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resolves #132: The `select` method now allows you to specify a range of images to iterate over

zolfa-add_slices_loading
Jim Rybarski 9 years ago
parent
commit
e992f743c7
4 changed files with 56 additions and 2 deletions
  1. +42
    -0
      functional_tests/FYLM141111001.py
  2. +4
    -0
      functional_tests/monocycle.py
  3. +4
    -0
      functional_tests/single.py
  4. +6
    -2
      nd2reader/main.py

+ 42
- 0
functional_tests/FYLM141111001.py View File

@ -7,6 +7,7 @@ from nd2reader import Nd2
import numpy as np import numpy as np
from datetime import datetime from datetime import datetime
import unittest import unittest
import time
class FYLM141111Tests(unittest.TestCase): class FYLM141111Tests(unittest.TestCase):
@ -171,3 +172,44 @@ class FYLM141111Tests(unittest.TestCase):
n = image.index n = image.index
if n > 100: if n > 100:
break break
def test_select_start(self):
count = 0
for _ in self.nd2.select(channels='GFP', start=29000):
count += 1
self.assertEqual(127, count)
def test_select_stop(self):
count = 0
for _ in self.nd2.select(channels='GFP', stop=20):
count += 1
self.assertEqual(count, 3)
def test_select_start_stop(self):
count = 0
for _ in self.nd2.select(channels='GFP', start=10, stop=20):
count += 1
self.assertEqual(count, 1)
def test_select_start_stop_brightfield(self):
count = 0
for _ in self.nd2.select(channels='', start=10, stop=20):
count += 1
self.assertEqual(count, 5)
def test_select_faster(self):
select_count = 0
select_start = time.time()
for i in self.nd2.select(channels='GFP', start=10, stop=50):
if i is not None and i.channel == 'GFP':
select_count += 1
select_duration = time.time() - select_start
direct_count = 0
direct_start = time.time()
for i in self.nd2[10:50]:
if i is not None and i.channel == 'GFP':
direct_count += 1
direct_duration = time.time() - direct_start
self.assertEqual(select_count, direct_count)
self.assertGreater(direct_duration, select_duration)

+ 4
- 0
functional_tests/monocycle.py View File

@ -81,9 +81,11 @@ class Monocycle2Tests(unittest.TestCase):
def tearDown(self): def tearDown(self):
self.nd2.close() self.nd2.close()
@unittest.skip('missing file')
def test_pixel_size(self): def test_pixel_size(self):
self.assertGreater(self.nd2.pixel_microns, 0.0) self.assertGreater(self.nd2.pixel_microns, 0.0)
@unittest.skip('missing file')
def test_select(self): def test_select(self):
manual_images = [] manual_images = []
for _, image in zip(range(20), self.nd2): for _, image in zip(range(20), self.nd2):
@ -104,6 +106,7 @@ class Monocycle2Tests(unittest.TestCase):
self.assertEqual(a.field_of_view, b.field_of_view) self.assertEqual(a.field_of_view, b.field_of_view)
self.assertEqual(a.channel, b.channel) self.assertEqual(a.channel, b.channel)
@unittest.skip('missing file')
def test_select_order_all(self): def test_select_order_all(self):
# If we select every possible image using select(), we should just get every image in order # If we select every possible image using select(), we should just get every image in order
n = 0 n = 0
@ -122,6 +125,7 @@ class Monocycle2Tests(unittest.TestCase):
# If there's a problem, we'll have seen it by now. # If there's a problem, we'll have seen it by now.
break break
@unittest.skip('missing file')
def test_select_order_subset(self): def test_select_order_subset(self):
# Test that images are always yielded in increasing order. This guarantees that no matter what subset of images # Test that images are always yielded in increasing order. This guarantees that no matter what subset of images
# we're filtering, we still get them in the chronological order they were acquired # we're filtering, we still get them in the chronological order they were acquired


+ 4
- 0
functional_tests/single.py View File

@ -62,3 +62,7 @@ class SingleTests(unittest.TestCase):
def test_iteration_backwards(self): def test_iteration_backwards(self):
images = [image for image in self.nd2[::-1]] images = [image for image in self.nd2[::-1]]
self.assertEqual(len(images), 1) self.assertEqual(len(images), 1)
def test_select_bounds_wrong(self):
images = [i for i in self.nd2.select(start=0, stop=12481247)]
self.assertEqual(len(images), 1)

+ 6
- 2
nd2reader/main.py View File

@ -61,7 +61,7 @@ class Nd2(object):
return self._slice(item.start, item.stop, item.step) return self._slice(item.start, item.stop, item.step)
raise IndexError raise IndexError
def select(self, fields_of_view=None, channels=None, z_levels=None):
def select(self, fields_of_view=None, channels=None, z_levels=None, start=0, stop=None):
""" """
Iterates over images matching the given criteria. This can be 2-10 times faster than manually iterating over Iterates over images matching the given criteria. This can be 2-10 times faster than manually iterating over
the Nd2 and checking the attributes of each image, as this method skips disk reads for any images that don't the Nd2 and checking the attributes of each image, as this method skips disk reads for any images that don't
@ -70,13 +70,17 @@ class Nd2(object):
:type fields_of_view: int or tuple or list :type fields_of_view: int or tuple or list
:type channels: str or tuple or list :type channels: str or tuple or list
:type z_levels: int or tuple or list :type z_levels: int or tuple or list
:type start: int
:type stop: int
""" """
fields_of_view = self._to_tuple(fields_of_view, self.fields_of_view) fields_of_view = self._to_tuple(fields_of_view, self.fields_of_view)
channels = self._to_tuple(channels, self.channels) channels = self._to_tuple(channels, self.channels)
z_levels = self._to_tuple(z_levels, self.z_levels) z_levels = self._to_tuple(z_levels, self.z_levels)
for frame in range(len(self)):
# By default, we stop after the last image. Otherwise we make sure the user-provided value is valid
stop = len(self) if stop is None else max(0, min(stop, len(self)))
for frame in range(start, stop):
field_of_view, channel, z_level = self._parser.driver.calculate_image_properties(frame) field_of_view, channel, z_level = self._parser.driver.calculate_image_properties(frame)
if field_of_view in fields_of_view and channel in channels and z_level in z_levels: if field_of_view in fields_of_view and channel in channels and z_level in z_levels:
image = self._parser.driver.get_image(frame) image = self._parser.driver.get_image(frame)


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