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Merge pull request #2343 from astrofrog/speedup-composite-array
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Performance improvements for CompositeArray
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astrofrog authored Nov 1, 2022
2 parents 2cfa746 + 3dc2d5d commit 1e3d319
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Showing 6 changed files with 144 additions and 24 deletions.
4 changes: 2 additions & 2 deletions .github/workflows/ci_workflows.yml
Original file line number Diff line number Diff line change
Expand Up @@ -58,7 +58,6 @@ jobs:
# Test a few configurations on macOS
- macos: py38-test-pyqt514-all
- macos: py310-test-pyqt515
- macos: py310-test-pyside63
- macos: py310-test-pyqt64
- macos: py311-test-pyqt515
Expand Down Expand Up @@ -92,9 +91,10 @@ jobs:
# Python 3.11.0 failing on Windows in test_image.py on
# > assert df.find_factory(fname) is df.img_data
- linux: py310-test-pyside64
- windows: py310-test-pyside64
- linux: py311-test-pyside64
- macos: py310-test-pyside63
- macos: py311-test-pyside64
- windows: py310-test-pyside64
- windows: py311-test-pyqt515
# Windows docs build
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2 changes: 1 addition & 1 deletion glue/plugins/tools/pv_slicer/qt/tests/test_pv_slicer.py
Original file line number Diff line number Diff line change
Expand Up @@ -77,7 +77,7 @@ def test_set_cmap(self):
cm_mode = self.w.toolbar.tools['image:colormap']
act = cm_mode.menu_actions()[1]
act.trigger()
assert self.w._composite.layers['image']['color'] is act.cmap
assert self.w._composite.layers['image']['cmap'] is act.cmap

def test_double_set_image(self):
assert len(self.w._axes.images) == 1
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82 changes: 69 additions & 13 deletions glue/viewers/image/composite_array.py
Original file line number Diff line number Diff line change
@@ -1,8 +1,12 @@
# This artist can be used to deal with the sampling of the data as well as any
# RGB blending.

import warnings

import numpy as np

from glue.config import colormaps

from matplotlib.colors import ColorConverter, Colormap
from astropy.visualization import (LinearStretch, SqrtStretch, AsinhStretch,
LogStretch, ManualInterval, ContrastBiasStretch)
Expand All @@ -12,6 +16,8 @@

COLOR_CONVERTER = ColorConverter()

CMAP_SAMPLING = np.linspace(0, 1, 256)

STRETCHES = {
'linear': LinearStretch,
'sqrt': SqrtStretch,
Expand All @@ -30,13 +36,25 @@ def __init__(self, **kwargs):
self.layers = {}

self._first = True
self._mode = 'color'

@property
def mode(self):
return self._mode

@mode.setter
def mode(self, value):
if value not in ['color', 'colormap']:
raise ValueError("mode should be one of 'color' or 'colormap'")
self._mode = value

def allocate(self, uuid):
self.layers[uuid] = {'zorder': 0,
'visible': True,
'array': None,
'shape': None,
'color': '0.5',
'cmap': colormaps.members[0][1],
'alpha': 1,
'clim': (0, 1),
'contrast': 1,
Expand All @@ -50,6 +68,9 @@ def set(self, uuid, **kwargs):
for key, value in kwargs.items():
if key not in self.layers[uuid]:
raise KeyError("Unknown key: {0}".format(key))
elif key == 'color' and isinstance(value, Colormap):
warnings.warn('Setting colormap using "color" key is deprecated, use "cmap" instead.', UserWarning)
self.layers[uuid]['cmap'] = value
else:
self.layers[uuid][key] = value

Expand Down Expand Up @@ -80,7 +101,23 @@ def __call__(self, bounds=None):
img = None
visible_layers = 0

for uuid in sorted(self.layers, key=lambda x: self.layers[x]['zorder']):
# Get a sorted list of UUIDs with the top layers last
sorted_uuids = sorted(self.layers, key=lambda x: self.layers[x]['zorder'])

# We first check that layers are either all colormaps or all single colors.
# In the case where we are dealing with colormaps, we can start from
# the last layer that has an opacity of 1 because layers below will not
# affect the output, assuming also that the colormaps do not change the
# alpha
if self.mode == 'colormap':
for i in range(len(sorted_uuids) - 1, -1, -1):
layer = self.layers[sorted_uuids[i]]
if layer['visible']:
if layer['alpha'] == 1 and layer['cmap'](CMAP_SAMPLING)[:, 3].min() == 1:
sorted_uuids = sorted_uuids[i:]
break

for uuid in sorted_uuids:

layer = self.layers[uuid]

Expand All @@ -89,6 +126,7 @@ def __call__(self, bounds=None):

interval = ManualInterval(*layer['clim'])
contrast_bias = ContrastBiasStretch(layer['contrast'], layer['bias'])
stretch = STRETCHES[layer['stretch']]()

if callable(layer['array']):
array = layer['array'](bounds=bounds)
Expand All @@ -104,27 +142,45 @@ def __call__(self, bounds=None):
else:
scalar = False

data = STRETCHES[layer['stretch']]()(contrast_bias(interval(array)))
data = interval(array)
data = contrast_bias(data, out=data)
data = stretch(data, out=data)
data[np.isnan(data)] = 0

if isinstance(layer['color'], Colormap):
if self.mode == 'colormap':

if img is None:
img = np.ones(data.shape + (4,))

# Compute colormapped image
plane = layer['color'](data)
plane = layer['cmap'](data)

# Check what the smallest colormap alpha value for this layer is
# - if it is 1 then this colormap does not change transparency,
# and this allows us to speed things up a little.

if layer['cmap'](CMAP_SAMPLING)[:, 3].min() == 1:

if layer['alpha'] == 1:
img[...] = 0
else:
plane *= layer['alpha']
img *= (1 - layer['alpha'])

else:

# Use traditional alpha compositing

alpha_plane = layer['alpha'] * plane[:, :, 3]

alpha_plane = layer['alpha'] * plane[:, :, 3]
plane[:, :, 0] = plane[:, :, 0] * alpha_plane
plane[:, :, 1] = plane[:, :, 1] * alpha_plane
plane[:, :, 2] = plane[:, :, 2] * alpha_plane

# Use traditional alpha compositing
plane[:, :, 0] = plane[:, :, 0] * alpha_plane
plane[:, :, 1] = plane[:, :, 1] * alpha_plane
plane[:, :, 2] = plane[:, :, 2] * alpha_plane
img[:, :, 0] *= (1 - alpha_plane)
img[:, :, 1] *= (1 - alpha_plane)
img[:, :, 2] *= (1 - alpha_plane)

img[:, :, 0] *= (1 - alpha_plane)
img[:, :, 1] *= (1 - alpha_plane)
img[:, :, 2] *= (1 - alpha_plane)
img[:, :, 3] = 1

else:
Expand Down Expand Up @@ -155,7 +211,7 @@ def __call__(self, bounds=None):
if img is None:
return None
else:
img = np.clip(img, 0, 1)
img = np.clip(img, 0, 1, out=img)

return img

Expand Down
7 changes: 4 additions & 3 deletions glue/viewers/image/layer_artist.py
Original file line number Diff line number Diff line change
Expand Up @@ -156,15 +156,16 @@ def _update_visual_attributes(self):
return

if self._viewer_state.color_mode == 'Colormaps':
color = self.state.cmap
self.composite.mode = 'colormap'
else:
color = self.state.color
self.composite.mode = 'color'

self.composite.set(self.uuid,
clim=(self.state.v_min, self.state.v_max),
visible=self.state.visible,
zorder=self.state.zorder,
color=color,
color=self.state.color,
cmap=self.state.cmap,
contrast=self.state.contrast,
bias=self.state.bias,
alpha=self.state.alpha,
Expand Down
7 changes: 4 additions & 3 deletions glue/viewers/image/python_export.py
Original file line number Diff line number Diff line change
Expand Up @@ -30,15 +30,16 @@ def python_export_image_layer(layer, *args):
script += "composite.allocate('{0}')\n".format(layer.uuid)

if layer._viewer_state.color_mode == 'Colormaps':
color = code('plt.cm.' + layer.state.cmap.name)
script += "composite.mode = 'colormap'\n"
else:
color = layer.state.color
script += "composite.mode = 'color'\n"

options = dict(array=code('array_maker'),
clim=(layer.state.v_min, layer.state.v_max),
visible=layer.state.visible,
zorder=layer.state.zorder,
color=color,
color=layer.state.color,
cmap=code('plt.cm.' + layer.state.cmap.name),
contrast=layer.state.contrast,
bias=layer.state.bias,
alpha=layer.state.alpha,
Expand Down
66 changes: 64 additions & 2 deletions glue/viewers/image/tests/test_composite_array.py
Original file line number Diff line number Diff line change
Expand Up @@ -49,14 +49,16 @@ def test_shape_function(self):

def test_cmap_blending(self):

self.composite.mode = 'colormap'

self.composite.allocate('a')
self.composite.allocate('b')

self.composite.set('a', zorder=0, visible=True, array=self.array1,
color=cm.Blues, clim=(0, 2))
cmap=cm.Blues, clim=(0, 2))

self.composite.set('b', zorder=1, visible=True, array=self.array2,
color=cm.Reds, clim=(0, 1))
cmap=cm.Reds, clim=(0, 1))

# Determine expected result for each layer individually in the absence
# of transparency
Expand All @@ -83,6 +85,66 @@ def test_cmap_blending(self):

assert_allclose(self.composite(bounds=self.default_bounds), 0.5 * (expected_b + expected_a))

def test_cmap_alphas(self):

self.composite.mode = 'colormap'

self.composite.allocate('a')
self.composite.allocate('b')

self.composite.set('a', zorder=0, visible=True, array=self.array1,
cmap=cm.Blues, clim=(0, 2))

self.composite.set('b', zorder=1, visible=True, array=self.array2,
cmap=lambda x: cm.Reds(x, alpha=abs(np.nan_to_num(x))), clim=(0, 1))

# Determine expected result for each layer individually in the absence
# of transparency

expected_a = np.array([[cm.Blues(1.), cm.Blues(0.5)],
[cm.Blues(0.), cm.Blues(0.)]])

expected_b = np.array([[cm.Reds(0.), cm.Reds(1.)],
[cm.Reds(0.), cm.Reds(0.)]])

# If the top layer has alpha=1 with a colormap alpha fading proportional to absval,
# it should be visible only at the nonzero value [0, 1]

assert_allclose(self.composite(bounds=self.default_bounds),
[[expected_a[0, 0], expected_b[0, 1]], expected_a[1]])

# For the same case with the top layer alpha=0.5 that value should become an equal
# blend of both layers again

self.composite.set('b', alpha=0.5)

assert_allclose(self.composite(bounds=self.default_bounds),
[[expected_a[0, 0], 0.5 * (expected_a[0, 1] + expected_b[0, 1])],
expected_a[1]])

# A third layer added at the bottom should not be visible in the output

self.composite.allocate('c')
self.composite.set('c', zorder=-1, visible=True, array=self.array3,
cmap=cm.Greens, clim=(0, 2))

assert_allclose(self.composite(bounds=self.default_bounds),
[[expected_a[0, 0], 0.5 * (expected_a[0, 1] + expected_b[0, 1])],
expected_a[1]])

# For only the bottom layer having such colormap, the top layer should appear just the same

self.composite.set('a', alpha=1., cmap=lambda x: cm.Blues(x, alpha=abs(np.nan_to_num(x))))
self.composite.set('b', alpha=1., cmap=cm.Reds)

assert_allclose(self.composite(bounds=self.default_bounds), expected_b)

# Settin the third layer on top with alpha=0 should not affect the appearance

self.composite.set('c', zorder=2, alpha=0.)

assert_allclose(self.composite(bounds=self.default_bounds), expected_b)

def test_color_blending(self):

self.composite.allocate('a')
Expand Down

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