[libcamera-devel] [PATCH v4 15/16] py: examples: Add itest.py
Jacopo Mondi
jacopo at jmondi.org
Sun Jun 5 14:38:34 CEST 2022
Hi Tomi
On Mon, May 30, 2022 at 05:27:21PM +0300, Tomi Valkeinen wrote:
> Add a small tool which gives the user an IPython based interactive shell
> with libcamera capturing in the background. Can be used to study and
> test small things with libcamera.
>
Feels very similar to simple-capture.py
Can't opening the IPython shell be made an option to simple-capture ?
> Signed-off-by: Tomi Valkeinen <tomi.valkeinen at ideasonboard.com>
> ---
> src/py/examples/itest.py | 195 +++++++++++++++++++++++++++++++++++++++
> 1 file changed, 195 insertions(+)
> create mode 100755 src/py/examples/itest.py
>
> diff --git a/src/py/examples/itest.py b/src/py/examples/itest.py
> new file mode 100755
> index 00000000..9c97649d
> --- /dev/null
> +++ b/src/py/examples/itest.py
> @@ -0,0 +1,195 @@
> +#!/usr/bin/env python3
> +
> +# SPDX-License-Identifier: BSD-3-Clause
> +# Copyright (C) 2022, Tomi Valkeinen <tomi.valkeinen at ideasonboard.com>
> +
> +# This sets up a single camera, starts a capture loop in a background thread,
> +# and starts an IPython shell which can be used to study and test libcamera.
> +#
> +# Note: This is not an example as such, but more of a developer tool to try
> +# out things.
> +
> +import argparse
> +import IPython
> +import libcamera as libcam
> +import selectors
> +import sys
> +import threading
> +
> +
> +def handle_camera_event(ctx):
> + cm = ctx['cm']
> + cam = ctx['cam']
> +
> + # cm.get_ready_requests() will not block here, as we know there is an event
> + # to read.
> +
> + reqs = cm.get_ready_requests()
> +
> + assert len(reqs) > 0
> +
> + # Process the captured frames
> +
> + for req in reqs:
> + buffers = req.buffers
> +
> + assert len(buffers) == 1
> +
> + # We want to re-queue the buffer we just handled. Instead of creating
> + # a new Request, we re-use the old one. We need to call req.reuse()
> + # to re-initialize the Request before queuing.
> +
> + req.reuse()
> + cam.queue_request(req)
> +
> + scope = ctx['scope']
> +
> + if 'num_frames' not in scope:
> + scope['num_frames'] = 0
> +
> + scope['num_frames'] += 1
> +
> +
> +def capture(ctx):
> + cm = ctx['cm']
> + cam = ctx['cam']
> + reqs = ctx['reqs']
> +
> + # Queue the requests to the camera
> +
> + for req in reqs:
> + ret = cam.queue_request(req)
> + assert ret == 0
> +
> + # Use Selector to wait for events from the camera and from the keyboard
> +
> + sel = selectors.DefaultSelector()
> + sel.register(cm.event_fd, selectors.EVENT_READ, lambda fd: handle_camera_event(ctx))
> +
> + reqs = []
> +
> + while ctx['running']:
> + events = sel.select()
> + for key, mask in events:
> + key.data(key.fileobj)
> +
> +
> +def main():
> + parser = argparse.ArgumentParser()
> + parser.add_argument('-c', '--camera', type=str, default='1',
> + help='Camera index number (starting from 1) or part of the name')
> + parser.add_argument('-f', '--format', type=str, help='Pixel format')
> + parser.add_argument('-s', '--size', type=str, help='Size ("WxH")')
> + args = parser.parse_args()
> +
> + cm = libcam.CameraManager.singleton()
> +
> + try:
> + if args.camera.isnumeric():
> + cam_idx = int(args.camera)
> + cam = next((cam for i, cam in enumerate(cm.cameras) if i + 1 == cam_idx))
> + else:
> + cam = next((cam for cam in cm.cameras if args.camera in cam.id))
> + except Exception:
> + print(f'Failed to find camera "{args.camera}"')
> + return -1
> +
> + # Acquire the camera for our use
> +
> + ret = cam.acquire()
> + assert ret == 0
> +
> + # Configure the camera
> +
> + cam_config = cam.generate_configuration([libcam.StreamRole.Viewfinder])
> +
> + stream_config = cam_config.at(0)
> +
> + if args.format:
> + fmt = libcam.PixelFormat(args.format)
> + stream_config.pixel_format = fmt
> +
> + if args.size:
> + w, h = [int(v) for v in args.size.split('x')]
> + stream_config.size = libcam.Size(w, h)
> +
> + ret = cam.configure(cam_config)
> + assert ret == 0
> +
> + stream = stream_config.stream
> +
> + # Allocate the buffers for capture
> +
> + allocator = libcam.FrameBufferAllocator(cam)
> + ret = allocator.allocate(stream)
> + assert ret > 0
> +
> + num_bufs = len(allocator.buffers(stream))
> +
> + print(f'Capturing {stream_config} with {num_bufs} buffers from {cam.id}')
> +
> + # Create the requests and assign a buffer for each request
> +
> + reqs = []
> + for i in range(num_bufs):
> + # Use the buffer index as the "cookie"
> + req = cam.create_request(i)
> +
> + buffer = allocator.buffers(stream)[i]
> + ret = req.add_buffer(stream, buffer)
> + assert ret == 0
> +
> + reqs.append(req)
> +
> + # Start the camera
> +
> + ret = cam.start()
> + assert ret == 0
> +
> + # Create a scope for the IPython shell
> + scope = {
> + 'cm': cm,
> + 'cam': cam,
> + 'libcam': libcam,
> + }
> +
> + # Create a simple context shared between the background thread and the main
> + # thread.
> + ctx = {
> + 'running': True,
> + 'cm': cm,
> + 'cam': cam,
> + 'reqs': reqs,
> + 'scope': scope,
> + }
> +
> + # Note that "In CPython, due to the Global Interpreter Lock, only one thread
> + # can execute Python code at once". We rely on that here, which is not very
> + # nice. I am sure an fd-based polling loop could be integrated with IPython,
> + # somehow, which would allow us to drop the threading.
> +
> + t = threading.Thread(target=capture, args=(ctx,))
> + t.start()
> +
> + IPython.embed(banner1='', exit_msg='', confirm_exit=False, user_ns=scope)
> +
> + print('Exiting...')
> +
> + ctx['running'] = False
> + t.join()
> +
> + # Stop the camera
> +
> + ret = cam.stop()
> + assert ret == 0
> +
> + # Release the camera
> +
> + ret = cam.release()
> + assert ret == 0
> +
> + return 0
> +
> +
> +if __name__ == '__main__':
> + sys.exit(main())
> --
> 2.34.1
>
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