万佳优选 v1.5.0版本的 MD5 值为:1486fa9ba5f8e4dc0f4f5a573711b5ac
以下内容为反编译后的 ExifInterface.java 源代码,内容仅作参考
package io.dcloud.common.util;
import android.content.res.AssetManager;
import android.graphics.Bitmap;
import android.graphics.BitmapFactory;
import android.location.Location;
import android.media.MediaDataSource;
import android.media.MediaMetadataRetriever;
import android.os.Build;
import android.system.Os;
import android.system.OsConstants;
import android.util.Log;
import android.util.Pair;
import com.facebook.imageutils.TiffUtil;
import com.taobao.weex.common.Constants;
import com.taobao.weex.el.parse.Operators;
import com.taobao.weex.performance.WXInstanceApm;
import java.io.BufferedInputStream;
import java.io.BufferedOutputStream;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.Closeable;
import java.io.DataInput;
import java.io.DataInputStream;
import java.io.EOFException;
import java.io.File;
import java.io.FileDescriptor;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.FileOutputStream;
import java.io.FilterOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.lang.annotation.Retention;
import java.lang.annotation.RetentionPolicy;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
import java.nio.charset.Charset;
import java.text.ParsePosition;
import java.text.SimpleDateFormat;
import java.util.Arrays;
import java.util.Date;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
import java.util.TimeZone;
import java.util.concurrent.TimeUnit;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
import java.util.zip.CRC32;
import net.lingala.zip4j.util.InternalZipConstants;
public class ExifInterface {
public static final short ALTITUDE_ABOVE_SEA_LEVEL = 0;
public static final short ALTITUDE_BELOW_SEA_LEVEL = 1;
static final Charset ASCII;
static final short BYTE_ALIGN_II = 18761;
static final short BYTE_ALIGN_MM = 19789;
public static final int COLOR_SPACE_S_RGB = 1;
public static final int COLOR_SPACE_UNCALIBRATED = 65535;
public static final short CONTRAST_HARD = 2;
public static final short CONTRAST_NORMAL = 0;
public static final short CONTRAST_SOFT = 1;
public static final int DATA_DEFLATE_ZIP = 8;
public static final int DATA_HUFFMAN_COMPRESSED = 2;
public static final int DATA_JPEG = 6;
public static final int DATA_JPEG_COMPRESSED = 7;
public static final int DATA_LOSSY_JPEG = 34892;
public static final int DATA_PACK_BITS_COMPRESSED = 32773;
public static final int DATA_UNCOMPRESSED = 1;
private static final Pattern DATETIME_PRIMARY_FORMAT_PATTERN;
private static final Pattern DATETIME_SECONDARY_FORMAT_PATTERN;
private static final int DATETIME_VALUE_STRING_LENGTH = 19;
private static final ExifTag[] EXIF_POINTER_TAGS;
static final ExifTag[][] EXIF_TAGS;
public static final short EXPOSURE_MODE_AUTO = 0;
public static final short EXPOSURE_MODE_AUTO_BRACKET = 2;
public static final short EXPOSURE_MODE_MANUAL = 1;
public static final short EXPOSURE_PROGRAM_ACTION = 6;
public static final short EXPOSURE_PROGRAM_APERTURE_PRIORITY = 3;
public static final short EXPOSURE_PROGRAM_CREATIVE = 5;
public static final short EXPOSURE_PROGRAM_LANDSCAPE_MODE = 8;
public static final short EXPOSURE_PROGRAM_MANUAL = 1;
public static final short EXPOSURE_PROGRAM_NORMAL = 2;
public static final short EXPOSURE_PROGRAM_NOT_DEFINED = 0;
public static final short EXPOSURE_PROGRAM_PORTRAIT_MODE = 7;
public static final short EXPOSURE_PROGRAM_SHUTTER_PRIORITY = 4;
public static final short FILE_SOURCE_DSC = 3;
public static final short FILE_SOURCE_OTHER = 0;
public static final short FILE_SOURCE_REFLEX_SCANNER = 2;
public static final short FILE_SOURCE_TRANSPARENT_SCANNER = 1;
public static final short FLAG_FLASH_FIRED = 1;
public static final short FLAG_FLASH_MODE_AUTO = 24;
public static final short FLAG_FLASH_MODE_COMPULSORY_FIRING = 8;
public static final short FLAG_FLASH_MODE_COMPULSORY_SUPPRESSION = 16;
public static final short FLAG_FLASH_NO_FLASH_FUNCTION = 32;
public static final short FLAG_FLASH_RED_EYE_SUPPORTED = 64;
public static final short FLAG_FLASH_RETURN_LIGHT_DETECTED = 6;
public static final short FLAG_FLASH_RETURN_LIGHT_NOT_DETECTED = 4;
public static final short FORMAT_CHUNKY = 1;
public static final short FORMAT_PLANAR = 2;
public static final short GAIN_CONTROL_HIGH_GAIN_DOWN = 4;
public static final short GAIN_CONTROL_HIGH_GAIN_UP = 2;
public static final short GAIN_CONTROL_LOW_GAIN_DOWN = 3;
public static final short GAIN_CONTROL_LOW_GAIN_UP = 1;
public static final short GAIN_CONTROL_NONE = 0;
public static final String GPS_DIRECTION_MAGNETIC = "M";
public static final String GPS_DIRECTION_TRUE = "T";
public static final String GPS_DISTANCE_KILOMETERS = "K";
public static final String GPS_DISTANCE_MILES = "M";
public static final String GPS_DISTANCE_NAUTICAL_MILES = "N";
public static final String GPS_MEASUREMENT_2D = "2";
public static final String GPS_MEASUREMENT_3D = "3";
public static final short GPS_MEASUREMENT_DIFFERENTIAL_CORRECTED = 1;
public static final String GPS_MEASUREMENT_INTERRUPTED = "V";
public static final String GPS_MEASUREMENT_IN_PROGRESS = "A";
public static final short GPS_MEASUREMENT_NO_DIFFERENTIAL = 0;
public static final String GPS_SPEED_KILOMETERS_PER_HOUR = "K";
public static final String GPS_SPEED_KNOTS = "N";
public static final String GPS_SPEED_MILES_PER_HOUR = "M";
private static final Pattern GPS_TIMESTAMP_PATTERN;
static final byte[] IDENTIFIER_EXIF_APP1;
private static final byte[] IDENTIFIER_XMP_APP1;
private static final ExifTag[] IFD_EXIF_TAGS;
private static final int IFD_FORMAT_BYTE = 1;
private static final int IFD_FORMAT_DOUBLE = 12;
private static final int IFD_FORMAT_IFD = 13;
private static final int IFD_FORMAT_SBYTE = 6;
private static final int IFD_FORMAT_SINGLE = 11;
private static final int IFD_FORMAT_SLONG = 9;
private static final int IFD_FORMAT_SRATIONAL = 10;
private static final int IFD_FORMAT_SSHORT = 8;
private static final int IFD_FORMAT_STRING = 2;
private static final int IFD_FORMAT_ULONG = 4;
private static final int IFD_FORMAT_UNDEFINED = 7;
private static final int IFD_FORMAT_URATIONAL = 5;
private static final int IFD_FORMAT_USHORT = 3;
private static final ExifTag[] IFD_GPS_TAGS;
private static final ExifTag[] IFD_INTEROPERABILITY_TAGS;
private static final int IFD_OFFSET = 8;
private static final ExifTag[] IFD_THUMBNAIL_TAGS;
private static final ExifTag[] IFD_TIFF_TAGS;
private static final int IFD_TYPE_EXIF = 1;
private static final int IFD_TYPE_GPS = 2;
private static final int IFD_TYPE_INTEROPERABILITY = 3;
private static final int IFD_TYPE_ORF_CAMERA_SETTINGS = 7;
private static final int IFD_TYPE_ORF_IMAGE_PROCESSING = 8;
private static final int IFD_TYPE_ORF_MAKER_NOTE = 6;
private static final int IFD_TYPE_PEF = 9;
static final int IFD_TYPE_PREVIEW = 5;
static final int IFD_TYPE_PRIMARY = 0;
static final int IFD_TYPE_THUMBNAIL = 4;
private static final int IMAGE_TYPE_ARW = 1;
private static final int IMAGE_TYPE_CR2 = 2;
private static final int IMAGE_TYPE_DNG = 3;
private static final int IMAGE_TYPE_HEIF = 12;
private static final int IMAGE_TYPE_JPEG = 4;
private static final int IMAGE_TYPE_NEF = 5;
private static final int IMAGE_TYPE_NRW = 6;
private static final int IMAGE_TYPE_ORF = 7;
private static final int IMAGE_TYPE_PEF = 8;
private static final int IMAGE_TYPE_PNG = 13;
private static final int IMAGE_TYPE_RAF = 9;
private static final int IMAGE_TYPE_RW2 = 10;
private static final int IMAGE_TYPE_SRW = 11;
private static final int IMAGE_TYPE_UNKNOWN = 0;
private static final int IMAGE_TYPE_WEBP = 14;
private static final ExifTag JPEG_INTERCHANGE_FORMAT_LENGTH_TAG;
private static final ExifTag JPEG_INTERCHANGE_FORMAT_TAG;
public static final String LATITUDE_NORTH = "N";
public static final String LATITUDE_SOUTH = "S";
public static final short LIGHT_SOURCE_CLOUDY_WEATHER = 10;
public static final short LIGHT_SOURCE_COOL_WHITE_FLUORESCENT = 14;
public static final short LIGHT_SOURCE_D50 = 23;
public static final short LIGHT_SOURCE_D55 = 20;
public static final short LIGHT_SOURCE_D65 = 21;
public static final short LIGHT_SOURCE_D75 = 22;
public static final short LIGHT_SOURCE_DAYLIGHT = 1;
public static final short LIGHT_SOURCE_DAYLIGHT_FLUORESCENT = 12;
public static final short LIGHT_SOURCE_DAY_WHITE_FLUORESCENT = 13;
public static final short LIGHT_SOURCE_FINE_WEATHER = 9;
public static final short LIGHT_SOURCE_FLASH = 4;
public static final short LIGHT_SOURCE_FLUORESCENT = 2;
public static final short LIGHT_SOURCE_ISO_STUDIO_TUNGSTEN = 24;
public static final short LIGHT_SOURCE_OTHER = 255;
public static final short LIGHT_SOURCE_SHADE = 11;
public static final short LIGHT_SOURCE_STANDARD_LIGHT_A = 17;
public static final short LIGHT_SOURCE_STANDARD_LIGHT_B = 18;
public static final short LIGHT_SOURCE_STANDARD_LIGHT_C = 19;
public static final short LIGHT_SOURCE_TUNGSTEN = 3;
public static final short LIGHT_SOURCE_UNKNOWN = 0;
public static final short LIGHT_SOURCE_WARM_WHITE_FLUORESCENT = 16;
public static final short LIGHT_SOURCE_WHITE_FLUORESCENT = 15;
public static final String LONGITUDE_EAST = "E";
public static final String LONGITUDE_WEST = "W";
static final byte MARKER = -1;
static final byte MARKER_APP1 = -31;
private static final byte MARKER_COM = -2;
static final byte MARKER_EOI = -39;
private static final byte MARKER_SOF0 = -64;
private static final byte MARKER_SOF1 = -63;
private static final byte MARKER_SOF10 = -54;
private static final byte MARKER_SOF11 = -53;
private static final byte MARKER_SOF13 = -51;
private static final byte MARKER_SOF14 = -50;
private static final byte MARKER_SOF15 = -49;
private static final byte MARKER_SOF2 = -62;
private static final byte MARKER_SOF3 = -61;
private static final byte MARKER_SOF5 = -59;
private static final byte MARKER_SOF6 = -58;
private static final byte MARKER_SOF7 = -57;
private static final byte MARKER_SOF9 = -55;
private static final byte MARKER_SOS = -38;
private static final int MAX_THUMBNAIL_SIZE = 512;
public static final short METERING_MODE_AVERAGE = 1;
public static final short METERING_MODE_CENTER_WEIGHT_AVERAGE = 2;
public static final short METERING_MODE_MULTI_SPOT = 4;
public static final short METERING_MODE_OTHER = 255;
public static final short METERING_MODE_PARTIAL = 6;
public static final short METERING_MODE_PATTERN = 5;
public static final short METERING_MODE_SPOT = 3;
public static final short METERING_MODE_UNKNOWN = 0;
private static final Pattern NON_ZERO_TIME_PATTERN;
private static final ExifTag[] ORF_CAMERA_SETTINGS_TAGS;
private static final ExifTag[] ORF_IMAGE_PROCESSING_TAGS;
private static final int ORF_MAKER_NOTE_HEADER_1_SIZE = 8;
private static final int ORF_MAKER_NOTE_HEADER_2_SIZE = 12;
private static final ExifTag[] ORF_MAKER_NOTE_TAGS;
private static final short ORF_SIGNATURE_1 = 20306;
private static final short ORF_SIGNATURE_2 = 21330;
public static final int ORIENTATION_FLIP_HORIZONTAL = 2;
public static final int ORIENTATION_FLIP_VERTICAL = 4;
public static final int ORIENTATION_NORMAL = 1;
public static final int ORIENTATION_ROTATE_180 = 3;
public static final int ORIENTATION_ROTATE_270 = 8;
public static final int ORIENTATION_ROTATE_90 = 6;
public static final int ORIENTATION_TRANSPOSE = 5;
public static final int ORIENTATION_TRANSVERSE = 7;
public static final int ORIENTATION_UNDEFINED = 0;
public static final int ORIGINAL_RESOLUTION_IMAGE = 0;
private static final int PEF_MAKER_NOTE_SKIP_SIZE = 6;
private static final String PEF_SIGNATURE = "PENTAX";
private static final ExifTag[] PEF_TAGS;
public static final int PHOTOMETRIC_INTERPRETATION_BLACK_IS_ZERO = 1;
public static final int PHOTOMETRIC_INTERPRETATION_RGB = 2;
public static final int PHOTOMETRIC_INTERPRETATION_WHITE_IS_ZERO = 0;
public static final int PHOTOMETRIC_INTERPRETATION_YCBCR = 6;
private static final int PNG_CHUNK_CRC_BYTE_LENGTH = 4;
private static final int PNG_CHUNK_TYPE_BYTE_LENGTH = 4;
private static final int RAF_OFFSET_TO_JPEG_IMAGE_OFFSET = 84;
private static final String RAF_SIGNATURE = "FUJIFILMCCD-RAW";
public static final int REDUCED_RESOLUTION_IMAGE = 1;
public static final short RENDERED_PROCESS_CUSTOM = 1;
public static final short RENDERED_PROCESS_NORMAL = 0;
public static final short RESOLUTION_UNIT_CENTIMETERS = 3;
public static final short RESOLUTION_UNIT_INCHES = 2;
private static final short RW2_SIGNATURE = 85;
public static final short SATURATION_HIGH = 0;
public static final short SATURATION_LOW = 0;
public static final short SATURATION_NORMAL = 0;
public static final short SCENE_CAPTURE_TYPE_LANDSCAPE = 1;
public static final short SCENE_CAPTURE_TYPE_NIGHT = 3;
public static final short SCENE_CAPTURE_TYPE_PORTRAIT = 2;
public static final short SCENE_CAPTURE_TYPE_STANDARD = 0;
public static final short SCENE_TYPE_DIRECTLY_PHOTOGRAPHED = 1;
public static final short SENSITIVITY_TYPE_ISO_SPEED = 3;
public static final short SENSITIVITY_TYPE_REI = 2;
public static final short SENSITIVITY_TYPE_REI_AND_ISO = 6;
public static final short SENSITIVITY_TYPE_SOS = 1;
public static final short SENSITIVITY_TYPE_SOS_AND_ISO = 5;
public static final short SENSITIVITY_TYPE_SOS_AND_REI = 4;
public static final short SENSITIVITY_TYPE_SOS_AND_REI_AND_ISO = 7;
public static final short SENSITIVITY_TYPE_UNKNOWN = 0;
public static final short SENSOR_TYPE_COLOR_SEQUENTIAL = 5;
public static final short SENSOR_TYPE_COLOR_SEQUENTIAL_LINEAR = 8;
public static final short SENSOR_TYPE_NOT_DEFINED = 1;
public static final short SENSOR_TYPE_ONE_CHIP = 2;
public static final short SENSOR_TYPE_THREE_CHIP = 4;
public static final short SENSOR_TYPE_TRILINEAR = 7;
public static final short SENSOR_TYPE_TWO_CHIP = 3;
public static final short SHARPNESS_HARD = 2;
public static final short SHARPNESS_NORMAL = 0;
public static final short SHARPNESS_SOFT = 1;
private static final int SIGNATURE_CHECK_SIZE = 5000;
public static final int STREAM_TYPE_EXIF_DATA_ONLY = 1;
public static final int STREAM_TYPE_FULL_IMAGE_DATA = 0;
public static final short SUBJECT_DISTANCE_RANGE_CLOSE_VIEW = 2;
public static final short SUBJECT_DISTANCE_RANGE_DISTANT_VIEW = 3;
public static final short SUBJECT_DISTANCE_RANGE_MACRO = 1;
public static final short SUBJECT_DISTANCE_RANGE_UNKNOWN = 0;
public static final String TAG_APERTURE_VALUE = "ApertureValue";
public static final String TAG_ARTIST = "Artist";
public static final String TAG_BITS_PER_SAMPLE = "BitsPerSample";
public static final String TAG_BODY_SERIAL_NUMBER = "BodySerialNumber";
public static final String TAG_BRIGHTNESS_VALUE = "BrightnessValue";
@Deprecated
public static final String TAG_CAMARA_OWNER_NAME = "CameraOwnerName";
public static final String TAG_CAMERA_OWNER_NAME = "CameraOwnerName";
public static final String TAG_CFA_PATTERN = "CFAPattern";
public static final String TAG_COLOR_SPACE = "ColorSpace";
public static final String TAG_COMPONENTS_CONFIGURATION = "ComponentsConfiguration";
public static final String TAG_COMPRESSED_BITS_PER_PIXEL = "CompressedBitsPerPixel";
public static final String TAG_COMPRESSION = "Compression";
public static final String TAG_CONTRAST = "Contrast";
public static final String TAG_COPYRIGHT = "Copyright";
public static final String TAG_CUSTOM_RENDERED = "CustomRendered";
public static final String TAG_DATETIME = "DateTime";
public static final String TAG_DATETIME_DIGITIZED = "DateTimeDigitized";
public static final String TAG_DATETIME_ORIGINAL = "DateTimeOriginal";
public static final String TAG_DEFAULT_CROP_SIZE = "DefaultCropSize";
public static final String TAG_DEVICE_SETTING_DESCRIPTION = "DeviceSettingDescription";
public static final String TAG_DIGITAL_ZOOM_RATIO = "DigitalZoomRatio";
public static final String TAG_DNG_VERSION = "DNGVersion";
private static final String TAG_EXIF_IFD_POINTER = "ExifIFDPointer";
public static final String TAG_EXIF_VERSION = "ExifVersion";
public static final String TAG_EXPOSURE_BIAS_VALUE = "ExposureBiasValue";
public static final String TAG_EXPOSURE_INDEX = "ExposureIndex";
public static final String TAG_EXPOSURE_MODE = "ExposureMode";
public static final String TAG_EXPOSURE_PROGRAM = "ExposureProgram";
public static final String TAG_EXPOSURE_TIME = "ExposureTime";
public static final String TAG_FILE_SOURCE = "FileSource";
public static final String TAG_FLASH = "Flash";
public static final String TAG_FLASHPIX_VERSION = "FlashpixVersion";
public static final String TAG_FLASH_ENERGY = "FlashEnergy";
public static final String TAG_FOCAL_LENGTH = "FocalLength";
public static final String TAG_FOCAL_LENGTH_IN_35MM_FILM = "FocalLengthIn35mmFilm";
public static final String TAG_FOCAL_PLANE_RESOLUTION_UNIT = "FocalPlaneResolutionUnit";
public static final String TAG_FOCAL_PLANE_X_RESOLUTION = "FocalPlaneXResolution";
public static final String TAG_FOCAL_PLANE_Y_RESOLUTION = "FocalPlaneYResolution";
public static final String TAG_F_NUMBER = "FNumber";
public static final String TAG_GAIN_CONTROL = "GainControl";
public static final String TAG_GAMMA = "Gamma";
public static final String TAG_GPS_ALTITUDE = "GPSAltitude";
public static final String TAG_GPS_ALTITUDE_REF = "GPSAltitudeRef";
public static final String TAG_GPS_AREA_INFORMATION = "GPSAreaInformation";
public static final String TAG_GPS_DATESTAMP = "GPSDateStamp";
public static final String TAG_GPS_DEST_BEARING = "GPSDestBearing";
public static final String TAG_GPS_DEST_BEARING_REF = "GPSDestBearingRef";
public static final String TAG_GPS_DEST_DISTANCE = "GPSDestDistance";
public static final String TAG_GPS_DEST_DISTANCE_REF = "GPSDestDistanceRef";
public static final String TAG_GPS_DEST_LATITUDE = "GPSDestLatitude";
public static final String TAG_GPS_DEST_LATITUDE_REF = "GPSDestLatitudeRef";
public static final String TAG_GPS_DEST_LONGITUDE = "GPSDestLongitude";
public static final String TAG_GPS_DEST_LONGITUDE_REF = "GPSDestLongitudeRef";
public static final String TAG_GPS_DIFFERENTIAL = "GPSDifferential";
public static final String TAG_GPS_DOP = "GPSDOP";
public static final String TAG_GPS_H_POSITIONING_ERROR = "GPSHPositioningError";
public static final String TAG_GPS_IMG_DIRECTION = "GPSImgDirection";
public static final String TAG_GPS_IMG_DIRECTION_REF = "GPSImgDirectionRef";
private static final String TAG_GPS_INFO_IFD_POINTER = "GPSInfoIFDPointer";
public static final String TAG_GPS_LATITUDE = "GPSLatitude";
public static final String TAG_GPS_LATITUDE_REF = "GPSLatitudeRef";
public static final String TAG_GPS_LONGITUDE = "GPSLongitude";
public static final String TAG_GPS_LONGITUDE_REF = "GPSLongitudeRef";
public static final String TAG_GPS_MAP_DATUM = "GPSMapDatum";
public static final String TAG_GPS_MEASURE_MODE = "GPSMeasureMode";
public static final String TAG_GPS_PROCESSING_METHOD = "GPSProcessingMethod";
public static final String TAG_GPS_SATELLITES = "GPSSatellites";
public static final String TAG_GPS_SPEED = "GPSSpeed";
public static final String TAG_GPS_SPEED_REF = "GPSSpeedRef";
public static final String TAG_GPS_STATUS = "GPSStatus";
public static final String TAG_GPS_TIMESTAMP = "GPSTimeStamp";
public static final String TAG_GPS_TRACK = "GPSTrack";
public static final String TAG_GPS_TRACK_REF = "GPSTrackRef";
public static final String TAG_GPS_VERSION_ID = "GPSVersionID";
public static final String TAG_IMAGE_DESCRIPTION = "ImageDescription";
public static final String TAG_IMAGE_LENGTH = "ImageLength";
public static final String TAG_IMAGE_UNIQUE_ID = "ImageUniqueID";
public static final String TAG_IMAGE_WIDTH = "ImageWidth";
private static final String TAG_INTEROPERABILITY_IFD_POINTER = "InteroperabilityIFDPointer";
public static final String TAG_INTEROPERABILITY_INDEX = "InteroperabilityIndex";
public static final String TAG_ISO_SPEED = "ISOSpeed";
public static final String TAG_ISO_SPEED_LATITUDE_YYY = "ISOSpeedLatitudeyyy";
public static final String TAG_ISO_SPEED_LATITUDE_ZZZ = "ISOSpeedLatitudezzz";
@Deprecated
public static final String TAG_ISO_SPEED_RATINGS = "ISOSpeedRatings";
public static final String TAG_JPEG_INTERCHANGE_FORMAT = "JPEGInterchangeFormat";
public static final String TAG_JPEG_INTERCHANGE_FORMAT_LENGTH = "JPEGInterchangeFormatLength";
public static final String TAG_LENS_MAKE = "LensMake";
public static final String TAG_LENS_MODEL = "LensModel";
public static final String TAG_LENS_SERIAL_NUMBER = "LensSerialNumber";
public static final String TAG_LENS_SPECIFICATION = "LensSpecification";
public static final String TAG_LIGHT_SOURCE = "LightSource";
public static final String TAG_MAKE = "Make";
public static final String TAG_MAKER_NOTE = "MakerNote";
public static final String TAG_MAX_APERTURE_VALUE = "MaxApertureValue";
public static final String TAG_METERING_MODE = "MeteringMode";
public static final String TAG_MODEL = "Model";
public static final String TAG_NEW_SUBFILE_TYPE = "NewSubfileType";
public static final String TAG_OECF = "OECF";
public static final String TAG_OFFSET_TIME = "OffsetTime";
public static final String TAG_OFFSET_TIME_DIGITIZED = "OffsetTimeDigitized";
public static final String TAG_OFFSET_TIME_ORIGINAL = "OffsetTimeOriginal";
public static final String TAG_ORF_ASPECT_FRAME = "AspectFrame";
private static final String TAG_ORF_CAMERA_SETTINGS_IFD_POINTER = "CameraSettingsIFDPointer";
private static final String TAG_ORF_IMAGE_PROCESSING_IFD_POINTER = "ImageProcessingIFDPointer";
public static final String TAG_ORF_PREVIEW_IMAGE_LENGTH = "PreviewImageLength";
public static final String TAG_ORF_PREVIEW_IMAGE_START = "PreviewImageStart";
public static final String TAG_ORF_THUMBNAIL_IMAGE = "ThumbnailImage";
public static final String TAG_ORIENTATION = "Orientation";
public static final String TAG_PHOTOGRAPHIC_SENSITIVITY = "PhotographicSensitivity";
public static final String TAG_PHOTOMETRIC_INTERPRETATION = "PhotometricInterpretation";
public static final String TAG_PIXEL_X_DIMENSION = "PixelXDimension";
public static final String TAG_PIXEL_Y_DIMENSION = "PixelYDimension";
public static final String TAG_PLANAR_CONFIGURATION = "PlanarConfiguration";
public static final String TAG_PRIMARY_CHROMATICITIES = "PrimaryChromaticities";
private static final ExifTag TAG_RAF_IMAGE_SIZE;
public static final String TAG_RECOMMENDED_EXPOSURE_INDEX = "RecommendedExposureIndex";
public static final String TAG_REFERENCE_BLACK_WHITE = "ReferenceBlackWhite";
public static final String TAG_RELATED_SOUND_FILE = "RelatedSoundFile";
public static final String TAG_RESOLUTION_UNIT = "ResolutionUnit";
public static final String TAG_ROWS_PER_STRIP = "RowsPerStrip";
public static final String TAG_RW2_ISO = "ISO";
public static final String TAG_RW2_JPG_FROM_RAW = "JpgFromRaw";
public static final String TAG_RW2_SENSOR_BOTTOM_BORDER = "SensorBottomBorder";
public static final String TAG_RW2_SENSOR_LEFT_BORDER = "SensorLeftBorder";
public static final String TAG_RW2_SENSOR_RIGHT_BORDER = "SensorRightBorder";
public static final String TAG_RW2_SENSOR_TOP_BORDER = "SensorTopBorder";
public static final String TAG_SAMPLES_PER_PIXEL = "SamplesPerPixel";
public static final String TAG_SATURATION = "Saturation";
public static final String TAG_SCENE_CAPTURE_TYPE = "SceneCaptureType";
public static final String TAG_SCENE_TYPE = "SceneType";
public static final String TAG_SENSING_METHOD = "SensingMethod";
public static final String TAG_SENSITIVITY_TYPE = "SensitivityType";
public static final String TAG_SHARPNESS = "Sharpness";
public static final String TAG_SHUTTER_SPEED_VALUE = "ShutterSpeedValue";
public static final String TAG_SOFTWARE = "Software";
public static final String TAG_SPATIAL_FREQUENCY_RESPONSE = "SpatialFrequencyResponse";
public static final String TAG_SPECTRAL_SENSITIVITY = "SpectralSensitivity";
public static final String TAG_STANDARD_OUTPUT_SENSITIVITY = "StandardOutputSensitivity";
public static final String TAG_STRIP_BYTE_COUNTS = "StripByteCounts";
public static final String TAG_STRIP_OFFSETS = "StripOffsets";
public static final String TAG_SUBFILE_TYPE = "SubfileType";
public static final String TAG_SUBJECT_AREA = "SubjectArea";
public static final String TAG_SUBJECT_DISTANCE = "SubjectDistance";
public static final String TAG_SUBJECT_DISTANCE_RANGE = "SubjectDistanceRange";
public static final String TAG_SUBJECT_LOCATION = "SubjectLocation";
public static final String TAG_SUBSEC_TIME = "SubSecTime";
public static final String TAG_SUBSEC_TIME_DIGITIZED = "SubSecTimeDigitized";
public static final String TAG_SUBSEC_TIME_ORIGINAL = "SubSecTimeOriginal";
private static final String TAG_SUB_IFD_POINTER = "SubIFDPointer";
public static final String TAG_THUMBNAIL_IMAGE_LENGTH = "ThumbnailImageLength";
public static final String TAG_THUMBNAIL_IMAGE_WIDTH = "ThumbnailImageWidth";
public static final String TAG_THUMBNAIL_ORIENTATION = "ThumbnailOrientation";
public static final String TAG_TRANSFER_FUNCTION = "TransferFunction";
public static final String TAG_USER_COMMENT = "UserComment";
public static final String TAG_WHITE_BALANCE = "WhiteBalance";
public static final String TAG_WHITE_POINT = "WhitePoint";
public static final String TAG_XMP = "Xmp";
public static final String TAG_X_RESOLUTION = "XResolution";
public static final String TAG_Y_CB_CR_COEFFICIENTS = "YCbCrCoefficients";
public static final String TAG_Y_CB_CR_POSITIONING = "YCbCrPositioning";
public static final String TAG_Y_CB_CR_SUB_SAMPLING = "YCbCrSubSampling";
public static final String TAG_Y_RESOLUTION = "YResolution";
private static final int WEBP_CHUNK_SIZE_BYTE_LENGTH = 4;
private static final int WEBP_CHUNK_TYPE_BYTE_LENGTH = 4;
private static final int WEBP_CHUNK_TYPE_VP8X_DEFAULT_LENGTH = 10;
private static final int WEBP_FILE_SIZE_BYTE_LENGTH = 4;
private static final byte WEBP_VP8L_SIGNATURE = 47;
@Deprecated
public static final int WHITEBALANCE_AUTO = 0;
@Deprecated
public static final int WHITEBALANCE_MANUAL = 1;
public static final short WHITE_BALANCE_AUTO = 0;
public static final short WHITE_BALANCE_MANUAL = 1;
public static final short Y_CB_CR_POSITIONING_CENTERED = 1;
public static final short Y_CB_CR_POSITIONING_CO_SITED = 2;
private static final HashMap<Integer, Integer> sExifPointerTagMap;
private static final HashMap<Integer, ExifTag>[] sExifTagMapsForReading;
private static final HashMap<String, ExifTag>[] sExifTagMapsForWriting;
private static SimpleDateFormat sFormatterPrimary;
private static SimpleDateFormat sFormatterSecondary;
private static final HashSet<String> sTagSetForCompatibility;
private boolean mAreThumbnailStripsConsecutive;
private AssetManager.AssetInputStream mAssetInputStream;
private final HashMap<String, ExifAttribute>[] mAttributes;
private Set<Integer> mAttributesOffsets;
private ByteOrder mExifByteOrder;
private String mFilename;
private boolean mHasThumbnail;
private boolean mHasThumbnailStrips;
private boolean mIsExifDataOnly;
private int mMimeType;
private boolean mModified;
private int mOffsetToExifData;
private int mOrfMakerNoteOffset;
private int mOrfThumbnailLength;
private int mOrfThumbnailOffset;
private FileDescriptor mSeekableFileDescriptor;
private byte[] mThumbnailBytes;
private int mThumbnailCompression;
private int mThumbnailLength;
private int mThumbnailOffset;
private boolean mXmpIsFromSeparateMarker;
private static final String TAG = "ExifInterface";
private static final boolean DEBUG = Log.isLoggable(TAG, 3);
private static final List<Integer> ROTATION_ORDER = Arrays.asList(1, 6, 3, 8);
private static final List<Integer> FLIPPED_ROTATION_ORDER = Arrays.asList(2, 7, 4, 5);
public static final int[] BITS_PER_SAMPLE_RGB = {8, 8, 8};
public static final int[] BITS_PER_SAMPLE_GREYSCALE_1 = {4};
public static final int[] BITS_PER_SAMPLE_GREYSCALE_2 = {8};
private static final byte MARKER_SOI = -40;
static final byte[] JPEG_SIGNATURE = {-1, MARKER_SOI, -1};
private static final byte[] HEIF_TYPE_FTYP = {102, 116, 121, 112};
private static final byte[] HEIF_BRAND_MIF1 = {109, 105, 102, 49};
private static final byte[] HEIF_BRAND_HEIC = {104, 101, 105, 99};
private static final byte[] ORF_MAKER_NOTE_HEADER_1 = {79, 76, 89, 77, 80, 0};
private static final byte[] ORF_MAKER_NOTE_HEADER_2 = {79, 76, 89, 77, 80, 85, 83, 0, 73, 73};
private static final byte[] PNG_SIGNATURE = {-119, 80, 78, 71, 13, 10, 26, 10};
private static final byte[] PNG_CHUNK_TYPE_EXIF = {101, 88, 73, 102};
private static final byte[] PNG_CHUNK_TYPE_IHDR = {73, 72, 68, 82};
private static final byte[] PNG_CHUNK_TYPE_IEND = {73, 69, 78, 68};
private static final byte[] WEBP_SIGNATURE_1 = {82, 73, 70, 70};
private static final byte[] WEBP_SIGNATURE_2 = {87, 69, 66, 80};
private static final byte[] WEBP_CHUNK_TYPE_EXIF = {69, 88, 73, 70};
static final byte START_CODE = 42;
private static final byte[] WEBP_VP8_SIGNATURE = {-99, 1, START_CODE};
private static final byte[] WEBP_CHUNK_TYPE_VP8X = "VP8X".getBytes(Charset.defaultCharset());
private static final byte[] WEBP_CHUNK_TYPE_VP8L = "VP8L".getBytes(Charset.defaultCharset());
private static final byte[] WEBP_CHUNK_TYPE_VP8 = "VP8 ".getBytes(Charset.defaultCharset());
private static final byte[] WEBP_CHUNK_TYPE_ANIM = "ANIM".getBytes(Charset.defaultCharset());
private static final byte[] WEBP_CHUNK_TYPE_ANMF = "ANMF".getBytes(Charset.defaultCharset());
static final String[] IFD_FORMAT_NAMES = {"", "BYTE", "STRING", "USHORT", "ULONG", "URATIONAL", "SBYTE", "UNDEFINED", "SSHORT", "SLONG", "SRATIONAL", "SINGLE", "DOUBLE", "IFD"};
static final int[] IFD_FORMAT_BYTES_PER_FORMAT = {0, 1, 1, 2, 4, 8, 1, 1, 2, 4, 8, 4, 8, 1};
static final byte[] EXIF_ASCII_PREFIX = {65, 83, 67, 73, 73, 0, 0, 0};
public static class ByteOrderedDataInputStream extends InputStream implements DataInput {
private ByteOrder mByteOrder;
private DataInputStream mDataInputStream;
final int mLength;
int mPosition;
private static final ByteOrder LITTLE_ENDIAN = ByteOrder.LITTLE_ENDIAN;
private static final ByteOrder BIG_ENDIAN = ByteOrder.BIG_ENDIAN;
public ByteOrderedDataInputStream(InputStream inputStream) throws IOException {
this(inputStream, ByteOrder.BIG_ENDIAN);
}
@Override
public int available() throws IOException {
return this.mDataInputStream.available();
}
public int getLength() {
return this.mLength;
}
@Override
public synchronized void mark(int i) {
this.mDataInputStream.mark(i);
}
public int peek() {
return this.mPosition;
}
@Override
public int read() throws IOException {
this.mPosition++;
return this.mDataInputStream.read();
}
@Override
public boolean readBoolean() throws IOException {
this.mPosition++;
return this.mDataInputStream.readBoolean();
}
@Override
public byte readByte() throws IOException {
int i = this.mPosition + 1;
this.mPosition = i;
if (i <= this.mLength) {
int read = this.mDataInputStream.read();
if (read >= 0) {
return (byte) read;
}
throw new EOFException();
}
throw new EOFException();
}
@Override
public char readChar() throws IOException {
this.mPosition += 2;
return this.mDataInputStream.readChar();
}
@Override
public double readDouble() throws IOException {
return Double.longBitsToDouble(readLong());
}
@Override
public float readFloat() throws IOException {
return Float.intBitsToFloat(readInt());
}
@Override
public void readFully(byte[] bArr, int i, int i2) throws IOException {
int i3 = this.mPosition + i2;
this.mPosition = i3;
if (i3 <= this.mLength) {
if (this.mDataInputStream.read(bArr, i, i2) != i2) {
throw new IOException("Couldn't read up to the length of buffer");
}
return;
}
throw new EOFException();
}
@Override
public int readInt() throws IOException {
int i = this.mPosition + 4;
this.mPosition = i;
if (i <= this.mLength) {
int read = this.mDataInputStream.read();
int read2 = this.mDataInputStream.read();
int read3 = this.mDataInputStream.read();
int read4 = this.mDataInputStream.read();
if ((read | read2 | read3 | read4) >= 0) {
ByteOrder byteOrder = this.mByteOrder;
if (byteOrder == LITTLE_ENDIAN) {
return (read4 << 24) + (read3 << 16) + (read2 << 8) + read;
}
if (byteOrder == BIG_ENDIAN) {
return (read << 24) + (read2 << 16) + (read3 << 8) + read4;
}
throw new IOException("Invalid byte order: " + this.mByteOrder);
}
throw new EOFException();
}
throw new EOFException();
}
@Override
public String readLine() throws IOException {
Log.d(ExifInterface.TAG, "Currently unsupported");
return null;
}
@Override
public long readLong() throws IOException {
int i = this.mPosition + 8;
this.mPosition = i;
if (i <= this.mLength) {
int read = this.mDataInputStream.read();
int read2 = this.mDataInputStream.read();
int read3 = this.mDataInputStream.read();
int read4 = this.mDataInputStream.read();
int read5 = this.mDataInputStream.read();
int read6 = this.mDataInputStream.read();
int read7 = this.mDataInputStream.read();
int read8 = this.mDataInputStream.read();
if ((read | read2 | read3 | read4 | read5 | read6 | read7 | read8) >= 0) {
ByteOrder byteOrder = this.mByteOrder;
if (byteOrder == LITTLE_ENDIAN) {
return (read8 << 56) + (read7 << 48) + (read6 << 40) + (read5 << 32) + (read4 << 24) + (read3 << 16) + (read2 << 8) + read;
}
if (byteOrder == BIG_ENDIAN) {
return (read << 56) + (read2 << 48) + (read3 << 40) + (read4 << 32) + (read5 << 24) + (read6 << 16) + (read7 << 8) + read8;
}
throw new IOException("Invalid byte order: " + this.mByteOrder);
}
throw new EOFException();
}
throw new EOFException();
}
@Override
public short readShort() throws IOException {
int i = this.mPosition + 2;
this.mPosition = i;
if (i <= this.mLength) {
int read = this.mDataInputStream.read();
int read2 = this.mDataInputStream.read();
if ((read | read2) >= 0) {
ByteOrder byteOrder = this.mByteOrder;
if (byteOrder == LITTLE_ENDIAN) {
return (short) ((read2 << 8) + read);
}
if (byteOrder == BIG_ENDIAN) {
return (short) ((read << 8) + read2);
}
throw new IOException("Invalid byte order: " + this.mByteOrder);
}
throw new EOFException();
}
throw new EOFException();
}
@Override
public String readUTF() throws IOException {
this.mPosition += 2;
return this.mDataInputStream.readUTF();
}
@Override
public int readUnsignedByte() throws IOException {
this.mPosition++;
return this.mDataInputStream.readUnsignedByte();
}
public long readUnsignedInt() throws IOException {
return readInt() & InternalZipConstants.ZIP_64_SIZE_LIMIT;
}
@Override
public int readUnsignedShort() throws IOException {
int i = this.mPosition + 2;
this.mPosition = i;
if (i <= this.mLength) {
int read = this.mDataInputStream.read();
int read2 = this.mDataInputStream.read();
if ((read | read2) >= 0) {
ByteOrder byteOrder = this.mByteOrder;
if (byteOrder == LITTLE_ENDIAN) {
return (read2 << 8) + read;
}
if (byteOrder == BIG_ENDIAN) {
return (read << 8) + read2;
}
throw new IOException("Invalid byte order: " + this.mByteOrder);
}
throw new EOFException();
}
throw new EOFException();
}
public void seek(long j) throws IOException {
long j2 = this.mPosition;
if (j2 > j) {
this.mPosition = 0;
this.mDataInputStream.reset();
this.mDataInputStream.mark(this.mLength);
} else {
j -= j2;
}
int i = (int) j;
if (skipBytes(i) != i) {
throw new IOException("Couldn't seek up to the byteCount");
}
}
public void setByteOrder(ByteOrder byteOrder) {
this.mByteOrder = byteOrder;
}
@Override
public int skipBytes(int i) throws IOException {
int min = Math.min(i, this.mLength - this.mPosition);
int i2 = 0;
while (i2 < min) {
i2 += this.mDataInputStream.skipBytes(min - i2);
}
this.mPosition += i2;
return i2;
}
ByteOrderedDataInputStream(InputStream inputStream, ByteOrder byteOrder) throws IOException {
this.mByteOrder = ByteOrder.BIG_ENDIAN;
DataInputStream dataInputStream = new DataInputStream(inputStream);
this.mDataInputStream = dataInputStream;
int available = dataInputStream.available();
this.mLength = available;
this.mPosition = 0;
this.mDataInputStream.mark(available);
this.mByteOrder = byteOrder;
}
@Override
public int read(byte[] bArr, int i, int i2) throws IOException {
int read = this.mDataInputStream.read(bArr, i, i2);
this.mPosition += read;
return read;
}
@Override
public void readFully(byte[] bArr) throws IOException {
int length = this.mPosition + bArr.length;
this.mPosition = length;
if (length <= this.mLength) {
if (this.mDataInputStream.read(bArr, 0, bArr.length) != bArr.length) {
throw new IOException("Couldn't read up to the length of buffer");
}
return;
}
throw new EOFException();
}
public ByteOrderedDataInputStream(byte[] bArr) throws IOException {
this(new ByteArrayInputStream(bArr));
}
}
public static class ByteOrderedDataOutputStream extends FilterOutputStream {
private ByteOrder mByteOrder;
final OutputStream mOutputStream;
public ByteOrderedDataOutputStream(OutputStream outputStream, ByteOrder byteOrder) {
super(outputStream);
this.mOutputStream = outputStream;
this.mByteOrder = byteOrder;
}
public void setByteOrder(ByteOrder byteOrder) {
this.mByteOrder = byteOrder;
}
@Override
public void write(byte[] bArr) throws IOException {
this.mOutputStream.write(bArr);
}
public void writeByte(int i) throws IOException {
this.mOutputStream.write(i);
}
public void writeInt(int i) throws IOException {
ByteOrder byteOrder = this.mByteOrder;
if (byteOrder == ByteOrder.LITTLE_ENDIAN) {
this.mOutputStream.write((i >>> 0) & 255);
this.mOutputStream.write((i >>> 8) & 255);
this.mOutputStream.write((i >>> 16) & 255);
this.mOutputStream.write((i >>> 24) & 255);
} else if (byteOrder == ByteOrder.BIG_ENDIAN) {
this.mOutputStream.write((i >>> 24) & 255);
this.mOutputStream.write((i >>> 16) & 255);
this.mOutputStream.write((i >>> 8) & 255);
this.mOutputStream.write((i >>> 0) & 255);
}
}
public void writeShort(short s) throws IOException {
ByteOrder byteOrder = this.mByteOrder;
if (byteOrder == ByteOrder.LITTLE_ENDIAN) {
this.mOutputStream.write((s >>> 0) & 255);
this.mOutputStream.write((s >>> 8) & 255);
} else if (byteOrder == ByteOrder.BIG_ENDIAN) {
this.mOutputStream.write((s >>> 8) & 255);
this.mOutputStream.write((s >>> 0) & 255);
}
}
public void writeUnsignedInt(long j) throws IOException {
writeInt((int) j);
}
public void writeUnsignedShort(int i) throws IOException {
writeShort((short) i);
}
@Override
public void write(byte[] bArr, int i, int i2) throws IOException {
this.mOutputStream.write(bArr, i, i2);
}
}
public static class ExifAttribute {
public static final long BYTES_OFFSET_UNKNOWN = -1;
public final byte[] bytes;
public final long bytesOffset;
public final int format;
public final int numberOfComponents;
ExifAttribute(int i, int i2, byte[] bArr) {
this(i, i2, -1L, bArr);
}
public static ExifAttribute createByte(String str) {
if (str.length() == 1 && str.charAt(0) >= '0' && str.charAt(0) <= '1') {
return new ExifAttribute(1, 1, new byte[]{(byte) (str.charAt(0) - '0')});
}
byte[] bytes = str.getBytes(ExifInterface.ASCII);
return new ExifAttribute(1, bytes.length, bytes);
}
public static ExifAttribute createDouble(double[] dArr, ByteOrder byteOrder) {
ByteBuffer wrap = ByteBuffer.wrap(new byte[ExifInterface.IFD_FORMAT_BYTES_PER_FORMAT[12] * dArr.length]);
wrap.order(byteOrder);
for (double d : dArr) {
wrap.putDouble(d);
}
return new ExifAttribute(12, dArr.length, wrap.array());
}
public static ExifAttribute createSLong(int[] iArr, ByteOrder byteOrder) {
ByteBuffer wrap = ByteBuffer.wrap(new byte[ExifInterface.IFD_FORMAT_BYTES_PER_FORMAT[9] * iArr.length]);
wrap.order(byteOrder);
for (int i : iArr) {
wrap.putInt(i);
}
return new ExifAttribute(9, iArr.length, wrap.array());
}
public static ExifAttribute createSRational(Rational[] rationalArr, ByteOrder byteOrder) {
ByteBuffer wrap = ByteBuffer.wrap(new byte[ExifInterface.IFD_FORMAT_BYTES_PER_FORMAT[10] * rationalArr.length]);
wrap.order(byteOrder);
for (Rational rational : rationalArr) {
wrap.putInt((int) rational.numerator);
wrap.putInt((int) rational.denominator);
}
return new ExifAttribute(10, rationalArr.length, wrap.array());
}
public static ExifAttribute createString(String str) {
byte[] bytes = (str + (char) 0).getBytes(ExifInterface.ASCII);
return new ExifAttribute(2, bytes.length, bytes);
}
public static ExifAttribute createULong(long[] jArr, ByteOrder byteOrder) {
ByteBuffer wrap = ByteBuffer.wrap(new byte[ExifInterface.IFD_FORMAT_BYTES_PER_FORMAT[4] * jArr.length]);
wrap.order(byteOrder);
for (long j : jArr) {
wrap.putInt((int) j);
}
return new ExifAttribute(4, jArr.length, wrap.array());
}
public static ExifAttribute createURational(Rational[] rationalArr, ByteOrder byteOrder) {
ByteBuffer wrap = ByteBuffer.wrap(new byte[ExifInterface.IFD_FORMAT_BYTES_PER_FORMAT[5] * rationalArr.length]);
wrap.order(byteOrder);
for (Rational rational : rationalArr) {
wrap.putInt((int) rational.numerator);
wrap.putInt((int) rational.denominator);
}
return new ExifAttribute(5, rationalArr.length, wrap.array());
}
public static ExifAttribute createUShort(int[] iArr, ByteOrder byteOrder) {
ByteBuffer wrap = ByteBuffer.wrap(new byte[ExifInterface.IFD_FORMAT_BYTES_PER_FORMAT[3] * iArr.length]);
wrap.order(byteOrder);
for (int i : iArr) {
wrap.putShort((short) i);
}
return new ExifAttribute(3, iArr.length, wrap.array());
}
public double getDoubleValue(ByteOrder byteOrder) {
Object value = getValue(byteOrder);
if (value != null) {
if (value instanceof String) {
return Double.parseDouble((String) value);
}
if (value instanceof long[]) {
long[] jArr = (long[]) value;
if (jArr.length == 1) {
return jArr[0];
}
throw new NumberFormatException("There are more than one component");
} else if (value instanceof int[]) {
int[] iArr = (int[]) value;
if (iArr.length == 1) {
return iArr[0];
}
throw new NumberFormatException("There are more than one component");
} else if (value instanceof double[]) {
double[] dArr = (double[]) value;
if (dArr.length == 1) {
return dArr[0];
}
throw new NumberFormatException("There are more than one component");
} else if (value instanceof Rational[]) {
Rational[] rationalArr = (Rational[]) value;
if (rationalArr.length == 1) {
return rationalArr[0].calculate();
}
throw new NumberFormatException("There are more than one component");
} else {
throw new NumberFormatException("Couldn't find a double value");
}
}
throw new NumberFormatException("NULL can't be converted to a double value");
}
public int getIntValue(ByteOrder byteOrder) {
Object value = getValue(byteOrder);
if (value != null) {
if (value instanceof String) {
return Integer.parseInt((String) value);
}
if (value instanceof long[]) {
long[] jArr = (long[]) value;
if (jArr.length == 1) {
return (int) jArr[0];
}
throw new NumberFormatException("There are more than one component");
} else if (value instanceof int[]) {
int[] iArr = (int[]) value;
if (iArr.length == 1) {
return iArr[0];
}
throw new NumberFormatException("There are more than one component");
} else {
throw new NumberFormatException("Couldn't find a integer value");
}
}
throw new NumberFormatException("NULL can't be converted to a integer value");
}
public String getStringValue(ByteOrder byteOrder) {
Object value = getValue(byteOrder);
if (value == null) {
return null;
}
if (value instanceof String) {
return (String) value;
}
StringBuilder sb = new StringBuilder();
int i = 0;
if (value instanceof long[]) {
long[] jArr = (long[]) value;
while (i < jArr.length) {
sb.append(jArr[i]);
i++;
if (i != jArr.length) {
sb.append(",");
}
}
return sb.toString();
} else if (value instanceof int[]) {
int[] iArr = (int[]) value;
while (i < iArr.length) {
sb.append(iArr[i]);
i++;
if (i != iArr.length) {
sb.append(",");
}
}
return sb.toString();
} else if (value instanceof double[]) {
double[] dArr = (double[]) value;
while (i < dArr.length) {
sb.append(dArr[i]);
i++;
if (i != dArr.length) {
sb.append(",");
}
}
return sb.toString();
} else if (value instanceof Rational[]) {
Rational[] rationalArr = (Rational[]) value;
while (i < rationalArr.length) {
sb.append(rationalArr[i].numerator);
sb.append('/');
sb.append(rationalArr[i].denominator);
i++;
if (i != rationalArr.length) {
sb.append(",");
}
}
return sb.toString();
} else {
return null;
}
}
Object getValue(ByteOrder byteOrder) {
ByteOrderedDataInputStream byteOrderedDataInputStream;
InputStream inputStream;
byte b;
byte[] bArr;
InputStream inputStream2 = null;
try {
try {
byteOrderedDataInputStream = new ByteOrderedDataInputStream(this.bytes);
try {
byteOrderedDataInputStream.setByteOrder(byteOrder);
boolean z = true;
int i = 0;
switch (this.format) {
case 1:
case 6:
byte[] bArr2 = this.bytes;
if (bArr2.length == 1 && bArr2[0] >= 0 && bArr2[0] <= 1) {
String str = new String(new char[]{(char) (this.bytes[0] + 48)});
try {
byteOrderedDataInputStream.close();
} catch (IOException e) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e);
}
return str;
}
String str2 = new String(this.bytes, ExifInterface.ASCII);
try {
byteOrderedDataInputStream.close();
} catch (IOException e2) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e2);
}
return str2;
case 2:
case 7:
if (this.numberOfComponents >= ExifInterface.EXIF_ASCII_PREFIX.length) {
int i2 = 0;
while (true) {
bArr = ExifInterface.EXIF_ASCII_PREFIX;
if (i2 < bArr.length) {
if (this.bytes[i2] != bArr[i2]) {
z = false;
} else {
i2++;
}
}
}
if (z) {
i = bArr.length;
}
}
StringBuilder sb = new StringBuilder();
while (i < this.numberOfComponents && (b = this.bytes[i]) != 0) {
if (b >= 32) {
sb.append((char) b);
} else {
sb.append(Operators.CONDITION_IF);
}
i++;
}
String sb2 = sb.toString();
try {
byteOrderedDataInputStream.close();
} catch (IOException e3) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e3);
}
return sb2;
case 3:
int[] iArr = new int[this.numberOfComponents];
while (i < this.numberOfComponents) {
iArr[i] = byteOrderedDataInputStream.readUnsignedShort();
i++;
}
try {
byteOrderedDataInputStream.close();
} catch (IOException e4) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e4);
}
return iArr;
case 4:
long[] jArr = new long[this.numberOfComponents];
while (i < this.numberOfComponents) {
jArr[i] = byteOrderedDataInputStream.readUnsignedInt();
i++;
}
try {
byteOrderedDataInputStream.close();
} catch (IOException e5) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e5);
}
return jArr;
case 5:
Rational[] rationalArr = new Rational[this.numberOfComponents];
while (i < this.numberOfComponents) {
rationalArr[i] = new Rational(byteOrderedDataInputStream.readUnsignedInt(), byteOrderedDataInputStream.readUnsignedInt());
i++;
}
try {
byteOrderedDataInputStream.close();
} catch (IOException e6) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e6);
}
return rationalArr;
case 8:
int[] iArr2 = new int[this.numberOfComponents];
while (i < this.numberOfComponents) {
iArr2[i] = byteOrderedDataInputStream.readShort();
i++;
}
try {
byteOrderedDataInputStream.close();
} catch (IOException e7) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e7);
}
return iArr2;
case 9:
int[] iArr3 = new int[this.numberOfComponents];
while (i < this.numberOfComponents) {
iArr3[i] = byteOrderedDataInputStream.readInt();
i++;
}
try {
byteOrderedDataInputStream.close();
} catch (IOException e8) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e8);
}
return iArr3;
case 10:
Rational[] rationalArr2 = new Rational[this.numberOfComponents];
while (i < this.numberOfComponents) {
rationalArr2[i] = new Rational(byteOrderedDataInputStream.readInt(), byteOrderedDataInputStream.readInt());
i++;
}
try {
byteOrderedDataInputStream.close();
} catch (IOException e9) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e9);
}
return rationalArr2;
case 11:
double[] dArr = new double[this.numberOfComponents];
while (i < this.numberOfComponents) {
dArr[i] = byteOrderedDataInputStream.readFloat();
i++;
}
try {
byteOrderedDataInputStream.close();
} catch (IOException e10) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e10);
}
return dArr;
case 12:
double[] dArr2 = new double[this.numberOfComponents];
while (i < this.numberOfComponents) {
dArr2[i] = byteOrderedDataInputStream.readDouble();
i++;
}
try {
byteOrderedDataInputStream.close();
} catch (IOException e11) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e11);
}
return dArr2;
default:
try {
byteOrderedDataInputStream.close();
} catch (IOException e12) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e12);
}
return null;
}
} catch (IOException e13) {
e = e13;
Log.w(ExifInterface.TAG, "IOException occurred during reading a value", e);
if (byteOrderedDataInputStream != null) {
try {
byteOrderedDataInputStream.close();
} catch (IOException e14) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e14);
}
}
return null;
}
} catch (Throwable th) {
th = th;
inputStream2 = inputStream;
if (inputStream2 != null) {
try {
inputStream2.close();
} catch (IOException e15) {
Log.e(ExifInterface.TAG, "IOException occurred while closing InputStream", e15);
}
}
throw th;
}
} catch (IOException e16) {
e = e16;
byteOrderedDataInputStream = null;
} catch (Throwable th2) {
th = th2;
if (inputStream2 != null) {
}
throw th;
}
}
public int size() {
return ExifInterface.IFD_FORMAT_BYTES_PER_FORMAT[this.format] * this.numberOfComponents;
}
public String toString() {
return Operators.BRACKET_START_STR + ExifInterface.IFD_FORMAT_NAMES[this.format] + ", data length:" + this.bytes.length + Operators.BRACKET_END_STR;
}
ExifAttribute(int i, int i2, long j, byte[] bArr) {
this.format = i;
this.numberOfComponents = i2;
this.bytesOffset = j;
this.bytes = bArr;
}
public static ExifAttribute createDouble(double d, ByteOrder byteOrder) {
return createDouble(new double[]{d}, byteOrder);
}
public static ExifAttribute createSLong(int i, ByteOrder byteOrder) {
return createSLong(new int[]{i}, byteOrder);
}
public static ExifAttribute createULong(long j, ByteOrder byteOrder) {
return createULong(new long[]{j}, byteOrder);
}
public static ExifAttribute createUShort(int i, ByteOrder byteOrder) {
return createUShort(new int[]{i}, byteOrder);
}
public static ExifAttribute createSRational(Rational rational, ByteOrder byteOrder) {
return createSRational(new Rational[]{rational}, byteOrder);
}
public static ExifAttribute createURational(Rational rational, ByteOrder byteOrder) {
return createURational(new Rational[]{rational}, byteOrder);
}
}
@Retention(RetentionPolicy.SOURCE)
public @interface ExifStreamType {
}
@Retention(RetentionPolicy.SOURCE)
public @interface IfdType {
}
public static class Rational {
public final long denominator;
public final long numerator;
Rational(double d) {
this((long) (d * 10000.0d), 10000L);
}
public double calculate() {
return this.numerator / this.denominator;
}
public String toString() {
return this.numerator + "/" + this.denominator;
}
Rational(long j, long j2) {
if (j2 == 0) {
this.numerator = 0L;
this.denominator = 1L;
return;
}
this.numerator = j;
this.denominator = j2;
}
}
public ExifInterface(File file) throws IOException {
ExifTag[][] exifTagArr = EXIF_TAGS;
this.mAttributes = new HashMap[exifTagArr.length];
this.mAttributesOffsets = new HashSet(exifTagArr.length);
this.mExifByteOrder = ByteOrder.BIG_ENDIAN;
Objects.requireNonNull(file, "file cannot be null");
initForFilename(file.getAbsolutePath());
}
private void addDefaultValuesForCompatibility() {
String attribute = getAttribute(TAG_DATETIME_ORIGINAL);
if (attribute != null && getAttribute(TAG_DATETIME) == null) {
this.mAttributes[0].put(TAG_DATETIME, ExifAttribute.createString(attribute));
}
if (getAttribute(TAG_IMAGE_WIDTH) == null) {
this.mAttributes[0].put(TAG_IMAGE_WIDTH, ExifAttribute.createULong(0L, this.mExifByteOrder));
}
if (getAttribute(TAG_IMAGE_LENGTH) == null) {
this.mAttributes[0].put(TAG_IMAGE_LENGTH, ExifAttribute.createULong(0L, this.mExifByteOrder));
}
if (getAttribute("Orientation") == null) {
this.mAttributes[0].put("Orientation", ExifAttribute.createULong(0L, this.mExifByteOrder));
}
if (getAttribute(TAG_LIGHT_SOURCE) == null) {
this.mAttributes[1].put(TAG_LIGHT_SOURCE, ExifAttribute.createULong(0L, this.mExifByteOrder));
}
}
private static String byteArrayToHexString(byte[] bArr) {
StringBuilder sb = new StringBuilder(bArr.length * 2);
for (int i = 0; i < bArr.length; i++) {
sb.append(String.format("%02x", Byte.valueOf(bArr[i])));
}
return sb.toString();
}
private static void closeFileDescriptor(FileDescriptor fileDescriptor) {
if (Build.VERSION.SDK_INT >= 21) {
try {
Os.close(fileDescriptor);
return;
} catch (Exception unused) {
Log.e(TAG, "Error closing fd.");
return;
}
}
Log.e(TAG, "closeFileDescriptor is called in API < 21, which must be wrong.");
}
private static void closeQuietly(Closeable closeable) {
if (closeable != null) {
try {
closeable.close();
} catch (RuntimeException e) {
throw e;
} catch (Exception unused) {
}
}
}
private String convertDecimalDegree(double d) {
long j = (long) d;
double d2 = d - j;
long j2 = (long) (d2 * 60.0d);
long round = Math.round((d2 - (j2 / 60.0d)) * 3600.0d * 1.0E7d);
return j + "/1," + j2 + "/1," + round + "/10000000";
}
private static double convertRationalLatLonToDouble(String str, String str2) {
try {
String[] split = str.split(",", -1);
String[] split2 = split[0].split("/", -1);
String[] split3 = split[1].split("/", -1);
String[] split4 = split[2].split("/", -1);
double parseDouble = (Double.parseDouble(split2[0].trim()) / Double.parseDouble(split2[1].trim())) + ((Double.parseDouble(split3[0].trim()) / Double.parseDouble(split3[1].trim())) / 60.0d) + ((Double.parseDouble(split4[0].trim()) / Double.parseDouble(split4[1].trim())) / 3600.0d);
if (!str2.equals(LATITUDE_SOUTH) && !str2.equals(LONGITUDE_WEST)) {
if (!str2.equals("N") && !str2.equals(LONGITUDE_EAST)) {
throw new IllegalArgumentException();
}
return parseDouble;
}
return -parseDouble;
} catch (ArrayIndexOutOfBoundsException | NumberFormatException unused) {
throw new IllegalArgumentException();
}
}
private static long[] convertToLongArray(Object obj) {
if (obj instanceof int[]) {
int[] iArr = (int[]) obj;
long[] jArr = new long[iArr.length];
for (int i = 0; i < iArr.length; i++) {
jArr[i] = iArr[i];
}
return jArr;
} else if (obj instanceof long[]) {
return (long[]) obj;
} else {
return null;
}
}
private void copyWebPChunk(ByteOrderedDataInputStream byteOrderedDataInputStream, ByteOrderedDataOutputStream byteOrderedDataOutputStream, byte[] bArr) throws IOException {
int readInt = byteOrderedDataInputStream.readInt();
byteOrderedDataOutputStream.write(bArr);
byteOrderedDataOutputStream.writeInt(readInt);
if (readInt % 2 == 1) {
readInt++;
}
copy(byteOrderedDataInputStream, byteOrderedDataOutputStream, readInt);
}
private void getHeifAttributes(final ByteOrderedDataInputStream byteOrderedDataInputStream) throws IOException {
String str;
String str2;
String extractMetadata;
String extractMetadata2;
int parseInt;
MediaMetadataRetriever mediaMetadataRetriever = new MediaMetadataRetriever();
try {
if (Build.VERSION.SDK_INT >= 23) {
mediaMetadataRetriever.setDataSource(new MediaDataSource() {
long mPosition;
@Override
public void close() throws IOException {
}
@Override
public long getSize() throws IOException {
return -1L;
}
@Override
public int readAt(long j, byte[] bArr, int i, int i2) throws IOException {
if (i2 == 0) {
return 0;
}
if (j < 0) {
return -1;
}
try {
long j2 = this.mPosition;
if (j2 != j) {
if (j2 >= 0 && j >= j2 + byteOrderedDataInputStream.available()) {
return -1;
}
byteOrderedDataInputStream.seek(j);
this.mPosition = j;
}
if (i2 > byteOrderedDataInputStream.available()) {
i2 = byteOrderedDataInputStream.available();
}
int read = byteOrderedDataInputStream.read(bArr, i, i2);
if (read >= 0) {
this.mPosition += read;
return read;
}
} catch (IOException unused) {
}
this.mPosition = -1L;
return -1;
}
});
} else {
FileDescriptor fileDescriptor = this.mSeekableFileDescriptor;
if (fileDescriptor != null) {
mediaMetadataRetriever.setDataSource(fileDescriptor);
} else {
String str3 = this.mFilename;
if (str3 == null) {
return;
}
mediaMetadataRetriever.setDataSource(str3);
}
}
String extractMetadata3 = mediaMetadataRetriever.extractMetadata(33);
String extractMetadata4 = mediaMetadataRetriever.extractMetadata(34);
String extractMetadata5 = mediaMetadataRetriever.extractMetadata(26);
String extractMetadata6 = mediaMetadataRetriever.extractMetadata(17);
String str4 = null;
if ("yes".equals(extractMetadata5)) {
extractMetadata = mediaMetadataRetriever.extractMetadata(29);
str2 = mediaMetadataRetriever.extractMetadata(30);
extractMetadata2 = mediaMetadataRetriever.extractMetadata(31);
} else if ("yes".equals(extractMetadata6)) {
extractMetadata = mediaMetadataRetriever.extractMetadata(18);
str2 = mediaMetadataRetriever.extractMetadata(19);
extractMetadata2 = mediaMetadataRetriever.extractMetadata(24);
} else {
str = null;
str2 = null;
if (str4 != null) {
this.mAttributes[0].put(TAG_IMAGE_WIDTH, ExifAttribute.createUShort(Integer.parseInt(str4), this.mExifByteOrder));
}
if (str2 != null) {
this.mAttributes[0].put(TAG_IMAGE_LENGTH, ExifAttribute.createUShort(Integer.parseInt(str2), this.mExifByteOrder));
}
if (str != null) {
int i = 1;
int parseInt2 = Integer.parseInt(str);
if (parseInt2 == 90) {
i = 6;
} else if (parseInt2 == 180) {
i = 3;
} else if (parseInt2 == 270) {
i = 8;
}
this.mAttributes[0].put("Orientation", ExifAttribute.createUShort(i, this.mExifByteOrder));
}
if (extractMetadata3 != null && extractMetadata4 != null) {
int parseInt3 = Integer.parseInt(extractMetadata3);
parseInt = Integer.parseInt(extractMetadata4);
if (parseInt <= 6) {
byteOrderedDataInputStream.seek(parseInt3);
byte[] bArr = new byte[6];
if (byteOrderedDataInputStream.read(bArr) == 6) {
int i2 = parseInt3 + 6;
int i3 = parseInt - 6;
if (Arrays.equals(bArr, IDENTIFIER_EXIF_APP1)) {
byte[] bArr2 = new byte[i3];
if (byteOrderedDataInputStream.read(bArr2) == i3) {
this.mOffsetToExifData = i2;
readExifSegment(bArr2, 0);
} else {
throw new IOException("Can't read exif");
}
} else {
throw new IOException("Invalid identifier");
}
} else {
throw new IOException("Can't read identifier");
}
} else {
throw new IOException("Invalid exif length");
}
}
if (DEBUG) {
Log.d(TAG, "Heif meta: " + str4 + Constants.Name.X + str2 + ", rotation " + str);
}
}
str4 = extractMetadata;
str = extractMetadata2;
if (str4 != null) {
}
if (str2 != null) {
}
if (str != null) {
}
if (extractMetadata3 != null) {
int parseInt32 = Integer.parseInt(extractMetadata3);
parseInt = Integer.parseInt(extractMetadata4);
if (parseInt <= 6) {
}
}
if (DEBUG) {
}
} finally {
mediaMetadataRetriever.release();
}
}
private void getJpegAttributes(ByteOrderedDataInputStream byteOrderedDataInputStream, int i, int i2) throws IOException {
byte readByte;
byte readByte2;
String str;
boolean z = DEBUG;
String str2 = TAG;
if (z) {
Log.d(TAG, "getJpegAttributes starting with: " + byteOrderedDataInputStream);
}
char c = 0;
byteOrderedDataInputStream.mark(0);
byteOrderedDataInputStream.setByteOrder(ByteOrder.BIG_ENDIAN);
if (byteOrderedDataInputStream.readByte() == -1) {
if (byteOrderedDataInputStream.readByte() != -40) {
throw new IOException("Invalid marker: " + Integer.toHexString(readByte & 255));
}
int i3 = 2;
int i4 = 2;
while (true) {
if (byteOrderedDataInputStream.readByte() == -1) {
int i5 = i4 + 1;
byte readByte3 = byteOrderedDataInputStream.readByte();
boolean z2 = DEBUG;
if (z2) {
Log.d(str2, "Found JPEG segment indicator: " + Integer.toHexString(readByte3 & 255));
}
int i6 = i5 + 1;
if (readByte3 != -39 && readByte3 != -38) {
int readUnsignedShort = byteOrderedDataInputStream.readUnsignedShort() - i3;
int i7 = i6 + i3;
if (z2) {
Log.d(str2, "JPEG segment: " + Integer.toHexString(readByte3 & 255) + " (length: " + (readUnsignedShort + 2) + Operators.BRACKET_END_STR);
}
if (readUnsignedShort < 0) {
throw new IOException("Invalid length");
}
if (readByte3 != -31) {
if (readByte3 == -2) {
byte[] bArr = new byte[readUnsignedShort];
if (byteOrderedDataInputStream.read(bArr) == readUnsignedShort) {
if (getAttribute(TAG_USER_COMMENT) == null) {
this.mAttributes[1].put(TAG_USER_COMMENT, ExifAttribute.createString(new String(bArr, ASCII)));
}
readUnsignedShort = 0;
} else {
throw new IOException("Invalid exif");
}
} else {
switch (readByte3) {
default:
switch (readByte3) {
default:
switch (readByte3) {
default:
switch (readByte3) {
}
case -55:
case -54:
case -53:
if (byteOrderedDataInputStream.skipBytes(1) == 1) {
this.mAttributes[i2].put(TAG_IMAGE_LENGTH, ExifAttribute.createULong(byteOrderedDataInputStream.readUnsignedShort(), this.mExifByteOrder));
this.mAttributes[i2].put(TAG_IMAGE_WIDTH, ExifAttribute.createULong(byteOrderedDataInputStream.readUnsignedShort(), this.mExifByteOrder));
readUnsignedShort -= 5;
break;
} else {
throw new IOException("Invalid SOFx");
}
}
case -59:
case -58:
case -57:
break;
}
case -64:
case -63:
case -62:
case -61:
break;
}
}
str = str2;
} else {
byte[] bArr2 = new byte[readUnsignedShort];
byteOrderedDataInputStream.readFully(bArr2);
int i8 = i7 + readUnsignedShort;
byte[] bArr3 = IDENTIFIER_EXIF_APP1;
if (startsWith(bArr2, bArr3)) {
byte[] copyOfRange = Arrays.copyOfRange(bArr2, bArr3.length, readUnsignedShort);
this.mOffsetToExifData = i + i7 + bArr3.length;
readExifSegment(copyOfRange, i2);
setThumbnailData(new ByteOrderedDataInputStream(copyOfRange));
} else {
byte[] bArr4 = IDENTIFIER_XMP_APP1;
if (startsWith(bArr2, bArr4)) {
int length = i7 + bArr4.length;
byte[] copyOfRange2 = Arrays.copyOfRange(bArr2, bArr4.length, readUnsignedShort);
if (getAttribute(TAG_XMP) == null) {
str = str2;
this.mAttributes[c].put(TAG_XMP, new ExifAttribute(1, copyOfRange2.length, length, copyOfRange2));
this.mXmpIsFromSeparateMarker = true;
i7 = i8;
readUnsignedShort = 0;
}
}
}
str = str2;
i7 = i8;
readUnsignedShort = 0;
}
if (readUnsignedShort >= 0) {
if (byteOrderedDataInputStream.skipBytes(readUnsignedShort) != readUnsignedShort) {
throw new IOException("Invalid JPEG segment");
}
i4 = i7 + readUnsignedShort;
str2 = str;
c = 0;
i3 = 2;
} else {
throw new IOException("Invalid length");
}
}
} else {
throw new IOException("Invalid marker:" + Integer.toHexString(readByte2 & 255));
}
}
} else {
throw new IOException("Invalid marker: " + Integer.toHexString(readByte & 255));
}
}
private int getMimeType(BufferedInputStream bufferedInputStream) throws IOException {
bufferedInputStream.mark(5000);
byte[] bArr = new byte[5000];
bufferedInputStream.read(bArr);
bufferedInputStream.reset();
if (isJpegFormat(bArr)) {
return 4;
}
if (isRafFormat(bArr)) {
return 9;
}
if (isHeifFormat(bArr)) {
return 12;
}
if (isOrfFormat(bArr)) {
return 7;
}
if (isRw2Format(bArr)) {
return 10;
}
if (isPngFormat(bArr)) {
return 13;
}
return isWebpFormat(bArr) ? 14 : 0;
}
private void getOrfAttributes(ByteOrderedDataInputStream byteOrderedDataInputStream) throws IOException {
getRawAttributes(byteOrderedDataInputStream);
ExifAttribute exifAttribute = this.mAttributes[1].get(TAG_MAKER_NOTE);
if (exifAttribute != null) {
ByteOrderedDataInputStream byteOrderedDataInputStream2 = new ByteOrderedDataInputStream(exifAttribute.bytes);
byteOrderedDataInputStream2.setByteOrder(this.mExifByteOrder);
byte[] bArr = ORF_MAKER_NOTE_HEADER_1;
byte[] bArr2 = new byte[bArr.length];
byteOrderedDataInputStream2.readFully(bArr2);
byteOrderedDataInputStream2.seek(0L);
byte[] bArr3 = ORF_MAKER_NOTE_HEADER_2;
byte[] bArr4 = new byte[bArr3.length];
byteOrderedDataInputStream2.readFully(bArr4);
if (Arrays.equals(bArr2, bArr)) {
byteOrderedDataInputStream2.seek(8L);
} else if (Arrays.equals(bArr4, bArr3)) {
byteOrderedDataInputStream2.seek(12L);
}
readImageFileDirectory(byteOrderedDataInputStream2, 6);
ExifAttribute exifAttribute2 = this.mAttributes[7].get(TAG_ORF_PREVIEW_IMAGE_START);
ExifAttribute exifAttribute3 = this.mAttributes[7].get(TAG_ORF_PREVIEW_IMAGE_LENGTH);
if (exifAttribute2 != null && exifAttribute3 != null) {
this.mAttributes[5].put(TAG_JPEG_INTERCHANGE_FORMAT, exifAttribute2);
this.mAttributes[5].put(TAG_JPEG_INTERCHANGE_FORMAT_LENGTH, exifAttribute3);
}
ExifAttribute exifAttribute4 = this.mAttributes[8].get(TAG_ORF_ASPECT_FRAME);
if (exifAttribute4 != null) {
int[] iArr = (int[]) exifAttribute4.getValue(this.mExifByteOrder);
if (iArr != null && iArr.length == 4) {
if (iArr[2] <= iArr[0] || iArr[3] <= iArr[1]) {
return;
}
int i = (iArr[2] - iArr[0]) + 1;
int i2 = (iArr[3] - iArr[1]) + 1;
if (i < i2) {
int i3 = i + i2;
i2 = i3 - i2;
i = i3 - i2;
}
ExifAttribute createUShort = ExifAttribute.createUShort(i, this.mExifByteOrder);
ExifAttribute createUShort2 = ExifAttribute.createUShort(i2, this.mExifByteOrder);
this.mAttributes[0].put(TAG_IMAGE_WIDTH, createUShort);
this.mAttributes[0].put(TAG_IMAGE_LENGTH, createUShort2);
return;
}
Log.w(TAG, "Invalid aspect frame values. frame=" + Arrays.toString(iArr));
}
}
}
private void getPngAttributes(ByteOrderedDataInputStream byteOrderedDataInputStream) throws IOException {
if (DEBUG) {
Log.d(TAG, "getPngAttributes starting with: " + byteOrderedDataInputStream);
}
byteOrderedDataInputStream.mark(0);
byteOrderedDataInputStream.setByteOrder(ByteOrder.BIG_ENDIAN);
byte[] bArr = PNG_SIGNATURE;
byteOrderedDataInputStream.skipBytes(bArr.length);
int length = bArr.length + 0;
while (true) {
try {
int readInt = byteOrderedDataInputStream.readInt();
int i = length + 4;
byte[] bArr2 = new byte[4];
if (byteOrderedDataInputStream.read(bArr2) == 4) {
int i2 = i + 4;
if (i2 == 16 && !Arrays.equals(bArr2, PNG_CHUNK_TYPE_IHDR)) {
throw new IOException("Encountered invalid PNG file--IHDR chunk should appearas the first chunk");
}
if (Arrays.equals(bArr2, PNG_CHUNK_TYPE_IEND)) {
return;
}
if (Arrays.equals(bArr2, PNG_CHUNK_TYPE_EXIF)) {
byte[] bArr3 = new byte[readInt];
if (byteOrderedDataInputStream.read(bArr3) == readInt) {
int readInt2 = byteOrderedDataInputStream.readInt();
CRC32 crc32 = new CRC32();
crc32.update(bArr2);
crc32.update(bArr3);
if (((int) crc32.getValue()) == readInt2) {
this.mOffsetToExifData = i2;
readExifSegment(bArr3, 0);
validateImages();
setThumbnailData(new ByteOrderedDataInputStream(bArr3));
return;
}
throw new IOException("Encountered invalid CRC value for PNG-EXIF chunk.\n recorded CRC value: " + readInt2 + ", calculated CRC value: " + crc32.getValue());
}
throw new IOException("Failed to read given length for given PNG chunk type: " + byteArrayToHexString(bArr2));
}
int i3 = readInt + 4;
byteOrderedDataInputStream.skipBytes(i3);
length = i2 + i3;
} else {
throw new IOException("Encountered invalid length while parsing PNG chunktype");
}
} catch (EOFException unused) {
throw new IOException("Encountered corrupt PNG file.");
}
}
}
private void getRafAttributes(ByteOrderedDataInputStream byteOrderedDataInputStream) throws IOException {
boolean z = DEBUG;
if (z) {
Log.d(TAG, "getRafAttributes starting with: " + byteOrderedDataInputStream);
}
byteOrderedDataInputStream.mark(0);
byteOrderedDataInputStream.skipBytes(84);
byte[] bArr = new byte[4];
byte[] bArr2 = new byte[4];
byte[] bArr3 = new byte[4];
byteOrderedDataInputStream.read(bArr);
byteOrderedDataInputStream.read(bArr2);
byteOrderedDataInputStream.read(bArr3);
int i = ByteBuffer.wrap(bArr).getInt();
int i2 = ByteBuffer.wrap(bArr2).getInt();
int i3 = ByteBuffer.wrap(bArr3).getInt();
byte[] bArr4 = new byte[i2];
byteOrderedDataInputStream.seek(i);
byteOrderedDataInputStream.read(bArr4);
getJpegAttributes(new ByteOrderedDataInputStream(bArr4), i, 5);
byteOrderedDataInputStream.seek(i3);
byteOrderedDataInputStream.setByteOrder(ByteOrder.BIG_ENDIAN);
int readInt = byteOrderedDataInputStream.readInt();
if (z) {
Log.d(TAG, "numberOfDirectoryEntry: " + readInt);
}
for (int i4 = 0; i4 < readInt; i4++) {
int readUnsignedShort = byteOrderedDataInputStream.readUnsignedShort();
int readUnsignedShort2 = byteOrderedDataInputStream.readUnsignedShort();
if (readUnsignedShort == TAG_RAF_IMAGE_SIZE.number) {
short readShort = byteOrderedDataInputStream.readShort();
short readShort2 = byteOrderedDataInputStream.readShort();
ExifAttribute createUShort = ExifAttribute.createUShort(readShort, this.mExifByteOrder);
ExifAttribute createUShort2 = ExifAttribute.createUShort(readShort2, this.mExifByteOrder);
this.mAttributes[0].put(TAG_IMAGE_LENGTH, createUShort);
this.mAttributes[0].put(TAG_IMAGE_WIDTH, createUShort2);
if (DEBUG) {
Log.d(TAG, "Updated to length: " + ((int) readShort) + ", width: " + ((int) readShort2));
return;
}
return;
}
byteOrderedDataInputStream.skipBytes(readUnsignedShort2);
}
}
private void getRawAttributes(ByteOrderedDataInputStream byteOrderedDataInputStream) throws IOException {
ExifAttribute exifAttribute;
parseTiffHeaders(byteOrderedDataInputStream, byteOrderedDataInputStream.available());
readImageFileDirectory(byteOrderedDataInputStream, 0);
updateImageSizeValues(byteOrderedDataInputStream, 0);
updateImageSizeValues(byteOrderedDataInputStream, 5);
updateImageSizeValues(byteOrderedDataInputStream, 4);
validateImages();
if (this.mMimeType != 8 || (exifAttribute = this.mAttributes[1].get(TAG_MAKER_NOTE)) == null) {
return;
}
ByteOrderedDataInputStream byteOrderedDataInputStream2 = new ByteOrderedDataInputStream(exifAttribute.bytes);
byteOrderedDataInputStream2.setByteOrder(this.mExifByteOrder);
byteOrderedDataInputStream2.seek(6L);
readImageFileDirectory(byteOrderedDataInputStream2, 9);
ExifAttribute exifAttribute2 = this.mAttributes[9].get(TAG_COLOR_SPACE);
if (exifAttribute2 != null) {
this.mAttributes[1].put(TAG_COLOR_SPACE, exifAttribute2);
}
}
private void getRw2Attributes(ByteOrderedDataInputStream byteOrderedDataInputStream) throws IOException {
if (DEBUG) {
Log.d(TAG, "getRw2Attributes starting with: " + byteOrderedDataInputStream);
}
getRawAttributes(byteOrderedDataInputStream);
ExifAttribute exifAttribute = this.mAttributes[0].get(TAG_RW2_JPG_FROM_RAW);
if (exifAttribute != null) {
getJpegAttributes(new ByteOrderedDataInputStream(exifAttribute.bytes), (int) exifAttribute.bytesOffset, 5);
}
ExifAttribute exifAttribute2 = this.mAttributes[0].get(TAG_RW2_ISO);
ExifAttribute exifAttribute3 = this.mAttributes[1].get(TAG_PHOTOGRAPHIC_SENSITIVITY);
if (exifAttribute2 == null || exifAttribute3 != null) {
return;
}
this.mAttributes[1].put(TAG_PHOTOGRAPHIC_SENSITIVITY, exifAttribute2);
}
private void getStandaloneAttributes(ByteOrderedDataInputStream byteOrderedDataInputStream) throws IOException {
byte[] bArr = IDENTIFIER_EXIF_APP1;
byteOrderedDataInputStream.skipBytes(bArr.length);
byte[] bArr2 = new byte[byteOrderedDataInputStream.available()];
byteOrderedDataInputStream.readFully(bArr2);
this.mOffsetToExifData = bArr.length;
readExifSegment(bArr2, 0);
}
private void getWebpAttributes(ByteOrderedDataInputStream byteOrderedDataInputStream) throws IOException {
if (DEBUG) {
Log.d(TAG, "getWebpAttributes starting with: " + byteOrderedDataInputStream);
}
byteOrderedDataInputStream.mark(0);
byteOrderedDataInputStream.setByteOrder(ByteOrder.LITTLE_ENDIAN);
byteOrderedDataInputStream.skipBytes(WEBP_SIGNATURE_1.length);
int readInt = byteOrderedDataInputStream.readInt() + 8;
int skipBytes = byteOrderedDataInputStream.skipBytes(WEBP_SIGNATURE_2.length) + 8;
while (true) {
try {
byte[] bArr = new byte[4];
if (byteOrderedDataInputStream.read(bArr) == 4) {
int readInt2 = byteOrderedDataInputStream.readInt();
int i = skipBytes + 4 + 4;
if (Arrays.equals(WEBP_CHUNK_TYPE_EXIF, bArr)) {
byte[] bArr2 = new byte[readInt2];
if (byteOrderedDataInputStream.read(bArr2) == readInt2) {
this.mOffsetToExifData = i;
readExifSegment(bArr2, 0);
setThumbnailData(new ByteOrderedDataInputStream(bArr2));
return;
}
throw new IOException("Failed to read given length for given PNG chunk type: " + byteArrayToHexString(bArr));
}
if (readInt2 % 2 == 1) {
readInt2++;
}
int i2 = i + readInt2;
if (i2 == readInt) {
return;
}
if (i2 <= readInt) {
int skipBytes2 = byteOrderedDataInputStream.skipBytes(readInt2);
if (skipBytes2 != readInt2) {
throw new IOException("Encountered WebP file with invalid chunk size");
}
skipBytes = i + skipBytes2;
} else {
throw new IOException("Encountered WebP file with invalid chunk size");
}
} else {
throw new IOException("Encountered invalid length while parsing WebP chunktype");
}
} catch (EOFException unused) {
throw new IOException("Encountered corrupt WebP file.");
}
}
}
private static Pair<Integer, Integer> guessDataFormat(String str) {
if (str.contains(",")) {
String[] split = str.split(",", -1);
Pair<Integer, Integer> guessDataFormat = guessDataFormat(split[0]);
if (((Integer) guessDataFormat.first).intValue() == 2) {
return guessDataFormat;
}
for (int i = 1; i < split.length; i++) {
Pair<Integer, Integer> guessDataFormat2 = guessDataFormat(split[i]);
int intValue = (((Integer) guessDataFormat2.first).equals(guessDataFormat.first) || ((Integer) guessDataFormat2.second).equals(guessDataFormat.first)) ? ((Integer) guessDataFormat.first).intValue() : -1;
int intValue2 = (((Integer) guessDataFormat.second).intValue() == -1 || !(((Integer) guessDataFormat2.first).equals(guessDataFormat.second) || ((Integer) guessDataFormat2.second).equals(guessDataFormat.second))) ? -1 : ((Integer) guessDataFormat.second).intValue();
if (intValue == -1 && intValue2 == -1) {
return new Pair<>(2, -1);
}
if (intValue == -1) {
guessDataFormat = new Pair<>(Integer.valueOf(intValue2), -1);
} else if (intValue2 == -1) {
guessDataFormat = new Pair<>(Integer.valueOf(intValue), -1);
}
}
return guessDataFormat;
} else if (str.contains("/")) {
String[] split2 = str.split("/", -1);
if (split2.length == 2) {
try {
long parseDouble = (long) Double.parseDouble(split2[0]);
long parseDouble2 = (long) Double.parseDouble(split2[1]);
if (parseDouble >= 0 && parseDouble2 >= 0) {
if (parseDouble <= 2147483647L && parseDouble2 <= 2147483647L) {
return new Pair<>(10, 5);
}
return new Pair<>(5, -1);
}
return new Pair<>(10, -1);
} catch (NumberFormatException unused) {
}
}
return new Pair<>(2, -1);
} else {
try {
try {
Long valueOf = Long.valueOf(Long.parseLong(str));
if (valueOf.longValue() >= 0 && valueOf.longValue() <= 65535) {
return new Pair<>(3, 4);
}
if (valueOf.longValue() < 0) {
return new Pair<>(9, -1);
}
return new Pair<>(4, -1);
} catch (NumberFormatException unused2) {
return new Pair<>(2, -1);
}
} catch (NumberFormatException unused3) {
Double.parseDouble(str);
return new Pair<>(12, -1);
}
}
}
private void handleThumbnailFromJfif(ByteOrderedDataInputStream byteOrderedDataInputStream, HashMap hashMap) throws IOException {
ExifAttribute exifAttribute = (ExifAttribute) hashMap.get(TAG_JPEG_INTERCHANGE_FORMAT);
ExifAttribute exifAttribute2 = (ExifAttribute) hashMap.get(TAG_JPEG_INTERCHANGE_FORMAT_LENGTH);
if (exifAttribute == null || exifAttribute2 == null) {
return;
}
int intValue = exifAttribute.getIntValue(this.mExifByteOrder);
int intValue2 = exifAttribute2.getIntValue(this.mExifByteOrder);
if (this.mMimeType == 7) {
intValue += this.mOrfMakerNoteOffset;
}
int min = Math.min(intValue2, byteOrderedDataInputStream.getLength() - intValue);
if (intValue > 0 && min > 0) {
this.mHasThumbnail = true;
if (this.mFilename == null && this.mAssetInputStream == null && this.mSeekableFileDescriptor == null) {
byte[] bArr = new byte[min];
byteOrderedDataInputStream.skip(intValue);
byteOrderedDataInputStream.read(bArr);
this.mThumbnailBytes = bArr;
}
this.mThumbnailOffset = intValue;
this.mThumbnailLength = min;
}
if (DEBUG) {
Log.d(TAG, "Setting thumbnail attributes with offset: " + intValue + ", length: " + min);
}
}
private void handleThumbnailFromStrips(ByteOrderedDataInputStream byteOrderedDataInputStream, HashMap hashMap) throws IOException {
ExifAttribute exifAttribute = (ExifAttribute) hashMap.get(TAG_STRIP_OFFSETS);
ExifAttribute exifAttribute2 = (ExifAttribute) hashMap.get(TAG_STRIP_BYTE_COUNTS);
if (exifAttribute == null || exifAttribute2 == null) {
return;
}
long[] convertToLongArray = convertToLongArray(exifAttribute.getValue(this.mExifByteOrder));
long[] convertToLongArray2 = convertToLongArray(exifAttribute2.getValue(this.mExifByteOrder));
if (convertToLongArray != null && convertToLongArray.length != 0) {
if (convertToLongArray2 != null && convertToLongArray2.length != 0) {
if (convertToLongArray.length != convertToLongArray2.length) {
Log.w(TAG, "stripOffsets and stripByteCounts should have same length.");
return;
}
long j = 0;
for (long j2 : convertToLongArray2) {
j += j2;
}
int i = (int) j;
byte[] bArr = new byte[i];
int i2 = 1;
this.mAreThumbnailStripsConsecutive = true;
this.mHasThumbnailStrips = true;
this.mHasThumbnail = true;
int i3 = 0;
int i4 = 0;
int i5 = 0;
while (i3 < convertToLongArray.length) {
int i6 = (int) convertToLongArray[i3];
int i7 = (int) convertToLongArray2[i3];
if (i3 < convertToLongArray.length - i2 && i6 + i7 != convertToLongArray[i3 + 1]) {
this.mAreThumbnailStripsConsecutive = false;
}
int i8 = i6 - i4;
if (i8 < 0) {
Log.d(TAG, "Invalid strip offset value");
return;
}
long j3 = i8;
if (byteOrderedDataInputStream.skip(j3) != j3) {
Log.d(TAG, "Failed to skip " + i8 + " bytes.");
return;
}
int i9 = i4 + i8;
byte[] bArr2 = new byte[i7];
if (byteOrderedDataInputStream.read(bArr2) != i7) {
Log.d(TAG, "Failed to read " + i7 + " bytes.");
return;
}
i4 = i9 + i7;
System.arraycopy(bArr2, 0, bArr, i5, i7);
i5 += i7;
i3++;
i2 = 1;
}
this.mThumbnailBytes = bArr;
if (this.mAreThumbnailStripsConsecutive) {
this.mThumbnailOffset = (int) convertToLongArray[0];
this.mThumbnailLength = i;
return;
}
return;
}
Log.w(TAG, "stripByteCounts should not be null or have zero length.");
return;
}
Log.w(TAG, "stripOffsets should not be null or have zero length.");
}
private static boolean isExifDataOnly(BufferedInputStream bufferedInputStream) throws IOException {
byte[] bArr = IDENTIFIER_EXIF_APP1;
bufferedInputStream.mark(bArr.length);
byte[] bArr2 = new byte[bArr.length];
bufferedInputStream.read(bArr2);
bufferedInputStream.reset();
int i = 0;
while (true) {
byte[] bArr3 = IDENTIFIER_EXIF_APP1;
if (i >= bArr3.length) {
return true;
}
if (bArr2[i] != bArr3[i]) {
return false;
}
i++;
}
}
private boolean isHeifFormat(byte[] bArr) throws IOException {
ByteOrderedDataInputStream byteOrderedDataInputStream;
long readInt;
byte[] bArr2;
ByteOrderedDataInputStream byteOrderedDataInputStream2 = null;
try {
try {
byteOrderedDataInputStream = new ByteOrderedDataInputStream(bArr);
} catch (Exception e) {
e = e;
}
} catch (Throwable th) {
th = th;
}
try {
readInt = byteOrderedDataInputStream.readInt();
bArr2 = new byte[4];
byteOrderedDataInputStream.read(bArr2);
} catch (Exception e2) {
e = e2;
byteOrderedDataInputStream2 = byteOrderedDataInputStream;
if (DEBUG) {
Log.d(TAG, "Exception parsing HEIF file type box.", e);
}
if (byteOrderedDataInputStream2 != null) {
byteOrderedDataInputStream = byteOrderedDataInputStream2;
byteOrderedDataInputStream.close();
}
return false;
} catch (Throwable th2) {
th = th2;
byteOrderedDataInputStream2 = byteOrderedDataInputStream;
if (byteOrderedDataInputStream2 != null) {
byteOrderedDataInputStream2.close();
}
throw th;
}
if (!Arrays.equals(bArr2, HEIF_TYPE_FTYP)) {
byteOrderedDataInputStream.close();
return false;
}
long j = 16;
if (readInt == 1) {
readInt = byteOrderedDataInputStream.readLong();
if (readInt < 16) {
byteOrderedDataInputStream.close();
return false;
}
} else {
j = 8;
}
if (readInt > bArr.length) {
readInt = bArr.length;
}
long j2 = readInt - j;
if (j2 < 8) {
byteOrderedDataInputStream.close();
return false;
}
byte[] bArr3 = new byte[4];
boolean z = false;
boolean z2 = false;
for (long j3 = 0; j3 < j2 / 4; j3++) {
if (byteOrderedDataInputStream.read(bArr3) != 4) {
byteOrderedDataInputStream.close();
return false;
}
if (j3 != 1) {
if (Arrays.equals(bArr3, HEIF_BRAND_MIF1)) {
z = true;
} else if (Arrays.equals(bArr3, HEIF_BRAND_HEIC)) {
z2 = true;
}
if (z && z2) {
byteOrderedDataInputStream.close();
return true;
}
}
}
byteOrderedDataInputStream.close();
return false;
}
private static boolean isJpegFormat(byte[] bArr) throws IOException {
int i = 0;
while (true) {
byte[] bArr2 = JPEG_SIGNATURE;
if (i >= bArr2.length) {
return true;
}
if (bArr[i] != bArr2[i]) {
return false;
}
i++;
}
}
private boolean isOrfFormat(byte[] bArr) throws IOException {
boolean z = false;
ByteOrderedDataInputStream byteOrderedDataInputStream = null;
try {
ByteOrderedDataInputStream byteOrderedDataInputStream2 = new ByteOrderedDataInputStream(bArr);
try {
ByteOrder readByteOrder = readByteOrder(byteOrderedDataInputStream2);
this.mExifByteOrder = readByteOrder;
byteOrderedDataInputStream2.setByteOrder(readByteOrder);
short readShort = byteOrderedDataInputStream2.readShort();
z = (readShort == 20306 || readShort == 21330) ? true : true;
byteOrderedDataInputStream2.close();
return z;
} catch (Exception unused) {
byteOrderedDataInputStream = byteOrderedDataInputStream2;
if (byteOrderedDataInputStream != null) {
byteOrderedDataInputStream.close();
}
return false;
} catch (Throwable th) {
th = th;
byteOrderedDataInputStream = byteOrderedDataInputStream2;
if (byteOrderedDataInputStream != null) {
byteOrderedDataInputStream.close();
}
throw th;
}
} catch (Exception unused2) {
} catch (Throwable th2) {
th = th2;
}
}
private boolean isPngFormat(byte[] bArr) throws IOException {
int i = 0;
while (true) {
byte[] bArr2 = PNG_SIGNATURE;
if (i >= bArr2.length) {
return true;
}
if (bArr[i] != bArr2[i]) {
return false;
}
i++;
}
}
private boolean isRafFormat(byte[] bArr) throws IOException {
byte[] bytes = RAF_SIGNATURE.getBytes(Charset.defaultCharset());
for (int i = 0; i < bytes.length; i++) {
if (bArr[i] != bytes[i]) {
return false;
}
}
return true;
}
private boolean isRw2Format(byte[] bArr) throws IOException {
ByteOrderedDataInputStream byteOrderedDataInputStream = null;
try {
ByteOrderedDataInputStream byteOrderedDataInputStream2 = new ByteOrderedDataInputStream(bArr);
try {
ByteOrder readByteOrder = readByteOrder(byteOrderedDataInputStream2);
this.mExifByteOrder = readByteOrder;
byteOrderedDataInputStream2.setByteOrder(readByteOrder);
boolean z = byteOrderedDataInputStream2.readShort() == 85;
byteOrderedDataInputStream2.close();
return z;
} catch (Exception unused) {
byteOrderedDataInputStream = byteOrderedDataInputStream2;
if (byteOrderedDataInputStream != null) {
byteOrderedDataInputStream.close();
}
return false;
} catch (Throwable th) {
th = th;
byteOrderedDataInputStream = byteOrderedDataInputStream2;
if (byteOrderedDataInputStream != null) {
byteOrderedDataInputStream.close();
}
throw th;
}
} catch (Exception unused2) {
} catch (Throwable th2) {
th = th2;
}
}
private static boolean isSeekableFD(FileDescriptor fileDescriptor) {
if (Build.VERSION.SDK_INT >= 21) {
try {
Os.lseek(fileDescriptor, 0L, OsConstants.SEEK_CUR);
return true;
} catch (Exception unused) {
if (DEBUG) {
Log.d(TAG, "The file descriptor for the given input is not seekable");
}
}
}
return false;
}
private boolean isSupportedDataType(HashMap hashMap) throws IOException {
ExifAttribute exifAttribute;
int intValue;
ExifAttribute exifAttribute2 = (ExifAttribute) hashMap.get(TAG_BITS_PER_SAMPLE);
if (exifAttribute2 != null) {
int[] iArr = (int[]) exifAttribute2.getValue(this.mExifByteOrder);
int[] iArr2 = BITS_PER_SAMPLE_RGB;
if (Arrays.equals(iArr2, iArr)) {
return true;
}
if (this.mMimeType == 3 && (exifAttribute = (ExifAttribute) hashMap.get(TAG_PHOTOMETRIC_INTERPRETATION)) != null && (((intValue = exifAttribute.getIntValue(this.mExifByteOrder)) == 1 && Arrays.equals(iArr, BITS_PER_SAMPLE_GREYSCALE_2)) || (intValue == 6 && Arrays.equals(iArr, iArr2)))) {
return true;
}
}
if (DEBUG) {
Log.d(TAG, "Unsupported data type value");
return false;
}
return false;
}
private boolean isSupportedFormatForSavingAttributes() {
int i = this.mMimeType;
return i == 4 || i == 13 || i == 14;
}
private boolean isThumbnail(HashMap hashMap) throws IOException {
ExifAttribute exifAttribute = (ExifAttribute) hashMap.get(TAG_IMAGE_LENGTH);
ExifAttribute exifAttribute2 = (ExifAttribute) hashMap.get(TAG_IMAGE_WIDTH);
if (exifAttribute == null || exifAttribute2 == null) {
return false;
}
return exifAttribute.getIntValue(this.mExifByteOrder) <= 512 && exifAttribute2.getIntValue(this.mExifByteOrder) <= 512;
}
private boolean isWebpFormat(byte[] bArr) throws IOException {
int i = 0;
while (true) {
byte[] bArr2 = WEBP_SIGNATURE_1;
if (i >= bArr2.length) {
int i2 = 0;
while (true) {
byte[] bArr3 = WEBP_SIGNATURE_2;
if (i2 >= bArr3.length) {
return true;
}
if (bArr[WEBP_SIGNATURE_1.length + i2 + 4] != bArr3[i2]) {
return false;
}
i2++;
}
} else if (bArr[i] != bArr2[i]) {
return false;
} else {
i++;
}
}
}
private static Long parseDateTime(String str, String str2, String str3) {
if (str != null && NON_ZERO_TIME_PATTERN.matcher(str).matches()) {
ParsePosition parsePosition = new ParsePosition(0);
try {
Date parse = sFormatterPrimary.parse(str, parsePosition);
if (parse == null && (parse = sFormatterSecondary.parse(str, parsePosition)) == null) {
return null;
}
long time = parse.getTime();
if (str3 != null) {
String substring = str3.substring(0, 1);
int parseInt = Integer.parseInt(str3.substring(1, 3));
int parseInt2 = Integer.parseInt(str3.substring(4, 6));
if ((Operators.PLUS.equals(substring) || Operators.SUB.equals(substring)) && ":".equals(str3.substring(3, 4)) && parseInt <= 14) {
time += ((parseInt * 60) + parseInt2) * 60 * 1000 * (Operators.SUB.equals(substring) ? 1 : -1);
}
}
if (str2 != null) {
try {
long parseLong = Long.parseLong(str2);
while (parseLong > 1000) {
parseLong /= 10;
}
time += parseLong;
} catch (NumberFormatException unused) {
}
}
return Long.valueOf(time);
} catch (IllegalArgumentException unused2) {
}
}
return null;
}
private void parseTiffHeaders(ByteOrderedDataInputStream byteOrderedDataInputStream, int i) throws IOException {
ByteOrder readByteOrder = readByteOrder(byteOrderedDataInputStream);
this.mExifByteOrder = readByteOrder;
byteOrderedDataInputStream.setByteOrder(readByteOrder);
int readUnsignedShort = byteOrderedDataInputStream.readUnsignedShort();
int i2 = this.mMimeType;
if (i2 != 7 && i2 != 10 && readUnsignedShort != 42) {
throw new IOException("Invalid start code: " + Integer.toHexString(readUnsignedShort));
}
int readInt = byteOrderedDataInputStream.readInt();
if (readInt >= 8 && readInt < i) {
int i3 = readInt - 8;
if (i3 <= 0 || byteOrderedDataInputStream.skipBytes(i3) == i3) {
return;
}
throw new IOException("Couldn't jump to first Ifd: " + i3);
}
throw new IOException("Invalid first Ifd offset: " + readInt);
}
private void printAttributes() {
for (int i = 0; i < this.mAttributes.length; i++) {
Log.d(TAG, "The size of tag group[" + i + "]: " + this.mAttributes[i].size());
for (Map.Entry<String, ExifAttribute> entry : this.mAttributes[i].entrySet()) {
ExifAttribute value = entry.getValue();
Log.d(TAG, "tagName: " + entry.getKey() + ", tagType: " + value.toString() + ", tagValue: '" + value.getStringValue(this.mExifByteOrder) + "'");
}
}
}
private ByteOrder readByteOrder(ByteOrderedDataInputStream byteOrderedDataInputStream) throws IOException {
short readShort = byteOrderedDataInputStream.readShort();
if (readShort == 18761) {
if (DEBUG) {
Log.d(TAG, "readExifSegment: Byte Align II");
}
return ByteOrder.LITTLE_ENDIAN;
} else if (readShort == 19789) {
if (DEBUG) {
Log.d(TAG, "readExifSegment: Byte Align MM");
}
return ByteOrder.BIG_ENDIAN;
} else {
throw new IOException("Invalid byte order: " + Integer.toHexString(readShort));
}
}
private void readExifSegment(byte[] bArr, int i) throws IOException {
ByteOrderedDataInputStream byteOrderedDataInputStream = new ByteOrderedDataInputStream(bArr);
parseTiffHeaders(byteOrderedDataInputStream, bArr.length);
readImageFileDirectory(byteOrderedDataInputStream, i);
}
private void readImageFileDirectory(ByteOrderedDataInputStream byteOrderedDataInputStream, int i) throws IOException {
String str;
short s;
int[] iArr;
long j;
boolean z;
short s2;
ExifTag exifTag;
long j2;
int i2;
int i3;
long j3;
int readUnsignedShort;
long j4;
int i4 = i;
this.mAttributesOffsets.add(Integer.valueOf(byteOrderedDataInputStream.mPosition));
if (byteOrderedDataInputStream.mPosition + 2 > byteOrderedDataInputStream.mLength) {
return;
}
short readShort = byteOrderedDataInputStream.readShort();
boolean z2 = DEBUG;
String str2 = TAG;
if (z2) {
Log.d(TAG, "numberOfDirectoryEntry: " + ((int) readShort));
}
if (byteOrderedDataInputStream.mPosition + (readShort * 12) > byteOrderedDataInputStream.mLength || readShort <= 0) {
return;
}
char c = 0;
short s3 = 0;
while (s3 < readShort) {
int readUnsignedShort2 = byteOrderedDataInputStream.readUnsignedShort();
int readUnsignedShort3 = byteOrderedDataInputStream.readUnsignedShort();
int readInt = byteOrderedDataInputStream.readInt();
long peek = byteOrderedDataInputStream.peek() + 4;
ExifTag exifTag2 = sExifTagMapsForReading[i4].get(Integer.valueOf(readUnsignedShort2));
boolean z3 = DEBUG;
if (z3) {
Object[] objArr = new Object[5];
objArr[c] = Integer.valueOf(i);
objArr[1] = Integer.valueOf(readUnsignedShort2);
objArr[2] = exifTag2 != null ? exifTag2.name : null;
objArr[3] = Integer.valueOf(readUnsignedShort3);
objArr[4] = Integer.valueOf(readInt);
Log.d(str2, String.format("ifdType: %d, tagNumber: %d, tagName: %s, dataFormat: %d, numberOfComponents: %d", objArr));
}
if (exifTag2 != null) {
if (readUnsignedShort3 > 0) {
if (readUnsignedShort3 < IFD_FORMAT_BYTES_PER_FORMAT.length) {
if (exifTag2.isFormatCompatible(readUnsignedShort3)) {
if (readUnsignedShort3 == 7) {
readUnsignedShort3 = exifTag2.primaryFormat;
}
str = str2;
s = s3;
j = readInt * iArr[readUnsignedShort3];
if (j < 0 || j > 2147483647L) {
if (z3) {
Log.d(str, "Skip the tag entry since the number of components is invalid: " + readInt);
}
z = false;
if (z) {
byteOrderedDataInputStream.seek(peek);
s2 = readShort;
} else {
if (j > 4) {
int readInt2 = byteOrderedDataInputStream.readInt();
s2 = readShort;
if (z3) {
StringBuilder sb = new StringBuilder();
i2 = readUnsignedShort3;
sb.append("seek to data offset: ");
sb.append(readInt2);
Log.d(str, sb.toString());
} else {
i2 = readUnsignedShort3;
}
if (this.mMimeType == 7) {
if (TAG_MAKER_NOTE.equals(exifTag2.name)) {
this.mOrfMakerNoteOffset = readInt2;
} else if (i4 == 6 && TAG_ORF_THUMBNAIL_IMAGE.equals(exifTag2.name)) {
this.mOrfThumbnailOffset = readInt2;
this.mOrfThumbnailLength = readInt;
ExifAttribute createUShort = ExifAttribute.createUShort(6, this.mExifByteOrder);
i3 = readInt;
ExifAttribute createULong = ExifAttribute.createULong(this.mOrfThumbnailOffset, this.mExifByteOrder);
exifTag = exifTag2;
ExifAttribute createULong2 = ExifAttribute.createULong(this.mOrfThumbnailLength, this.mExifByteOrder);
this.mAttributes[4].put(TAG_COMPRESSION, createUShort);
this.mAttributes[4].put(TAG_JPEG_INTERCHANGE_FORMAT, createULong);
this.mAttributes[4].put(TAG_JPEG_INTERCHANGE_FORMAT_LENGTH, createULong2);
j4 = readInt2;
j2 = j;
if (j4 + j > byteOrderedDataInputStream.mLength) {
byteOrderedDataInputStream.seek(j4);
} else {
if (z3) {
Log.d(str, "Skip the tag entry since data offset is invalid: " + readInt2);
}
byteOrderedDataInputStream.seek(peek);
}
}
}
exifTag = exifTag2;
i3 = readInt;
j4 = readInt2;
j2 = j;
if (j4 + j > byteOrderedDataInputStream.mLength) {
}
} else {
s2 = readShort;
exifTag = exifTag2;
j2 = j;
i2 = readUnsignedShort3;
i3 = readInt;
}
Integer num = sExifPointerTagMap.get(Integer.valueOf(readUnsignedShort2));
if (z3) {
StringBuilder sb2 = new StringBuilder();
sb2.append("nextIfdType: ");
sb2.append(num);
sb2.append(" byteCount: ");
j3 = j2;
sb2.append(j3);
Log.d(str, sb2.toString());
} else {
j3 = j2;
}
if (num != null) {
long j5 = -1;
int i5 = i2;
if (i5 == 3) {
readUnsignedShort = byteOrderedDataInputStream.readUnsignedShort();
} else {
if (i5 == 4) {
j5 = byteOrderedDataInputStream.readUnsignedInt();
} else if (i5 == 8) {
readUnsignedShort = byteOrderedDataInputStream.readShort();
} else if (i5 == 9 || i5 == 13) {
readUnsignedShort = byteOrderedDataInputStream.readInt();
}
if (z3) {
Log.d(str, String.format("Offset: %d, tagName: %s", Long.valueOf(j5), exifTag.name));
}
if (j5 > 0 || j5 >= byteOrderedDataInputStream.mLength) {
if (z3) {
Log.d(str, "Skip jump into the IFD since its offset is invalid: " + j5);
}
} else if (!this.mAttributesOffsets.contains(Integer.valueOf((int) j5))) {
byteOrderedDataInputStream.seek(j5);
readImageFileDirectory(byteOrderedDataInputStream, num.intValue());
} else if (z3) {
Log.d(str, "Skip jump into the IFD since it has already been read: IfdType " + num + " (at " + j5 + Operators.BRACKET_END_STR);
}
byteOrderedDataInputStream.seek(peek);
}
j5 = readUnsignedShort;
if (z3) {
}
if (j5 > 0) {
}
if (z3) {
}
byteOrderedDataInputStream.seek(peek);
} else {
ExifTag exifTag3 = exifTag;
int peek2 = byteOrderedDataInputStream.peek() + this.mOffsetToExifData;
byte[] bArr = new byte[(int) j3];
byteOrderedDataInputStream.readFully(bArr);
ExifAttribute exifAttribute = new ExifAttribute(i2, i3, peek2, bArr);
this.mAttributes[i].put(exifTag3.name, exifAttribute);
if (TAG_DNG_VERSION.equals(exifTag3.name)) {
this.mMimeType = 3;
}
if (((TAG_MAKE.equals(exifTag3.name) || TAG_MODEL.equals(exifTag3.name)) && exifAttribute.getStringValue(this.mExifByteOrder).contains(PEF_SIGNATURE)) || (TAG_COMPRESSION.equals(exifTag3.name) && exifAttribute.getIntValue(this.mExifByteOrder) == 65535)) {
this.mMimeType = 8;
}
if (byteOrderedDataInputStream.peek() != peek) {
byteOrderedDataInputStream.seek(peek);
}
}
s3 = (short) (s + 1);
i4 = i;
str2 = str;
readShort = s2;
c = 0;
}
s3 = (short) (s + 1);
i4 = i;
str2 = str;
readShort = s2;
c = 0;
} else {
z = true;
if (z) {
}
s3 = (short) (s + 1);
i4 = i;
str2 = str;
readShort = s2;
c = 0;
}
} else if (z3) {
Log.d(str2, "Skip the tag entry since data format (" + IFD_FORMAT_NAMES[readUnsignedShort3] + ") is unexpected for tag: " + exifTag2.name);
}
}
}
str = str2;
s = s3;
if (z3) {
Log.d(str, "Skip the tag entry since data format is invalid: " + readUnsignedShort3);
}
j = 0;
z = false;
if (z) {
}
s3 = (short) (s + 1);
i4 = i;
str2 = str;
readShort = s2;
c = 0;
} else if (z3) {
Log.d(str2, "Skip the tag entry since tag number is not defined: " + readUnsignedShort2);
}
str = str2;
s = s3;
j = 0;
z = false;
if (z) {
}
s3 = (short) (s + 1);
i4 = i;
str2 = str;
readShort = s2;
c = 0;
}
String str3 = str2;
if (byteOrderedDataInputStream.peek() + 4 <= byteOrderedDataInputStream.mLength) {
int readInt3 = byteOrderedDataInputStream.readInt();
boolean z4 = DEBUG;
if (z4) {
Log.d(str3, String.format("nextIfdOffset: %d", Integer.valueOf(readInt3)));
}
long j6 = readInt3;
if (j6 <= 0 || readInt3 >= byteOrderedDataInputStream.mLength) {
if (z4) {
Log.d(str3, "Stop reading file since a wrong offset may cause an infinite loop: " + readInt3);
}
} else if (this.mAttributesOffsets.contains(Integer.valueOf(readInt3))) {
if (z4) {
Log.d(str3, "Stop reading file since re-reading an IFD may cause an infinite loop: " + readInt3);
}
} else {
byteOrderedDataInputStream.seek(j6);
if (this.mAttributes[4].isEmpty()) {
readImageFileDirectory(byteOrderedDataInputStream, 4);
} else if (this.mAttributes[5].isEmpty()) {
readImageFileDirectory(byteOrderedDataInputStream, 5);
}
}
}
}
private void removeAttribute(String str) {
for (int i = 0; i < EXIF_TAGS.length; i++) {
this.mAttributes[i].remove(str);
}
}
private void retrieveJpegImageSize(ByteOrderedDataInputStream byteOrderedDataInputStream, int i) throws IOException {
ExifAttribute exifAttribute = this.mAttributes[i].get(TAG_IMAGE_LENGTH);
ExifAttribute exifAttribute2 = this.mAttributes[i].get(TAG_IMAGE_WIDTH);
if (exifAttribute == null || exifAttribute2 == null) {
ExifAttribute exifAttribute3 = this.mAttributes[i].get(TAG_JPEG_INTERCHANGE_FORMAT);
ExifAttribute exifAttribute4 = this.mAttributes[i].get(TAG_JPEG_INTERCHANGE_FORMAT_LENGTH);
if (exifAttribute3 == null || exifAttribute4 == null) {
return;
}
int intValue = exifAttribute3.getIntValue(this.mExifByteOrder);
int intValue2 = exifAttribute3.getIntValue(this.mExifByteOrder);
byteOrderedDataInputStream.seek(intValue);
byte[] bArr = new byte[intValue2];
byteOrderedDataInputStream.read(bArr);
getJpegAttributes(new ByteOrderedDataInputStream(bArr), intValue, i);
}
}
private void saveJpegAttributes(InputStream inputStream, OutputStream outputStream) throws IOException {
if (DEBUG) {
Log.d(TAG, "saveJpegAttributes starting with (inputStream: " + inputStream + ", outputStream: " + outputStream + Operators.BRACKET_END_STR);
}
DataInputStream dataInputStream = new DataInputStream(inputStream);
ByteOrderedDataOutputStream byteOrderedDataOutputStream = new ByteOrderedDataOutputStream(outputStream, ByteOrder.BIG_ENDIAN);
if (dataInputStream.readByte() == -1) {
byteOrderedDataOutputStream.writeByte(-1);
if (dataInputStream.readByte() == -40) {
byteOrderedDataOutputStream.writeByte(-40);
ExifAttribute exifAttribute = null;
if (getAttribute(TAG_XMP) != null && this.mXmpIsFromSeparateMarker) {
exifAttribute = this.mAttributes[0].remove(TAG_XMP);
}
byteOrderedDataOutputStream.writeByte(-1);
byteOrderedDataOutputStream.writeByte(-31);
writeExifSegment(byteOrderedDataOutputStream);
if (exifAttribute != null) {
this.mAttributes[0].put(TAG_XMP, exifAttribute);
}
byte[] bArr = new byte[4096];
while (dataInputStream.readByte() == -1) {
byte readByte = dataInputStream.readByte();
if (readByte == -39 || readByte == -38) {
byteOrderedDataOutputStream.writeByte(-1);
byteOrderedDataOutputStream.writeByte(readByte);
copy(dataInputStream, byteOrderedDataOutputStream);
return;
} else if (readByte != -31) {
byteOrderedDataOutputStream.writeByte(-1);
byteOrderedDataOutputStream.writeByte(readByte);
int readUnsignedShort = dataInputStream.readUnsignedShort();
byteOrderedDataOutputStream.writeUnsignedShort(readUnsignedShort);
int i = readUnsignedShort - 2;
if (i < 0) {
throw new IOException("Invalid length");
}
while (i > 0) {
int read = dataInputStream.read(bArr, 0, Math.min(i, 4096));
if (read >= 0) {
byteOrderedDataOutputStream.write(bArr, 0, read);
i -= read;
}
}
} else {
int readUnsignedShort2 = dataInputStream.readUnsignedShort() - 2;
if (readUnsignedShort2 >= 0) {
byte[] bArr2 = new byte[6];
if (readUnsignedShort2 >= 6) {
if (dataInputStream.read(bArr2) == 6) {
if (Arrays.equals(bArr2, IDENTIFIER_EXIF_APP1)) {
int i2 = readUnsignedShort2 - 6;
if (dataInputStream.skipBytes(i2) != i2) {
throw new IOException("Invalid length");
}
}
} else {
throw new IOException("Invalid exif");
}
}
byteOrderedDataOutputStream.writeByte(-1);
byteOrderedDataOutputStream.writeByte(readByte);
byteOrderedDataOutputStream.writeUnsignedShort(readUnsignedShort2 + 2);
if (readUnsignedShort2 >= 6) {
readUnsignedShort2 -= 6;
byteOrderedDataOutputStream.write(bArr2);
}
while (readUnsignedShort2 > 0) {
int read2 = dataInputStream.read(bArr, 0, Math.min(readUnsignedShort2, 4096));
if (read2 >= 0) {
byteOrderedDataOutputStream.write(bArr, 0, read2);
readUnsignedShort2 -= read2;
}
}
} else {
throw new IOException("Invalid length");
}
}
}
throw new IOException("Invalid marker");
}
throw new IOException("Invalid marker");
}
throw new IOException("Invalid marker");
}
private void savePngAttributes(InputStream inputStream, OutputStream outputStream) throws IOException {
ByteArrayOutputStream byteArrayOutputStream;
if (DEBUG) {
Log.d(TAG, "savePngAttributes starting with (inputStream: " + inputStream + ", outputStream: " + outputStream + Operators.BRACKET_END_STR);
}
DataInputStream dataInputStream = new DataInputStream(inputStream);
ByteOrder byteOrder = ByteOrder.BIG_ENDIAN;
ByteOrderedDataOutputStream byteOrderedDataOutputStream = new ByteOrderedDataOutputStream(outputStream, byteOrder);
byte[] bArr = PNG_SIGNATURE;
copy(dataInputStream, byteOrderedDataOutputStream, bArr.length);
int i = this.mOffsetToExifData;
if (i == 0) {
int readInt = dataInputStream.readInt();
byteOrderedDataOutputStream.writeInt(readInt);
copy(dataInputStream, byteOrderedDataOutputStream, readInt + 4 + 4);
} else {
copy(dataInputStream, byteOrderedDataOutputStream, ((i - bArr.length) - 4) - 4);
dataInputStream.skipBytes(dataInputStream.readInt() + 4 + 4);
}
ByteArrayOutputStream byteArrayOutputStream2 = null;
try {
byteArrayOutputStream = new ByteArrayOutputStream();
} catch (Throwable th) {
th = th;
}
try {
ByteOrderedDataOutputStream byteOrderedDataOutputStream2 = new ByteOrderedDataOutputStream(byteArrayOutputStream, byteOrder);
writeExifSegment(byteOrderedDataOutputStream2);
byte[] byteArray = ((ByteArrayOutputStream) byteOrderedDataOutputStream2.mOutputStream).toByteArray();
byteOrderedDataOutputStream.write(byteArray);
CRC32 crc32 = new CRC32();
crc32.update(byteArray, 4, byteArray.length - 4);
byteOrderedDataOutputStream.writeInt((int) crc32.getValue());
closeQuietly(byteArrayOutputStream);
copy(dataInputStream, byteOrderedDataOutputStream);
} catch (Throwable th2) {
th = th2;
byteArrayOutputStream2 = byteArrayOutputStream;
closeQuietly(byteArrayOutputStream2);
throw th;
}
}
private void saveWebpAttributes(InputStream inputStream, OutputStream outputStream) throws IOException {
ByteArrayOutputStream byteArrayOutputStream;
int i;
int i2;
int i3;
int i4;
if (DEBUG) {
Log.d(TAG, "saveWebpAttributes starting with (inputStream: " + inputStream + ", outputStream: " + outputStream + Operators.BRACKET_END_STR);
}
ByteOrder byteOrder = ByteOrder.LITTLE_ENDIAN;
ByteOrderedDataInputStream byteOrderedDataInputStream = new ByteOrderedDataInputStream(inputStream, byteOrder);
ByteOrderedDataOutputStream byteOrderedDataOutputStream = new ByteOrderedDataOutputStream(outputStream, byteOrder);
byte[] bArr = WEBP_SIGNATURE_1;
copy(byteOrderedDataInputStream, byteOrderedDataOutputStream, bArr.length);
byte[] bArr2 = WEBP_SIGNATURE_2;
byteOrderedDataInputStream.skipBytes(bArr2.length + 4);
ByteArrayOutputStream byteArrayOutputStream2 = null;
try {
try {
byteArrayOutputStream = new ByteArrayOutputStream();
} catch (Throwable th) {
th = th;
}
} catch (Exception e) {
e = e;
}
try {
ByteOrderedDataOutputStream byteOrderedDataOutputStream2 = new ByteOrderedDataOutputStream(byteArrayOutputStream, byteOrder);
int i5 = this.mOffsetToExifData;
if (i5 != 0) {
copy(byteOrderedDataInputStream, byteOrderedDataOutputStream2, ((i5 - ((bArr.length + 4) + bArr2.length)) - 4) - 4);
byteOrderedDataInputStream.skipBytes(4);
byteOrderedDataInputStream.skipBytes(byteOrderedDataInputStream.readInt());
writeExifSegment(byteOrderedDataOutputStream2);
} else {
byte[] bArr3 = new byte[4];
if (byteOrderedDataInputStream.read(bArr3) == 4) {
byte[] bArr4 = WEBP_CHUNK_TYPE_VP8X;
boolean z = true;
if (Arrays.equals(bArr3, bArr4)) {
int readInt = byteOrderedDataInputStream.readInt();
byte[] bArr5 = new byte[readInt % 2 == 1 ? readInt + 1 : readInt];
byteOrderedDataInputStream.read(bArr5);
bArr5[0] = (byte) (8 | bArr5[0]);
if (((bArr5[0] >> 1) & 1) != 1) {
z = false;
}
byteOrderedDataOutputStream2.write(bArr4);
byteOrderedDataOutputStream2.writeInt(readInt);
byteOrderedDataOutputStream2.write(bArr5);
if (z) {
copyChunksUpToGivenChunkType(byteOrderedDataInputStream, byteOrderedDataOutputStream2, WEBP_CHUNK_TYPE_ANIM, null);
while (true) {
byte[] bArr6 = new byte[4];
inputStream.read(bArr6);
if (!Arrays.equals(bArr6, WEBP_CHUNK_TYPE_ANMF)) {
break;
}
copyWebPChunk(byteOrderedDataInputStream, byteOrderedDataOutputStream2, bArr6);
}
writeExifSegment(byteOrderedDataOutputStream2);
} else {
copyChunksUpToGivenChunkType(byteOrderedDataInputStream, byteOrderedDataOutputStream2, WEBP_CHUNK_TYPE_VP8, WEBP_CHUNK_TYPE_VP8L);
writeExifSegment(byteOrderedDataOutputStream2);
}
} else {
byte[] bArr7 = WEBP_CHUNK_TYPE_VP8;
if (Arrays.equals(bArr3, bArr7) || Arrays.equals(bArr3, WEBP_CHUNK_TYPE_VP8L)) {
int readInt2 = byteOrderedDataInputStream.readInt();
int i6 = readInt2 % 2 == 1 ? readInt2 + 1 : readInt2;
byte[] bArr8 = new byte[3];
if (Arrays.equals(bArr3, bArr7)) {
byteOrderedDataInputStream.read(bArr8);
byte[] bArr9 = new byte[3];
if (byteOrderedDataInputStream.read(bArr9) == 3 && Arrays.equals(WEBP_VP8_SIGNATURE, bArr9)) {
i = byteOrderedDataInputStream.readInt();
i2 = (i << 18) >> 18;
i3 = (i << 2) >> 18;
i6 -= 10;
} else {
throw new IOException("Encountered error while checking VP8 signature");
}
} else if (!Arrays.equals(bArr3, WEBP_CHUNK_TYPE_VP8L)) {
i = 0;
i2 = 0;
i3 = 0;
} else if (byteOrderedDataInputStream.readByte() == 47) {
i = byteOrderedDataInputStream.readInt();
i4 = i & 8;
i6 -= 5;
i3 = ((i << 4) >> 18) + 1;
i2 = ((i << 18) >> 18) + 1;
byteOrderedDataOutputStream2.write(bArr4);
byteOrderedDataOutputStream2.writeInt(10);
byte[] bArr10 = new byte[10];
bArr10[0] = (byte) (bArr10[0] | 8);
bArr10[0] = (byte) (bArr10[0] | (i4 << 4));
int i7 = i2 - 1;
int i8 = i3 - 1;
bArr10[4] = (byte) i7;
bArr10[5] = (byte) (i7 >> 8);
bArr10[6] = (byte) (i7 >> 16);
bArr10[7] = (byte) i8;
bArr10[8] = (byte) (i8 >> 8);
bArr10[9] = (byte) (i8 >> 16);
byteOrderedDataOutputStream2.write(bArr10);
byteOrderedDataOutputStream2.write(bArr3);
byteOrderedDataOutputStream2.writeInt(readInt2);
if (!Arrays.equals(bArr3, bArr7)) {
byteOrderedDataOutputStream2.write(bArr8);
byteOrderedDataOutputStream2.write(WEBP_VP8_SIGNATURE);
byteOrderedDataOutputStream2.writeInt(i);
} else if (Arrays.equals(bArr3, WEBP_CHUNK_TYPE_VP8L)) {
byteOrderedDataOutputStream2.write(47);
byteOrderedDataOutputStream2.writeInt(i);
}
copy(byteOrderedDataInputStream, byteOrderedDataOutputStream2, i6);
writeExifSegment(byteOrderedDataOutputStream2);
} else {
throw new IOException("Encountered error while checking VP8L signature");
}
i4 = 0;
byteOrderedDataOutputStream2.write(bArr4);
byteOrderedDataOutputStream2.writeInt(10);
byte[] bArr102 = new byte[10];
bArr102[0] = (byte) (bArr102[0] | 8);
bArr102[0] = (byte) (bArr102[0] | (i4 << 4));
int i72 = i2 - 1;
int i82 = i3 - 1;
bArr102[4] = (byte) i72;
bArr102[5] = (byte) (i72 >> 8);
bArr102[6] = (byte) (i72 >> 16);
bArr102[7] = (byte) i82;
bArr102[8] = (byte) (i82 >> 8);
bArr102[9] = (byte) (i82 >> 16);
byteOrderedDataOutputStream2.write(bArr102);
byteOrderedDataOutputStream2.write(bArr3);
byteOrderedDataOutputStream2.writeInt(readInt2);
if (!Arrays.equals(bArr3, bArr7)) {
}
copy(byteOrderedDataInputStream, byteOrderedDataOutputStream2, i6);
writeExifSegment(byteOrderedDataOutputStream2);
}
}
} else {
throw new IOException("Encountered invalid length while parsing WebP chunk type");
}
}
copy(byteOrderedDataInputStream, byteOrderedDataOutputStream2);
int size = byteArrayOutputStream.size();
byte[] bArr11 = WEBP_SIGNATURE_2;
byteOrderedDataOutputStream.writeInt(size + bArr11.length);
byteOrderedDataOutputStream.write(bArr11);
byteArrayOutputStream.writeTo(byteOrderedDataOutputStream);
closeQuietly(byteArrayOutputStream);
} catch (Exception e2) {
e = e2;
throw new IOException("Failed to save WebP file", e);
} catch (Throwable th2) {
th = th2;
byteArrayOutputStream2 = byteArrayOutputStream;
closeQuietly(byteArrayOutputStream2);
throw th;
}
}
private void setThumbnailData(ByteOrderedDataInputStream byteOrderedDataInputStream) throws IOException {
HashMap<String, ExifAttribute> hashMap = this.mAttributes[4];
ExifAttribute exifAttribute = hashMap.get(TAG_COMPRESSION);
if (exifAttribute != null) {
int intValue = exifAttribute.getIntValue(this.mExifByteOrder);
this.mThumbnailCompression = intValue;
if (intValue != 1) {
if (intValue == 6) {
handleThumbnailFromJfif(byteOrderedDataInputStream, hashMap);
return;
} else if (intValue != 7) {
return;
}
}
if (isSupportedDataType(hashMap)) {
handleThumbnailFromStrips(byteOrderedDataInputStream, hashMap);
return;
}
return;
}
this.mThumbnailCompression = 6;
handleThumbnailFromJfif(byteOrderedDataInputStream, hashMap);
}
private static boolean startsWith(byte[] bArr, byte[] bArr2) {
if (bArr == null || bArr2 == null || bArr.length < bArr2.length) {
return false;
}
for (int i = 0; i < bArr2.length; i++) {
if (bArr[i] != bArr2[i]) {
return false;
}
}
return true;
}
private void swapBasedOnImageSize(int i, int i2) throws IOException {
if (!this.mAttributes[i].isEmpty() && !this.mAttributes[i2].isEmpty()) {
ExifAttribute exifAttribute = this.mAttributes[i].get(TAG_IMAGE_LENGTH);
ExifAttribute exifAttribute2 = this.mAttributes[i].get(TAG_IMAGE_WIDTH);
ExifAttribute exifAttribute3 = this.mAttributes[i2].get(TAG_IMAGE_LENGTH);
ExifAttribute exifAttribute4 = this.mAttributes[i2].get(TAG_IMAGE_WIDTH);
if (exifAttribute == null || exifAttribute2 == null) {
if (DEBUG) {
Log.d(TAG, "First image does not contain valid size information");
}
} else if (exifAttribute3 != null && exifAttribute4 != null) {
int intValue = exifAttribute.getIntValue(this.mExifByteOrder);
int intValue2 = exifAttribute2.getIntValue(this.mExifByteOrder);
int intValue3 = exifAttribute3.getIntValue(this.mExifByteOrder);
int intValue4 = exifAttribute4.getIntValue(this.mExifByteOrder);
if (intValue >= intValue3 || intValue2 >= intValue4) {
return;
}
HashMap<String, ExifAttribute>[] hashMapArr = this.mAttributes;
HashMap<String, ExifAttribute> hashMap = hashMapArr[i];
hashMapArr[i] = hashMapArr[i2];
hashMapArr[i2] = hashMap;
} else if (DEBUG) {
Log.d(TAG, "Second image does not contain valid size information");
}
} else if (DEBUG) {
Log.d(TAG, "Cannot perform swap since only one image data exists");
}
}
private void updateImageSizeValues(ByteOrderedDataInputStream byteOrderedDataInputStream, int i) throws IOException {
ExifAttribute createUShort;
ExifAttribute createUShort2;
ExifAttribute exifAttribute = this.mAttributes[i].get(TAG_DEFAULT_CROP_SIZE);
ExifAttribute exifAttribute2 = this.mAttributes[i].get(TAG_RW2_SENSOR_TOP_BORDER);
ExifAttribute exifAttribute3 = this.mAttributes[i].get(TAG_RW2_SENSOR_LEFT_BORDER);
ExifAttribute exifAttribute4 = this.mAttributes[i].get(TAG_RW2_SENSOR_BOTTOM_BORDER);
ExifAttribute exifAttribute5 = this.mAttributes[i].get(TAG_RW2_SENSOR_RIGHT_BORDER);
if (exifAttribute == null) {
if (exifAttribute2 != null && exifAttribute3 != null && exifAttribute4 != null && exifAttribute5 != null) {
int intValue = exifAttribute2.getIntValue(this.mExifByteOrder);
int intValue2 = exifAttribute4.getIntValue(this.mExifByteOrder);
int intValue3 = exifAttribute5.getIntValue(this.mExifByteOrder);
int intValue4 = exifAttribute3.getIntValue(this.mExifByteOrder);
if (intValue2 <= intValue || intValue3 <= intValue4) {
return;
}
ExifAttribute createUShort3 = ExifAttribute.createUShort(intValue2 - intValue, this.mExifByteOrder);
ExifAttribute createUShort4 = ExifAttribute.createUShort(intValue3 - intValue4, this.mExifByteOrder);
this.mAttributes[i].put(TAG_IMAGE_LENGTH, createUShort3);
this.mAttributes[i].put(TAG_IMAGE_WIDTH, createUShort4);
return;
}
retrieveJpegImageSize(byteOrderedDataInputStream, i);
return;
}
if (exifAttribute.format == 5) {
Rational[] rationalArr = (Rational[]) exifAttribute.getValue(this.mExifByteOrder);
if (rationalArr != null && rationalArr.length == 2) {
createUShort = ExifAttribute.createURational(rationalArr[0], this.mExifByteOrder);
createUShort2 = ExifAttribute.createURational(rationalArr[1], this.mExifByteOrder);
} else {
Log.w(TAG, "Invalid crop size values. cropSize=" + Arrays.toString(rationalArr));
return;
}
} else {
int[] iArr = (int[]) exifAttribute.getValue(this.mExifByteOrder);
if (iArr != null && iArr.length == 2) {
createUShort = ExifAttribute.createUShort(iArr[0], this.mExifByteOrder);
createUShort2 = ExifAttribute.createUShort(iArr[1], this.mExifByteOrder);
} else {
Log.w(TAG, "Invalid crop size values. cropSize=" + Arrays.toString(iArr));
return;
}
}
this.mAttributes[i].put(TAG_IMAGE_WIDTH, createUShort);
this.mAttributes[i].put(TAG_IMAGE_LENGTH, createUShort2);
}
private void validateImages() throws IOException {
swapBasedOnImageSize(0, 5);
swapBasedOnImageSize(0, 4);
swapBasedOnImageSize(5, 4);
ExifAttribute exifAttribute = this.mAttributes[1].get(TAG_PIXEL_X_DIMENSION);
ExifAttribute exifAttribute2 = this.mAttributes[1].get(TAG_PIXEL_Y_DIMENSION);
if (exifAttribute != null && exifAttribute2 != null) {
this.mAttributes[0].put(TAG_IMAGE_WIDTH, exifAttribute);
this.mAttributes[0].put(TAG_IMAGE_LENGTH, exifAttribute2);
}
if (this.mAttributes[4].isEmpty() && isThumbnail(this.mAttributes[5])) {
HashMap<String, ExifAttribute>[] hashMapArr = this.mAttributes;
hashMapArr[4] = hashMapArr[5];
hashMapArr[5] = new HashMap<>();
}
if (isThumbnail(this.mAttributes[4])) {
return;
}
Log.d(TAG, "No image meets the size requirements of a thumbnail image.");
}
private int writeExifSegment(ByteOrderedDataOutputStream byteOrderedDataOutputStream) throws IOException {
ExifTag[][] exifTagArr = EXIF_TAGS;
int[] iArr = new int[exifTagArr.length];
int[] iArr2 = new int[exifTagArr.length];
for (ExifTag exifTag : EXIF_POINTER_TAGS) {
removeAttribute(exifTag.name);
}
removeAttribute(JPEG_INTERCHANGE_FORMAT_TAG.name);
removeAttribute(JPEG_INTERCHANGE_FORMAT_LENGTH_TAG.name);
for (int i = 0; i < EXIF_TAGS.length; i++) {
for (Object obj : this.mAttributes[i].entrySet().toArray()) {
Map.Entry entry = (Map.Entry) obj;
if (entry.getValue() == null) {
this.mAttributes[i].remove(entry.getKey());
}
}
}
if (!this.mAttributes[1].isEmpty()) {
this.mAttributes[0].put(EXIF_POINTER_TAGS[1].name, ExifAttribute.createULong(0L, this.mExifByteOrder));
}
if (!this.mAttributes[2].isEmpty()) {
this.mAttributes[0].put(EXIF_POINTER_TAGS[2].name, ExifAttribute.createULong(0L, this.mExifByteOrder));
}
if (!this.mAttributes[3].isEmpty()) {
this.mAttributes[1].put(EXIF_POINTER_TAGS[3].name, ExifAttribute.createULong(0L, this.mExifByteOrder));
}
if (this.mHasThumbnail) {
this.mAttributes[4].put(JPEG_INTERCHANGE_FORMAT_TAG.name, ExifAttribute.createULong(0L, this.mExifByteOrder));
this.mAttributes[4].put(JPEG_INTERCHANGE_FORMAT_LENGTH_TAG.name, ExifAttribute.createULong(this.mThumbnailLength, this.mExifByteOrder));
}
for (int i2 = 0; i2 < EXIF_TAGS.length; i2++) {
int i3 = 0;
for (Map.Entry<String, ExifAttribute> entry2 : this.mAttributes[i2].entrySet()) {
int size = entry2.getValue().size();
if (size > 4) {
i3 += size;
}
}
iArr2[i2] = iArr2[i2] + i3;
}
int i4 = 8;
for (int i5 = 0; i5 < EXIF_TAGS.length; i5++) {
if (!this.mAttributes[i5].isEmpty()) {
iArr[i5] = i4;
i4 += (this.mAttributes[i5].size() * 12) + 2 + 4 + iArr2[i5];
}
}
if (this.mHasThumbnail) {
this.mAttributes[4].put(JPEG_INTERCHANGE_FORMAT_TAG.name, ExifAttribute.createULong(i4, this.mExifByteOrder));
this.mThumbnailOffset = i4;
i4 += this.mThumbnailLength;
}
if (this.mMimeType == 4) {
i4 += 8;
}
if (DEBUG) {
for (int i6 = 0; i6 < EXIF_TAGS.length; i6++) {
Log.d(TAG, String.format("index: %d, offsets: %d, tag count: %d, data sizes: %d, total size: %d", Integer.valueOf(i6), Integer.valueOf(iArr[i6]), Integer.valueOf(this.mAttributes[i6].size()), Integer.valueOf(iArr2[i6]), Integer.valueOf(i4)));
}
}
if (!this.mAttributes[1].isEmpty()) {
this.mAttributes[0].put(EXIF_POINTER_TAGS[1].name, ExifAttribute.createULong(iArr[1], this.mExifByteOrder));
}
if (!this.mAttributes[2].isEmpty()) {
this.mAttributes[0].put(EXIF_POINTER_TAGS[2].name, ExifAttribute.createULong(iArr[2], this.mExifByteOrder));
}
if (!this.mAttributes[3].isEmpty()) {
this.mAttributes[1].put(EXIF_POINTER_TAGS[3].name, ExifAttribute.createULong(iArr[3], this.mExifByteOrder));
}
int i7 = this.mMimeType;
if (i7 == 4) {
byteOrderedDataOutputStream.writeUnsignedShort(i4);
byteOrderedDataOutputStream.write(IDENTIFIER_EXIF_APP1);
} else if (i7 == 13) {
byteOrderedDataOutputStream.writeInt(i4);
byteOrderedDataOutputStream.write(PNG_CHUNK_TYPE_EXIF);
} else if (i7 == 14) {
byteOrderedDataOutputStream.write(WEBP_CHUNK_TYPE_EXIF);
byteOrderedDataOutputStream.writeInt(i4);
}
byteOrderedDataOutputStream.writeShort(this.mExifByteOrder == ByteOrder.BIG_ENDIAN ? BYTE_ALIGN_MM : BYTE_ALIGN_II);
byteOrderedDataOutputStream.setByteOrder(this.mExifByteOrder);
byteOrderedDataOutputStream.writeUnsignedShort(42);
byteOrderedDataOutputStream.writeUnsignedInt(8L);
for (int i8 = 0; i8 < EXIF_TAGS.length; i8++) {
if (!this.mAttributes[i8].isEmpty()) {
byteOrderedDataOutputStream.writeUnsignedShort(this.mAttributes[i8].size());
int size2 = iArr[i8] + 2 + (this.mAttributes[i8].size() * 12) + 4;
for (Map.Entry<String, ExifAttribute> entry3 : this.mAttributes[i8].entrySet()) {
int i9 = sExifTagMapsForWriting[i8].get(entry3.getKey()).number;
ExifAttribute value = entry3.getValue();
int size3 = value.size();
byteOrderedDataOutputStream.writeUnsignedShort(i9);
byteOrderedDataOutputStream.writeUnsignedShort(value.format);
byteOrderedDataOutputStream.writeInt(value.numberOfComponents);
if (size3 > 4) {
byteOrderedDataOutputStream.writeUnsignedInt(size2);
size2 += size3;
} else {
byteOrderedDataOutputStream.write(value.bytes);
if (size3 < 4) {
while (size3 < 4) {
byteOrderedDataOutputStream.writeByte(0);
size3++;
}
}
}
}
if (i8 == 0 && !this.mAttributes[4].isEmpty()) {
byteOrderedDataOutputStream.writeUnsignedInt(iArr[4]);
} else {
byteOrderedDataOutputStream.writeUnsignedInt(0L);
}
for (Map.Entry<String, ExifAttribute> entry4 : this.mAttributes[i8].entrySet()) {
byte[] bArr = entry4.getValue().bytes;
if (bArr.length > 4) {
byteOrderedDataOutputStream.write(bArr, 0, bArr.length);
}
}
}
}
if (this.mHasThumbnail) {
byteOrderedDataOutputStream.write(getThumbnailBytes());
}
if (this.mMimeType == 14 && i4 % 2 == 1) {
byteOrderedDataOutputStream.writeByte(0);
}
byteOrderedDataOutputStream.setByteOrder(ByteOrder.BIG_ENDIAN);
return i4;
}
public void flipHorizontally() {
int i = 1;
switch (getAttributeInt("Orientation", 1)) {
case 1:
i = 2;
break;
case 2:
break;
case 3:
i = 4;
break;
case 4:
i = 3;
break;
case 5:
i = 6;
break;
case 6:
i = 5;
break;
case 7:
i = 8;
break;
case 8:
i = 7;
break;
default:
i = 0;
break;
}
setAttribute("Orientation", Integer.toString(i));
}
public void flipVertically() {
int i = 1;
switch (getAttributeInt("Orientation", 1)) {
case 1:
i = 4;
break;
case 2:
i = 3;
break;
case 3:
i = 2;
break;
case 4:
break;
case 5:
i = 8;
break;
case 6:
i = 7;
break;
case 7:
i = 6;
break;
case 8:
i = 5;
break;
default:
i = 0;
break;
}
setAttribute("Orientation", Integer.toString(i));
}
public double getAltitude(double d) {
double attributeDouble = getAttributeDouble(TAG_GPS_ALTITUDE, -1.0d);
int attributeInt = getAttributeInt(TAG_GPS_ALTITUDE_REF, -1);
if (attributeDouble < 0.0d || attributeInt < 0) {
return d;
}
return attributeDouble * (attributeInt != 1 ? 1 : -1);
}
public Long getDateTime() {
return parseDateTime(getAttribute(TAG_DATETIME), getAttribute(TAG_SUBSEC_TIME), getAttribute(TAG_OFFSET_TIME));
}
public Long getDateTimeDigitized() {
return parseDateTime(getAttribute(TAG_DATETIME_DIGITIZED), getAttribute(TAG_SUBSEC_TIME_DIGITIZED), getAttribute(TAG_OFFSET_TIME_DIGITIZED));
}
public Long getDateTimeOriginal() {
return parseDateTime(getAttribute(TAG_DATETIME_ORIGINAL), getAttribute(TAG_SUBSEC_TIME_ORIGINAL), getAttribute(TAG_OFFSET_TIME_ORIGINAL));
}
public Long getGpsDateTime() {
String attribute = getAttribute(TAG_GPS_DATESTAMP);
String attribute2 = getAttribute(TAG_GPS_TIMESTAMP);
if (attribute != null && attribute2 != null) {
Pattern pattern = NON_ZERO_TIME_PATTERN;
if (pattern.matcher(attribute).matches() || pattern.matcher(attribute2).matches()) {
String str = attribute + ' ' + attribute2;
ParsePosition parsePosition = new ParsePosition(0);
try {
Date parse = sFormatterPrimary.parse(str, parsePosition);
if (parse == null && (parse = sFormatterSecondary.parse(str, parsePosition)) == null) {
return null;
}
return Long.valueOf(parse.getTime());
} catch (IllegalArgumentException unused) {
}
}
}
return null;
}
@Deprecated
public boolean getLatLong(float[] fArr) {
double[] latLong = getLatLong();
if (latLong == null) {
return false;
}
fArr[0] = (float) latLong[0];
fArr[1] = (float) latLong[1];
return true;
}
public int getRotationDegrees() {
switch (getAttributeInt("Orientation", 1)) {
case 3:
case 4:
return 180;
case 5:
case 8:
return 270;
case 6:
case 7:
return 90;
default:
return 0;
}
}
public byte[] getThumbnail() {
int i = this.mThumbnailCompression;
if (i == 6 || i == 7) {
return getThumbnailBytes();
}
return null;
}
public Bitmap getThumbnailBitmap() {
if (this.mHasThumbnail) {
if (this.mThumbnailBytes == null) {
this.mThumbnailBytes = getThumbnailBytes();
}
int i = this.mThumbnailCompression;
if (i == 6 || i == 7) {
return BitmapFactory.decodeByteArray(this.mThumbnailBytes, 0, this.mThumbnailLength);
}
if (i == 1) {
int length = this.mThumbnailBytes.length / 3;
int[] iArr = new int[length];
for (int i2 = 0; i2 < length; i2++) {
byte[] bArr = this.mThumbnailBytes;
int i3 = i2 * 3;
iArr[i2] = (bArr[i3] << 16) + 0 + (bArr[i3 + 1] << 8) + bArr[i3 + 2];
}
ExifAttribute exifAttribute = this.mAttributes[4].get(TAG_IMAGE_LENGTH);
ExifAttribute exifAttribute2 = this.mAttributes[4].get(TAG_IMAGE_WIDTH);
if (exifAttribute != null && exifAttribute2 != null) {
return Bitmap.createBitmap(iArr, exifAttribute2.getIntValue(this.mExifByteOrder), exifAttribute.getIntValue(this.mExifByteOrder), Bitmap.Config.ARGB_8888);
}
}
return null;
}
return null;
}
public byte[] getThumbnailBytes() {
FileDescriptor fileDescriptor;
Object obj;
FileDescriptor fileDescriptor2;
Exception e;
InputStream inputStream;
FileDescriptor fileDescriptor3;
InputStream inputStream2 = null;
if (!this.mHasThumbnail) {
return null;
}
byte[] bArr = this.mThumbnailBytes;
if (bArr != null) {
return bArr;
}
try {
inputStream = this.mAssetInputStream;
} catch (Exception e2) {
e = e2;
obj = null;
} catch (Throwable th) {
th = th;
fileDescriptor = 0;
}
try {
if (inputStream != null) {
try {
if (inputStream.markSupported()) {
inputStream.reset();
} else {
Log.d(TAG, "Cannot read thumbnail from inputstream without mark/reset support");
closeQuietly(inputStream);
return null;
}
} catch (Exception e3) {
e = e3;
fileDescriptor2 = 0;
try {
Log.d(TAG, "Encountered exception while getting thumbnail", e);
closeQuietly(inputStream);
if (fileDescriptor2 != 0) {
}
return null;
} catch (Throwable th2) {
th = th2;
inputStream2 = fileDescriptor2;
InputStream inputStream3 = inputStream2;
inputStream2 = inputStream;
fileDescriptor = inputStream3;
closeQuietly(inputStream2);
if (fileDescriptor != 0) {
closeFileDescriptor(fileDescriptor);
}
throw th;
}
} catch (Throwable th3) {
th = th3;
InputStream inputStream32 = inputStream2;
inputStream2 = inputStream;
fileDescriptor = inputStream32;
closeQuietly(inputStream2);
if (fileDescriptor != 0) {
}
throw th;
}
} else if (this.mFilename != null) {
inputStream = new FileInputStream(this.mFilename);
} else {
if (Build.VERSION.SDK_INT >= 21) {
fileDescriptor = Os.dup(this.mSeekableFileDescriptor);
try {
Os.lseek(fileDescriptor, 0L, OsConstants.SEEK_SET);
fileDescriptor3 = fileDescriptor;
inputStream = new FileInputStream(fileDescriptor);
} catch (Exception e4) {
obj = fileDescriptor;
e = e4;
fileDescriptor2 = obj;
e = e;
inputStream = null;
Log.d(TAG, "Encountered exception while getting thumbnail", e);
closeQuietly(inputStream);
if (fileDescriptor2 != 0) {
closeFileDescriptor(fileDescriptor2);
}
return null;
} catch (Throwable th4) {
th = th4;
closeQuietly(inputStream2);
if (fileDescriptor != 0) {
}
throw th;
}
} else {
inputStream = null;
fileDescriptor3 = 0;
}
if (inputStream == null) {
if (inputStream.skip(this.mThumbnailOffset + this.mOffsetToExifData) == this.mThumbnailOffset + this.mOffsetToExifData) {
byte[] bArr2 = new byte[this.mThumbnailLength];
if (inputStream.read(bArr2) == this.mThumbnailLength) {
this.mThumbnailBytes = bArr2;
closeQuietly(inputStream);
if (fileDescriptor3 != 0) {
closeFileDescriptor(fileDescriptor3);
}
return bArr2;
}
throw new IOException("Corrupted image");
}
throw new IOException("Corrupted image");
}
throw new FileNotFoundException();
}
if (inputStream == null) {
}
} catch (Exception e5) {
fileDescriptor2 = fileDescriptor3;
e = e5;
Log.d(TAG, "Encountered exception while getting thumbnail", e);
closeQuietly(inputStream);
if (fileDescriptor2 != 0) {
}
return null;
} catch (Throwable th5) {
th = th5;
inputStream2 = fileDescriptor3;
InputStream inputStream322 = inputStream2;
inputStream2 = inputStream;
fileDescriptor = inputStream322;
closeQuietly(inputStream2);
if (fileDescriptor != 0) {
}
throw th;
}
fileDescriptor3 = 0;
}
public long[] getThumbnailRange() {
if (!this.mModified) {
if (this.mHasThumbnail) {
if (!this.mHasThumbnailStrips || this.mAreThumbnailStripsConsecutive) {
return new long[]{this.mThumbnailOffset + this.mOffsetToExifData, this.mThumbnailLength};
}
return null;
}
return null;
}
throw new IllegalStateException("The underlying file has been modified since being parsed");
}
public boolean hasAttribute(String str) {
return getExifAttribute(str) != null;
}
public boolean hasThumbnail() {
return this.mHasThumbnail;
}
public boolean isFlipped() {
int attributeInt = getAttributeInt("Orientation", 1);
return attributeInt == 2 || attributeInt == 7 || attributeInt == 4 || attributeInt == 5;
}
public boolean isThumbnailCompressed() {
if (this.mHasThumbnail) {
int i = this.mThumbnailCompression;
return i == 6 || i == 7;
}
return false;
}
public void resetOrientation() {
setAttribute("Orientation", Integer.toString(1));
}
public void rotate(int i) {
if (i % 90 == 0) {
int attributeInt = getAttributeInt("Orientation", 1);
List<Integer> list = ROTATION_ORDER;
if (list.contains(Integer.valueOf(attributeInt))) {
int indexOf = (list.indexOf(Integer.valueOf(attributeInt)) + (i / 90)) % 4;
r4 = list.get(indexOf + (indexOf < 0 ? 4 : 0)).intValue();
} else {
List<Integer> list2 = FLIPPED_ROTATION_ORDER;
if (list2.contains(Integer.valueOf(attributeInt))) {
int indexOf2 = (list2.indexOf(Integer.valueOf(attributeInt)) + (i / 90)) % 4;
r4 = list2.get(indexOf2 + (indexOf2 < 0 ? 4 : 0)).intValue();
}
}
setAttribute("Orientation", Integer.toString(r4));
return;
}
throw new IllegalArgumentException("degree should be a multiple of 90");
}
public void saveAttributes() throws IOException {
FileInputStream fileInputStream;
File createTempFile;
FileOutputStream fileOutputStream;
BufferedInputStream bufferedInputStream;
BufferedInputStream bufferedInputStream2;
FileOutputStream fileOutputStream2;
Exception e;
FileInputStream fileInputStream2;
FileInputStream fileInputStream3;
FileOutputStream fileOutputStream3;
FileOutputStream fileOutputStream4;
if (isSupportedFormatForSavingAttributes()) {
if (this.mSeekableFileDescriptor == null && this.mFilename == null) {
throw new IOException("ExifInterface does not support saving attributes for the current input.");
}
this.mModified = true;
this.mThumbnailBytes = getThumbnail();
FileOutputStream fileOutputStream5 = null;
try {
createTempFile = File.createTempFile("temp", "tmp");
if (this.mFilename != null) {
fileInputStream = new FileInputStream(this.mFilename);
} else if (Build.VERSION.SDK_INT >= 21) {
Os.lseek(this.mSeekableFileDescriptor, 0L, OsConstants.SEEK_SET);
fileInputStream = new FileInputStream(this.mSeekableFileDescriptor);
} else {
fileInputStream = null;
}
try {
try {
fileOutputStream = new FileOutputStream(createTempFile);
} catch (Exception e2) {
e = e2;
}
} catch (Throwable th) {
th = th;
}
} catch (Exception e3) {
e = e3;
fileInputStream = null;
} catch (Throwable th2) {
th = th2;
fileInputStream = null;
}
try {
copy(fileInputStream, fileOutputStream);
closeQuietly(fileInputStream);
closeQuietly(fileOutputStream);
try {
try {
try {
fileInputStream2 = new FileInputStream(createTempFile);
} catch (Exception e4) {
e = e4;
fileInputStream2 = null;
}
} catch (Throwable th3) {
th = th3;
bufferedInputStream2 = null;
}
} catch (Throwable th4) {
th = th4;
bufferedInputStream2 = bufferedInputStream;
fileOutputStream5 = fileOutputStream2;
}
try {
if (this.mFilename != null) {
fileOutputStream4 = new FileOutputStream(this.mFilename);
} else if (Build.VERSION.SDK_INT >= 21) {
Os.lseek(this.mSeekableFileDescriptor, 0L, OsConstants.SEEK_SET);
fileOutputStream4 = new FileOutputStream(this.mSeekableFileDescriptor);
} else {
fileOutputStream4 = null;
}
try {
bufferedInputStream2 = new BufferedInputStream(fileInputStream2);
try {
BufferedOutputStream bufferedOutputStream = new BufferedOutputStream(fileOutputStream4);
try {
int i = this.mMimeType;
if (i == 4) {
saveJpegAttributes(bufferedInputStream2, bufferedOutputStream);
} else if (i == 13) {
savePngAttributes(bufferedInputStream2, bufferedOutputStream);
} else if (i == 14) {
saveWebpAttributes(bufferedInputStream2, bufferedOutputStream);
}
closeQuietly(bufferedInputStream2);
closeQuietly(bufferedOutputStream);
createTempFile.delete();
this.mThumbnailBytes = null;
} catch (Exception e5) {
FileOutputStream fileOutputStream6 = fileOutputStream4;
e = e5;
fileOutputStream5 = fileOutputStream6;
try {
fileInputStream3 = new FileInputStream(createTempFile);
} catch (Exception e6) {
e = e6;
} catch (Throwable th5) {
th = th5;
}
try {
if (this.mFilename == null) {
if (Build.VERSION.SDK_INT >= 21) {
Os.lseek(this.mSeekableFileDescriptor, 0L, OsConstants.SEEK_SET);
fileOutputStream3 = new FileOutputStream(this.mSeekableFileDescriptor);
}
copy(fileInputStream3, fileOutputStream5);
closeQuietly(fileInputStream3);
closeQuietly(fileOutputStream5);
throw new IOException("Failed to save new file", e);
}
fileOutputStream3 = new FileOutputStream(this.mFilename);
fileOutputStream5 = fileOutputStream3;
copy(fileInputStream3, fileOutputStream5);
closeQuietly(fileInputStream3);
closeQuietly(fileOutputStream5);
throw new IOException("Failed to save new file", e);
} catch (Exception e7) {
e = e7;
fileInputStream2 = fileInputStream3;
try {
throw new IOException("Failed to save new file. Original file is stored in " + createTempFile.getAbsolutePath(), e);
} catch (Throwable th6) {
th = th6;
closeQuietly(fileInputStream2);
closeQuietly(fileOutputStream5);
throw th;
}
} catch (Throwable th7) {
th = th7;
fileInputStream2 = fileInputStream3;
closeQuietly(fileInputStream2);
closeQuietly(fileOutputStream5);
throw th;
}
}
} catch (Exception e8) {
fileOutputStream5 = fileOutputStream4;
e = e8;
} catch (Throwable th8) {
th = th8;
closeQuietly(bufferedInputStream2);
closeQuietly(fileOutputStream5);
if (0 == 0) {
createTempFile.delete();
}
throw th;
}
} catch (Exception e9) {
fileOutputStream5 = fileOutputStream4;
e = e9;
}
} catch (Exception e10) {
e = e10;
}
} catch (Exception e11) {
e = e11;
fileOutputStream5 = fileOutputStream;
throw new IOException("Failed to copy original file to temp file", e);
} catch (Throwable th9) {
th = th9;
fileOutputStream5 = fileOutputStream;
closeQuietly(fileInputStream);
closeQuietly(fileOutputStream5);
throw th;
}
} else {
throw new IOException("ExifInterface only supports saving attributes on JPEG, PNG, or WebP formats.");
}
}
public void setAltitude(double d) {
String str = d >= 0.0d ? WXInstanceApm.VALUE_ERROR_CODE_DEFAULT : "1";
setAttribute(TAG_GPS_ALTITUDE, new Rational(Math.abs(d)).toString());
setAttribute(TAG_GPS_ALTITUDE_REF, str);
}
public void setDateTime(Long l) {
setAttribute(TAG_DATETIME, sFormatterPrimary.format(new Date(l.longValue())));
setAttribute(TAG_SUBSEC_TIME, Long.toString(l.longValue() % 1000));
}
public void setGpsInfo(Location location) {
if (location == null) {
return;
}
setAttribute(TAG_GPS_PROCESSING_METHOD, location.getProvider());
setLatLong(location.getLatitude(), location.getLongitude());
setAltitude(location.getAltitude());
setAttribute(TAG_GPS_SPEED_REF, "K");
setAttribute(TAG_GPS_SPEED, new Rational((location.getSpeed() * ((float) TimeUnit.HOURS.toSeconds(1L))) / 1000.0f).toString());
String[] split = sFormatterPrimary.format(new Date(location.getTime())).split("\\s+", -1);
setAttribute(TAG_GPS_DATESTAMP, split[0]);
setAttribute(TAG_GPS_TIMESTAMP, split[1]);
}
public void setLatLong(double d, double d2) {
if (d >= -90.0d && d <= 90.0d && !Double.isNaN(d)) {
if (d2 >= -180.0d && d2 <= 180.0d && !Double.isNaN(d2)) {
setAttribute(TAG_GPS_LATITUDE_REF, d >= 0.0d ? "N" : LATITUDE_SOUTH);
setAttribute(TAG_GPS_LATITUDE, convertDecimalDegree(Math.abs(d)));
setAttribute(TAG_GPS_LONGITUDE_REF, d2 >= 0.0d ? LONGITUDE_EAST : LONGITUDE_WEST);
setAttribute(TAG_GPS_LONGITUDE, convertDecimalDegree(Math.abs(d2)));
return;
}
throw new IllegalArgumentException("Longitude value " + d2 + " is not valid.");
}
throw new IllegalArgumentException("Latitude value " + d + " is not valid.");
}
private void copyChunksUpToGivenChunkType(ByteOrderedDataInputStream byteOrderedDataInputStream, ByteOrderedDataOutputStream byteOrderedDataOutputStream, byte[] bArr, byte[] bArr2) throws IOException {
Charset charset;
String str;
while (true) {
byte[] bArr3 = new byte[4];
if (byteOrderedDataInputStream.read(bArr3) != 4) {
StringBuilder sb = new StringBuilder();
sb.append("Encountered invalid length while copying WebP chunks up tochunk type ");
sb.append(new String(bArr, ASCII));
if (bArr2 == null) {
str = "";
} else {
str = " or " + new String(bArr2, charset);
}
sb.append(str);
throw new IOException(sb.toString());
}
copyWebPChunk(byteOrderedDataInputStream, byteOrderedDataOutputStream, bArr3);
if (Arrays.equals(bArr3, bArr)) {
return;
}
if (bArr2 != null && Arrays.equals(bArr3, bArr2)) {
return;
}
}
}
public static boolean isSupportedMimeType(String str) {
Objects.requireNonNull(str, "mimeType shouldn't be null");
String lowerCase = str.toLowerCase(Locale.ROOT);
lowerCase.hashCode();
lowerCase.hashCode();
char c = 65535;
switch (lowerCase.hashCode()) {
case -1875291391:
if (lowerCase.equals("image/x-fuji-raf")) {
c = 0;
break;
}
break;
case -1635437028:
if (lowerCase.equals("image/x-samsung-srw")) {
c = 1;
break;
}
break;
case -1594371159:
if (lowerCase.equals("image/x-sony-arw")) {
c = 2;
break;
}
break;
case -1487464693:
if (lowerCase.equals("image/heic")) {
c = 3;
break;
}
break;
case -1487464690:
if (lowerCase.equals("image/heif")) {
c = 4;
break;
}
break;
case -1487394660:
if (lowerCase.equals("image/jpeg")) {
c = 5;
break;
}
break;
case -1487018032:
if (lowerCase.equals("image/webp")) {
c = 6;
break;
}
break;
case -1423313290:
if (lowerCase.equals("image/x-adobe-dng")) {
c = 7;
break;
}
break;
case -985160897:
if (lowerCase.equals("image/x-panasonic-rw2")) {
c = '\b';
break;
}
break;
case -879258763:
if (lowerCase.equals("image/png")) {
c = '\t';
break;
}
break;
case -332763809:
if (lowerCase.equals("image/x-pentax-pef")) {
c = '\n';
break;
}
break;
case 1378106698:
if (lowerCase.equals("image/x-olympus-orf")) {
c = 11;
break;
}
break;
case 2099152104:
if (lowerCase.equals("image/x-nikon-nef")) {
c = '\f';
break;
}
break;
case 2099152524:
if (lowerCase.equals("image/x-nikon-nrw")) {
c = '\r';
break;
}
break;
case 2111234748:
if (lowerCase.equals("image/x-canon-cr2")) {
c = 14;
break;
}
break;
}
switch (c) {
case 0:
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
case '\b':
case '\t':
case '\n':
case 11:
case '\f':
case '\r':
case 14:
return true;
default:
return false;
}
}
private static int copy(InputStream inputStream, OutputStream outputStream) throws IOException {
byte[] bArr = new byte[8192];
int i = 0;
while (true) {
int read = inputStream.read(bArr);
if (read == -1) {
return i;
}
i += read;
outputStream.write(bArr, 0, read);
}
}
public byte[] getAttributeBytes(String str) {
Objects.requireNonNull(str, "tag shouldn't be null");
ExifAttribute exifAttribute = getExifAttribute(str);
if (exifAttribute != null) {
return exifAttribute.bytes;
}
return null;
}
public static class ExifTag {
public final String name;
public final int number;
public final int primaryFormat;
public final int secondaryFormat;
ExifTag(String str, int i, int i2) {
this.name = str;
this.number = i;
this.primaryFormat = i2;
this.secondaryFormat = -1;
}
boolean isFormatCompatible(int i) {
int i2;
int i3 = this.primaryFormat;
if (i3 == 7 || i == 7 || i3 == i || (i2 = this.secondaryFormat) == i) {
return true;
}
if ((i3 == 4 || i2 == 4) && i == 3) {
return true;
}
if ((i3 == 9 || i2 == 9) && i == 8) {
return true;
}
return (i3 == 12 || i2 == 12) && i == 11;
}
ExifTag(String str, int i, int i2, int i3) {
this.name = str;
this.number = i;
this.primaryFormat = i2;
this.secondaryFormat = i3;
}
}
private static void copy(InputStream inputStream, OutputStream outputStream, int i) throws IOException {
byte[] bArr = new byte[8192];
while (i > 0) {
int min = Math.min(i, 8192);
int read = inputStream.read(bArr, 0, min);
if (read == min) {
i -= read;
outputStream.write(bArr, 0, read);
} else {
throw new IOException("Failed to copy the given amount of bytes from the inputstream to the output stream.");
}
}
}
public double getAttributeDouble(String str, double d) {
Objects.requireNonNull(str, "tag shouldn't be null");
ExifAttribute exifAttribute = getExifAttribute(str);
if (exifAttribute == null) {
return d;
}
try {
return exifAttribute.getDoubleValue(this.mExifByteOrder);
} catch (NumberFormatException unused) {
return d;
}
}
public int getAttributeInt(String str, int i) {
Objects.requireNonNull(str, "tag shouldn't be null");
ExifAttribute exifAttribute = getExifAttribute(str);
if (exifAttribute == null) {
return i;
}
try {
return exifAttribute.getIntValue(this.mExifByteOrder);
} catch (NumberFormatException unused) {
return i;
}
}
public double[] getLatLong() {
String attribute = getAttribute(TAG_GPS_LATITUDE);
String attribute2 = getAttribute(TAG_GPS_LATITUDE_REF);
String attribute3 = getAttribute(TAG_GPS_LONGITUDE);
String attribute4 = getAttribute(TAG_GPS_LONGITUDE_REF);
if (attribute == null || attribute2 == null || attribute3 == null || attribute4 == null) {
return null;
}
try {
return new double[]{convertRationalLatLonToDouble(attribute, attribute2), convertRationalLatLonToDouble(attribute3, attribute4)};
} catch (IllegalArgumentException unused) {
Log.w(TAG, "Latitude/longitude values are not parsable. " + String.format("latValue=%s, latRef=%s, lngValue=%s, lngRef=%s", attribute, attribute2, attribute3, attribute4));
return null;
}
}
public long[] getAttributeRange(String str) {
Objects.requireNonNull(str, "tag shouldn't be null");
if (!this.mModified) {
ExifAttribute exifAttribute = getExifAttribute(str);
if (exifAttribute != null) {
return new long[]{exifAttribute.bytesOffset, exifAttribute.bytes.length};
}
return null;
}
throw new IllegalStateException("The underlying file has been modified since being parsed");
}
private ExifAttribute getExifAttribute(String str) {
Objects.requireNonNull(str, "tag shouldn't be null");
if (TAG_ISO_SPEED_RATINGS.equals(str)) {
if (DEBUG) {
Log.d(TAG, "getExifAttribute: Replacing TAG_ISO_SPEED_RATINGS with TAG_PHOTOGRAPHIC_SENSITIVITY.");
}
str = TAG_PHOTOGRAPHIC_SENSITIVITY;
}
for (int i = 0; i < EXIF_TAGS.length; i++) {
ExifAttribute exifAttribute = this.mAttributes[i].get(str);
if (exifAttribute != null) {
return exifAttribute;
}
}
return null;
}
private void initForFilename(String str) throws IOException {
Objects.requireNonNull(str, "filename cannot be null");
FileInputStream fileInputStream = null;
this.mAssetInputStream = null;
this.mFilename = str;
try {
FileInputStream fileInputStream2 = new FileInputStream(str);
try {
if (isSeekableFD(fileInputStream2.getFD())) {
this.mSeekableFileDescriptor = fileInputStream2.getFD();
} else {
this.mSeekableFileDescriptor = null;
}
loadAttributes(fileInputStream2);
closeQuietly(fileInputStream2);
} catch (Throwable th) {
th = th;
fileInputStream = fileInputStream2;
closeQuietly(fileInputStream);
throw th;
}
} catch (Throwable th2) {
th = th2;
}
}
public String getAttribute(String str) {
Objects.requireNonNull(str, "tag shouldn't be null");
ExifAttribute exifAttribute = getExifAttribute(str);
if (exifAttribute != null) {
if (!sTagSetForCompatibility.contains(str)) {
return exifAttribute.getStringValue(this.mExifByteOrder);
}
if (str.equals(TAG_GPS_TIMESTAMP)) {
int i = exifAttribute.format;
if (i != 5 && i != 10) {
Log.w(TAG, "GPS Timestamp format is not rational. format=" + exifAttribute.format);
return null;
}
Rational[] rationalArr = (Rational[]) exifAttribute.getValue(this.mExifByteOrder);
if (rationalArr != null && rationalArr.length == 3) {
return String.format("%02d:%02d:%02d", Integer.valueOf((int) (((float) rationalArr[0].numerator) / ((float) rationalArr[0].denominator))), Integer.valueOf((int) (((float) rationalArr[1].numerator) / ((float) rationalArr[1].denominator))), Integer.valueOf((int) (((float) rationalArr[2].numerator) / ((float) rationalArr[2].denominator))));
}
Log.w(TAG, "Invalid GPS Timestamp array. array=" + Arrays.toString(rationalArr));
return null;
}
try {
return Double.toString(exifAttribute.getDoubleValue(this.mExifByteOrder));
} catch (NumberFormatException unused) {
}
}
return null;
}
public ExifInterface(String str) throws IOException {
ExifTag[][] exifTagArr = EXIF_TAGS;
this.mAttributes = new HashMap[exifTagArr.length];
this.mAttributesOffsets = new HashSet(exifTagArr.length);
this.mExifByteOrder = ByteOrder.BIG_ENDIAN;
Objects.requireNonNull(str, "filename cannot be null");
initForFilename(str);
}
public ExifInterface(FileDescriptor fileDescriptor) throws IOException {
ExifTag[][] exifTagArr = EXIF_TAGS;
this.mAttributes = new HashMap[exifTagArr.length];
this.mAttributesOffsets = new HashSet(exifTagArr.length);
this.mExifByteOrder = ByteOrder.BIG_ENDIAN;
Objects.requireNonNull(fileDescriptor, "fileDescriptor cannot be null");
FileInputStream fileInputStream = null;
this.mAssetInputStream = null;
this.mFilename = null;
boolean z = false;
if (Build.VERSION.SDK_INT >= 21 && isSeekableFD(fileDescriptor)) {
this.mSeekableFileDescriptor = fileDescriptor;
try {
fileDescriptor = Os.dup(fileDescriptor);
z = true;
} catch (Exception e) {
throw new IOException("Failed to duplicate file descriptor", e);
}
} else {
this.mSeekableFileDescriptor = null;
}
try {
FileInputStream fileInputStream2 = new FileInputStream(fileDescriptor);
try {
loadAttributes(fileInputStream2);
closeQuietly(fileInputStream2);
if (z) {
closeFileDescriptor(fileDescriptor);
}
} catch (Throwable th) {
th = th;
fileInputStream = fileInputStream2;
closeQuietly(fileInputStream);
if (z) {
closeFileDescriptor(fileDescriptor);
}
throw th;
}
} catch (Throwable th2) {
th = th2;
}
}
public ExifInterface(InputStream inputStream) throws IOException {
this(inputStream, 0);
}
public ExifInterface(InputStream inputStream, int i) throws IOException {
ExifTag[][] exifTagArr = EXIF_TAGS;
this.mAttributes = new HashMap[exifTagArr.length];
this.mAttributesOffsets = new HashSet(exifTagArr.length);
this.mExifByteOrder = ByteOrder.BIG_ENDIAN;
Objects.requireNonNull(inputStream, "inputStream cannot be null");
this.mFilename = null;
if (i == 1) {
BufferedInputStream bufferedInputStream = new BufferedInputStream(inputStream, 5000);
if (!isExifDataOnly(bufferedInputStream)) {
Log.w(TAG, "Given data does not follow the structure of an Exif-only data.");
return;
}
this.mIsExifDataOnly = true;
this.mAssetInputStream = null;
this.mSeekableFileDescriptor = null;
inputStream = bufferedInputStream;
} else if (inputStream instanceof AssetManager.AssetInputStream) {
this.mAssetInputStream = (AssetManager.AssetInputStream) inputStream;
this.mSeekableFileDescriptor = null;
} else {
if (inputStream instanceof FileInputStream) {
FileInputStream fileInputStream = (FileInputStream) inputStream;
if (isSeekableFD(fileInputStream.getFD())) {
this.mAssetInputStream = null;
this.mSeekableFileDescriptor = fileInputStream.getFD();
}
}
this.mAssetInputStream = null;
this.mSeekableFileDescriptor = null;
}
loadAttributes(inputStream);
}
public void setAttribute(String str, String str2) {
ExifTag exifTag;
int i;
Matcher matcher;
String str3 = str;
String str4 = str2;
Objects.requireNonNull(str3, "tag shouldn't be null");
if ((TAG_DATETIME.equals(str3) || TAG_DATETIME_ORIGINAL.equals(str3) || TAG_DATETIME_DIGITIZED.equals(str3)) && str4 != null) {
boolean find = DATETIME_PRIMARY_FORMAT_PATTERN.matcher(str4).find();
boolean find2 = DATETIME_SECONDARY_FORMAT_PATTERN.matcher(str4).find();
if (str2.length() != 19 || (!find && !find2)) {
Log.w(TAG, "Invalid value for " + str3 + " : " + str4);
return;
} else if (find2) {
str4 = str4.replaceAll(Operators.SUB, ":");
}
}
if (TAG_ISO_SPEED_RATINGS.equals(str3)) {
if (DEBUG) {
Log.d(TAG, "setAttribute: Replacing TAG_ISO_SPEED_RATINGS with TAG_PHOTOGRAPHIC_SENSITIVITY.");
}
str3 = TAG_PHOTOGRAPHIC_SENSITIVITY;
}
int i2 = 2;
int i3 = 1;
if (str4 != null && sTagSetForCompatibility.contains(str3)) {
if (str3.equals(TAG_GPS_TIMESTAMP)) {
if (!GPS_TIMESTAMP_PATTERN.matcher(str4).find()) {
Log.w(TAG, "Invalid value for " + str3 + " : " + str4);
return;
}
str4 = Integer.parseInt(matcher.group(1)) + "/1," + Integer.parseInt(matcher.group(2)) + "/1," + Integer.parseInt(matcher.group(3)) + "/1";
} else {
try {
str4 = new Rational(Double.parseDouble(str4)).toString();
} catch (NumberFormatException unused) {
Log.w(TAG, "Invalid value for " + str3 + " : " + str4);
return;
}
}
}
char c = 0;
int i4 = 0;
while (i4 < EXIF_TAGS.length) {
if ((i4 != 4 || this.mHasThumbnail) && (exifTag = sExifTagMapsForWriting[i4].get(str3)) != null) {
if (str4 == null) {
this.mAttributes[i4].remove(str3);
} else {
Pair<Integer, Integer> guessDataFormat = guessDataFormat(str4);
int i5 = -1;
if (exifTag.primaryFormat != ((Integer) guessDataFormat.first).intValue() && exifTag.primaryFormat != ((Integer) guessDataFormat.second).intValue()) {
int i6 = exifTag.secondaryFormat;
if (i6 != -1 && (i6 == ((Integer) guessDataFormat.first).intValue() || exifTag.secondaryFormat == ((Integer) guessDataFormat.second).intValue())) {
i = exifTag.secondaryFormat;
} else {
int i7 = exifTag.primaryFormat;
if (i7 == i3 || i7 == 7 || i7 == i2) {
i = i7;
} else if (DEBUG) {
StringBuilder sb = new StringBuilder();
sb.append("Given tag (");
sb.append(str3);
sb.append(") value didn't match with one of expected formats: ");
String[] strArr = IFD_FORMAT_NAMES;
sb.append(strArr[exifTag.primaryFormat]);
sb.append(exifTag.secondaryFormat == -1 ? "" : ", " + strArr[exifTag.secondaryFormat]);
sb.append(" (guess: ");
sb.append(strArr[((Integer) guessDataFormat.first).intValue()]);
sb.append(((Integer) guessDataFormat.second).intValue() != -1 ? ", " + strArr[((Integer) guessDataFormat.second).intValue()] : "");
sb.append(Operators.BRACKET_END_STR);
Log.d(TAG, sb.toString());
}
}
} else {
i = exifTag.primaryFormat;
}
switch (i) {
case 1:
this.mAttributes[i4].put(str3, ExifAttribute.createByte(str4));
continue;
i4++;
i2 = 2;
c = 0;
i3 = 1;
case 2:
case 7:
this.mAttributes[i4].put(str3, ExifAttribute.createString(str4));
continue;
i4++;
i2 = 2;
c = 0;
i3 = 1;
case 3:
String[] split = str4.split(",", -1);
int[] iArr = new int[split.length];
for (int i8 = 0; i8 < split.length; i8++) {
iArr[i8] = Integer.parseInt(split[i8]);
}
this.mAttributes[i4].put(str3, ExifAttribute.createUShort(iArr, this.mExifByteOrder));
continue;
i4++;
i2 = 2;
c = 0;
i3 = 1;
case 4:
String[] split2 = str4.split(",", -1);
long[] jArr = new long[split2.length];
for (int i9 = 0; i9 < split2.length; i9++) {
jArr[i9] = Long.parseLong(split2[i9]);
}
this.mAttributes[i4].put(str3, ExifAttribute.createULong(jArr, this.mExifByteOrder));
continue;
i4++;
i2 = 2;
c = 0;
i3 = 1;
case 5:
String[] split3 = str4.split(",", -1);
Rational[] rationalArr = new Rational[split3.length];
int i10 = 0;
while (i10 < split3.length) {
String[] split4 = split3[i10].split("/", i5);
rationalArr[i10] = new Rational((long) Double.parseDouble(split4[0]), (long) Double.parseDouble(split4[1]));
i10++;
i5 = -1;
}
this.mAttributes[i4].put(str3, ExifAttribute.createURational(rationalArr, this.mExifByteOrder));
continue;
i4++;
i2 = 2;
c = 0;
i3 = 1;
case 6:
case 8:
case 11:
default:
if (DEBUG) {
Log.d(TAG, "Data format isn't one of expected formats: " + i);
} else {
continue;
}
i4++;
i2 = 2;
c = 0;
i3 = 1;
case 9:
String[] split5 = str4.split(",", -1);
int[] iArr2 = new int[split5.length];
for (int i11 = 0; i11 < split5.length; i11++) {
iArr2[i11] = Integer.parseInt(split5[i11]);
}
this.mAttributes[i4].put(str3, ExifAttribute.createSLong(iArr2, this.mExifByteOrder));
break;
case 10:
String[] split6 = str4.split(",", -1);
Rational[] rationalArr2 = new Rational[split6.length];
int i12 = 0;
while (i12 < split6.length) {
String[] split7 = split6[i12].split("/", -1);
rationalArr2[i12] = new Rational((long) Double.parseDouble(split7[c]), (long) Double.parseDouble(split7[i3]));
i12++;
split6 = split6;
c = 0;
i3 = 1;
}
this.mAttributes[i4].put(str3, ExifAttribute.createSRational(rationalArr2, this.mExifByteOrder));
break;
case 12:
String[] split8 = str4.split(",", -1);
double[] dArr = new double[split8.length];
for (int i13 = 0; i13 < split8.length; i13++) {
dArr[i13] = Double.parseDouble(split8[i13]);
}
this.mAttributes[i4].put(str3, ExifAttribute.createDouble(dArr, this.mExifByteOrder));
break;
}
}
}
i4++;
i2 = 2;
c = 0;
i3 = 1;
}
}
private void loadAttributes(InputStream inputStream) {
Objects.requireNonNull(inputStream, "inputstream shouldn't be null");
for (int i = 0; i < EXIF_TAGS.length; i++) {
try {
try {
this.mAttributes[i] = new HashMap<>();
} catch (IOException e) {
boolean z = DEBUG;
if (z) {
Log.w(TAG, "Invalid image: ExifInterface got an unsupported image format file(ExifInterface supports JPEG and some RAW image formats only) or a corrupted JPEG file to ExifInterface.", e);
}
addDefaultValuesForCompatibility();
if (!z) {
return;
}
}
} finally {
addDefaultValuesForCompatibility();
if (DEBUG) {
printAttributes();
}
}
}
if (!this.mIsExifDataOnly) {
BufferedInputStream bufferedInputStream = new BufferedInputStream(inputStream, 5000);
this.mMimeType = getMimeType(bufferedInputStream);
inputStream = bufferedInputStream;
}
ByteOrderedDataInputStream byteOrderedDataInputStream = new ByteOrderedDataInputStream(inputStream);
if (!this.mIsExifDataOnly) {
switch (this.mMimeType) {
case 0:
case 1:
case 2:
case 3:
case 5:
case 6:
case 8:
case 11:
getRawAttributes(byteOrderedDataInputStream);
break;
case 4:
getJpegAttributes(byteOrderedDataInputStream, 0, 0);
addDefaultValuesForCompatibility();
if (DEBUG) {
printAttributes();
return;
}
return;
case 7:
getOrfAttributes(byteOrderedDataInputStream);
break;
case 9:
getRafAttributes(byteOrderedDataInputStream);
addDefaultValuesForCompatibility();
if (DEBUG) {
printAttributes();
return;
}
return;
case 10:
getRw2Attributes(byteOrderedDataInputStream);
addDefaultValuesForCompatibility();
if (DEBUG) {
printAttributes();
return;
}
return;
case 12:
getHeifAttributes(byteOrderedDataInputStream);
break;
case 13:
getPngAttributes(byteOrderedDataInputStream);
addDefaultValuesForCompatibility();
if (DEBUG) {
printAttributes();
return;
}
return;
case 14:
getWebpAttributes(byteOrderedDataInputStream);
addDefaultValuesForCompatibility();
if (DEBUG) {
printAttributes();
return;
}
return;
}
} else {
getStandaloneAttributes(byteOrderedDataInputStream);
}
byteOrderedDataInputStream.seek(this.mOffsetToExifData);
setThumbnailData(byteOrderedDataInputStream);
}
static {
ExifTag[] exifTagArr;
ExifTag[] exifTagArr2 = {new ExifTag(TAG_NEW_SUBFILE_TYPE, 254, 4), new ExifTag(TAG_SUBFILE_TYPE, 255, 4), new ExifTag(TAG_IMAGE_WIDTH, 256, 3, 4), new ExifTag(TAG_IMAGE_LENGTH, 257, 3, 4), new ExifTag(TAG_BITS_PER_SAMPLE, 258, 3), new ExifTag(TAG_COMPRESSION, 259, 3), new ExifTag(TAG_PHOTOMETRIC_INTERPRETATION, 262, 3), new ExifTag(TAG_IMAGE_DESCRIPTION, 270, 2), new ExifTag(TAG_MAKE, 271, 2), new ExifTag(TAG_MODEL, 272, 2), new ExifTag(TAG_STRIP_OFFSETS, 273, 3, 4), new ExifTag("Orientation", TiffUtil.TIFF_TAG_ORIENTATION, 3), new ExifTag(TAG_SAMPLES_PER_PIXEL, 277, 3), new ExifTag(TAG_ROWS_PER_STRIP, 278, 3, 4), new ExifTag(TAG_STRIP_BYTE_COUNTS, 279, 3, 4), new ExifTag(TAG_X_RESOLUTION, 282, 5), new ExifTag(TAG_Y_RESOLUTION, 283, 5), new ExifTag(TAG_PLANAR_CONFIGURATION, 284, 3), new ExifTag(TAG_RESOLUTION_UNIT, 296, 3), new ExifTag(TAG_TRANSFER_FUNCTION, 301, 3), new ExifTag(TAG_SOFTWARE, 305, 2), new ExifTag(TAG_DATETIME, 306, 2), new ExifTag(TAG_ARTIST, 315, 2), new ExifTag(TAG_WHITE_POINT, 318, 5), new ExifTag(TAG_PRIMARY_CHROMATICITIES, 319, 5), new ExifTag(TAG_SUB_IFD_POINTER, 330, 4), new ExifTag(TAG_JPEG_INTERCHANGE_FORMAT, 513, 4), new ExifTag(TAG_JPEG_INTERCHANGE_FORMAT_LENGTH, 514, 4), new ExifTag(TAG_Y_CB_CR_COEFFICIENTS, 529, 5), new ExifTag(TAG_Y_CB_CR_SUB_SAMPLING, 530, 3), new ExifTag(TAG_Y_CB_CR_POSITIONING, 531, 3), new ExifTag(TAG_REFERENCE_BLACK_WHITE, 532, 5), new ExifTag(TAG_COPYRIGHT, 33432, 2), new ExifTag(TAG_EXIF_IFD_POINTER, 34665, 4), new ExifTag(TAG_GPS_INFO_IFD_POINTER, 34853, 4), new ExifTag(TAG_RW2_SENSOR_TOP_BORDER, 4, 4), new ExifTag(TAG_RW2_SENSOR_LEFT_BORDER, 5, 4), new ExifTag(TAG_RW2_SENSOR_BOTTOM_BORDER, 6, 4), new ExifTag(TAG_RW2_SENSOR_RIGHT_BORDER, 7, 4), new ExifTag(TAG_RW2_ISO, 23, 3), new ExifTag(TAG_RW2_JPG_FROM_RAW, 46, 7), new ExifTag(TAG_XMP, 700, 1)};
IFD_TIFF_TAGS = exifTagArr2;
ExifTag[] exifTagArr3 = {new ExifTag(TAG_EXPOSURE_TIME, 33434, 5), new ExifTag(TAG_F_NUMBER, 33437, 5), new ExifTag(TAG_EXPOSURE_PROGRAM, 34850, 3), new ExifTag(TAG_SPECTRAL_SENSITIVITY, 34852, 2), new ExifTag(TAG_PHOTOGRAPHIC_SENSITIVITY, 34855, 3), new ExifTag(TAG_OECF, 34856, 7), new ExifTag(TAG_SENSITIVITY_TYPE, 34864, 3), new ExifTag(TAG_STANDARD_OUTPUT_SENSITIVITY, 34865, 4), new ExifTag(TAG_RECOMMENDED_EXPOSURE_INDEX, 34866, 4), new ExifTag(TAG_ISO_SPEED, 34867, 4), new ExifTag(TAG_ISO_SPEED_LATITUDE_YYY, 34868, 4), new ExifTag(TAG_ISO_SPEED_LATITUDE_ZZZ, 34869, 4), new ExifTag(TAG_EXIF_VERSION, 36864, 2), new ExifTag(TAG_DATETIME_ORIGINAL, 36867, 2), new ExifTag(TAG_DATETIME_DIGITIZED, 36868, 2), new ExifTag(TAG_OFFSET_TIME, 36880, 2), new ExifTag(TAG_OFFSET_TIME_ORIGINAL, 36881, 2), new ExifTag(TAG_OFFSET_TIME_DIGITIZED, 36882, 2), new ExifTag(TAG_COMPONENTS_CONFIGURATION, 37121, 7), new ExifTag(TAG_COMPRESSED_BITS_PER_PIXEL, 37122, 5), new ExifTag(TAG_SHUTTER_SPEED_VALUE, 37377, 10), new ExifTag(TAG_APERTURE_VALUE, 37378, 5), new ExifTag(TAG_BRIGHTNESS_VALUE, 37379, 10), new ExifTag(TAG_EXPOSURE_BIAS_VALUE, 37380, 10), new ExifTag(TAG_MAX_APERTURE_VALUE, 37381, 5), new ExifTag(TAG_SUBJECT_DISTANCE, 37382, 5), new ExifTag(TAG_METERING_MODE, 37383, 3), new ExifTag(TAG_LIGHT_SOURCE, 37384, 3), new ExifTag(TAG_FLASH, 37385, 3), new ExifTag(TAG_FOCAL_LENGTH, 37386, 5), new ExifTag(TAG_SUBJECT_AREA, 37396, 3), new ExifTag(TAG_MAKER_NOTE, 37500, 7), new ExifTag(TAG_USER_COMMENT, 37510, 7), new ExifTag(TAG_SUBSEC_TIME, 37520, 2), new ExifTag(TAG_SUBSEC_TIME_ORIGINAL, 37521, 2), new ExifTag(TAG_SUBSEC_TIME_DIGITIZED, 37522, 2), new ExifTag(TAG_FLASHPIX_VERSION, 40960, 7), new ExifTag(TAG_COLOR_SPACE, 40961, 3), new ExifTag(TAG_PIXEL_X_DIMENSION, 40962, 3, 4), new ExifTag(TAG_PIXEL_Y_DIMENSION, 40963, 3, 4), new ExifTag(TAG_RELATED_SOUND_FILE, 40964, 2), new ExifTag(TAG_INTEROPERABILITY_IFD_POINTER, 40965, 4), new ExifTag(TAG_FLASH_ENERGY, 41483, 5), new ExifTag(TAG_SPATIAL_FREQUENCY_RESPONSE, 41484, 7), new ExifTag(TAG_FOCAL_PLANE_X_RESOLUTION, 41486, 5), new ExifTag(TAG_FOCAL_PLANE_Y_RESOLUTION, 41487, 5), new ExifTag(TAG_FOCAL_PLANE_RESOLUTION_UNIT, 41488, 3), new ExifTag(TAG_SUBJECT_LOCATION, 41492, 3), new ExifTag(TAG_EXPOSURE_INDEX, 41493, 5), new ExifTag(TAG_SENSING_METHOD, 41495, 3), new ExifTag(TAG_FILE_SOURCE, 41728, 7), new ExifTag(TAG_SCENE_TYPE, 41729, 7), new ExifTag(TAG_CFA_PATTERN, 41730, 7), new ExifTag(TAG_CUSTOM_RENDERED, 41985, 3), new ExifTag(TAG_EXPOSURE_MODE, 41986, 3), new ExifTag(TAG_WHITE_BALANCE, 41987, 3), new ExifTag(TAG_DIGITAL_ZOOM_RATIO, 41988, 5), new ExifTag(TAG_FOCAL_LENGTH_IN_35MM_FILM, 41989, 3), new ExifTag(TAG_SCENE_CAPTURE_TYPE, 41990, 3), new ExifTag(TAG_GAIN_CONTROL, 41991, 3), new ExifTag(TAG_CONTRAST, 41992, 3), new ExifTag(TAG_SATURATION, 41993, 3), new ExifTag(TAG_SHARPNESS, 41994, 3), new ExifTag(TAG_DEVICE_SETTING_DESCRIPTION, 41995, 7), new ExifTag(TAG_SUBJECT_DISTANCE_RANGE, 41996, 3), new ExifTag(TAG_IMAGE_UNIQUE_ID, 42016, 2), new ExifTag("CameraOwnerName", 42032, 2), new ExifTag(TAG_BODY_SERIAL_NUMBER, 42033, 2), new ExifTag(TAG_LENS_SPECIFICATION, 42034, 5), new ExifTag(TAG_LENS_MAKE, 42035, 2), new ExifTag(TAG_LENS_MODEL, 42036, 2), new ExifTag(TAG_GAMMA, 42240, 5), new ExifTag(TAG_DNG_VERSION, 50706, 1), new ExifTag(TAG_DEFAULT_CROP_SIZE, 50720, 3, 4)};
IFD_EXIF_TAGS = exifTagArr3;
ExifTag[] exifTagArr4 = {new ExifTag(TAG_GPS_VERSION_ID, 0, 1), new ExifTag(TAG_GPS_LATITUDE_REF, 1, 2), new ExifTag(TAG_GPS_LATITUDE, 2, 5, 10), new ExifTag(TAG_GPS_LONGITUDE_REF, 3, 2), new ExifTag(TAG_GPS_LONGITUDE, 4, 5, 10), new ExifTag(TAG_GPS_ALTITUDE_REF, 5, 1), new ExifTag(TAG_GPS_ALTITUDE, 6, 5), new ExifTag(TAG_GPS_TIMESTAMP, 7, 5), new ExifTag(TAG_GPS_SATELLITES, 8, 2), new ExifTag(TAG_GPS_STATUS, 9, 2), new ExifTag(TAG_GPS_MEASURE_MODE, 10, 2), new ExifTag(TAG_GPS_DOP, 11, 5), new ExifTag(TAG_GPS_SPEED_REF, 12, 2), new ExifTag(TAG_GPS_SPEED, 13, 5), new ExifTag(TAG_GPS_TRACK_REF, 14, 2), new ExifTag(TAG_GPS_TRACK, 15, 5), new ExifTag(TAG_GPS_IMG_DIRECTION_REF, 16, 2), new ExifTag(TAG_GPS_IMG_DIRECTION, 17, 5), new ExifTag(TAG_GPS_MAP_DATUM, 18, 2), new ExifTag(TAG_GPS_DEST_LATITUDE_REF, 19, 2), new ExifTag(TAG_GPS_DEST_LATITUDE, 20, 5), new ExifTag(TAG_GPS_DEST_LONGITUDE_REF, 21, 2), new ExifTag(TAG_GPS_DEST_LONGITUDE, 22, 5), new ExifTag(TAG_GPS_DEST_BEARING_REF, 23, 2), new ExifTag(TAG_GPS_DEST_BEARING, 24, 5), new ExifTag(TAG_GPS_DEST_DISTANCE_REF, 25, 2), new ExifTag(TAG_GPS_DEST_DISTANCE, 26, 5), new ExifTag(TAG_GPS_PROCESSING_METHOD, 27, 7), new ExifTag(TAG_GPS_AREA_INFORMATION, 28, 7), new ExifTag(TAG_GPS_DATESTAMP, 29, 2), new ExifTag(TAG_GPS_DIFFERENTIAL, 30, 3), new ExifTag(TAG_GPS_H_POSITIONING_ERROR, 31, 5)};
IFD_GPS_TAGS = exifTagArr4;
ExifTag[] exifTagArr5 = {new ExifTag(TAG_INTEROPERABILITY_INDEX, 1, 2)};
IFD_INTEROPERABILITY_TAGS = exifTagArr5;
ExifTag[] exifTagArr6 = {new ExifTag(TAG_NEW_SUBFILE_TYPE, 254, 4), new ExifTag(TAG_SUBFILE_TYPE, 255, 4), new ExifTag(TAG_THUMBNAIL_IMAGE_WIDTH, 256, 3, 4), new ExifTag(TAG_THUMBNAIL_IMAGE_LENGTH, 257, 3, 4), new ExifTag(TAG_BITS_PER_SAMPLE, 258, 3), new ExifTag(TAG_COMPRESSION, 259, 3), new ExifTag(TAG_PHOTOMETRIC_INTERPRETATION, 262, 3), new ExifTag(TAG_IMAGE_DESCRIPTION, 270, 2), new ExifTag(TAG_MAKE, 271, 2), new ExifTag(TAG_MODEL, 272, 2), new ExifTag(TAG_STRIP_OFFSETS, 273, 3, 4), new ExifTag(TAG_THUMBNAIL_ORIENTATION, TiffUtil.TIFF_TAG_ORIENTATION, 3), new ExifTag(TAG_SAMPLES_PER_PIXEL, 277, 3), new ExifTag(TAG_ROWS_PER_STRIP, 278, 3, 4), new ExifTag(TAG_STRIP_BYTE_COUNTS, 279, 3, 4), new ExifTag(TAG_X_RESOLUTION, 282, 5), new ExifTag(TAG_Y_RESOLUTION, 283, 5), new ExifTag(TAG_PLANAR_CONFIGURATION, 284, 3), new ExifTag(TAG_RESOLUTION_UNIT, 296, 3), new ExifTag(TAG_TRANSFER_FUNCTION, 301, 3), new ExifTag(TAG_SOFTWARE, 305, 2), new ExifTag(TAG_DATETIME, 306, 2), new ExifTag(TAG_ARTIST, 315, 2), new ExifTag(TAG_WHITE_POINT, 318, 5), new ExifTag(TAG_PRIMARY_CHROMATICITIES, 319, 5), new ExifTag(TAG_SUB_IFD_POINTER, 330, 4), new ExifTag(TAG_JPEG_INTERCHANGE_FORMAT, 513, 4), new ExifTag(TAG_JPEG_INTERCHANGE_FORMAT_LENGTH, 514, 4), new ExifTag(TAG_Y_CB_CR_COEFFICIENTS, 529, 5), new ExifTag(TAG_Y_CB_CR_SUB_SAMPLING, 530, 3), new ExifTag(TAG_Y_CB_CR_POSITIONING, 531, 3), new ExifTag(TAG_REFERENCE_BLACK_WHITE, 532, 5), new ExifTag(TAG_COPYRIGHT, 33432, 2), new ExifTag(TAG_EXIF_IFD_POINTER, 34665, 4), new ExifTag(TAG_GPS_INFO_IFD_POINTER, 34853, 4), new ExifTag(TAG_DNG_VERSION, 50706, 1), new ExifTag(TAG_DEFAULT_CROP_SIZE, 50720, 3, 4)};
IFD_THUMBNAIL_TAGS = exifTagArr6;
TAG_RAF_IMAGE_SIZE = new ExifTag(TAG_STRIP_OFFSETS, 273, 3);
ExifTag[] exifTagArr7 = {new ExifTag(TAG_ORF_THUMBNAIL_IMAGE, 256, 7), new ExifTag(TAG_ORF_CAMERA_SETTINGS_IFD_POINTER, 8224, 4), new ExifTag(TAG_ORF_IMAGE_PROCESSING_IFD_POINTER, 8256, 4)};
ORF_MAKER_NOTE_TAGS = exifTagArr7;
ExifTag[] exifTagArr8 = {new ExifTag(TAG_ORF_PREVIEW_IMAGE_START, 257, 4), new ExifTag(TAG_ORF_PREVIEW_IMAGE_LENGTH, 258, 4)};
ORF_CAMERA_SETTINGS_TAGS = exifTagArr8;
ExifTag[] exifTagArr9 = {new ExifTag(TAG_ORF_ASPECT_FRAME, 4371, 3)};
ORF_IMAGE_PROCESSING_TAGS = exifTagArr9;
ExifTag[] exifTagArr10 = {new ExifTag(TAG_COLOR_SPACE, 55, 3)};
PEF_TAGS = exifTagArr10;
EXIF_TAGS = new ExifTag[][]{exifTagArr2, exifTagArr3, exifTagArr4, exifTagArr5, exifTagArr6, exifTagArr2, exifTagArr7, exifTagArr8, exifTagArr9, exifTagArr10};
EXIF_POINTER_TAGS = new ExifTag[]{new ExifTag(TAG_SUB_IFD_POINTER, 330, 4), new ExifTag(TAG_EXIF_IFD_POINTER, 34665, 4), new ExifTag(TAG_GPS_INFO_IFD_POINTER, 34853, 4), new ExifTag(TAG_INTEROPERABILITY_IFD_POINTER, 40965, 4), new ExifTag(TAG_ORF_CAMERA_SETTINGS_IFD_POINTER, 8224, 1), new ExifTag(TAG_ORF_IMAGE_PROCESSING_IFD_POINTER, 8256, 1)};
JPEG_INTERCHANGE_FORMAT_TAG = new ExifTag(TAG_JPEG_INTERCHANGE_FORMAT, 513, 4);
JPEG_INTERCHANGE_FORMAT_LENGTH_TAG = new ExifTag(TAG_JPEG_INTERCHANGE_FORMAT_LENGTH, 514, 4);
sExifTagMapsForReading = new HashMap[10];
sExifTagMapsForWriting = new HashMap[10];
sTagSetForCompatibility = new HashSet<>(Arrays.asList(TAG_F_NUMBER, TAG_DIGITAL_ZOOM_RATIO, TAG_EXPOSURE_TIME, TAG_SUBJECT_DISTANCE, TAG_GPS_TIMESTAMP));
sExifPointerTagMap = new HashMap<>();
Charset forName = Charset.forName("US-ASCII");
ASCII = forName;
IDENTIFIER_EXIF_APP1 = "Exif\u0000\u0000".getBytes(forName);
IDENTIFIER_XMP_APP1 = "http://ns.adobe.com/xap/1.0/\u0000".getBytes(forName);
Locale locale = Locale.US;
SimpleDateFormat simpleDateFormat = new SimpleDateFormat("yyyy:MM:dd HH:mm:ss", locale);
sFormatterPrimary = simpleDateFormat;
simpleDateFormat.setTimeZone(TimeZone.getTimeZone("UTC"));
SimpleDateFormat simpleDateFormat2 = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss", locale);
sFormatterSecondary = simpleDateFormat2;
simpleDateFormat2.setTimeZone(TimeZone.getTimeZone("UTC"));
int i = 0;
while (true) {
ExifTag[][] exifTagArr11 = EXIF_TAGS;
if (i < exifTagArr11.length) {
sExifTagMapsForReading[i] = new HashMap<>();
sExifTagMapsForWriting[i] = new HashMap<>();
for (ExifTag exifTag : exifTagArr11[i]) {
sExifTagMapsForReading[i].put(Integer.valueOf(exifTag.number), exifTag);
sExifTagMapsForWriting[i].put(exifTag.name, exifTag);
}
i++;
} else {
HashMap<Integer, Integer> hashMap = sExifPointerTagMap;
ExifTag[] exifTagArr12 = EXIF_POINTER_TAGS;
hashMap.put(Integer.valueOf(exifTagArr12[0].number), 5);
hashMap.put(Integer.valueOf(exifTagArr12[1].number), 1);
hashMap.put(Integer.valueOf(exifTagArr12[2].number), 2);
hashMap.put(Integer.valueOf(exifTagArr12[3].number), 3);
hashMap.put(Integer.valueOf(exifTagArr12[4].number), 7);
hashMap.put(Integer.valueOf(exifTagArr12[5].number), 8);
NON_ZERO_TIME_PATTERN = Pattern.compile(".*[1-9].*");
GPS_TIMESTAMP_PATTERN = Pattern.compile("^(\\d{2}):(\\d{2}):(\\d{2})$");
DATETIME_PRIMARY_FORMAT_PATTERN = Pattern.compile("^(\\d{4}):(\\d{2}):(\\d{2})\\s(\\d{2}):(\\d{2}):(\\d{2})$");
DATETIME_SECONDARY_FORMAT_PATTERN = Pattern.compile("^(\\d{4})-(\\d{2})-(\\d{2})\\s(\\d{2}):(\\d{2}):(\\d{2})$");
return;
}
}
}
}