230 lines
7.7 KiB
Python
230 lines
7.7 KiB
Python
#source : https://gitlab.com/geovisio/geo-picture-tag-reader/-/blob/main/geopic_tag_reader/writer.py
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from typing import Optional, Tuple
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from datetime import datetime, timedelta
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from dataclasses import dataclass
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from model import PictureType
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try:
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import pyexiv2 # type: ignore
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except ImportError:
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raise Exception(
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"""Impossible to write the exif tags without the '[write-exif]' dependency (that will need to install libexiv2).
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Install this package with `pip install geopic-tag-reader[write-exif]` to use this function"""
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)
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import timezonefinder # type: ignore
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import pytz
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tz_finder = timezonefinder.TimezoneFinder()
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@dataclass
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class PictureMetadata:
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capture_time: Optional[datetime] = None
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longitude: Optional[float] = None
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latitude: Optional[float] = None
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altitude: Optional[float] = None
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picture_type: Optional[PictureType] = None
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direction: Optional[float] = None
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orientation: Optional[int] = 1
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def writePictureMetadata(picture: bytes, metadata: PictureMetadata) -> bytes:
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"""
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Override exif metadata on raw picture and return updated bytes
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"""
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if not metadata.capture_time and not metadata.longitude and not metadata.latitude and not metadata.picture_type:
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return picture
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if metadata.capture_time:
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picture = add_gps_datetime(picture, metadata)
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if metadata.latitude is not None and metadata.longitude is not None:
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picture = add_lat_lon(picture, metadata)
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if metadata.picture_type is not None:
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picture = add_img_projection(picture, metadata)
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return picture
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def add_lat_lon(picture: bytes, metadata: PictureMetadata) -> bytes:
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"""
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Add latitude and longitude values in GPSLatitude + GPSLAtitudeRef and GPSLongitude + GPSLongitudeRef
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"""
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img = pyexiv2.ImageData(picture)
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updated_exif = {}
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if metadata.latitude is not None:
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updated_exif["Exif.GPSInfo.GPSLatitudeRef"] = "N" if metadata.latitude > 0 else "S"
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updated_exif["Exif.GPSInfo.GPSLatitude"] = _to_exif_dms(metadata.latitude)
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if metadata.longitude is not None:
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updated_exif["Exif.GPSInfo.GPSLongitudeRef"] = "E" if metadata.longitude > 0 else "W"
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updated_exif["Exif.GPSInfo.GPSLongitude"] = _to_exif_dms(metadata.longitude)
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if updated_exif:
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img.modify_exif(updated_exif)
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return img.get_bytes()
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def add_altitude(picture: bytes, metadata: PictureMetadata, precision: int = 1000) -> bytes:
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"""
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Add altitude value in GPSAltitude and GPSAltitudeRef
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"""
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altitude = metadata.altitude
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img = pyexiv2.ImageData(picture)
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updated_exif = {}
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if altitude is not None:
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negative_altitude = 0 if altitude >= 0 else 1
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updated_exif['Exif.GPSInfo.GPSAltitude'] = f"{int(abs(altitude * precision))} / {precision}"
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updated_exif['Exif.GPSInfo.GPSAltitudeRef'] = negative_altitude
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if updated_exif:
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img.modify_exif(updated_exif)
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return img.get_bytes()
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def add_gps_datetime(picture: bytes, metadata: PictureMetadata) -> bytes:
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"""
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Add GPSDateStamp and GPSTimeStamp
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"""
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img = pyexiv2.ImageData(picture)
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updated_exif = {}
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if metadata.capture_time.utcoffset() is None:
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metadata.capture_time = localize(metadata, img)
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# for capture time, override GPSInfo time and DatetimeOriginal
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updated_exif["Exif.Photo.DateTimeOriginal"] = metadata.capture_time.strftime("%Y:%m:%d %H:%M:%S")
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offset = metadata.capture_time.utcoffset()
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if offset is not None:
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updated_exif["Exif.Photo.OffsetTimeOriginal"] = format_offset(offset)
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utc_dt = metadata.capture_time.astimezone(tz=pytz.UTC)
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updated_exif["Exif.GPSInfo.GPSDateStamp"] = utc_dt.strftime("%Y:%m:%d")
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updated_exif["Exif.GPSInfo.GPSTimeStamp"] = utc_dt.strftime("%H/1 %M/1 %S/1")
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if updated_exif:
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img.modify_exif(updated_exif)
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return img.get_bytes()
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def add_direction(picture: bytes, metadata: PictureMetadata, ref: str = 'T', precision: int = 1000) -> bytes:
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"""
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Add direction value in GPSImgDirection and GPSImgDirectionRef
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"""
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direction = metadata.direction
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img = pyexiv2.ImageData(picture)
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updated_exif = {}
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if metadata.direction is not None:
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updated_exif['Exif.GPSInfo.GPSImgDirection'] = f"{int(abs(direction % 360.0 * precision))} / {precision}"
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updated_exif['Exif.GPSInfo.GPSImgDirectionRef'] = ref
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if updated_exif:
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img.modify_exif(updated_exif)
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return img.get_bytes()
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def add_img_projection(picture: bytes, metadata: PictureMetadata) -> bytes:
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"""
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Add image projection type (equirectangular for spherical image, ...) in xmp GPano.ProjectionType
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"""
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img = pyexiv2.ImageData(picture)
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updated_xmp = {}
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if metadata.picture_type.value != "flat":
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updated_xmp["Xmp.GPano.ProjectionType"] = metadata.picture_type.value
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updated_xmp["Xmp.GPano.UsePanoramaViewer"] = True
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if updated_xmp:
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img.modify_xmp(updated_xmp)
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return img.get_bytes()
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def format_offset(offset: timedelta) -> str:
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"""Format offset for OffsetTimeOriginal. Format is like "+02:00" for paris offset
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>>> format_offset(timedelta(hours=5, minutes=45))
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'+05:45'
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>>> format_offset(timedelta(hours=-3))
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'-03:00'
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"""
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offset_hour, remainer = divmod(offset.total_seconds(), 3600)
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return f"{'+' if offset_hour >= 0 else '-'}{int(abs(offset_hour)):02}:{int(remainer/60):02}"
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def localize(metadata: PictureMetadata, imagedata: pyexiv2.ImageData) -> datetime:
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"""
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Localize a datetime in the timezone of the picture
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If the picture does not contains GPS position, the datetime will not be modified.
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"""
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exif = imagedata.read_exif()
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try:
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lon = exif["Exif.GPSInfo.GPSLongitude"]
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lon_ref = exif.get("Exif.GPSInfo.GPSLongitudeRef", "E")
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lat = exif["Exif.GPSInfo.GPSLatitude"]
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lat_ref = exif.get("Exif.GPSInfo.GPSLatitudeRef", "N")
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except KeyError:
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return metadata.capture_time # canot localize, returning same date
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lon = _from_dms(lon) * (1 if lon_ref == "E" else -1)
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lat = _from_dms(lat) * (1 if lat_ref == "N" else -1)
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tz_name = tz_finder.timezone_at(lng=lon, lat=lat)
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if not tz_name:
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return metadata.capture_time # cannot find timezone, returning same date
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tz = pytz.timezone(tz_name)
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return tz.localize(metadata.capture_time)
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def _from_dms(val: str) -> float:
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"""Convert exif lat/lon represented as degre/minute/second into decimal
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>>> _from_dms("1/1 55/1 123020/13567")
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1.9191854417991367
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>>> _from_dms("49/1 0/1 1885/76")
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49.00688961988304
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"""
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deg_raw, min_raw, sec_raw = val.split(" ")
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deg_num, deg_dec = deg_raw.split("/")
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deg = float(deg_num) / float(deg_dec)
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min_num, min_dec = min_raw.split("/")
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min = float(min_num) / float(min_dec)
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sec_num, sec_dec = sec_raw.split("/")
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sec = float(sec_num) / float(sec_dec)
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return float(deg) + float(min) / 60 + float(sec) / 3600
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def _to_dms(value: float) -> Tuple[int, int, float]:
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"""Return degree/minute/seconds for a decimal
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>>> _to_dms(38.889469)
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(38, 53, 22.0884)
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>>> _to_dms(43.7325)
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(43, 43, 57.0)
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>>> _to_dms(-43.7325)
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(43, 43, 57.0)
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"""
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value = abs(value)
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deg = int(value)
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min = (value - deg) * 60
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sec = (min - int(min)) * 60
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return deg, int(min), round(sec, 8)
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def _to_exif_dms(value: float) -> str:
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"""Return degree/minute/seconds string formated for the exif metadata for a decimal
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>>> _to_exif_dms(38.889469)
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'38/1 53/1 55221/2500'
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"""
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from fractions import Fraction
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d, m, s = _to_dms(value)
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f = Fraction.from_float(s).limit_denominator() # limit fraction precision
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num_s, denomim_s = f.as_integer_ratio()
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return f"{d}/1 {m}/1 {num_s}/{denomim_s}"
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