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Module read and write Open EXR image files using numpy arrays.

Project description

openexr_numpy

Making reading and writing OpenEXR images in python easy using NumPy arrays.

Motivation

Writing and reading EXR images with existing package imageio, opencv-python, OpenEXR or OpenImageIO has currently inconvenient limitations:

  • opencv-python allows saving and reading EXR images, but it requires setting up an environment variable, OPENCV_IO_ENABLE_OPENEXR, before the first import of OpenCV on Windows. This violates PEP8 import rules import rules and can be tricky to ensure if OpenCV is imported in other modules. See more information in this issue here.

  • imageio relies on either freeimage or OpenCV under the hood to write and read EXR images. Freeimage does not have a permissive license and thus is not installed by default with imageio and cannot be installed with pip (see issue here). Installing it requires a manual step This requires a manual step to install, which deviates from the traditional Python environment setup process using pip only. Additionally, it modifies the system by adding the FreeImage DLL to the system path, making it visible to all imageio on the machine. Similarly, using OpenCV under the hood also has limitations and requires setting up an environment variable, as mentioned above.

  • OpenEXR. This is the official python binding for the OpenEXR file format. The documentation for the python API is very limited and the API is quite verbose. The is currently no API using numpy in this package, see issue here

  • OpenImageIO. This is the library most largely used in the VFX industry to read and write EXR files. Although it is available for OSX and Linux on anaconda.org here, it is not available on pypi.org yet (issue here), which can limit its adoption as a dependency in other packages published on pypi.org.

Our package is a wrapper around the official OpenEXR python binding that:

  • can be installed with pip
  • does not require to setup any environment variable before any import
  • provides imread and imwrite functions that use NumPy arrays using an API similar to the ones used in opencv and imageio.
  • provides read and write functions that allow to save and load arbitrary number of channels with heterogenous data types using dictionaries or NumPy structured arrays.

Note: the package pyexr is very similar to this project. It also aims at simplifying writing and reading EXR files by wrapping the OpenEXR package and provides very similar features and APIs. Note that is does not support NumPy structured arrays.

Example usage

Using imread and imwrite

# generate a 3 channel image
rgb_image = np.random.rand(12, 30, 3).astype(np.float32)
file_path = "test.exr"

# write the image
imwrite(file_path, rgb_image)

# read the image
rgb_image_loaded = imread(file_path)

# read a single channel
red_channel = imread(file_path, "R")

# write the image with explicit channel names
bgr_image = rgb_image[:,:,::-1]
imwrite(file_path, bgr_image, channel_names="BGR")

# read the image with a chosen channel order
brg_image_loaded = imread(file_path, channel_names="BGR")

# check consistency
assert np.allclose(red_channel, rgb_image[:, :, 0])
assert np.allclose(rgb_image, rgb_image_loaded)
assert np.allclose(bgr_image, brg_image_loaded)

More examples can be found in the tests file test_openexr_numpy.

The default convention we use for the channel names in the exr file is follows the convention used by imageio and is defined in the global variable default_channel_names defined as

default_channel_names: Dict[int, tuple[str, ...]] = {
    1: ("Y",),
    3: ("R", "G", "B"),
    4: ("R", "G", "B", "A"),
}

This convention differs from opencv that uses BGR and BGRA respectively for 3 and 4 channels. The channels ordering default convention can modified by the user using the function set_default_channel_names, but we recommend providing explicitly the names of the channels when calling imread and imwrite instead using the channel_names argument.

Using dictionaries

One can use the function read and write to get more flexible lower level access to OpenEXR with different data type for each channel:

# Create a two-channel image with different types and custom names
data = {
    "red": np.random.rand(12, 30).astype(np.float32),
    "green": np.random.rand(12, 30).astype(np.uint32),
}
file_path = "test.exr"

# Write the data
write(file_path, data)

# Read the data
data_b = read(file_path)

# Check the process is lossless
assert np.allclose(data["red"], data_b["red"])
assert np.allclose(data["green"], data_b["green"])

Each data channel value should be an NumPy arrays of dimension 2 and all arrays should have the same width and height.

Using NumPy structured arrays

The read and write functions also support NumPy structured arrays. The write function can take a structure array as input and one simply needs to provide the argument structured=True when reading the data to get back a structured array instead of a dictionary.

Note that the names in the dtype need to be alphabetically sorted in order to get back the same dtype when loading the data.

Example:

# Define the structured array type
dtype = np.dtype([("green", np.float32), ("red", np.uint32)])

# Initialize the structured array with zeros
data = np.zeros((12, 30), dtype=dtype)
data["red"] = np.random.rand(12, 30).astype(np.float32)
data["green"] = np.random.rand(12, 30).astype(np.uint32)

# Write the data
file_path = "test.exr"
write(file_path, data)

# Read the data
data_loaded = read(file_path, structured=True)

# Check the process is lossless
assert data_loaded.dtype == dtype
assert np.allclose(data["red"], data_loaded["red"])
assert np.allclose(data["green"], data_loaded["green"])

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