301 lines
11 KiB
Python
301 lines
11 KiB
Python
# -*- coding: utf-8 -*-
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# imageio is distributed under the terms of the (new) BSD License.
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""" BSDF plugin.
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"""
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import numpy as np
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from .. import formats
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from ..core import Format
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def get_bsdf_serializer(options):
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from . import _bsdf as bsdf
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class NDArrayExtension(bsdf.Extension):
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""" Copy of BSDF's NDArrayExtension but deal with lazy blobs.
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"""
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name = "ndarray"
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cls = np.ndarray
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def encode(self, s, v):
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return dict(shape=v.shape, dtype=str(v.dtype), data=v.tobytes())
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def decode(self, s, v):
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return v # return as dict, because of lazy blobs, decode in Image
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class ImageExtension(bsdf.Extension):
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""" We implement two extensions that trigger on the Image classes.
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"""
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def encode(self, s, v):
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return dict(array=v.array, meta=v.meta)
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def decode(self, s, v):
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return Image(v["array"], v["meta"])
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class Image2DExtension(ImageExtension):
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name = "image2d"
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cls = Image2D
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class Image3DExtension(ImageExtension):
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name = "image3d"
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cls = Image3D
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exts = [NDArrayExtension, Image2DExtension, Image3DExtension]
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serializer = bsdf.BsdfSerializer(exts, **options)
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return bsdf, serializer
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class Image:
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""" Class in which we wrap the array and meta data. By using an extension
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we can make BSDF trigger on these classes and thus encode the images.
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as actual images.
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"""
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def __init__(self, array, meta):
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self.array = array
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self.meta = meta
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def get_array(self):
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if not isinstance(self.array, np.ndarray):
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v = self.array
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blob = v["data"]
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if not isinstance(blob, bytes): # then it's a lazy bsdf.Blob
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blob = blob.get_bytes()
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self.array = np.frombuffer(blob, dtype=v["dtype"])
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self.array.shape = v["shape"]
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return self.array
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def get_meta(self):
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return self.meta
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class Image2D(Image):
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pass
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class Image3D(Image):
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pass
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class BsdfFormat(Format):
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""" The BSDF format enables reading and writing of image data in the
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BSDF serialization format. This format allows storage of images, volumes,
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and series thereof. Data can be of any numeric data type, and can
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optionally be compressed. Each image/volume can have associated
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meta data, which can consist of any data type supported by BSDF.
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By default, image data is lazily loaded; the actual image data is
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not read until it is requested. This allows storing multiple images
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in a single file and still have fast access to individual images.
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Alternatively, a series of images can be read in streaming mode, reading
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images as they are read (e.g. from http).
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BSDF is a simple generic binary format. It is easy to extend and there
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are standard extension definitions for 2D and 3D image data.
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Read more at http://bsdf.io.
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Parameters for reading
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----------------------
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random_access : bool
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Whether individual images in the file can be read in random order.
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Defaults to True for normal files, and to False when reading from HTTP.
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If False, the file is read in "streaming mode", allowing reading
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files as they are read, but without support for "rewinding".
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Note that setting this to True when reading from HTTP, the whole file
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is read upon opening it (since lazy loading is not possible over HTTP).
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Parameters for saving
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---------------------
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compression : {0, 1, 2}
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Use ``0`` or "no" for no compression, ``1`` or "zlib" for Zlib
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compression (same as zip files and PNG), and ``2`` or "bz2" for Bz2
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compression (more compact but slower). Default 1 (zlib).
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Note that some BSDF implementations may not support compression
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(e.g. JavaScript).
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"""
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def _can_read(self, request):
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if request.mode[1] in (self.modes + "?"):
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# if request.extension in self.extensions:
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# return True
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if request.firstbytes.startswith(b"BSDF"):
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return True
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def _can_write(self, request):
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if request.mode[1] in (self.modes + "?"):
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if request.extension in self.extensions:
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return True
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# -- reader
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class Reader(Format.Reader):
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def _open(self, random_access=None):
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# Validate - we need a BSDF file consisting of a list of images
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# The list is typically a stream, but does not have to be.
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assert self.request.firstbytes[:4] == b"BSDF", "Not a BSDF file"
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# self.request.firstbytes[5:6] == major and minor version
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if not (
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self.request.firstbytes[6:15] == b"M\x07image2D"
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or self.request.firstbytes[6:15] == b"M\x07image3D"
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or self.request.firstbytes[6:7] == b"l"
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):
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pass # Actually, follow a more duck-type approach ...
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# raise RuntimeError('BSDF file does not look like an '
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# 'image container.')
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# Set options. If we think that seeking is allowed, we lazily load
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# blobs, and set streaming to False (i.e. the whole file is read,
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# but we skip over binary blobs), so that we subsequently allow
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# random access to the images.
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# If seeking is not allowed (e.g. with a http request), we cannot
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# lazily load blobs, but we can still load streaming from the web.
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options = {}
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if self.request.filename.startswith(("http://", "https://")):
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ra = False if random_access is None else bool(random_access)
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options["lazy_blob"] = False # Because we cannot seek now
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options["load_streaming"] = not ra # Load as a stream?
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else:
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ra = True if random_access is None else bool(random_access)
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options["lazy_blob"] = ra # Don't read data until needed
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options["load_streaming"] = not ra
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file = self.request.get_file()
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bsdf, self._serializer = get_bsdf_serializer(options)
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self._stream = self._serializer.load(file)
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# Another validation
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if (
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isinstance(self._stream, dict)
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and "meta" in self._stream
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and "array" in self._stream
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):
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self._stream = Image(self._stream["array"], self._stream["meta"])
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if not isinstance(self._stream, (Image, list, bsdf.ListStream)):
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raise RuntimeError(
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"BSDF file does not look seem to have an " "image container."
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)
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def _close(self):
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pass
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def _get_length(self):
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if isinstance(self._stream, Image):
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return 1
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elif isinstance(self._stream, list):
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return len(self._stream)
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elif self._stream.count < 0:
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return np.inf
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return self._stream.count
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def _get_data(self, index):
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# Validate
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if index < 0 or index >= self.get_length():
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raise IndexError(
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"Image index %i not in [0 %i]." % (index, self.get_length())
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)
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# Get Image object
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if isinstance(self._stream, Image):
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image_ob = self._stream # singleton
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elif isinstance(self._stream, list):
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# Easy when we have random access
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image_ob = self._stream[index]
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else:
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# For streaming, we need to skip over frames
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if index < self._stream.index:
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raise IndexError(
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"BSDF file is being read in streaming "
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"mode, thus does not allow rewinding."
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)
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while index > self._stream.index:
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self._stream.next()
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image_ob = self._stream.next() # Can raise StopIteration
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# Is this an image?
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if (
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isinstance(image_ob, dict)
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and "meta" in image_ob
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and "array" in image_ob
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):
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image_ob = Image(image_ob["array"], image_ob["meta"])
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if isinstance(image_ob, Image):
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# Return as array (if we have lazy blobs, they are read now)
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return image_ob.get_array(), image_ob.get_meta()
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else:
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r = repr(image_ob)
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r = r if len(r) < 200 else r[:197] + "..."
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raise RuntimeError("BSDF file contains non-image " + r)
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def _get_meta_data(self, index): # pragma: no cover
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return {} # This format does not support global meta data
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# -- writer
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class Writer(Format.Writer):
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def _open(self, compression=1):
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options = {"compression": compression}
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bsdf, self._serializer = get_bsdf_serializer(options)
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if self.request.mode[1] in "iv":
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self._stream = None # Singleton image
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self._written = False
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else:
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# Series (stream) of images
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file = self.request.get_file()
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self._stream = bsdf.ListStream()
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self._serializer.save(file, self._stream)
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def _close(self):
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# We close the stream here, which will mark the number of written
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# elements. If we would not close it, the file would be fine, it's
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# just that upon reading it would not be known how many items are
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# in there.
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if self._stream is not None:
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self._stream.close(False) # False says "keep this a stream"
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def _append_data(self, im, meta):
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# Determine dimension
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ndim = None
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if self.request.mode[1] in "iI":
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ndim = 2
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elif self.request.mode[1] in "vV":
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ndim = 3
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else:
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ndim = 3 # Make an educated guess
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if im.ndim == 2 or (im.ndim == 3 and im.shape[-1] <= 4):
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ndim = 2
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# Validate shape
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assert ndim in (2, 3)
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if ndim == 2:
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assert im.ndim == 2 or (im.ndim == 3 and im.shape[-1] <= 4)
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else:
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assert im.ndim == 3 or (im.ndim == 4 and im.shape[-1] <= 4)
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# Wrap data and meta data in our special class that will trigger
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# the BSDF image2D or image3D extension.
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if ndim == 2:
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ob = Image2D(im, meta)
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else:
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ob = Image3D(im, meta)
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# Write directly or to stream
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if self._stream is None:
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assert not self._written, "Cannot write singleton image twice"
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self._written = True
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file = self.request.get_file()
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self._serializer.save(file, ob)
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else:
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self._stream.append(ob)
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def set_meta_data(self, meta): # pragma: no cover
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raise RuntimeError("The BSDF format only supports " "per-image meta data.")
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format = BsdfFormat(
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"bsdf", # short name
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"Format based on the Binary Structured Data Format",
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".bsdf",
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"iIvV",
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)
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formats.add_format(format)
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