Skip to main content

Control microscope through client server program.

Project description

camacq Build Status Documentation Status License

Python project to control microscope through client-server program.

Install

  • Install the camacq package. Python version 3.6+ is supported.

    # Check python version.
    python --version
    # Install package.
    pip install camacq
    # Test that program is callable and show help.
    camacq -h
    

Run

camacq

Configure

camacq uses a yaml configuration file, config.yml, for configuring almost all settings in the app. The configuration file is found in the configuration directory. The default configuration directory is located in the home directory and called .camacq.

The location of the configuration directory can be overridden when starting camacq.

camacq --config /my_custom_config_dir

When camacq is started it checks the configuration directory for the configuration file, and if none is found creates a default configuration file. See below for an example of how to configure the leica api and a simple automation, in the configuration yaml file.

leica:
  host: localhost
  port: 8895
  imaging_dir: '/imaging_dir'

automations:
  - name: start
    trigger:
      - type: event
        id: camacq_start_event
    action:
      - type: command
        id: start_imaging

API

To interact with a microscope camacq needs to connect to an API from a microscope vendor, which in turn will control the microscope. Currently camacq can connect to the Computer Aided Microscopy (CAM) interface of Leica Microsystems' microscopes that have that feature activated. The design of camacq is built to be able to easily extend to APIs of other microscope vendors in the future. We welcome pull requests for this and other improvements. The API interface should be contained within a separate Python library, that instantiates a client object which camacq can use.

leica:
  host: localhost
  port: 8895
  imaging_dir: '/imaging_dir'

Automations

To tell the microscope what to do, camacq uses automations. Automations are blocks of yaml consisting of triggers, optional conditions and actions. A trigger is the notification of an event in camacq, eg a new image is saved. An action is what camacq should do when the trigger triggers, eg go to the next well. A condition is a criteria that has to be true to allow the action to execute, when a trigger has triggered.

As events happen, camacq checks the configured automations to see if any automation trigger matches the event. If there is a match, it also checks for possible conditions and if they are true. If both trigger and conditions matches and resolves to true, the corresponding action(s) will be executed.

For each automation block, it is possible to have multiple triggers, multiple conditions and multiple actions. Eg we can configure an automation with two triggers and two actions. If any of the triggers matches an event, both actions will be executed, in sequence.

automations:
  name: image_next_well
  trigger:
    - type: event
      id: camacq_start_event
    - type: event
      id: well_event
      data:
        well_img_ok: true
  action:
    - type: sample
      id: set_well
      data:
        plate_name: plate_1
        well_x: 1
        well_y: >
          {% if trigger.event.well is defined %}
            {{ trigger.event.well_y + 1 }}
          {% else %}
            1
          {% endif %}
    - type: command
      id: start_imaging

Trigger

Let us look more closely at the trigger section of the above automation.

trigger:
  - type: event
    id: camacq_start_event
  - type: event
    id: well_event
    data:
      well_img_ok: true

This section now holds a sequence of two trigger items, where each has a type and an id. The second item also has a data key. The type key tells camacq what type of trigger it should configure. Currently only triggers of type event are available. See the documentation for all available event ids. The id key sets the trigger id which will be the first part of the matching criteria for the trigger. The second part is optional and is the value of the data key. This key can hold key-value pairs with event data that should match the attributes of the event for the trigger to trigger. So for the second item we want the event to have id well_event and to have an attribute called well_img_ok which should return True, for the event to trigger our trigger.

Action

Looking at the action section of our example automation, we see that it also has two items. And exactly as for the triggers, each action has a type and an id, and can optionally specify a data key. Actions can have different types, eg sample or command. You will find all of the action types in the documentation. For an action, the data key sets the keyword arguments that should be provided to the action handler function that executes the action.

action:
  - type: sample
    id: set_well
    data:
      plate_name: plate_1
      well_x: 1
      well_y: >
        {% if trigger.event.well is defined %}
          {{ trigger.event.well_y + 1 }}
        {% else %}
          1
        {% endif %}
  - type: command
    id: start_imaging

In our example we want to do two things, first set a well, and then start the imaging. To not have to define this automation for each well we want to image, automations allow for dynamic rendering of the value of a data key, via use of the Jinja2 template language. You can recognize this part by the curly brackets. See the template section below for further details.

Template

Using templates in automations allows us to build powerful and flexible pieces of automation configuration code to control the microscope. Besides having all the standard Jinja2 features, we also have the trigger event and the full sample state data available as variables when the template is rendered. Eg if a well event triggered the automation we can use trigger.event.well inside the template and have access to all the attributes of the well that triggered the event. Useful sample attributes are also directly available on the trigger.event eg trigger.event.well_x.

well_y: >
  {% if trigger.event.well is defined %}
    {{ trigger.event.well_y + 1 }}
  {% else %}
    1
  {% endif %}

If we need access to some sample state that isn't part of the trigger, we can use sample directly in the template. Via this variable the whole sample state data is accessible from inside a template. See below for the sample attribute structure. Note that only condition and action values in key-value pairs support rendering a template. Templates are not supported in the keys of key-value pairs and not in trigger sections.

Condition

A condition can be used to check the current sample state and only execute the action if some criteria is met. Say eg we want to make sure that a well has four channels and that the green channel gain is set to 800.

condition:
  type: AND
  conditions:
    - condition: >
        {% if sample.plate['plate_1'].wells[1, 1].channels | length == 4 %}
          true
        {% endif %}
    - condition: >
        {% if sample.plate['plate_1'].wells[1, 1].channels['green'] == 800 %}
          true
        {% endif %}

The trigger event data is also available in the condition template as a variable. Below example will evaluate to true if the well that triggered the event has either 3 or 4 channels set.

condition:
  type: OR
  conditions:
    - condition: >
        {% if trigger.event.well.channels | length == 3 %}
          true
        {% endif %}
    - condition: >
        {% if trigger.event.well.channels | length == 4 %}
          true
        {% endif %}

Currently each condition must be a template that renders to the string true if the condition criteria is met.

Sample

The sample state should represent the sample with plate, wells, fields, images etc. See below for the full sample state attribute structure in camacq. This is available as a variable in templates in automations.

sample:
  plates:
    [plate_name]:
      name: [plate_name]
      images:
        [path]:
          path: [path]
          plate_name: [plate_name]
          well_x: [well_x]
          well_y: [well_y]
          field_x: [field_x]
          field_y: [field_y]
          channel_id: [channel_id]
      wells:
        [well_x, well_y]:
          x: [well_x]
          y: [well_y]
          name: [well_name]
          img_ok: [True/False]
          images:
            [path]:
              path: [path]
              plate_name: [plate_name]
              well_x: [well_x]
              well_y: [well_y]
              field_x: [field_x]
              field_y: [field_y]
              channel_id: [channel_id]
          channels:
            [channel_name]:
              gain: [value]
          fields:
            [field_x, field_y]:
              x: [field_x]
              y: [field_y]
              name: [field_name]
              dx: [dx]
              dy: [dy]
              img_ok: [True/False]
              images:
                [path]:
                  path: [path]
                  plate_name: [plate_name]
                  well_x: [well_x]
                  well_y: [well_y]
                  field_x: [field_x]
                  field_y: [field_y]
                  channel_id: [channel_id]

Plugins

To extend the functionality of camacq and to make it possible to do automated feedback microscopy, camacq supports plugins. A plugin is a module or a package in camacq that provides code for a specific task. It can eg be an image analysis script. See the documentation for all default available plugins.

To install a custom plugin, create a Python package with a setup.py module that implements the entry_points interface with key "camacq.plugins".

setup(
    ...
    entry_points={"camacq.plugins": "plugin_a = package_a.plugin_a"},
    ...
)

See the packaging docs for details.

camacq will automatically load installed modules or packages that implement this entry_point.

Add a setup_module coroutine function in the module or package. This function will be awaited with center and config as arguments.

async def setup_module(center, config):
    """Set up the plugin package."""

Each plugin must have its own configuration section at the root of the config. This is an example of the gain plugin section in the configuration.

gain:
  channels:
    - channel: green
      init_gain: [450, 495, 540, 585, 630, 675, 720, 765, 810, 855, 900]
    - channel: blue
      init_gain: [400, 435, 470, 505, 540, 575, 610]
    - channel: yellow
      init_gain: [550, 585, 620, 655, 690, 725, 760]
    - channel: red
      init_gain: [525, 560, 595, 630, 665, 700, 735]
  save_dir: '/save_dir'

Development

Install the packages needed for development.

pip install -r requirements_dev.txt

Use the Makefile to run common development tasks.

make

Credits

A lot of the inspiration for the architecture of camacq comes from another open-source Python automation app: Home Assistant. This is also the source for the automations interface in camacq.

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

camacq-0.4.0.tar.gz (59.9 kB view details)

Uploaded Source

Built Distribution

camacq-0.4.0-py3-none-any.whl (59.9 kB view details)

Uploaded Python 3

File details

Details for the file camacq-0.4.0.tar.gz.

File metadata

  • Download URL: camacq-0.4.0.tar.gz
  • Upload date:
  • Size: 59.9 kB
  • Tags: Source
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/2.0.0 pkginfo/1.5.0.1 requests/2.22.0 setuptools/41.6.0 requests-toolbelt/0.9.1 tqdm/4.37.0 CPython/3.7.5

File hashes

Hashes for camacq-0.4.0.tar.gz
Algorithm Hash digest
SHA256 b8a91c59cbbca391b25570e185a4e488d2c6b69aa2b712d6087ec3526d2c12b4
MD5 e83303c2f6803bfbe48abe59df9fc29b
BLAKE2b-256 2fa4326687ad65fa75797e8fcdb2580c5db9a9472f54ba74ac204e0d9f441605

See more details on using hashes here.

File details

Details for the file camacq-0.4.0-py3-none-any.whl.

File metadata

  • Download URL: camacq-0.4.0-py3-none-any.whl
  • Upload date:
  • Size: 59.9 kB
  • Tags: Python 3
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/2.0.0 pkginfo/1.5.0.1 requests/2.22.0 setuptools/41.6.0 requests-toolbelt/0.9.1 tqdm/4.37.0 CPython/3.7.5

File hashes

Hashes for camacq-0.4.0-py3-none-any.whl
Algorithm Hash digest
SHA256 3f2583f45d82406d2ce36ca79b61904dfa2e1ea27837fc82c9f86891bfcc7576
MD5 d0b82a4967ee13ed0b56ad4ad44a0b0d
BLAKE2b-256 f4d7faf548e73392a355adc5a0c397413b13464c032d4df70e5ef2380746cc48

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page