Coverage for python/lsst/images/_visit_image.py: 34%
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« prev ^ index » next coverage.py v7.14.3, created at 2026-06-25 08:24 +0000
1# This file is part of lsst-images.
2#
3# Developed for the LSST Data Management System.
4# This product includes software developed by the LSST Project
5# (https://www.lsst.org).
6# See the COPYRIGHT file at the top-level directory of this distribution
7# for details of code ownership.
8#
9# Use of this source code is governed by a 3-clause BSD-style
10# license that can be found in the LICENSE file.
12from __future__ import annotations
14__all__ = ("VisitImage", "VisitImageSerializationModel")
16import functools
17import logging
18import warnings
19from collections.abc import Callable, Mapping, MutableMapping
20from types import EllipsisType
21from typing import TYPE_CHECKING, Any, ClassVar, Literal, cast
23import astropy.io.fits
24import astropy.units
25import astropy.wcs
26import numpy as np
27import pydantic
28from astro_metadata_translator import ObservationInfo, VisitInfoTranslator
30from ._backgrounds import BackgroundMap, BackgroundMapSerializationModel
31from ._concrete_bounds import SerializableBounds
32from ._geom import Bounds, Box
33from ._image import Image, ImageSerializationModel
34from ._mask import Mask, MaskPlane, MaskSchema, MaskSerializationModel, get_legacy_visit_image_mask_planes
35from ._masked_image import MaskedImage, MaskedImageSerializationModel
36from ._observation_summary_stats import ObservationSummaryStats
37from ._polygon import Polygon
38from ._transforms import (
39 DetectorFrame,
40 SkyProjection,
41 SkyProjectionAstropyView,
42 SkyProjectionSerializationModel,
43)
44from .aperture_corrections import (
45 ApertureCorrectionMap,
46 ApertureCorrectionMapSerializationModel,
47 aperture_corrections_from_legacy,
48 aperture_corrections_to_legacy,
49)
50from .cameras import Detector, DetectorSerializationModel
51from .fields import BaseField, Field, FieldSerializationModel, field_from_legacy_photo_calib
52from .fits import FitsOpaqueMetadata
53from .psfs import (
54 GaussianPointSpreadFunction,
55 GaussianPSFSerializationModel,
56 LegacyPointSpreadFunction,
57 PiffSerializationModel,
58 PiffWrapper,
59 PointSpreadFunction,
60 PSFExSerializationModel,
61 PSFExWrapper,
62)
63from .serialization import ArchiveReadError, InputArchive, InvalidParameterError, MetadataValue, OutputArchive
64from .utils import is_none
66if TYPE_CHECKING:
67 try:
68 from lsst.afw.cameraGeom import Detector as LegacyDetector
69 from lsst.afw.image import Exposure as LegacyExposure
70 from lsst.afw.image import FilterLabel as LegacyFilterLabel
71 from lsst.afw.image import VisitInfo as LegacyVisitInfo
72 except ImportError:
73 type LegacyDetector = Any # type: ignore[no-redef]
74 type LegacyExposure = Any # type: ignore[no-redef]
75 type LegacyFilterLabel = Any # type: ignore[no-redef]
76 type LegacyVisitInfo = Any # type: ignore[no-redef]
78_LOG = logging.getLogger("lsst.images")
81class VisitImage(MaskedImage):
82 """A calibrated single-visit image.
84 Parameters
85 ----------
86 image
87 The main image plane. If this has a `SkyProjection`, it will be used
88 for all planes unless a ``sky_projection`` is passed separately.
89 mask
90 A bitmask image that annotates the main image plane. Must have the
91 same bounding box as ``image`` if provided. Any attached
92 ``sky_projection`` is replaced (possibly by `None`).
93 variance
94 The per-pixel uncertainty of the main image as an image of variance
95 values. Must have the same bounding box as ``image`` if provided, and
96 its units must be the square of ``image.unit`` or `None`.
97 Values default to ``1.0``. Any attached ``sky_projection`` is replaced
98 (possibly by `None`).
99 mask_schema
100 Schema for the mask plane. Must be provided if and only if ``mask`` is
101 not provided.
102 sky_projection
103 Projection that maps the pixel grid to the sky. Can only be `None` if
104 a ``sky_projection`` is already attached to ``image``.
105 bounds
106 The region where this image's pixels and other properties are valid.
107 If not provided, the bounding box of the image is used. Other
108 components (``psf``, ``sky_projection``, ``aperture_corrections``,
109 etc.) are assumed to have their own bounds which may or may not be the
110 same as the image bounds. If ``bounds`` extends beyond the image
111 bounding box, the intersection between ``bounds`` and the image
112 bounding box is used instead.
113 obs_info
114 General information about this visit in standardized form.
115 summary_stats
116 Summary statistics associated with this visit. Initialized to default
117 values if not provided.
118 photometric_scaling
119 Field that can be used to multiply a post-ISR image units to yield
120 calibrated image units. This may be a scaling that was already
121 applied (so dividing by it will recover the post-ISR units) or a
122 scaling that has not been applied, depending on ``image.unit``.
123 psf
124 Point-spread function model for this image, or an exception explaining
125 why it could not be read (to be raised if the PSF is requested later).
126 detector
127 Geometry and electronic information for the detector attached to this
128 image.
129 aperture_corrections : `dict` [`str`, `~fields.BaseField`]
130 Mapping from photometry algorithm name to the aperture correction for
131 that algorithm.
132 backgrounds
133 Background models associated with this image.
134 band
135 Name of the passband the image was observed with (this is a shorter,
136 less specific version of ``obs_info.physical_filter``).
137 metadata
138 Arbitrary flexible metadata to associate with the image.
139 """
141 def __init__(
142 self,
143 image: Image,
144 *,
145 mask: Mask | None = None,
146 variance: Image | None = None,
147 mask_schema: MaskSchema | None = None,
148 sky_projection: SkyProjection[DetectorFrame] | None = None,
149 bounds: Bounds | None = None,
150 obs_info: ObservationInfo | None = None,
151 summary_stats: ObservationSummaryStats | None = None,
152 photometric_scaling: Field | None = None,
153 psf: PointSpreadFunction | ArchiveReadError,
154 detector: Detector,
155 aperture_corrections: ApertureCorrectionMap | None = None,
156 backgrounds: BackgroundMap | None = None,
157 band: str,
158 metadata: dict[str, MetadataValue] | None = None,
159 ) -> None:
160 super().__init__(
161 image,
162 mask=mask,
163 variance=variance,
164 mask_schema=mask_schema,
165 sky_projection=sky_projection,
166 metadata=metadata,
167 )
168 if self.image.unit is None:
169 raise TypeError("The image component of a VisitImage must have units.")
170 if self.image.sky_projection is None:
171 raise TypeError("The sky_projection component of a VisitImage cannot be None.")
172 if obs_info is None:
173 raise TypeError("The observation info component of a VisitImage cannot be None.")
174 if obs_info.physical_filter is None: 174 ↛ 175line 174 didn't jump to line 175 because the condition on line 174 was never true
175 raise ValueError("The obs_info.physical_filter attribute of a VisitImage cannot be None.")
176 self._obs_info = obs_info
177 if not isinstance(self.image.sky_projection.pixel_frame, DetectorFrame):
178 raise TypeError("The sky_projection's pixel frame must be a DetectorFrame for VisitImage.")
179 if summary_stats is None:
180 summary_stats = ObservationSummaryStats()
181 self._summary_stats = summary_stats
182 if photometric_scaling is not None and photometric_scaling.unit is None: 182 ↛ 183line 182 didn't jump to line 183 because the condition on line 182 was never true
183 raise TypeError("If a photometric_scaling is provided, it must have units.")
184 self._photometric_scaling = photometric_scaling
185 self._psf = psf
186 self._detector = detector
187 self._aperture_corrections = aperture_corrections if aperture_corrections is not None else {}
188 self._bounds = bounds if bounds is not None else self.bbox
189 if not self.bbox.contains(self._bounds.bbox):
190 self._bounds = self._bounds.intersection(self.bbox)
191 self._backgrounds = backgrounds if backgrounds is not None else BackgroundMap()
192 self._band = band
194 @property
195 def unit(self) -> astropy.units.UnitBase:
196 """The units of the image plane (`astropy.units.Unit`)."""
197 return cast(astropy.units.UnitBase, super().unit)
199 @property
200 def sky_projection(self) -> SkyProjection[DetectorFrame]:
201 """The projection that maps the pixel grid to the sky
202 (`SkyProjection` [`DetectorFrame`]).
203 """
204 return cast(SkyProjection[DetectorFrame], super().sky_projection)
206 @property
207 def bounds(self) -> Bounds:
208 """The region where pixels are valid (`Bounds`)."""
209 return self._bounds
211 @property
212 def obs_info(self) -> ObservationInfo:
213 """General information about this observation in standard form.
214 (`~astro_metadata_translator.ObservationInfo`).
215 """
216 return self._obs_info
218 @property
219 def physical_filter(self) -> str:
220 """Full name of the physical bandpass filter (`str`)."""
221 assert self._obs_info.physical_filter is not None, "Guaranteed at construction."
222 return self._obs_info.physical_filter
224 @property
225 def band(self) -> str:
226 """Short name of the bandpass filter (`str`)."""
227 return self._band
229 @property
230 def astropy_wcs(self) -> SkyProjectionAstropyView:
231 """An Astropy WCS for the pixel arrays (`SkyProjectionAstropyView`).
233 Notes
234 -----
235 As expected for Astropy WCS objects, this defines pixel coordinates
236 such that the first row and column in the arrays are ``(0, 0)``, not
237 ``bbox.start``, as is the case for `sky_projection`.
239 This object satisfies the `astropy.wcs.wcsapi.BaseHighLevelWCS` and
240 `astropy.wcs.wcsapi.BaseLowLevelWCS` interfaces, but it is not an
241 `astropy.wcs.WCS` (use `fits_wcs` for that).
242 """
243 return cast(SkyProjectionAstropyView, super().astropy_wcs)
245 @property
246 def summary_stats(self) -> ObservationSummaryStats:
247 """Optional summary statistics for this observation
248 (`ObservationSummaryStats`).
249 """
250 return self._summary_stats
252 @property
253 def photometric_scaling(self) -> Field | None:
254 """Field that multiplies a post-ISR image to yield the calibrated
255 image (~`fields.BaseField`).
256 """
257 return self._photometric_scaling
259 @photometric_scaling.setter
260 def photometric_scaling(self, value: Field) -> None:
261 if value.unit is None:
262 raise TypeError("The photometric_scaling for a VisitImage must have units.")
263 self._photometric_scaling = value
265 @property
266 def psf(self) -> PointSpreadFunction:
267 """The point-spread function model for this image
268 (`.psfs.PointSpreadFunction`).
269 """
270 if isinstance(self._psf, ArchiveReadError): 270 ↛ 271line 270 didn't jump to line 271 because the condition on line 270 was never true
271 raise self._psf
272 return self._psf
274 @property
275 def detector(self) -> Detector:
276 """Geometry and electronic information about the detector
277 (`.cameras.Detector`).
278 """
279 return self._detector
281 @property
282 def aperture_corrections(self) -> ApertureCorrectionMap:
283 """A mapping from photometry algorithm name to the aperture correction
284 field for that algorithm (`dict` [`str`, `~.fields.BaseField`]).
285 """
286 return self._aperture_corrections
288 @property
289 def backgrounds(self) -> BackgroundMap:
290 """A mapping of backgrounds associated with this image
291 (`BackgroundMap`).
292 """
293 return self._backgrounds
295 def __getitem__(self, bbox: Box | EllipsisType) -> VisitImage:
296 if bbox is ...:
297 return self
298 super().__getitem__(bbox)
299 return self._transfer_metadata(
300 VisitImage(
301 self.image[bbox],
302 mask=self.mask[bbox],
303 variance=self.variance[bbox],
304 sky_projection=self.sky_projection,
305 psf=self.psf,
306 obs_info=self.obs_info,
307 bounds=self._bounds, # don't need to intersect here, because __init__ will do that.
308 summary_stats=self.summary_stats,
309 detector=self._detector,
310 photometric_scaling=self._photometric_scaling,
311 aperture_corrections=self.aperture_corrections,
312 backgrounds=self._backgrounds,
313 band=self._band,
314 ),
315 bbox=bbox,
316 )
318 def __str__(self) -> str:
319 return f"VisitImage({self.image!s}, {list(self.mask.schema.names)})"
321 def __repr__(self) -> str:
322 return f"VisitImage({self.image!r}, mask_schema={self.mask.schema!r})"
324 def copy(self, *, copy_detector: bool = False) -> VisitImage:
325 """Deep-copy the visit image.
327 Parameters
328 ----------
329 copy_detector
330 Whether to deep-copy the `detector` attribute.
331 """
332 return self._transfer_metadata(
333 VisitImage(
334 image=self._image.copy(),
335 mask=self._mask.copy(),
336 variance=self._variance.copy(),
337 psf=self._psf,
338 obs_info=self.obs_info,
339 bounds=self._bounds,
340 summary_stats=self.summary_stats.model_copy(),
341 detector=self._detector.copy() if copy_detector else self._detector,
342 photometric_scaling=self._photometric_scaling,
343 aperture_corrections=self.aperture_corrections.copy(),
344 backgrounds=self._backgrounds.copy(),
345 band=self.band,
346 ),
347 copy=True,
348 )
350 def convert_unit(
351 self,
352 unit: astropy.units.UnitBase = astropy.units.nJy,
353 copy: Literal["as-needed"] | bool = True,
354 copy_detector: bool = False,
355 ) -> VisitImage:
356 """Return an equivalent image with different pixel units.
358 Parameters
359 ----------
360 unit
361 The unit to transform to. This may be any of the following:
363 - any unit directly relatable to the current units via Astropy;
364 - any unit relatable to the product of the current units with the
365 `photometric_scaling` (i.e. if the current image is in
366 instrumental units but we know how to calibrate them)
367 - any unit relatable to the quotient of the current units with the
368 `photometric_scaling` (i.e. if the current image is in
369 calibrated units and we want to revert back to instrumental
370 units).
371 copy
372 Whether to copy the images and other components. If `True`, all
373 components that aren't controlled by some other argument will
374 always be deep-copied. If `False`, the operation will fail if the
375 image is not already in the right units. If ``as-needed``, only
376 the image and variance will be copied, and only if they are not
377 already in the right units.
378 copy_detector
379 Whether to deep-copy the `detector` attribute.
381 Returns
382 -------
383 `VisitImage`
384 An image with the given units.
385 """
386 if copy not in (True, False, "as-needed"):
387 raise TypeError(f"Invalid value for 'copy' parameter: {copy!r}.")
388 if (factor := _get_unit_conversion_factor(self.unit, unit)) is not None:
389 if factor == 1.0:
390 if copy is True: # not "as-needed"
391 return self.copy()
392 else:
393 return self[...]
394 elif copy is False:
395 raise astropy.units.UnitConversionError(
396 f"Units must be converted ({self.unit} -> {unit}), but copy=False."
397 )
398 image = Image(
399 self._image.array * factor, bbox=self.bbox, sky_projection=self.sky_projection, unit=unit
400 )
401 variance = Image(
402 self._variance.array * factor**2,
403 bbox=self.bbox,
404 unit=unit**2,
405 )
406 elif self._photometric_scaling is None:
407 raise astropy.units.UnitConversionError(
408 "VisitImage.photometric_scaling is None, and there "
409 f"is no constant conversion from {self.unit} to {unit}."
410 )
411 else:
412 if copy is False:
413 raise astropy.units.UnitConversionError(
414 f"Photometric scaling must be applied to go from ={self.unit} to {unit}, but copy=False."
415 )
416 scaling = self._photometric_scaling
417 assert scaling.unit is not None, "Checked at construction."
418 if (constant_factor := _get_unit_conversion_factor(self.unit * scaling.unit, unit)) is not None:
419 if constant_factor != 1.0:
420 scaling = scaling * constant_factor
421 scaling_array = scaling.render(self.bbox, dtype=self.image.array.dtype).array
422 elif (constant_factor := _get_unit_conversion_factor(self.unit / scaling.unit, unit)) is not None:
423 if constant_factor != 1.0:
424 scaling = scaling / constant_factor
425 scaling_array = scaling.render(self.bbox, dtype=self.image.array.dtype).array
426 np.true_divide(1.0, scaling_array, out=scaling_array)
427 else:
428 raise astropy.units.UnitConversionError(
429 f"photometric_scaling with units {scaling.unit} does not "
430 f"provide a path from {self.unit} to {unit}."
431 )
432 # We needed to allocate a new array to evaluate the scaling field,
433 # and then we need to allocate another to hold its square for the
434 # variance scaling. But then we can multiply those arrays in-place
435 # to get the output image and variance to avoid yet more
436 # allocations (note we can't instead multiply the visit image's
437 # image and variance arrays in place because they might have other
438 # references that are still associated with the old units).
439 image = Image(scaling_array, bbox=self.bbox, unit=unit)
440 variance = Image(np.square(scaling_array), bbox=self.bbox, unit=unit**2)
441 image.array *= self._image.array
442 variance.array *= self._variance.array
443 copy_components = copy is True
444 return self._transfer_metadata(
445 VisitImage(
446 image=image,
447 mask=self._mask if not copy_components else self._mask.copy(),
448 variance=variance,
449 sky_projection=self.sky_projection, # never copied; immutable
450 obs_info=self.obs_info if not copy_components else self.obs_info.model_copy(),
451 psf=self._psf, # never copied; immutable
452 bounds=self._bounds, # never copied; immutable
453 summary_stats=self.summary_stats if not copy_components else self.summary_stats.model_copy(),
454 detector=self._detector if not copy_detector else self._detector.copy(),
455 photometric_scaling=self._photometric_scaling, # never copied; immutable
456 aperture_corrections=(
457 self.aperture_corrections if not copy_components else self.aperture_corrections.copy()
458 ),
459 backgrounds=self.backgrounds if not copy_components else self.backgrounds.copy(),
460 band=self.band,
461 )
462 )
464 def serialize(self, archive: OutputArchive[Any]) -> VisitImageSerializationModel:
465 return self._serialize_impl(VisitImageSerializationModel, archive)
467 # This is slightly bad Liskov substitution - we're demanding M be a
468 # VisitImageSerializationModel, not just a MaskedImageSerializationModel,
469 # but that's because we know only `serialize` will call it.
470 def _serialize_impl[M: VisitImageSerializationModel]( # type: ignore[override]
471 self, model_type: type[M], archive: OutputArchive[Any]
472 ) -> M:
473 result = super()._serialize_impl(model_type, archive)
474 match self._psf:
475 # MyPy is able to figure things out here with this match statement,
476 # but not a single isinstance check on the three types.
477 case PiffWrapper(): 477 ↛ 478line 477 didn't jump to line 478 because the pattern on line 477 never matched
478 result.psf = archive.serialize_direct("psf", self._psf.serialize)
479 case PSFExWrapper(): 479 ↛ 480line 479 didn't jump to line 480 because the pattern on line 479 never matched
480 result.psf = archive.serialize_direct("psf", self._psf.serialize)
481 case GaussianPointSpreadFunction(): 481 ↛ 483line 481 didn't jump to line 483 because the pattern on line 481 always matched
482 result.psf = archive.serialize_direct("psf", self._psf.serialize)
483 case _:
484 raise TypeError(
485 f"Cannot serialize VisitImage with unrecognized PSF type {type(self._psf).__name__}."
486 )
487 assert result.sky_projection is not None, "VisitImage always has a sky_projection."
488 result.obs_info = self.obs_info
489 result.summary_stats = self.summary_stats
490 result.bounds = self._bounds.serialize() if self._bounds != self.bbox else None
491 result.detector = archive.serialize_direct("detector", self._detector.serialize)
492 result.band = self.band
493 result.photometric_scaling = (
494 # MyPy can't quite follow the type union through the serialize
495 # method return types.
496 archive.serialize_direct(
497 "photometric_scaling",
498 self._photometric_scaling.serialize,
499 ) # type: ignore[assignment]
500 if self._photometric_scaling is not None
501 else None
502 )
503 result.aperture_corrections = archive.serialize_direct(
504 "aperture_corrections",
505 functools.partial(ApertureCorrectionMapSerializationModel.serialize, self.aperture_corrections),
506 )
507 result.backgrounds = archive.serialize_direct("backgrounds", self._backgrounds.serialize)
508 return result
510 @staticmethod
511 def _get_archive_tree_type[P: pydantic.BaseModel](
512 pointer_type: type[P],
513 ) -> type[VisitImageSerializationModel[P]]:
514 """Return the serialization model type for this object for an archive
515 type that uses the given pointer type.
516 """
517 return VisitImageSerializationModel[pointer_type] # type: ignore
519 @staticmethod
520 def from_legacy(
521 legacy: LegacyExposure,
522 *,
523 unit: astropy.units.UnitBase | None = None,
524 plane_map: Mapping[str, MaskPlane] | None = None,
525 instrument: str | None = None,
526 visit: int | None = None,
527 ) -> VisitImage:
528 """Convert from an `lsst.afw.image.Exposure` instance.
530 Parameters
531 ----------
532 legacy
533 An `lsst.afw.image.Exposure` instance that will share image and
534 variance (but not mask) pixel data with the returned object.
535 unit
536 Units of the image. If not provided, the ``BUNIT`` metadata
537 key will be used, if available.
538 plane_map
539 A mapping from legacy mask plane name to the new plane name and
540 description. If `None` (default)
541 `get_legacy_visit_image_mask_planes` is used.
542 instrument
543 Name of the instrument. Extracted from the metadata if not
544 provided.
545 visit
546 ID of the visit. Extracted from the metadata if not provided.
547 """
548 if plane_map is None:
549 plane_map = get_legacy_visit_image_mask_planes()
550 md = legacy.getMetadata()
551 obs_info = _obs_info_from_md(md, visit_info=legacy.info.getVisitInfo())
552 instrument = _extract_or_check_header(
553 "LSST BUTLER DATAID INSTRUMENT", instrument, md, obs_info.instrument, str
554 )
555 visit = _extract_or_check_header("LSST BUTLER DATAID VISIT", visit, md, obs_info.exposure_id, int)
556 legacy_wcs = legacy.getWcs()
557 if legacy_wcs is None:
558 raise ValueError("Exposure does not have a SkyWcs.")
559 legacy_detector = legacy.getDetector()
560 if legacy_detector is None:
561 raise ValueError("Exposure does not have a Detector.")
562 detector_bbox = Box.from_legacy(legacy_detector.getBBox())
564 # Update the ObservationInfo from other components.
565 obs_info = _update_obs_info_from_legacy(obs_info, legacy_detector, legacy.info.getFilter())
567 opaque_fits_metadata = FitsOpaqueMetadata()
568 primary_header = astropy.io.fits.Header()
569 with warnings.catch_warnings():
570 # Silence warnings about long keys becoming HIERARCH.
571 warnings.simplefilter("ignore", category=astropy.io.fits.verify.VerifyWarning)
572 primary_header.update(md.toOrderedDict())
573 metadata = opaque_fits_metadata.extract_legacy_primary_header(primary_header)
574 instrumental_unit = opaque_fits_metadata.get_instrumental_unit() or astropy.units.electron
575 hdr_unit: astropy.units.UnitBase | None = None
576 if hdr_unit_str := md.get("BUNIT"):
577 hdr_unit = astropy.units.Unit(hdr_unit_str, format="FITS")
578 if hdr_unit == astropy.units.adu and instrumental_unit == astropy.units.electron:
579 # Fix incorrect BUNIT='adu' in LSST
580 # preliminary_visit_image.
581 hdr_unit = astropy.units.electron
582 if unit is None:
583 unit = hdr_unit
584 elif hdr_unit is not None and hdr_unit != unit:
585 raise ValueError(f"BUNIT value {hdr_unit} disagrees with given unit {unit}.")
586 sky_projection = SkyProjection.from_legacy(
587 legacy_wcs,
588 DetectorFrame(
589 instrument=instrument,
590 visit=visit,
591 detector=legacy_detector.getId(),
592 bbox=detector_bbox,
593 ),
594 )
595 legacy_psf = legacy.getPsf()
596 if legacy_psf is None:
597 raise ValueError("Exposure file does not have a Psf.")
598 psf = PointSpreadFunction.from_legacy(legacy_psf, bounds=detector_bbox)
599 masked_image = MaskedImage.from_legacy(legacy.getMaskedImage(), unit=unit, plane_map=plane_map)
600 legacy_summary_stats = legacy.info.getSummaryStats()
601 legacy_ap_corr_map = legacy.info.getApCorrMap()
602 legacy_polygon = legacy.info.getValidPolygon()
603 legacy_photo_calib = legacy.info.getPhotoCalib()
604 detector = Detector.from_legacy(
605 legacy_detector, instrument=instrument, visit=visit, is_raw_assembled=True
606 )
607 _reconcile_detector_serial(obs_info, detector)
608 result = VisitImage(
609 image=masked_image.image.view(unit=unit),
610 mask=masked_image.mask,
611 variance=masked_image.variance,
612 sky_projection=sky_projection,
613 psf=psf,
614 obs_info=obs_info,
615 summary_stats=(
616 ObservationSummaryStats.from_legacy(legacy_summary_stats)
617 if legacy_summary_stats is not None
618 else None
619 ),
620 detector=detector,
621 aperture_corrections=(
622 aperture_corrections_from_legacy(legacy_ap_corr_map)
623 if legacy_ap_corr_map is not None
624 else None
625 ),
626 bounds=Polygon.from_legacy(legacy_polygon) if legacy_polygon is not None else None,
627 photometric_scaling=(
628 field_from_legacy_photo_calib(
629 legacy_photo_calib, bounds=detector_bbox, instrumental_unit=instrumental_unit
630 )
631 if legacy_photo_calib is not None
632 else None
633 ),
634 band=legacy.info.getFilter().bandLabel,
635 metadata=metadata,
636 )
637 result.metadata["id"] = legacy.info.getId()
638 result._opaque_metadata = opaque_fits_metadata
639 return result
641 def to_legacy(
642 self, *, copy: bool | None = None, plane_map: Mapping[str, MaskPlane] | None = None
643 ) -> LegacyExposure:
644 """Convert to an `lsst.afw.image.Exposure` instance.
646 Parameters
647 ----------
648 copy
649 If `True`, always copy the image and variance pixel data.
650 If `False`, return a view, and raise `TypeError` if the pixel data
651 is read-only (this is not supported by afw). If `None`, only copy
652 if the pixel data is read-only. Mask pixel data is always copied.
653 plane_map
654 A mapping from legacy mask plane name to the new plane name and
655 description. If `None` (default),
656 `get_legacy_visit_image_mask_planes` is used.
657 """
658 from lsst.afw.image import Exposure as LegacyExposure
659 from lsst.afw.image import FilterLabel as LegacyFilterLabel
660 from lsst.obs.base.makeRawVisitInfoViaObsInfo import MakeRawVisitInfoViaObsInfo
662 if plane_map is None:
663 plane_map = get_legacy_visit_image_mask_planes()
664 legacy_masked_image = super().to_legacy(copy=copy, plane_map=plane_map)
665 result = LegacyExposure(legacy_masked_image, dtype=self.image.array.dtype)
666 result_info = result.info
667 result_info.setId(self.metadata.get("id"))
668 result_info.setWcs(self.sky_projection.to_legacy())
669 result_info.setDetector(self.detector.to_legacy())
670 result_info.setFilter(LegacyFilterLabel.fromBandPhysical(self.band, self.obs_info.physical_filter))
671 if self._photometric_scaling is not None:
672 result_info.setPhotoCalib(self._photometric_scaling.to_legacy_photo_calib(self.unit))
673 else:
674 result_info.setPhotoCalib(BaseField.make_legacy_photo_calib(self.unit))
675 self._fill_legacy_metadata(result_info.getMetadata())
676 if isinstance(self._psf, LegacyPointSpreadFunction):
677 result_info.setPsf(self._psf.legacy_psf)
678 elif isinstance(self._psf, PiffWrapper):
679 result_info.setPsf(self._psf.to_legacy())
680 if isinstance(self.bounds, Polygon):
681 result_info.setValidPolygon(self.bounds.to_legacy())
682 if self.aperture_corrections:
683 result_info.setApCorrMap(aperture_corrections_to_legacy(self.aperture_corrections))
684 result_info.setVisitInfo(MakeRawVisitInfoViaObsInfo.observationInfo2visitInfo(self.obs_info))
685 result_info.setSummaryStats(self.summary_stats.to_legacy())
686 return result
688 @staticmethod
689 def read_legacy( # type: ignore[override]
690 filename: str,
691 *,
692 preserve_quantization: bool = False,
693 plane_map: Mapping[str, MaskPlane] | None = None,
694 instrument: str | None = None,
695 visit: int | None = None,
696 component: Literal[
697 "bbox",
698 "image",
699 "mask",
700 "variance",
701 "sky_projection",
702 "psf",
703 "detector",
704 "photometric_scaling",
705 "obs_info",
706 "summary_stats",
707 "aperture_corrections",
708 ]
709 | None = None,
710 ) -> Any:
711 """Read a FITS file written by `lsst.afw.image.Exposure.writeFits`.
713 Parameters
714 ----------
715 filename
716 Full name of the file.
717 preserve_quantization
718 If `True`, ensure that writing the masked image back out again will
719 exactly preserve quantization-compressed pixel values. This causes
720 the image and variance plane arrays to be marked as read-only and
721 stores the original binary table data for those planes in memory.
722 If the `MaskedImage` is copied, the precompressed pixel values are
723 not transferred to the copy.
724 plane_map
725 A mapping from legacy mask plane name to the new plane name and
726 description. If `None` (default)
727 `get_legacy_visit_image_mask_planes` is used.
728 instrument
729 Name of the instrument. Read from the primary header if not
730 provided.
731 visit
732 ID of the visit. Read from the primary header if not
733 provided.
734 component
735 A component to read instead of the full image.
736 """
737 from lsst.afw.image import ExposureFitsReader
739 reader = ExposureFitsReader(filename)
740 if component == "bbox":
741 return Box.from_legacy(reader.readBBox())
742 legacy_detector = reader.readDetector()
743 if legacy_detector is None:
744 raise ValueError(f"Exposure file {filename!r} does not have a Detector.")
745 detector_bbox = Box.from_legacy(legacy_detector.getBBox())
746 legacy_wcs = None
747 if component in (None, "image", "mask", "variance", "sky_projection"):
748 legacy_wcs = reader.readWcs()
749 if legacy_wcs is None:
750 raise ValueError(f"Exposure file {filename!r} does not have a SkyWcs.")
751 legacy_exposure_info = reader.readExposureInfo()
752 summary_stats = None
753 if component in (None, "summary_stats"):
754 legacy_stats = legacy_exposure_info.getSummaryStats()
755 if legacy_stats is not None:
756 summary_stats = ObservationSummaryStats.from_legacy(legacy_stats)
757 if component == "summary_stats":
758 return summary_stats
759 if component in (None, "psf"):
760 legacy_psf = reader.readPsf()
761 if legacy_psf is None:
762 raise ValueError(f"Exposure file {filename!r} does not have a Psf.")
763 psf = PointSpreadFunction.from_legacy(legacy_psf, bounds=detector_bbox)
764 if component == "psf":
765 return psf
766 aperture_corrections: ApertureCorrectionMap = {}
767 if component in (None, "aperture_corrections"):
768 legacy_ap_corr_map = reader.readApCorrMap()
769 if legacy_ap_corr_map is not None:
770 aperture_corrections = aperture_corrections_from_legacy(legacy_ap_corr_map)
771 if component == "aperture_corrections":
772 return aperture_corrections
773 assert component in (
774 None,
775 "image",
776 "mask",
777 "variance",
778 "sky_projection",
779 "obs_info",
780 "detector",
781 "photometric_scaling",
782 ), component # for MyPy
783 filter_label = reader.readFilter()
784 with astropy.io.fits.open(filename) as hdu_list:
785 primary_header = hdu_list[0].header
786 obs_info = _obs_info_from_md(primary_header)
787 obs_info = _update_obs_info_from_legacy(obs_info, legacy_detector, filter_label)
788 if component == "obs_info":
789 return obs_info
790 instrument = _extract_or_check_header(
791 "LSST BUTLER DATAID INSTRUMENT", instrument, primary_header, obs_info.instrument, str
792 )
793 visit = _extract_or_check_header(
794 "LSST BUTLER DATAID VISIT", visit, primary_header, obs_info.exposure_id, int
795 )
796 opaque_metadata = FitsOpaqueMetadata()
797 # This extraction is destructive, so we need to be sure to pass
798 # this opaque_metadata down to MaskedImage._read_legacy_hdus
799 # so it doesn't try to extract it again.
800 metadata = opaque_metadata.extract_legacy_primary_header(primary_header)
801 if (instrumental_unit := opaque_metadata.get_instrumental_unit()) is None:
802 instrumental_unit = astropy.units.electron
803 photometric_scaling: Field | None = None
804 if component in (None, "photometric_scaling"):
805 legacy_photo_calib = reader.readPhotoCalib()
806 if legacy_photo_calib is not None:
807 photometric_scaling = field_from_legacy_photo_calib(
808 legacy_photo_calib, bounds=detector_bbox, instrumental_unit=instrumental_unit
809 )
810 if component == "photometric_scaling":
811 return photometric_scaling
812 if component in ("detector", None):
813 detector = Detector.from_legacy(
814 legacy_detector, instrument=instrument, visit=visit, is_raw_assembled=True
815 )
816 _reconcile_detector_serial(obs_info, detector)
817 if component == "detector":
818 return detector
819 assert component != "detector", "MyPy can't work this out from the above."
820 sky_projection = SkyProjection.from_legacy(
821 legacy_wcs,
822 DetectorFrame(
823 instrument=instrument,
824 visit=visit,
825 detector=legacy_detector.getId(),
826 bbox=detector_bbox,
827 ),
828 )
829 if component == "sky_projection":
830 return sky_projection
831 if plane_map is None:
832 plane_map = get_legacy_visit_image_mask_planes()
833 from_masked_image = MaskedImage._read_legacy_hdus(
834 hdu_list,
835 filename,
836 opaque_metadata=opaque_metadata,
837 preserve_quantization=preserve_quantization,
838 plane_map=plane_map,
839 component=component,
840 )
841 if component is not None:
842 # This is the image, mask, or variance; attach the sky_projection
843 # and obs_info and return
844 return from_masked_image.view(sky_projection=sky_projection)
845 legacy_polygon = reader.readValidPolygon()
846 result = VisitImage(
847 from_masked_image.image,
848 mask=from_masked_image.mask,
849 variance=from_masked_image.variance,
850 sky_projection=sky_projection,
851 psf=psf,
852 detector=detector,
853 obs_info=obs_info,
854 summary_stats=summary_stats,
855 aperture_corrections=aperture_corrections,
856 bounds=Polygon.from_legacy(legacy_polygon) if legacy_polygon is not None else None,
857 photometric_scaling=photometric_scaling,
858 band=filter_label.bandLabel,
859 metadata=metadata,
860 )
861 result._opaque_metadata = from_masked_image._opaque_metadata
862 result.metadata["id"] = reader.readExposureId()
863 return result
866class VisitImageSerializationModel[P: pydantic.BaseModel](MaskedImageSerializationModel[P]):
867 """A Pydantic model used to represent a serialized `VisitImage`."""
869 SCHEMA_NAME: ClassVar[str] = "visit_image"
870 SCHEMA_VERSION: ClassVar[str] = "1.0.0"
871 MIN_READ_VERSION: ClassVar[int] = 1
872 PUBLIC_TYPE: ClassVar[type] = VisitImage
874 # Inherited attributes are duplicated because that improves the docs
875 # (some limitation in the sphinx/pydantic integration), and these are
876 # important docs.
878 image: ImageSerializationModel[P] = pydantic.Field(description="The main data image.")
879 mask: MaskSerializationModel[P] = pydantic.Field(
880 description="Bitmask that annotates the main image's pixels."
881 )
882 variance: ImageSerializationModel[P] = pydantic.Field(
883 description="Per-pixel variance estimates for the main image."
884 )
885 sky_projection: SkyProjectionSerializationModel[P] = pydantic.Field(
886 description="Projection that maps the pixel grid to the sky.",
887 )
888 psf: PiffSerializationModel | PSFExSerializationModel | GaussianPSFSerializationModel | Any = (
889 pydantic.Field(union_mode="left_to_right", description="PSF model for the image.")
890 )
891 obs_info: ObservationInfo = pydantic.Field(
892 description="Standardized description of visit metadata",
893 )
894 photometric_scaling: FieldSerializationModel | None = pydantic.Field(
895 default=None,
896 description="Scaling that can be used to multiply a post-ISR image to yield calibrated pixel values.",
897 )
898 summary_stats: ObservationSummaryStats = pydantic.Field(
899 description="Summary statistics for the observation."
900 )
901 detector: DetectorSerializationModel = pydantic.Field(
902 description="Geometry and electronic information for the detector."
903 )
904 aperture_corrections: ApertureCorrectionMapSerializationModel = pydantic.Field(
905 default_factory=ApertureCorrectionMapSerializationModel,
906 description="Aperture corrections, keyed by flux algorithm.",
907 )
908 bounds: SerializableBounds | None = pydantic.Field(
909 default=None,
910 description="Pixel validity region, if different from the image bounding box.",
911 exclude_if=is_none,
912 )
913 backgrounds: BackgroundMapSerializationModel = pydantic.Field(
914 default_factory=BackgroundMapSerializationModel,
915 description="Background models associated with this image.",
916 )
917 band: str = pydantic.Field(description="Short name of the bandpass filter.")
919 def deserialize(
920 self, archive: InputArchive[Any], *, bbox: Box | None = None, **kwargs: Any
921 ) -> VisitImage:
922 if kwargs: 922 ↛ 923line 922 didn't jump to line 923 because the condition on line 922 was never true
923 raise InvalidParameterError(f"Unrecognized parameters for VisitImage: {set(kwargs.keys())}.")
924 masked_image = super().deserialize(archive, bbox=bbox)
925 try:
926 psf = self.psf.deserialize(archive)
927 except ArchiveReadError as err:
928 # Defer this until/unless somebody actually asks for the PSF.
929 psf = err
930 detector = self.detector.deserialize(archive)
931 aperture_corrections = self.aperture_corrections.deserialize(archive)
932 photometric_scaling = (
933 self.photometric_scaling.deserialize(archive) if self.photometric_scaling is not None else None
934 )
935 return VisitImage(
936 masked_image.image,
937 mask=masked_image.mask,
938 variance=masked_image.variance,
939 psf=psf,
940 sky_projection=masked_image.sky_projection,
941 obs_info=self.obs_info,
942 summary_stats=self.summary_stats,
943 detector=detector,
944 aperture_corrections=aperture_corrections,
945 photometric_scaling=photometric_scaling,
946 bounds=self.bounds.deserialize() if self.bounds is not None else None,
947 backgrounds=self.backgrounds.deserialize(archive),
948 band=self.band,
949 )._finish_deserialize(self)
951 def deserialize_component(self, component: str, archive: InputArchive[Any], **kwargs: Any) -> Any:
952 if kwargs and component not in ("image", "mask", "variance", "masked_image"): 952 ↛ 953line 952 didn't jump to line 953 because the condition on line 952 was never true
953 raise InvalidParameterError(
954 f"Unsupported parameters for VisitImage component {component}: {set(kwargs.keys())}."
955 )
956 if component == "masked_image":
957 return super().deserialize(archive, **kwargs)
958 return super().deserialize_component(component, archive, **kwargs)
961def _obs_info_from_md(
962 md: MutableMapping[str, Any], visit_info: LegacyVisitInfo | None = None
963) -> ObservationInfo:
964 # Try to get an ObservationInfo from the primary header as if
965 # it's a raw header. Else fallback.
966 try:
967 obs_info = ObservationInfo.from_header(md, quiet=True)
968 except ValueError:
969 # Not known translator. Must fall back to visit info. If we have
970 # an actual VisitInfo, serialize it since we know that it will be
971 # complete.
972 if visit_info is not None:
973 from lsst.afw.image import setVisitInfoMetadata
974 from lsst.daf.base import PropertyList
976 pl = PropertyList()
977 setVisitInfoMetadata(pl, visit_info)
978 # Merge so that we still have access to butler provenance.
979 md.update(pl)
981 # Try the given header looking for VisitInfo hints.
982 # We get lots of warnings if nothing can be found. Currently
983 # no way to disable those without capturing them.
984 obs_info = ObservationInfo.from_header(md, translator_class=VisitInfoTranslator, quiet=True)
985 return obs_info
988def _update_obs_info_from_legacy(
989 obs_info: ObservationInfo,
990 detector: LegacyDetector | None = None,
991 filter_label: LegacyFilterLabel | None = None,
992) -> ObservationInfo:
993 extra_md: dict[str, str | int] = {}
995 if filter_label is not None and filter_label.hasBandLabel():
996 extra_md["physical_filter"] = filter_label.physicalLabel
998 # Fill in detector metadata, check for consistency.
999 # ObsInfo detector name and group can not be derived from
1000 # the getName() information without knowing how the components
1001 # are separated.
1002 if detector is not None:
1003 detector_md = {
1004 "detector_num": detector.getId(),
1005 "detector_unique_name": detector.getName(),
1006 }
1007 extra_md.update(detector_md)
1009 obs_info_updates: dict[str, str | int] = {}
1010 for k, v in extra_md.items():
1011 current = getattr(obs_info, k)
1012 if current is None:
1013 obs_info_updates[k] = v
1014 continue
1015 if current != v:
1016 raise RuntimeError(
1017 f"ObservationInfo contains value for '{k}' that is inconsistent "
1018 f"with given legacy object: {v} != {current}"
1019 )
1021 if obs_info_updates:
1022 obs_info = obs_info.model_copy(update=obs_info_updates)
1023 return obs_info
1026def _reconcile_detector_serial(obs_info: ObservationInfo, detector: Detector) -> None:
1027 # Some LSSTCam detector serial numbers are/were incorrect in the camera
1028 # geometry (DM-55080), so if they conflict it's the ObservationInfo (from
1029 # the headers) that's correct.
1030 if obs_info.detector_serial is not None and detector.serial != obs_info.detector_serial:
1031 _LOG.warning(
1032 "Detector serial from ObservationInfo (%s) for detector %d does not agree "
1033 "with camera geometry %s; assuming the former is correct.",
1034 obs_info.detector_serial,
1035 detector.id,
1036 detector.serial,
1037 )
1038 detector._attributes.serial = obs_info.detector_serial
1041def _extract_or_check_value[T](
1042 key: str,
1043 given_value: T | None,
1044 *sources: tuple[str, T | None],
1045) -> T:
1046 # Compare given value against multiple sources. If given value is not
1047 # supplied return the first non-None value in the reference sources.
1048 if given_value is not None:
1049 for source_name, source_value in sources:
1050 if source_value is not None and source_value != given_value:
1051 raise ValueError(
1052 f"Given value {given_value!r} does not match {source_value!r} from {source_name}."
1053 )
1054 if source_value is not None:
1055 # Only check the first non-None source rather than checking
1056 # all supplied values.
1057 break
1058 return given_value
1060 for _, source_value in sources:
1061 if source_value is not None:
1062 return source_value
1064 raise ValueError(f"No value found for {key}.")
1067def _extract_or_check_header[T](
1068 key: str, given_value: T | None, header: Any, obs_info_value: T | None, coerce: Callable[[Any], T]
1069) -> T:
1070 hdr_value: T | None = None
1071 if (hdr_raw_value := header.get(key)) is not None:
1072 hdr_value = coerce(hdr_raw_value)
1073 return _extract_or_check_value(
1074 key, given_value, ("ObservationInfo", obs_info_value), (f"header key {key}", hdr_value)
1075 )
1078def _get_unit_conversion_factor(
1079 original: astropy.units.UnitBase, new: astropy.units.UnitBase
1080) -> float | None:
1081 try:
1082 return original.to(new)
1083 except astropy.units.UnitConversionError:
1084 return None