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| = 2D = | = Python test images = |
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| == Using the test_image function in Python == | == test_image (2D) == |
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| == Using the processor framework == | |
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| == test_image_3d (3D) == At present there are 5 3D test images that are accessible using the test_image_3d function, which is defined in EMAN2.py. {{{ #] e2.py Welcome to EMAN2 Prompt provided by IPython Enter '?' for ipython help In [3]: e = test_image_3d(0,size=(128,128,128)) In [4]: display(e) }}} The following table shows the currently available 3D test images. ||<:>{{attachment:test_3d_0.png}} ||<:>{{attachment:test_3d_1.png}}|| ||<:>test_image_3d(0): Axes ||<:> test_image_3d(1): Spherical waves || ||<:>{{attachment:test_3d_2.png}} ||<:>{{attachment:test_3d_3.png}}|| ||<:> test_image_3d(2): Tomography test image ||<:>test_image_3d(3): Solid cube || ||<:>{{attachment:test_3d_4.png}} || ||<:>test_image_3d(4): Solid sphere || = Using the processor framework = == 2D == |
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= 3D = == Using the test_image_3d function in Python == At present there are 5 3D test images that are accessible using the test_image_3d function, which is defined in EMAN2.py. {{{ #] e2.py Welcome to EMAN2 Prompt provided by IPython Enter '?' for ipython help In [3]: e = test_image_3d(0,size=(128,128,128)) In [4]: display(e) }}} The following table shows the currently available 3D test images. ||<:>{{attachment:test_3d_0.png}} ||<:>{{attachment:test_3d_1.png}}|| ||<:>test_image_3d(0): Axes ||<:> test_image_3d(1): Spherical waves || ||<:>{{attachment:test_3d_2.png}} ||<:>{{attachment:test_3d_3.png}}|| ||<:> test_image_3d(2): Tomography test image ||<:>test_image_3d(3): Solid cube || ||<:>{{attachment:test_3d_4.png}} || ||<:>test_image_3d(4): Solid sphere || |
Python test images
EMAN2 includes a good selection of test images that can be generated in no time at all. They come in many shapes and forms, from simple gradients and shapes to basic noise models.
test_image (2D)
At present there are 10 2D test images that are accessible using the test_image function, which is defined in EMAN2.py.
#] e2.py Welcome to EMAN2 Prompt provided by IPython Enter '?' for ipython help In [3]: e = test_image(0,size=(256,256)) In [4]: display(e)
If you don't specifty the size argument the returned image is 128x128. The following table shows each of the currently defined test_images.
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test_image(0): The EMAN scurve |
test_image(1): Gaussian noise |
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test_image(2): Dark square |
test_image(3): Light square |
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test_image(4): Scurve and random frequency line wave |
test_image(5): Axes |
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test_image(6): Random frequency line wave |
test_image(7): Scurve and directional gradient |
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test_image(8): Randomly rotated and translated scurve |
test_image(9): Scurve and Gaussian noise |
test_image_3d (3D)
At present there are 5 3D test images that are accessible using the test_image_3d function, which is defined in EMAN2.py.
#] e2.py Welcome to EMAN2 Prompt provided by IPython Enter '?' for ipython help In [3]: e = test_image_3d(0,size=(128,128,128)) In [4]: display(e)
The following table shows the currently available 3D test images.
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test_image_3d(0): Axes |
test_image_3d(1): Spherical waves |
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test_image_3d(2): Tomography test image |
test_image_3d(3): Solid cube |
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test_image_3d(4): Solid sphere |
Using the processor framework
2D
To create a test image using the processor framework start by running e2.py and by creating an empty image that is appropriately sized, for example as follows:
#] e2.py Welcome to EMAN2 Prompt provided by IPython Enter '?' for ipython help In [3]: e = EMData() In [4]: e.set_size(256,256)
Then issue one of the commands shown below in the table to generate the test image
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e.process_inplace("testimage.gradient") |
e.process_inplace("testimage.gradient", {'axis','y'}) |
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e.process_inplace("testimage.axes") |
e.process_inplace("testimage.circlesphere") |
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e.process_inplace("testimage.scurve") |
e.process_inplace("testimage.noise.gauss") |
Note that this is not all of the test images, and that you can get a complete list by typying e2help.py processors on the command prompt (or see http://blake.bcm.edu/eman2/processors.html). Finally, you can display the image
In [5]: e.process_inplace("testimage.scurve")
In [6]: display(e)You can write the image to disk if you need to:
In [7]: e.write_image("scurve.img")
In [8]: e.write_image("scurve.mrc")Also, a great many of the test images work on 3D (and 1D) images, so feel free to play around.