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Java library for reading and writing FITS files. FITS, the Flexible Image Transport System, is the format commonly used in the archiving and transport of astronomical data.
package nom.tam.fits.header.extra;
/*
* #%L
* nom.tam FITS library
* %%
* Copyright (C) 1996 - 2015 nom-tam-fits
* %%
* This is free and unencumbered software released into the public domain.
*
* Anyone is free to copy, modify, publish, use, compile, sell, or
* distribute this software, either in source code form or as a compiled
* binary, for any purpose, commercial or non-commercial, and by any
* means.
*
* In jurisdictions that recognize copyright laws, the author or authors
* of this software dedicate any and all copyright interest in the
* software to the public domain. We make this dedication for the benefit
* of the public at large and to the detriment of our heirs and
* successors. We intend this dedication to be an overt act of
* relinquishment in perpetuity of all present and future rights to this
* software under copyright law.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
* #L%
*/
import nom.tam.fits.header.FitsHeaderImpl;
import nom.tam.fits.header.IFitsHeader;
/**
* The Fits extension as defined by Maxim DL.Extension keywords that may be
* added or read by MaxIm DL, depending on the current equipment and software
* configuration.
*
* This standard extends the @see {@link SBFitsExt} all that fields are
* included.
*
*
*
* http://www.cyanogen.com/help/maximdl/FITS_File_Header_Definitions.htm
*
*
* @author Richard van Nieuwenhoven
*/
public enum MaxImDLExt implements IFitsHeader {
/**
* if present the image has a valid Bayer color pattern.
*/
BAYERPAT(VALUE.REAL, "image Bayer color pattern"),
/**
* Boltwood Cloud Sensor ambient temperature in degrees C.
*/
BOLTAMBT(VALUE.REAL, "ambient temperature in degrees C"),
/**
* Boltwood Cloud Sensor cloud condition.
*/
BOLTCLOU(VALUE.REAL, "Boltwood Cloud Sensor cloud condition."),
/**
* Boltwood Cloud Sensor daylight level.
*/
BOLTDAY(VALUE.REAL, "Boltwood Cloud Sensor daylight level."),
/**
* Boltwood Cloud Sensor dewpoint in degrees C.
*/
BOLTDEW(VALUE.REAL, "Boltwood Cloud Sensor dewpoint in degrees C."),
/**
* Boltwood Cloud Sensor humidity in percent.
*/
BOLTHUM(VALUE.REAL, "Boltwood Cloud Sensor humidity in percent."),
/**
* Boltwood Cloud Sensor rain condition.
*/
BOLTRAIN(VALUE.REAL, "Boltwood Cloud Sensor rain condition."),
/**
* Boltwood Cloud Sensor sky minus ambient temperature in degrees C.
*/
BOLTSKYT(VALUE.REAL, "Boltwood Cloud Sensor sky minus ambient temperature in degrees C."),
/**
* Boltwood Cloud Sensor wind speed in km/h.
*/
BOLTWIND(VALUE.REAL, "Boltwood Cloud Sensor wind speed in km/h."),
/**
* indicates calibration state of the image; B indicates bias corrected, D
* indicates dark corrected, F indicates flat corrected.
*/
CALSTAT(VALUE.REAL, "calibration state of the image"),
/**
* type of color sensor Bayer array or zero for monochrome.
*/
COLORTYP(VALUE.REAL, "type of color sensor"),
/**
* initial display screen stretch mode.
*/
CSTRETCH(VALUE.REAL, "initial display screen stretch mode"),
/**
* dark current integration time, if recorded. May be longer than exposure
* time.
*/
DARKTIME(VALUE.REAL, "dark current integration time"),
/**
* Davis Instruments Weather Station ambient temperature in deg C
*/
DAVAMBT(VALUE.REAL, "ambient temperature"),
/**
* Davis Instruments Weather Station barometric pressure in hPa
*/
DAVBAROM(VALUE.REAL, "barometric pressure"),
/**
* Davis Instruments Weather Station dewpoint in deg C
*/
DAVDEW(VALUE.REAL, "dewpoint in deg C"),
/**
* Davis Instruments Weather Station humidity in percent
*/
DAVHUM(VALUE.REAL, "humidity in percent"),
/**
* Davis Instruments Weather Station solar radiation in W/m^2
*/
DAVRAD(VALUE.REAL, "solar radiation"),
/**
* Davis Instruments Weather Station accumulated rainfall in mm/day
*/
DAVRAIN(VALUE.REAL, "accumulated rainfall"),
/**
* Davis Instruments Weather Station wind speed in km/h
*/
DAVWIND(VALUE.REAL, "wind speed"),
/**
* Davis Instruments Weather Station wind direction in deg
*/
DAVWINDD(VALUE.REAL, "wind direction"),
/**
* status of pier flip for German Equatorial mounts.
*/
FLIPSTAT(VALUE.REAL, "status of pier flip"),
/**
* Focuser position in steps, if focuser is connected.
*/
FOCUSPOS(VALUE.REAL, "Focuser position in steps"),
/**
* Focuser step size in microns, if available.
*/
FOCUSSZ(VALUE.REAL, "Focuser step size in microns"),
/**
* Focuser temperature readout in degrees C, if available.
*/
FOCUSTEM(VALUE.REAL, "Focuser temperature readout"),
/**
* format of file from which image was read.
*/
INPUTFMT(VALUE.REAL, "format of file"),
/**
* ISO camera setting, if camera uses ISO speeds.
*/
ISOSPEED(VALUE.REAL, "ISO camera setting"),
/**
* records the geocentric Julian Day of the start of exposure.
*/
JD(VALUE.REAL, "geocentric Julian Day"),
/**
* records the geocentric Julian Day of the start of exposure.
*/
JD_GEO(VALUE.REAL, "geocentric Julian Da"),
/**
* records the Heliocentric Julian Date at the exposure midpoint.
*/
JD_HELIO(VALUE.REAL, "Heliocentric Julian Date"),
/**
* records the Heliocentric Julian Date at the exposure midpoint.
*/
JD_HELIO2("JD-HELIO", VALUE.REAL, "Heliocentric Julian Date"),
/**
* UT of midpoint of exposure.
*/
MIDPOINT(VALUE.REAL, "midpoint of exposure"),
/**
* user-entered information; free-form notes.
*/
NOTES(VALUE.REAL, "free-form note"),
/**
* nominal altitude of center of image
*/
OBJCTALT(VALUE.REAL, "altitude of center of image"),
/**
* nominal azimuth of center of image
*/
OBJCTAZ(VALUE.REAL, "nominal azimuth of center of image"),
/**
* nominal hour angle of center of image
*/
OBJCTHA(VALUE.REAL, "nominal hour angle of center of image"),
/**
* indicates side-of-pier status when connected to a German Equatorial
* mount.
*/
PIERSIDE(VALUE.REAL, "side-of-pier status"),
/**
* records the selected Readout Mode (if any) for the camera.
*/
READOUTM(VALUE.REAL, "Readout Mode for the camera"),
/**
* Rotator angle in degrees, if focal plane rotator is connected.
*/
ROTATANG(VALUE.REAL, "Rotator angle in degrees"),
/**
* indicates tile position within a mosaic.
*/
TILEXY(VALUE.REAL, "tile position within a mosaic"),
/**
* X offset of Bayer array on imaging sensor.
*/
XBAYROFF(VALUE.REAL, "X offset of Bayer array"),
/**
* Y offset of Bayer array on imaging sensor.
*/
YBAYROFF(VALUE.REAL, "Y offset of Bayer array");
@SuppressWarnings("CPD-START")
private final IFitsHeader key;
MaxImDLExt(String key, VALUE valueType, String comment) {
this.key = new FitsHeaderImpl(key, IFitsHeader.SOURCE.MaxImDL, HDU.IMAGE, valueType, comment);
}
MaxImDLExt(VALUE valueType, String comment) {
this.key = new FitsHeaderImpl(name(), IFitsHeader.SOURCE.MaxImDL, HDU.IMAGE, valueType, comment);
}
@Override
public String comment() {
return this.key.comment();
}
@Override
public HDU hdu() {
return this.key.hdu();
}
@Override
public String key() {
return this.key.key();
}
@Override
public IFitsHeader n(int... number) {
return this.key.n(number);
}
@Override
public SOURCE status() {
return this.key.status();
}
@Override
@SuppressWarnings("CPD-END")
public VALUE valueType() {
return this.key.valueType();
}
}
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