Modified ini files, tried to generate some new header

noche/headers/header_base_v1.ini

@@ -33,12 +33,12 @@ MJD-OBS =             | [d] Modified Julian Date of observation
 TELESCOP =            | Telescope name
 FOCALLEN =            | [mm] Telescope focal length
 APTDIA =              | [mm] Telescope aperture diameter
-OBS-LONG =            | [deg] Observatory longitude (East < 0)
+OBS-LONG =            | [deg] Observatory longitude (East > 0)
 OBS-LAT =             | [deg] Observatory latitude (North > 0)
 OBS-ELEV =            | [m] Observatory altitude above sea level
 FOCUSPOS =            | [um] Focuser position
 FOCUSTEM =            | [C] Focuser temperature
-DEROTANG = 0          | [deg] Rotator angle
+DEROTANG = 0          | [deg] Rotator angle, if any
                       
 [Imaging]          
 INSTRUME =            | Instrument name
@@ -55,7 +55,7 @@ CCD-TEMP =            | [C] CCD temperature
 GAIN =                | [e-/ADU] Gain
 RDNOISE =             | [e- RMS] Readout noise
 
-IMAGETYP =            | Frame type (LIGHT, DARK, BIAS, FLAT)
+IMAGETYP =            | Frame type
 FILTER =              | Photometric filter used
 EXPTIME =             | [s] Exposure time
 XBINNING =            | Binning factor in X
@@ -88,7 +88,7 @@ EQUINOX = 2000.0      | [yr] Equinox of coordinates
 
 [Final]
 FILEORIG =            | Original file name
-SWCREATE =            | Software that created this file
+SWCREATE =            | Software that created FILEORIG
 CHECKSUM =            | Checksum of header
 DATASUM =             | Data sum of FITS file
 ORIGIN = NOCHE v0.1   | Origin of FITS file

noche/noche.py

 import configparser
 from pathlib import Path
+from configparser import DuplicateOptionError
+from ast import literal_eval
 
 import numpy as np
 from astropy.coordinates import SkyCoord, EarthLocation
@@ -54,9 +56,9 @@ class Noche:
         self._obs_dir = "observatories"
 
         self.header = fits.Header()
+        self.hdu = None
+        
         self.load_default_header(header_template_path)
-        # self.load_noctis_observatory("oarpaf")
-        # self.set_coordinates(05.3, 70.0, Time.now().isot)
 
 
     @property
@@ -87,15 +89,10 @@ class Noche:
             path = Path(__file__).parent / self._head_dir / "header_base_v1.ini"
             log.info(path)
 
-        config = configparser.ConfigParser(inline_comment_prefixes=('#',))
-        try:
-            config.read(path)
-        except IndexError as e:
-            log.error("File not found")
+        config = self._load_config(path)        
         
         for section in config.sections():
             for key, value in config.items(section):
-                
                 try:
                     val, comment = value.split("|")
                     comment = comment.strip()
@@ -109,7 +106,7 @@ class Noche:
         self._update()
 
 
-    def load_noctis_observatory(self, name='oarpaf', flavor=None):
+    def load_noctis_observatory(self, name='oarpaf', fits_file=None):
         """
         Load one of the NOCTIS observatory parameters such as
         location and detector specifics,
@@ -119,8 +116,6 @@ class Noche:
         ----------
         name : str
             One of the supported observatories.
-        flavor : str, optional
-            Section name of the configuration file. If not specified, takes the first one.
         """
 
         data_dir = Path(__file__).parent / self._obs_dir
@@ -128,12 +123,15 @@ class Noche:
 
         log.debug(ini_path)
         if not ini_path.exists():
-            raise FileNotFoundError(f"Observatory config '{ini_path}' not found.")
+            msg = f"Observatory config '{ini_path}' not found."
+            # raise FileNotFoundError(msg)
+            log.error(msg)
+            return
 
-        self.load_observatory(str(ini_path), flavor=flavor)
+        self.load_observatory(path=str(ini_path), fits_file=fits_file)
 
 
-    def load_observatory(self, path=None, flavor=None):
+    def load_observatory(self, path=None, fits_file=None):
         """
         Load observatory parameters such as location and detector specifics,
         and update relevant FITS keywords.
@@ -142,31 +140,83 @@ class Noche:
         ----------
         path : str
             Configuration file in .ini format.
-        flavor : str, optional
-            Section name of the configuration file. If not specified, takes the first one.
         """
 
-        config = configparser.ConfigParser(inline_comment_prefixes=('#',))
-        config.read(path)
+        config = self._load_config(path)        
 
         sections = config.sections()
 
-        if not flavor:
-            loc = config[sections[0]]
-        else:
-            loc = config[flavor]
+        loc = config["Fixed"]
 
         self.set_location(loc["OBS-LONG"], loc["OBS-LAT"], loc["OBS-ELEV"])
 
         for k in loc.keys():
+            log.info(k)
             val = self._parse(loc[k])
             if k in self.header:
                 self.header[k] = val
 
-        self.header["DETSIZE"] = f'[1:{self.header["NAXIS1"]},1:{self.header["NAXIS2"]}]'
+        #self.header["DETSIZE"] = f'[1:{self.header["NAXIS1"]},1:{self.header["NAXIS2"]}]'
+
+        if fits_file:
+            self.fill_from_fits_file(path, fits_file)
+
+        self._update()
+
+
+    def fill_from_fits_file(self, path=None, fits_file=None):
+        """
+        Load relevant header info from a fits file of the specific observatory.
+
+         - [Mapping] section defines how the new keywords are related
+           to the old ones.
+           For example: FOCUSPOS = TELFOCUS
+
+         - [Formula] section defines the formula to apply to a header
+           value to match the specifics of the new one.
+           For example: FOCUSPOS = (x)/1000 # Transforming mm in um.
+
+        Parameters
+        ----------
+        path : str
+            Configuration file in .ini format.
+        fits_file : str
+            FITS file position.
+
+        """
+
+        config = self._load_config(path)        
+
+        filename = Path(fits_file)
+        self.load_fits(filename)
+        fits_file_header = self.hdu.header
+
+        sections = config.sections()
+
+        loc = config["Mapping"]
+        for k in loc.keys():
+            fits_keyword = loc[k]
+            fits_value = fits_file_header[fits_keyword]
+            val = self._parse(fits_value)
+            self.header[k] = val
+            log.info(f"{k:<8} : {val}")
+
+        loc = config["Formula"]
+        for k in loc.keys():
+            fits_formula = loc[k]
+            x = self.header[k]
+            self.header[k] = eval(fits_formula)
+            log.info(f"{k:<8} : from {x} to {self.header[k]}")
+            del x
+
+        self.set_coordinates(self.header["RA"],
+                             self.header["DEC"],
+                             obstime=self.header["DATE-OBS"])
             
         self._update()
 
+        self.header["FILEORIG"] = filename.name
+
 
     def set_location(self, lon, lat, alt):
         """
@@ -212,7 +262,7 @@ class Noche:
         self._update()
 
 
-    def set_object(self, objname, update_coord=True, obstime=None):
+    def set_object(self, objname, update_coord=False, obstime=None):
         """
         Resolve object coordinates and set OBJECT keyword.
 
@@ -273,8 +323,10 @@ class Noche:
             time = Time(obstime)
             self.set_obstime(time)
 
-        self.header['RA'] = coord.ra.to_string(unit=u.hourangle, sep=':')
-        self.header['DEC'] = coord.dec.to_string(unit=u.deg, sep=':')
+        self.header['RA'] = coord.ra.to_string(unit=u.hourangle, sep=':',
+                                               pad=True, precision=1)
+        self.header['DEC'] = coord.dec.to_string(unit=u.deg, sep=':', pad=True,
+                                                 precision=1)
         self.header['RA_DEG'] = coord.ra.deg
         self.header['DEC_DEG'] = coord.dec.deg
 
@@ -342,9 +394,17 @@ class Noche:
         if self._coord == None or self._location == None:
             raise ValueError("Observation Coordinates, Instrument parameters must be set.")
 
-        crpix = [self.header['NAXIS1']/2, self.header['NAXIS2']/2]
-        cdelt = [round(self.header["PIXSCALE"]*u.arcsec.to(u.deg), 7),
-                 round(self.header["PIXSCALE"]*u.arcsec.to(u.deg), 7)]
+
+        detsize = self.header['DETSIZE'].strip('[]')
+        x_str, y_str = detsize.split(',')
+
+        # Ottieni i limiti numerici
+        _, xsize = map(int, x_str.split(':'))
+        _, ysize = map(int, y_str.split(':'))
+
+        crpix = [xsize/self.header["XBINNING"]/2, ysize/self.header["YBINNING"]/2]
+        cdelt1 = round(self.header["PIXSCALE"]*self.header["XBINNING"]*u.arcsec.to(u.deg), 7)
+        cdelt2 = round(self.header["PIXSCALE"]*self.header["YBINNING"]*u.arcsec.to(u.deg), 7)
 
         if not angle:
             angle = self.header["DEROTANG"]
@@ -358,11 +418,11 @@ class Noche:
         self.header['CRPIX2'] = crpix[1]
         self.header['CRVAL1'] = crval_ra
         self.header['CRVAL2'] = crval_dec
-        self.header['CDELT1'] = cdelt[0]
-        self.header['CDELT2'] = cdelt[1]
-        self.header["PC1_1"] = -np.cos(angle)
+        self.header['CDELT1'] = cdelt1
+        self.header['CDELT2'] = cdelt2
+        self.header["PC1_1"] = +np.cos(angle) *-1 # E to left
+        self.header["PC1_2"] = -np.sin(angle)
         self.header["PC2_1"] = +np.sin(angle)
-        self.header["PC1_2"] = +np.sin(angle)
         self.header["PC2_2"] = +np.cos(angle)
 
 
@@ -412,6 +472,32 @@ class Noche:
             if self.header[k] == None:
                 print(k, self.header[k])
 
+    def load_fits(self, fits_file):
+
+        filename = fits_file
+        hdul = fits.open(filename)
+        self.hdu = hdul[0]
+
+            
+    def write_noctis_fits(self, filename=None, overwrite=True):
+        noche_hdu = self.hdu.copy()
+        noche_hdu.header = self.header
+        noche_hdu.writeto(filename,
+                          overwrite=overwrite, checksum=True)
+
+    @staticmethod
+    def _load_config(path):
+                
+        config = configparser.ConfigParser(inline_comment_prefixes=('#',))
+
+        try:
+            config.read(path)
+            return config
+        except IndexError as e:
+            log.error("File not found: {e}")
+        except DuplicateOptionError as e:
+            log.error(e)
+                
 
     def _update(self):
         """
@@ -440,7 +526,10 @@ class Noche:
             Parsed value.
         """
 
+        try:
             val = val.strip()
+        except AttributeError as e:
+            pass
 
         if not val:
             val = None
@@ -462,4 +551,3 @@ class Noche:
                     pass
 
         return val
-

noche/observatories/abobservatory.ini

-[ABObservatory]
+[Fixed]
 TELESCOP = ABObservatory          # Telescope name
 APTDIA = 300                      # [mm] Telescope aperture diameter
 FOCALLEN = 1170                   # [mm] Telescope focal length
-OBS-LONG = -11.2430135            # [deg] Observatory longitude (East < 0)  
+OBS-LONG = -11.2430135            # [deg] Observatory longitude (East > 0)  
 OBS-LAT = 43.5235203              # [deg] Observatory latitude (North > 0)  
 OBS-ELEV = 1025                   # [m] Observatory altitude above sea level
+DEROTANG = 0                      # [deg] Rotator angle, if any
 INSTRUME = ABOb instrument        # Instrument name
 OBSTYPE = Imaging                 # Observation type
 DETECTOR = Atik 383 L             # Detector identifier
-NAXIS1 = 3354                     # [px] X Dimensions of detector in binning 1
-NAXIS2 = 2529                     # [px] Y dimension of detector in binning 1
+DETSIZE = [1:3354,1:2529]         # [px] [1:x,1:y] Physical CCD dimensions
 XPIXSZ = 5.4                      # [um] Pixel X axis size
 YPIXSZ = 5.4                      # [um] Pixel Y axis size
-PIXSCALE = 3600                   # [arcsec/px] Plate scale in binning 1
+PIXSCALE = 36                     # [arcsec/px] Plate scale in binning 1
 GAIN =                            # [e-/ADU] Gain
 RDNOISE =                         # [e- RMS] Readout noise
 
-[ABObservatory-bis]
-TELESCOP = ABObservatory          # Telescope name
-APTDIA = 300                      # [mm] Telescope aperture diameter
-FOCALLEN = 1170                   # [mm] Telescope focal length
-OBS-LONG = -11.2430135            # [deg] Observatory longitude (East < 0)  
-OBS-LAT = 43.5235203              # [deg] Observatory latitude (North > 0)  
-OBS-ELEV = 1025                   # [m] Observatory altitude above sea level
-INSTRUME = ABOb instrument        # Instrument name
-OBSTYPE = Imaging                 # Observation type
-DETECTOR = Atik 383 L             # Detector identifier
-NAXIS1 = 3354                     # [px] X Dimensions of detector in binning 1
-NAXIS2 = 2529                     # [px] Y dimension of detector in binning 1
-XPIXSZ = 5.4                      # [um] Pixel X axis size
-YPIXSZ = 5.4                      # [um] Pixel Y axis size
-PIXSCALE = 3600                   # [arcsec/px] Plate scale in binning 1
-GAIN =                            # [e-/ADU] Gain
-RDNOISE =                         # [e- RMS] Readout noise
+[Mapping]
+NAXIS1 = NAXIS1                   # [px] X Dimensions of detector
+NAXIS2 = NAXIS2                   # [px] Y dimension of detector
+OBSERVER = OBSERVER               # Observer name
+OBJECT   = OBJECT                 # Name of observed object
+RA = OBJCTRA                      # In sexagesimal or decimal format
+DEC = OBJCTDEC                    # In sexagesimal or decimal format
+DATE-OBS = DATE-OBS               # [YYYY-MM-DDTHH:MM:SS] UTC observation date
+FOCUSTEM = FOCUSTEM               # [C] Focuser temperature
+FOCUSPOS = FOCUSPOS               # [um] Focuser position
+SET-TEMP = SET-TEMP               # [C] CCD temperature set point
+CCD-TEMP = CCD-TEMP               # [C] CCD temperature
+IMAGETYP = IMAGETYP               # Frame type
+FILTER = FILTER                   # Photometric filter used
+EXPTIME = EXPTIME                 # [s] Exposure time
+XBINNING = XBINNING               # Binning factor in X
+YBINNING = YBINNING               # Binning factor in Y
+TEMPERAT = AOCAMBT                # [C] Ambient temperature
+SWCREATE = SWCREATE               # Software that created FILEORIG
+
+[Formula]
+

noche/observatories/grt.ini

-[GRT]
+[Fixed]
 TELESCOP = GRT                    # Telescope name
 APTDIA = 400                      # [mm] Telescope aperture diameter
 FOCALLEN = 1520                   # [mm] Telescope focal length
-OBS-LONG = -11.2430135            # [deg] Observatory longitude (East < 0)  
-OBS-LAT = 43.5235203              # [deg] Observatory latitude (North > 0)  
-OBS-ELEV = 1025                   # [m] Observatory altitude above sea level
+OBS-LONG = 14.020563              # [deg] Observatory longitude (East > 0)  
+OBS-LAT =  37.9391183             # [deg] Observatory latitude (North > 0)  
+OBS-ELEV = 606                    # [m] Observatory altitude above sea level
+DEROTANG = 0                      # [deg] Rotator angle, if any
 INSTRUME = GRT instrument         # Instrument name
 OBSTYPE = Imaging                 # Observation type
 DETECTOR = Moravian CMOS C4-16000 # Detector identifier
-NAXIS1 = 4096                     # [px] X Dimensions of detector in binning 1
-NAXIS2 = 4096                     # [px] Y dimension of detector in binning 1
+DETSIZE = [1:4096,1:4096]         # [px] [1:x,1:y] Physical CCD dimensions
 XPIXSZ = 9                        # [um] Pixel X axis size
 YPIXSZ = 9                        # [um] Pixel Y axis size
 PIXSCALE = 1.22                   # [arcsec/px] Plate scale in binning 1
-GAIN =                            # [e-/ADU] Gain
+GAIN = 0.850                      # [e-/ADU] Gain
 RDNOISE =                         # [e- RMS] Readout noise
 
-[GRT-bis]
-TELESCOP = GRT                    # Telescope name
-APTDIA = 400                      # [mm] Telescope aperture diameter
-FOCALLEN = 1520                   # [mm] Telescope focal length
-OBS-LONG = -11.2430135            # [deg] Observatory longitude (East < 0)  
-OBS-LAT = 43.5235203              # [deg] Observatory latitude (North > 0)  
-OBS-ELEV = 1025                   # [m] Observatory altitude above sea level
-INSTRUME = GRT instrument         # Instrument name
-OBSTYPE = Imaging                 # Observation type
-DETECTOR = Moravian CMOS C4-16000 # Detector identifier
-NAXIS1 = 4096                     # [px] X Dimensions of detector in binning 1
-NAXIS2 = 4096                     # [px] Y dimension of detector in binning 1
-XPIXSZ = 9                        # [um] Pixel X axis size
-YPIXSZ = 9                        # [um] Pixel Y axis size
-PIXSCALE = 1.22                   # [arcsec/px] Plate scale in binning 1
-GAIN =                            # [e-/ADU] Gain
-RDNOISE =                         # [e- RMS] Readout noise
+[Mapping]
+NAXIS1 = NAXIS1                   # [px] X Dimensions of detector
+NAXIS2 = NAXIS2                   # [px] Y dimension of detector
+OBSERVER = OBSERVER               # Observer name
+OBJECT   = OBJECT                 # Name of observed object
+RA = OBJCTRA                      # In sexagesimal or decimal format
+DEC = OBJCTDEC                    # In sexagesimal or decimal format
+DATE-OBS = DATE-OBS               # [YYYY-MM-DDTHH:MM:SS] UTC observation date
+FOCUSTEM = FOCTEMP                # [C] Focuser temperature
+FOCUSPOS = FOCPOS                 # [um] Focuser position
+SET-TEMP = SET-TEMP               # [C] CCD temperature set point
+CCD-TEMP = CCD-TEMP               # [C] CCD temperature
+IMAGETYP = IMAGETYP               # Frame type
+FILTER = FILTER                   # Photometric filter used
+EXPTIME = EXPTIME                 # [s] Exposure time
+XBINNING = XBINNING               # Binning factor in X
+YBINNING = YBINNING               # Binning factor in Y
+# TEMPERAT = AOCAMBT                # [C] Ambient temperature
+SWCREATE = SWCREATE               # Software that created FILEORIG
+
+[Formula]

noche/observatories/oarpaf.ini

-[OARPAF]
+[Fixed]
 TELESCOP = OARPAF                 # Telescope name
 APTDIA = 800                      # [mm] Telescope aperture diameter
 FOCALLEN = 6400                   # [mm] Telescope focal length
-OBS-LONG = -9.2034                # [deg] Observatory longitude (East < 0)  
+OBS-LONG = 9.2034                 # [deg] Observatory longitude (East > 0)  
 OBS-LAT = 44.5912                 # [deg] Observatory latitude (North > 0)  
 OBS-ELEV = 1469                   # [m] Observatory altitude above sea level
+DEROTANG = -89.67                 # [deg] Rotator angle, if any
 INSTRUME = Cerbero                # Instrument name
 OBSTYPE = Imaging                 # Observation type
 DETECTOR = SBIG STX-16081         # Detector identifier
-NAXIS1 = 4144                     # [px] X Dimensions of detector in binning 1
-NAXIS2 = 4126                     # [px] Y dimension of detector in binning 1
+DETSIZE = [1:4144,1:4126]         # [px] [1:x,1:y] Physical CCD dimensions
 XPIXSZ = 9                        # [um] Pixel X axis size
 YPIXSZ = 9                        # [um] Pixel Y axis size
-PIXSCALE = 0.29                   # [arcsec/px] Plate scale in binning 1
+PIXSCALE = 0.283                  # [arcsec/px] Plate scale in binning 1
 GAIN = 1.5                        # [e-/ADU] Gain
 RDNOISE = 8.0                     # [e- RMS] Readout noise
 
-[OARPAF-bis]
-TELESCOP = OARPAF                 # Telescope name
-APTDIA = 800                      # [mm] Telescope aperture diameter
-FOCALLEN = 6400                   # [mm] Telescope focal length
-OBS-LONG = -9.2034                # [deg] Observatory longitude (East < 0)  
-OBS-LAT = 44.5912                 # [deg] Observatory latitude (North > 0)  
-OBS-ELEV = 1469                   # [m] Observatory altitude above sea level
-INSTRUME = Cerbero                # Instrument name
-OBSTYPE = Spectroscopy            # Observation type
-DETECTOR = SBIG STL-11000M        # Detector identifier
-NAXIS1 = 2048                     # [px] X Dimensions of detector in binning 1
-NAXIS2 = 4096                     # [px] Y dimension of detector in binning 1
-XPIXSZ = 9                        # [um] Pixel X axis size
-YPIXSZ = 9                        # [um] Pixel Y axis size
-PIXSCALE = 0.29                   # [arcsec/px] Plate scale in binning 1
-GAIN =                            # [e-/ADU] Gain
-RDNOISE =                         # [e- RMS] Readout noise
+[Mapping]
+NAXIS1 = NAXIS1                   # [px] X Dimensions of detector
+NAXIS2 = NAXIS2                   # [px] Y dimension of detector
+OBSERVER = OBSERVER               # Observer name
+OBJECT   = OBJECT                 # Name of observed object
+RA = RA                           # In sexagesimal or decimal format
+DEC = DEC                         # In sexagesimal or decimal format
+DATE-OBS = DATE-OBS               # [YYYY-MM-DDTHH:MM:SS] UTC observation date
+FOCUSTEM = HIERARCH TEL M2 TEMP   # [C] Focuser temperature
+FOCUSPOS = TELFOCUS               # [um] Focuser position
+SET-TEMP = SET-TEMP               # [C] CCD temperature set point
+CCD-TEMP = CCD-TEMP               # [C] CCD temperature
+IMAGETYP = IMAGETYP               # Frame type
+FILTER = FILTER                   # Photometric filter used
+EXPTIME = EXPTIME                 # [s] Exposure time
+XBINNING = XBINNING               # Binning factor in X
+YBINNING = YBINNING               # Binning factor in Y
+TEMPERAT = HIERARCH CAM AMBIENT   # [C] Ambient temperature
+SWCREATE = SWCREATE               # Software that created FILEORIG
+
+[Formula]
+RA = (x)/15

noche/observatories/ogg.ini

-[OGG]
+[Fixed]
 TELESCOP = OGG                    # Telescope name
 APTDIA = 300                      # [mm] Telescope aperture diameter
-FOCALLEN = 1170                   # [mm] Telescope focal length
-OBS-LONG = -11.2430135            # [deg] Observatory longitude (East < 0)  
-OBS-LAT = 43.5235203              # [deg] Observatory latitude (North > 0)  
-OBS-ELEV = 1025                   # [m] Observatory altitude above sea level
+FOCALLEN = 1200                   # [mm] Telescope focal length
+OBS-LONG = 16.9                   # [deg] Observatory longitude (East > 0)  
+OBS-LAT = 38.29                   # [deg] Observatory latitude (North > 0)  
+OBS-ELEV = 456                    # [m] Observatory altitude above sea level
 INSTRUME = OGG obs instrument     # Instrument name
+DEROTANG = 0                      # [deg] Rotator angle, if any
 OBSTYPE = Imaging                 # Observation type
 DETECTOR = CMOS QHY268            # Detector identifier
-NAXIS1 = 6280                     # [px] X Dimensions of detector in binning 1
-NAXIS2 = 4210                     # [px] Y dimension of detector in binning 1
+DETSIZE = [1:6280,1:4210]         # [px] [1:x,1:y] Physical CCD dimensions
 XPIXSZ = 3.7                      # [um] Pixel X axis size
 YPIXSZ = 3.7                      # [um] Pixel Y axis size
 PIXSCALE = 4644                   # [arcsec/px] Plate scale in binning 1
 GAIN =                            # [e-/ADU] Gain
 RDNOISE =                         # [e- RMS] Readout noise
 
-[OGG-bis]
-TELESCOP = OGG                    # Telescope name
-APTDIA = 300                      # [mm] Telescope aperture diameter
-FOCALLEN = 1170                   # [mm] Telescope focal length
-OBS-LONG = -11.2430135            # [deg] Observatory longitude (East < 0)  
-OBS-LAT = 43.5235203              # [deg] Observatory latitude (North > 0)  
-OBS-ELEV = 1025                   # [m] Observatory altitude above sea level
-INSTRUME = OGG obs instrument     # Instrument name
-OBSTYPE = Imaging                 # Observation type
-DETECTOR = CMOS QHY268            # Detector identifier
-NAXIS1 = 6280                     # [px] X Dimensions of detector in binning 1
-NAXIS2 = 4210                     # [px] Y dimension of detector in binning 1
-XPIXSZ = 3.7                      # [um] Pixel X axis size
-YPIXSZ = 3.7                      # [um] Pixel Y axis size
-PIXSCALE = 4644                   # [arcsec/px] Plate scale in binning 1
-GAIN =                            # [e-/ADU] Gain
-RDNOISE =                         # [e- RMS] Readout noise
+[Mapping]
+NAXIS1 = NAXIS1                   # [px] X Dimensions of detector
+NAXIS2 = NAXIS2                   # [px] Y dimension of detector
+OBSERVER = OBSERVER               # Observer name
+OBJECT   = OBJECT                 # Name of observed object
+RA = OBJCTRA                      # In sexagesimal or decimal format
+DEC = OBJCTDEC                    # In sexagesimal or decimal format
+DATE-OBS = DATE-OBS               # [YYYY-MM-DDTHH:MM:SS] UTC observation date
+# FOCUSTEM = FOCUSTEM               # [C] Focuser temperature
+FOCUSPOS = FOCUS                  # [um] Focuser position
+SET-TEMP = SET-TEMP               # [C] CCD temperature set point
+CCD-TEMP = CCD-TEMP               # [C] CCD temperature
+IMAGETYP = IMAGETYP               # Frame type
+FILTER = FILTER                   # Photometric filter used
+EXPTIME = EXPTIME                 # [s] Exposure time
+XBINNING = XBINNING               # Binning factor in X
+YBINNING = YBINNING               # Binning factor in Y
+TEMPERAT = EXT-TEMP               # [C] Ambient temperature
+SWCREATE = SWCREATE               # Software that created FILEORIG
+
+[Formula]

noche/observatories/opc.ini

-[OPC]
+[Fixed]
 TELESCOP = OPC                    # Telescope name
 APTDIA = 800                      # [mm] Telescope aperture diameter
 FOCALLEN = 6400                   # [mm] Telescope focal length
-OBS-LONG = -11.2430135            # [deg] Observatory longitude (East < 0)  
+OBS-LONG = 11.2430135             # [deg] Observatory longitude (East > 0)  
 OBS-LAT = 43.5235203              # [deg] Observatory latitude (North > 0)  
-OBS-ELEV = 1025                   # [m] Observatory altitude above sea level
+OBS-ELEV = 450                    # [m] Observatory altitude above sea level
+DEROTANG = -90.0                  # [deg] Rotator angle, if any
 INSTRUME = OPC Instrument         # Instrument name
 OBSTYPE = Imaging                 # Observation type
 DETECTOR = Moravian G4 - KAF09000 # Detector identifier
-NAXIS1 = 3056                     # [px] X Dimensions of detector in binning 1
-NAXIS2 = 3056                     # [px] Y dimension of detector in binning 1
+DETSIZE = [1:4144,1:4126]         # [px] [1:x,1:y] Physical CCD dimensions
 XPIXSZ = 12                       # [um] Pixel X axis size
 YPIXSZ = 12                       # [um] Pixel Y axis size
 PIXSCALE = 0.38                   # [arcsec/px] Plate scale in binning 1
 GAIN =                            # [e-/ADU] Gain
 RDNOISE =                         # [e- RMS] Readout noise
 
-[OPC-bis]
-TELESCOP = OPC                    # Telescope name
-APTDIA = 800                      # [mm] Telescope aperture diameter
-FOCALLEN = 6400                   # [mm] Telescope focal length
-OBS-LONG = -11.2430135            # [deg] Observatory longitude (East < 0)  
-OBS-LAT = 43.5235203              # [deg] Observatory latitude (North > 0)  
-OBS-ELEV = 1025                   # [m] Observatory altitude above sea level
-INSTRUME = OPC Instrument         # Instrument name
-OBSTYPE = Imaging                 # Observation type
-DETECTOR = Moravian G4 - KAF09000 # Detector identifier
-NAXIS1 = 3056                     # [px] X Dimensions of detector in binning 1
-NAXIS2 = 3056                     # [px] Y dimension of detector in binning 1
-XPIXSZ = 12                       # [um] Pixel X axis size
-YPIXSZ = 12                       # [um] Pixel Y axis size
-PIXSCALE = 0.38                   # [arcsec/px] Plate scale in binning 1
-GAIN =                            # [e-/ADU] Gain
-RDNOISE =                         # [e- RMS] Readout noise
+[Mapping]
+NAXIS1 = NAXIS1                   # [px] X Dimensions of detector
+NAXIS2 = NAXIS2                   # [px] Y dimension of detector
+# OBSERVER =                        # Observer name
+OBJECT   = OBJECT                 # Name of observed object
+RA = RA                           # In sexagesimal or decimal format
+DEC = DEC                         # In sexagesimal or decimal format
+DATE-OBS = DATE-OBS               # [YYYY-MM-DDTHH:MM:SS] UTC observation date
+FOCUSTEM = FOCUSTEM               # [C] Focuser temperature
+FOCUSPOS = FOCUSPOS               # [um] Focuser position
+SET-TEMP = SET-TEMP               # [C] CCD temperature set point
+CCD-TEMP = CCD-TEMP               # [C] CCD temperature
+IMAGETYP = IMAGETYP               # Frame type
+FILTER = FILTER                   # Photometric filter used
+EXPTIME = EXPTIME                 # [s] Exposure time
+XBINNING = XBINNING               # Binning factor in X
+YBINNING = YBINNING               # Binning factor in Y
+# TEMPERAT =                        # [C] Ambient temperature
+SWCREATE = SWCREATE               # Software that created FILEORIG
+
+[Formula]
+RA = (x)/15

noche/observatories/ossfoligno.ini

-[OSS-Foligno]
+[Fixed]
 TELESCOP = Oss-Foligno            # Telescope name
 APTDIA = 300                      # [mm] Telescope aperture diameter
 FOCALLEN = 1950                   # [mm] Telescope focal length
-OBS-LONG = -11.2430135            # [deg] Observatory longitude (East < 0)  
+OBS-LONG = -11.2430135            # [deg] Observatory longitude (East > 0)  
 OBS-LAT = 43.5235203              # [deg] Observatory latitude (North > 0)  
 OBS-ELEV = 1025                   # [m] Observatory altitude above sea level
+DEROTANG = 0                      # [deg] Rotator angle, if any
 INSTRUME = Foligno instrument     # Instrument name
 OBSTYPE = Imaging                 # Observation type
 DETECTOR = QHY174MM               # Detector identifier
-NAXIS1 = 1900                     # [px] X Dimensions of detector in binning 1
-NAXIS2 = 1200                     # [px] Y dimension of detector in binning 1
+DETSIZE = [1:1900,1:1200]         # [px] [1:x,1:y] Physical CCD dimensions
 XPIXSZ = 5.86                     # [um] Pixel X axis size
 YPIXSZ = 5.86                     # [um] Pixel Y axis size
 PIXSCALE = 0.62                   # [arcsec/px] Plate scale in binning 1
 GAIN =                            # [e-/ADU] Gain
 RDNOISE =                         # [e- RMS] Readout noise
 
-[OSS-Foligno-bis]
-TELESCOP = Oss-Foligno            # Telescope name
-APTDIA = 300                      # [mm] Telescope aperture diameter
-FOCALLEN = 1950                   # [mm] Telescope focal length
-OBS-LONG = -11.2430135            # [deg] Observatory longitude (East < 0)  
-OBS-LAT = 43.5235203              # [deg] Observatory latitude (North > 0)  
-OBS-ELEV = 1025                   # [m] Observatory altitude above sea level
-INSTRUME = Foligno instrument     # Instrument name
-OBSTYPE = Imaging                 # Observation type
-DETECTOR = QHY174MM               # Detector identifier
-NAXIS1 = 1900                     # [px] X Dimensions of detector in binning 1
-NAXIS2 = 1200                     # [px] Y dimension of detector in binning 1
-XPIXSZ = 5.86                     # [um] Pixel X axis size
-YPIXSZ = 5.86                     # [um] Pixel Y axis size
-PIXSCALE = 0.62                   # [arcsec/px] Plate scale in binning 1
-GAIN =                            # [e-/ADU] Gain
-RDNOISE =                         # [e- RMS] Readout noise
+[Mapping]
+NAXIS1 = NAXIS1                   # [px] X Dimensions of detector
+NAXIS2 = NAXIS2                   # [px] Y dimension of detector
+OBSERVER = OBSERVER               # Observer name
+OBJECT   = OBJECT                 # Name of observed object
+RA = OBJCTRA                      # In sexagesimal or decimal format
+DEC = OBJCTDEC                    # In sexagesimal or decimal format
+DATE-OBS = DATE-OBS               # [YYYY-MM-DDTHH:MM:SS] UTC observation date
+FOCUSTEM = FOCUSTEM               # [C] Focuser temperature
+FOCUSPOS = FOCUSPOS               # [um] Focuser position
+SET-TEMP = SET-TEMP               # [C] CCD temperature set point
+CCD-TEMP = CCD-TEMP               # [C] CCD temperature
+IMAGETYP = IMAGETYP               # Frame type
+FILTER = FILTER                   # Photometric filter used
+EXPTIME = EXPTIME                 # [s] Exposure time
+XBINNING = XBINNING               # Binning factor in X
+YBINNING = YBINNING               # Binning factor in Y
+TEMPERAT = AOCAMBT                # [C] Ambient temperature
+SWCREATE = SWCREATE               # Software that created FILEORIG
+
+[Formula]