package c.o.a.n;

import android.annotation.TargetApi;
import android.graphics.PointF;
import android.graphics.SurfaceTexture;
import android.hardware.Camera;
import android.location.Location;
import android.view.SurfaceHolder;
import androidx.annotation.NonNull;
import androidx.annotation.Nullable;
import androidx.annotation.VisibleForTesting;
import c.o.a.l;
import c.o.a.m.j;
import c.o.a.m.m;
import c.o.a.n.i;
import c.o.a.p.a;
import com.google.android.gms.tasks.Task;
import com.otaliastudios.cameraview.CameraException;
import com.otaliastudios.cameraview.CameraView;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import java.util.Objects;
/* compiled from: Camera1Engine */
public class b extends g implements Camera.PreviewCallback, Camera.ErrorCallback, a.AbstractC0165a {

    /* renamed from: c0  reason: collision with root package name */
    public final c.o.a.n.q.a f1474c0 = c.o.a.n.q.a.a();

    /* renamed from: d0  reason: collision with root package name */
    public Camera f1475d0;
    @VisibleForTesting

    /* renamed from: e0  reason: collision with root package name */
    public int f1476e0;

    /* compiled from: Camera1Engine */
    public class a implements Runnable {
        public final /* synthetic */ c.o.a.t.b i;
        public final /* synthetic */ c.o.a.q.a j;
        public final /* synthetic */ PointF k;

        /* compiled from: Camera1Engine */
        /* renamed from: c.o.a.n.b$a$a  reason: collision with other inner class name */
        public class RunnableC0157a implements Runnable {
            public RunnableC0157a() {
            }

            @Override // java.lang.Runnable
            public void run() {
                a aVar = a.this;
                ((CameraView.b) b.this.l).d(aVar.j, false, aVar.k);
            }
        }

        /* compiled from: Camera1Engine */
        /* renamed from: c.o.a.n.b$a$b  reason: collision with other inner class name */
        public class C0158b implements Camera.AutoFocusCallback {

            /* compiled from: Camera1Engine */
            /* renamed from: c.o.a.n.b$a$b$a  reason: collision with other inner class name */
            public class RunnableC0159a implements Runnable {
                public RunnableC0159a() {
                }

                @Override // java.lang.Runnable
                public void run() {
                    b.this.f1475d0.cancelAutoFocus();
                    Camera.Parameters parameters = b.this.f1475d0.getParameters();
                    int maxNumFocusAreas = parameters.getMaxNumFocusAreas();
                    int maxNumMeteringAreas = parameters.getMaxNumMeteringAreas();
                    if (maxNumFocusAreas > 0) {
                        parameters.setFocusAreas(null);
                    }
                    if (maxNumMeteringAreas > 0) {
                        parameters.setMeteringAreas(null);
                    }
                    b.this.c1(parameters);
                    b.this.f1475d0.setParameters(parameters);
                }
            }

            public C0158b() {
            }

            @Override // android.hardware.Camera.AutoFocusCallback
            public void onAutoFocus(boolean z2, Camera camera) {
                b.this.m.e("focus end", 0);
                b.this.m.e("focus reset", 0);
                a aVar = a.this;
                ((CameraView.b) b.this.l).d(aVar.j, z2, aVar.k);
                if (b.this.a1()) {
                    b bVar = b.this;
                    c.o.a.n.v.f fVar = bVar.m;
                    fVar.c("focus reset", true, bVar.V, new c.o.a.n.v.i(fVar, c.o.a.n.v.e.ENGINE, new RunnableC0159a()));
                }
            }
        }

        public a(c.o.a.t.b bVar, c.o.a.q.a aVar, PointF pointF) {
            this.i = bVar;
            this.j = aVar;
            this.k = pointF;
        }

        @Override // java.lang.Runnable
        public void run() {
            if (b.this.o.o) {
                b bVar = b.this;
                c.o.a.n.s.a aVar = new c.o.a.n.s.a(bVar.K, bVar.n.l());
                c.o.a.t.b c2 = this.i.c(aVar);
                Camera.Parameters parameters = b.this.f1475d0.getParameters();
                int maxNumFocusAreas = parameters.getMaxNumFocusAreas();
                int maxNumMeteringAreas = parameters.getMaxNumMeteringAreas();
                if (maxNumFocusAreas > 0) {
                    parameters.setFocusAreas(c2.b(maxNumFocusAreas, aVar));
                }
                if (maxNumMeteringAreas > 0) {
                    parameters.setMeteringAreas(c2.b(maxNumMeteringAreas, aVar));
                }
                parameters.setFocusMode("auto");
                b.this.f1475d0.setParameters(parameters);
                ((CameraView.b) b.this.l).e(this.j, this.k);
                b.this.m.e("focus end", 0);
                b.this.m.c("focus end", true, 2500, new RunnableC0157a());
                try {
                    b.this.f1475d0.autoFocus(new C0158b());
                } catch (RuntimeException e) {
                    i.i.a(3, "startAutoFocus:", "Error calling autoFocus", e);
                }
            }
        }
    }

    /* compiled from: Camera1Engine */
    /* renamed from: c.o.a.n.b$b  reason: collision with other inner class name */
    public class RunnableC0160b implements Runnable {
        public final /* synthetic */ c.o.a.m.f i;

        public RunnableC0160b(c.o.a.m.f fVar) {
            this.i = fVar;
        }

        @Override // java.lang.Runnable
        public void run() {
            Camera.Parameters parameters = b.this.f1475d0.getParameters();
            if (b.this.e1(parameters, this.i)) {
                b.this.f1475d0.setParameters(parameters);
            }
        }
    }

    /* compiled from: Camera1Engine */
    public class c implements Runnable {
        public final /* synthetic */ Location i;

        public c(Location location) {
            this.i = location;
        }

        @Override // java.lang.Runnable
        public void run() {
            Camera.Parameters parameters = b.this.f1475d0.getParameters();
            b.this.g1(parameters);
            b.this.f1475d0.setParameters(parameters);
        }
    }

    /* compiled from: Camera1Engine */
    public class d implements Runnable {
        public final /* synthetic */ m i;

        public d(m mVar) {
            this.i = mVar;
        }

        @Override // java.lang.Runnable
        public void run() {
            Camera.Parameters parameters = b.this.f1475d0.getParameters();
            if (b.this.j1(parameters, this.i)) {
                b.this.f1475d0.setParameters(parameters);
            }
        }
    }

    /* compiled from: Camera1Engine */
    public class e implements Runnable {
        public final /* synthetic */ c.o.a.m.h i;

        public e(c.o.a.m.h hVar) {
            this.i = hVar;
        }

        @Override // java.lang.Runnable
        public void run() {
            Camera.Parameters parameters = b.this.f1475d0.getParameters();
            if (b.this.f1(parameters, this.i)) {
                b.this.f1475d0.setParameters(parameters);
            }
        }
    }

    /* compiled from: Camera1Engine */
    public class f implements Runnable {
        public final /* synthetic */ float i;
        public final /* synthetic */ boolean j;
        public final /* synthetic */ PointF[] k;

        public f(float f, boolean z2, PointF[] pointFArr) {
            this.i = f;
            this.j = z2;
            this.k = pointFArr;
        }

        @Override // java.lang.Runnable
        public void run() {
            Camera.Parameters parameters = b.this.f1475d0.getParameters();
            if (b.this.k1(parameters, this.i)) {
                b.this.f1475d0.setParameters(parameters);
                if (this.j) {
                    b bVar = b.this;
                    ((CameraView.b) bVar.l).f(bVar.C, this.k);
                }
            }
        }
    }

    /* compiled from: Camera1Engine */
    public class g implements Runnable {
        public final /* synthetic */ float i;
        public final /* synthetic */ boolean j;
        public final /* synthetic */ float[] k;
        public final /* synthetic */ PointF[] l;

        public g(float f, boolean z2, float[] fArr, PointF[] pointFArr) {
            this.i = f;
            this.j = z2;
            this.k = fArr;
            this.l = pointFArr;
        }

        @Override // java.lang.Runnable
        public void run() {
            Camera.Parameters parameters = b.this.f1475d0.getParameters();
            if (b.this.d1(parameters, this.i)) {
                b.this.f1475d0.setParameters(parameters);
                if (this.j) {
                    b bVar = b.this;
                    ((CameraView.b) bVar.l).c(bVar.D, this.k, this.l);
                }
            }
        }
    }

    /* compiled from: Camera1Engine */
    public class h implements Runnable {
        public final /* synthetic */ boolean i;

        public h(boolean z2) {
            this.i = z2;
        }

        @Override // java.lang.Runnable
        public void run() {
            b.this.h1(this.i);
        }
    }

    /* compiled from: Camera1Engine */
    public class i implements Runnable {
        public final /* synthetic */ float i;

        public i(float f) {
            this.i = f;
        }

        @Override // java.lang.Runnable
        public void run() {
            Camera.Parameters parameters = b.this.f1475d0.getParameters();
            if (b.this.i1(parameters, this.i)) {
                b.this.f1475d0.setParameters(parameters);
            }
        }
    }

    public b(@NonNull i.g gVar) {
        super(gVar);
    }

    @Override // c.o.a.n.i
    public void F0(@NonNull m mVar) {
        m mVar2 = this.w;
        this.w = mVar;
        c.o.a.n.v.f fVar = this.m;
        fVar.b("white balance (" + mVar + ")", true, new c.o.a.n.v.h(fVar, c.o.a.n.v.e.ENGINE, new d(mVar2)));
    }

    @Override // c.o.a.n.i
    public void G0(float f2, @Nullable PointF[] pointFArr, boolean z2) {
        float f3 = this.C;
        this.C = f2;
        this.m.e("zoom", 20);
        c.o.a.n.v.f fVar = this.m;
        fVar.b("zoom", true, new c.o.a.n.v.h(fVar, c.o.a.n.v.e.ENGINE, new f(f3, z2, pointFArr)));
    }

    @Override // c.o.a.n.i
    public void I0(@Nullable c.o.a.q.a aVar, @NonNull c.o.a.t.b bVar, @NonNull PointF pointF) {
        c.o.a.n.v.f fVar = this.m;
        fVar.b("auto focus", true, new c.o.a.n.v.h(fVar, c.o.a.n.v.e.BIND, new a(bVar, aVar, pointF)));
    }

    @Override // c.o.a.n.i
    @NonNull
    public Task<Void> P() {
        c.o.a.b bVar = i.i;
        bVar.a(1, "onStartBind:", "Started");
        try {
            if (this.n.j() == SurfaceHolder.class) {
                this.f1475d0.setPreviewDisplay((SurfaceHolder) this.n.i());
            } else if (this.n.j() == SurfaceTexture.class) {
                this.f1475d0.setPreviewTexture((SurfaceTexture) this.n.i());
            } else {
                throw new RuntimeException("Unknown CameraPreview output class.");
            }
            this.q = Q0(this.P);
            this.r = R0();
            bVar.a(1, "onStartBind:", "Returning");
            return c.i.a.f.e.o.c.F(null);
        } catch (IOException e2) {
            i.i.a(3, "onStartBind:", "Failed to bind.", e2);
            throw new CameraException(e2, 2);
        }
    }

    @Override // c.o.a.n.i
    @NonNull
    public Task<c.o.a.c> Q() {
        try {
            Camera open = Camera.open(this.f1476e0);
            this.f1475d0 = open;
            if (open != null) {
                open.setErrorCallback(this);
                c.o.a.b bVar = i.i;
                bVar.a(1, "onStartEngine:", "Applying default parameters.");
                try {
                    Camera.Parameters parameters = this.f1475d0.getParameters();
                    int i2 = this.f1476e0;
                    c.o.a.n.t.a aVar = this.K;
                    c.o.a.n.t.b bVar2 = c.o.a.n.t.b.SENSOR;
                    c.o.a.n.t.b bVar3 = c.o.a.n.t.b.VIEW;
                    this.o = new c.o.a.n.u.a(parameters, i2, aVar.b(bVar2, bVar3));
                    b1(parameters);
                    this.f1475d0.setParameters(parameters);
                    try {
                        this.f1475d0.setDisplayOrientation(this.K.c(bVar2, bVar3, 1));
                        bVar.a(1, "onStartEngine:", "Ended");
                        return c.i.a.f.e.o.c.F(this.o);
                    } catch (Exception unused) {
                        i.i.a(3, "onStartEngine:", "Failed to connect. Can't set display orientation, maybe preview already exists?");
                        throw new CameraException(1);
                    }
                } catch (Exception e2) {
                    i.i.a(3, "onStartEngine:", "Failed to connect. Problem with camera params");
                    throw new CameraException(e2, 1);
                }
            } else {
                i.i.a(3, "onStartEngine:", "Failed to connect. Camera is null, maybe in use by another app or already released?");
                throw new CameraException(1);
            }
        } catch (Exception e3) {
            i.i.a(3, "onStartEngine:", "Failed to connect. Maybe in use by another app?");
            throw new CameraException(e3, 1);
        }
    }

    @Override // c.o.a.n.i
    @NonNull
    public Task<Void> R() {
        c.o.a.b bVar = i.i;
        bVar.a(1, "onStartPreview", "Dispatching onCameraPreviewStreamSizeChanged.");
        ((CameraView.b) this.l).h();
        c.o.a.x.b C = C(c.o.a.n.t.b.VIEW);
        if (C != null) {
            this.n.s(C.i, C.j);
            this.n.r(0);
            try {
                Camera.Parameters parameters = this.f1475d0.getParameters();
                parameters.setPreviewFormat(17);
                c.o.a.x.b bVar2 = this.r;
                parameters.setPreviewSize(bVar2.i, bVar2.j);
                c.o.a.m.i iVar = this.P;
                c.o.a.m.i iVar2 = c.o.a.m.i.PICTURE;
                if (iVar == iVar2) {
                    c.o.a.x.b bVar3 = this.q;
                    parameters.setPictureSize(bVar3.i, bVar3.j);
                } else {
                    c.o.a.x.b Q0 = Q0(iVar2);
                    parameters.setPictureSize(Q0.i, Q0.j);
                }
                try {
                    this.f1475d0.setParameters(parameters);
                    this.f1475d0.setPreviewCallbackWithBuffer(null);
                    this.f1475d0.setPreviewCallbackWithBuffer(this);
                    l1().e(17, this.r, this.K);
                    bVar.a(1, "onStartPreview", "Starting preview with startPreview().");
                    try {
                        this.f1475d0.startPreview();
                        bVar.a(1, "onStartPreview", "Started preview.");
                        return c.i.a.f.e.o.c.F(null);
                    } catch (Exception e2) {
                        i.i.a(3, "onStartPreview", "Failed to start preview.", e2);
                        throw new CameraException(e2, 2);
                    }
                } catch (Exception e3) {
                    i.i.a(3, "onStartPreview:", "Failed to set params for camera. Maybe incorrect parameter put in params?");
                    throw new CameraException(e3, 2);
                }
            } catch (Exception e4) {
                i.i.a(3, "onStartPreview:", "Failed to get params from camera. Maybe low level problem with camera or camera has already released?");
                throw new CameraException(e4, 2);
            }
        } else {
            throw new IllegalStateException("previewStreamSize should not be null at this point.");
        }
    }

    @Override // c.o.a.n.i
    @NonNull
    public Task<Void> S() {
        this.r = null;
        this.q = null;
        try {
            if (this.n.j() == SurfaceHolder.class) {
                this.f1475d0.setPreviewDisplay(null);
            } else if (this.n.j() == SurfaceTexture.class) {
                this.f1475d0.setPreviewTexture(null);
            } else {
                throw new RuntimeException("Unknown CameraPreview output class.");
            }
        } catch (IOException e2) {
            i.i.a(3, "onStopBind", "Could not release surface", e2);
        }
        return c.i.a.f.e.o.c.F(null);
    }

    @Override // c.o.a.n.i
    @NonNull
    public Task<Void> T() {
        c.o.a.b bVar = i.i;
        bVar.a(1, "onStopEngine:", "About to clean up.");
        this.m.e("focus reset", 0);
        this.m.e("focus end", 0);
        if (this.f1475d0 != null) {
            try {
                bVar.a(1, "onStopEngine:", "Clean up.", "Releasing camera.");
                this.f1475d0.release();
                bVar.a(1, "onStopEngine:", "Clean up.", "Released camera.");
            } catch (Exception e2) {
                i.i.a(2, "onStopEngine:", "Clean up.", "Exception while releasing camera.", e2);
            }
            this.f1475d0 = null;
            this.o = null;
        }
        this.o = null;
        this.f1475d0 = null;
        i.i.a(2, "onStopEngine:", "Clean up.", "Returning.");
        return c.i.a.f.e.o.c.F(null);
    }

    @Override // c.o.a.n.g
    @NonNull
    public List<c.o.a.x.b> T0() {
        try {
            List<Camera.Size> supportedPreviewSizes = this.f1475d0.getParameters().getSupportedPreviewSizes();
            ArrayList arrayList = new ArrayList(supportedPreviewSizes.size());
            for (Camera.Size size : supportedPreviewSizes) {
                c.o.a.x.b bVar = new c.o.a.x.b(size.width, size.height);
                if (!arrayList.contains(bVar)) {
                    arrayList.add(bVar);
                }
            }
            i.i.a(1, "getPreviewStreamAvailableSizes:", arrayList);
            return arrayList;
        } catch (Exception e2) {
            i.i.a(3, "getPreviewStreamAvailableSizes:", "Failed to compute preview size. Camera params is empty");
            throw new CameraException(e2, 2);
        }
    }

    @Override // c.o.a.n.i
    @NonNull
    public Task<Void> U() {
        c.o.a.b bVar = i.i;
        bVar.a(1, "onStopPreview:", "Started.");
        this.p = null;
        l1().d();
        bVar.a(1, "onStopPreview:", "Releasing preview buffers.");
        this.f1475d0.setPreviewCallbackWithBuffer(null);
        try {
            bVar.a(1, "onStopPreview:", "Stopping preview.");
            this.f1475d0.stopPreview();
            bVar.a(1, "onStopPreview:", "Stopped preview.");
        } catch (Exception e2) {
            i.i.a(3, "stopPreview", "Could not stop preview", e2);
        }
        return c.i.a.f.e.o.c.F(null);
    }

    @Override // c.o.a.n.g
    @NonNull
    public c.o.a.p.c V0(int i2) {
        return new c.o.a.p.a(i2, this);
    }

    @Override // c.o.a.n.g
    public void X0() {
        i.i.a(1, "RESTART PREVIEW:", "scheduled. State:", this.m.f);
        N0(false);
        K0();
    }

    @Override // c.o.a.n.g
    public void Y0(@NonNull l.a aVar, boolean z2) {
        c.o.a.b bVar = i.i;
        bVar.a(1, "onTakePicture:", "executing.");
        c.o.a.n.t.a aVar2 = this.K;
        c.o.a.n.t.b bVar2 = c.o.a.n.t.b.SENSOR;
        c.o.a.n.t.b bVar3 = c.o.a.n.t.b.OUTPUT;
        aVar.f1473c = aVar2.c(bVar2, bVar3, 2);
        aVar.d = w(bVar3);
        c.o.a.v.a aVar3 = new c.o.a.v.a(aVar, this, this.f1475d0);
        this.p = aVar3;
        aVar3.c();
        bVar.a(1, "onTakePicture:", "executed.");
    }

    @Override // c.o.a.n.g
    public void Z0(@NonNull l.a aVar, @NonNull c.o.a.x.a aVar2, boolean z2) {
        c.o.a.b bVar = i.i;
        bVar.a(1, "onTakePictureSnapshot:", "executing.");
        c.o.a.n.t.b bVar2 = c.o.a.n.t.b.OUTPUT;
        aVar.d = F(bVar2);
        if (this.n instanceof c.o.a.w.e) {
            aVar.f1473c = this.K.c(c.o.a.n.t.b.VIEW, bVar2, 1);
            this.p = new c.o.a.v.g(aVar, this, (c.o.a.w.e) this.n, aVar2, this.f1486b0);
        } else {
            aVar.f1473c = this.K.c(c.o.a.n.t.b.SENSOR, bVar2, 2);
            this.p = new c.o.a.v.e(aVar, this, this.f1475d0, aVar2);
        }
        this.p.c();
        bVar.a(1, "onTakePictureSnapshot:", "executed.");
    }

    public final void b1(@NonNull Camera.Parameters parameters) {
        parameters.setRecordingHint(this.P == c.o.a.m.i.VIDEO);
        c1(parameters);
        e1(parameters, c.o.a.m.f.OFF);
        g1(parameters);
        j1(parameters, m.AUTO);
        f1(parameters, c.o.a.m.h.OFF);
        k1(parameters, 0.0f);
        d1(parameters, 0.0f);
        h1(this.E);
        i1(parameters, 0.0f);
    }

    @Override // c.o.a.n.i
    public boolean c(@NonNull c.o.a.m.e eVar) {
        Objects.requireNonNull(this.f1474c0);
        int intValue = c.o.a.n.q.a.d.get(eVar).intValue();
        i.i.a(1, "collectCameraInfo", "Facing:", eVar, "Internal:", Integer.valueOf(intValue), "Cameras:", Integer.valueOf(Camera.getNumberOfCameras()));
        Camera.CameraInfo cameraInfo = new Camera.CameraInfo();
        int numberOfCameras = Camera.getNumberOfCameras();
        for (int i2 = 0; i2 < numberOfCameras; i2++) {
            Camera.getCameraInfo(i2, cameraInfo);
            if (cameraInfo.facing == intValue) {
                this.K.f(eVar, cameraInfo.orientation);
                this.f1476e0 = i2;
                return true;
            }
        }
        return false;
    }

    public final void c1(@NonNull Camera.Parameters parameters) {
        List<String> supportedFocusModes = parameters.getSupportedFocusModes();
        if (this.P == c.o.a.m.i.VIDEO && supportedFocusModes.contains("continuous-video")) {
            parameters.setFocusMode("continuous-video");
        } else if (supportedFocusModes.contains("continuous-picture")) {
            parameters.setFocusMode("continuous-picture");
        } else if (supportedFocusModes.contains("infinity")) {
            parameters.setFocusMode("infinity");
        } else if (supportedFocusModes.contains("fixed")) {
            parameters.setFocusMode("fixed");
        }
    }

    @Override // c.o.a.n.i
    public void d0(float f2, @NonNull float[] fArr, @Nullable PointF[] pointFArr, boolean z2) {
        float f3 = this.D;
        this.D = f2;
        this.m.e("exposure correction", 20);
        c.o.a.n.v.f fVar = this.m;
        fVar.b("exposure correction", true, new c.o.a.n.v.h(fVar, c.o.a.n.v.e.ENGINE, new g(f3, z2, fArr, pointFArr)));
    }

    public final boolean d1(@NonNull Camera.Parameters parameters, float f2) {
        c.o.a.c cVar = this.o;
        if (cVar.l) {
            float f3 = cVar.n;
            float f4 = cVar.m;
            float f5 = this.D;
            if (f5 < f4) {
                f3 = f4;
            } else if (f5 <= f3) {
                f3 = f5;
            }
            this.D = f3;
            parameters.setExposureCompensation((int) (f3 / parameters.getExposureCompensationStep()));
            return true;
        }
        this.D = f2;
        return false;
    }

    public final boolean e1(@NonNull Camera.Parameters parameters, @NonNull c.o.a.m.f fVar) {
        if (this.o.c(this.v)) {
            c.o.a.n.q.a aVar = this.f1474c0;
            c.o.a.m.f fVar2 = this.v;
            Objects.requireNonNull(aVar);
            parameters.setFlashMode(c.o.a.n.q.a.b.get(fVar2));
            return true;
        }
        this.v = fVar;
        return false;
    }

    @Override // c.o.a.n.i
    public void f0(@NonNull c.o.a.m.f fVar) {
        c.o.a.m.f fVar2 = this.v;
        this.v = fVar;
        c.o.a.n.v.f fVar3 = this.m;
        fVar3.b("flash (" + fVar + ")", true, new c.o.a.n.v.h(fVar3, c.o.a.n.v.e.ENGINE, new RunnableC0160b(fVar2)));
    }

    public final boolean f1(@NonNull Camera.Parameters parameters, @NonNull c.o.a.m.h hVar) {
        if (this.o.c(this.f1490z)) {
            c.o.a.n.q.a aVar = this.f1474c0;
            c.o.a.m.h hVar2 = this.f1490z;
            Objects.requireNonNull(aVar);
            parameters.setSceneMode(c.o.a.n.q.a.e.get(hVar2));
            return true;
        }
        this.f1490z = hVar;
        return false;
    }

    @Override // c.o.a.n.i
    public void g0(int i2) {
        this.t = 17;
    }

    public final boolean g1(@NonNull Camera.Parameters parameters) {
        Location location = this.B;
        if (location == null) {
            return true;
        }
        parameters.setGpsLatitude(location.getLatitude());
        parameters.setGpsLongitude(this.B.getLongitude());
        parameters.setGpsAltitude(this.B.getAltitude());
        parameters.setGpsTimestamp(this.B.getTime());
        parameters.setGpsProcessingMethod(this.B.getProvider());
        return true;
    }

    @TargetApi(17)
    public final boolean h1(boolean z2) {
        Camera.CameraInfo cameraInfo = new Camera.CameraInfo();
        Camera.getCameraInfo(this.f1476e0, cameraInfo);
        if (cameraInfo.canDisableShutterSound) {
            try {
                return this.f1475d0.enableShutterSound(this.E);
            } catch (RuntimeException unused) {
                return false;
            }
        } else if (this.E) {
            return true;
        } else {
            this.E = z2;
            return false;
        }
    }

    public final boolean i1(@NonNull Camera.Parameters parameters, float f2) {
        List<int[]> supportedPreviewFpsRange = parameters.getSupportedPreviewFpsRange();
        if (!this.I || this.H == 0.0f) {
            Collections.sort(supportedPreviewFpsRange, new a(this));
        } else {
            Collections.sort(supportedPreviewFpsRange, new c(this));
        }
        float f3 = this.H;
        if (f3 == 0.0f) {
            for (int[] iArr : supportedPreviewFpsRange) {
                float f4 = ((float) iArr[0]) / 1000.0f;
                float f5 = ((float) iArr[1]) / 1000.0f;
                if ((f4 <= 30.0f && 30.0f <= f5) || (f4 <= 24.0f && 24.0f <= f5)) {
                    parameters.setPreviewFpsRange(iArr[0], iArr[1]);
                    return true;
                }
            }
        } else {
            float min = Math.min(f3, this.o.q);
            this.H = min;
            this.H = Math.max(min, this.o.p);
            for (int[] iArr2 : supportedPreviewFpsRange) {
                float f6 = ((float) iArr2[1]) / 1000.0f;
                float round = (float) Math.round(this.H);
                if (((float) iArr2[0]) / 1000.0f <= round && round <= f6) {
                    parameters.setPreviewFpsRange(iArr2[0], iArr2[1]);
                    return true;
                }
            }
        }
        this.H = f2;
        return false;
    }

    public final boolean j1(@NonNull Camera.Parameters parameters, @NonNull m mVar) {
        if (this.o.c(this.w)) {
            c.o.a.n.q.a aVar = this.f1474c0;
            m mVar2 = this.w;
            Objects.requireNonNull(aVar);
            parameters.setWhiteBalance(c.o.a.n.q.a.f1492c.get(mVar2));
            parameters.remove("auto-whitebalance-lock");
            return true;
        }
        this.w = mVar;
        return false;
    }

    @Override // c.o.a.n.i
    public void k0(boolean z2) {
        this.u = z2;
    }

    public final boolean k1(@NonNull Camera.Parameters parameters, float f2) {
        if (this.o.k) {
            parameters.setZoom((int) (this.C * ((float) parameters.getMaxZoom())));
            this.f1475d0.setParameters(parameters);
            return true;
        }
        this.C = f2;
        return false;
    }

    @Override // c.o.a.n.i
    public void l0(@NonNull c.o.a.m.h hVar) {
        c.o.a.m.h hVar2 = this.f1490z;
        this.f1490z = hVar;
        c.o.a.n.v.f fVar = this.m;
        fVar.b("hdr (" + hVar + ")", true, new c.o.a.n.v.h(fVar, c.o.a.n.v.e.ENGINE, new e(hVar2)));
    }

    @NonNull
    public c.o.a.p.a l1() {
        return (c.o.a.p.a) S0();
    }

    @Override // c.o.a.n.i
    public void m0(@Nullable Location location) {
        Location location2 = this.B;
        this.B = location;
        c.o.a.n.v.f fVar = this.m;
        fVar.b("location", true, new c.o.a.n.v.h(fVar, c.o.a.n.v.e.ENGINE, new c(location2)));
    }

    public void m1(@NonNull byte[] bArr) {
        c.o.a.n.v.e eVar = this.m.f;
        c.o.a.n.v.e eVar2 = c.o.a.n.v.e.ENGINE;
        if (eVar.f(eVar2) && this.m.g.f(eVar2)) {
            this.f1475d0.addCallbackBuffer(bArr);
        }
    }

    @Override // android.hardware.Camera.ErrorCallback
    public void onError(int i2, Camera camera) {
        int i3 = 0;
        RuntimeException runtimeException = new RuntimeException(i.i.a(3, "Internal Camera1 error.", Integer.valueOf(i2)));
        if (i2 == 1 || i2 == 2 || i2 == 100) {
            i3 = 3;
        }
        throw new CameraException(runtimeException, i3);
    }

    @Override // android.hardware.Camera.PreviewCallback
    public void onPreviewFrame(byte[] bArr, Camera camera) {
        c.o.a.p.b a2;
        if (bArr != null && (a2 = l1().a(bArr, System.currentTimeMillis())) != null) {
            ((CameraView.b) this.l).b(a2);
        }
    }

    @Override // c.o.a.n.i
    public void p0(@NonNull j jVar) {
        if (jVar == j.JPEG) {
            this.A = jVar;
            return;
        }
        throw new UnsupportedOperationException("Unsupported picture format: " + jVar);
    }

    @Override // c.o.a.n.i
    public void t0(boolean z2) {
        boolean z3 = this.E;
        this.E = z2;
        c.o.a.n.v.f fVar = this.m;
        fVar.b("play sounds (" + z2 + ")", true, new c.o.a.n.v.h(fVar, c.o.a.n.v.e.ENGINE, new h(z3)));
    }

    @Override // c.o.a.n.i
    public void v0(float f2) {
        this.H = f2;
        c.o.a.n.v.f fVar = this.m;
        fVar.b("preview fps (" + f2 + ")", true, new c.o.a.n.v.h(fVar, c.o.a.n.v.e.ENGINE, new i(f2)));
    }
}