package X; import O.X; import android.content.Context; import android.util.Log; import android.view.MotionEvent; import android.view.VelocityTracker; import android.view.View; import android.view.ViewConfiguration; import android.view.ViewParent; import android.widget.OverScroller; import androidx.coordinatorlayout.widget.CoordinatorLayout; import com.google.android.gms.maps.model.BitmapDescriptorFactory; import java.util.Arrays; import java.util.WeakHashMap; import m3.l; /* loaded from: classes.dex */ public final class d { /* renamed from: v, reason: collision with root package name */ public static final F0.b f1990v = new F0.b(1); /* renamed from: a, reason: collision with root package name */ public int f1991a; /* renamed from: b, reason: collision with root package name */ public final int f1992b; /* renamed from: d, reason: collision with root package name */ public float[] f1994d; /* renamed from: e, reason: collision with root package name */ public float[] f1995e; /* renamed from: f, reason: collision with root package name */ public float[] f1996f; /* renamed from: g, reason: collision with root package name */ public float[] f1997g; public int[] h; public int[] i; /* renamed from: j, reason: collision with root package name */ public int[] f1998j; /* renamed from: k, reason: collision with root package name */ public int f1999k; /* renamed from: l, reason: collision with root package name */ public VelocityTracker f2000l; /* renamed from: m, reason: collision with root package name */ public final float f2001m; /* renamed from: n, reason: collision with root package name */ public final float f2002n; /* renamed from: o, reason: collision with root package name */ public final int f2003o; public final OverScroller p; /* renamed from: q, reason: collision with root package name */ public final l f2004q; /* renamed from: r, reason: collision with root package name */ public View f2005r; /* renamed from: s, reason: collision with root package name */ public boolean f2006s; /* renamed from: t, reason: collision with root package name */ public final CoordinatorLayout f2007t; /* renamed from: c, reason: collision with root package name */ public int f1993c = -1; /* renamed from: u, reason: collision with root package name */ public final F0.c f2008u = new F0.c(this, 4); public d(Context context, CoordinatorLayout coordinatorLayout, l lVar) { if (coordinatorLayout == null) { throw new IllegalArgumentException("Parent view may not be null"); } if (lVar == null) { throw new IllegalArgumentException("Callback may not be null"); } this.f2007t = coordinatorLayout; this.f2004q = lVar; ViewConfiguration viewConfiguration = ViewConfiguration.get(context); this.f2003o = (int) ((context.getResources().getDisplayMetrics().density * 20.0f) + 0.5f); this.f1992b = viewConfiguration.getScaledTouchSlop(); this.f2001m = viewConfiguration.getScaledMaximumFlingVelocity(); this.f2002n = viewConfiguration.getScaledMinimumFlingVelocity(); this.p = new OverScroller(context, f1990v); } public final void a() { this.f1993c = -1; float[] fArr = this.f1994d; if (fArr != null) { Arrays.fill(fArr, BitmapDescriptorFactory.HUE_RED); Arrays.fill(this.f1995e, BitmapDescriptorFactory.HUE_RED); Arrays.fill(this.f1996f, BitmapDescriptorFactory.HUE_RED); Arrays.fill(this.f1997g, BitmapDescriptorFactory.HUE_RED); Arrays.fill(this.h, 0); Arrays.fill(this.i, 0); Arrays.fill(this.f1998j, 0); this.f1999k = 0; } VelocityTracker velocityTracker = this.f2000l; if (velocityTracker != null) { velocityTracker.recycle(); this.f2000l = null; } } public final void b(View view, int i) { ViewParent parent = view.getParent(); CoordinatorLayout coordinatorLayout = this.f2007t; if (parent != coordinatorLayout) { throw new IllegalArgumentException("captureChildView: parameter must be a descendant of the ViewDragHelper's tracked parent view (" + coordinatorLayout + ")"); } this.f2005r = view; this.f1993c = i; this.f2004q.N(view, i); n(1); } /* JADX WARN: Removed duplicated region for block: B:13:0x0044 A[RETURN] */ /* Code decompiled incorrectly, please refer to instructions dump. To view partially-correct add '--show-bad-code' argument */ public final boolean c(android.view.View r4, float r5, float r6) { /* r3 = this; r0 = 0 if (r4 != 0) goto L4 goto L45 L4: m3.l r1 = r3.f2004q int r4 = r1.C(r4) r2 = 1 if (r4 <= 0) goto Lf r4 = r2 goto L10 Lf: r4 = r0 L10: int r1 = r1.D() if (r1 <= 0) goto L18 r1 = r2 goto L19 L18: r1 = r0 L19: if (r4 == 0) goto L29 if (r1 == 0) goto L29 float r5 = r5 * r5 float r6 = r6 * r6 float r6 = r6 + r5 int r3 = r3.f1992b int r3 = r3 * r3 float r3 = (float) r3 int r3 = (r6 > r3 ? 1 : (r6 == r3 ? 0 : -1)) if (r3 <= 0) goto L45 goto L44 L29: if (r4 == 0) goto L37 float r4 = java.lang.Math.abs(r5) int r3 = r3.f1992b float r3 = (float) r3 int r3 = (r4 > r3 ? 1 : (r4 == r3 ? 0 : -1)) if (r3 <= 0) goto L45 goto L44 L37: if (r1 == 0) goto L45 float r4 = java.lang.Math.abs(r6) int r3 = r3.f1992b float r3 = (float) r3 int r3 = (r4 > r3 ? 1 : (r4 == r3 ? 0 : -1)) if (r3 <= 0) goto L45 L44: return r2 L45: return r0 */ throw new UnsupportedOperationException("Method not decompiled: X.d.c(android.view.View, float, float):boolean"); } public final void d(int i) { float[] fArr = this.f1994d; if (fArr != null) { int i4 = this.f1999k; int i5 = 1 << i; if ((i4 & i5) != 0) { fArr[i] = 0.0f; this.f1995e[i] = 0.0f; this.f1996f[i] = 0.0f; this.f1997g[i] = 0.0f; this.h[i] = 0; this.i[i] = 0; this.f1998j[i] = 0; this.f1999k = (~i5) & i4; } } } public final int e(int i, int i4, int i5) { if (i == 0) { return 0; } float width = this.f2007t.getWidth() / 2; float sin = (((float) Math.sin((Math.min(1.0f, Math.abs(i) / r3) - 0.5f) * 0.47123894f)) * width) + width; int abs = Math.abs(i4); return Math.min(abs > 0 ? Math.round(Math.abs(sin / abs) * 1000.0f) * 4 : (int) (((Math.abs(i) / i5) + 1.0f) * 256.0f), 600); } public final boolean f() { if (this.f1991a == 2) { OverScroller overScroller = this.p; boolean computeScrollOffset = overScroller.computeScrollOffset(); int currX = overScroller.getCurrX(); int currY = overScroller.getCurrY(); int left = currX - this.f2005r.getLeft(); int top = currY - this.f2005r.getTop(); if (left != 0) { View view = this.f2005r; WeakHashMap weakHashMap = X.f1226a; view.offsetLeftAndRight(left); } if (top != 0) { View view2 = this.f2005r; WeakHashMap weakHashMap2 = X.f1226a; view2.offsetTopAndBottom(top); } if (left != 0 || top != 0) { this.f2004q.P(this.f2005r, currX, currY); } if (computeScrollOffset && currX == overScroller.getFinalX() && currY == overScroller.getFinalY()) { overScroller.abortAnimation(); computeScrollOffset = false; } if (!computeScrollOffset) { this.f2007t.post(this.f2008u); } } return this.f1991a == 2; } public final View g(int i, int i4) { CoordinatorLayout coordinatorLayout = this.f2007t; for (int childCount = coordinatorLayout.getChildCount() - 1; childCount >= 0; childCount--) { this.f2004q.getClass(); View childAt = coordinatorLayout.getChildAt(childCount); if (i >= childAt.getLeft() && i < childAt.getRight() && i4 >= childAt.getTop() && i4 < childAt.getBottom()) { return childAt; } } return null; } public final boolean h(int i, int i4, int i5, int i6) { float f2; float f4; float f5; float f6; int left = this.f2005r.getLeft(); int top = this.f2005r.getTop(); int i7 = i - left; int i8 = i4 - top; OverScroller overScroller = this.p; if (i7 == 0 && i8 == 0) { overScroller.abortAnimation(); n(0); return false; } View view = this.f2005r; int i9 = (int) this.f2002n; int i10 = (int) this.f2001m; int abs = Math.abs(i5); if (abs < i9) { i5 = 0; } else if (abs > i10) { i5 = i5 > 0 ? i10 : -i10; } int abs2 = Math.abs(i6); if (abs2 < i9) { i6 = 0; } else if (abs2 > i10) { i6 = i6 > 0 ? i10 : -i10; } int abs3 = Math.abs(i7); int abs4 = Math.abs(i8); int abs5 = Math.abs(i5); int abs6 = Math.abs(i6); int i11 = abs5 + abs6; int i12 = abs3 + abs4; if (i5 != 0) { f2 = abs5; f4 = i11; } else { f2 = abs3; f4 = i12; } float f7 = f2 / f4; if (i6 != 0) { f5 = abs6; f6 = i11; } else { f5 = abs4; f6 = i12; } float f8 = f5 / f6; l lVar = this.f2004q; overScroller.startScroll(left, top, i7, i8, (int) ((e(i8, i6, lVar.D()) * f8) + (e(i7, i5, lVar.C(view)) * f7))); n(2); return true; } public final boolean i(int i) { if ((this.f1999k & (1 << i)) != 0) { return true; } Log.e("ViewDragHelper", "Ignoring pointerId=" + i + " because ACTION_DOWN was not received for this pointer before ACTION_MOVE. It likely happened because ViewDragHelper did not receive all the events in the event stream."); return false; } public final void j(MotionEvent motionEvent) { int i; int actionMasked = motionEvent.getActionMasked(); int actionIndex = motionEvent.getActionIndex(); if (actionMasked == 0) { a(); } if (this.f2000l == null) { this.f2000l = VelocityTracker.obtain(); } this.f2000l.addMovement(motionEvent); int i4 = 0; if (actionMasked == 0) { float x3 = motionEvent.getX(); float y3 = motionEvent.getY(); int pointerId = motionEvent.getPointerId(0); View g4 = g((int) x3, (int) y3); l(x3, y3, pointerId); q(g4, pointerId); int i5 = this.h[pointerId]; return; } if (actionMasked == 1) { if (this.f1991a == 1) { k(); } a(); return; } l lVar = this.f2004q; if (actionMasked != 2) { if (actionMasked == 3) { if (this.f1991a == 1) { this.f2006s = true; lVar.Q(this.f2005r, BitmapDescriptorFactory.HUE_RED, BitmapDescriptorFactory.HUE_RED); this.f2006s = false; if (this.f1991a == 1) { n(0); } } a(); return; } if (actionMasked == 5) { int pointerId2 = motionEvent.getPointerId(actionIndex); float x4 = motionEvent.getX(actionIndex); float y4 = motionEvent.getY(actionIndex); l(x4, y4, pointerId2); if (this.f1991a == 0) { q(g((int) x4, (int) y4), pointerId2); int i6 = this.h[pointerId2]; return; } int i7 = (int) x4; int i8 = (int) y4; View view = this.f2005r; if (view != null && i7 >= view.getLeft() && i7 < view.getRight() && i8 >= view.getTop() && i8 < view.getBottom()) { q(this.f2005r, pointerId2); return; } return; } if (actionMasked != 6) { return; } int pointerId3 = motionEvent.getPointerId(actionIndex); if (this.f1991a == 1 && pointerId3 == this.f1993c) { int pointerCount = motionEvent.getPointerCount(); while (true) { if (i4 >= pointerCount) { i = -1; break; } int pointerId4 = motionEvent.getPointerId(i4); if (pointerId4 != this.f1993c) { View g5 = g((int) motionEvent.getX(i4), (int) motionEvent.getY(i4)); View view2 = this.f2005r; if (g5 == view2 && q(view2, pointerId4)) { i = this.f1993c; break; } } i4++; } if (i == -1) { k(); } } d(pointerId3); return; } if (this.f1991a == 1) { if (i(this.f1993c)) { int findPointerIndex = motionEvent.findPointerIndex(this.f1993c); float x5 = motionEvent.getX(findPointerIndex); float y5 = motionEvent.getY(findPointerIndex); float[] fArr = this.f1996f; int i9 = this.f1993c; int i10 = (int) (x5 - fArr[i9]); int i11 = (int) (y5 - this.f1997g[i9]); int left = this.f2005r.getLeft() + i10; int top = this.f2005r.getTop() + i11; int left2 = this.f2005r.getLeft(); int top2 = this.f2005r.getTop(); if (i10 != 0) { left = lVar.j(this.f2005r, left); WeakHashMap weakHashMap = X.f1226a; this.f2005r.offsetLeftAndRight(left - left2); } if (i11 != 0) { top = lVar.k(this.f2005r, top); WeakHashMap weakHashMap2 = X.f1226a; this.f2005r.offsetTopAndBottom(top - top2); } if (i10 != 0 || i11 != 0) { lVar.P(this.f2005r, left, top); } m(motionEvent); return; } return; } int pointerCount2 = motionEvent.getPointerCount(); while (i4 < pointerCount2) { int pointerId5 = motionEvent.getPointerId(i4); if (i(pointerId5)) { float x6 = motionEvent.getX(i4); float y6 = motionEvent.getY(i4); float f2 = x6 - this.f1994d[pointerId5]; float f4 = y6 - this.f1995e[pointerId5]; Math.abs(f2); Math.abs(f4); int i12 = this.h[pointerId5]; Math.abs(f4); Math.abs(f2); int i13 = this.h[pointerId5]; Math.abs(f2); Math.abs(f4); int i14 = this.h[pointerId5]; Math.abs(f4); Math.abs(f2); int i15 = this.h[pointerId5]; if (this.f1991a != 1) { View g6 = g((int) x6, (int) y6); if (c(g6, f2, f4) && q(g6, pointerId5)) { break; } } else { break; } } i4++; } m(motionEvent); } public final void k() { VelocityTracker velocityTracker = this.f2000l; float f2 = this.f2001m; velocityTracker.computeCurrentVelocity(1000, f2); float xVelocity = this.f2000l.getXVelocity(this.f1993c); float f4 = this.f2002n; float abs = Math.abs(xVelocity); if (abs < f4) { xVelocity = 0.0f; } else if (abs > f2) { xVelocity = xVelocity > BitmapDescriptorFactory.HUE_RED ? f2 : -f2; } float yVelocity = this.f2000l.getYVelocity(this.f1993c); float abs2 = Math.abs(yVelocity); if (abs2 < f4) { f2 = 0.0f; } else if (abs2 <= f2) { f2 = yVelocity; } else if (yVelocity <= BitmapDescriptorFactory.HUE_RED) { f2 = -f2; } this.f2006s = true; this.f2004q.Q(this.f2005r, xVelocity, f2); this.f2006s = false; if (this.f1991a == 1) { n(0); } } public final void l(float f2, float f4, int i) { float[] fArr = this.f1994d; if (fArr == null || fArr.length <= i) { int i4 = i + 1; float[] fArr2 = new float[i4]; float[] fArr3 = new float[i4]; float[] fArr4 = new float[i4]; float[] fArr5 = new float[i4]; int[] iArr = new int[i4]; int[] iArr2 = new int[i4]; int[] iArr3 = new int[i4]; if (fArr != null) { System.arraycopy(fArr, 0, fArr2, 0, fArr.length); float[] fArr6 = this.f1995e; System.arraycopy(fArr6, 0, fArr3, 0, fArr6.length); float[] fArr7 = this.f1996f; System.arraycopy(fArr7, 0, fArr4, 0, fArr7.length); float[] fArr8 = this.f1997g; System.arraycopy(fArr8, 0, fArr5, 0, fArr8.length); int[] iArr4 = this.h; System.arraycopy(iArr4, 0, iArr, 0, iArr4.length); int[] iArr5 = this.i; System.arraycopy(iArr5, 0, iArr2, 0, iArr5.length); int[] iArr6 = this.f1998j; System.arraycopy(iArr6, 0, iArr3, 0, iArr6.length); } this.f1994d = fArr2; this.f1995e = fArr3; this.f1996f = fArr4; this.f1997g = fArr5; this.h = iArr; this.i = iArr2; this.f1998j = iArr3; } float[] fArr9 = this.f1994d; this.f1996f[i] = f2; fArr9[i] = f2; float[] fArr10 = this.f1995e; this.f1997g[i] = f4; fArr10[i] = f4; int[] iArr7 = this.h; int i5 = (int) f2; int i6 = (int) f4; CoordinatorLayout coordinatorLayout = this.f2007t; int left = coordinatorLayout.getLeft(); int i7 = this.f2003o; int i8 = i5 < left + i7 ? 1 : 0; if (i6 < coordinatorLayout.getTop() + i7) { i8 |= 4; } if (i5 > coordinatorLayout.getRight() - i7) { i8 |= 2; } if (i6 > coordinatorLayout.getBottom() - i7) { i8 |= 8; } iArr7[i] = i8; this.f1999k |= 1 << i; } public final void m(MotionEvent motionEvent) { int pointerCount = motionEvent.getPointerCount(); for (int i = 0; i < pointerCount; i++) { int pointerId = motionEvent.getPointerId(i); if (i(pointerId)) { float x3 = motionEvent.getX(i); float y3 = motionEvent.getY(i); this.f1996f[pointerId] = x3; this.f1997g[pointerId] = y3; } } } public final void n(int i) { this.f2007t.removeCallbacks(this.f2008u); if (this.f1991a != i) { this.f1991a = i; this.f2004q.O(i); if (this.f1991a == 0) { this.f2005r = null; } } } public final boolean o(int i, int i4) { if (this.f2006s) { return h(i, i4, (int) this.f2000l.getXVelocity(this.f1993c), (int) this.f2000l.getYVelocity(this.f1993c)); } throw new IllegalStateException("Cannot settleCapturedViewAt outside of a call to Callback#onViewReleased"); } /* JADX WARN: Code restructure failed: missing block: B:47:0x00cd, code lost: if (r12 != r11) goto L52; */ /* Code decompiled incorrectly, please refer to instructions dump. To view partially-correct add '--show-bad-code' argument */ public final boolean p(android.view.MotionEvent r18) { /* Method dump skipped, instructions count: 322 To view this dump add '--comments-level debug' option */ throw new UnsupportedOperationException("Method not decompiled: X.d.p(android.view.MotionEvent):boolean"); } public final boolean q(View view, int i) { if (view == this.f2005r && this.f1993c == i) { return true; } if (view == null || !this.f2004q.b0(view, i)) { return false; } this.f1993c = i; b(view, i); return true; } }