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LSST Data Management Base Package
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multiband.py
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1# This file is part of afw.
2#
3# Developed for the LSST Data Management System.
4# This product includes software developed by the LSST Project
5# (http://www.lsst.org).
6# See the COPYRIGHT file at the top-level directory of this distribution
7# for details of code ownership.
8#
9# This program is free software: you can redistribute it and/or modify
10# it under the terms of the GNU General Public License as published by
11# the Free Software Foundation, either version 3 of the License, or
12# (at your option) any later version.
13#
14# This program is distributed in the hope that it will be useful,
15# but WITHOUT ANY WARRANTY; without even the implied warranty of
16# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17# GNU General Public License for more details.
18#
19# You should have received a copy of the GNU General Public License
20# along with this program. If not, see <http://www.gnu.org/licenses/>.
21
22__all__ = ["MultibandBase"]
23
24from abc import ABC, abstractmethod
25
26from lsst.geom import Box2I
27
28
29class MultibandBase(ABC):
30 """Base class for multiband objects
31
32 The LSST stack has a number of image-like classes that have
33 data in multiple bands that are stored as separate objects.
34 Analyzing the data can be easier using a Multiband object that
35 wraps the underlying data as a single data cube that can be sliced and
36 updated as a single object.
37
38 `MultibandBase` is designed to contain the most important universal
39 methods for initializing, slicing, and extracting common parameters
40 (such as the bounding box or XY0 position) to all of the single band classes,
41 as long as derived classes either call the base class `__init__`
42 or set the `_filters`, `_singles`, and `_bbox`.
43
44 Parameters
45 ----------
46 filters: `list`
47 List of filter names.
48 singles: `list`
49 List of single band objects
50 bbox: `Box2I`
51 By default `MultibandBase` uses `singles[0].getBBox()` to set
52 the bounding box of the multiband
53 """
54 def __init__(self, filters, singles, bbox=None):
55 self._filters = tuple([f for f in filters])
56 self._singles = tuple(singles)
57
58 if bbox is None:
59 self._bbox = self._singles[0].getBBox()
60 if not all([s.getBBox() == self.getBBox() for s in self.singles]):
61 bboxes = [s.getBBox() == self.getBBox() for s in self.singles]
62 err = "`singles` are required to have the same bounding box, received {0}"
63 raise ValueError(err.format(bboxes))
64 else:
65 self._bbox = bbox
66
67 @abstractmethod
68 def clone(self, deep=True):
69 """Copy the current object
70
71 This must be overloaded in a subclass of `MultibandBase`
72
73 Parameters
74 ----------
75 deep: `bool`
76 Whether or not to make a deep copy
77
78 Returns
79 -------
80 result: `MultibandBase`
81 copy of the instance that inherits from `MultibandBase`
82 """
83 pass
84
85 @property
86 def filters(self):
87 """List of filter names for the single band objects
88 """
89 return self._filters
90
91 @property
92 def singles(self):
93 """List of single band objects
94 """
95 return self._singles
96
97 def getBBox(self):
98 """Bounding box
99 """
100 return self._bbox
101
102 def getXY0(self):
103 """Minimum coordinate in the bounding box
104 """
105 return self.getBBox().getMin()
106
107 @property
108 def x0(self):
109 """X0
110
111 X component of XY0 `Point2I.getX()`
112 """
113 return self.getBBox().getMinX()
114
115 @property
116 def y0(self):
117 """Y0
118
119 Y component of XY0 `Point2I.getY()`
120 """
121 return self.getBBox().getMinY()
122
123 @property
124 def origin(self):
125 """Minimum (y,x) position
126
127 This is the position of `self.getBBox().getMin()`,
128 but available as a tuple for numpy array indexing.
129 """
130 return (self.y0y0, self.x0x0)
131
132 @property
133 def width(self):
134 """Width of the images
135 """
136 return self.getBBox().getWidth()
137
138 @property
139 def height(self):
140 """Height of the images
141 """
142 return self.getBBox().getHeight()
143
144 def __len__(self):
145 return len(self.filtersfilters)
146
147 def __getitem__(self, args):
148 """Get a slice of the underlying array
149
150 If only a single filter is specified,
151 return the single band object sliced
152 appropriately.
153 """
154 if not isinstance(args, tuple):
155 indices = (args,)
156 else:
157 indices = args
158
159 # Return the single band object if the first
160 # index is not a list or slice.
161 filters, filterIndex = self._filterNamesToIndex(indices[0])
162 if not isinstance(filterIndex, slice) and len(filterIndex) == 1:
163 if len(indices) > 2:
164 return self.singles[filterIndex[0]][indices[1:]]
165 elif len(indices) == 2:
166 return self.singles[filterIndex[0]][indices[1]]
167 else:
168 return self.singles[filterIndex[0]]
169
170 return self._slice(filters=filters, filterIndex=filterIndex, indices=indices[1:])
171
172 def __iter__(self):
174 return self
175
176 def __next__(self):
177 if self._filterIndex < len(self.filtersfilters):
178 result = self.singles[self._filterIndex]
179 self._filterIndex += 1
180 else:
181 raise StopIteration
182 return result
183
184 def _filterNamesToIndex(self, filterIndex):
185 """Convert a list of filter names to an index or a slice
186
187 Parameters
188 ----------
189 filterIndex: iterable or `object`
190 Index to specify a filter or list of filters,
191 usually a string or enum.
192 For example `filterIndex` can be
193 `"R"` or `["R", "G", "B"]` or `[Filter.R, Filter.G, Filter.B]`,
194 if `Filter` is an enum.
195
196 Returns
197 -------
198 filterNames: `list`
199 Names of the filters in the slice
200 filterIndex: `slice` or `list` of `int`
201 Index of each filter in `filterNames` in
202 `self.filters`.
203 """
204 if isinstance(filterIndex, slice):
205 if filterIndex.start is not None:
206 start = self.filtersfilters.index(filterIndex.start)
207 else:
208 start = None
209 if filterIndex.stop is not None:
210 stop = self.filtersfilters.index(filterIndex.stop)
211 else:
212 stop = None
213 filterIndices = slice(start, stop, filterIndex.step)
214 filterNames = self.filtersfilters[filterIndices]
215 else:
216 if isinstance(filterIndex, str):
217 filterNames = [filterIndex]
218 filterIndices = [self.filtersfilters.index(filterIndex)]
219 else:
220 try:
221 # Check to see if the filterIndex is an iterable
222 filterNames = [f for f in filterIndex]
223 except TypeError:
224 filterNames = [filterIndex]
225 filterIndices = [self.filtersfilters.index(f) for f in filterNames]
226 return tuple(filterNames), filterIndices
227
228 def setXY0(self, xy0):
229 """Shift the bounding box but keep the same Extent
230
231 Parameters
232 ----------
233 xy0: `Point2I`
234 New minimum bounds of the bounding box
235 """
236 self._bbox = Box2I(xy0, self._bbox.getDimensions())
237 for singleObj in self.singles:
238 singleObj.setXY0(xy0)
239
240 def shiftedTo(self, xy0):
241 """Shift the bounding box but keep the same Extent
242
243 This method is broken until DM-10781 is completed.
244
245 Parameters
246 ----------
247 xy0: `Point2I`
248 New minimum bounds of the bounding box
249
250 Returns
251 -------
252 result: `MultibandBase`
253 A copy of the object, shifted to `xy0`.
254 """
255 raise NotImplementedError("shiftedBy not implemented until DM-10781")
256 result = self.clone(False)
257 result._bbox = Box2I(xy0, result._bbox.getDimensions())
258 for singleObj in result.singles:
259 singleObj.setXY0(xy0)
260 return result
261
262 def shiftedBy(self, offset):
263 """Shift a bounding box by an offset, but keep the same Extent
264
265 This method is broken until DM-10781 is completed.
266
267 Parameters
268 ----------
269 offset: `Extent2I`
270 Amount to shift the bounding box in x and y.
271
272 Returns
273 -------
274 result: `MultibandBase`
275 A copy of the object, shifted by `offset`
276 """
277 raise NotImplementedError("shiftedBy not implemented until DM-10781")
278 xy0 = self._bbox.getMin() + offset
279 return self.shiftedTo(xy0)
280
281 @abstractmethod
282 def _slice(self, filters, filterIndex, indices):
283 """Slice the current object and return the result
284
285 Different inherited classes will handling slicing differently,
286 so this method must be overloaded in inherited classes.
287
288 Parameters
289 ----------
290 filters: `list` of `str`
291 List of filter names for the slice. This is a subset of the
292 filters in the parent multiband object
293 filterIndex: `list` of `int` or `slice`
294 Index along the filter dimension
295 indices: `tuple` of remaining indices
296 `MultibandBase.__getitem__` separates the first (filter)
297 index from the remaining indices, so `indices` is a tuple
298 of all of the indices that come after `filter` in the
299 `args` passed to `MultibandBase.__getitem__`.
300
301 Returns
302 -------
303 result: `object`
304 Sliced version of the current object, which could be the
305 same class or a different class depending on the
306 slice being made.
307 """
308 pass
309
310 def __repr__(self):
311 result = "<{0}, filters={1}, bbox={2}>".format(
312 self.__class__.__name__, self.filters, self.getBBox().__repr__())
313 return result
314
315 def __str__(self):
316 if hasattr(self, "array"):
317 return str(self.array)
318 return self.__repr__()
__init__(self, filters, singles, bbox=None)
Definition multiband.py:54
_filterNamesToIndex(self, filterIndex)
Definition multiband.py:184
_slice(self, filters, filterIndex, indices)
Definition multiband.py:282
An integer coordinate rectangle.
Definition Box.h:55