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Java library for extracting EXIF, IPTC, XMP, ICC and other metadata from image and video files.

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/*
 * Copyright 2002-2019 Drew Noakes and contributors
 *
 *    Licensed under the Apache License, Version 2.0 (the "License");
 *    you may not use this file except in compliance with the License.
 *    You may obtain a copy of the License at
 *
 *        http://www.apache.org/licenses/LICENSE-2.0
 *
 *    Unless required by applicable law or agreed to in writing, software
 *    distributed under the License is distributed on an "AS IS" BASIS,
 *    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 *    See the License for the specific language governing permissions and
 *    limitations under the License.
 *
 * More information about this project is available at:
 *
 *    https://drewnoakes.com/code/exif/
 *    https://github.com/drewnoakes/metadata-extractor
 */

package com.drew.metadata.exif;

import com.drew.metadata.Directory;

import java.util.HashMap;

/**
 * Base class for several Exif format tag directories.
 *
 * @author Drew Noakes https://drewnoakes.com
 */
@SuppressWarnings("WeakerAccess")
public abstract class ExifDirectoryBase extends Directory
{
    public static final int TAG_INTEROP_INDEX = 0x0001;
    public static final int TAG_INTEROP_VERSION = 0x0002;

    /**
     * The new subfile type tag.
     * 0 = Full-resolution Image
     * 1 = Reduced-resolution image
     * 2 = Single page of multi-page image
     * 3 = Single page of multi-page reduced-resolution image
     * 4 = Transparency mask
     * 5 = Transparency mask of reduced-resolution image
     * 6 = Transparency mask of multi-page image
     * 7 = Transparency mask of reduced-resolution multi-page image
     */
    public static final int TAG_NEW_SUBFILE_TYPE                  = 0x00FE;
    /**
     * The old subfile type tag.
     * 1 = Full-resolution image (Main image)
     * 2 = Reduced-resolution image (Thumbnail)
     * 3 = Single page of multi-page image
     */
    public static final int TAG_SUBFILE_TYPE                      = 0x00FF;

    public static final int TAG_IMAGE_WIDTH                       = 0x0100;
    public static final int TAG_IMAGE_HEIGHT                      = 0x0101;

    /**
     * When image format is no compression, this value shows the number of bits
     * per component for each pixel. Usually this value is '8,8,8'.
     */
    public static final int TAG_BITS_PER_SAMPLE                   = 0x0102;
    public static final int TAG_COMPRESSION                       = 0x0103;

    /**
     * Shows the color space of the image data components.
     * 0 = WhiteIsZero
     * 1 = BlackIsZero
     * 2 = RGB
     * 3 = RGB Palette
     * 4 = Transparency Mask
     * 5 = CMYK
     * 6 = YCbCr
     * 8 = CIELab
     * 9 = ICCLab
     * 10 = ITULab
     * 32803 = Color Filter Array
     * 32844 = Pixar LogL
     * 32845 = Pixar LogLuv
     * 34892 = Linear Raw
     */
    public static final int TAG_PHOTOMETRIC_INTERPRETATION        = 0x0106;

    /**
     * 1 = No dithering or halftoning
     * 2 = Ordered dither or halftone
     * 3 = Randomized dither
     */
    public static final int TAG_THRESHOLDING                      = 0x0107;

    /**
     * 1 = Normal
     * 2 = Reversed
     */
    public static final int TAG_FILL_ORDER                        = 0x010A;
    public static final int TAG_DOCUMENT_NAME                     = 0x010D;

    public static final int TAG_IMAGE_DESCRIPTION                 = 0x010E;

    public static final int TAG_MAKE                              = 0x010F;
    public static final int TAG_MODEL                             = 0x0110;
    /** The position in the file of raster data. */
    public static final int TAG_STRIP_OFFSETS                     = 0x0111;
    public static final int TAG_ORIENTATION                       = 0x0112;
    /** Each pixel is composed of this many samples. */
    public static final int TAG_SAMPLES_PER_PIXEL                 = 0x0115;
    /** The raster is codified by a single block of data holding this many rows. */
    public static final int TAG_ROWS_PER_STRIP                    = 0x0116;
    /** The size of the raster data in bytes. */
    public static final int TAG_STRIP_BYTE_COUNTS                 = 0x0117;
    public static final int TAG_MIN_SAMPLE_VALUE                  = 0x0118;
    public static final int TAG_MAX_SAMPLE_VALUE                  = 0x0119;
    public static final int TAG_X_RESOLUTION                      = 0x011A;
    public static final int TAG_Y_RESOLUTION                      = 0x011B;
    /**
     * When image format is no compression YCbCr, this value shows byte aligns of
     * YCbCr data. If value is '1', Y/Cb/Cr value is chunky format, contiguous for
     * each subsampling pixel. If value is '2', Y/Cb/Cr value is separated and
     * stored to Y plane/Cb plane/Cr plane format.
     */
    public static final int TAG_PLANAR_CONFIGURATION              = 0x011C;
    public static final int TAG_PAGE_NAME                         = 0x011D;

    public static final int TAG_RESOLUTION_UNIT                   = 0x0128;
    public static final int TAG_PAGE_NUMBER                       = 0x0129;

    public static final int TAG_TRANSFER_FUNCTION                 = 0x012D;
    public static final int TAG_SOFTWARE                          = 0x0131;
    public static final int TAG_DATETIME                          = 0x0132;
    public static final int TAG_ARTIST                            = 0x013B;
    public static final int TAG_HOST_COMPUTER                     = 0x013C;
    public static final int TAG_PREDICTOR                         = 0x013D;
    public static final int TAG_WHITE_POINT                       = 0x013E;
    public static final int TAG_PRIMARY_CHROMATICITIES            = 0x013F;

    public static final int TAG_TILE_WIDTH                        = 0x0142;
    public static final int TAG_TILE_LENGTH                       = 0x0143;
    public static final int TAG_TILE_OFFSETS                      = 0x0144;
    public static final int TAG_TILE_BYTE_COUNTS                  = 0x0145;

    /**
     * Tag is a pointer to one or more sub-IFDs.
     + Seems to be used exclusively by raw formats, referencing one or two IFDs.
     */
    public static final int TAG_SUB_IFD_OFFSET                    = 0x014a;

    public static final int TAG_EXTRA_SAMPLES                     = 0x0152;
    public static final int TAG_SAMPLE_FORMAT                     = 0x0153;

    public static final int TAG_TRANSFER_RANGE                    = 0x0156;
    public static final int TAG_JPEG_TABLES                       = 0x015B;
    public static final int TAG_JPEG_PROC                         = 0x0200;

    // 0x0201 can have all kinds of descriptions for thumbnail starting index
    // 0x0202 can have all kinds of descriptions for thumbnail length
    public static final int TAG_JPEG_RESTART_INTERVAL = 0x0203;
    public static final int TAG_JPEG_LOSSLESS_PREDICTORS = 0x0205;
    public static final int TAG_JPEG_POINT_TRANSFORMS = 0x0206;
    public static final int TAG_JPEG_Q_TABLES = 0x0207;
    public static final int TAG_JPEG_DC_TABLES = 0x0208;
    public static final int TAG_JPEG_AC_TABLES = 0x0209;

    public static final int TAG_YCBCR_COEFFICIENTS                = 0x0211;
    public static final int TAG_YCBCR_SUBSAMPLING                 = 0x0212;
    public static final int TAG_YCBCR_POSITIONING                 = 0x0213;
    public static final int TAG_REFERENCE_BLACK_WHITE             = 0x0214;
    public static final int TAG_STRIP_ROW_COUNTS                  = 0x022f;
    public static final int TAG_APPLICATION_NOTES                 = 0x02bc;

    public static final int TAG_RELATED_IMAGE_FILE_FORMAT         = 0x1000;
    public static final int TAG_RELATED_IMAGE_WIDTH               = 0x1001;
    public static final int TAG_RELATED_IMAGE_HEIGHT              = 0x1002;

    public static final int TAG_RATING                            = 0x4746;

    public static final int TAG_CFA_REPEAT_PATTERN_DIM            = 0x828D;
    /** There are two definitions for CFA pattern, I don't know the difference... */
    public static final int TAG_CFA_PATTERN_2                     = 0x828E;
    public static final int TAG_BATTERY_LEVEL                     = 0x828F;
    public static final int TAG_COPYRIGHT                         = 0x8298;
    /**
     * Exposure time (reciprocal of shutter speed). Unit is second.
     */
    public static final int TAG_EXPOSURE_TIME                     = 0x829A;
    /**
     * The actual F-number(F-stop) of lens when the image was taken.
     */
    public static final int TAG_FNUMBER                           = 0x829D;
    public static final int TAG_IPTC_NAA                          = 0x83BB;
    public static final int TAG_PHOTOSHOP_SETTINGS                = 0x8649;
    public static final int TAG_INTER_COLOR_PROFILE               = 0x8773;
    /**
     * Exposure program that the camera used when image was taken. '1' means
     * manual control, '2' program normal, '3' aperture priority, '4' shutter
     * priority, '5' program creative (slow program), '6' program action
     * (high-speed program), '7' portrait mode, '8' landscape mode.
     */
    public static final int TAG_EXPOSURE_PROGRAM                  = 0x8822;
    public static final int TAG_SPECTRAL_SENSITIVITY              = 0x8824;
    public static final int TAG_ISO_EQUIVALENT                    = 0x8827;
    /**
     * Indicates the Opto-Electric Conversion Function (OECF) specified in ISO 14524.
     * 

* OECF is the relationship between the camera optical input and the image values. *

* The values are: *

    *
  • Two shorts, indicating respectively number of columns, and number of rows.
  • *
  • For each column, the column name in a null-terminated ASCII string.
  • *
  • For each cell, an SRATIONAL value.
  • *
*/ public static final int TAG_OPTO_ELECTRIC_CONVERSION_FUNCTION = 0x8828; public static final int TAG_INTERLACE = 0x8829; public static final int TAG_TIME_ZONE_OFFSET_TIFF_EP = 0x882A; public static final int TAG_SELF_TIMER_MODE_TIFF_EP = 0x882B; /** * Applies to ISO tag. * * 0 = Unknown * 1 = Standard Output Sensitivity * 2 = Recommended Exposure Index * 3 = ISO Speed * 4 = Standard Output Sensitivity and Recommended Exposure Index * 5 = Standard Output Sensitivity and ISO Speed * 6 = Recommended Exposure Index and ISO Speed * 7 = Standard Output Sensitivity, Recommended Exposure Index and ISO Speed */ public static final int TAG_SENSITIVITY_TYPE = 0x8830; public static final int TAG_STANDARD_OUTPUT_SENSITIVITY = 0x8831; public static final int TAG_RECOMMENDED_EXPOSURE_INDEX = 0x8832; public static final int TAG_ISO_SPEED = 0x8833; public static final int TAG_ISO_SPEED_LATITUDE_YYY = 0x8834; public static final int TAG_ISO_SPEED_LATITUDE_ZZZ = 0x8835; public static final int TAG_EXIF_VERSION = 0x9000; public static final int TAG_DATETIME_ORIGINAL = 0x9003; public static final int TAG_DATETIME_DIGITIZED = 0x9004; public static final int TAG_TIME_ZONE = 0x9010; public static final int TAG_TIME_ZONE_ORIGINAL = 0x9011; public static final int TAG_TIME_ZONE_DIGITIZED = 0x9012; public static final int TAG_COMPONENTS_CONFIGURATION = 0x9101; /** * Average (rough estimate) compression level in JPEG bits per pixel. * */ public static final int TAG_COMPRESSED_AVERAGE_BITS_PER_PIXEL = 0x9102; /** * Shutter speed by APEX value. To convert this value to ordinary 'Shutter Speed'; * calculate this value's power of 2, then reciprocal. For example, if the * ShutterSpeedValue is '4', shutter speed is 1/(24)=1/16 second. */ public static final int TAG_SHUTTER_SPEED = 0x9201; /** * The actual aperture value of lens when the image was taken. Unit is APEX. * To convert this value to ordinary F-number (F-stop), calculate this value's * power of root 2 (=1.4142). For example, if the ApertureValue is '5', * F-number is 1.4142^5 = F5.6. */ public static final int TAG_APERTURE = 0x9202; public static final int TAG_BRIGHTNESS_VALUE = 0x9203; public static final int TAG_EXPOSURE_BIAS = 0x9204; /** * Maximum aperture value of lens. You can convert to F-number by calculating * power of root 2 (same process of ApertureValue:0x9202). * The actual aperture value of lens when the image was taken. To convert this * value to ordinary f-number(f-stop), calculate the value's power of root 2 * (=1.4142). For example, if the ApertureValue is '5', f-number is 1.41425^5 = F5.6. */ public static final int TAG_MAX_APERTURE = 0x9205; /** * Indicates the distance the autofocus camera is focused to. Tends to be less accurate as distance increases. */ public static final int TAG_SUBJECT_DISTANCE = 0x9206; /** * Exposure metering method. '0' means unknown, '1' average, '2' center * weighted average, '3' spot, '4' multi-spot, '5' multi-segment, '6' partial, * '255' other. */ public static final int TAG_METERING_MODE = 0x9207; /** * @deprecated use {@link com.drew.metadata.exif.ExifDirectoryBase#TAG_WHITE_BALANCE} instead. */ @Deprecated public static final int TAG_LIGHT_SOURCE = 0x9208; /** * White balance (aka light source). '0' means unknown, '1' daylight, * '2' fluorescent, '3' tungsten, '10' flash, '17' standard light A, * '18' standard light B, '19' standard light C, '20' D55, '21' D65, * '22' D75, '255' other. */ public static final int TAG_WHITE_BALANCE = 0x9208; /** * 0x0 = 0000000 = No Flash * 0x1 = 0000001 = Fired * 0x5 = 0000101 = Fired, Return not detected * 0x7 = 0000111 = Fired, Return detected * 0x9 = 0001001 = On * 0xd = 0001101 = On, Return not detected * 0xf = 0001111 = On, Return detected * 0x10 = 0010000 = Off * 0x18 = 0011000 = Auto, Did not fire * 0x19 = 0011001 = Auto, Fired * 0x1d = 0011101 = Auto, Fired, Return not detected * 0x1f = 0011111 = Auto, Fired, Return detected * 0x20 = 0100000 = No flash function * 0x41 = 1000001 = Fired, Red-eye reduction * 0x45 = 1000101 = Fired, Red-eye reduction, Return not detected * 0x47 = 1000111 = Fired, Red-eye reduction, Return detected * 0x49 = 1001001 = On, Red-eye reduction * 0x4d = 1001101 = On, Red-eye reduction, Return not detected * 0x4f = 1001111 = On, Red-eye reduction, Return detected * 0x59 = 1011001 = Auto, Fired, Red-eye reduction * 0x5d = 1011101 = Auto, Fired, Red-eye reduction, Return not detected * 0x5f = 1011111 = Auto, Fired, Red-eye reduction, Return detected * 6543210 (positions) * * This is a bitmask. * 0 = flash fired * 1 = return detected * 2 = return able to be detected * 3 = unknown * 4 = auto used * 5 = unknown * 6 = red eye reduction used */ public static final int TAG_FLASH = 0x9209; /** * Focal length of lens used to take image. Unit is millimeter. * Nice digital cameras actually save the focal length as a function of how far they are zoomed in. */ public static final int TAG_FOCAL_LENGTH = 0x920A; public static final int TAG_FLASH_ENERGY_TIFF_EP = 0x920B; public static final int TAG_SPATIAL_FREQ_RESPONSE_TIFF_EP = 0x920C; public static final int TAG_NOISE = 0x920D; public static final int TAG_FOCAL_PLANE_X_RESOLUTION_TIFF_EP = 0x920E; public static final int TAG_FOCAL_PLANE_Y_RESOLUTION_TIFF_EP = 0x920F; public static final int TAG_IMAGE_NUMBER = 0x9211; public static final int TAG_SECURITY_CLASSIFICATION = 0x9212; public static final int TAG_IMAGE_HISTORY = 0x9213; public static final int TAG_SUBJECT_LOCATION_TIFF_EP = 0x9214; public static final int TAG_EXPOSURE_INDEX_TIFF_EP = 0x9215; public static final int TAG_STANDARD_ID_TIFF_EP = 0x9216; /** * This tag holds the Exif Makernote. Makernotes are free to be in any format, though they are often IFDs. * To determine the format, we consider the starting bytes of the makernote itself and sometimes the * camera model and make. *

* The component count for this tag includes all of the bytes needed for the makernote. */ public static final int TAG_MAKERNOTE = 0x927C; public static final int TAG_USER_COMMENT = 0x9286; public static final int TAG_SUBSECOND_TIME = 0x9290; public static final int TAG_SUBSECOND_TIME_ORIGINAL = 0x9291; public static final int TAG_SUBSECOND_TIME_DIGITIZED = 0x9292; public static final int TAG_TEMPERATURE = 0x9400; public static final int TAG_HUMIDITY = 0x9401; public static final int TAG_PRESSURE = 0x9402; public static final int TAG_WATER_DEPTH = 0x9403; public static final int TAG_ACCELERATION = 0x9404; public static final int TAG_CAMERA_ELEVATION_ANGLE = 0x9405; /** The image title, as used by Windows XP. */ public static final int TAG_WIN_TITLE = 0x9C9B; /** The image comment, as used by Windows XP. */ public static final int TAG_WIN_COMMENT = 0x9C9C; /** The image author, as used by Windows XP (called Artist in the Windows shell). */ public static final int TAG_WIN_AUTHOR = 0x9C9D; /** The image keywords, as used by Windows XP. */ public static final int TAG_WIN_KEYWORDS = 0x9C9E; /** The image subject, as used by Windows XP. */ public static final int TAG_WIN_SUBJECT = 0x9C9F; public static final int TAG_FLASHPIX_VERSION = 0xA000; /** * Defines Color Space. DCF image must use sRGB color space so value is * always '1'. If the picture uses the other color space, value is * '65535':Uncalibrated. */ public static final int TAG_COLOR_SPACE = 0xA001; public static final int TAG_EXIF_IMAGE_WIDTH = 0xA002; public static final int TAG_EXIF_IMAGE_HEIGHT = 0xA003; public static final int TAG_RELATED_SOUND_FILE = 0xA004; public static final int TAG_FLASH_ENERGY = 0xA20B; public static final int TAG_SPATIAL_FREQ_RESPONSE = 0xA20C; public static final int TAG_FOCAL_PLANE_X_RESOLUTION = 0xA20E; public static final int TAG_FOCAL_PLANE_Y_RESOLUTION = 0xA20F; /** * Unit of FocalPlaneXResolution/FocalPlaneYResolution. '1' means no-unit, * '2' inch, '3' centimeter. * * Note: Some of Fujifilm's digicam(e.g.FX2700,FX2900,Finepix4700Z/40i etc) * uses value '3' so it must be 'centimeter', but it seems that they use a * '8.3mm?'(1/3in.?) to their ResolutionUnit. Fuji's BUG? Finepix4900Z has * been changed to use value '2' but it doesn't match to actual value also. */ public static final int TAG_FOCAL_PLANE_RESOLUTION_UNIT = 0xA210; public static final int TAG_SUBJECT_LOCATION = 0xA214; public static final int TAG_EXPOSURE_INDEX = 0xA215; public static final int TAG_SENSING_METHOD = 0xA217; public static final int TAG_FILE_SOURCE = 0xA300; public static final int TAG_SCENE_TYPE = 0xA301; public static final int TAG_CFA_PATTERN = 0xA302; /** * This tag indicates the use of special processing on image data, such as rendering * geared to output. When special processing is performed, the reader is expected to * disable or minimize any further processing. * Tag = 41985 (A401.H) * Type = SHORT * Count = 1 * Default = 0 * 0 = Normal process * 1 = Custom process * Other = reserved */ public static final int TAG_CUSTOM_RENDERED = 0xA401; /** * This tag indicates the exposure mode set when the image was shot. In auto-bracketing * mode, the camera shoots a series of frames of the same scene at different exposure settings. * Tag = 41986 (A402.H) * Type = SHORT * Count = 1 * Default = none * 0 = Auto exposure * 1 = Manual exposure * 2 = Auto bracket * Other = reserved */ public static final int TAG_EXPOSURE_MODE = 0xA402; /** * This tag indicates the white balance mode set when the image was shot. * Tag = 41987 (A403.H) * Type = SHORT * Count = 1 * Default = none * 0 = Auto white balance * 1 = Manual white balance * Other = reserved */ public static final int TAG_WHITE_BALANCE_MODE = 0xA403; /** * This tag indicates the digital zoom ratio when the image was shot. If the * numerator of the recorded value is 0, this indicates that digital zoom was * not used. * Tag = 41988 (A404.H) * Type = RATIONAL * Count = 1 * Default = none */ public static final int TAG_DIGITAL_ZOOM_RATIO = 0xA404; /** * This tag indicates the equivalent focal length assuming a 35mm film camera, * in mm. A value of 0 means the focal length is unknown. Note that this tag * differs from the FocalLength tag. * Tag = 41989 (A405.H) * Type = SHORT * Count = 1 * Default = none */ public static final int TAG_35MM_FILM_EQUIV_FOCAL_LENGTH = 0xA405; /** * This tag indicates the type of scene that was shot. It can also be used to * record the mode in which the image was shot. Note that this differs from * the scene type (SceneType) tag. * Tag = 41990 (A406.H) * Type = SHORT * Count = 1 * Default = 0 * 0 = Standard * 1 = Landscape * 2 = Portrait * 3 = Night scene * Other = reserved */ public static final int TAG_SCENE_CAPTURE_TYPE = 0xA406; /** * This tag indicates the degree of overall image gain adjustment. * Tag = 41991 (A407.H) * Type = SHORT * Count = 1 * Default = none * 0 = None * 1 = Low gain up * 2 = High gain up * 3 = Low gain down * 4 = High gain down * Other = reserved */ public static final int TAG_GAIN_CONTROL = 0xA407; /** * This tag indicates the direction of contrast processing applied by the camera * when the image was shot. * Tag = 41992 (A408.H) * Type = SHORT * Count = 1 * Default = 0 * 0 = Normal * 1 = Soft * 2 = Hard * Other = reserved */ public static final int TAG_CONTRAST = 0xA408; /** * This tag indicates the direction of saturation processing applied by the camera * when the image was shot. * Tag = 41993 (A409.H) * Type = SHORT * Count = 1 * Default = 0 * 0 = Normal * 1 = Low saturation * 2 = High saturation * Other = reserved */ public static final int TAG_SATURATION = 0xA409; /** * This tag indicates the direction of sharpness processing applied by the camera * when the image was shot. * Tag = 41994 (A40A.H) * Type = SHORT * Count = 1 * Default = 0 * 0 = Normal * 1 = Soft * 2 = Hard * Other = reserved */ public static final int TAG_SHARPNESS = 0xA40A; /** * This tag indicates information on the picture-taking conditions of a particular * camera model. The tag is used only to indicate the picture-taking conditions in * the reader. * Tag = 41995 (A40B.H) * Type = UNDEFINED * Count = Any * Default = none * * The information is recorded in the format shown below. The data is recorded * in Unicode using SHORT type for the number of display rows and columns and * UNDEFINED type for the camera settings. The Unicode (UCS-2) string including * Signature is NULL terminated. The specifics of the Unicode string are as given * in ISO/IEC 10464-1. * * Length Type Meaning * ------+-----------+------------------ * 2 SHORT Display columns * 2 SHORT Display rows * Any UNDEFINED Camera setting-1 * Any UNDEFINED Camera setting-2 * : : : * Any UNDEFINED Camera setting-n */ public static final int TAG_DEVICE_SETTING_DESCRIPTION = 0xA40B; /** * This tag indicates the distance to the subject. * Tag = 41996 (A40C.H) * Type = SHORT * Count = 1 * Default = none * 0 = unknown * 1 = Macro * 2 = Close view * 3 = Distant view * Other = reserved */ public static final int TAG_SUBJECT_DISTANCE_RANGE = 0xA40C; /** * This tag indicates an identifier assigned uniquely to each image. It is * recorded as an ASCII string equivalent to hexadecimal notation and 128-bit * fixed length. * Tag = 42016 (A420.H) * Type = ASCII * Count = 33 * Default = none */ public static final int TAG_IMAGE_UNIQUE_ID = 0xA420; /** String. */ public static final int TAG_CAMERA_OWNER_NAME = 0xA430; /** String. */ public static final int TAG_BODY_SERIAL_NUMBER = 0xA431; /** An array of four Rational64u numbers giving focal and aperture ranges. */ public static final int TAG_LENS_SPECIFICATION = 0xA432; /** String. */ public static final int TAG_LENS_MAKE = 0xA433; /** String. */ public static final int TAG_LENS_MODEL = 0xA434; /** String. */ public static final int TAG_LENS_SERIAL_NUMBER = 0xA435; /** Rational64u. */ public static final int TAG_GAMMA = 0xA500; public static final int TAG_PRINT_IMAGE_MATCHING_INFO = 0xC4A5; public static final int TAG_PANASONIC_TITLE = 0xC6D2; public static final int TAG_PANASONIC_TITLE_2 = 0xC6D3; public static final int TAG_PADDING = 0xEA1C; public static final int TAG_LENS = 0xFDEA; protected static void addExifTagNames(HashMap map) { map.put(TAG_INTEROP_INDEX, "Interoperability Index"); map.put(TAG_INTEROP_VERSION, "Interoperability Version"); map.put(TAG_NEW_SUBFILE_TYPE, "New Subfile Type"); map.put(TAG_SUBFILE_TYPE, "Subfile Type"); map.put(TAG_IMAGE_WIDTH, "Image Width"); map.put(TAG_IMAGE_HEIGHT, "Image Height"); map.put(TAG_BITS_PER_SAMPLE, "Bits Per Sample"); map.put(TAG_COMPRESSION, "Compression"); map.put(TAG_PHOTOMETRIC_INTERPRETATION, "Photometric Interpretation"); map.put(TAG_THRESHOLDING, "Thresholding"); map.put(TAG_FILL_ORDER, "Fill Order"); map.put(TAG_DOCUMENT_NAME, "Document Name"); map.put(TAG_IMAGE_DESCRIPTION, "Image Description"); map.put(TAG_MAKE, "Make"); map.put(TAG_MODEL, "Model"); map.put(TAG_STRIP_OFFSETS, "Strip Offsets"); map.put(TAG_ORIENTATION, "Orientation"); map.put(TAG_SAMPLES_PER_PIXEL, "Samples Per Pixel"); map.put(TAG_ROWS_PER_STRIP, "Rows Per Strip"); map.put(TAG_STRIP_BYTE_COUNTS, "Strip Byte Counts"); map.put(TAG_MIN_SAMPLE_VALUE, "Minimum Sample Value"); map.put(TAG_MAX_SAMPLE_VALUE, "Maximum Sample Value"); map.put(TAG_X_RESOLUTION, "X Resolution"); map.put(TAG_Y_RESOLUTION, "Y Resolution"); map.put(TAG_PLANAR_CONFIGURATION, "Planar Configuration"); map.put(TAG_PAGE_NAME, "Page Name"); map.put(TAG_RESOLUTION_UNIT, "Resolution Unit"); map.put(TAG_PAGE_NUMBER, "Page Number"); map.put(TAG_TRANSFER_FUNCTION, "Transfer Function"); map.put(TAG_SOFTWARE, "Software"); map.put(TAG_DATETIME, "Date/Time"); map.put(TAG_ARTIST, "Artist"); map.put(TAG_PREDICTOR, "Predictor"); map.put(TAG_HOST_COMPUTER, "Host Computer"); map.put(TAG_WHITE_POINT, "White Point"); map.put(TAG_PRIMARY_CHROMATICITIES, "Primary Chromaticities"); map.put(TAG_TILE_WIDTH, "Tile Width"); map.put(TAG_TILE_LENGTH, "Tile Length"); map.put(TAG_TILE_OFFSETS, "Tile Offsets"); map.put(TAG_TILE_BYTE_COUNTS, "Tile Byte Counts"); map.put(TAG_SUB_IFD_OFFSET, "Sub IFD Pointer(s)"); map.put(TAG_EXTRA_SAMPLES, "Extra Samples"); map.put(TAG_SAMPLE_FORMAT, "Sample Format"); map.put(TAG_TRANSFER_RANGE, "Transfer Range"); map.put(TAG_JPEG_TABLES, "JPEG Tables"); map.put(TAG_JPEG_PROC, "JPEG Proc"); map.put(TAG_JPEG_RESTART_INTERVAL, "JPEG Restart Interval"); map.put(TAG_JPEG_LOSSLESS_PREDICTORS, "JPEG Lossless Predictors"); map.put(TAG_JPEG_POINT_TRANSFORMS, "JPEG Point Transforms"); map.put(TAG_JPEG_Q_TABLES, "JPEGQ Tables"); map.put(TAG_JPEG_DC_TABLES, "JPEGDC Tables"); map.put(TAG_JPEG_AC_TABLES, "JPEGAC Tables"); map.put(TAG_YCBCR_COEFFICIENTS, "YCbCr Coefficients"); map.put(TAG_YCBCR_SUBSAMPLING, "YCbCr Sub-Sampling"); map.put(TAG_YCBCR_POSITIONING, "YCbCr Positioning"); map.put(TAG_REFERENCE_BLACK_WHITE, "Reference Black/White"); map.put(TAG_STRIP_ROW_COUNTS, "Strip Row Counts"); map.put(TAG_APPLICATION_NOTES, "Application Notes"); map.put(TAG_RELATED_IMAGE_FILE_FORMAT, "Related Image File Format"); map.put(TAG_RELATED_IMAGE_WIDTH, "Related Image Width"); map.put(TAG_RELATED_IMAGE_HEIGHT, "Related Image Height"); map.put(TAG_RATING, "Rating"); map.put(TAG_CFA_REPEAT_PATTERN_DIM, "CFA Repeat Pattern Dim"); map.put(TAG_CFA_PATTERN_2, "CFA Pattern"); map.put(TAG_BATTERY_LEVEL, "Battery Level"); map.put(TAG_COPYRIGHT, "Copyright"); map.put(TAG_EXPOSURE_TIME, "Exposure Time"); map.put(TAG_FNUMBER, "F-Number"); map.put(TAG_IPTC_NAA, "IPTC/NAA"); map.put(TAG_PHOTOSHOP_SETTINGS, "Photoshop Settings"); map.put(TAG_INTER_COLOR_PROFILE, "Inter Color Profile"); map.put(TAG_EXPOSURE_PROGRAM, "Exposure Program"); map.put(TAG_SPECTRAL_SENSITIVITY, "Spectral Sensitivity"); map.put(TAG_ISO_EQUIVALENT, "ISO Speed Ratings"); map.put(TAG_OPTO_ELECTRIC_CONVERSION_FUNCTION, "Opto-electric Conversion Function (OECF)"); map.put(TAG_INTERLACE, "Interlace"); map.put(TAG_TIME_ZONE_OFFSET_TIFF_EP, "Time Zone Offset"); map.put(TAG_SELF_TIMER_MODE_TIFF_EP, "Self Timer Mode"); map.put(TAG_SENSITIVITY_TYPE, "Sensitivity Type"); map.put(TAG_STANDARD_OUTPUT_SENSITIVITY, "Standard Output Sensitivity"); map.put(TAG_RECOMMENDED_EXPOSURE_INDEX, "Recommended Exposure Index"); map.put(TAG_ISO_SPEED, "ISO Speed"); map.put(TAG_ISO_SPEED_LATITUDE_YYY, "ISO Speed Latitude yyy"); map.put(TAG_ISO_SPEED_LATITUDE_ZZZ, "ISO Speed Latitude zzz"); map.put(TAG_EXIF_VERSION, "Exif Version"); map.put(TAG_DATETIME_ORIGINAL, "Date/Time Original"); map.put(TAG_DATETIME_DIGITIZED, "Date/Time Digitized"); map.put(TAG_TIME_ZONE, "Time Zone"); map.put(TAG_TIME_ZONE_ORIGINAL, "Time Zone Original"); map.put(TAG_TIME_ZONE_DIGITIZED, "Time Zone Digitized"); map.put(TAG_COMPONENTS_CONFIGURATION, "Components Configuration"); map.put(TAG_COMPRESSED_AVERAGE_BITS_PER_PIXEL, "Compressed Bits Per Pixel"); map.put(TAG_SHUTTER_SPEED, "Shutter Speed Value"); map.put(TAG_APERTURE, "Aperture Value"); map.put(TAG_BRIGHTNESS_VALUE, "Brightness Value"); map.put(TAG_EXPOSURE_BIAS, "Exposure Bias Value"); map.put(TAG_MAX_APERTURE, "Max Aperture Value"); map.put(TAG_SUBJECT_DISTANCE, "Subject Distance"); map.put(TAG_METERING_MODE, "Metering Mode"); map.put(TAG_WHITE_BALANCE, "White Balance"); map.put(TAG_FLASH, "Flash"); map.put(TAG_FOCAL_LENGTH, "Focal Length"); map.put(TAG_FLASH_ENERGY_TIFF_EP, "Flash Energy"); map.put(TAG_SPATIAL_FREQ_RESPONSE_TIFF_EP, "Spatial Frequency Response"); map.put(TAG_NOISE, "Noise"); map.put(TAG_FOCAL_PLANE_X_RESOLUTION_TIFF_EP, "Focal Plane X Resolution"); map.put(TAG_FOCAL_PLANE_Y_RESOLUTION_TIFF_EP, "Focal Plane Y Resolution"); map.put(TAG_IMAGE_NUMBER, "Image Number"); map.put(TAG_SECURITY_CLASSIFICATION, "Security Classification"); map.put(TAG_IMAGE_HISTORY, "Image History"); map.put(TAG_SUBJECT_LOCATION_TIFF_EP, "Subject Location"); map.put(TAG_EXPOSURE_INDEX_TIFF_EP, "Exposure Index"); map.put(TAG_STANDARD_ID_TIFF_EP, "TIFF/EP Standard ID"); map.put(TAG_MAKERNOTE, "Makernote"); map.put(TAG_USER_COMMENT, "User Comment"); map.put(TAG_SUBSECOND_TIME, "Sub-Sec Time"); map.put(TAG_SUBSECOND_TIME_ORIGINAL, "Sub-Sec Time Original"); map.put(TAG_SUBSECOND_TIME_DIGITIZED, "Sub-Sec Time Digitized"); map.put(TAG_TEMPERATURE, "Temperature"); map.put(TAG_HUMIDITY, "Humidity"); map.put(TAG_PRESSURE, "Pressure"); map.put(TAG_WATER_DEPTH, "Water Depth"); map.put(TAG_ACCELERATION, "Acceleration"); map.put(TAG_CAMERA_ELEVATION_ANGLE, "Camera Elevation Angle"); map.put(TAG_WIN_TITLE, "Windows XP Title"); map.put(TAG_WIN_COMMENT, "Windows XP Comment"); map.put(TAG_WIN_AUTHOR, "Windows XP Author"); map.put(TAG_WIN_KEYWORDS, "Windows XP Keywords"); map.put(TAG_WIN_SUBJECT, "Windows XP Subject"); map.put(TAG_FLASHPIX_VERSION, "FlashPix Version"); map.put(TAG_COLOR_SPACE, "Color Space"); map.put(TAG_EXIF_IMAGE_WIDTH, "Exif Image Width"); map.put(TAG_EXIF_IMAGE_HEIGHT, "Exif Image Height"); map.put(TAG_RELATED_SOUND_FILE, "Related Sound File"); map.put(TAG_FLASH_ENERGY, "Flash Energy"); map.put(TAG_SPATIAL_FREQ_RESPONSE, "Spatial Frequency Response"); map.put(TAG_FOCAL_PLANE_X_RESOLUTION, "Focal Plane X Resolution"); map.put(TAG_FOCAL_PLANE_Y_RESOLUTION, "Focal Plane Y Resolution"); map.put(TAG_FOCAL_PLANE_RESOLUTION_UNIT, "Focal Plane Resolution Unit"); map.put(TAG_SUBJECT_LOCATION, "Subject Location"); map.put(TAG_EXPOSURE_INDEX, "Exposure Index"); map.put(TAG_SENSING_METHOD, "Sensing Method"); map.put(TAG_FILE_SOURCE, "File Source"); map.put(TAG_SCENE_TYPE, "Scene Type"); map.put(TAG_CFA_PATTERN, "CFA Pattern"); map.put(TAG_CUSTOM_RENDERED, "Custom Rendered"); map.put(TAG_EXPOSURE_MODE, "Exposure Mode"); map.put(TAG_WHITE_BALANCE_MODE, "White Balance Mode"); map.put(TAG_DIGITAL_ZOOM_RATIO, "Digital Zoom Ratio"); map.put(TAG_35MM_FILM_EQUIV_FOCAL_LENGTH, "Focal Length 35"); map.put(TAG_SCENE_CAPTURE_TYPE, "Scene Capture Type"); map.put(TAG_GAIN_CONTROL, "Gain Control"); map.put(TAG_CONTRAST, "Contrast"); map.put(TAG_SATURATION, "Saturation"); map.put(TAG_SHARPNESS, "Sharpness"); map.put(TAG_DEVICE_SETTING_DESCRIPTION, "Device Setting Description"); map.put(TAG_SUBJECT_DISTANCE_RANGE, "Subject Distance Range"); map.put(TAG_IMAGE_UNIQUE_ID, "Unique Image ID"); map.put(TAG_CAMERA_OWNER_NAME, "Camera Owner Name"); map.put(TAG_BODY_SERIAL_NUMBER, "Body Serial Number"); map.put(TAG_LENS_SPECIFICATION, "Lens Specification"); map.put(TAG_LENS_MAKE, "Lens Make"); map.put(TAG_LENS_MODEL, "Lens Model"); map.put(TAG_LENS_SERIAL_NUMBER, "Lens Serial Number"); map.put(TAG_GAMMA, "Gamma"); map.put(TAG_PRINT_IMAGE_MATCHING_INFO, "Print Image Matching (PIM) Info"); map.put(TAG_PANASONIC_TITLE, "Panasonic Title"); map.put(TAG_PANASONIC_TITLE_2, "Panasonic Title (2)"); map.put(TAG_PADDING, "Padding"); map.put(TAG_LENS, "Lens"); } }





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