package androidx.constraintlayout.solver.widgets; import androidx.constraintlayout.solver.LinearSystem; import androidx.constraintlayout.solver.widgets.ConstraintWidget; /* loaded from: classes.dex */ public class Optimizer { static boolean[] a = new boolean[3]; static void a(ConstraintWidgetContainer constraintWidgetContainer, LinearSystem linearSystem, ConstraintWidget constraintWidget) { if (constraintWidgetContainer.C[0] != ConstraintWidget.DimensionBehaviour.WRAP_CONTENT && constraintWidget.C[0] == ConstraintWidget.DimensionBehaviour.MATCH_PARENT) { int i = constraintWidget.s.e; int s = constraintWidgetContainer.s() - constraintWidget.u.e; ConstraintAnchor constraintAnchor = constraintWidget.s; constraintAnchor.i = linearSystem.a(constraintAnchor); ConstraintAnchor constraintAnchor2 = constraintWidget.u; constraintAnchor2.i = linearSystem.a(constraintAnchor2); linearSystem.a(constraintWidget.s.i, i); linearSystem.a(constraintWidget.u.i, s); constraintWidget.a = 2; constraintWidget.a(i, s); } if (constraintWidgetContainer.C[1] == ConstraintWidget.DimensionBehaviour.WRAP_CONTENT || constraintWidget.C[1] != ConstraintWidget.DimensionBehaviour.MATCH_PARENT) { return; } int i2 = constraintWidget.t.e; int i3 = constraintWidgetContainer.i() - constraintWidget.v.e; ConstraintAnchor constraintAnchor3 = constraintWidget.t; constraintAnchor3.i = linearSystem.a(constraintAnchor3); ConstraintAnchor constraintAnchor4 = constraintWidget.v; constraintAnchor4.i = linearSystem.a(constraintAnchor4); linearSystem.a(constraintWidget.t.i, i2); linearSystem.a(constraintWidget.v.i, i3); if (constraintWidget.Q > 0 || constraintWidget.r() == 8) { ConstraintAnchor constraintAnchor5 = constraintWidget.w; constraintAnchor5.i = linearSystem.a(constraintAnchor5); linearSystem.a(constraintWidget.w.i, constraintWidget.Q + i2); } constraintWidget.b = 2; constraintWidget.e(i2, i3); } private static boolean a(ConstraintWidget constraintWidget, int i) { ConstraintWidget.DimensionBehaviour[] dimensionBehaviourArr = constraintWidget.C; if (dimensionBehaviourArr[i] != ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT) { return false; } if (constraintWidget.G != 0.0f) { if (dimensionBehaviourArr[i != 0 ? (char) 0 : (char) 1] == ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT) { } return false; } if (i == 0) { if (constraintWidget.e != 0 || constraintWidget.h != 0 || constraintWidget.i != 0) { return false; } } else if (constraintWidget.f != 0 || constraintWidget.k != 0 || constraintWidget.l != 0) { return false; } return true; } static void a(int i, ConstraintWidget constraintWidget) { constraintWidget.I(); ResolutionAnchor d = constraintWidget.s.d(); ResolutionAnchor d2 = constraintWidget.t.d(); ResolutionAnchor d3 = constraintWidget.u.d(); ResolutionAnchor d4 = constraintWidget.v.d(); boolean z = (i & 8) == 8; boolean z2 = constraintWidget.C[0] == ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT && a(constraintWidget, 0); if (d.h != 4 && d3.h != 4) { if (constraintWidget.C[0] == ConstraintWidget.DimensionBehaviour.FIXED || (z2 && constraintWidget.r() == 8)) { if (constraintWidget.s.d == null && constraintWidget.u.d == null) { d.b(1); d3.b(1); if (z) { d3.a(d, 1, constraintWidget.m()); } else { d3.a(d, constraintWidget.s()); } } else if (constraintWidget.s.d != null && constraintWidget.u.d == null) { d.b(1); d3.b(1); if (z) { d3.a(d, 1, constraintWidget.m()); } else { d3.a(d, constraintWidget.s()); } } else if (constraintWidget.s.d == null && constraintWidget.u.d != null) { d.b(1); d3.b(1); d.a(d3, -constraintWidget.s()); if (z) { d.a(d3, -1, constraintWidget.m()); } else { d.a(d3, -constraintWidget.s()); } } else if (constraintWidget.s.d != null && constraintWidget.u.d != null) { d.b(2); d3.b(2); if (z) { constraintWidget.m().a(d); constraintWidget.m().a(d3); d.b(d3, -1, constraintWidget.m()); d3.b(d, 1, constraintWidget.m()); } else { d.b(d3, -constraintWidget.s()); d3.b(d, constraintWidget.s()); } } } else if (z2) { int s = constraintWidget.s(); d.b(1); d3.b(1); if (constraintWidget.s.d == null && constraintWidget.u.d == null) { if (z) { d3.a(d, 1, constraintWidget.m()); } else { d3.a(d, s); } } else if (constraintWidget.s.d == null || constraintWidget.u.d != null) { if (constraintWidget.s.d != null || constraintWidget.u.d == null) { if (constraintWidget.s.d != null && constraintWidget.u.d != null) { if (z) { constraintWidget.m().a(d); constraintWidget.m().a(d3); } if (constraintWidget.G == 0.0f) { d.b(3); d3.b(3); d.b(d3, 0.0f); d3.b(d, 0.0f); } else { d.b(2); d3.b(2); d.b(d3, -s); d3.b(d, s); constraintWidget.o(s); } } } else if (z) { d.a(d3, -1, constraintWidget.m()); } else { d.a(d3, -s); } } else if (z) { d3.a(d, 1, constraintWidget.m()); } else { d3.a(d, s); } } } boolean z3 = constraintWidget.C[1] == ConstraintWidget.DimensionBehaviour.MATCH_CONSTRAINT && a(constraintWidget, 1); if (d2.h == 4 || d4.h == 4) { return; } if (constraintWidget.C[1] != ConstraintWidget.DimensionBehaviour.FIXED && (!z3 || constraintWidget.r() != 8)) { if (z3) { int i2 = constraintWidget.i(); d2.b(1); d4.b(1); if (constraintWidget.t.d == null && constraintWidget.v.d == null) { if (z) { d4.a(d2, 1, constraintWidget.l()); return; } else { d4.a(d2, i2); return; } } if (constraintWidget.t.d != null && constraintWidget.v.d == null) { if (z) { d4.a(d2, 1, constraintWidget.l()); return; } else { d4.a(d2, i2); return; } } if (constraintWidget.t.d == null && constraintWidget.v.d != null) { if (z) { d2.a(d4, -1, constraintWidget.l()); return; } else { d2.a(d4, -i2); return; } } if (constraintWidget.t.d == null || constraintWidget.v.d == null) { return; } if (z) { constraintWidget.l().a(d2); constraintWidget.m().a(d4); } if (constraintWidget.G == 0.0f) { d2.b(3); d4.b(3); d2.b(d4, 0.0f); d4.b(d2, 0.0f); return; } d2.b(2); d4.b(2); d2.b(d4, -i2); d4.b(d2, i2); constraintWidget.g(i2); if (constraintWidget.Q > 0) { constraintWidget.w.d().a(1, d2, constraintWidget.Q); return; } return; } return; } if (constraintWidget.t.d == null && constraintWidget.v.d == null) { d2.b(1); d4.b(1); if (z) { d4.a(d2, 1, constraintWidget.l()); } else { d4.a(d2, constraintWidget.i()); } ConstraintAnchor constraintAnchor = constraintWidget.w; if (constraintAnchor.d != null) { constraintAnchor.d().b(1); d2.a(1, constraintWidget.w.d(), -constraintWidget.Q); return; } return; } if (constraintWidget.t.d != null && constraintWidget.v.d == null) { d2.b(1); d4.b(1); if (z) { d4.a(d2, 1, constraintWidget.l()); } else { d4.a(d2, constraintWidget.i()); } if (constraintWidget.Q > 0) { constraintWidget.w.d().a(1, d2, constraintWidget.Q); return; } return; } if (constraintWidget.t.d == null && constraintWidget.v.d != null) { d2.b(1); d4.b(1); if (z) { d2.a(d4, -1, constraintWidget.l()); } else { d2.a(d4, -constraintWidget.i()); } if (constraintWidget.Q > 0) { constraintWidget.w.d().a(1, d2, constraintWidget.Q); return; } return; } if (constraintWidget.t.d == null || constraintWidget.v.d == null) { return; } d2.b(2); d4.b(2); if (z) { d2.b(d4, -1, constraintWidget.l()); d4.b(d2, 1, constraintWidget.l()); constraintWidget.l().a(d2); constraintWidget.m().a(d4); } else { d2.b(d4, -constraintWidget.i()); d4.b(d2, constraintWidget.i()); } if (constraintWidget.Q > 0) { constraintWidget.w.d().a(1, d2, constraintWidget.Q); } } /* JADX WARN: Code restructure failed: missing block: B:10:0x0032, code lost: if (r7.e0 == 2) goto L14; */ /* JADX WARN: Code restructure failed: missing block: B:11:0x0034, code lost: r2 = true; */ /* JADX WARN: Code restructure failed: missing block: B:209:0x0036, code lost: r2 = false; */ /* JADX WARN: Code restructure failed: missing block: B:219:0x0048, code lost: if (r7.f0 == 2) goto L14; */ /* JADX WARN: Removed duplicated region for block: B:120:0x01d6 */ /* JADX WARN: Removed duplicated region for block: B:67:0x0109 A[SYNTHETIC] */ /* JADX WARN: Removed duplicated region for block: B:71:0x0105 A[SYNTHETIC] */ /* Code decompiled incorrectly, please refer to instructions dump. To view partially-correct code enable 'Show inconsistent code' option in preferences */ static boolean a(androidx.constraintlayout.solver.widgets.ConstraintWidgetContainer r24, androidx.constraintlayout.solver.LinearSystem r25, int r26, int r27, androidx.constraintlayout.solver.widgets.ChainHead r28) { /* Method dump skipped, instructions count: 900 To view this dump change 'Code comments level' option to 'DEBUG' */ throw new UnsupportedOperationException("Method not decompiled: androidx.constraintlayout.solver.widgets.Optimizer.a(androidx.constraintlayout.solver.widgets.ConstraintWidgetContainer, androidx.constraintlayout.solver.LinearSystem, int, int, androidx.constraintlayout.solver.widgets.ChainHead):boolean"); } static void a(ConstraintWidget constraintWidget, int i, int i2) { int i3 = i * 2; int i4 = i3 + 1; constraintWidget.A[i3].d().f = constraintWidget.k().s.d(); constraintWidget.A[i3].d().g = i2; constraintWidget.A[i3].d().b = 1; constraintWidget.A[i4].d().f = constraintWidget.A[i3].d(); constraintWidget.A[i4].d().g = constraintWidget.d(i); constraintWidget.A[i4].d().b = 1; } }