 - f13) * phaseY;
if (f18 < 0.0f) {
f18 = 0.0f;
}
this.g.reset();
if (f16 < 360.0f || f16 % 360.0f > Utils.FLOAT_EPSILON) {
fArr2 = drawAngles;
f5 = f4;
double d = f17 * 0.017453292f;
i3 = i5;
z = z2;
this.g.moveTo(centerCircleBox.x + (((float) Math.cos(d)) * f9), centerCircleBox.y + (f9 * ((float) Math.sin(d))));
this.g.arcTo(rectF2, f17, f18);
} else {
this.g.addCircle(centerCircleBox.x, centerCircleBox.y, f9, Path.Direction.CW);
fArr2 = drawAngles;
f5 = f4;
i3 = i5;
z = z2;
}
if (z3) {
double d2 = f14 * 0.017453292f;
i = i7;
rectF = rectF2;
f = f10;
mPPointF = centerCircleBox;
fArr = fArr2;
f6 = calculateMinimumRadiusForSpacedSlice(centerCircleBox, radius, f8 * phaseY, (((float) Math.cos(d2)) * radius) + centerCircleBox.x, centerCircleBox.y + (((float) Math.sin(d2)) * radius), f14, f16);
} else {
rectF = rectF2;
mPPointF = centerCircleBox;
i = i7;
f = f10;
fArr = fArr2;
f6 = 0.0f;
}
RectF rectF3 = this.h;
float f19 = mPPointF.x;
float f20 = mPPointF.y;
rectF3.set(f19 - f, f20 - f, f19 + f, f20 + f);
if (!z || (f <= 0.0f && !z3)) {
f2 = phaseX;
f3 = phaseY;
if (f16 % 360.0f > Utils.FLOAT_EPSILON) {
if (z3) {
double d3 = (f14 + (f16 / 2.0f)) * 0.017453292f;
this.g.lineTo(mPPointF.x + (((float) Math.cos(d3)) * f6), mPPointF.y + (f6 * ((float) Math.sin(d3))));
} else {
this.g.lineTo(mPPointF.x, mPPointF.y);
}
}
} else {
if (z3) {
if (f6 < 0.0f) {
f6 = -f6;
}
f7 = Math.max(f, f6);
} else {
f7 = f;
}
float f21 = (i3 == 1 || f7 == 0.0f) ? 0.0f : sliceSpace / (f7 * 0.017453292f);
float f22 = ((f5 + (f21 / 2.0f)) * phaseY) + rotationAngle;
float f23 = (f8 - f21) * phaseY;
if (f23 < 0.0f) {
f23 = 0.0f;
}
float f24 = f22 + f23;
if (f16 < 360.0f || f16 % 360.0f > Utils.FLOAT_EPSILON) {
double d4 = f24 * 0.017453292f;
f2 = phaseX;
f3 = phaseY;
this.g.lineTo(mPPointF.x + (((float) Math.cos(d4)) * f7), mPPointF.y + (f7 * ((float) Math.sin(d4))));
this.g.arcTo(this.h, f24, -f23);
} else {
this.g.addCircle(mPPointF.x, mPPointF.y, f7, Path.Direction.CCW);
f2 = phaseX;
f3 = phaseY;
}
}
this.g.close();
this.mBitmapCanvas.drawPath(this.g, this.mRenderPaint);
} else {
i = i4;
rectF = rectF2;
f = holeRadius;
fArr = drawAngles;
z = z2;
f2 = phaseX;
f3 = phaseY;
mPPointF = centerCircleBox;
}
i4 = i + 1;
phaseX = f2;
rectF2 = rectF;
holeRadius = f;
centerCircleBox = mPPointF;
phaseY = f3;
drawAngles = fArr;
z2 = z;
highlightArr2 = highlightArr;
}
MPPointF.recycleInstance(centerCircleBox);
}
public void drawHole(Canvas canvas) {
if (!this.mChart.isDrawHoleEnabled() || this.mBitmapCanvas == null) {
return;
}
float radius = this.mChart.getRadius();
float holeRadius = (this.mChart.getHoleRadius() / 100.0f) * radius;
MPPointF centerCircleBox = this.mChart.getCenterCircleBox();
if (Color.alpha(this.mHolePaint.getColor()) > 0) {
this.mBitmapCanvas.drawCircle(centerCircleBox.x, centerCircleBox.y, holeRadius, this.mHolePaint);
}
if (Color.alpha(this.mTransparentCirclePaint.getColor()) > 0 && this.mChart.getTransparentCircleRadius() > this.mChart.getHoleRadius()) {
int alpha = this.mTransparentCirclePaint.getAlpha();
float transparentCircleRadius = radius * (this.mChart.getTransparentCircleRadius() / 100.0f);
this.mTransparentCirclePaint.setAlpha((int) (alpha * this.mAnimator.getPhaseX() * this.mAnimator.getPhaseY()));
this.i.reset();
this.i.addCircle(centerCircleBox.x, centerCircleBox.y, transparentCircleRadius, Path.Direction.CW);
this.i.addCircle(centerCircleBox.x, centerCircleBox.y, holeRadius, Path.Direction.CCW);
this.mBitmapCanvas.drawPath(this.i, this.mTransparentCirclePaint);
this.mTransparentCirclePaint.setAlpha(alpha);
}
MPPointF.recycleInstance(centerCircleBox);
}
public void drawRoundedSlices(Canvas canvas) {
float f;
float[] fArr;
float f2;
if (this.mChart.isDrawRoundedSlicesEnabled()) {
IPieDataSet dataSet = ((PieData) this.mChart.getData()).getDataSet();
if (dataSet.isVisible()) {
float phaseX = this.mAnimator.getPhaseX();
float phaseY = this.mAnimator.getPhaseY();
MPPointF centerCircleBox = this.mChart.getCenterCircleBox();
float radius = this.mChart.getRadius();
float holeRadius = (radius - ((this.mChart.getHoleRadius() * radius) / 100.0f)) / 2.0f;
float[] drawAngles = this.mChart.getDrawAngles();
float rotationAngle = this.mChart.getRotationAngle();
int i = 0;
while (i < dataSet.getEntryCount()) {
float f3 = drawAngles[i];
if (Math.abs(dataSet.getEntryForIndex(i).getY()) > Utils.FLOAT_EPSILON) {
double d = radius - holeRadius;
double d2 = (rotationAngle + f3) * phaseY;
f = phaseY;
fArr = drawAngles;
f2 = rotationAngle;
float cos = (float) (centerCircleBox.x + (Math.cos(Math.toRadians(d2)) * d));
float sin = (float) ((d * Math.sin(Math.toRadians(d2))) + centerCircleBox.y);
this.mRenderPaint.setColor(dataSet.getColor(i));
this.mBitmapCanvas.drawCircle(cos, sin, holeRadius, this.mRenderPaint);
} else {
f = phaseY;
fArr = drawAngles;
f2 = rotationAngle;
}
rotationAngle = f2 + (f3 * phaseX);
i++;
phaseY = f;
drawAngles = fArr;
}
MPPointF.recycleInstance(centerCircleBox);
}
}
}
@Override
public void drawValue(Canvas canvas, String str, float f, float f2, int i) {
this.mValuePaint.setColor(i);
canvas.drawText(str, f, f2, this.mValuePaint);
}
@Override
public void drawValues(Canvas canvas) {
int i;
float[] fArr;
float[] fArr2;
float f;
float f2;
float f3;
List<IPieDataSet> list;
MPPointF mPPointF;
float f4;
Canvas canvas2;
PieDataSet.ValuePosition valuePosition;
float f5;
float f6;
float f7;
float f8;
float f9;
MPPointF mPPointF2;
ValueFormatter valueFormatter;
MPPointF mPPointF3;
IPieDataSet iPieDataSet;
float f10;
List<IPieDataSet> list2;
PieEntry pieEntry;
Canvas canvas3;
String str;
String str2;
Canvas canvas4;
MPPointF mPPointF4;
MPPointF mPPointF5;
Canvas canvas5 = canvas;
MPPointF centerCircleBox = this.mChart.getCenterCircleBox();
float radius = this.mChart.getRadius();
float rotationAngle = this.mChart.getRotationAngle();
float[] drawAngles = this.mChart.getDrawAngles();
float[] absoluteAngles = this.mChart.getAbsoluteAngles();
float phaseX = this.mAnimator.getPhaseX();
float phaseY = this.mAnimator.getPhaseY();
float holeRadius = (radius - ((this.mChart.getHoleRadius() * radius) / 100.0f)) / 2.0f;
float holeRadius2 = this.mChart.getHoleRadius() / 100.0f;
float f11 = (radius / 10.0f) * 3.6f;
if (this.mChart.isDrawHoleEnabled()) {
f11 = (radius - (radius * holeRadius2)) / 2.0f;
if (!this.mChart.isDrawSlicesUnderHoleEnabled() && this.mChart.isDrawRoundedSlicesEnabled()) {
rotationAngle = (float) (rotationAngle + ((holeRadius * 360.0f) / (radius * 6.283185307179586d)));
}
}
float f12 = rotationAngle;
float f13 = radius - f11;
PieData pieData = (PieData) this.mChart.getData();
List<IPieDataSet> dataSets = pieData.getDataSets();
float yValueSum = pieData.getYValueSum();
boolean isDrawEntryLabelsEnabled = this.mChart.isDrawEntryLabelsEnabled();
canvas.save();
float convertDpToPixel = Utils.convertDpToPixel(5.0f);
int i2 = 0;
int i3 = 0;
while (i3 < dataSets.size()) {
IPieDataSet iPieDataSet2 = dataSets.get(i3);
boolean isDrawValuesEnabled = iPieDataSet2.isDrawValuesEnabled();
if (isDrawValuesEnabled || isDrawEntryLabelsEnabled) {
PieDataSet.ValuePosition xValuePosition = iPieDataSet2.getXValuePosition();
PieDataSet.ValuePosition yValuePosition = iPieDataSet2.getYValuePosition();
applyValueTextStyle(iPieDataSet2);
int i4 = i2;
i = i3;
float calcTextHeight = Utils.calcTextHeight(this.mValuePaint, "Q") + Utils.convertDpToPixel(4.0f);
ValueFormatter valueFormatter2 = iPieDataSet2.getValueFormatter();
int entryCount = iPieDataSet2.getEntryCount();
List<IPieDataSet> list3 = dataSets;
this.mValueLinePaint.setColor(iPieDataSet2.getValueLineColor());
this.mValueLinePaint.setStrokeWidth(Utils.convertDpToPixel(iPieDataSet2.getValueLineWidth()));
float sliceSpace = getSliceSpace(iPieDataSet2);
MPPointF mPPointF6 = MPPointF.getInstance(iPieDataSet2.getIconsOffset());
MPPointF mPPointF7 = centerCircleBox;
mPPointF6.x = Utils.convertDpToPixel(mPPointF6.x);
mPPointF6.y = Utils.convertDpToPixel(mPPointF6.y);
int i5 = 0;
while (i5 < entryCount) {
MPPointF mPPointF8 = mPPointF6;
PieEntry entryForIndex = iPieDataSet2.getEntryForIndex(i5);
int i6 = entryCount;
float f14 = f12 + (((i4 == 0 ? 0.0f : absoluteAngles[i4 - 1] * phaseX) + ((drawAngles[i4] - ((sliceSpace / (f13 * 0.017453292f)) / 2.0f)) / 2.0f)) * phaseY);
float f15 = sliceSpace;
String pieLabel = valueFormatter2.getPieLabel(this.mChart.isUsePercentValuesEnabled() ? (entryForIndex.getY() / yValueSum) * 100.0f : entryForIndex.getY(), entryForIndex);
float[] fArr3 = drawAngles;
String label = entryForIndex.getLabel();
ValueFormatter valueFormatter3 = valueFormatter2;
double d = f14 * 0.017453292f;
float[] fArr4 = absoluteAngles;
float f16 = phaseX;
float cos = (float) Math.cos(d);
float f17 = phaseY;
float sin = (float) Math.sin(d);
boolean z = isDrawEntryLabelsEnabled && xValuePosition == PieDataSet.ValuePosition.OUTSIDE_SLICE;
float f18 = f12;
boolean z2 = isDrawValuesEnabled && yValuePosition == PieDataSet.ValuePosition.OUTSIDE_SLICE;
boolean z3 = isDrawEntryLabelsEnabled && xValuePosition == PieDataSet.ValuePosition.INSIDE_SLICE;
PieDataSet.ValuePosition valuePosition2 = xValuePosition;
boolean z4 = isDrawValuesEnabled && yValuePosition == PieDataSet.ValuePosition.INSIDE_SLICE;
if (z || z2) {
float valueLinePart1Length = iPieDataSet2.getValueLinePart1Length();
float valueLinePart2Length = iPieDataSet2.getValueLinePart2Length();
float valueLinePart1OffsetPercentage = iPieDataSet2.getValueLinePart1OffsetPercentage() / 100.0f;
valuePosition = yValuePosition;
if (this.mChart.isDrawHoleEnabled()) {
float f19 = radius * holeRadius2;
f5 = ((radius - f19) * valueLinePart1OffsetPercentage) + f19;
} else {
f5 = radius * valueLinePart1OffsetPercentage;
}
float abs = iPieDataSet2.isValueLineVariableLength() ? valueLinePart2Length * f13 * ((float) Math.abs(Math.sin(d))) : valueLinePart2Length * f13;
MPPointF mPPointF9 = mPPointF7;
float f20 = mPPointF9.x;
float f21 = (f5 * cos) + f20;
f6 = radius;
float f22 = mPPointF9.y;
float f23 = (f5 * sin) + f22;
float f24 = (valueLinePart1Length + 1.0f) * f13;
float f25 = (f24 * cos) + f20;
float f26 = f22 + (f24 * sin);
double d2 = f14 % 360.0d;
if (d2 < 90.0d || d2 > 270.0d) {
f7 = f25 + abs;
this.mValuePaint.setTextAlign(Paint.Align.LEFT);
if (z) {
this.b.setTextAlign(Paint.Align.LEFT);
}
f8 = f7 + convertDpToPixel;
} else {
float f27 = f25 - abs;
this.mValuePaint.setTextAlign(Paint.Align.RIGHT);
if (z) {
this.b.setTextAlign(Paint.Align.RIGHT);
}
f7 = f27;
f8 = f27 - convertDpToPixel;
}
if (iPieDataSet2.getValueLineColor() != 1122867) {
if (iPieDataSet2.isUsingSliceColorAsValueLineColor()) {
this.mValueLinePaint.setColor(iPieDataSet2.getColor(i5));
}
f9 = sin;
iPieDataSet = iPieDataSet2;
valueFormatter = valueFormatter3;
mPPointF2 = mPPointF8;
mPPointF3 = mPPointF9;
f10 = f8;
list2 = list3;
pieEntry = entryForIndex;
canvas.drawLine(f21, f23, f25, f26, this.mValueLinePaint);
canvas.drawLine(f25, f26, f7, f26, this.mValueLinePaint);
} else {
f9 = sin;
mPPointF2 = mPPointF8;
valueFormatter = valueFormatter3;
mPPointF3 = mPPointF9;
iPieDataSet = iPieDataSet2;
f10 = f8;
list2 = list3;
pieEntry = entryForIndex;
}
if (z && z2) {
drawValue(canvas, pieLabel, f10, f26, iPieDataSet.getValueTextColor(i5));
if (i5 >= pieData.getEntryCount() || label == null) {
canvas4 = canvas;
str2 = label;
} else {
canvas3 = canvas;
str = label;
drawEntryLabel(canvas3, str, f10, f26 + calcTextHeight);
str2 = str;
canvas4 = canvas3;
}
} else {
canvas3 = canvas;
float f28 = f10;
str = label;
if (z) {
if (i5 < pieData.getEntryCount() && str != null) {
drawEntryLabel(canvas3, str, f28, f26 + (calcTextHeight / 2.0f));
}
} else if (z2) {
str2 = str;
canvas4 = canvas3;
drawValue(canvas, pieLabel, f28, f26 + (calcTextHeight / 2.0f), iPieDataSet.getValueTextColor(i5));
}
str2 = str;
canvas4 = canvas3;
}
} else {
valuePosition = yValuePosition;
f9 = sin;
mPPointF3 = mPPointF7;
mPPointF2 = mPPointF8;
valueFormatter = valueFormatter3;
str2 = label;
iPieDataSet = iPieDataSet2;
f6 = radius;
canvas4 = canvas;
list2 = list3;
pieEntry = entryForIndex;
}
if (z3 || z4) {
mPPointF4 = mPPointF3;
float f29 = (f13 * cos) + mPPointF4.x;
float f30 = (f13 * f9) + mPPointF4.y;
this.mValuePaint.setTextAlign(Paint.Align.CENTER);
if (z3 && z4) {
drawValue(canvas, pieLabel, f29, f30, iPieDataSet.getValueTextColor(i5));
if (i5 < pieData.getEntryCount() && str2 != null) {
drawEntryLabel(canvas4, str2, f29, f30 + calcTextHeight);
}
} else {
if (z3) {
if (i5 < pieData.getEntryCount() && str2 != null) {
drawEntryLabel(canvas4, str2, f29, f30 + (calcTextHeight / 2.0f));
}
} else if (z4) {
drawValue(canvas, pieLabel, f29, f30 + (calcTextHeight / 2.0f), iPieDataSet.getValueTextColor(i5));
}
if (pieEntry.getIcon() == null && iPieDataSet.isDrawIconsEnabled()) {
Drawable icon = pieEntry.getIcon();
mPPointF5 = mPPointF2;
float f31 = mPPointF5.y;
Utils.drawImage(canvas, icon, (int) (((f13 + f31) * cos) + mPPointF4.x), (int) (((f31 + f13) * f9) + mPPointF4.y + mPPointF5.x), icon.getIntrinsicWidth(), icon.getIntrinsicHeight());
} else {
mPPointF5 = mPPointF2;
}
i4++;
i5++;
mPPointF6 = mPPointF5;
iPieDataSet2 = iPieDataSet;
radius = f6;
sliceSpace = f15;
entryCount = i6;
list3 = list2;
drawAngles = fArr3;
absoluteAngles = fArr4;
phaseX = f16;
f12 = f18;
xValuePosition = valuePosition2;
yValuePosition = valuePosition;
valueFormatter2 = valueFormatter;
mPPointF7 = mPPointF4;
phaseY = f17;
}
} else {
mPPointF4 = mPPointF3;
}
if (pieEntry.getIcon() == null) {
}
mPPointF5 = mPPointF2;
i4++;
i5++;
mPPointF6 = mPPointF5;
iPieDataSet2 = iPieDataSet;
radius = f6;
sliceSpace = f15;
entryCount = i6;
list3 = list2;
drawAngles = fArr3;
absoluteAngles = fArr4;
phaseX = f16;
f12 = f18;
xValuePosition = valuePosition2;
yValuePosition = valuePosition;
valueFormatter2 = valueFormatter;
mPPointF7 = mPPointF4;
phaseY = f17;
}
fArr = drawAngles;
fArr2 = absoluteAngles;
f = phaseX;
f2 = phaseY;
f3 = f12;
list = list3;
mPPointF = mPPointF7;
f4 = radius;
canvas2 = canvas;
MPPointF.recycleInstance(mPPointF6);
i2 = i4;
} else {
i = i3;
list = dataSets;
f4 = radius;
fArr = drawAngles;
fArr2 = absoluteAngles;
f = phaseX;
f2 = phaseY;
f3 = f12;
canvas2 = canvas5;
mPPointF = centerCircleBox;
}
i3 = i + 1;
canvas5 = canvas2;
centerCircleBox = mPPointF;
radius = f4;
dataSets = list;
drawAngles = fArr;
absoluteAngles = fArr2;
phaseX = f;
phaseY = f2;
f12 = f3;
}
MPPointF.recycleInstance(centerCircleBox);
canvas.restore();
}
public TextPaint getPaintCenterText() {
return this.a;
}
public Paint getPaintEntryLabels() {
return this.b;
}
public Paint getPaintHole() {
return this.mHolePaint;
}
public Paint getPaintTransparentCircle() {
return this.mTransparentCirclePaint;
}
public float getSliceSpace(IPieDataSet iPieDataSet) {
if (!iPieDataSet.isAutomaticallyDisableSliceSpacingEnabled()) {
return iPieDataSet.getSliceSpace();
}
if (iPieDataSet.getSliceSpace() / this.mViewPortHandler.getSmallestContentExtension() > (iPieDataSet.getYMin() / ((PieData) this.mChart.getData()).getYValueSum()) * 2.0f) {
return 0.0f;
}
return iPieDataSet.getSliceSpace();
}
@Override
public void initBuffers() {
}
public void releaseBitmap() {
Canvas canvas = this.mBitmapCanvas;
if (canvas != null) {
canvas.setBitmap(null);
this.mBitmapCanvas = null;
}
WeakReference<Bitmap> weakReference = this.mDrawBitmap;
if (weakReference != null) {
Bitmap bitmap = weakReference.get();
if (bitmap != null) {
bitmap.recycle();
}
this.mDrawBitmap.clear();
this.mDrawBitmap = null;
}
}
}