From 48b868c5208816b007ec1d9c7940e75b4c64e5ce Mon Sep 17 00:00:00 2001 From: MariaMatveeva Date: Fri, 26 Aug 2016 14:29:03 +0200 Subject: Update documentation --- docs/concert.rst | 188 +++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 188 insertions(+) create mode 100644 docs/concert.rst (limited to 'docs/concert.rst') diff --git a/docs/concert.rst b/docs/concert.rst new file mode 100644 index 0000000..0c44d89 --- /dev/null +++ b/docs/concert.rst @@ -0,0 +1,188 @@ +Concert +======= + +`Concert`_ is a light-weight control system interface, which can also control ``libuca`` cameras. + +.. _Concert: https://github.com/ufo-kit/concert + + +Installation +------------ + +In the `official documentation`_ you can read `how to install`_ ``Concert``. + +.. _official documentation: https://concert.readthedocs.io/en/latest/ +.. _how to install: https://concert.readthedocs.io/en/latest/user/install.html + + +Usage +----- + +``Concert`` can be used from a session and within an integrated ``IPython`` shell or as a library. + +In order to create a concert session you should first initialize the session and then start the editor:: + + $ concert init session + $ concert edit session + +You can simply add your camera, for example the ``mock`` camera with:: + + from concert.devices.cameras.uca import Camera + + camera = Camera("mock") + +and start the session with:: + + $ concert start session + +The function ``ddoc()`` will give you an overview of all defined devices in the session:: + + session > ddoc() + # ------------------------------------------------------------------------------------------------ + # Name Description Parameters + # ------------------------------------------------------------------------------------------------ + # camera libuca-based camera. Name Unit Description + # buffered None info TRUE if libuca should buffer + # All properties that are frames + # exported by the locked no + # underlying camera are exposure_time second info Exposure time in seconds + # also visible. locked no + # lower -inf second + # upper inf second + ... + + +Getting and setting camera parameters +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +You can get an overview of the camera parameters by calling the ``dstate()`` function:: + + session > dstate() + # --------------------------------------------------------- + # Name Parameters + # --------------------------------------------------------- + # camera buffered False + # exposure_time 0.05 second + # fill_data True + # frame_rate 20.0 1 / second + # has_camram_recording False + # has_streaming True + ... + +set the value of a parameter with:: + + session > camera.exposure_time = 0.01 * q.s + +and check the set value with:: + + session > camera.exposure_time + # + +or you can use the ``get()`` and ``set()`` methods:: + + session > exposure_time = camera["exposure_time"] + session > exposure_time.set(0.1 * q.s) + session > exposure_time.get().result() + # + +In order to set the trigger source property you can use ``trigger_sources.AUTO``, ``trigger_sources.SOFTWARE`` or ``trigger_sources.EXTERNAL``:: + + session > camera.trigger_source = camera.trigger_sources.AUTO + + +Grabbing frames +~~~~~~~~~~~~~~~ + +To grab a frame, first start the camera, use the ``grab()`` function and stop the camera afterwards:: + + session > camera.start_recording() + session > frame = camera.grab() + session > camera.stop_recording() + +You get the frame as an array:: + + session > frame + # array([[ 0, 0, 0, ..., 0, 0, 0], + # [ 0, 0, 0, ..., 0, 0, 0], + # [ 0, 0, 255, ..., 0, 0, 0], + # ..., + # [ 0, 0, 0, ..., 0, 0, 0], + # [ 0, 0, 0, ..., 0, 0, 0], + # [ 0, 0, 0, ..., 0, 0, 0]], dtype=uint8) + + +Saving state and locking parameters +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +You can store the current state of your camera with:: + + session > camera.stash() + # + +And go back to it again with:: + + session > camera.restore() + # + +In case you want to prevent a parameter or all the parameters from being written you can use the ``lock()`` method:: + + session > camera["exposure_time"].lock() + session > camera["exposure_time"].set(1 * q.s) + # + + # lock all parameters of the camera device + session > camera.lock() + +and to unlock them again, just use the ``unlock()`` method:: + + session > camera.unlock() + + +Concert as a library - more examples +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + +You can also use ``Concert`` as a library. + +For example test the bit depth consistency with:: + + import numpy as np + from concert.quantities import q + from concert.devices.cameras.uca import Camera + + + def acquire_frame(camera): + camera.start_recording() + frame = camera.grab() + camera.stop_recording() + return frame + + def test_bit_depth_consistency(camera): + camera.exposure_time = 1 * q.s + frame = acquire_frame(camera) + + bits = camera.sensor_bitdepth + success = np.mean(frame) < 2**bits.magnitude + print "success" if success else "higher values than possible" + + camera = Camera("mock") + test_bit_depth_consistency(camera) + +or the exposure time consistency with:: + + def test_exposure_time_consistency(camera): + camera.exposure_time = 1 * q.ms + first = acquire_frame(camera) + + camera.exposure_time = 100 * q.ms + second = acquire_frame(camera) + + success = np.mean(first) < np.mean(second) + print "success" if success else "mean image value is lower than expected" + + +Official Documentation +~~~~~~~~~~~~~~~~~~~~~~ + +If you have more questions or just want to know more about ``Concert``, please take a look at the very detailed `official documentation`_. + +.. _official documentation: https://concert.readthedocs.io/en/latest/ -- cgit v1.2.3