what-the-bank/sources/com/kofax/kmc/kut/utilities/RectUtil.java

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2024-07-27 18:17:47 +07:00
package com.kofax.kmc.kut.utilities;
import android.graphics.Point;
import android.graphics.Rect;
import com.kofax.kmc.ken.engines.data.BoundingTetragon;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
import java.util.List;
/* loaded from: classes3.dex */
public final class RectUtil {
public static final void fit(Rect rect, Rect rect2, Point point, double d, double d2) throws IllegalArgumentException {
double d3;
double d4;
if (rect == null || rect.width() <= 0 || rect.height() <= 0) {
throw new IllegalArgumentException("outer rect cannot be null or empty");
}
if (rect2 == null) {
throw new IllegalArgumentException("inner rect cannot be null");
}
double c = c(d) * 0.02d;
double width = rect.width() - (rect.width() * c);
double height = rect.height() - (rect.height() * c);
int round = (int) Math.round((rect.width() - width) / 2.0d);
int round2 = (int) Math.round(round + width);
int round3 = (int) Math.round((rect.height() - height) / 2.0d);
int round4 = (int) Math.round(round3 + height);
if (point.x <= round || point.x >= round2) {
throw new IllegalArgumentException("center.x is not inside outer, less padding");
}
if (point.y <= round3 || point.y >= round4) {
throw new IllegalArgumentException("center.y is not inside outer, less padding");
}
double min = Math.min(point.x - round, round2 - point.x) << 1;
double min2 = Math.min(point.y - round3, round4 - point.y) << 1;
if (0.0d >= d2 || d2 >= 1.0d) {
if (d2 > 1.0d) {
d4 = min / d2;
d3 = min;
} else if (d2 == 1.0d) {
d3 = min > min2 ? min2 : min;
d4 = d3;
} else {
d3 = min;
}
if (d3 <= min || d4 > min2) {
double min3 = Math.min(min / d3, min2 / d4);
d3 *= min3;
d4 *= min3;
}
int round5 = (int) Math.round(point.x - (d3 / 2.0d));
int round6 = (int) Math.round(point.y - (d4 / 2.0d));
rect2.set(round5, round6, (int) Math.round(round5 + d3), (int) Math.round(round6 + d4));
}
d3 = d2 * min2;
d4 = min2;
if (d3 <= min) {
}
double min32 = Math.min(min / d3, min2 / d4);
d3 *= min32;
d4 *= min32;
int round52 = (int) Math.round(point.x - (d3 / 2.0d));
int round62 = (int) Math.round(point.y - (d4 / 2.0d));
rect2.set(round52, round62, (int) Math.round(round52 + d3), (int) Math.round(round62 + d4));
}
public static boolean containsPoint(Point point, Rect rect, double d) {
if (point == null) {
throw new IllegalArgumentException("point is null");
}
if (rect == null) {
throw new IllegalArgumentException("rect is null");
}
double c = c(d) * 0.02d;
double width = rect.width() - (rect.width() * c);
double height = rect.height() - (rect.height() * c);
int round = (int) Math.round((rect.width() - width) / 2.0d);
int round2 = (int) Math.round(round + width);
int round3 = (int) Math.round((rect.height() - height) / 2.0d);
return round < point.x && point.x < round2 && round3 < point.y && point.y < ((int) Math.round(((double) round3) + height));
}
private static double c(double d) {
return Math.min(Math.max(d, 0.0d), 50.0d);
}
public static List<Point> sort(Point point, Point point2, Point point3, Point point4, Rect rect) {
if (rect == null) {
rect = new Rect();
}
ArrayList arrayList = new ArrayList();
arrayList.add(point);
arrayList.add(point2);
arrayList.add(point3);
arrayList.add(point4);
List<Point> sort = sort(arrayList, rect);
Collections.swap(sort, 0, 3);
Collections.swap(sort, 1, 2);
return sort;
}
public static List<Point> sort(List<Point> list, Rect rect) {
bound(list, rect);
Collections.sort(list, new a(new Point(rect.centerX(), rect.centerY())));
return list;
}
/* JADX INFO: Access modifiers changed from: package-private */
/* loaded from: classes3.dex */
public static class a implements Comparator<Point> {
private final Point nS;
public a(Point point) {
if (point == null) {
throw new IllegalArgumentException("center cannot be null");
}
this.nS = point;
}
@Override // java.util.Comparator
/* renamed from: f, reason: merged with bridge method [inline-methods] */
public int compare(Point point, Point point2) {
if (point == null || point2 == null) {
throw new IllegalArgumentException("neither a nor b can be null");
}
if (point.x - this.nS.x >= 0 && point2.x - this.nS.x < 0) {
return -1;
}
if (point.x - this.nS.x < 0 && point2.x - this.nS.x >= 0) {
return 1;
}
if (point.x - this.nS.x == 0 && point2.x - this.nS.x == 0) {
return (point.y - this.nS.y >= 0 || point2.y - this.nS.y >= 0) ? point.y <= point2.y ? 1 : -1 : point2.y > point.y ? 1 : -1;
}
int i = ((point.x - this.nS.x) * (point2.y - this.nS.y)) - ((point2.x - this.nS.x) * (point.y - this.nS.y));
if (i < 0) {
return -1;
}
if (i > 0) {
return 1;
}
return ((point.x - this.nS.x) * (point.x - this.nS.x)) + ((point.y - this.nS.y) * (point.y - this.nS.y)) > ((point2.x - this.nS.x) * (point2.x - this.nS.x)) + ((point2.y - this.nS.y) * (point2.y - this.nS.y)) ? 1 : -1;
}
}
public static void bound(List<Point> list, Rect rect) {
if (list == null || list.size() != 4) {
throw new IllegalArgumentException("points list must be of size equal to 4");
}
if (list.indexOf(null) != -1) {
throw new IllegalArgumentException("No point in points may be null");
}
if (rect == null) {
throw new IllegalArgumentException("bound may not be null");
}
Point point = list.get(0);
Point point2 = list.get(1);
Point point3 = list.get(2);
Point point4 = list.get(3);
rect.set(Math.min(point.x, Math.min(Math.min(point2.x, point3.x), point4.x)), Math.min(point.y, Math.min(Math.min(point2.y, point3.y), point4.y)), Math.max(point.x, Math.max(Math.max(point2.x, point3.x), point4.x)), Math.max(point.y, Math.max(Math.max(point2.y, point3.y), point4.y)));
}
public static Rect scale(Rect rect, double d, double d2) {
rect.left = (int) (rect.left * d);
rect.right = (int) (rect.right * d);
rect.top = (int) (rect.top * d2);
rect.bottom = (int) (rect.bottom * d2);
return rect;
}
public static Rect createTargetRect(double d, double d2, Point point, int i, int i2) {
Point point2;
if (i < i2 && d2 != 0.0d) {
d2 = 1.0d / d2;
}
double d3 = d2;
Rect rect = new Rect(0, 0, i, i2);
Point point3 = new Point();
if (point == null) {
point3.set((int) Math.round(i / 2.0d), (int) Math.round(i2 / 2.0d));
point2 = point3;
} else {
point2 = point;
}
if (!containsPoint(point2, rect, d)) {
throw new IllegalArgumentException("target frame is invalid: the center point is not inside the area defined by the padding");
}
Rect rect2 = new Rect();
fit(rect, rect2, point2, d, d3);
return rect2;
}
public static BoundingTetragon buildBoundingTetragon(List<Point> list) {
if (list == null || list.size() != 4) {
return null;
}
List<Point> sort = sort(list.get(0), list.get(1), list.get(2), list.get(3), null);
return new BoundingTetragon(sort.get(1), sort.get(2), sort.get(0), sort.get(3));
}
}