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base: bec:v0.50.1
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bec:main bec:feature/scan_control_units bec:feat/migrate-bec-terminal bec:fix/ophyd_cl bec:fix/scan-motors-and-exit-status bec:test/remove-scan-motors-references bec:dependabot/pip/pytest-cov-gte-6.1.1-and-lt-7.2.0 bec:dependabot/pip/pyside6-qtads-4.5.0.2 bec:feature/messaging_config bec:build/update-qt-dependencies bec:fix/remove-all-inits bec:fix/check_dupe_stream_sub bec:scratch/debugging_e2e bec:test/rpc_gui_obj bec:fix/rpc-server bec:feat/table-log-panel bec:dependabot/pip/pyqtgraph-0.14.0 bec:dependabot/pip/pytest-cov-gte-6.1.1-and-lt-7.1.0 bec:feat/procedure_control bec:dependabot/pip/pytest-gte-8-and-lt-10 bec:dependabot/pip/pyside6-6.10.2 bec:feature/bw_v3 bec:pre_release_v3 bec:feature/feedback_dialog bec:fix/dont_sidestep_validator_pr bec:test/move_stuff bec:feature/beamline_states bec:fix/more_fixture_hax bec:prototype/omny-testing bec:feat/manage_exit_handlers bec:fix/image-fetch-async-signals bec:fix/ide_view_23-12-25 bec:feature/shared_web_console bec:prototype/csaxs-testing bec:fix/theming-on-bec-designer bec:feat/status-bar bec:feat/diagnostic_view bec:feat/gradient-hover-util bec:fix/ide_view bec:refactor/icons_typing bec:feat/ads-profile-gui bec:fix/test-utils bec:feat/788_show_additional_info bec:feat/ads-profiles-location bec:fix/child-repo-flaky-atlas-test bec:feat/developer-view bec:improve-device-manager-view bec:help_inspector bec:fix/reenable_logpanel_in_menu bec:build/upgrade_pyside bec:prototype/dev-device-view-in-main-app bec:example/autohide-docks bec:feat/dm_manager_view_cleanup bec:feat/dm_manager_view_with_available_devices bec:feat/dm_manager_view bec:feat/available-devices-widget bec:fix/qthemes-safeslot-issue bec:feat/device_config/combine_devices_with_table bec:theme_comparison bec:feat/device_config/available_resources bec:scratch/device_manager bec:prototype/propety-manager bec:prototype/advanced-dock-area bec:feature/file_browser bec:feature/script_interface bec:fix/designer_sf_print_tidy bec:feature/monaco_editor bec:docs/waveform-ruleset bec:test/738_dockarea_freezing bec:feat/client-message-bar bec:feat/650_backup bec:fix/flag-for-running-scan bec:fix/image-widget-move-to-preview-endpoint bec:fix/logpanel_problems bec:feat/650_toggle_device_enable_l bec:ci/fix_build bec:ci/fix_coverage_report bec:docs/badges bec:fix/install_bec_server_in_ci bec:fix/waveform-async-multiple bec:build/ci_conda_e2e_change_docker_image bec:pre_release_v2 bec:fix/cleanup_error_of_dock_label bec:fix/ring_progress_bar_rings bec:fix/on_async_update_bug bec:feat/dap_task_widget bec:tests/add_e2e_test_gui_rpc bec:feature/auto_update_marker_launcher bec:fix/auto_updates_v2 bec:fix/rpc_reference_for_properties bec:test/end_2_end_tests bec:feat/bec-app-with-server bec:fix/exclude_duplicate_designer_plugin bec:fix/bec_server_branch_in_ci bec:fix/namespace_cleanup_for_dock_area bec:feat/bec-qapp bec:fix/dap-parameters-request bec:temp_store_rpc_broadcast bec:refactor/namespace bec:feature/rpc_broadcast bec:feature/acl_transfer bec:feat/next-gen-waveform bec:fix/logpanel-segfaults bec:tomcat/prototype bec:423-move-auto-update-to-gui-server bec:ci/update_ci_for_dep_check bec:feat/user_script_widget bec:410-missing-signal-for-prompt-and-to-catch-output-of-commands bec:fix/temp-dock bec:fix/temp-docks bec:fix/color-widget-menu-none-removed bec:fix/signal-line-edits-in-curve-dialog bec:refactor/colormap-selector-inheritance bec:fix/aligment-gui-layout bec:feature/designer_signal_proxy bec:refactor/bec_queue bec:ci/core_dump_upload bec:feat/error_message_popup_util bec:feature/device_control_line bec:feature/async_waveform bec:245-bec-status-box-for-designer-plugin bec:fix/refactoring_of_bec_status_box_MG bec:feat/motor-map-standalone bec:feat/ivans-plugins bec:feat/add_bec_device_box bec:feat/general-gui bec:240-add-vt100-console-executing-bec-as-a-widget-2 bec:feat/plugins bec:feature/status_indicator bec:docs/add_tutorial_for_start_scan_button bec:feat/bash-console bec:feat/alt-dock bec:feature/vscode bec:feat/dock_area bec:motor_control_hotfix bec:15-SIGTERM-demonstration bec:94-bec-figure-rpc-tests-fix bec:config_plotter_widgets
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compare: bec:feat/bash-console
Branches Tags
bec:feature/scan_control_units bec:feat/migrate-bec-terminal bec:fix/ophyd_cl bec:main bec:fix/scan-motors-and-exit-status bec:test/remove-scan-motors-references bec:dependabot/pip/pytest-cov-gte-6.1.1-and-lt-7.2.0 bec:dependabot/pip/pyside6-qtads-4.5.0.2 bec:feature/messaging_config bec:build/update-qt-dependencies bec:fix/remove-all-inits bec:fix/check_dupe_stream_sub bec:scratch/debugging_e2e bec:test/rpc_gui_obj bec:fix/rpc-server bec:feat/table-log-panel bec:dependabot/pip/pyqtgraph-0.14.0 bec:dependabot/pip/pytest-cov-gte-6.1.1-and-lt-7.1.0 bec:feat/procedure_control bec:dependabot/pip/pytest-gte-8-and-lt-10 bec:dependabot/pip/pyside6-6.10.2 bec:feature/bw_v3 bec:pre_release_v3 bec:feature/feedback_dialog bec:fix/dont_sidestep_validator_pr bec:test/move_stuff bec:feature/beamline_states bec:fix/more_fixture_hax bec:prototype/omny-testing bec:feat/manage_exit_handlers bec:fix/image-fetch-async-signals bec:fix/ide_view_23-12-25 bec:feature/shared_web_console bec:prototype/csaxs-testing bec:fix/theming-on-bec-designer bec:feat/status-bar bec:feat/diagnostic_view bec:feat/gradient-hover-util bec:fix/ide_view bec:refactor/icons_typing bec:feat/ads-profile-gui bec:fix/test-utils bec:feat/788_show_additional_info bec:feat/ads-profiles-location bec:fix/child-repo-flaky-atlas-test bec:feat/developer-view bec:improve-device-manager-view bec:help_inspector bec:fix/reenable_logpanel_in_menu bec:build/upgrade_pyside bec:prototype/dev-device-view-in-main-app bec:example/autohide-docks bec:feat/dm_manager_view_cleanup bec:feat/dm_manager_view_with_available_devices bec:feat/dm_manager_view bec:feat/available-devices-widget bec:fix/qthemes-safeslot-issue bec:feat/device_config/combine_devices_with_table bec:theme_comparison bec:feat/device_config/available_resources bec:scratch/device_manager bec:prototype/propety-manager bec:prototype/advanced-dock-area bec:feature/file_browser bec:feature/script_interface bec:fix/designer_sf_print_tidy bec:feature/monaco_editor bec:docs/waveform-ruleset bec:test/738_dockarea_freezing bec:feat/client-message-bar bec:feat/650_backup bec:fix/flag-for-running-scan bec:fix/image-widget-move-to-preview-endpoint bec:fix/logpanel_problems bec:feat/650_toggle_device_enable_l bec:ci/fix_build bec:ci/fix_coverage_report bec:docs/badges bec:fix/install_bec_server_in_ci bec:fix/waveform-async-multiple bec:build/ci_conda_e2e_change_docker_image bec:pre_release_v2 bec:fix/cleanup_error_of_dock_label bec:fix/ring_progress_bar_rings bec:fix/on_async_update_bug bec:feat/dap_task_widget bec:tests/add_e2e_test_gui_rpc bec:feature/auto_update_marker_launcher bec:fix/auto_updates_v2 bec:fix/rpc_reference_for_properties bec:test/end_2_end_tests bec:feat/bec-app-with-server bec:fix/exclude_duplicate_designer_plugin bec:fix/bec_server_branch_in_ci bec:fix/namespace_cleanup_for_dock_area bec:feat/bec-qapp bec:fix/dap-parameters-request bec:temp_store_rpc_broadcast bec:refactor/namespace bec:feature/rpc_broadcast bec:feature/acl_transfer bec:feat/next-gen-waveform bec:fix/logpanel-segfaults bec:tomcat/prototype bec:423-move-auto-update-to-gui-server bec:ci/update_ci_for_dep_check bec:feat/user_script_widget bec:410-missing-signal-for-prompt-and-to-catch-output-of-commands bec:fix/temp-dock bec:fix/temp-docks bec:fix/color-widget-menu-none-removed bec:fix/signal-line-edits-in-curve-dialog bec:refactor/colormap-selector-inheritance bec:fix/aligment-gui-layout bec:feature/designer_signal_proxy bec:refactor/bec_queue bec:ci/core_dump_upload bec:feat/error_message_popup_util bec:feature/device_control_line bec:feature/async_waveform bec:245-bec-status-box-for-designer-plugin bec:fix/refactoring_of_bec_status_box_MG bec:feat/motor-map-standalone bec:feat/ivans-plugins bec:feat/add_bec_device_box bec:feat/general-gui bec:240-add-vt100-console-executing-bec-as-a-widget-2 bec:feat/plugins bec:feature/status_indicator bec:docs/add_tutorial_for_start_scan_button bec:feat/bash-console bec:feat/alt-dock bec:feature/vscode bec:feat/dock_area bec:motor_control_hotfix bec:15-SIGTERM-demonstration bec:94-bec-figure-rpc-tests-fix bec:config_plotter_widgets
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136 Commits
v0.50.1 ... feat/bash-

Author SHA1 Message Date
wyzula-jan
4e52550f67 fix: import pyqtRemoveInputHook only for pyqt distributions 2024-06-12 14:32:15 +02:00
Mathias Guijarro
74182bb142 fix: terminal I/O based on socket notification instead of thread, fix "unexpected end of data" 2024-06-12 12:15:59 +02:00
wyzula-jan
2b5068903a feat(widgets/console): BECConsole based on termqt added 2024-06-12 12:15:55 +02:00
semantic-release
718950cf0d 0.62.0 
Automatically generated by python-semantic-release
 2024-06-12 10:01:48 +00:00
Mathias Guijarro
17a0068757 doc: add documentation about creating custom GUI applications embedding BEC Widgets 2024-06-12 11:54:47 +02:00
Mathias Guijarro
abc6caa2d0 feat: implement non-polling, interruptible waiting of gui instruction response with timeout 2024-06-12 11:43:08 +02:00
semantic-release
99fb82561b 0.61.0 
Automatically generated by python-semantic-release
 2024-06-12 06:27:41 +00:00
wyzula-jan
61ba08d0b8 feat(widgets/stop_button): General stop button added 2024-06-12 01:11:06 +02:00
appel_c
40b5688158 refactor: improve labe of auto_update script 2024-06-10 08:27:32 +02:00
semantic-release
0a4e253cbd 0.60.0 
Automatically generated by python-semantic-release
 2024-06-08 17:35:57 +00:00
wakonig_k
6428e38ab9 fix: removed BECConnector from rpc client interface 2024-06-08 19:05:57 +02:00
wakonig_k
fc4f4f81ad ci: added git fetch for target branch 2024-06-08 19:05:57 +02:00
wakonig_k
f6629852eb test: added missing pylint statement to header 2024-06-08 19:05:57 +02:00
wakonig_k
3adf6cfd58 refactor: minor cleanup 2024-06-08 19:05:57 +02:00
wakonig_k
b15816ca9f refactor: disabled pylint for auto-gen client 2024-06-08 19:05:57 +02:00
wakonig_k
6b1d5827d6 ci: fixed pylint-check 2024-06-08 19:05:57 +02:00
wakonig_k
f0391f59c9 feat: added isort to bw-generate-cli 2024-06-08 19:05:57 +02:00
wakonig_k
006a0894b8 fix: added bec_ipython_client as dependency; needed for jupyter widget 2024-06-08 19:05:57 +02:00
wakonig_k
9c5a471234 refactor(isort): added bec_widgets as known first party package 2024-06-08 19:05:57 +02:00
wakonig_k
1c7f4912ce feat: added entry point for bw-generate-cli 2024-06-08 19:05:57 +02:00
wakonig_k
df1be10057 feat(cli): auto-discover rpc-enabled widgets 2024-06-08 19:05:57 +02:00
wakonig_k
954c576131 fix(BECFigure): removed duplicated user access for plot 2024-06-08 19:05:57 +02:00
wakonig_k
867720a897 fix(bec_connector): field validator should be a classmethod 2024-06-08 19:05:57 +02:00
wyzula-jan
2b40602bdc refactor(dock): parent_dock_area changed to orig_area (native for pyqtgraph) 2024-06-08 16:00:45 +02:00
wakonig_k
11173b9c0a ci: cleanup 2024-06-08 08:54:08 +02:00
semantic-release
52d46e77db 0.59.1 
Automatically generated by python-semantic-release
 2024-06-07 23:24:10 +00:00
wyzula-jan
e7838b0f2f fix(curve): set_color_map_z typo fixed in user access 2024-06-08 01:17:13 +02:00
semantic-release
2ae3810cf6 0.59.0 
Automatically generated by python-semantic-release
 2024-06-07 20:47:10 +00:00
wakonig_k
178fe4d2da ci: merged additional tests to parallel matrix job 2024-06-07 22:37:24 +02:00
wakonig_k
2d79ef8fe5 ci: added webengine dependencies 2024-06-07 22:37:24 +02:00
wakonig_k
d56c5493cd build: added webengine dependency 2024-06-07 22:37:24 +02:00
wakonig_k
cf6e5a40fc docs: added website docs 2024-06-07 22:37:24 +02:00
wakonig_k
64abd67b9b feat(widget): added simple website widget with rpc 2024-06-07 22:37:24 +02:00
semantic-release
c19e856800 0.58.1 
Automatically generated by python-semantic-release
 2024-06-07 19:39:16 +00:00
wyzula-jan
02a26086c4 fix(dock): new dock can be detached upon creation 2024-06-07 21:32:38 +02:00
semantic-release
35f880bc2f 0.58.0 
Automatically generated by python-semantic-release
 2024-06-07 19:25:17 +00:00
wyzula-jan
c0ddeceeea test(color): validation tests added 2024-06-07 19:16:58 +02:00
wyzula-jan
67fd5e8581 fix: bar colormap dynamic setting 2024-06-07 18:52:37 +02:00
wyzula-jan
bf699ec1fb fix: formatting isort 2024-06-07 18:40:42 +02:00
wyzula-jan
3094632134 feat(utils.colors): general color validators 2024-06-07 18:34:57 +02:00
wyzula-jan
6985ff0fce fix(curve): 2D scatter updated if color_map_z is changed 2024-06-07 16:28:51 +02:00
wyzula-jan
33f7be42c5 fix(curve): color_map_z setting works 2024-06-07 16:28:51 +02:00
semantic-release
36fac70361 0.57.7 
Automatically generated by python-semantic-release
 2024-06-07 14:15:17 +00:00
appel_c
ca5e8d2fbb fix: add model_config to pydantic models to allow runtime checks after creation 2024-06-07 15:44:09 +02:00
wyzula-jan
828067f486 docs: added schema of BECDockArea and BECFigure 2024-06-06 20:14:47 +02:00
semantic-release
e5f4c0b952 0.57.6 
Automatically generated by python-semantic-release
 2024-06-06 18:05:05 +00:00
wyzula-jan
edb1775967 fix(bar): docstrings extended 2024-06-06 18:39:47 +02:00
semantic-release
d0d6908a74 0.57.5 
Automatically generated by python-semantic-release
 2024-06-06 16:01:55 +00:00
wyzula-jan
c037b87675 docs(figure): docs adjusted to be compatible with new signature 2024-06-06 17:54:41 +02:00
wyzula-jan
52bc322b2b refactor(figure): logic for .add_image and .image consolidated; logic for .add_plot and .plot consolidated 2024-06-06 17:54:41 +02:00
wyzula-jan
8479caf53a fix(waveform): added .plot method with the same signature as BECFigure.plot 2024-06-06 17:54:41 +02:00
wyzula-jan
82e2c898d2 fix(plot_base): .plot removed from plot_base.py, because there is no use case for it 2024-06-06 17:54:41 +02:00
semantic-release
4852076e4a 0.57.4 
Automatically generated by python-semantic-release
 2024-06-06 15:53:30 +00:00
wyzula-jan
15cbc21e5b fix(docks): set_title do update dock internal _name now 2024-06-06 16:01:27 +02:00
wyzula-jan
ffae5ee54e fix(docks): docks widget_list adn dockarea panels return values fixed 2024-06-06 16:01:27 +02:00
semantic-release
10d77f20d1 0.57.3 
Automatically generated by python-semantic-release
 2024-06-06 13:53:15 +00:00
wyzula-jan
4be0d14b74 docs(bar): docs updated 2024-06-06 13:56:10 +02:00
wyzula-jan
e883dbad81 fix(ring): automatic updates are disabled uf user specify updates manually with .set_update; 'scan_progres' do not reset number of rings 2024-06-06 13:56:10 +02:00
wyzula-jan
a2abad344f fix(ring): enable_auto_updates(True) do not reset properties of already setup bars 2024-06-06 13:56:10 +02:00
wyzula-jan
d44b1cf8b1 fix(ring): set_min_max accepts floats 2024-06-06 13:56:10 +02:00
wyzula-jan
c5b6499e41 fix(ring): set_update changed to Literals, no need to specify endpoint manually 2024-06-06 13:56:10 +02:00
wakonig_k
a951ebf1be docs: fixed syntax of add_widget 2024-06-06 12:30:40 +02:00
wakonig_k
32da803df9 docs: added auto update; closes #206 2024-06-06 12:26:34 +02:00
wakonig_k
07d60cf735 docs: cleanup 2024-06-06 12:26:34 +02:00
semantic-release
fceb851c32 0.57.2 
Automatically generated by python-semantic-release
 2024-06-06 10:24:04 +00:00
wyzula-jan
e1af5ca60f fix(test/e2e): autoupdate e2e rewritten 2024-06-06 12:16:03 +02:00
wyzula-jan
7fb31fc4d7 fix(test/e2e): spiral_progress_bar e2e tests rewritten to use config_dict 2024-06-06 12:16:02 +02:00
wyzula-jan
5c6ba65469 fix(test/e2e): dockarea and dock e2e tests changed to check asserts against config_dict 2024-06-06 12:09:24 +02:00
Mathias Guijarro
cd9fc46ff8 fix: rpc_server_dock fixture now spawns the server process 2024-06-06 12:09:24 +02:00
Mathias Guijarro
2a88e17b23 fix: accept scalars or numpy arrays of 1 element 2024-06-06 12:09:24 +02:00
Mathias Guijarro
69f4371007 refactor: move _get_output and _start_plot_process at the module level 2024-06-06 12:09:24 +02:00
semantic-release
af2c816d35 0.57.1 
Automatically generated by python-semantic-release
 2024-06-06 07:31:09 +00:00
wyzula-jan
f51b25f0af fix: tests references to add_widget_bec refactored 2024-06-06 00:13:05 +02:00
wyzula-jan
c3f4845b4f docs: docs refactored from add_widget_bec to add_widget 2024-06-06 00:10:13 +02:00
wyzula-jan
8ae323f5c3 fix(dock): add_widget and add_widget_bec consolidated 2024-06-06 00:06:11 +02:00
semantic-release
a3805a765b 0.57.0 
Automatically generated by python-semantic-release
 2024-06-05 15:14:01 +00:00
wyzula-jan
8c03034acf feat(widgets/console): BECJupyterConsole added 2024-06-05 16:41:44 +02:00
appel_c
4160f3d6d7 docs: extend user documentation for BEC Widgets 2024-06-05 16:30:29 +02:00
semantic-release
4742e1ff6a 0.56.3 
Automatically generated by python-semantic-release
 2024-06-05 14:26:41 +00:00
wakonig_k
4af1abe4e1 ci: increased verbosity for e2e tests 2024-06-05 13:47:27 +02:00
wakonig_k
131f49da8e fix: fixed support for auto updates 2024-06-05 13:47:27 +02:00
semantic-release
f9bf496bd3 0.56.2 
Automatically generated by python-semantic-release
 2024-06-05 10:41:50 +00:00
wyzula-jan
9648e3ea96 fix(bar): ring saves current value in config 2024-06-05 11:30:22 +02:00
wyzula-jan
4be756a867 fix(dock): dock saves configs of all children widgets 2024-06-05 11:07:14 +02:00
wyzula-jan
46face0ee5 fix(dock_area): save/restore state is saved in config 2024-06-05 11:01:31 +02:00
wyzula-jan
6f3b1ea985 fix(figure): added correct types of configs to subplot widgets 2024-06-05 10:47:50 +02:00
wakonig_k
3c9181d93d docs: restructured docs layout 2024-06-04 12:22:02 +02:00
semantic-release
a05f24785e 0.56.1 
Automatically generated by python-semantic-release
 2024-06-04 09:13:07 +00:00
wyzula-jan
9d615c915c fix(spiral_progress_bar/rings): config min/max values added check for floats 2024-06-04 10:56:53 +02:00
wyzula-jan
d2539918b2 fix(spiral_progress_bar): Endpoint is always stored as a string in the RingConnection Config 2024-06-04 10:56:53 +02:00
semantic-release
ed264cb528 0.56.0 
Automatically generated by python-semantic-release
 2024-05-29 22:03:10 +00:00
wyzula-jan
ad208a5ef8 docs(examples): example apps section deleted 2024-05-29 21:34:19 +02:00
wyzula-jan
ddc9510c2b fix(examples): outdated examples removed (mca_plot.py, stream_plot.py, motor_example.py) 2024-05-29 20:45:21 +02:00
wyzula-jan
855be3551a ci: added tests for pyside6, pyqt6 and pyqt5, default test and e2e is python 3.11 and pyqt6 2024-05-29 18:56:53 +02:00
wyzula-jan
db301b1be2 build: added pyside6 as dependency 2024-05-29 14:36:42 +02:00
wyzula-jan
07b99d91a5 fix: compatibility adjustment to .ui loading and tests for PySide6 2024-05-29 14:36:42 +02:00
wyzula-jan
0fea8d6065 feat(utils/ui_loader): universal ui loader for pyside/pyqt 2024-05-28 10:59:31 +02:00
semantic-release
2a67f1667a 0.55.0 
Automatically generated by python-semantic-release
 2024-05-24 12:05:40 +00:00
wyzula-jan
76bd0d339a feat(widgets/progressbar): SpiralProgressBar added with rpc interface 2024-05-24 13:59:10 +02:00
semantic-release
43759082dd 0.54.0 
Automatically generated by python-semantic-release
 2024-05-24 09:05:54 +00:00
wyzula-jan
fc4d0f3bb2 feat(figure): changes to support direct plot functionality 2024-05-24 10:50:00 +02:00
wakonig_k
a47a8ec413 build: added pyqt6 as sphinx build dependency 2024-05-23 11:43:48 +02:00
wyzula-jan
3455c60236 refactor(reconstruction): repository structure is changed to separate assets needed for each widget 2024-05-21 16:31:55 +02:00
wyzula-jan
edc25fbf9d refactor(clean-up): 1st generation widgets are removed 2024-05-21 16:31:55 +02:00
semantic-release
dc38f2308b 0.53.3 
Automatically generated by python-semantic-release
 2024-05-16 08:27:45 +00:00
wakonig_k
7d64cac661 fix: removed apparently unnecessary sleep while waiting for an rpc response 2024-05-15 14:14:25 +02:00
semantic-release
ab4f1acd75 0.53.2 
Automatically generated by python-semantic-release
 2024-05-15 10:39:21 +00:00
Mathias Guijarro
9f8fbdd5fc fix: check device class without importing to speed up initial import time 2024-05-15 10:10:14 +02:00
Mathias Guijarro
d1e6cd388c fix: speed up initial import times using lazy import (from bec_lib) 2024-05-15 10:10:14 +02:00
Mathias Guijarro
5d09a13d88 fix: adapt to bec_lib changes (no more submodules in __init__.py) 2024-05-15 10:10:14 +02:00
wakonig_k
0490e80c48 ci: added echo to highlight the current branch 2024-05-13 11:46:36 +02:00
semantic-release
48553ba9b1 0.53.1 
Automatically generated by python-semantic-release
 2024-05-09 18:58:27 +00:00
wakonig_k
0f6a5e5fa9 fix: docs config 2024-05-09 20:51:26 +02:00
wakonig_k
8ff36105d1 ci: fixed rtd pages url 2024-05-09 19:44:44 +02:00
semantic-release
ce78271af4 0.53.0 
Automatically generated by python-semantic-release
 2024-05-09 16:03:51 +00:00
wakonig_k
57ee735e5c docs: update install instructions 2024-05-09 14:53:57 +02:00
wakonig_k
32e1a9d847 fix: fixed semver job and upgraded to v9 2024-05-09 14:11:42 +02:00
wakonig_k
5cc816d0af ci: use formatter config of toml file 2024-05-09 11:29:42 +02:00
wakonig_k
4117fd7b5b refactor: applied formatter 2024-05-09 11:29:42 +02:00
wakonig_k
c86ce302a9 feat: moved to pyproject.toml; closes #162 2024-05-09 11:21:18 +02:00
semantic-release
c33ce05951 0.52.1 
Automatically generated by python-semantic-release
 2024-05-08 13:56:39 +00:00
wyzula-jan
7f2f7cd07a fix(docstrings): docstrings formating fixed for sphinx to properly format readdocs 2024-05-08 15:31:22 +02:00
semantic-release
1454f6192b 0.52.0 
Automatically generated by python-semantic-release
 2024-05-07 14:37:46 +00:00
wyzula-jan
ceae979f37 fix(widgets/dock): BECDockArea close overwrites the default pyqtgraph Container close + minor improvements 2024-05-07 16:31:12 +02:00
wyzula-jan
fcd6ef0975 feat(utils/layout_manager): added GridLayoutManager to extend functionalities of native QGridLayout 2024-05-07 16:30:21 +02:00
wyzula-jan
d8ff8afcd4 feat(widget/dock): BECDock and BECDock area for dockable windows 2024-05-07 16:30:21 +02:00
wyzula-jan
03fa1f26d0 refactor(widget/plots): WidgetConfig changed to SubplotConfig 2024-05-07 16:30:21 +02:00
wakonig_k
e65c7f3be8 ci: fixed support for child pipelines 2024-05-07 12:48:24 +02:00
semantic-release
20d6352351 0.51.0 
Automatically generated by python-semantic-release
 2024-05-07 10:13:25 +00:00
wakonig_k
5ece269adb feat(utils): added plugin helper to find and load 2024-05-07 12:10:53 +02:00
wakonig_k
e0851250ee ci: added rule for parent-child pipelines 2024-05-07 10:26:18 +02:00
wyzula-jan
799ea554de build(cli): changed repo name to bec_widgets 2024-05-06 16:00:46 +02:00
wyzula-jan
df323504fe build(setup): fakeredis added to dev env 2024-05-01 15:05:22 +02:00
wyzula-jan
0ab8aa3a2f build(setup): PyQt6 version is set to 6.7 2024-05-01 15:05:22 +02:00
semantic-release
dae8a3409a 0.50.2 
Automatically generated by python-semantic-release
 2024-04-30 16:08:47 +00:00
Mathias Guijarro
0dfcaa4b70 fix: 'disconnect_slot' has to be symmetric with 'connect_slot' regarding QtThreadSafeCallback 2024-04-30 17:27:02 +02:00
163 changed files with 8605 additions and 10857 deletions
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127
.gitlab-ci.yml
View File

@@ -1,18 +1,20 @@
# This file is a template, and might need editing before it works on your project.
# Official language image. Look for the different tagged releases at:
# https://hub.docker.com/r/library/python/tags/
image: $CI_DEPENDENCY_PROXY_GROUP_IMAGE_PREFIX/python:3.10
image: $CI_DEPENDENCY_PROXY_GROUP_IMAGE_PREFIX/python:3.11
#commands to run in the Docker container before starting each job.
variables:
DOCKER_TLS_CERTDIR: ""
BEC_CORE_BRANCH: "main"
OPHYD_DEVICES_BRANCH: "main"
CHILD_PIPELINE_BRANCH: $CI_DEFAULT_BRANCH
workflow:
rules:
- if: $CI_PIPELINE_SOURCE == "schedule"
- if: $CI_PIPELINE_SOURCE == "web"
- if: $CI_PIPELINE_SOURCE == "pipeline"
- if: $CI_PIPELINE_SOURCE == "parent_pipeline"
- if: $CI_PIPELINE_SOURCE == "merge_request_event"
- if: $CI_COMMIT_BRANCH && $CI_OPEN_MERGE_REQUESTS
when: never
@@ -21,7 +23,6 @@ workflow:
include:
- template: Security/Secret-Detection.gitlab-ci.yml
# different stages in the pipeline
stages:
- Formatter
@@ -30,19 +31,42 @@ stages:
- End2End
- Deploy
.install-qt-webengine-deps: &install-qt-webengine-deps
- apt-get -y install libnss3 libxdamage1 libasound2 libatomic1 libxcursor1
- export QTWEBENGINE_DISABLE_SANDBOX=1
.clone-repos: &clone-repos
- git clone --branch $BEC_CORE_BRANCH https://gitlab.psi.ch/bec/bec.git
- git clone --branch $OPHYD_DEVICES_BRANCH https://gitlab.psi.ch/bec/ophyd_devices.git
- export OHPYD_DEVICES_PATH=$PWD/ophyd_devices
.install-os-packages: &install-os-packages
- apt-get update
- apt-get install -y libgl1-mesa-glx libegl1-mesa x11-utils libxkbcommon-x11-0 libdbus-1-3
- *install-qt-webengine-deps
before_script:
- if [[ "$CI_PROJECT_PATH" != "bec/bec_widgets" ]]; then
echo -e "\033[35;1m Using branch $CHILD_PIPELINE_BRANCH of BEC Widgets \033[0;m";
test -d bec_widgets || git clone --branch $CHILD_PIPELINE_BRANCH https://gitlab.psi.ch/bec/bec_widgets.git; cd bec_widgets;
fi
formatter:
stage: Formatter
needs: []
script:
- pip install black isort
- isort --check --diff --line-length=100 --profile=black --multi-line=3 --trailing-comma ./
- black --check --diff --color --line-length=100 ./
- isort --check --diff ./
- black --check --diff --color ./
rules:
- if: $CI_PROJECT_PATH == "bec/bec_widgets"
pylint:
stage: Formatter
needs: []
before_script:
- pip install pylint pylint-exit anybadge
- pip install -e .[dev]
- pip install -e .[dev,pyqt6]
script:
- mkdir ./pylint
- pylint ./bec_widgets --output-format=text --output=./pylint/pylint.log | tee ./pylint/pylint.log || pylint-exit $?
@@ -53,6 +77,8 @@ pylint:
paths:
- ./pylint/
expire_in: 1 week
rules:
- if: $CI_PROJECT_PATH == "bec/bec_widgets"
pylint-check:
stage: Formatter
@@ -63,18 +89,21 @@ pylint-check:
- apt-get update
- apt-get install -y bc
script:
- git fetch origin $CI_MERGE_REQUEST_TARGET_BRANCH_NAME
# Identify changed Python files
- if [ "$CI_PIPELINE_SOURCE" == "merge_request_event" ]; then
TARGET_BRANCH_COMMIT_SHA=$(git rev-parse $CI_MERGE_REQUEST_TARGET_BRANCH_NAME);
CHANGED_FILES=$(git diff --name-only $SOURCE_BRANCH_COMMIT_SHA $TARGET_BRANCH_COMMIT_SHA | grep '\.py$' || true);
TARGET_BRANCH_COMMIT_SHA=$(git rev-parse origin/$CI_MERGE_REQUEST_TARGET_BRANCH_NAME);
CHANGED_FILES=$(git diff --name-only $TARGET_BRANCH_COMMIT_SHA HEAD | grep '\.py$' || true);
else
CHANGED_FILES=$(git diff --name-only $CI_COMMIT_BEFORE_SHA $CI_COMMIT_SHA | grep '\.py$' || true);
fi
- if [ -z "$CHANGED_FILES" ]; then echo "No Python files changed."; exit 0; fi
- echo "Changed Python files:"
- $CHANGED_FILES
# Run pylint only on changed files
- mkdir ./pylint
- pylint $CHANGED_FILES --output-format=text . | tee ./pylint/pylint_changed_files.log || pylint-exit $?
- pylint $CHANGED_FILES --output-format=text | tee ./pylint/pylint_changed_files.log || pylint-exit $?
- PYLINT_SCORE=$(sed -n 's/^Your code has been rated at \([-0-9.]*\)\/.*/\1/p' ./pylint/pylint_changed_files.log)
- echo "Pylint score is $PYLINT_SCORE"
@@ -84,6 +113,8 @@ pylint-check:
paths:
- ./pylint/
expire_in: 1 week
rules:
- if: $CI_PROJECT_PATH == "bec/bec_widgets"
tests:
stage: test
@@ -91,13 +122,11 @@ tests:
variables:
QT_QPA_PLATFORM: "offscreen"
script:
- git clone --branch $BEC_CORE_BRANCH https://gitlab.psi.ch/bec/bec.git
- git clone --branch $OPHYD_DEVICES_BRANCH https://gitlab.psi.ch/bec/ophyd_devices.git
- export OHPYD_DEVICES_PATH=$PWD/ophyd_devices
- apt-get update
- apt-get install -y libgl1-mesa-glx libegl1-mesa x11-utils libxkbcommon-x11-0 libdbus-1-3
- *clone-repos
- *install-os-packages
- pip install -e ./bec/bec_lib[dev]
- pip install -e .[dev]
- pip install -e ./bec/bec_ipython_client
- pip install -e .[dev,pyqt6]
- coverage run --source=./bec_widgets -m pytest -v --junitxml=report.xml --random-order --full-trace ./tests/unit_tests
- coverage report
- coverage xml
@@ -109,17 +138,32 @@ tests:
coverage_format: cobertura
path: coverage.xml
test-matrix:
parallel:
matrix:
- PYTHON_VERSION:
- "3.10"
- "3.11"
- "3.12"
QT_PCKG:
- "pyside6"
- "pyqt5"
- "pyqt6"
tests-3.11:
extends: "tests"
stage: AdditionalTests
image: $CI_DEPENDENCY_PROXY_GROUP_IMAGE_PREFIX/python:3.11
allow_failure: true
tests-3.12:
extends: "tests"
stage: AdditionalTests
image: $CI_DEPENDENCY_PROXY_GROUP_IMAGE_PREFIX/python:3.12
needs: []
variables:
QT_QPA_PLATFORM: "offscreen"
PYTHON_VERSION: ""
QT_PCKG: ""
image: $CI_DEPENDENCY_PROXY_GROUP_IMAGE_PREFIX/python:$PYTHON_VERSION
script:
- *clone-repos
- *install-os-packages
- pip install -e ./bec/bec_lib[dev]
- pip install -e ./bec/bec_ipython_client
- pip install -e .[dev,$QT_PCKG]
- pytest -v --junitxml=report.xml --random-order ./tests/unit_tests
allow_failure: true
end-2-end-conda:
@@ -130,29 +174,25 @@ end-2-end-conda:
variables:
QT_QPA_PLATFORM: "offscreen"
script:
- apt-get update
- apt-get install -y libgl1-mesa-glx libegl1-mesa x11-utils libxkbcommon-x11-0 libdbus-1-3
- *clone-repos
- *install-os-packages
- conda config --prepend channels conda-forge
- conda config --set channel_priority strict
- conda config --set always_yes yes --set changeps1 no
- conda create -q -n test-environment python=3.10
- conda create -q -n test-environment python=3.11
- conda init bash
- source ~/.bashrc
- conda activate test-environment
- git clone --branch $BEC_CORE_BRANCH https://gitlab.psi.ch/bec/bec.git
- git clone --branch $OPHYD_DEVICES_BRANCH https://gitlab.psi.ch/bec/ophyd_devices.git
- export OHPYD_DEVICES_PATH=$PWD/ophyd_devices
- cd ./bec
- source ./bin/install_bec_dev.sh -t
- pip install -e ./bec_lib[dev]
- pip install -e ./bec_ipython_client[dev]
- cd ../
- pip install -e .[dev]
- pip install -e .[dev,pyqt6]
- cd ./tests/end-2-end
- pytest --start-servers --flush-redis --random-order
- pytest -v --start-servers --flush-redis --random-order
artifacts:
when: on_failure
@@ -164,10 +204,10 @@ end-2-end-conda:
- if: '$CI_PIPELINE_SOURCE == "schedule"'
- if: '$CI_PIPELINE_SOURCE == "web"'
- if: '$CI_PIPELINE_SOURCE == "pipeline"'
- if: '$CI_PIPELINE_SOURCE == "parent_pipeline"'
- if: '$CI_MERGE_REQUEST_TARGET_BRANCH_NAME == "main"'
- if: '$CI_MERGE_REQUEST_TARGET_BRANCH_NAME == "production"'
semver:
stage: Deploy
needs: ["tests"]
@@ -182,20 +222,19 @@ semver:
- git fetch --tags
- git tag
# build
- pip install python-semantic-release==7.* wheel
# build and publish package
- pip install python-semantic-release==9.* wheel build twine
- export GL_TOKEN=$CI_UPDATES
- export REPOSITORY_USERNAME=__token__
- export REPOSITORY_PASSWORD=$CI_PYPI_TOKEN
- >
semantic-release publish -v DEBUG
-D version_variable=./setup.py:__version__
-D hvcs=gitlab
-D branch=main
- semantic-release -vv version
# check if any artifacts were created
- if [ ! -d dist ]; then echo No release will be made; exit 0; fi
- twine upload dist/* -u __token__ -p $CI_PYPI_TOKEN --skip-existing
- semantic-release publish
allow_failure: false
rules:
- if: '$CI_COMMIT_REF_NAME == "main"'
- if: '$CI_COMMIT_REF_NAME == "main" && $CI_PROJECT_PATH == "bec/bec_widgets"'
pages:
stage: Deploy
@@ -206,6 +245,6 @@ pages:
- if: '$CI_COMMIT_TAG != null'
variables:
TARGET_BRANCH: $CI_COMMIT_TAG
- if: '$CI_COMMIT_REF_NAME == "main"'
- if: '$CI_COMMIT_REF_NAME == "main" && $CI_PROJECT_PATH == "bec/bec_widgets"'
script:
- curl -X POST -d "branches=$CI_COMMIT_REF_NAME" -d "token=$RTD_TOKEN" https://readthedocs.org/api/v2/webhook/bec-widgets/253243/

1076
CHANGELOG.md
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15
README.md
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@@ -6,32 +6,33 @@ BEC Widgets is a GUI framework designed for interaction with [BEC (Beamline Expe
Use the package manager [pip](https://pip.pypa.io/en/stable/) to install BEC Widgets:
```bash
pip install bec-widgets
pip install bec_widgets PyQt6
```
For development purposes, you can clone the repository and install the package locally in editable mode:
```bash
git clone https://gitlab.psi.ch/bec/bec-widgets
cd bec-widgets
pip install -e .[dev]
cd bec_widgets
pip install -e .[dev,pyqt6]
```
BEC Widgets currently supports both PyQt5 and PyQt6. By default, PyQt6 is installed.
BEC Widgets currently supports both PyQt5 and PyQt6, however, no default distribution is specified. As a result, users must install one of the supported
Python Qt distributions manually.
To select a specific Python Qt distribution, install the package with an additional tag:
```bash
pip install bec-widgets[pyqt6]
pip install bec_widgets[pyqt6]
```
or
```bash
pip install bec-widgets[pyqt5]
pip install bec_widgets[pyqt5]
```
## Documentation
Documentation of BEC Widgets can be found [here](https://bec-widgets.readthedocs.io/en/latest/). The documentation of the BEC can be found [here](https://beamline-experiment-control.readthedocs.io/en/latest/).
Documentation of BEC Widgets can be found [here](https://bec-widgets.readthedocs.io/en/latest/). The documentation of the BEC can be found [here](https://bec.readthedocs.io/en/latest/).
## Contributing

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3
bec_widgets/cli/__init__.py
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@@ -1,2 +1 @@
from .auto_updates import AutoUpdates, ScanInfo
from .client import BECFigure
from .client import *

61
bec_widgets/cli/auto_updates.py
View File

@@ -5,7 +5,7 @@ from typing import TYPE_CHECKING
from pydantic import BaseModel
if TYPE_CHECKING:
from .client import BECFigure
from .client import BECDockArea, BECFigure
class ScanInfo(BaseModel):
@@ -15,12 +15,24 @@ class ScanInfo(BaseModel):
scan_report_devices: list
monitored_devices: list
status: str
model_config: dict = {"validate_assignment": True}
class AutoUpdates:
def __init__(self, figure: BECFigure, enabled: bool = True):
self.enabled = enabled
self.figure = figure
create_default_dock: bool = False
enabled: bool = False
dock_name: str = None
def __init__(self, gui: BECDockArea):
self.gui = gui
def start_default_dock(self):
"""
Create a default dock for the auto updates.
"""
dock = self.gui.add_dock("default_figure")
dock.add_widget("BECFigure")
self.dock_name = "default_figure"
@staticmethod
def get_scan_info(msg) -> ScanInfo:
@@ -44,6 +56,18 @@ class AutoUpdates:
status=status,
)
def get_default_figure(self) -> BECFigure | None:
"""
Get the default figure from the GUI.
"""
dock = self.gui.panels.get(self.dock_name, [])
if not dock:
return None
widgets = dock.widget_list
if not widgets:
return None
return widgets[0]
def run(self, msg):
"""
Run the update function if enabled.
@@ -86,33 +110,44 @@ class AutoUpdates:
"""
Simple line scan.
"""
fig = self.get_default_figure()
if not fig:
return
dev_x = info.scan_report_devices[0]
dev_y = self.get_selected_device(info.monitored_devices, self.figure.selected_device)
dev_y = self.get_selected_device(info.monitored_devices, self.gui.selected_device)
if not dev_y:
return
self.figure.clear_all()
plt = self.figure.plot(dev_x, dev_y)
fig.clear_all()
plt = fig.plot(x_name=dev_x, y_name=dev_y, label=f"Scan {info.scan_number} - {dev_y}")
plt.set(title=f"Scan {info.scan_number}", x_label=dev_x, y_label=dev_y)
def simple_grid_scan(self, info: ScanInfo) -> None:
"""
Simple grid scan.
"""
fig = self.get_default_figure()
if not fig:
return
dev_x = info.scan_report_devices[0]
dev_y = info.scan_report_devices[1]
dev_z = self.get_selected_device(info.monitored_devices, self.figure.selected_device)
self.figure.clear_all()
plt = self.figure.plot(dev_x, dev_y, dev_z, label=f"Scan {info.scan_number}")
dev_z = self.get_selected_device(info.monitored_devices, self.gui.selected_device)
fig.clear_all()
plt = fig.plot(
x_name=dev_x, y_name=dev_y, z_name=dev_z, label=f"Scan {info.scan_number} - {dev_z}"
)
plt.set(title=f"Scan {info.scan_number}", x_label=dev_x, y_label=dev_y)
def best_effort(self, info: ScanInfo) -> None:
"""
Best effort scan.
"""
fig = self.get_default_figure()
if not fig:
return
dev_x = info.scan_report_devices[0]
dev_y = self.get_selected_device(info.monitored_devices, self.figure.selected_device)
dev_y = self.get_selected_device(info.monitored_devices, self.gui.selected_device)
if not dev_y:
return
self.figure.clear_all()
plt = self.figure.plot(dev_x, dev_y, label=f"Scan {info.scan_number}")
fig.clear_all()
plt = fig.plot(x_name=dev_x, y_name=dev_y, label=f"Scan {info.scan_number} - {dev_y}")
plt.set(title=f"Scan {info.scan_number}", x_label=dev_x, y_label=dev_y)

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216
bec_widgets/cli/client_utils.py
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@@ -12,17 +12,24 @@ import uuid
from functools import wraps
from typing import TYPE_CHECKING
from bec_lib import MessageEndpoints, ServiceConfig, messages
from bec_lib.connector import MessageObject
from bec_lib.device import DeviceBase
from qtpy.QtCore import QCoreApplication
from bec_lib.endpoints import MessageEndpoints
from bec_lib.utils.import_utils import isinstance_based_on_class_name, lazy_import, lazy_import_from
from qtpy.QtCore import QEventLoop, QSocketNotifier, QTimer
import bec_widgets.cli.client as client
from bec_widgets.cli.auto_updates import AutoUpdates
from bec_widgets.utils.bec_dispatcher import BECDispatcher
if TYPE_CHECKING:
from bec_widgets.cli.client import BECFigure
from bec_lib.device import DeviceBase
from bec_widgets.cli.client import BECDockArea, BECFigure
from bec_lib.serialization import MsgpackSerialization
messages = lazy_import("bec_lib.messages")
# from bec_lib.connector import MessageObject
MessageObject = lazy_import_from("bec_lib.connector", ("MessageObject",))
BECDispatcher = lazy_import_from("bec_widgets.utils.bec_dispatcher", ("BECDispatcher",))
def rpc_call(func):
@@ -56,20 +63,67 @@ def rpc_call(func):
return wrapper
class BECFigureClientMixin:
def _get_output(process) -> None:
try:
os.set_blocking(process.stdout.fileno(), False)
os.set_blocking(process.stderr.fileno(), False)
while process.poll() is None:
readylist, _, _ = select.select([process.stdout, process.stderr], [], [], 1)
if process.stdout in readylist:
output = process.stdout.read(1024)
if output:
print(output, end="")
if process.stderr in readylist:
error_output = process.stderr.read(1024)
if error_output:
print(error_output, end="", file=sys.stderr)
except Exception as e:
print(f"Error reading process output: {str(e)}")
def _start_plot_process(gui_id, gui_class, config) -> None:
"""
Start the plot in a new process.
"""
# pylint: disable=subprocess-run-check
monitor_module = importlib.import_module("bec_widgets.cli.server")
monitor_path = monitor_module.__file__
command = [
sys.executable,
"-u",
monitor_path,
"--id",
gui_id,
"--config",
config,
"--gui_class",
gui_class.__name__,
]
process = subprocess.Popen(command, text=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
process_output_processing_thread = threading.Thread(target=_get_output, args=(process,))
process_output_processing_thread.start()
return process, process_output_processing_thread
class BECGuiClientMixin:
def __init__(self, **kwargs) -> None:
super().__init__(**kwargs)
self._process = None
self.update_script = self._get_update_script()
self._process_output_processing_thread = None
self.auto_updates = self._get_update_script()
self._target_endpoint = MessageEndpoints.scan_status()
self._selected_device = None
self.stderr_output = []
def _get_update_script(self) -> AutoUpdates:
def _get_update_script(self) -> AutoUpdates | None:
eps = imd.entry_points(group="bec.widgets.auto_updates")
for ep in eps:
if ep.name == "plugin_widgets_update":
return ep.load()(figure=self)
try:
return ep.load()(gui=self)
except Exception as e:
print(f"Error loading auto update script from plugin: {str(e)}")
return None
@property
@@ -81,7 +135,7 @@ class BECFigureClientMixin:
@selected_device.setter
def selected_device(self, device: str | DeviceBase):
if isinstance(device, DeviceBase):
if isinstance_based_on_class_name(device, "bec_lib.device.DeviceBase"):
self._selected_device = device.name
elif isinstance(device, str):
self._selected_device = device
@@ -94,8 +148,8 @@ class BECFigureClientMixin:
)
@staticmethod
def _handle_msg_update(msg: MessageObject, parent: BECFigureClientMixin) -> None:
if parent.update_script is not None:
def _handle_msg_update(msg: MessageObject, parent: BECGuiClientMixin) -> None:
if parent.auto_updates is not None:
# pylint: disable=protected-access
parent._update_script_msg_parser(msg.value)
@@ -103,14 +157,17 @@ class BECFigureClientMixin:
if isinstance(msg, messages.ScanStatusMessage):
if not self.gui_is_alive():
return
self.update_script.run(msg)
self.auto_updates.run(msg)
def show(self) -> None:
"""
Show the figure.
"""
if self._process is None or self._process.poll() is not None:
self._start_plot_process()
self._start_update_script()
self._process, self._process_output_processing_thread = _start_plot_process(
self._gui_id, self.__class__, self._client._service_config.redis
)
while not self.gui_is_alive():
print("Waiting for GUI to start...")
time.sleep(1)
@@ -130,23 +187,6 @@ class BECFigureClientMixin:
self._process = None
self._client.shutdown()
def _start_plot_process(self) -> None:
"""
Start the plot in a new process.
"""
self._start_update_script()
# pylint: disable=subprocess-run-check
config = self._client._service_config.redis
monitor_module = importlib.import_module("bec_widgets.cli.server")
monitor_path = monitor_module.__file__
command = [sys.executable, "-u", monitor_path, "--id", self._gui_id, "--config", config]
self._process = subprocess.Popen(
command, text=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE
)
self._process_output_processing_thread = threading.Thread(target=self._get_output)
self._process_output_processing_thread.start()
def print_log(self) -> None:
"""
Print the log of the plot process.
@@ -157,26 +197,6 @@ class BECFigureClientMixin:
# Flush list
self.stderr_output.clear()
def _get_output(self) -> str:
try:
os.set_blocking(self._process.stdout.fileno(), False)
os.set_blocking(self._process.stderr.fileno(), False)
while self._process.poll() is None:
readylist, _, _ = select.select(
[self._process.stdout, self._process.stderr], [], [], 1
)
if self._process.stdout in readylist:
output = self._process.stdout.read(1024)
if output:
print(output, end="")
if self._process.stderr in readylist:
error_output = self._process.stderr.read(1024)
if error_output:
print(error_output, end="", file=sys.stderr)
self.stderr_output.append(error_output)
except Exception as e:
print(f"Error reading process output: {str(e)}")
class RPCResponseTimeoutError(Exception):
"""Exception raised when an RPC response is not received within the expected time."""
@@ -187,6 +207,48 @@ class RPCResponseTimeoutError(Exception):
)
class QtRedisMessageWaiter:
def __init__(self, redis_connector, message_to_wait):
self.ev_loop = QEventLoop()
self.response = None
self.connector = redis_connector
self.message_to_wait = message_to_wait
self.pubsub = redis_connector._redis_conn.pubsub()
self.pubsub.subscribe(self.message_to_wait.endpoint)
fd = self.pubsub.connection._sock.fileno()
self.notifier = QSocketNotifier(fd, QSocketNotifier.Read)
self.notifier.activated.connect(self._pubsub_readable)
def _msg_received(self, msg_obj):
self.response = msg_obj.value
self.ev_loop.quit()
def wait(self, timeout=1):
timer = QTimer()
timer.singleShot(timeout * 1000, self.ev_loop.quit)
self.ev_loop.exec_()
timer.stop()
self.notifier.setEnabled(False)
self.pubsub.close()
return self.response
def _pubsub_readable(self, fd):
while True:
msg = self.pubsub.get_message()
if msg:
if msg["type"] == "subscribe":
# get_message buffers, so we may already have the answer
# let's check...
continue
else:
break
else:
return
channel = msg["channel"].decode()
msg = MessageObject(topic=channel, value=MsgpackSerialization.loads(msg["data"]))
self.connector._execute_callback(self._msg_received, msg, {})
class RPCBase:
def __init__(self, gui_id: str = None, config: dict = None, parent=None) -> None:
self._client = BECDispatcher().client
@@ -213,7 +275,7 @@ class RPCBase:
parent = parent._parent
return parent
def _run_rpc(self, method, *args, wait_for_rpc_response=True, **kwargs):
def _run_rpc(self, method, *args, wait_for_rpc_response=True, timeout=3, **kwargs):
"""
Run the RPC call.
@@ -235,16 +297,24 @@ class RPCBase:
# pylint: disable=protected-access
receiver = self._root._gui_id
if wait_for_rpc_response:
redis_msg = QtRedisMessageWaiter(
self._client.connector, MessageEndpoints.gui_instruction_response(request_id)
)
self._client.connector.set_and_publish(MessageEndpoints.gui_instructions(receiver), rpc_msg)
if not wait_for_rpc_response:
return None
response = self._wait_for_response(request_id)
# get class name
if not response.content["accepted"]:
raise ValueError(response.content["message"]["error"])
msg_result = response.content["message"].get("result")
return self._create_widget_from_msg_result(msg_result)
if wait_for_rpc_response:
response = redis_msg.wait(timeout)
if response is None:
raise RPCResponseTimeoutError(request_id, timeout)
# get class name
if not response.accepted:
raise ValueError(response.message["error"])
msg_result = response.message.get("result")
return self._create_widget_from_msg_result(msg_result)
def _create_widget_from_msg_result(self, msg_result):
if msg_result is None:
@@ -267,30 +337,6 @@ class RPCBase:
return cls(parent=self, **msg_result)
return msg_result
def _wait_for_response(self, request_id: str, timeout: int = 5):
"""
Wait for the response from the server.
Args:
request_id(str): The request ID.
timeout(int): The timeout in seconds.
Returns:
The response from the server.
"""
start_time = time.time()
response = None
while response is None and self.gui_is_alive() and (time.time() - start_time) < timeout:
response = self._client.connector.get(
MessageEndpoints.gui_instruction_response(request_id)
)
QCoreApplication.processEvents() # keep UI responsive (and execute signals/slots)
time.sleep(0.1)
if response is None and (time.time() - start_time) >= timeout:
raise RPCResponseTimeoutError(request_id, timeout)
return response
def gui_is_alive(self):
"""
Check if the GUI is alive.

154
bec_widgets/cli/generate_cli.py
View File

@@ -1,10 +1,18 @@
# pylint: disable=missing-module-docstring
from __future__ import annotations
import argparse
import importlib
import inspect
import os
import sys
from typing import Literal
import black
import isort
from qtpy.QtWidgets import QGraphicsWidget, QWidget
from bec_widgets.utils import BECConnector
if sys.version_info >= (3, 11):
from typing import get_overloads
@@ -14,48 +22,66 @@ else:
"If you want to use the real function 'typing.get_overloads()', please use Python 3.11 or later."
)
def get_overloads(obj):
# Dummy function for Python versions before 3.11
def get_overloads(_obj):
"""
Dummy function for Python versions before 3.11.
"""
return []
class ClientGenerator:
def __init__(self):
self.header = """# This file was automatically generated by generate_cli.py\n
from bec_widgets.cli.client_utils import rpc_call, RPCBase, BECFigureClientMixin
from typing import Literal, Optional, overload"""
import enum
from typing import Literal, Optional, overload
from bec_widgets.cli.client_utils import RPCBase, rpc_call, BECGuiClientMixin
# pylint: skip-file"""
self.content = ""
def generate_client(self, published_classes: list):
def generate_client(
self, published_classes: dict[Literal["connector_classes", "top_level_classes"], list[type]]
):
"""
Generate the client for the published classes.
Args:
published_classes(list): The list of published classes (e.g. [BECWaveform1D, BECFigure]).
published_classes(dict): A dictionary with keys "connector_classes" and "top_level_classes" and values as lists of classes.
"""
for cls in published_classes:
self.write_client_enum(published_classes["top_level_classes"])
for cls in published_classes["connector_classes"]:
self.content += "\n\n"
self.generate_content_for_class(cls)
def write_client_enum(self, published_classes: list[type]):
"""
Write the client enum to the content.
"""
self.content += """
class Widgets(str, enum.Enum):
\"\"\"
Enum for the available widgets.
\"\"\"
"""
for cls in published_classes:
self.content += f'{cls.__name__} = "{cls.__name__}"\n '
def generate_content_for_class(self, cls):
"""
Generate the content for the class.
Args:
cls: The class for which to generate the content.
"""
class_name = cls.__name__
module = cls.__module__
# Generate the header
# self.header += f"""
# from {module} import {class_name}"""
# Generate the content
if cls.__name__ == "BECFigure":
if cls.__name__ == "BECDockArea":
self.content += f"""
class {class_name}(RPCBase, BECFigureClientMixin):"""
class {class_name}(RPCBase, BECGuiClientMixin):"""
else:
self.content += f"""
class {class_name}(RPCBase):"""
@@ -100,31 +126,85 @@ class {class_name}(RPCBase):"""
except black.NothingChanged:
formatted_content = full_content
isort.Config(
profile="black",
line_length=100,
multi_line_output=3,
include_trailing_comma=True,
known_first_party=["bec_widgets"],
)
formatted_content = isort.code(formatted_content)
with open(file_name, "w", encoding="utf-8") as file:
file.write(formatted_content)
@staticmethod
def get_rpc_classes(
repo_name: str,
) -> dict[Literal["connector_classes", "top_level_classes"], list[type]]:
"""
Get all RPC-enabled classes in the specified repository.
Args:
repo_name(str): The name of the repository.
Returns:
dict: A dictionary with keys "connector_classes" and "top_level_classes" and values as lists of classes.
"""
connector_classes = []
top_level_classes = []
anchor_module = importlib.import_module(f"{repo_name}.widgets")
directory = os.path.dirname(anchor_module.__file__)
for root, _, files in sorted(os.walk(directory)):
for file in files:
if not file.endswith(".py") or file.startswith("__"):
continue
path = os.path.join(root, file)
subs = os.path.dirname(os.path.relpath(path, directory)).split("/")
if len(subs) == 1 and not subs[0]:
module_name = file.split(".")[0]
else:
module_name = ".".join(subs + [file.split(".")[0]])
module = importlib.import_module(f"{repo_name}.widgets.{module_name}")
for name in dir(module):
obj = getattr(module, name)
if not hasattr(obj, "__module__") or obj.__module__ != module.__name__:
continue
if isinstance(obj, type) and issubclass(obj, BECConnector):
connector_classes.append(obj)
if len(subs) == 1 and (
issubclass(obj, QWidget) or issubclass(obj, QGraphicsWidget)
):
top_level_classes.append(obj)
return {"connector_classes": connector_classes, "top_level_classes": top_level_classes}
def main():
"""
Main entry point for the script, controlled by command line arguments.
"""
parser = argparse.ArgumentParser(description="Auto-generate the client for RPC widgets")
parser.add_argument("--core", action="store_true", help="Whether to generate the core client")
args = parser.parse_args()
if args.core:
current_path = os.path.dirname(__file__)
client_path = os.path.join(current_path, "client.py")
rpc_classes = ClientGenerator.get_rpc_classes("bec_widgets")
rpc_classes["connector_classes"].sort(key=lambda x: x.__name__)
generator = ClientGenerator()
generator.generate_client(rpc_classes)
generator.write(client_path)
if __name__ == "__main__": # pragma: no cover
import os
from bec_widgets.utils import BECConnector
from bec_widgets.widgets.figure import BECFigure
from bec_widgets.widgets.plots import BECImageShow, BECMotorMap, BECPlotBase, BECWaveform
from bec_widgets.widgets.plots.image import BECImageItem
from bec_widgets.widgets.plots.waveform import BECCurve
current_path = os.path.dirname(__file__)
client_path = os.path.join(current_path, "client.py")
clss = [
BECPlotBase,
BECWaveform,
BECFigure,
BECCurve,
BECImageShow,
BECConnector,
BECImageItem,
BECMotorMap,
]
generator = ClientGenerator()
generator.generate_client(clss)
generator.write(client_path)
sys.argv = ["generate_cli.py", "--core"]
main()

4
bec_widgets/cli/rpc_register.py
View File

@@ -28,6 +28,7 @@ class RPCRegister:
def add_rpc(self, rpc: QObject):
"""
Add an RPC object to the register.
Args:
rpc(QObject): The RPC object to be added to the register.
"""
@@ -38,6 +39,7 @@ class RPCRegister:
def remove_rpc(self, rpc: str):
"""
Remove an RPC object from the register.
Args:
rpc(str): The RPC object to be removed from the register.
"""
@@ -48,6 +50,7 @@ class RPCRegister:
def get_rpc_by_id(self, gui_id: str) -> QObject:
"""
Get an RPC object by its ID.
Args:
gui_id(str): The ID of the RPC object to be retrieved.
@@ -60,6 +63,7 @@ class RPCRegister:
def list_all_connections(self) -> dict:
"""
List all the registered RPC objects.
Returns:
dict: A dictionary containing all the registered RPC objects.
"""

31
bec_widgets/cli/rpc_wigdet_handler.py Normal file
View File

@@ -0,0 +1,31 @@
from bec_widgets.utils import BECConnector
from bec_widgets.widgets.figure import BECFigure
from bec_widgets.widgets.spiral_progress_bar.spiral_progress_bar import SpiralProgressBar
from bec_widgets.widgets.website.website import WebsiteWidget
class RPCWidgetHandler:
"""Handler class for creating widgets from RPC messages."""
widget_classes = {
"BECFigure": BECFigure,
"SpiralProgressBar": SpiralProgressBar,
"Website": WebsiteWidget,
}
@staticmethod
def create_widget(widget_type, **kwargs) -> BECConnector:
"""
Create a widget from an RPC message.
Args:
widget_type(str): The type of the widget.
**kwargs: The keyword arguments for the widget.
Returns:
widget(BECConnector): The created widget.
"""
widget_class = RPCWidgetHandler.widget_classes.get(widget_type)
if widget_class:
return widget_class(**kwargs)
raise ValueError(f"Unknown widget type: {widget_type}")

54
bec_widgets/cli/server.py
View File

@@ -1,30 +1,36 @@
import inspect
import threading
import time
from typing import Union
from bec_lib import MessageEndpoints, messages
from bec_lib.endpoints import MessageEndpoints
from bec_lib.utils.import_utils import lazy_import
from qtpy.QtCore import QTimer
from bec_widgets.cli.rpc_register import RPCRegister
from bec_widgets.utils import BECDispatcher
from bec_widgets.utils.bec_connector import BECConnector
from bec_widgets.widgets.dock.dock_area import BECDockArea
from bec_widgets.widgets.figure import BECFigure
from bec_widgets.widgets.plots import BECCurve, BECImageShow, BECWaveform
messages = lazy_import("bec_lib.messages")
class BECWidgetsCLIServer:
WIDGETS = [BECWaveform, BECFigure, BECCurve, BECImageShow]
def __init__(
self, gui_id: str = None, dispatcher: BECDispatcher = None, client=None, config=None
self,
gui_id: str = None,
dispatcher: BECDispatcher = None,
client=None,
config=None,
gui_class: Union["BECFigure", "BECDockArea"] = BECFigure,
) -> None:
self.dispatcher = BECDispatcher(config=config) if dispatcher is None else dispatcher
self.client = self.dispatcher.client if client is None else client
self.client.start()
self.gui_id = gui_id
self.fig = BECFigure(gui_id=self.gui_id)
self.gui = gui_class(gui_id=self.gui_id)
self.rpc_register = RPCRegister()
self.rpc_register.add_rpc(self.fig)
self.rpc_register.add_rpc(self.gui)
self.dispatcher.connect_slot(
self.on_rpc_update, MessageEndpoints.gui_instructions(self.gui_id)
@@ -102,7 +108,7 @@ class BECWidgetsCLIServer:
expire=10,
)
def shutdown(self):
def shutdown(self): # TODO not sure if needed when cleanup is done at level of BECConnector
self._shutdown_event = True
self._heartbeat_timer.stop()
self.client.shutdown()
@@ -110,16 +116,20 @@ class BECWidgetsCLIServer:
if __name__ == "__main__": # pragma: no cover
import argparse
import os
import sys
from qtpy.QtCore import QSize
from qtpy.QtGui import QIcon
from qtpy.QtWidgets import QApplication, QMainWindow
import bec_widgets
app = QApplication(sys.argv)
app.setApplicationName("BEC Figure")
module_path = os.path.dirname(bec_widgets.__file__)
icon = QIcon()
icon.addFile("bec_widgets_icon.png", size=QSize(48, 48))
icon.addFile(os.path.join(module_path, "assets", "bec_widgets_icon.png"), size=QSize(48, 48))
app.setWindowIcon(icon)
win = QMainWindow()
@@ -127,15 +137,31 @@ if __name__ == "__main__": # pragma: no cover
parser = argparse.ArgumentParser(description="BEC Widgets CLI Server")
parser.add_argument("--id", type=str, help="The id of the server")
parser.add_argument(
"--gui_class",
type=str,
help="Name of the gui class to be rendered. Possible values: \n- BECFigure\n- BECDockArea",
)
parser.add_argument("--config", type=str, help="Config to connect to redis.")
args = parser.parse_args()
server = BECWidgetsCLIServer(gui_id=args.id, config=args.config)
# server = BECWidgetsCLIServer(gui_id="test",config="awi-bec-dev-01:6379")
if args.gui_class == "BECFigure":
gui_class = BECFigure
elif args.gui_class == "BECDockArea":
gui_class = BECDockArea
else:
print(
"Please specify a valid gui_class to run. Use -h for help."
"\n Starting with default gui_class BECFigure."
)
gui_class = BECFigure
fig = server.fig
win.setCentralWidget(fig)
server = BECWidgetsCLIServer(gui_id=args.id, config=args.config, gui_class=gui_class)
gui = server.gui
win.setCentralWidget(gui)
win.resize(800, 600)
win.show()
app.aboutToQuit.connect(server.shutdown)

307
bec_widgets/examples/eiger_plot/eiger_plot.py
View File

@@ -1,307 +0,0 @@
import json
import os
import threading
import h5py
import numpy as np
import pyqtgraph as pg
import zmq
from pyqtgraph.Qt import uic
from qtpy.QtCore import Signal as pyqtSignal
from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtGui import QKeySequence
from qtpy.QtWidgets import QDialog, QFileDialog, QFrame, QLabel, QShortcut, QVBoxLayout, QWidget
# from scipy.stats import multivariate_normal
class EigerPlot(QWidget):
update_signal = pyqtSignal()
def __init__(self, parent=None):
super().__init__(parent)
# pg.setConfigOptions(background="w", foreground="k", antialias=True)
current_path = os.path.dirname(__file__)
uic.loadUi(os.path.join(current_path, "eiger_plot.ui"), self)
# Set widow name
self.setWindowTitle("Eiger Plot")
self.hist_lims = None
self.mask = None
self.image = None
# UI
self.init_ui()
self.hook_signals()
self.key_bindings()
# ZMQ Consumer
self._zmq_consumer_exit_event = threading.Event()
self._zmq_consumer_thread = self.start_zmq_consumer()
def close(self):
super().close()
self._zmq_consumer_exit_event.set()
self._zmq_consumer_thread.join()
def init_ui(self):
# Create Plot and add ImageItem
self.plot_item = pg.PlotItem()
self.plot_item.setAspectLocked(True)
self.imageItem = pg.ImageItem()
self.plot_item.addItem(self.imageItem)
# Setting up histogram
self.hist = pg.HistogramLUTItem()
self.hist.setImageItem(self.imageItem)
self.hist.gradient.loadPreset("magma")
self.update_hist()
# Adding Items to Graphical Layout
self.glw.addItem(self.plot_item)
self.glw.addItem(self.hist)
def hook_signals(self):
# Buttons
# self.pushButton_test.clicked.connect(self.start_sim_stream)
self.pushButton_mask.clicked.connect(self.load_mask_dialog)
self.pushButton_delete_mask.clicked.connect(self.delete_mask)
self.pushButton_help.clicked.connect(self.show_help_dialog)
# SpinBoxes
self.doubleSpinBox_hist_min.valueChanged.connect(self.update_hist)
self.doubleSpinBox_hist_max.valueChanged.connect(self.update_hist)
# Signal/Slots
self.update_signal.connect(self.on_image_update)
def key_bindings(self):
# Key bindings for rotation
rotate_plus = QShortcut(QKeySequence("Ctrl+A"), self)
rotate_minus = QShortcut(QKeySequence("Ctrl+Z"), self)
self.comboBox_rotation.setToolTip("Increase rotation: Ctrl+A\nDecrease rotation: Ctrl+Z")
self.checkBox_transpose.setToolTip("Toggle transpose: Ctrl+T")
max_index = self.comboBox_rotation.count() - 1 # Maximum valid index
rotate_plus.activated.connect(
lambda: self.comboBox_rotation.setCurrentIndex(
min(self.comboBox_rotation.currentIndex() + 1, max_index)
)
)
rotate_minus.activated.connect(
lambda: self.comboBox_rotation.setCurrentIndex(
max(self.comboBox_rotation.currentIndex() - 1, 0)
)
)
# Key bindings for transpose
transpose = QShortcut(QKeySequence("Ctrl+T"), self)
transpose.activated.connect(self.checkBox_transpose.toggle)
FFT = QShortcut(QKeySequence("Ctrl+F"), self)
FFT.activated.connect(self.checkBox_FFT.toggle)
self.checkBox_FFT.setToolTip("Toggle FFT: Ctrl+F")
log = QShortcut(QKeySequence("Ctrl+L"), self)
log.activated.connect(self.checkBox_log.toggle)
self.checkBox_log.setToolTip("Toggle log: Ctrl+L")
mask = QShortcut(QKeySequence("Ctrl+M"), self)
mask.activated.connect(self.pushButton_mask.click)
self.pushButton_mask.setToolTip("Load mask: Ctrl+M")
delete_mask = QShortcut(QKeySequence("Ctrl+D"), self)
delete_mask.activated.connect(self.pushButton_delete_mask.click)
self.pushButton_delete_mask.setToolTip("Delete mask: Ctrl+D")
def update_hist(self):
self.hist_levels = [
self.doubleSpinBox_hist_min.value(),
self.doubleSpinBox_hist_max.value(),
]
self.hist.setLevels(min=self.hist_levels[0], max=self.hist_levels[1])
self.hist.setHistogramRange(
self.hist_levels[0] - 0.1 * self.hist_levels[0],
self.hist_levels[1] + 0.1 * self.hist_levels[1],
)
def load_mask_dialog(self):
options = QFileDialog.Options()
options |= QFileDialog.ReadOnly
file_name, _ = QFileDialog.getOpenFileName(
self, "Select Mask File", "", "H5 Files (*.h5);;All Files (*)", options=options
)
if file_name:
self.load_mask(file_name)
def load_mask(self, path):
try:
with h5py.File(path, "r") as f:
self.mask = f["data"][...]
if self.mask is not None:
# Set label to mask name without path
self.label_mask.setText(os.path.basename(path))
except KeyError as e:
# Update GUI with the error message
print(f"Error: {str(e)}")
def delete_mask(self):
self.mask = None
self.label_mask.setText("No Mask")
@pyqtSlot()
def on_image_update(self):
# TODO first rotate then transpose
if self.mask is not None:
# self.image = np.ma.masked_array(self.image, mask=self.mask) #TODO test if np works
self.image = self.image * (1 - self.mask) + 1
if self.checkBox_FFT.isChecked():
self.image = np.abs(np.fft.fftshift(np.fft.fft2(self.image)))
if self.comboBox_rotation.currentIndex() > 0: # rotate
self.image = np.rot90(self.image, k=self.comboBox_rotation.currentIndex(), axes=(0, 1))
if self.checkBox_transpose.isChecked(): # transpose
self.image = np.transpose(self.image)
if self.checkBox_log.isChecked():
self.image = np.log10(self.image)
self.imageItem.setImage(self.image, autoLevels=False)
###############################
# ZMQ Consumer
###############################
def start_zmq_consumer(self):
consumer_thread = threading.Thread(
target=self.zmq_consumer, args=(self._zmq_consumer_exit_event,), daemon=True
)
consumer_thread.start()
return consumer_thread
def zmq_consumer(self, exit_event):
print("starting consumer")
live_stream_url = "tcp://129.129.95.38:20000"
receiver = zmq.Context().socket(zmq.SUB)
receiver.connect(live_stream_url)
receiver.setsockopt_string(zmq.SUBSCRIBE, "")
poller = zmq.Poller()
poller.register(receiver, zmq.POLLIN)
# code could be a bit simpler here, testing exit_event in
# 'while' condition, but like this it is easier for the
# 'test_zmq_consumer' test
while True:
if poller.poll(1000): # 1s timeout
raw_meta, raw_data = receiver.recv_multipart(zmq.NOBLOCK)
meta = json.loads(raw_meta.decode("utf-8"))
self.image = np.frombuffer(raw_data, dtype=meta["type"]).reshape(meta["shape"])
self.update_signal.emit()
if exit_event.is_set():
break
receiver.disconnect(live_stream_url)
###############################
# just simulations from here
###############################
def show_help_dialog(self):
dialog = QDialog(self)
dialog.setWindowTitle("Help")
layout = QVBoxLayout()
# Key bindings section
layout.addWidget(QLabel("Keyboard Shortcuts:"))
key_bindings = [
("Ctrl+A", "Increase rotation"),
("Ctrl+Z", "Decrease rotation"),
("Ctrl+T", "Toggle transpose"),
("Ctrl+F", "Toggle FFT"),
("Ctrl+L", "Toggle log scale"),
("Ctrl+M", "Load mask"),
("Ctrl+D", "Delete mask"),
]
for keys, action in key_bindings:
layout.addWidget(QLabel(f"{keys} - {action}"))
# Separator
separator = QFrame()
separator.setFrameShape(QFrame.HLine)
separator.setFrameShadow(QFrame.Sunken)
layout.addWidget(separator)
# Histogram section
layout.addWidget(QLabel("Histogram:"))
layout.addWidget(
QLabel(
"Use the Double Spin Boxes to adjust the minimum and maximum values of the histogram."
)
)
# Another Separator
another_separator = QFrame()
another_separator.setFrameShape(QFrame.HLine)
another_separator.setFrameShadow(QFrame.Sunken)
layout.addWidget(another_separator)
# Mask section
layout.addWidget(QLabel("Mask:"))
layout.addWidget(
QLabel(
"Use 'Load Mask' to load a mask from an H5 file. 'Delete Mask' removes the current mask."
)
)
dialog.setLayout(layout)
dialog.exec()
###############################
# just simulations from here
###############################
# def start_sim_stream(self):
# sim_stream_thread = threading.Thread(target=self.sim_stream, daemon=True)
# sim_stream_thread.start()
#
# def sim_stream(self):
# for i in range(100):
# # Generate 100x100 image of random noise
# self.image = np.random.rand(100, 100) * 0.2
#
# # Define Gaussian parameters
# x, y = np.mgrid[0:50, 0:50]
# pos = np.dstack((x, y))
#
# # Center at (25, 25) longer along y-axis
# rv = multivariate_normal(mean=[25, 25], cov=[[25, 0], [0, 80]])
#
# # Generate Gaussian in the first quadrant
# gaussian_quadrant = rv.pdf(pos) * 40
#
# # Place Gaussian in the first quadrant
# self.image[0:50, 0:50] += gaussian_quadrant * 10
#
# self.update_signal.emit()
# time.sleep(0.1)
if __name__ == "__main__":
import sys
from qtpy.QtWidgets import QApplication
app = QApplication(sys.argv)
plot = EigerPlot()
plot.show()
sys.exit(app.exec())

207
bec_widgets/examples/eiger_plot/eiger_plot.ui
View File

@@ -1,207 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<ui version="4.0">
<class>Form</class>
<widget class="QWidget" name="Form">
<property name="geometry">
<rect>
<x>0</x>
<y>0</y>
<width>874</width>
<height>762</height>
</rect>
</property>
<property name="windowTitle">
<string>Form</string>
</property>
<layout class="QVBoxLayout" name="verticalLayout_2">
<item>
<layout class="QHBoxLayout" name="horizontalLayout">
<item>
<widget class="QGroupBox" name="groupBox">
<property name="title">
<string>Plot Control</string>
</property>
<layout class="QGridLayout" name="gridLayout">
<item row="0" column="0">
<widget class="QLabel" name="label">
<property name="text">
<string>Histogram MIN</string>
</property>
</widget>
</item>
<item row="0" column="1">
<widget class="QDoubleSpinBox" name="doubleSpinBox_hist_min">
<property name="minimum">
<double>-100000.000000000000000</double>
</property>
<property name="maximum">
<double>100000.000000000000000</double>
</property>
</widget>
</item>
<item row="1" column="0">
<widget class="QLabel" name="label_2">
<property name="text">
<string>Histogram MAX</string>
</property>
</widget>
</item>
<item row="1" column="1">
<widget class="QDoubleSpinBox" name="doubleSpinBox_hist_max">
<property name="minimum">
<double>-100000.000000000000000</double>
</property>
<property name="maximum">
<double>100000.000000000000000</double>
</property>
<property name="value">
<double>2.000000000000000</double>
</property>
</widget>
</item>
</layout>
</widget>
</item>
<item>
<widget class="QGroupBox" name="groupBox_2">
<property name="title">
<string>Data Control</string>
</property>
<layout class="QVBoxLayout" name="verticalLayout">
<item>
<widget class="QCheckBox" name="checkBox_FFT">
<property name="enabled">
<bool>true</bool>
</property>
<property name="text">
<string>FFT</string>
</property>
</widget>
</item>
<item>
<widget class="QCheckBox" name="checkBox_log">
<property name="text">
<string>log</string>
</property>
</widget>
</item>
<item>
<widget class="QPushButton" name="pushButton_mask">
<property name="text">
<string>Load Mask</string>
</property>
</widget>
</item>
<item>
<widget class="QPushButton" name="pushButton_delete_mask">
<property name="text">
<string>Delete Mask</string>
</property>
</widget>
</item>
</layout>
</widget>
</item>
<item>
<widget class="QGroupBox" name="groupBox_3">
<property name="title">
<string>Orientation</string>
</property>
<layout class="QGridLayout" name="gridLayout_2">
<item row="2" column="1">
<widget class="QComboBox" name="comboBox_rotation">
<item>
<property name="text">
<string>0</string>
</property>
</item>
<item>
<property name="text">
<string>90</string>
</property>
</item>
<item>
<property name="text">
<string>180</string>
</property>
</item>
<item>
<property name="text">
<string>270</string>
</property>
</item>
</widget>
</item>
<item row="2" column="0">
<widget class="QLabel" name="label_3">
<property name="text">
<string>Rotation</string>
</property>
</widget>
</item>
<item row="0" column="0" colspan="2">
<widget class="QCheckBox" name="checkBox_transpose">
<property name="text">
<string>Transpose</string>
</property>
</widget>
</item>
</layout>
</widget>
</item>
<item>
<widget class="QGroupBox" name="groupBox_4">
<property name="title">
<string>Help</string>
</property>
<layout class="QVBoxLayout" name="verticalLayout_3">
<item>
<widget class="QLabel" name="label_mask">
<property name="text">
<string>No Mask</string>
</property>
<property name="alignment">
<set>Qt::AlignCenter</set>
</property>
</widget>
</item>
<item>
<widget class="QPushButton" name="pushButton_help">
<property name="text">
<string>Help</string>
</property>
</widget>
</item>
</layout>
</widget>
</item>
<item>
<spacer name="horizontalSpacer">
<property name="orientation">
<enum>Qt::Horizontal</enum>
</property>
<property name="sizeHint" stdset="0">
<size>
<width>40</width>
<height>20</height>
</size>
</property>
</spacer>
</item>
</layout>
</item>
<item>
<widget class="GraphicsLayoutWidget" name="glw"/>
</item>
</layout>
</widget>
<customwidgets>
<customwidget>
<class>GraphicsLayoutWidget</class>
<extends>QGraphicsView</extends>
<header>pyqtgraph.h</header>
</customwidget>
</customwidgets>
<resources/>
<connections/>
</ui>

140
bec_widgets/examples/jupyter_console/jupyter_console_window.py
View File

@@ -2,31 +2,32 @@ import os
import numpy as np
import pyqtgraph as pg
from pyqtgraph.Qt import uic
import qdarktheme
from qtconsole.inprocess import QtInProcessKernelManager
from qtconsole.rich_jupyter_widget import RichJupyterWidget
from qtpy.QtCore import QSize
from qtpy.QtGui import QIcon
from qtpy.QtWidgets import QApplication, QVBoxLayout, QWidget
from bec_widgets.cli.rpc_register import RPCRegister
from bec_widgets.utils import BECDispatcher
from bec_widgets.utils import BECDispatcher, UILoader
from bec_widgets.widgets import BECFigure
from bec_widgets.widgets.dock.dock_area import BECDockArea
from bec_widgets.widgets.jupyter_console.jupyter_console import BECJupyterConsole
class JupyterConsoleWidget(RichJupyterWidget): # pragma: no cover:
def __init__(self):
super().__init__()
self.kernel_manager = QtInProcessKernelManager()
self.kernel_manager.start_kernel(show_banner=False)
self.kernel_client = self.kernel_manager.client()
self.kernel_client.start_channels()
self.kernel_manager.kernel.shell.push({"np": np, "pg": pg})
# self.set_console_font_size(70)
def shutdown_kernel(self):
self.kernel_client.stop_channels()
self.kernel_manager.shutdown_kernel()
# class JupyterConsoleWidget(RichJupyterWidget): # pragma: no cover:
# def __init__(self):
# super().__init__()
#
# self.kernel_manager = QtInProcessKernelManager()
# self.kernel_manager.start_kernel(show_banner=False)
# self.kernel_client = self.kernel_manager.client()
# self.kernel_client.start_channels()
#
# self.kernel_manager.kernel.shell.push({"np": np, "pg": pg})
#
# def shutdown_kernel(self):
# self.kernel_client.stop_channels()
# self.kernel_manager.shutdown_kernel()
class JupyterConsoleWindow(QWidget): # pragma: no cover:
@@ -36,49 +37,59 @@ class JupyterConsoleWindow(QWidget): # pragma: no cover:
super().__init__(parent)
current_path = os.path.dirname(__file__)
uic.loadUi(os.path.join(current_path, "jupyter_console_window.ui"), self)
self.ui = UILoader().load_ui(os.path.join(current_path, "jupyter_console_window.ui"), self)
self._init_ui()
self.splitter.setSizes([200, 100])
self.ui.splitter.setSizes([200, 100])
self.safe_close = False
# self.figure.clean_signal.connect(self.confirm_close)
self.register = RPCRegister()
self.register.add_rpc(self.figure)
print("Registered objects:", dict(self.register.list_all_connections()))
# console push
self.console.kernel_manager.kernel.shell.push(
{
"fig": self.figure,
"register": self.register,
"w1": self.w1,
"w2": self.w2,
"w3": self.w3,
"bec": self.figure.client,
"scans": self.figure.client.scans,
"dev": self.figure.client.device_manager.devices,
}
)
if self.console.inprocess is True:
self.console.kernel_manager.kernel.shell.push(
{
"np": np,
"pg": pg,
"fig": self.figure,
"dock": self.dock,
"w1": self.w1,
"w2": self.w2,
"w3": self.w3,
"d0": self.d0,
"d1": self.d1,
"d2": self.d2,
"fig0": self.fig0,
"fig1": self.fig1,
"fig2": self.fig2,
"bar": self.bar,
}
)
def _init_ui(self):
# Plotting window
self.glw_1_layout = QVBoxLayout(self.glw) # Create a new QVBoxLayout
self.glw_1_layout = QVBoxLayout(self.ui.glw) # Create a new QVBoxLayout
self.figure = BECFigure(parent=self, gui_id="remote") # Create a new BECDeviceMonitor
self.glw_1_layout.addWidget(self.figure) # Add BECDeviceMonitor to the layout
self.dock_layout = QVBoxLayout(self.ui.dock_placeholder)
self.dock = BECDockArea(gui_id="remote")
self.dock_layout.addWidget(self.dock)
# add stuff to figure
self._init_figure()
self.console_layout = QVBoxLayout(self.widget_console)
self.console = JupyterConsoleWidget()
# init dock for testing
self._init_dock()
self.console_layout = QVBoxLayout(self.ui.widget_console)
self.console = BECJupyterConsole(inprocess=True)
self.console_layout.addWidget(self.console)
self.console.set_default_style("linux")
def _init_figure(self):
self.figure.plot("samx", "bpm4d")
self.figure.plot(x_name="samx", y_name="samy", z_name="bpm4i", color_map_z="cividis")
self.figure.motor_map("samx", "samy")
self.figure.image("eiger", color_map="viridis", vrange=(0, 100))
self.figure.add_plot(x_name="samx", y_name="samy", z_name="bpm4i", color_map_z="magma")
self.figure.change_layout(2, 2)
@@ -87,21 +98,58 @@ class JupyterConsoleWindow(QWidget): # pragma: no cover:
self.w3 = self.figure[1, 0]
# curves for w1
self.w1.add_curve_scan("samx", "samy", "bpm4i", pen_style="dash")
self.w1.add_curve_scan("samx", "samy", "bpm3a", pen_style="dash")
self.c1 = self.w1.get_config()
def _init_dock(self):
self.d0 = self.dock.add_dock(name="dock_0")
self.fig0 = self.d0.add_widget("BECFigure")
data = np.random.rand(10, 2)
self.fig0.plot(data, label="2d Data")
self.fig0.image("eiger", vrange=(0, 100))
self.d1 = self.dock.add_dock(name="dock_1", position="right")
self.fig1 = self.d1.add_widget("BECFigure")
self.fig1.plot(x_name="samx", y_name="bpm4i")
self.fig1.plot(x_name="samx", y_name="bpm3a")
self.d2 = self.dock.add_dock(name="dock_2", position="bottom")
self.fig2 = self.d2.add_widget("BECFigure", row=0, col=0)
self.fig2.plot(x_name="samx", y_name="bpm4i")
self.bar = self.d2.add_widget("SpiralProgressBar", row=0, col=1)
self.bar.set_diameter(200)
self.dock.save_state()
def closeEvent(self, event):
"""Override to handle things when main window is closed."""
self.dock.cleanup()
self.figure.clear_all()
self.figure.client.shutdown()
super().closeEvent(event)
if __name__ == "__main__": # pragma: no cover
import sys
import bec_widgets
module_path = os.path.dirname(bec_widgets.__file__)
app = QApplication(sys.argv)
app.setApplicationName("Jupyter Console")
app.setApplicationDisplayName("Jupyter Console")
qdarktheme.setup_theme("auto")
icon = QIcon()
icon.addFile(os.path.join(module_path, "assets", "terminal_icon.png"), size=QSize(48, 48))
app.setWindowIcon(icon)
bec_dispatcher = BECDispatcher()
client = bec_dispatcher.client
client.start()
app = QApplication(sys.argv)
app.setApplicationName("Jupyter Console")
win = JupyterConsoleWindow()
win.show()
app.aboutToQuit.connect(win.close)
sys.exit(app.exec_())

28
bec_widgets/examples/jupyter_console/jupyter_console_window.ui
View File

@@ -13,13 +13,37 @@
<property name="windowTitle">
<string>Plotting Console</string>
</property>
<layout class="QVBoxLayout" name="verticalLayout">
<layout class="QVBoxLayout" name="verticalLayout_4">
<item>
<widget class="QSplitter" name="splitter">
<property name="orientation">
<enum>Qt::Horizontal</enum>
</property>
<widget class="QWidget" name="glw" native="true"/>
<widget class="QTabWidget" name="tabWidget">
<property name="currentIndex">
<number>0</number>
</property>
<widget class="QWidget" name="tab_1">
<attribute name="title">
<string>BECDock</string>
</attribute>
<layout class="QVBoxLayout" name="verticalLayout">
<item>
<widget class="QWidget" name="dock_placeholder" native="true"/>
</item>
</layout>
</widget>
<widget class="QWidget" name="tab_2">
<attribute name="title">
<string>BECFigure</string>
</attribute>
<layout class="QVBoxLayout" name="verticalLayout_3">
<item>
<widget class="QWidget" name="glw" native="true"/>
</item>
</layout>
</widget>
</widget>
<widget class="QWidget" name="widget_console" native="true"/>
</widget>
</item>

158
bec_widgets/examples/mca_readout/mca_plot.py
View File

@@ -1,158 +0,0 @@
# import simulation_progress as SP
import numpy as np
import pyqtgraph as pg
from bec_lib import MessageEndpoints, messages
from qtpy.QtCore import Signal as pyqtSignal
from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtWidgets import QApplication, QVBoxLayout, QWidget
class StreamApp(QWidget):
update_signal = pyqtSignal()
new_scan_id = pyqtSignal(str)
def __init__(self, device, sub_device):
super().__init__()
pg.setConfigOptions(background="w", foreground="k")
self.init_ui()
self.setWindowTitle("MCA readout")
self.data = None
self.scan_id = None
self.stream_consumer = None
self.device = device
self.sub_device = sub_device
self.start_device_consumer()
# self.start_device_consumer(self.device) # for simulation
self.new_scan_id.connect(self.create_new_stream_consumer)
self.update_signal.connect(self.plot_new)
def init_ui(self):
# Create layout and add widgets
self.layout = QVBoxLayout()
self.setLayout(self.layout)
# Create plot
self.glw = pg.GraphicsLayoutWidget()
self.layout.addWidget(self.glw)
# Create Plot and add ImageItem
self.plot_item = pg.PlotItem()
self.plot_item.setAspectLocked(False)
self.imageItem = pg.ImageItem()
# self.plot_item1D = pg.PlotItem()
# self.plot_item.addItem(self.imageItem)
# self.plot_item.addItem(self.plot_item1D)
# Setting up histogram
# self.hist = pg.HistogramLUTItem()
# self.hist.setImageItem(self.imageItem)
# self.hist.gradient.loadPreset("magma")
# self.update_hist()
# Adding Items to Graphical Layout
self.glw.addItem(self.plot_item)
# self.glw.addItem(self.hist)
@pyqtSlot(str)
def create_new_stream_consumer(self, scan_id: str):
print(f"Creating new stream consumer for scan_id: {scan_id}")
self.connect_stream_consumer(scan_id, self.device)
def connect_stream_consumer(self, scan_id, device):
if self.stream_consumer is not None:
self.stream_consumer.shutdown()
self.stream_consumer = connector.stream_consumer(
topics=MessageEndpoints.device_async_readback(scan_id=scan_id, device=device),
cb=self._streamer_cb,
parent=self,
)
self.stream_consumer.start()
def start_device_consumer(self):
self.device_consumer = connector.consumer(
topics=MessageEndpoints.scan_status(), cb=self._device_cv, parent=self
)
self.device_consumer.start()
# def start_device_consumer(self, device): #for simulation
# self.device_consumer = connector.consumer(
# topics=MessageEndpoints.device_status(device), cb=self._device_cv, parent=self
# )
#
# self.device_consumer.start()
def plot_new(self):
print(f"Printing data from plot update: {self.data}")
self.plot_item.plot(self.data[0])
# self.imageItem.setImage(self.data, autoLevels=False)
@staticmethod
def _streamer_cb(msg, *, parent, **_kwargs) -> None:
msgMCS = msg.value
print(msgMCS)
row = msgMCS.content["signals"][parent.sub_device]
metadata = msgMCS.metadata
# Check if the current number of rows is odd
# if parent.data is not None and parent.data.shape[0] % 2 == 1:
# row = np.flip(row) # Flip the row
print(f"Printing data from callback update: {row}")
parent.data = np.array([row])
# if parent.data is None:
# parent.data = np.array([row])
# else:
# parent.data = np.vstack((parent.data, row))
parent.update_signal.emit()
@staticmethod
def _device_cv(msg, *, parent, **_kwargs) -> None:
print("Getting ScanID")
msgDEV = msg.value
current_scan_id = msgDEV.content["scan_id"]
if parent.scan_id is None:
parent.scan_id = current_scan_id
parent.new_scan_id.emit(current_scan_id)
print(f"New scan_id: {current_scan_id}")
if current_scan_id != parent.scan_id:
parent.scan_id = current_scan_id
# parent.data = None
# parent.imageItem.clear()
parent.new_scan_id.emit(current_scan_id)
print(f"New scan_id: {current_scan_id}")
if __name__ == "__main__":
import argparse
from bec_lib import RedisConnector
parser = argparse.ArgumentParser(description="Stream App.")
parser.add_argument("--port", type=str, default="pc15543:6379", help="Port for RedisConnector")
parser.add_argument("--device", type=str, default="mcs", help="Device name")
parser.add_argument("--sub_device", type=str, default="mca4", help="Sub-device name")
args = parser.parse_args()
connector = RedisConnector(args.port)
app = QApplication([])
streamApp = StreamApp(device=args.device, sub_device=args.sub_device)
streamApp.show()
app.exec()

26
bec_widgets/examples/mca_readout/mca_sim.py
View File

@@ -1,26 +0,0 @@
import time
from bec_lib import MessageEndpoints, RedisConnector, messages
connector = RedisConnector("localhost:6379")
metadata = {}
scan_id = "ScanID1"
metadata.update(
{"scan_id": scan_id, "async_update": "append"} # this will be different for each scan
)
for ii in range(20):
data = {"mca1": [1, 2, 3, 4, 5, 6, 7, 8, 9, 10], "mca2": [10, 9, 8, 7, 6, 5, 4, 3, 2, 1]}
msg = messages.DeviceMessage(signals=data, metadata=metadata).dumps()
connector.xadd(
topic=MessageEndpoints.device_async_readback(
scan_id=scan_id, device="mca"
), # scan_id will be different for each scan
msg={"data": msg}, # TODO should be msg_dict
expire=1800,
)
print(f"Sent {ii}")
time.sleep(0.5)

92
bec_widgets/examples/modular_app/modular.ui
View File

@@ -1,92 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<ui version="4.0">
<class>MainWindow</class>
<widget class="QMainWindow" name="MainWindow">
<property name="geometry">
<rect>
<x>0</x>
<y>0</y>
<width>1433</width>
<height>689</height>
</rect>
</property>
<property name="windowTitle">
<string>MainWindow</string>
</property>
<widget class="QWidget" name="centralwidget">
<layout class="QGridLayout" name="gridLayout">
<item row="1" column="2">
<widget class="QLabel" name="label_3">
<property name="text">
<string>Plot Config 2</string>
</property>
</widget>
</item>
<item row="3" column="0" colspan="2">
<widget class="BECMonitor" name="plot_1"/>
</item>
<item row="1" column="3">
<widget class="QPushButton" name="pushButton_setting_2">
<property name="text">
<string>Setting Plot 2</string>
</property>
</widget>
</item>
<item row="3" column="2" colspan="2">
<widget class="BECMonitor" name="plot_2"/>
</item>
<item row="1" column="4">
<widget class="QLabel" name="label_2">
<property name="text">
<string>Plot Scan Types = True</string>
</property>
</widget>
</item>
<item row="1" column="1">
<widget class="QPushButton" name="pushButton_setting_1">
<property name="text">
<string>Setting Plot 1</string>
</property>
</widget>
</item>
<item row="1" column="0">
<widget class="QLabel" name="label">
<property name="text">
<string>Plot Config 1</string>
</property>
</widget>
</item>
<item row="1" column="5">
<widget class="QPushButton" name="pushButton_setting_3">
<property name="text">
<string>Setting Plot 3</string>
</property>
</widget>
</item>
<item row="3" column="4" colspan="2">
<widget class="BECMonitor" name="plot_3"/>
</item>
</layout>
</widget>
<widget class="QMenuBar" name="menubar">
<property name="geometry">
<rect>
<x>0</x>
<y>0</y>
<width>1433</width>
<height>37</height>
</rect>
</property>
</widget>
<widget class="QStatusBar" name="statusbar"/>
</widget>
<customwidgets>
<customwidget>
<class>BECMonitor</class>
<extends>QGraphicsView</extends>
<header location="global">bec_widgets.widgets.h</header>
</customwidget>
</customwidgets>
<resources/>
<connections/>
</ui>

200
bec_widgets/examples/modular_app/modular_app.py
View File

@@ -1,200 +0,0 @@
import os
from qtpy import uic
from qtpy.QtWidgets import QApplication, QMainWindow
from bec_widgets.utils.bec_dispatcher import BECDispatcher
from bec_widgets.widgets import BECMonitor
# some default configs for demonstration purposes
CONFIG_SIMPLE = {
"plot_settings": {
"background_color": "black",
"num_columns": 2,
"colormap": "plasma",
"scan_types": False,
},
"plot_data": [
{
"plot_name": "BPM4i plots vs samx",
"x_label": "Motor X",
"y_label": "bpm4i",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx"}],
"y": [{"name": "bpm4i", "entry": "bpm4i"}],
},
},
# {
# "type": "history",
# "signals": {
# "x": [{"name": "samx"}],
# "y": [{"name": "bpm4i", "entry": "bpm4i"}],
# },
# },
# {
# "type": "dap",
# 'worker':'some_worker',
# "signals": {
# "x": [{"name": "samx"}],
# "y": [{"name": "bpm4i", "entry": "bpm4i"}],
# },
# },
],
},
{
"plot_name": "Gauss plots vs samx",
"x_label": "Motor X",
"y_label": "Gauss",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "gauss_bpm"}, {"name": "gauss_adc1"}],
},
}
],
},
],
}
CONFIG_SCAN_MODE = {
"plot_settings": {
"background_color": "white",
"num_columns": 3,
"colormap": "plasma",
"scan_types": True,
},
"plot_data": {
"grid_scan": [
{
"plot_name": "Grid plot 1",
"x_label": "Motor X",
"y_label": "BPM",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "gauss_bpm"}],
},
}
],
},
{
"plot_name": "Grid plot 2",
"x_label": "Motor X",
"y_label": "BPM",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "gauss_adc1"}],
},
}
],
},
{
"plot_name": "Grid plot 3",
"x_label": "Motor X",
"y_label": "BPM",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samy"}],
"y": [{"name": "gauss_adc2"}],
},
}
],
},
{
"plot_name": "Grid plot 4",
"x_label": "Motor X",
"y_label": "BPM",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samy", "entry": "samy"}],
"y": [{"name": "gauss_adc3"}],
},
}
],
},
],
"line_scan": [
{
"plot_name": "BPM plots vs samx",
"x_label": "Motor X",
"y_label": "Gauss",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "bpm4i"}],
},
}
],
},
{
"plot_name": "Gauss plots vs samx",
"x_label": "Motor X",
"y_label": "Gauss",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "gauss_bpm"}, {"name": "gauss_adc1"}],
},
}
],
},
],
},
}
class ModularApp(QMainWindow):
def __init__(self, client=None, parent=None):
super(ModularApp, self).__init__(parent)
# Client and device manager from BEC
self.client = BECDispatcher().client if client is None else client
# Loading UI
current_path = os.path.dirname(__file__)
uic.loadUi(os.path.join(current_path, "modular.ui"), self)
self._init_plots()
def _init_plots(self):
"""Initialize plots and connect the buttons to the config dialogs"""
plots = [self.plot_1, self.plot_2, self.plot_3]
configs = [CONFIG_SIMPLE, CONFIG_SCAN_MODE, CONFIG_SCAN_MODE]
buttons = [self.pushButton_setting_1, self.pushButton_setting_2, self.pushButton_setting_3]
# hook plots, configs and buttons together
for plot, config, button in zip(plots, configs, buttons):
plot.on_config_update(config)
button.clicked.connect(plot.show_config_dialog)
if __name__ == "__main__":
# BECclient global variables
client = BECDispatcher().client
client.start()
app = QApplication([])
modularApp = ModularApp(client=client)
window = modularApp
window.show()
app.exec()

17
bec_widgets/examples/motor_movement/config_example.yaml
View File

@@ -1,17 +0,0 @@
selected_motors:
motor_x: "samx"
motor_y: "samy"
plot_motors:
max_points: 1000
num_dim_points: 100
scatter_size: 5
precision: 3
mode_lock: False # "Individual" or "Start/Stop". False to unlock
extra_columns:
- sample name: "sample 1"
- step_x [mu]: 25
- step_y [mu]: 25
- exp_time [s]: 1
- start: 1
- tilt [deg]: 0

10
bec_widgets/examples/motor_movement/csax_bec_config.yaml
View File

@@ -1,10 +0,0 @@
redis:
host: pc15543
port: 6379
mongodb:
host: localhost
port: 27017
scibec:
host: http://localhost
port: 3030
beamline: MyBeamline

17
bec_widgets/examples/motor_movement/csaxs_config.yaml
View File

@@ -1,17 +0,0 @@
selected_motors:
motor_x: "samx"
motor_y: "samy"
plot_motors:
max_points: 1000
num_dim_points: 100
scatter_size: 5
precision: 3
mode_lock: Start/Stop # "Individual" or "Start/Stop"
extra_columns:
- sample name: "sample 1"
- step_x [mu]: 25
- step_y [mu]: 25
- exp_time [s]: 1
- start: 1
- tilt [deg]: 0

45
bec_widgets/examples/motor_movement/motor_control_compilations.py
View File

@@ -5,14 +5,15 @@ from qtpy.QtCore import Qt
from qtpy.QtWidgets import QApplication, QSplitter, QVBoxLayout, QWidget
from bec_widgets.utils.bec_dispatcher import BECDispatcher
from bec_widgets.widgets import (
from bec_widgets.widgets.motor_control.motor_control import MotorThread
from bec_widgets.widgets.motor_control.motor_table.motor_table import MotorCoordinateTable
from bec_widgets.widgets.motor_control.movement_absolute.movement_absolute import (
MotorControlAbsolute,
MotorControlRelative,
MotorControlSelection,
MotorCoordinateTable,
MotorMap,
MotorThread,
)
from bec_widgets.widgets.motor_control.movement_relative.movement_relative import (
MotorControlRelative,
)
from bec_widgets.widgets.motor_control.selection.selection import MotorControlSelection
CONFIG_DEFAULT = {
"motor_control": {
@@ -42,7 +43,7 @@ CONFIG_DEFAULT = {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "samy", "entry": "samy"}],
},
},
}
],
}
@@ -58,13 +59,13 @@ class MotorControlApp(QWidget):
# Widgets
self.motor_control_panel = MotorControlPanel(client=self.client, config=self.config)
# Create MotorMap
self.motion_map = MotorMap(client=self.client, config=self.config)
# self.motion_map = MotorMap(client=self.client, config=self.config)
# Create MotorCoordinateTable
self.motor_table = MotorCoordinateTable(client=self.client, config=self.config)
# Create the splitter and add MotorMap and MotorControlPanel
splitter = QSplitter(Qt.Horizontal)
splitter.addWidget(self.motion_map)
# splitter.addWidget(self.motion_map)
splitter.addWidget(self.motor_control_panel)
splitter.addWidget(self.motor_table)
@@ -74,9 +75,9 @@ class MotorControlApp(QWidget):
self.setLayout(layout)
# Connecting signals and slots
self.motor_control_panel.selection_widget.selected_motors_signal.connect(
lambda x, y: self.motion_map.change_motors(x, y, 0)
)
# self.motor_control_panel.selection_widget.selected_motors_signal.connect(
# lambda x, y: self.motion_map.change_motors(x, y, 0)
# )
self.motor_control_panel.absolute_widget.coordinates_signal.connect(
self.motor_table.add_coordinate
)
@@ -87,7 +88,7 @@ class MotorControlApp(QWidget):
self.motor_control_panel.absolute_widget.set_precision
)
self.motor_table.plot_coordinates_signal.connect(self.motion_map.plot_saved_coordinates)
# self.motor_table.plot_coordinates_signal.connect(self.motion_map.plot_saved_coordinates)
class MotorControlMap(QWidget):
@@ -101,11 +102,11 @@ class MotorControlMap(QWidget):
# Widgets
self.motor_control_panel = MotorControlPanel(client=self.client, config=self.config)
# Create MotorMap
self.motion_map = MotorMap(client=self.client, config=self.config)
# self.motion_map = MotorMap(client=self.client, config=self.config)
# Create the splitter and add MotorMap and MotorControlPanel
splitter = QSplitter(Qt.Horizontal)
splitter.addWidget(self.motion_map)
# splitter.addWidget(self.motion_map)
splitter.addWidget(self.motor_control_panel)
# Set the main layout
@@ -114,9 +115,9 @@ class MotorControlMap(QWidget):
self.setLayout(layout)
# Connecting signals and slots
self.motor_control_panel.selection_widget.selected_motors_signal.connect(
lambda x, y: self.motion_map.change_motors(x, y, 0)
)
# self.motor_control_panel.selection_widget.selected_motors_signal.connect(
# lambda x, y: self.motion_map.change_motors(x, y, 0)
# )
class MotorControlPanel(QWidget):
@@ -150,7 +151,7 @@ class MotorControlPanel(QWidget):
self.selection_widget.selected_motors_signal.connect(self.absolute_widget.change_motors)
# Set the window to a fixed size based on its contents
self.layout().setSizeConstraint(layout.SetFixedSize)
# self.layout().setSizeConstraint(layout.SetFixedSize)
class MotorControlPanelAbsolute(QWidget):
@@ -177,9 +178,6 @@ class MotorControlPanelAbsolute(QWidget):
# Connecting signals and slots
self.selection_widget.selected_motors_signal.connect(self.absolute_widget.change_motors)
# Set the window to a fixed size based on its contents
self.layout().setSizeConstraint(layout.SetFixedSize)
class MotorControlPanelRelative(QWidget):
def __init__(self, parent=None, client=None, config=None):
@@ -205,9 +203,6 @@ class MotorControlPanelRelative(QWidget):
# Connecting signals and slots
self.selection_widget.selected_motors_signal.connect(self.relative_widget.change_motors)
# Set the window to a fixed size based on its contents
self.layout().setSizeConstraint(layout.SetFixedSize)
if __name__ == "__main__": # pragma: no cover
import argparse

1352
bec_widgets/examples/motor_movement/motor_example.py
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File diff suppressed because it is too large Load Diff

155
bec_widgets/examples/stream_plot/line_plot.ui
View File

@@ -1,155 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<ui version="4.0">
<class>Form</class>
<widget class="QWidget" name="Form">
<property name="geometry">
<rect>
<x>0</x>
<y>0</y>
<width>845</width>
<height>635</height>
</rect>
</property>
<property name="windowTitle">
<string>Line Plot</string>
</property>
<layout class="QGridLayout" name="gridLayout">
<item row="0" column="0">
<widget class="QSplitter" name="splitter">
<property name="orientation">
<enum>Qt::Horizontal</enum>
</property>
<widget class="QSplitter" name="splitter_plot">
<property name="sizePolicy">
<sizepolicy hsizetype="Expanding" vsizetype="Expanding">
<horstretch>1</horstretch>
<verstretch>1</verstretch>
</sizepolicy>
</property>
<property name="orientation">
<enum>Qt::Vertical</enum>
</property>
<widget class="GraphicsLayoutWidget" name="glw_plot"/>
<widget class="GraphicsLayoutWidget" name="glw_image"/>
</widget>
<widget class="QWidget" name="">
<layout class="QVBoxLayout" name="verticalLayout" stretch="1,1,1,15">
<item>
<widget class="QPushButton" name="pushButton_generate">
<property name="text">
<string>Generate 1D and 2D data without stream</string>
</property>
</widget>
</item>
<item>
<widget class="QGroupBox" name="groupBox">
<property name="sizePolicy">
<sizepolicy hsizetype="Expanding" vsizetype="Expanding">
<horstretch>0</horstretch>
<verstretch>0</verstretch>
</sizepolicy>
</property>
<property name="title">
<string>1st angle of azimutal segment (deg)</string>
</property>
<layout class="QHBoxLayout" name="horizontalLayout">
<item>
<widget class="QDoubleSpinBox" name="doubleSpinBox">
<property name="sizePolicy">
<sizepolicy hsizetype="Expanding" vsizetype="Fixed">
<horstretch>0</horstretch>
<verstretch>0</verstretch>
</sizepolicy>
</property>
<property name="maximum">
<double>360.000000000000000</double>
</property>
<property name="singleStep">
<double>0.250000000000000</double>
</property>
</widget>
</item>
<item>
<widget class="QComboBox" name="comboBox">
<property name="sizePolicy">
<sizepolicy hsizetype="Expanding" vsizetype="Expanding">
<horstretch>0</horstretch>
<verstretch>0</verstretch>
</sizepolicy>
</property>
<item>
<property name="text">
<string>f1amp</string>
</property>
</item>
<item>
<property name="text">
<string>f2amp</string>
</property>
</item>
<item>
<property name="text">
<string>f2 phase</string>
</property>
</item>
</widget>
</item>
</layout>
</widget>
</item>
<item>
<layout class="QHBoxLayout" name="horizontalLayout_2">
<item>
<widget class="QLabel" name="label">
<property name="text">
<string>Precision</string>
</property>
</widget>
</item>
<item>
<widget class="QSpinBox" name="spinBox_precision">
<property name="value">
<number>4</number>
</property>
</widget>
</item>
</layout>
</item>
<item>
<widget class="QTableWidget" name="cursor_table">
<property name="textElideMode">
<enum>Qt::ElideMiddle</enum>
</property>
<column>
<property name="text">
<string>Display</string>
</property>
</column>
<column>
<property name="text">
<string>X</string>
</property>
</column>
<column>
<property name="text">
<string>Y</string>
</property>
</column>
</widget>
</item>
</layout>
</widget>
</widget>
</item>
</layout>
</widget>
<customwidgets>
<customwidget>
<class>GraphicsLayoutWidget</class>
<extends>QGraphicsView</extends>
<header>pyqtgraph.h</header>
</customwidget>
</customwidgets>
<resources/>
<connections/>
</ui>

336
bec_widgets/examples/stream_plot/stream_plot.py
View File

@@ -1,336 +0,0 @@
import os
import threading
import time
import numpy as np
import pyqtgraph
import pyqtgraph as pg
from bec_lib import MessageEndpoints, messages
from bec_lib.redis_connector import RedisConnector
from pyqtgraph import mkBrush, mkPen
from pyqtgraph.Qt import QtCore, QtWidgets, uic
from pyqtgraph.Qt.QtCore import pyqtSignal
from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtWidgets import QTableWidgetItem
from bec_widgets.utils import Colors, Crosshair
from bec_widgets.utils.bec_dispatcher import BECDispatcher
class StreamPlot(QtWidgets.QWidget):
update_signal = pyqtSignal()
roi_signal = pyqtSignal(tuple)
def __init__(self, name="", y_value_list=["gauss_bpm"], client=None, parent=None) -> None:
"""
Basic plot widget for displaying scan data.
Args:
name (str, optional): Name of the plot. Defaults to "".
y_value_list (list, optional): List of signals to be plotted. Defaults to ["gauss_bpm"].
"""
# Client and device manager from BEC
self.client = BECDispatcher().client if client is None else client
super(StreamPlot, self).__init__()
# Set style for pyqtgraph plots
pg.setConfigOption("background", "w")
pg.setConfigOption("foreground", "k")
current_path = os.path.dirname(__file__)
uic.loadUi(os.path.join(current_path, "line_plot.ui"), self)
self._idle_time = 100
self.connector = RedisConnector(["localhost:6379"])
self.y_value_list = y_value_list
self.previous_y_value_list = None
self.plotter_data_x = []
self.plotter_data_y = []
self.plotter_scan_id = None
self._current_proj = None
self._current_metadata_ep = "px_stream/projection_{}/metadata"
self.proxy_update = pg.SignalProxy(self.update_signal, rateLimit=25, slot=self.update)
self._data_retriever_thread_exit_event = threading.Event()
self.data_retriever = threading.Thread(
target=self.on_projection, args=(self._data_retriever_thread_exit_event,), daemon=True
)
self.data_retriever.start()
##########################
# UI
##########################
self.init_ui()
self.init_curves()
self.hook_crosshair()
def close(self):
super().close()
self._data_retriever_thread_exit_event.set()
self.data_retriever.join()
def init_ui(self):
"""Setup all ui elements"""
##########################
# 1D Plot
##########################
# LabelItem for ROI
self.label_plot = pg.LabelItem(justify="center")
self.glw_plot.addItem(self.label_plot)
self.label_plot.setText("ROI region")
# ROI selector - so far from [-1,1] #TODO update to scale with xrange
self.roi_selector = pg.LinearRegionItem([-1, 1])
self.glw_plot.nextRow() # TODO update of cursor
self.label_plot_moved = pg.LabelItem(justify="center")
self.glw_plot.addItem(self.label_plot_moved)
self.label_plot_moved.setText("Actual coordinates (X, Y)")
# Label for coordinates clicked
self.glw_plot.nextRow()
self.label_plot_clicked = pg.LabelItem(justify="center")
self.glw_plot.addItem(self.label_plot_clicked)
self.label_plot_clicked.setText("Clicked coordinates (X, Y)")
# 1D PlotItem
self.glw_plot.nextRow()
self.plot = pg.PlotItem()
self.plot.setLogMode(True, True)
self.glw_plot.addItem(self.plot)
self.plot.addLegend()
##########################
# 2D Plot
##########################
# Label for coordinates moved
self.label_image_moved = pg.LabelItem(justify="center")
self.glw_image.addItem(self.label_image_moved)
self.label_image_moved.setText("Actual coordinates (X, Y)")
# Label for coordinates clicked
self.glw_image.nextRow()
self.label_image_clicked = pg.LabelItem(justify="center")
self.glw_image.addItem(self.label_image_clicked)
self.label_image_clicked.setText("Clicked coordinates (X, Y)")
# TODO try to lock aspect ratio with view
# # Create a window
# win = pg.GraphicsLayoutWidget()
# win.show()
#
# # Create a ViewBox
# view = win.addViewBox()
#
# # Lock the aspect ratio
# view.setAspectLocked(True)
# # Create an ImageItem
# image_item = pg.ImageItem(np.random.random((100, 100)))
#
# # Add the ImageItem to the ViewBox
# view.addItem(image_item)
# 2D ImageItem
self.glw_image.nextRow()
self.plot_image = pg.PlotItem()
self.glw_image.addItem(self.plot_image)
def init_curves(self):
# init of 1D plot
self.plot.clear()
self.curves = []
self.pens = []
self.brushs = []
self.color_list = Colors.golden_angle_color(colormap="CET-R2", num=len(self.y_value_list))
for ii, y_value in enumerate(self.y_value_list):
pen = mkPen(color=self.color_list[ii], width=2, style=QtCore.Qt.DashLine)
brush = mkBrush(color=self.color_list[ii])
curve = pg.PlotDataItem(symbolBrush=brush, pen=pen, skipFiniteCheck=True, name=y_value)
self.plot.addItem(curve)
self.curves.append(curve)
self.pens.append(pen)
self.brushs.append(brush)
# check if roi selector is in the plot
if self.roi_selector not in self.plot.items:
self.plot.addItem(self.roi_selector)
# init of 2D plot
self.plot_image.clear()
self.img = pg.ImageItem()
self.plot_image.addItem(self.img)
# hooking signals
self.hook_crosshair()
self.init_table()
def splitter_sizes(self): ...
def hook_crosshair(self):
self.crosshair_1d = Crosshair(self.plot, precision=4)
self.crosshair_1d.coordinatesChanged1D.connect(
lambda x, y: self.label_plot_moved.setText(f"Moved : ({x}, {y})")
)
self.crosshair_1d.coordinatesClicked1D.connect(
lambda x, y: self.label_plot_clicked.setText(f"Moved : ({x}, {y})")
)
self.crosshair_1d.coordinatesChanged1D.connect(
lambda x, y: self.update_table(table_widget=self.cursor_table, x=x, y_values=y)
)
self.crosshair_2D = Crosshair(self.plot_image)
self.crosshair_2D.coordinatesChanged2D.connect(
lambda x, y: self.label_image_moved.setText(f"Moved : ({x}, {y})")
)
self.crosshair_2D.coordinatesClicked2D.connect(
lambda x, y: self.label_image_clicked.setText(f"Moved : ({x}, {y})")
)
# ROI
self.roi_selector.sigRegionChangeFinished.connect(self.get_roi_region)
def get_roi_region(self):
"""For testing purpose now, get roi region and print it to self.label as tuple"""
region = self.roi_selector.getRegion()
self.label_plot.setText(f"x = {(10 ** region[0]):.4f}, y ={(10 ** region[1]):.4f}")
return_dict = {
"horiz_roi": [
np.where(self.plotter_data_x[0] > 10 ** region[0])[0][0],
np.where(self.plotter_data_x[0] < 10 ** region[1])[0][-1],
]
}
msg = messages.DeviceMessage(signals=return_dict).dumps()
self.connector.set_and_publish("px_stream/gui_event", msg=msg)
self.roi_signal.emit(region)
def init_table(self):
# Init number of rows in table according to n of devices
self.cursor_table.setRowCount(len(self.y_value_list))
# self.table.setHorizontalHeaderLabels(["(X, Y) - Moved", "(X, Y) - Clicked"]) #TODO can be dynamic
self.cursor_table.setVerticalHeaderLabels(self.y_value_list)
self.cursor_table.resizeColumnsToContents()
def update_table(self, table_widget, x, y_values):
for i, y in enumerate(y_values):
table_widget.setItem(i, 1, QTableWidgetItem(str(x)))
table_widget.setItem(i, 2, QTableWidgetItem(str(y)))
table_widget.resizeColumnsToContents()
def update(self):
"""Update the plot with the new data."""
# check if QTable was initialised and if list of devices was changed
# if self.y_value_list != self.previous_y_value_list:
# self.setup_cursor_table()
# self.previous_y_value_list = self.y_value_list.copy() if self.y_value_list else None
self.curves[0].setData(self.plotter_data_x[0], self.plotter_data_y[0])
@staticmethod
def flip_even_rows(arr):
arr_copy = np.copy(arr) # Create a writable copy
arr_copy[1::2, :] = arr_copy[1::2, ::-1]
return arr_copy
@staticmethod
def remove_curve_by_name(plot: pyqtgraph.PlotItem, name: str) -> None:
# def remove_curve_by_name(plot: pyqtgraph.PlotItem, checkbox: QtWidgets.QCheckBox, name: str) -> None:
"""Removes a curve from the given plot by the specified name.
Args:
plot (pyqtgraph.PlotItem): The plot from which to remove the curve.
name (str): The name of the curve to remove.
"""
# if checkbox.isChecked():
for item in plot.items:
if isinstance(item, pg.PlotDataItem) and getattr(item, "opts", {}).get("name") == name:
plot.removeItem(item)
return
# else:
# return
def on_projection(self, exit_event):
while not exit_event.is_set():
if self._current_proj is None:
time.sleep(0.1)
continue
endpoint = f"px_stream/projection_{self._current_proj}/data"
msgs = self.client.connector.lrange(topic=endpoint, start=-1, end=-1)
data = msgs
if not data:
continue
with np.errstate(divide="ignore", invalid="ignore"):
self.plotter_data_y = [
np.sum(
np.sum(data[-1].content["signals"]["data"] * self._current_norm, axis=1)
/ np.sum(self._current_norm, axis=0),
axis=0,
).squeeze()
]
self.update_signal.emit()
@pyqtSlot(dict, dict)
def on_dap_update(self, data: dict, metadata: dict):
flipped_data = self.flip_even_rows(data["data"]["z"])
self.img.setImage(flipped_data)
@pyqtSlot(dict, dict)
def new_proj(self, content: dict, _metadata: dict):
proj_nr = content["signals"]["proj_nr"]
endpoint = f"px_stream/projection_{proj_nr}/metadata"
msg_raw = self.client.connector.get(topic=endpoint)
msg = messages.DeviceMessage.loads(msg_raw)
self._current_q = msg.content["signals"]["q"]
self._current_norm = msg.content["signals"]["norm_sum"]
self._current_metadata = msg.content["signals"]["metadata"]
self.plotter_data_x = [self._current_q]
self._current_proj = proj_nr
if __name__ == "__main__":
import argparse
# from bec_widgets import ctrl_c # TODO uncomment when ctrl_c is ready to be compatible with qtpy
parser = argparse.ArgumentParser()
parser.add_argument(
"--signals", help="specify recorded signals", nargs="+", default=["gauss_bpm"]
)
# default = ["gauss_bpm", "bpm4i", "bpm5i", "bpm6i", "xert"],
value = parser.parse_args()
print(f"Plotting signals for: {', '.join(value.signals)}")
# Client from dispatcher
bec_dispatcher = BECDispatcher()
client = bec_dispatcher.client
app = QtWidgets.QApplication([])
# ctrl_c.setup(app) # TODO uncomment when ctrl_c is ready to be compatible with qtpy
plot = StreamPlot(y_value_list=value.signals, client=client)
bec_dispatcher.connect_slot(plot.new_proj, "px_stream/proj_nr")
bec_dispatcher.connect_slot(
plot.on_dap_update, MessageEndpoints.processed_data("px_dap_worker")
)
plot.show()
# client.callbacks.register("scan_segment", plot, sync=False)
app.exec()

2
bec_widgets/utils/__init__.py
View File

@@ -5,5 +5,7 @@ from .colors import Colors
from .container_utils import WidgetContainerUtils
from .crosshair import Crosshair
from .entry_validator import EntryValidator
from .layout_manager import GridLayoutManager
from .rpc_decorator import register_rpc_methods, rpc_public
from .ui_loader import UILoader
from .validator_delegate import DoubleValidationDelegate

27
bec_widgets/utils/bec_connector.py
View File

@@ -4,11 +4,13 @@ from __future__ import annotations
import time
from typing import Optional, Type
from bec_lib.utils.import_utils import lazy_import, lazy_import_from
from pydantic import BaseModel, Field, field_validator
from qtpy.QtCore import Slot as pyqtSlot
from bec_widgets.cli.rpc_register import RPCRegister
from bec_widgets.utils.bec_dispatcher import BECDispatcher
BECDispatcher = lazy_import_from("bec_widgets.utils.bec_dispatcher", ("BECDispatcher",))
class ConnectionConfig(BaseModel):
@@ -18,8 +20,10 @@ class ConnectionConfig(BaseModel):
gui_id: Optional[str] = Field(
default=None, validate_default=True, description="The GUI ID of the widget."
)
model_config: dict = {"validate_assignment": True}
@field_validator("gui_id")
@classmethod
def generate_gui_id(cls, v, values):
"""Generate a GUI ID if none is provided."""
if v is None:
@@ -78,6 +82,7 @@ class BECConnector:
def config_dict(self) -> dict:
"""
Get the configuration of the widget.
Returns:
dict: The configuration of the widget.
"""
@@ -87,6 +92,7 @@ class BECConnector:
def config_dict(self, config: BaseModel) -> None:
"""
Get the configuration of the widget.
Returns:
dict: The configuration of the widget.
"""
@@ -96,6 +102,7 @@ class BECConnector:
def set_gui_id(self, gui_id: str) -> None:
"""
Set the GUI ID for the widget.
Args:
gui_id(str): GUI ID
"""
@@ -116,6 +123,7 @@ class BECConnector:
def update_client(self, client) -> None:
"""Update the client and device manager from BEC and create object for BEC shortcuts.
Args:
client: BEC client
"""
@@ -126,6 +134,7 @@ class BECConnector:
def on_config_update(self, config: ConnectionConfig | dict) -> None:
"""
Update the configuration for the widget.
Args:
config(ConnectionConfig): Configuration settings.
"""
@@ -138,8 +147,10 @@ class BECConnector:
def get_config(self, dict_output: bool = True) -> dict | BaseModel:
"""
Get the configuration of the widget.
Args:
dict_output(bool): If True, return the configuration as a dictionary. If False, return the configuration as a pydantic model.
Returns:
dict: The configuration of the plot widget.
"""
@@ -148,6 +159,14 @@ class BECConnector:
else:
return self.config
def closeEvent(self, event):
self.client.shutdown()
super().closeEvent(event)
def cleanup(self):
"""Cleanup the widget."""
self.rpc_register.remove_rpc(self)
all_connections = self.rpc_register.list_all_connections()
if len(all_connections) == 0:
print("No more connections. Shutting down GUI BEC client.")
self.client.shutdown()
# def closeEvent(self, event):
# self.cleanup()
# super().closeEvent(event)

23
bec_widgets/utils/bec_dispatcher.py
View File

@@ -6,9 +6,10 @@ from collections.abc import Callable
from typing import TYPE_CHECKING, Union
import redis
from bec_lib import BECClient, ServiceConfig
from bec_lib.client import BECClient
from bec_lib.redis_connector import MessageObject, RedisConnector
from qtpy.QtCore import QObject
from bec_lib.service_config import ServiceConfig
from qtpy.QtCore import QCoreApplication, QObject
from qtpy.QtCore import Signal as pyqtSignal
if TYPE_CHECKING:
@@ -70,6 +71,7 @@ class BECDispatcher:
_instance = None
_initialized = False
qapp = None
def __new__(cls, client=None, config: str = None, *args, **kwargs):
if cls._instance is None:
@@ -81,6 +83,9 @@ class BECDispatcher:
if self._initialized:
return
if not QCoreApplication.instance():
BECDispatcher.qapp = QCoreApplication([])
self._slots = collections.defaultdict(set)
self.client = client
@@ -112,9 +117,7 @@ class BECDispatcher:
cls._initialized = False
def connect_slot(
self,
slot: Callable,
topics: Union[EndpointInfo, str, list[Union[EndpointInfo, str]]],
self, slot: Callable, topics: Union[EndpointInfo, str, list[Union[EndpointInfo, str]]]
) -> None:
"""Connect widget's pyqt slot, so that it is called on new pub/sub topic message.
@@ -129,7 +132,15 @@ class BECDispatcher:
self._slots[slot].update(set(topics_str))
def disconnect_slot(self, slot: Callable, topics: Union[str, list]):
self.client.connector.unregister(topics, cb=slot)
# find the right slot to disconnect from ;
# slot callbacks are wrapped in QtThreadSafeCallback objects,
# but the slot we receive here is the original callable
for connected_slot in self._slots:
if connected_slot.cb == slot:
break
else:
return
self.client.connector.unregister(topics, cb=connected_slot)
topics_str, _ = self.client.connector._convert_endpointinfo(topics)
self._slots[slot].difference_update(set(topics_str))
if not self._slots[slot]:

1
bec_widgets/utils/bec_table.py
View File

@@ -8,6 +8,7 @@ class BECTable(QTableWidget):
def keyPressEvent(self, event) -> None:
"""
Delete selected rows with backspace or delete key
Args:
event: keyPressEvent
"""

211
bec_widgets/utils/colors.py
View File

@@ -1,11 +1,14 @@
import re
from typing import Literal
import numpy as np
import pyqtgraph as pg
from pydantic_core import PydanticCustomError
from qtpy.QtGui import QColor
class Colors:
@staticmethod
def golden_ratio(num: int) -> list:
"""Calculate the golden ratio for a given number of angles.
@@ -63,3 +66,211 @@ class Colors:
else:
raise ValueError("Unsupported format. Please choose 'RGB', 'HEX', or 'QColor'.")
return colors
@staticmethod
def validate_color(color: tuple | str) -> tuple | str:
"""
Validate the color input if it is HEX or RGBA compatible. Can be used in any pydantic model as a field validator.
Args:
color(tuple|str): The color to be validated. Can be a tuple of RGBA values or a HEX string.
Returns:
tuple|str: The validated color.
"""
CSS_COLOR_NAMES = {
"aliceblue",
"antiquewhite",
"aqua",
"aquamarine",
"azure",
"beige",
"bisque",
"black",
"blanchedalmond",
"blue",
"blueviolet",
"brown",
"burlywood",
"cadetblue",
"chartreuse",
"chocolate",
"coral",
"cornflowerblue",
"cornsilk",
"crimson",
"cyan",
"darkblue",
"darkcyan",
"darkgoldenrod",
"darkgray",
"darkgreen",
"darkgrey",
"darkkhaki",
"darkmagenta",
"darkolivegreen",
"darkorange",
"darkorchid",
"darkred",
"darksalmon",
"darkseagreen",
"darkslateblue",
"darkslategray",
"darkslategrey",
"darkturquoise",
"darkviolet",
"deeppink",
"deepskyblue",
"dimgray",
"dimgrey",
"dodgerblue",
"firebrick",
"floralwhite",
"forestgreen",
"fuchsia",
"gainsboro",
"ghostwhite",
"gold",
"goldenrod",
"gray",
"green",
"greenyellow",
"grey",
"honeydew",
"hotpink",
"indianred",
"indigo",
"ivory",
"khaki",
"lavender",
"lavenderblush",
"lawngreen",
"lemonchiffon",
"lightblue",
"lightcoral",
"lightcyan",
"lightgoldenrodyellow",
"lightgray",
"lightgreen",
"lightgrey",
"lightpink",
"lightsalmon",
"lightseagreen",
"lightskyblue",
"lightslategray",
"lightslategrey",
"lightsteelblue",
"lightyellow",
"lime",
"limegreen",
"linen",
"magenta",
"maroon",
"mediumaquamarine",
"mediumblue",
"mediumorchid",
"mediumpurple",
"mediumseagreen",
"mediumslateblue",
"mediumspringgreen",
"mediumturquoise",
"mediumvioletred",
"midnightblue",
"mintcream",
"mistyrose",
"moccasin",
"navajowhite",
"navy",
"oldlace",
"olive",
"olivedrab",
"orange",
"orangered",
"orchid",
"palegoldenrod",
"palegreen",
"paleturquoise",
"palevioletred",
"papayawhip",
"peachpuff",
"peru",
"pink",
"plum",
"powderblue",
"purple",
"red",
"rosybrown",
"royalblue",
"saddlebrown",
"salmon",
"sandybrown",
"seagreen",
"seashell",
"sienna",
"silver",
"skyblue",
"slateblue",
"slategray",
"slategrey",
"snow",
"springgreen",
"steelblue",
"tan",
"teal",
"thistle",
"tomato",
"turquoise",
"violet",
"wheat",
"white",
"whitesmoke",
"yellow",
"yellowgreen",
}
if isinstance(color, str):
hex_pattern = re.compile(r"^#(?:[0-9a-fA-F]{3}){1,2}$")
if hex_pattern.match(color):
return color
elif color.lower() in CSS_COLOR_NAMES:
return color
else:
raise PydanticCustomError(
"unsupported color",
"The color must be a valid HEX string or CSS Color.",
{"wrong_value": color},
)
elif isinstance(color, tuple):
if len(color) != 4:
raise PydanticCustomError(
"unsupported color",
"The color must be a tuple of 4 elements (R, G, B, A).",
{"wrong_value": color},
)
for value in color:
if not 0 <= value <= 255:
raise PydanticCustomError(
"unsupported color",
f"The color values must be between 0 and 255 in RGBA format (R,G,B,A)",
{"wrong_value": color},
)
return color
@staticmethod
def validate_color_map(color_map: str) -> str:
"""
Validate the colormap input if it is supported by pyqtgraph. Can be used in any pydantic model as a field validator. If validation fails it prints all available colormaps from pyqtgraph instance.
Args:
color_map(str): The colormap to be validated.
Returns:
str: The validated colormap.
"""
available_colormaps = pg.colormap.listMaps()
if color_map not in available_colormaps:
raise PydanticCustomError(
"unsupported colormap",
f"Colormap '{color_map}' not found in the current installation of pyqtgraph. Choose on the following: {available_colormaps}.",
{"wrong_value": color_map},
)
return color_map

3
bec_widgets/utils/container_utils.py
View File

@@ -10,6 +10,7 @@ class WidgetContainerUtils:
def generate_unique_widget_id(container: dict, prefix: str = "widget") -> str:
"""
Generate a unique widget ID.
Args:
container(dict): The container of widgets.
prefix(str): The prefix of the widget ID.
@@ -29,10 +30,12 @@ class WidgetContainerUtils:
) -> QWidget | None:
"""
Find the first widget of a given class in the figure.
Args:
container(dict): The container of widgets.
widget_class(Type): The class of the widget to find.
can_fail(bool): If True, the method will return None if no widget is found. If False, it will raise an error.
Returns:
widget: The widget of the given class.
"""

23
bec_widgets/utils/crosshair.py
View File

@@ -8,15 +8,16 @@ from qtpy.QtCore import Signal as pyqtSignal
class Crosshair(QObject):
# Signal for 1D plot
coordinatesChanged1D = pyqtSignal(float, list)
coordinatesClicked1D = pyqtSignal(float, list)
coordinatesChanged1D = pyqtSignal(tuple)
coordinatesClicked1D = pyqtSignal(tuple)
# Signal for 2D plot
coordinatesChanged2D = pyqtSignal(float, float)
coordinatesClicked2D = pyqtSignal(float, float)
coordinatesChanged2D = pyqtSignal(tuple)
coordinatesClicked2D = pyqtSignal(tuple)
def __init__(self, plot_item: pg.PlotItem, precision: int = None, parent=None):
def __init__(self, plot_item: pg.PlotItem, precision: int = 3, parent=None):
"""
Crosshair for 1D and 2D plots.
Args:
plot_item (pyqtgraph.PlotItem): The plot item to which the crosshair will be attached.
precision (int, optional): Number of decimal places to round the coordinates to. Defaults to None.
@@ -173,10 +174,11 @@ class Crosshair(QObject):
if isinstance(item, pg.PlotDataItem):
if x is None or all(v is None for v in y_values):
return
self.coordinatesChanged1D.emit(
coordinate_to_emit = (
round(x, self.precision),
[round(y_val, self.precision) for y_val in y_values],
)
self.coordinatesChanged1D.emit(coordinate_to_emit)
for i, y_val in enumerate(y_values):
self.marker_moved_1d[i].setData(
[x if not self.is_log_x else np.log10(x)],
@@ -185,7 +187,8 @@ class Crosshair(QObject):
elif isinstance(item, pg.ImageItem):
if x is None or y_values is None:
return
self.coordinatesChanged2D.emit(x, y_values)
coordinate_to_emit = (x, y_values)
self.coordinatesChanged2D.emit(coordinate_to_emit)
def mouse_clicked(self, event):
"""Handles the mouse clicked event, updating the crosshair position and emitting signals.
@@ -208,10 +211,11 @@ class Crosshair(QObject):
if isinstance(item, pg.PlotDataItem):
if x is None or all(v is None for v in y_values):
return
self.coordinatesClicked1D.emit(
coordinate_to_emit = (
round(x, self.precision),
[round(y_val, self.precision) for y_val in y_values],
)
self.coordinatesClicked1D.emit(coordinate_to_emit)
for i, y_val in enumerate(y_values):
for marker in self.marker_clicked_1d[i]:
marker.setData(
@@ -221,7 +225,8 @@ class Crosshair(QObject):
elif isinstance(item, pg.ImageItem):
if x is None or y_values is None:
return
self.coordinatesClicked2D.emit(x, y_values)
coordinate_to_emit = (x, y_values)
self.coordinatesClicked2D.emit(coordinate_to_emit)
self.marker_2d.setPos([x, y_values])
def check_log(self):

39
bec_widgets/utils/ctrl_c.py
View File

@@ -1,39 +0,0 @@
# TODO haven't found yet how to deal with QAbstractSocket in qtpy
# import signal
# import socket
# from PyQt5.QtNetwork import QAbstractSocket
#
#
# def setup(app):
# app.signalwatchdog = SignalWatchdog() # need to store to keep socket pair alive
# signal.signal(signal.SIGINT, make_quit_handler(app))
#
#
# def make_quit_handler(app):
# def handler(*args):
# print() # make ^C appear on its own line
# app.quit()
#
# return handler
#
#
# class SignalWatchdog(QAbstractSocket):
# def __init__(self):
# """
# Propagates system signals from Python to QEventLoop
# adapted from https://stackoverflow.com/a/65802260/655404
# """
# super().__init__(QAbstractSocket.SctpSocket, None)
#
# self.writer, self.reader = writer, reader = socket.socketpair()
# writer.setblocking(False)
#
# fd_writer = writer.fileno()
# fd_reader = reader.fileno()
#
# signal.set_wakeup_fd(fd_writer) # Python hook
# self.setSocketDescriptor(fd_reader) # Qt hook
#
# self.readyRead.connect(
# lambda: None
# ) # dummy function call that lets the Python interpreter run

2
bec_widgets/utils/entry_validator.py
View File

@@ -5,6 +5,7 @@ class EntryValidator:
def validate_signal(self, name: str, entry: str = None) -> str:
"""
Validate a signal entry for a given device. If the entry is not provided, the first signal entry will be used from the device hints.
Args:
name(str): Device name
entry(str): Signal entry
@@ -28,6 +29,7 @@ class EntryValidator:
def validate_monitor(self, monitor: str) -> str:
"""
Validate a monitor entry for a given device.
Args:
monitor(str): Monitor entry

121
bec_widgets/utils/layout_manager.py Normal file
View File

@@ -0,0 +1,121 @@
from collections import OrderedDict
from typing import Literal
from qtpy.QtWidgets import QGridLayout, QWidget
class GridLayoutManager:
"""
GridLayoutManager class is used to manage widgets in a QGridLayout and extend its functionality.
The GridLayoutManager class provides methods to add, move, and check the position of widgets in a QGridLayout.
It also provides a method to get the positions of all widgets in the layout.
Args:
layout(QGridLayout): The layout to manage.
"""
def __init__(self, layout: QGridLayout):
self.layout = layout
def is_position_occupied(self, row: int, col: int) -> bool:
"""
Check if the position in the layout is occupied by a widget.
Args:
row(int): The row to check.
col(int): The column to check.
Returns:
bool: True if the position is occupied, False otherwise.
"""
for i in range(self.layout.count()):
widget_row, widget_col, _, _ = self.layout.getItemPosition(i)
if widget_row == row and widget_col == col:
return True
return False
def shift_widgets(
self,
direction: Literal["down", "up", "left", "right"] = "down",
start_row: int = 0,
start_col: int = 0,
):
"""
Shift widgets in the layout in the specified direction starting from the specified position.
Args:
direction(str): The direction to shift the widgets. Can be "down", "up", "left", or "right".
start_row(int): The row to start shifting from. Default is 0.
start_col(int): The column to start shifting from. Default is 0.
"""
for i in reversed(range(self.layout.count())):
widget_item = self.layout.itemAt(i)
widget = widget_item.widget()
row, col, rowspan, colspan = self.layout.getItemPosition(i)
if direction == "down" and row >= start_row:
self.layout.addWidget(widget, row + 1, col, rowspan, colspan)
elif direction == "up" and row > start_row:
self.layout.addWidget(widget, row - 1, col, rowspan, colspan)
elif direction == "right" and col >= start_col:
self.layout.addWidget(widget, row, col + 1, rowspan, colspan)
elif direction == "left" and col > start_col:
self.layout.addWidget(widget, row, col - 1, rowspan, colspan)
def move_widget(self, widget: QWidget, new_row: int, new_col: int):
"""
Move a widget to a new position in the layout.
Args:
widget(QWidget): The widget to move.
new_row(int): The new row to move the widget to.
new_col(int): The new column to move the widget to.
"""
self.layout.removeWidget(widget)
self.layout.addWidget(widget, new_row, new_col)
def add_widget(
self,
widget: QWidget,
row=None,
col=0,
rowspan=1,
colspan=1,
shift: Literal["down", "up", "left", "right"] = "down",
):
"""
Add a widget to the layout at the specified position.
Args:
widget(QWidget): The widget to add.
row(int): The row to add the widget to. If None, the widget will be added to the next available row.
col(int): The column to add the widget to. Default is 0.
rowspan(int): The number of rows the widget will span. Default is 1.
colspan(int): The number of columns the widget will span. Default is 1.
shift(str): The direction to shift the widgets if the position is occupied. Can be "down", "up", "left", or "right".
"""
if row is None:
row = self.layout.rowCount()
if self.is_position_occupied(row, col):
self.shift_widgets(shift, start_row=row)
self.layout.addWidget(widget, row, col, rowspan, colspan)
def get_widgets_positions(self) -> dict:
"""
Get the positions of all widgets in the layout.
Returns:
dict: A dictionary with the positions of the widgets in the layout.
"""
positions = []
for i in range(self.layout.count()):
widget_item = self.layout.itemAt(i)
widget = widget_item.widget()
if widget:
position = self.layout.getItemPosition(i)
positions.append((position, widget))
positions.sort(key=lambda x: (x[0][0], x[0][1], x[0][2], x[0][3]))
ordered_positions = OrderedDict()
for pos, widget in positions:
ordered_positions[pos] = widget
return ordered_positions

40
bec_widgets/utils/plugin_utils.py Normal file
View File

@@ -0,0 +1,40 @@
import inspect
from bec_lib.plugin_helper import _get_available_plugins
from bec_widgets.utils import BECConnector
def get_plugin_widgets() -> dict[str, BECConnector]:
"""
Get all available widgets from the plugin directory. Widgets are classes that inherit from BECConnector.
The plugins are provided through python plugins and specified in the respective pyproject.toml file using
the following key:
[project.entry-points."bec.widgets.user_widgets"]
plugin_widgets = "path.to.plugin.module"
e.g.
[project.entry-points."bec.widgets.user_widgets"]
plugin_widgets = "pxiii_bec.bec_widgets.widgets"
assuming that the widgets module for the package pxiii_bec is located at pxiii_bec/bec_widgets/widgets and
contains the widgets to be loaded within the pxiii_bec/bec_widgets/widgets/__init__.py file.
Returns:
dict[str, BECConnector]: A dictionary of widget names and their respective classes.
"""
modules = _get_available_plugins("bec.widgets.user_widgets")
loaded_plugins = {}
print(modules)
for module in modules:
mods = inspect.getmembers(module, predicate=_filter_plugins)
for name, mod_cls in mods:
if name in loaded_plugins:
print(f"Duplicated widgets plugin {name}.")
loaded_plugins[name] = mod_cls
return loaded_plugins
def _filter_plugins(obj):
return inspect.isclass(obj) and issubclass(obj, BECConnector)

58
bec_widgets/utils/ui_loader.py Normal file
View File

@@ -0,0 +1,58 @@
from qtpy import QT_VERSION
from qtpy.QtCore import QFile, QIODevice
class UILoader:
"""Universal UI loader for PyQt5, PyQt6, PySide2, and PySide6."""
def __init__(self, parent=None):
self.parent = parent
if QT_VERSION.startswith("5"):
# PyQt5 or PySide2
from qtpy import uic
self.loader = uic.loadUi
elif QT_VERSION.startswith("6"):
# PyQt6 or PySide6
try:
from PySide6.QtUiTools import QUiLoader
self.loader = self.load_ui_pyside6
except ImportError:
from PyQt6.uic import loadUi
self.loader = loadUi
def load_ui_pyside6(self, ui_file, parent=None):
"""
Specific loader for PySide6 using QUiLoader.
Args:
ui_file(str): Path to the .ui file.
parent(QWidget): Parent widget.
Returns:
QWidget: The loaded widget.
"""
from PySide6.QtUiTools import QUiLoader
loader = QUiLoader(parent)
file = QFile(ui_file)
if not file.open(QIODevice.ReadOnly):
raise IOError(f"Cannot open file: {ui_file}")
widget = loader.load(file, parent)
file.close()
return widget
def load_ui(self, ui_file, parent=None):
"""
Universal UI loader method.
Args:
ui_file(str): Path to the .ui file.
parent(QWidget): Parent widget.
Returns:
QWidget: The loaded widget.
"""
if parent is None:
parent = self.parent
return self.loader(ui_file, parent)

5
bec_widgets/utils/widget_io.py
View File

@@ -114,6 +114,7 @@ class WidgetIO:
def get_value(widget, ignore_errors=False):
"""
Retrieve value from the widget instance.
Args:
widget: Widget instance.
ignore_errors(bool, optional): Whether to ignore if no handler is found.
@@ -129,6 +130,7 @@ class WidgetIO:
def set_value(widget, value, ignore_errors=False):
"""
Set a value on the widget instance.
Args:
widget: Widget instance.
value: Value to set.
@@ -155,6 +157,7 @@ class WidgetHierarchy:
) -> None:
"""
Print the widget hierarchy to the console.
Args:
widget: Widget to print the hierarchy of
indent(int, optional): Level of indentation.
@@ -196,6 +199,7 @@ class WidgetHierarchy:
) -> dict:
"""
Export the widget hierarchy to a dictionary.
Args:
widget: Widget to print the hierarchy of.
config(dict,optional): Dictionary to export the hierarchy to.
@@ -245,6 +249,7 @@ class WidgetHierarchy:
def import_config_from_dict(widget, config: dict, set_values: bool = False) -> None:
"""
Import the widget hierarchy from a dictionary.
Args:
widget: Widget to import the hierarchy to.
config:

2
bec_widgets/utils/yaml_dialog.py
View File

@@ -9,6 +9,7 @@ from qtpy.QtWidgets import QFileDialog
def load_yaml(instance) -> Union[dict, None]:
"""
Load YAML file from disk.
Args:
instance: Instance of the calling widget.
@@ -40,6 +41,7 @@ def load_yaml(instance) -> Union[dict, None]:
def save_yaml(instance, config: dict) -> None:
"""
Save YAML file to disk.
Args:
instance: Instance of the calling widget.
config: Configuration data to be saved.

2
bec_widgets/validation/__init__.py
View File

@@ -1,2 +0,0 @@
# from .monitor_config import validate_monitor_config, ValidationError
from .monitor_config_validator import MonitorConfigValidator

257
bec_widgets/validation/monitor_config_validator.py
View File

@@ -1,257 +0,0 @@
from typing import Literal, Optional, Union
from pydantic import BaseModel, Field, ValidationError, field_validator, model_validator
from pydantic_core import PydanticCustomError
class Signal(BaseModel):
"""
Represents a signal in a plot configuration.
Attributes:
name (str): The name of the signal.
entry (Optional[str]): The entry point of the signal, optional.
"""
name: str
entry: Optional[str] = Field(None, validate_default=True)
@model_validator(mode="before")
@classmethod
def validate_fields(cls, values):
"""Validate the fields of the model.
First validate the 'name' field, then validate the 'entry' field.
Args:
values (dict): The values to be validated."""
devices = MonitorConfigValidator.devices
# Validate 'name'
name = values.get("name")
# Check if device name provided
if name is None:
raise PydanticCustomError(
"no_device_name", "Device name must be provided", {"wrong_value": name}
)
# Check if device exists in BEC
if name not in devices:
raise PydanticCustomError(
"no_device_bec",
'Device "{wrong_value}" not found in current BEC session',
{"wrong_value": name},
)
device = devices[name] # get the device to check if it has signals
# Get device description
description = device.describe()
# Validate 'entry'
entry = values.get("entry")
# Set entry based on hints if not provided
if entry is None:
entry = next(iter(device._hints), name) if hasattr(device, "_hints") else name
if entry not in description:
raise PydanticCustomError(
"no_entry_for_device",
'Entry "{wrong_value}" not found in device "{device_name}" signals',
{"wrong_value": entry, "device_name": name},
)
values["entry"] = entry
return values
class AxisSignal(BaseModel):
"""
Configuration signal axis for a single plot.
Attributes:
x (list): Signal for the X axis.
y (list): Signals for the Y axis.
"""
x: list[Signal] = Field(default_factory=list)
y: list[Signal] = Field(default_factory=list)
@field_validator("x")
@classmethod
def validate_x_signals(cls, v):
"""Ensure that there is only one signal for x-axis."""
if len(v) != 1:
raise PydanticCustomError(
"x_axis_multiple_signals",
'There must be exactly one signal for x axis. Number of x signals: "{wrong_value}"',
{"wrong_value": v},
)
return v
class SourceHistoryValidator(BaseModel):
"""History source validator
Attributes:
type (str): type of source - history
scan_id (str): Scan ID for history source.
signals (list): Signal for the source.
"""
type: Literal["history"]
scan_id: str # TODO can be validated if it is a valid scan_id
signals: AxisSignal
class SourceSegmentValidator(BaseModel):
"""Scan Segment source validator
Attributes:
type (str): type of source - scan_segment
signals (AxisSignal): Signal for the source.
"""
type: Literal["scan_segment"]
signals: AxisSignal
class SourceRedisValidator(BaseModel):
"""Scan Segment source validator
Attributes:
type (str): type of source - scan_segment
endpoint (str): Endpoint reference in redis.
update (str): Update type.
"""
type: Literal["redis"]
endpoint: str
update: str
signals: dict
class Source(BaseModel): # TODO decide if it should stay for general Source validation
"""
General source validation, includes all Optional arguments of all other sources.
Attributes:
type (list): type of source (scan_segment, history)
scan_id (Optional[str]): Scan ID for history source.
signals (Optional[AxisSignal]): Signal for the source.
"""
type: Literal["scan_segment", "history", "redis"]
scan_id: Optional[str] = None
signals: Optional[dict] = None
class PlotConfig(BaseModel):
"""
Configuration for a single plot.
Attributes:
plot_name (Optional[str]): Name of the plot.
x_label (Optional[str]): The label for the x-axis.
y_label (Optional[str]): The label for the y-axis.
sources (list): A list of sources to be plotted on this axis.
"""
plot_name: Optional[str] = None
x_label: Optional[str] = None
y_label: Optional[str] = None
sources: list = Field(default_factory=list)
@field_validator("sources")
@classmethod
def validate_sources(cls, values):
"""Validate the sources of the plot configuration, based on the type of source."""
validated_sources = []
for source in values:
# Check if source type is supported
Source(**source)
source_type = source.get("type", None)
# Validate source based on type
if source_type == "scan_segment":
validated_sources.append(SourceSegmentValidator(**source))
elif source_type == "history":
validated_sources.append(SourceHistoryValidator(**source))
elif source_type == "redis":
validated_sources.append(SourceRedisValidator(**source))
return validated_sources
class PlotSettings(BaseModel):
"""
Global settings for plotting affecting mostly visuals.
Attributes:
background_color (str): Color of the plot background. Default is black.
axis_width (Optional[int]): Width of the plot axes. Default is 2.
axis_color (Optional[str]): Color of the plot axes. Default is None.
num_columns (int): Number of columns in the plot layout. Default is 1.
colormap (str): Colormap to be used. Default is magma.
scan_types (bool): Indicates if the configuration is for different scan types. Default is False.
"""
background_color: Literal["black", "white"] = "black"
axis_width: Optional[int] = 2
axis_color: Optional[str] = None
num_columns: Optional[int] = 1
colormap: Optional[str] = "magma"
scan_types: Optional[bool] = False
class DeviceMonitorConfig(BaseModel):
"""
Configuration model for the device monitor mode.
Attributes:
plot_settings (PlotSettings): Global settings for plotting.
plot_data (list[PlotConfig]): List of plot configurations.
"""
plot_settings: PlotSettings
plot_data: list[PlotConfig]
class ScanModeConfig(BaseModel):
"""
Configuration model for scan mode.
Attributes:
plot_settings (PlotSettings): Global settings for plotting.
plot_data (dict[str, list[PlotConfig]]): Dictionary of plot configurations,
keyed by scan type.
"""
plot_settings: PlotSettings
plot_data: dict[str, list[PlotConfig]]
class MonitorConfigValidator:
"""Validates the configuration data for the BECMonitor."""
devices = None
def __init__(self, devices):
# self.device_manager = device_manager
MonitorConfigValidator.devices = devices
def validate_monitor_config(
self, config_data: dict
) -> Union[DeviceMonitorConfig, ScanModeConfig]:
"""
Validates the configuration data based on the provided schema.
Args:
config_data (dict): Configuration data to be validated.
Returns:
Union[DeviceMonitorConfig, ScanModeConfig]: Validated configuration object.
Raises:
ValidationError: If the configuration data does not conform to the schema.
"""
config_type = config_data.get("plot_settings", {}).get("scan_types", False)
if config_type:
validated_config = ScanModeConfig(**config_data)
else:
validated_config = DeviceMonitorConfig(**config_data)
return validated_config

13
bec_widgets/widgets/__init__.py
View File

@@ -1,12 +1,5 @@
from .buttons import StopButton
from .dock import BECDock, BECDockArea
from .figure import BECFigure, FigureConfig
from .monitor import BECMonitor
from .motor_control import (
MotorControlAbsolute,
MotorControlRelative,
MotorControlSelection,
MotorCoordinateTable,
MotorThread,
)
from .motor_map import MotorMap
from .plots import BECCurve, BECMotorMap, BECWaveform
from .scan_control import ScanControl
from .spiral_progress_bar import SpiralProgressBar

1
bec_widgets/widgets/buttons/__init__.py Normal file
View File

@@ -0,0 +1 @@
from .stop_button.stop_button import StopButton

0
bec_widgets/examples/eiger_plot/__init__.py → bec_widgets/widgets/buttons/stop_button/__init__.py
View File

32
bec_widgets/widgets/buttons/stop_button/stop_button.py Normal file
View File

@@ -0,0 +1,32 @@
from qtpy.QtWidgets import QPushButton
from bec_widgets.utils import BECConnector
class StopButton(BECConnector, QPushButton):
"""A button that stops the current scan."""
def __init__(self, parent=None, client=None, config=None, gui_id=None):
super().__init__(client=client, config=config, gui_id=gui_id)
QPushButton.__init__(self, parent=parent)
self.get_bec_shortcuts()
self.setText("Stop")
self.setStyleSheet("background-color: #cc181e; color: white")
self.clicked.connect(self.stop_scan)
def stop_scan(self):
"""Stop the scan."""
self.queue.request_scan_abortion()
self.queue.request_queue_reset()
if __name__ == "__main__": # pragma: no cover
import sys
from qtpy.QtWidgets import QApplication
app = QApplication(sys.argv)
widget = StopButton()
widget.show()
sys.exit(app.exec_())

0
bec_widgets/examples/mca_readout/__init__.py → bec_widgets/widgets/console/__init__.py
View File

159
bec_widgets/widgets/console/console.py Normal file
View File

@@ -0,0 +1,159 @@
import logging
import os
import platform
import sys
import termqt
from qtpy.QtCore import QSocketNotifier, Qt
from qtpy.QtGui import QFont
from qtpy.QtWidgets import QApplication, QHBoxLayout, QScrollBar, QWidget
from termqt import Terminal
try:
from qtpy.QtCore import pyqtRemoveInputHook
pyqtRemoveInputHook()
except ImportError:
pass
if platform.system() in ["Linux", "Darwin"]:
terminal_cmd = os.environ["SHELL"]
from termqt import TerminalPOSIXExecIO
class TerminalExecIO(TerminalPOSIXExecIO):
def _read_loop(self):
pass
def find_utf8_split(self, data):
"""UTF-8 characters can be 1-4 bytes long, this finds first index which is not mid character
Character lengths include:
1 Bytes: 0xxxxxxx
2 Bytes: 110xxxxx 10xxxxxx
3 Bytes: 1110xxxx 10xxxxxx 10xxxxxx
4 bytes: 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
Source: https://en.wikipedia.org/wiki/UTF-8#Encoding
Start at end of chunk moving backwards, find first UTF-8 start byte:
1 Bytes: 0xxxxxxx - 0x80 == 0x00
2 Bytes: 110xxxxx - 0xE0 == 0xC0
3 Bytes: 1110xxxx - 0xF0 == 0xE0
4 bytes: 11110xxx - 0xF8 == 0xF0
Parameters:
data (bytes) - buffer to be evaluated
Returns:
(int) - last position of complete UTF-8 character
"""
pos = 0
for i, c in enumerate(reversed(data)):
if c & 0x80 == 0x00 or c & 0xE0 == 0xC0 or c & 0xF0 == 0xE0 or c & 0xF8 == 0xF0:
pos = i
break
return len(data) - pos
def _read(self, fd):
try:
data = os.read(fd, 2**16) # read as much as possible
except OSError:
data = b""
if data:
self._read_buf += data
i = self.find_utf8_split(self._read_buf)
output = self._read_buf[:i]
self._read_buf = self._read_buf[i:]
self.stdout_callback(output)
else:
self.logger.info("Spawned process has been killed")
if self.running:
self.running = False
self.terminated_callback()
os.close(fd)
def spawn(self):
super().spawn()
self._read_notifier = QSocketNotifier(self.fd, QSocketNotifier.Read)
self._read_notifier.activated.connect(self._read)
def write(self, buffer):
# same as original method, but without logging and without assert (unneeded)
if not self.running:
return
try:
os.write(self.fd, buffer)
except OSError:
self.running = False
self.terminated_callback()
else:
terminal_cmd = "cmd.exe"
from termqt import TerminalWinptyIO as TerminalExecIO
class TerminalWidget(QWidget):
def __init__(self, logger):
super().__init__()
self.logger = logger
self.terminal = Terminal(800, 600, logger=self.logger)
self.terminal.set_font()
self.terminal.maximum_line_history = 2000
self.scroll = QScrollBar(Qt.Vertical, self.terminal)
self.terminal.connect_scroll_bar(self.scroll)
layout = QHBoxLayout()
layout.addWidget(self.terminal)
layout.addWidget(self.scroll)
layout.setSpacing(0)
self.setLayout(layout)
class BECConsole(QWidget):
def __init__(self):
super().__init__()
self.setWindowTitle(f"termqt on {platform.system()}")
self.logger = self.setup_logger()
self.terminal_widget = TerminalWidget(self.logger)
layout = QHBoxLayout()
layout.addWidget(self.terminal_widget)
self.setLayout(layout)
self.auto_wrap_enabled = True
self.platform = platform.system()
self.setup_terminal_io()
def setup_logger(self):
logger = logging.getLogger()
logger.setLevel(logging.DEBUG)
handler = logging.StreamHandler()
formatter = logging.Formatter("[%(asctime)s] > [%(filename)s:%(lineno)d] %(message)s")
handler.setFormatter(formatter)
logger.addHandler(handler)
return logger
def setup_terminal_io(self):
self.terminal_io = TerminalExecIO(
self.terminal_widget.terminal.row_len,
self.terminal_widget.terminal.col_len,
terminal_cmd,
logger=self.logger,
)
self.auto_wrap_enabled = False
self.terminal_widget.terminal.enable_auto_wrap(self.auto_wrap_enabled)
self.terminal_io.stdout_callback = self.terminal_widget.terminal.stdout
self.terminal_widget.terminal.stdin_callback = self.terminal_io.write
self.terminal_widget.terminal.resize_callback = self.terminal_io.resize
self.terminal_io.spawn()
if __name__ == "__main__":
app = QApplication([])
main_window = BECConsole()
main_window.show()
sys.exit(app.exec())

2
bec_widgets/widgets/dock/__init__.py Normal file
View File

@@ -0,0 +1,2 @@
from .dock import BECDock
from .dock_area import BECDockArea

249
bec_widgets/widgets/dock/dock.py Normal file
View File

@@ -0,0 +1,249 @@
from __future__ import annotations
from typing import TYPE_CHECKING, Any, Literal, Optional
from pydantic import Field
from pyqtgraph.dockarea import Dock
from bec_widgets.cli.rpc_wigdet_handler import RPCWidgetHandler
from bec_widgets.utils import BECConnector, ConnectionConfig, GridLayoutManager
if TYPE_CHECKING:
from qtpy.QtWidgets import QWidget
from bec_widgets.widgets import BECDockArea
class DockConfig(ConnectionConfig):
widgets: dict[str, Any] = Field({}, description="The widgets in the dock.")
position: Literal["bottom", "top", "left", "right", "above", "below"] = Field(
"bottom", description="The position of the dock."
)
parent_dock_area: Optional[str] = Field(
None, description="The GUI ID of parent dock area of the dock."
)
class BECDock(BECConnector, Dock):
USER_ACCESS = [
"config_dict",
"rpc_id",
"widget_list",
"show_title_bar",
"hide_title_bar",
"get_widgets_positions",
"set_title",
"add_widget",
"list_eligible_widgets",
"move_widget",
"remove_widget",
"remove",
"attach",
"detach",
]
def __init__(
self,
parent: QWidget | None = None,
parent_dock_area: BECDockArea | None = None,
config: DockConfig | None = None,
name: str | None = None,
client=None,
gui_id: str | None = None,
**kwargs,
) -> None:
if config is None:
config = DockConfig(
widget_class=self.__class__.__name__, parent_dock_area=parent_dock_area.gui_id
)
else:
if isinstance(config, dict):
config = DockConfig(**config)
self.config = config
super().__init__(client=client, config=config, gui_id=gui_id)
Dock.__init__(self, name=name, **kwargs)
# Layout Manager
self.layout_manager = GridLayoutManager(self.layout)
def dropEvent(self, event):
source = event.source()
old_area = source.area
self.setOrientation("horizontal", force=True)
super().dropEvent(event)
if old_area in self.orig_area.tempAreas and old_area != self.orig_area:
self.orig_area.removeTempArea(old_area)
def float(self):
"""
Float the dock.
Overwrites the default pyqtgraph dock float.
"""
# need to check if the dock is temporary and if it is the only dock in the area
# fixes bug in pyqtgraph detaching
if self.area.temporary == True and len(self.area.docks) <= 1:
return
elif self.area.temporary == True and len(self.area.docks) > 1:
self.area.docks.pop(self.name(), None)
super().float()
else:
super().float()
@property
def widget_list(self) -> list[BECConnector]:
"""
Get the widgets in the dock.
Returns:
widgets(list): The widgets in the dock.
"""
return self.widgets
@widget_list.setter
def widget_list(self, value: list[BECConnector]):
self.widgets = value
def hide_title_bar(self):
"""
Hide the title bar of the dock.
"""
# self.hideTitleBar() #TODO pyqtgraph looks bugged ATM, doing my implementation
self.label.hide()
self.labelHidden = True
def show_title_bar(self):
"""
Hide the title bar of the dock.
"""
# self.showTitleBar() #TODO pyqtgraph looks bugged ATM, doing my implementation
self.label.show()
self.labelHidden = False
def set_title(self, title: str):
"""
Set the title of the dock.
Args:
title(str): The title of the dock.
"""
self.orig_area.docks[title] = self.orig_area.docks.pop(self.name())
self.setTitle(title)
self._name = title
def get_widgets_positions(self) -> dict:
"""
Get the positions of the widgets in the dock.
Returns:
dict: The positions of the widgets in the dock as dict -> {(row, col, rowspan, colspan):widget}
"""
return self.layout_manager.get_widgets_positions()
def list_eligible_widgets(
self,
) -> list: # TODO can be moved to some util mixin like container class for rpc widgets
"""
List all widgets that can be added to the dock.
Returns:
list: The list of eligible widgets.
"""
return list(RPCWidgetHandler.widget_classes.keys())
def add_widget(
self,
widget: BECConnector | str,
row=None,
col=0,
rowspan=1,
colspan=1,
shift: Literal["down", "up", "left", "right"] = "down",
) -> BECConnector:
"""
Add a widget to the dock.
Args:
widget(QWidget): The widget to add.
row(int): The row to add the widget to. If None, the widget will be added to the next available row.
col(int): The column to add the widget to.
rowspan(int): The number of rows the widget should span.
colspan(int): The number of columns the widget should span.
shift(Literal["down", "up", "left", "right"]): The direction to shift the widgets if the position is occupied.
"""
if row is None:
row = self.layout.rowCount()
if self.layout_manager.is_position_occupied(row, col):
self.layout_manager.shift_widgets(shift, start_row=row)
if isinstance(widget, str):
widget = RPCWidgetHandler.create_widget(widget)
else:
widget = widget
self.addWidget(widget, row=row, col=col, rowspan=rowspan, colspan=colspan)
if hasattr(widget, "config"):
self.config.widgets[widget.gui_id] = widget.config
return widget
def move_widget(self, widget: QWidget, new_row: int, new_col: int):
"""
Move a widget to a new position in the layout.
Args:
widget(QWidget): The widget to move.
new_row(int): The new row to move the widget to.
new_col(int): The new column to move the widget to.
"""
self.layout_manager.move_widget(widget, new_row, new_col)
def attach(self):
"""
Attach the dock to the parent dock area.
"""
self.orig_area.removeTempArea(self.area)
def detach(self):
"""
Detach the dock from the parent dock area.
"""
self.float()
def remove_widget(self, widget_rpc_id: str):
"""
Remove a widget from the dock.
Args:
widget_rpc_id(str): The ID of the widget to remove.
"""
widget = self.rpc_register.get_rpc_by_id(widget_rpc_id)
self.layout.removeWidget(widget)
self.config.widgets.pop(widget_rpc_id, None)
widget.close()
def remove(self):
"""
Remove the dock from the parent dock area.
"""
# self.cleanup()
self.orig_area.remove_dock(self.name())
def cleanup(self):
"""
Clean up the dock, including all its widgets.
"""
for widget in self.widgets:
if hasattr(widget, "cleanup"):
widget.cleanup()
super().cleanup()
def close(self):
"""
Close the dock area and cleanup.
Has to be implemented to overwrite pyqtgraph event accept in Container close.
"""
self.cleanup()
super().close()

244
bec_widgets/widgets/dock/dock_area.py Normal file
View File

@@ -0,0 +1,244 @@
from __future__ import annotations
from typing import Literal, Optional
from weakref import WeakValueDictionary
from pydantic import Field
from pyqtgraph.dockarea.DockArea import DockArea
from qtpy.QtCore import Qt
from qtpy.QtGui import QPainter, QPaintEvent
from qtpy.QtWidgets import QWidget
from bec_widgets.utils import BECConnector, ConnectionConfig, WidgetContainerUtils
from .dock import BECDock, DockConfig
class DockAreaConfig(ConnectionConfig):
docks: dict[str, DockConfig] = Field({}, description="The docks in the dock area.")
docks_state: Optional[dict] = Field(
None, description="The state of the docks in the dock area."
)
class BECDockArea(BECConnector, DockArea):
USER_ACCESS = [
"config_dict",
"panels",
"save_state",
"remove_dock",
"restore_state",
"add_dock",
"clear_all",
"detach_dock",
"attach_all",
"get_all_rpc",
"temp_areas",
]
def __init__(
self,
parent: QWidget | None = None,
config: DockAreaConfig | None = None,
client=None,
gui_id: str = None,
) -> None:
if config is None:
config = DockAreaConfig(widget_class=self.__class__.__name__)
else:
if isinstance(config, dict):
config = DockAreaConfig(**config)
self.config = config
super().__init__(client=client, config=config, gui_id=gui_id)
DockArea.__init__(self, parent=parent)
self._instructions_visible = True
def paintEvent(self, event: QPaintEvent):
super().paintEvent(event)
if self._instructions_visible:
painter = QPainter(self)
painter.drawText(self.rect(), Qt.AlignCenter, "Add docks using 'add_dock' method")
@property
def panels(self) -> dict[str, BECDock]:
"""
Get the docks in the dock area.
Returns:
dock_dict(dict): The docks in the dock area.
"""
return dict(self.docks)
@panels.setter
def panels(self, value: dict[str, BECDock]):
self.docks = WeakValueDictionary(value)
@property
def temp_areas(self) -> list:
"""
Get the temporary areas in the dock area.
Returns:
list: The temporary areas in the dock area.
"""
return list(map(str, self.tempAreas))
@temp_areas.setter
def temp_areas(self, value: list):
self.tempAreas = list(map(str, value))
def restore_state(
self, state: dict = None, missing: Literal["ignore", "error"] = "ignore", extra="bottom"
):
"""
Restore the state of the dock area. If no state is provided, the last state is restored.
Args:
state(dict): The state to restore.
missing(Literal['ignore','error']): What to do if a dock is missing.
extra(str): Extra docks that are in the dockarea but that are not mentioned in state will be added to the bottom of the dockarea, unless otherwise specified by the extra argument.
"""
if state is None:
state = self.config.docks_state
self.restoreState(state, missing=missing, extra=extra)
def save_state(self) -> dict:
"""
Save the state of the dock area.
Returns:
dict: The state of the dock area.
"""
last_state = self.saveState()
self.config.docks_state = last_state
return last_state
def remove_dock(self, name: str):
"""
Remove a dock by name and ensure it is properly closed and cleaned up.
Args:
name(str): The name of the dock to remove.
"""
dock = self.docks.pop(name, None)
self.config.docks.pop(name, None)
if dock:
dock.close()
if len(self.docks) <= 1:
for dock in self.docks.values():
dock.hide_title_bar()
else:
raise ValueError(f"Dock with name {name} does not exist.")
def add_dock(
self,
name: str = None,
position: Literal["bottom", "top", "left", "right", "above", "below"] = None,
relative_to: BECDock | None = None,
closable: bool = False,
floating: bool = False,
prefix: str = "dock",
widget: str | QWidget | None = None,
row: int = None,
col: int = 0,
rowspan: int = 1,
colspan: int = 1,
) -> BECDock:
"""
Add a dock to the dock area. Dock has QGridLayout as layout manager by default.
Args:
name(str): The name of the dock to be displayed and for further references. Has to be unique.
position(Literal["bottom", "top", "left", "right", "above", "below"]): The position of the dock.
relative_to(BECDock): The dock to which the new dock should be added relative to.
closable(bool): Whether the dock is closable.
floating(bool): Whether the dock is detached after creating.
prefix(str): The prefix for the dock name if no name is provided.
widget(str|QWidget|None): The widget to be added to the dock. While using RPC, only BEC RPC widgets from RPCWidgetHandler are allowed.
row(int): The row of the added widget.
col(int): The column of the added widget.
rowspan(int): The rowspan of the added widget.
colspan(int): The colspan of the added widget.
Returns:
BECDock: The created dock.
"""
if name is None:
name = WidgetContainerUtils.generate_unique_widget_id(
container=self.docks, prefix=prefix
)
if name in set(self.docks.keys()):
raise ValueError(f"Dock with name {name} already exists.")
if position is None:
position = "bottom"
dock = BECDock(name=name, parent_dock_area=self, closable=closable)
dock.config.position = position
self.config.docks[name] = dock.config
self.addDock(dock=dock, position=position, relativeTo=relative_to)
if len(self.docks) <= 1:
dock.hide_title_bar()
elif len(self.docks) > 1:
for dock in self.docks.values():
dock.show_title_bar()
if widget is not None and isinstance(widget, str):
dock.add_widget(widget=widget, row=row, col=col, rowspan=rowspan, colspan=colspan)
elif widget is not None and isinstance(widget, QWidget):
dock.addWidget(widget, row=row, col=col, rowspan=rowspan, colspan=colspan)
if self._instructions_visible:
self._instructions_visible = False
self.update()
if floating:
dock.detach()
return dock
def detach_dock(self, dock_name: str) -> BECDock:
"""
Undock a dock from the dock area.
Args:
dock_name(str): The dock to undock.
Returns:
BECDock: The undocked dock.
"""
dock = self.docks[dock_name]
dock.detach()
return dock
def attach_all(self):
"""
Return all floating docks to the dock area.
"""
while self.tempAreas:
for temp_area in self.tempAreas:
self.removeTempArea(temp_area)
def clear_all(self):
"""
Close all docks and remove all temp areas.
"""
self.attach_all()
for dock in dict(self.docks).values():
dock.remove()
def cleanup(self):
"""
Cleanup the dock area.
"""
self.clear_all()
super().cleanup()
def close(self):
"""
Close the dock area and cleanup.
Has to be implemented to overwrite pyqtgraph event accept in Container close.
"""
self.cleanup()
super().close()

368
bec_widgets/widgets/figure/figure.py
View File

@@ -1,30 +1,23 @@
# pylint: disable = no-name-in-module,missing-module-docstring
from __future__ import annotations
import itertools
import os
import uuid
from collections import defaultdict
from typing import Literal, Optional, Type
from typing import Literal, Optional
import numpy as np
import pyqtgraph as pg
import qdarktheme
from pydantic import Field
from pyqtgraph.Qt import uic
from qtpy.QtCore import Signal as pyqtSignal
from qtpy.QtWidgets import QApplication, QMainWindow, QVBoxLayout, QWidget
from qtpy.QtWidgets import QWidget
from typeguard import typechecked
from bec_widgets.utils import BECConnector, BECDispatcher, ConnectionConfig, WidgetContainerUtils
from bec_widgets.widgets.plots import (
BECImageShow,
BECMotorMap,
BECPlotBase,
BECWaveform,
Waveform1DConfig,
WidgetConfig,
)
from bec_widgets.widgets.plots.image import ImageConfig
from bec_widgets.widgets.plots.motor_map import MotorMapConfig
from bec_widgets.utils import BECConnector, ConnectionConfig, WidgetContainerUtils
from bec_widgets.widgets.figure.plots.image.image import BECImageShow, ImageConfig
from bec_widgets.widgets.figure.plots.motor_map.motor_map import BECMotorMap, MotorMapConfig
from bec_widgets.widgets.figure.plots.plot_base import BECPlotBase, SubplotConfig
from bec_widgets.widgets.figure.plots.waveform.waveform import BECWaveform, Waveform1DConfig
class FigureConfig(ConnectionConfig):
@@ -33,7 +26,7 @@ class FigureConfig(ConnectionConfig):
theme: Literal["dark", "light"] = Field("dark", description="The theme of the figure widget.")
num_cols: int = Field(1, description="The number of columns in the figure widget.")
num_rows: int = Field(1, description="The number of rows in the figure widget.")
widgets: dict[str, WidgetConfig] = Field(
widgets: dict[str, Waveform1DConfig | ImageConfig | MotorMapConfig | SubplotConfig] = Field(
{}, description="The list of widgets to be added to the figure widget."
)
@@ -43,7 +36,7 @@ class WidgetHandler:
def __init__(self):
self.widget_factory = {
"PlotBase": (BECPlotBase, WidgetConfig),
"PlotBase": (BECPlotBase, SubplotConfig),
"Waveform1D": (BECWaveform, Waveform1DConfig),
"ImShow": (BECImageShow, ImageConfig),
"MotorMap": (BECMotorMap, MotorMapConfig),
@@ -166,18 +159,34 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
@widget_list.setter
def widget_list(self, value: list[BECPlotBase]):
"""
Access all widget in BECFigure as a list
Returns:
list[BECPlotBase]: List of all widgets in the figure.
"""
self._axes = value
@property
def widgets(self) -> dict:
"""
All widgets within the figure with gui ids as keys.
Returns:
dict: All widgets within the figure.
"""
return self._widgets
@widgets.setter
def widgets(self, value: dict):
"""
All widgets within the figure with gui ids as keys.
Returns:
dict: All widgets within the figure.
"""
self._widgets = value
def add_plot(
def _init_waveform(
self,
waveform,
x_name: str = None,
y_name: str = None,
z_name: str = None,
@@ -190,32 +199,45 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
color_map_z: Optional[str] = "plasma",
label: Optional[str] = None,
validate: bool = True,
row: int = None,
col: int = None,
config=None,
**axis_kwargs,
) -> BECWaveform:
):
"""
Add a Waveform1D plot to the figure at the specified position.
Configure the waveform based on the provided parameters.
Args:
widget_id(str): The unique identifier of the widget. If not provided, a unique ID will be generated.
row(int): The row coordinate of the widget in the figure. If not provided, the next empty row will be used.
col(int): The column coordinate of the widget in the figure. If not provided, the next empty column will be used.
config(dict): Additional configuration for the widget.
**axis_kwargs(dict): Additional axis properties to set on the widget after creation.
waveform (BECWaveform): The waveform to configure.
x (list | np.ndarray): Custom x data to plot.
y (list | np.ndarray): Custom y data to plot.
x_name (str): The name of the device for the x-axis.
y_name (str): The name of the device for the y-axis.
z_name (str): The name of the device for the z-axis.
x_entry (str): The name of the entry for the x-axis.
y_entry (str): The name of the entry for the y-axis.
z_entry (str): The name of the entry for the z-axis.
color (str): The color of the curve.
color_map_z (str): The color map to use for the z-axis.
label (str): The label of the curve.
validate (bool): If True, validate the device names and entries.
"""
widget_id = WidgetContainerUtils.generate_unique_widget_id(self._widgets)
waveform = self.add_widget(
widget_type="Waveform1D",
widget_id=widget_id,
row=row,
col=col,
config=config,
**axis_kwargs,
)
# TODO remove repetition from .plot method
if x is not None and y is None:
if isinstance(x, np.ndarray):
if x.ndim == 1:
y = np.arange(x.size)
waveform.add_curve_custom(x=np.arange(x.size), y=x, color=color, label=label)
return waveform
if x.ndim == 2:
waveform.add_curve_custom(x=x[:, 0], y=x[:, 1], color=color, label=label)
return waveform
elif isinstance(x, list):
y = np.arange(len(x))
waveform.add_curve_custom(x=np.arange(len(x)), y=x, color=color, label=label)
return waveform
else:
raise ValueError(
"Invalid input. Provide either device names (x_name, y_name) or custom data."
)
if x is not None and y is not None:
waveform.add_curve_custom(x=x, y=y, color=color, label=label)
return waveform
# User wants to add scan curve -> 1D Waveform
if x_name is not None and y_name is not None and z_name is None and x is None and y is None:
waveform.add_curve_scan(
@@ -249,42 +271,106 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
)
# User wants to add custom curve
elif x is not None and y is not None and x_name is None and y_name is None:
waveform.add_curve_custom(
x=x,
y=y,
color=color,
label=label,
)
waveform.add_curve_custom(x=x, y=y, color=color, label=label)
return waveform
def plot(
def add_plot(
self,
x: list | np.ndarray = None,
y: list | np.ndarray = None,
x_name: str = None,
y_name: str = None,
z_name: str = None,
x_entry: str = None,
y_entry: str = None,
z_entry: str = None,
x: list | np.ndarray = None,
y: list | np.ndarray = None,
color: Optional[str] = None,
color_map_z: Optional[str] = "plasma",
label: Optional[str] = None,
validate: bool = True,
row: int = None,
col: int = None,
config=None,
**axis_kwargs,
) -> BECWaveform:
"""
Add a 1D waveform plot to the figure. Always access the first waveform widget in the figure.
Add a Waveform1D plot to the figure at the specified position.
Args:
x(list | np.ndarray): Custom x data to plot.
y(list | np.ndarray): Custom y data to plot.
x_name(str): The name of the device for the x-axis.
y_name(str): The name of the device for the y-axis.
z_name(str): The name of the device for the z-axis.
x_entry(str): The name of the entry for the x-axis.
y_entry(str): The name of the entry for the y-axis.
z_entry(str): The name of the entry for the z-axis.
color(str): The color of the curve.
color_map_z(str): The color map to use for the z-axis.
label(str): The label of the curve.
validate(bool): If True, validate the device names and entries.
row(int): The row coordinate of the widget in the figure. If not provided, the next empty row will be used.
col(int): The column coordinate of the widget in the figure. If not provided, the next empty column will be used.
config(dict): Additional configuration for the widget.
**axis_kwargs(dict): Additional axis properties to set on the widget after creation.
"""
widget_id = str(uuid.uuid4())
waveform = self.add_widget(
widget_type="Waveform1D",
widget_id=widget_id,
row=row,
col=col,
config=config,
**axis_kwargs,
)
waveform = self._init_waveform(
waveform=waveform,
x=x,
y=y,
x_name=x_name,
y_name=y_name,
z_name=z_name,
x_entry=x_entry,
y_entry=y_entry,
z_entry=z_entry,
color=color,
color_map_z=color_map_z,
label=label,
validate=validate,
)
return waveform
@typechecked
def plot(
self,
x: list | np.ndarray | None = None,
y: list | np.ndarray | None = None,
x_name: str | None = None,
y_name: str | None = None,
z_name: str | None = None,
x_entry: str | None = None,
y_entry: str | None = None,
z_entry: str | None = None,
color: str | None = None,
color_map_z: str | None = "plasma",
label: str | None = None,
validate: bool = True,
**axis_kwargs,
) -> BECWaveform:
"""
Add a 1D waveform plot to the figure. Always access the first waveform widget in the figure.
Args:
x(list | np.ndarray): Custom x data to plot.
y(list | np.ndarray): Custom y data to plot.
x_name(str): The name of the device for the x-axis.
y_name(str): The name of the device for the y-axis.
z_name(str): The name of the device for the z-axis.
x_entry(str): The name of the entry for the x-axis.
y_entry(str): The name of the entry for the y-axis.
z_entry(str): The name of the entry for the z-axis.
color(str): The color of the curve.
color_map_z(str): The color map to use for the z-axis.
label(str): The label of the curve.
@@ -303,54 +389,61 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
else:
waveform = self.add_plot(**axis_kwargs)
# User wants to add scan curve -> 1D Waveform
if x_name is not None and y_name is not None and z_name is None and x is None and y is None:
waveform.add_curve_scan(
x_name=x_name,
y_name=y_name,
x_entry=x_entry,
y_entry=y_entry,
color=color,
color_map_z="plasma",
label=label,
validate=validate,
)
# User wants to add scan curve -> 2D Waveform Scatter
elif (
x_name is not None
and y_name is not None
and z_name is not None
and x is None
and y is None
):
waveform.add_curve_scan(
x_name=x_name,
y_name=y_name,
z_name=z_name,
x_entry=x_entry,
y_entry=y_entry,
z_entry=z_entry,
color=color,
color_map_z=color_map_z,
label=label,
validate=validate,
)
# User wants to add custom curve
elif (
x is not None and y is not None and x_name is None and y_name is None and z_name is None
):
waveform.add_curve_custom(
x=x,
y=y,
color=color,
label=label,
)
else:
raise ValueError(
"Invalid input. Provide either device names (x_name, y_name) or custom data."
)
waveform = self._init_waveform(
waveform=waveform,
x=x,
y=y,
x_name=x_name,
y_name=y_name,
z_name=z_name,
x_entry=x_entry,
y_entry=y_entry,
z_entry=z_entry,
color=color,
color_map_z=color_map_z,
label=label,
validate=validate,
)
# TODO remove repetition from .plot method
return waveform
def _init_image(
self,
image,
monitor: str = None,
color_bar: Literal["simple", "full"] = "full",
color_map: str = "magma",
data: np.ndarray = None,
vrange: tuple[float, float] = None,
) -> BECImageShow:
"""
Configure the image based on the provided parameters.
Args:
image (BECImageShow): The image to configure.
monitor (str): The name of the monitor to display.
color_bar (Literal["simple","full"]): The type of color bar to display.
color_map (str): The color map to use for the image.
data (np.ndarray): Custom data to display.
"""
if monitor is not None and data is None:
image.add_monitor_image(
monitor=monitor, color_map=color_map, vrange=vrange, color_bar=color_bar
)
elif data is not None and monitor is None:
image.add_custom_image(
name="custom", data=data, color_map=color_map, vrange=vrange, color_bar=color_bar
)
elif data is None and monitor is None:
# Setting appearance
if vrange is not None:
image.set_vrange(vmin=vrange[0], vmax=vrange[1])
if color_map is not None:
image.set_color_map(color_map)
else:
raise ValueError("Invalid input. Provide either monitor name or custom data.")
return image
def image(
self,
monitor: str = None,
@@ -362,6 +455,7 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
) -> BECImageShow:
"""
Add an image to the figure. Always access the first image widget in the figure.
Args:
monitor(str): The name of the monitor to display.
color_bar(Literal["simple","full"]): The type of color bar to display.
@@ -382,23 +476,14 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
else:
image = self.add_image(color_bar=color_bar, **axis_kwargs)
# Setting data #TODO check logic if monitor or data are already created
if monitor is not None and data is None:
image.add_monitor_image(
monitor=monitor, color_map=color_map, vrange=vrange, color_bar=color_bar
)
elif data is not None and monitor is None:
image.add_custom_image(
name="custom", data=data, color_map=color_map, vrange=vrange, color_bar=color_bar
)
elif data is None and monitor is None:
# Setting appearance
if vrange is not None:
image.set_vrange(vmin=vrange[0], vmax=vrange[1])
if color_map is not None:
image.set_color_map(color_map)
else:
raise ValueError("Invalid input. Provide either monitor name or custom data.")
image = self._init_image(
image=image,
monitor=monitor,
color_bar=color_bar,
color_map=color_map,
data=data,
vrange=vrange,
)
return image
def add_image(
@@ -415,6 +500,7 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
) -> BECImageShow:
"""
Add an image to the figure at the specified position.
Args:
monitor(str): The name of the monitor to display.
color_bar(Literal["simple","full"]): The type of color bar to display.
@@ -430,7 +516,7 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
BECImageShow: The image widget.
"""
widget_id = WidgetContainerUtils.generate_unique_widget_id(self._widgets)
widget_id = str(uuid.uuid4())
if config is None:
config = ImageConfig(
widget_class="BECImageShow",
@@ -448,27 +534,20 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
config=config,
**axis_kwargs,
)
# TODO remove repetition from .image method
if monitor is not None and data is None:
image.add_monitor_image(
monitor=monitor, color_map=color_map, vrange=vrange, color_bar=color_bar
)
elif data is not None and monitor is None:
image.add_custom_image(
name="custom", data=data, color_map=color_map, vrange=vrange, color_bar=color_bar
)
elif data is None and monitor is None:
# Setting appearance
if vrange is not None:
image.set_vrange(vmin=vrange[0], vmax=vrange[1])
if color_map is not None:
image.set_color_map(color_map)
image = self._init_image(
image=image,
monitor=monitor,
color_bar=color_bar,
color_map=color_map,
data=data,
vrange=vrange,
)
return image
def motor_map(self, motor_x: str = None, motor_y: str = None, **axis_kwargs) -> BECMotorMap:
"""
Add a motor map to the figure. Always access the first motor map widget in the figure.
Args:
motor_x(str): The name of the motor for the X axis.
motor_y(str): The name of the motor for the Y axis.
@@ -513,12 +592,10 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
Returns:
BECMotorMap: The motor map widget.
"""
widget_id = WidgetContainerUtils.generate_unique_widget_id(self._widgets)
widget_id = str(uuid.uuid4())
if config is None:
config = MotorMapConfig(
widget_class="BECMotorMap",
gui_id=widget_id,
parent_id=self.gui_id,
widget_class="BECMotorMap", gui_id=widget_id, parent_id=self.gui_id
)
motor_map = self.add_widget(
widget_type="MotorMap",
@@ -545,6 +622,7 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
) -> BECPlotBase:
"""
Add a widget to the figure at the specified position.
Args:
widget_type(Literal["PlotBase","Waveform1D"]): The type of the widget to add.
widget_id(str): The unique identifier of the widget. If not provided, a unique ID will be generated.
@@ -554,7 +632,7 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
**axis_kwargs(dict): Additional axis properties to set on the widget after creation.
"""
if not widget_id:
widget_id = WidgetContainerUtils.generate_unique_widget_id(self._widgets)
widget_id = str(uuid.uuid4())
if widget_id in self._widgets:
raise ValueError(f"Widget with ID '{widget_id}' already exists.")
@@ -607,6 +685,7 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
) -> None:
"""
Remove a widget from the figure. Can be removed by its unique identifier or by its coordinates.
Args:
row(int): The row coordinate of the widget to remove.
col(int): The column coordinate of the widget to remove.
@@ -625,6 +704,7 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
def change_theme(self, theme: Literal["dark", "light"]) -> None:
"""
Change the theme of the figure widget.
Args:
theme(Literal["dark","light"]): The theme to set for the figure widget.
"""
@@ -635,6 +715,7 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
def _remove_by_coordinates(self, row: int, col: int) -> None:
"""
Remove a widget from the figure by its coordinates.
Args:
row(int): The row coordinate of the widget to remove.
col(int): The column coordinate of the widget to remove.
@@ -648,6 +729,7 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
def _remove_by_id(self, widget_id: str) -> None:
"""
Remove a widget from the figure by its unique identifier.
Args:
widget_id(str): The unique identifier of the widget to remove.
"""
@@ -665,6 +747,7 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
def axes(self, row: int, col: int) -> BECPlotBase:
"""
Get widget by its coordinates in the figure.
Args:
row(int): the row coordinate
col(int): the column coordinate
@@ -687,6 +770,7 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
def _change_grid(self, widget_id: str, row: int, col: int):
"""
Change the grid to reflect the new position of the widget.
Args:
widget_id(str): The unique identifier of the widget.
row(int): The new row coordinate of the widget in the figure.
@@ -767,12 +851,16 @@ class BECFigure(BECConnector, pg.GraphicsLayoutWidget):
def clear_all(self):
"""Clear all widgets from the figure and reset to default state"""
for widget in self._widgets.values():
widget.cleanup()
self.clear()
for widget in list(self._widgets.values()):
widget.remove()
# self.clear()
self._widgets = defaultdict(dict)
self.grid = []
theme = self.config.theme
self.config = FigureConfig(
widget_class=self.__class__.__name__, gui_id=self.gui_id, theme=theme
)
def cleanup(self):
self.clear_all()
super().cleanup()

0
bec_widgets/examples/stream_plot/__init__.py → bec_widgets/widgets/figure/plots/__init__.py
View File

0
bec_widgets/simulations/__init__.py → bec_widgets/widgets/figure/plots/image/__init__.py
View File

438
bec_widgets/widgets/plots/image.py → bec_widgets/widgets/figure/plots/image/image.py
View File

@@ -4,295 +4,25 @@ from collections import defaultdict
from typing import Any, Literal, Optional
import numpy as np
import pyqtgraph as pg
from bec_lib import MessageEndpoints
from pydantic import BaseModel, Field, ValidationError
from qtpy.QtCore import QObject, QThread
from qtpy.QtCore import Signal as pyqtSignal
from bec_lib.endpoints import MessageEndpoints
from pydantic import Field, ValidationError
from qtpy.QtCore import QThread
from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtWidgets import QWidget
from bec_widgets.utils import BECConnector, ConnectionConfig, EntryValidator
from .plot_base import BECPlotBase, WidgetConfig
from bec_widgets.utils import EntryValidator
from bec_widgets.widgets.figure.plots.image.image_item import BECImageItem, ImageItemConfig
from bec_widgets.widgets.figure.plots.image.image_processor import ImageProcessor, ProcessorWorker
from bec_widgets.widgets.figure.plots.plot_base import BECPlotBase, SubplotConfig
class ProcessingConfig(BaseModel):
fft: Optional[bool] = Field(False, description="Whether to perform FFT on the monitor data.")
log: Optional[bool] = Field(False, description="Whether to perform log on the monitor data.")
center_of_mass: Optional[bool] = Field(
False, description="Whether to calculate the center of mass of the monitor data."
)
transpose: Optional[bool] = Field(
False, description="Whether to transpose the monitor data before displaying."
)
rotation: Optional[int] = Field(
None, description="The rotation angle of the monitor data before displaying."
)
class ImageItemConfig(ConnectionConfig):
parent_id: Optional[str] = Field(None, description="The parent plot of the image.")
monitor: Optional[str] = Field(None, description="The name of the monitor.")
source: Optional[str] = Field(None, description="The source of the curve.")
color_map: Optional[str] = Field("magma", description="The color map of the image.")
downsample: Optional[bool] = Field(True, description="Whether to downsample the image.")
opacity: Optional[float] = Field(1.0, description="The opacity of the image.")
vrange: Optional[tuple[int, int]] = Field(
None, description="The range of the color bar. If None, the range is automatically set."
)
color_bar: Optional[Literal["simple", "full"]] = Field(
"simple", description="The type of the color bar."
)
autorange: Optional[bool] = Field(True, description="Whether to autorange the color bar.")
processing: ProcessingConfig = Field(
default_factory=ProcessingConfig, description="The post processing of the image."
)
class ImageConfig(WidgetConfig):
class ImageConfig(SubplotConfig):
images: dict[str, ImageItemConfig] = Field(
{},
description="The configuration of the images. The key is the name of the image (source).",
)
class BECImageItem(BECConnector, pg.ImageItem):
USER_ACCESS = [
"rpc_id",
"config_dict",
"set",
"set_fft",
"set_log",
"set_rotation",
"set_transpose",
"set_opacity",
"set_autorange",
"set_color_map",
"set_auto_downsample",
"set_monitor",
"set_vrange",
"get_data",
]
def __init__(
self,
config: Optional[ImageItemConfig] = None,
gui_id: Optional[str] = None,
parent_image: Optional[BECImageItem] = None,
**kwargs,
):
if config is None:
config = ImageItemConfig(widget_class=self.__class__.__name__)
self.config = config
else:
self.config = config
super().__init__(config=config, gui_id=gui_id)
pg.ImageItem.__init__(self)
self.parent_image = parent_image
self.colorbar_bar = None
self._add_color_bar(
self.config.color_bar, self.config.vrange
) # TODO can also support None to not have any colorbar
self.apply_config()
if kwargs:
self.set(**kwargs)
def apply_config(self):
"""
Apply current configuration.
"""
self.set_color_map(self.config.color_map)
self.set_auto_downsample(self.config.downsample)
if self.config.vrange is not None:
self.set_vrange(vrange=self.config.vrange)
def set(self, **kwargs):
"""
Set the properties of the image.
Args:
**kwargs: Keyword arguments for the properties to be set.
Possible properties:
- downsample
- color_map
- monitor
- opacity
- vrange
- fft
- log
- rot
- transpose
"""
method_map = {
"downsample": self.set_auto_downsample,
"color_map": self.set_color_map,
"monitor": self.set_monitor,
"opacity": self.set_opacity,
"vrange": self.set_vrange,
"fft": self.set_fft,
"log": self.set_log,
"rot": self.set_rotation,
"transpose": self.set_transpose,
}
for key, value in kwargs.items():
if key in method_map:
method_map[key](value)
else:
print(f"Warning: '{key}' is not a recognized property.")
def set_fft(self, enable: bool = False):
"""
Set the FFT of the image.
Args:
enable(bool): Whether to perform FFT on the monitor data.
"""
self.config.processing.fft = enable
def set_log(self, enable: bool = False):
"""
Set the log of the image.
Args:
enable(bool): Whether to perform log on the monitor data.
"""
self.config.processing.log = enable
if enable and self.color_bar and self.config.color_bar == "full":
self.color_bar.autoHistogramRange()
def set_rotation(self, deg_90: int = 0):
"""
Set the rotation of the image.
Args:
deg_90(int): The rotation angle of the monitor data before displaying.
"""
self.config.processing.rotation = deg_90
def set_transpose(self, enable: bool = False):
"""
Set the transpose of the image.
Args:
enable(bool): Whether to transpose the image.
"""
self.config.processing.transpose = enable
def set_opacity(self, opacity: float = 1.0):
"""
Set the opacity of the image.
Args:
opacity(float): The opacity of the image.
"""
self.setOpacity(opacity)
self.config.opacity = opacity
def set_autorange(self, autorange: bool = False):
"""
Set the autorange of the color bar.
Args:
autorange(bool): Whether to autorange the color bar.
"""
self.config.autorange = autorange
if self.color_bar is not None:
self.color_bar.autoHistogramRange()
def set_color_map(self, cmap: str = "magma"):
"""
Set the color map of the image.
Args:
cmap(str): The color map of the image.
"""
self.setColorMap(cmap)
if self.color_bar is not None:
if self.config.color_bar == "simple":
self.color_bar.setColorMap(cmap)
elif self.config.color_bar == "full":
self.color_bar.gradient.loadPreset(cmap)
self.config.color_map = cmap
def set_auto_downsample(self, auto: bool = True):
"""
Set the auto downsample of the image.
Args:
auto(bool): Whether to downsample the image.
"""
self.setAutoDownsample(auto)
self.config.downsample = auto
def set_monitor(self, monitor: str):
"""
Set the monitor of the image.
Args:
monitor(str): The name of the monitor.
"""
self.config.monitor = monitor
def set_vrange(self, vmin: float = None, vmax: float = None, vrange: tuple[int, int] = None):
"""
Set the range of the color bar.
Args:
vmin(float): Minimum value of the color bar.
vmax(float): Maximum value of the color bar.
"""
if vrange is not None:
vmin, vmax = vrange
self.setLevels([vmin, vmax])
self.config.vrange = (vmin, vmax)
self.config.autorange = False
if self.color_bar is not None:
if self.config.color_bar == "simple":
self.color_bar.setLevels(low=vmin, high=vmax)
elif self.config.color_bar == "full":
self.color_bar.setLevels(min=vmin, max=vmax)
self.color_bar.setHistogramRange(vmin - 0.1 * vmin, vmax + 0.1 * vmax)
def get_data(self) -> np.ndarray:
"""
Get the data of the image.
Returns:
np.ndarray: The data of the image.
"""
return self.image
def _add_color_bar(
self, color_bar_style: str = "simple", vrange: Optional[tuple[int, int]] = None
):
"""
Add color bar to the layout.
Args:
style(Literal["simple,full"]): The style of the color bar.
vrange(tuple[int,int]): The range of the color bar.
"""
if color_bar_style == "simple":
self.color_bar = pg.ColorBarItem(colorMap=self.config.color_map)
if vrange is not None:
self.color_bar.setLevels(low=vrange[0], high=vrange[1])
self.color_bar.setImageItem(self)
self.parent_image.addItem(self.color_bar) # , row=0, col=1)
self.config.color_bar = "simple"
elif color_bar_style == "full":
# Setting histogram
self.color_bar = pg.HistogramLUTItem()
self.color_bar.setImageItem(self)
self.color_bar.gradient.loadPreset(self.config.color_map)
if vrange is not None:
self.color_bar.setLevels(min=vrange[0], max=vrange[1])
self.color_bar.setHistogramRange(
vrange[0] - 0.1 * vrange[0], vrange[1] + 0.1 * vrange[1]
)
# Adding histogram to the layout
self.parent_image.addItem(self.color_bar) # , row=0, col=1)
# save settings
self.config.color_bar = "full"
else:
raise ValueError("style should be 'simple' or 'full'")
def cleanup(self):
"""Clean up widget."""
self.rpc_register.remove_rpc(self)
class BECImageShow(BECPlotBase):
USER_ACCESS = [
"rpc_id",
@@ -323,7 +53,6 @@ class BECImageShow(BECPlotBase):
"set_y_lim",
"set_grid",
"lock_aspect_ratio",
"plot",
"remove",
"images",
]
@@ -367,6 +96,7 @@ class BECImageShow(BECPlotBase):
def find_image_by_monitor(self, item_id: str) -> BECImageItem:
"""
Find the widget by its gui_id.
Args:
item_id(str): The gui_id of the widget.
@@ -382,11 +112,12 @@ class BECImageShow(BECPlotBase):
if result is not None:
return result
def apply_config(self, config: dict | WidgetConfig):
def apply_config(self, config: dict | SubplotConfig):
"""
Apply the configuration to the 1D waveform widget.
Args:
config(dict|WidgetConfig): Configuration settings.
config(dict|SubplotConfig): Configuration settings.
replot_last_scan(bool, optional): If True, replot the last scan. Defaults to False.
"""
if isinstance(config, dict):
@@ -420,6 +151,7 @@ class BECImageShow(BECPlotBase):
def add_image_by_config(self, config: ImageItemConfig | dict) -> BECImageItem:
"""
Add an image to the widget by configuration.
Args:
config(ImageItemConfig|dict): The configuration of the image.
@@ -436,6 +168,7 @@ class BECImageShow(BECPlotBase):
def get_image_config(self, image_id, dict_output: bool = True) -> ImageItemConfig | dict:
"""
Get the configuration of the image.
Args:
image_id(str): The ID of the image.
dict_output(bool): Whether to return the configuration as a dictionary. Defaults to True.
@@ -477,6 +210,7 @@ class BECImageShow(BECPlotBase):
def get_image_dict(self) -> dict[str, dict[str, BECImageItem]]:
"""
Get all images.
Returns:
dict[str, dict[str, BECImageItem]]: The dictionary of images.
"""
@@ -578,6 +312,7 @@ class BECImageShow(BECPlotBase):
"""
Set the range of the color bar.
If name is not specified, then set vrange for all images.
Args:
vmin(float): Minimum value of the color bar.
vmax(float): Maximum value of the color bar.
@@ -589,6 +324,7 @@ class BECImageShow(BECPlotBase):
"""
Set the color map of the image.
If name is not specified, then set color map for all images.
Args:
cmap(str): The color map of the image.
name(str): The name of the image. If None, apply to all images.
@@ -598,6 +334,7 @@ class BECImageShow(BECPlotBase):
def set_autorange(self, enable: bool = False, name: str = None):
"""
Set the autoscale of the image.
Args:
enable(bool): Whether to autoscale the color bar.
name(str): The name of the image. If None, apply to all images.
@@ -608,6 +345,7 @@ class BECImageShow(BECPlotBase):
"""
Set the monitor of the image.
If name is not specified, then set monitor for all images.
Args:
monitor(str): The name of the monitor.
name(str): The name of the image. If None, apply to all images.
@@ -618,6 +356,7 @@ class BECImageShow(BECPlotBase):
"""
Set the post processing of the image.
If name is not specified, then set post processing for all images.
Args:
name(str): The name of the image. If None, apply to all images.
**kwargs: Keyword arguments for the properties to be set.
@@ -632,6 +371,7 @@ class BECImageShow(BECPlotBase):
def set_image_properties(self, name: str = None, **kwargs):
"""
Set the properties of the image.
Args:
name(str): The name of the image. If None, apply to all images.
**kwargs: Keyword arguments for the properties to be set.
@@ -652,6 +392,7 @@ class BECImageShow(BECPlotBase):
"""
Set the FFT of the image.
If name is not specified, then set FFT for all images.
Args:
enable(bool): Whether to perform FFT on the monitor data.
name(str): The name of the image. If None, apply to all images.
@@ -662,6 +403,7 @@ class BECImageShow(BECPlotBase):
"""
Set the log of the image.
If name is not specified, then set log for all images.
Args:
enable(bool): Whether to perform log on the monitor data.
name(str): The name of the image. If None, apply to all images.
@@ -672,6 +414,7 @@ class BECImageShow(BECPlotBase):
"""
Set the rotation of the image.
If name is not specified, then set rotation for all images.
Args:
deg_90(int): The rotation angle of the monitor data before displaying.
name(str): The name of the image. If None, apply to all images.
@@ -682,6 +425,7 @@ class BECImageShow(BECPlotBase):
"""
Set the transpose of the image.
If name is not specified, then set transpose for all images.
Args:
enable(bool): Whether to transpose the monitor data before displaying.
name(str): The name of the image. If None, apply to all images.
@@ -691,6 +435,7 @@ class BECImageShow(BECPlotBase):
def toggle_threading(self, use_threading: bool):
"""
Toggle threading for the widgets postprocessing and updating.
Args:
use_threading(bool): Whether to use threading.
"""
@@ -702,6 +447,7 @@ class BECImageShow(BECPlotBase):
def on_image_update(self, msg: dict):
"""
Update the image of the device monitor from bec.
Args:
msg(dict): The message from bec.
"""
@@ -720,6 +466,7 @@ class BECImageShow(BECPlotBase):
def update_image(self, device: str, data: np.ndarray):
"""
Update the image of the device monitor.
Args:
device(str): The name of the device.
data(np.ndarray): The data to be updated.
@@ -730,6 +477,7 @@ class BECImageShow(BECPlotBase):
def _connect_device_monitor(self, monitor: str):
"""
Connect to the device monitor.
Args:
monitor(str): The name of the monitor.
"""
@@ -764,6 +512,7 @@ class BECImageShow(BECPlotBase):
def _check_image_id(self, val: Any, dict_to_check: dict) -> bool:
"""
Check if val is in the values of the dict_to_check or in the values of the nested dictionaries.
Args:
val(Any): Value to check.
dict_to_check(dict): Dictionary to check.
@@ -782,6 +531,7 @@ class BECImageShow(BECPlotBase):
def _validate_monitor(self, monitor: str, validate_bec: bool = True):
"""
Validate the monitor name.
Args:
monitor(str): The name of the monitor.
validate_bec(bool): Whether to validate the monitor name with BEC.
@@ -806,128 +556,4 @@ class BECImageShow(BECPlotBase):
for image in self.images:
image.cleanup()
self.rpc_register.remove_rpc(self)
class ImageProcessor:
"""
Class for processing the image data.
"""
def __init__(self, config: ProcessingConfig = None):
if config is None:
config = ProcessingConfig()
self.config = config
def set_config(self, config: ProcessingConfig):
"""
Set the configuration of the processor.
Args:
config(ProcessingConfig): The configuration of the processor.
"""
self.config = config
def FFT(self, data: np.ndarray) -> np.ndarray:
"""
Perform FFT on the data.
Args:
data(np.ndarray): The data to be processed.
Returns:
np.ndarray: The processed data.
"""
return np.abs(np.fft.fftshift(np.fft.fft2(data)))
def rotation(self, data: np.ndarray, rotate_90: int) -> np.ndarray:
"""
Rotate the data by 90 degrees n times.
Args:
data(np.ndarray): The data to be processed.
rotate_90(int): The number of 90 degree rotations.
Returns:
np.ndarray: The processed data.
"""
return np.rot90(data, k=rotate_90, axes=(0, 1))
def transpose(self, data: np.ndarray) -> np.ndarray:
"""
Transpose the data.
Args:
data(np.ndarray): The data to be processed.
Returns:
np.ndarray: The processed data.
"""
return np.transpose(data)
def log(self, data: np.ndarray) -> np.ndarray:
"""
Perform log on the data.
Args:
data(np.ndarray): The data to be processed.
Returns:
np.ndarray: The processed data.
"""
# TODO this is not final solution -> data should stay as int16
data = data.astype(np.float32)
offset = 1e-6
data_offset = data + offset
return np.log10(data_offset)
# def center_of_mass(self, data: np.ndarray) -> tuple: # TODO check functionality
# return np.unravel_index(np.argmax(data), data.shape)
def process_image(self, data: np.ndarray) -> np.ndarray:
"""
Process the data according to the configuration.
Args:
data(np.ndarray): The data to be processed.
Returns:
np.ndarray: The processed data.
"""
if self.config.fft:
data = self.FFT(data)
if self.config.rotation is not None:
data = self.rotation(data, self.config.rotation)
if self.config.transpose:
data = self.transpose(data)
if self.config.log:
data = self.log(data)
return data
class ProcessorWorker(QObject):
"""
Worker for processing the image data.
"""
processed = pyqtSignal(str, np.ndarray)
stopRequested = pyqtSignal()
finished = pyqtSignal()
def __init__(self, processor):
super().__init__()
self.processor = processor
self._isRunning = False
self.stopRequested.connect(self.stop)
@pyqtSlot(str, np.ndarray)
def process_image(self, device: str, image: np.ndarray):
"""
Process the image data.
Args:
device(str): The name of the device.
image(np.ndarray): The image data.
"""
self._isRunning = True
processed_image = self.processor.process_image(image)
self._isRunning = False
if not self._isRunning:
self.processed.emit(device, processed_image)
self.finished.emit()
def stop(self):
self._isRunning = False
super().cleanup()

277
bec_widgets/widgets/figure/plots/image/image_item.py Normal file
View File

@@ -0,0 +1,277 @@
from __future__ import annotations
from typing import TYPE_CHECKING, Literal, Optional
import numpy as np
import pyqtgraph as pg
from pydantic import Field
from bec_widgets.utils import BECConnector, ConnectionConfig
from bec_widgets.widgets.figure.plots.image.image_processor import ProcessingConfig
if TYPE_CHECKING:
from bec_widgets.widgets.figure.plots.image.image import BECImageShow
class ImageItemConfig(ConnectionConfig):
parent_id: Optional[str] = Field(None, description="The parent plot of the image.")
monitor: Optional[str] = Field(None, description="The name of the monitor.")
source: Optional[str] = Field(None, description="The source of the curve.")
color_map: Optional[str] = Field("magma", description="The color map of the image.")
downsample: Optional[bool] = Field(True, description="Whether to downsample the image.")
opacity: Optional[float] = Field(1.0, description="The opacity of the image.")
vrange: Optional[tuple[int, int]] = Field(
None, description="The range of the color bar. If None, the range is automatically set."
)
color_bar: Optional[Literal["simple", "full"]] = Field(
"simple", description="The type of the color bar."
)
autorange: Optional[bool] = Field(True, description="Whether to autorange the color bar.")
processing: ProcessingConfig = Field(
default_factory=ProcessingConfig, description="The post processing of the image."
)
class BECImageItem(BECConnector, pg.ImageItem):
USER_ACCESS = [
"rpc_id",
"config_dict",
"set",
"set_fft",
"set_log",
"set_rotation",
"set_transpose",
"set_opacity",
"set_autorange",
"set_color_map",
"set_auto_downsample",
"set_monitor",
"set_vrange",
"get_data",
]
def __init__(
self,
config: Optional[ImageItemConfig] = None,
gui_id: Optional[str] = None,
parent_image: Optional[BECImageShow] = None,
**kwargs,
):
if config is None:
config = ImageItemConfig(widget_class=self.__class__.__name__)
self.config = config
else:
self.config = config
super().__init__(config=config, gui_id=gui_id)
pg.ImageItem.__init__(self)
self.parent_image = parent_image
self.colorbar_bar = None
self._add_color_bar(
self.config.color_bar, self.config.vrange
) # TODO can also support None to not have any colorbar
self.apply_config()
if kwargs:
self.set(**kwargs)
def apply_config(self):
"""
Apply current configuration.
"""
self.set_color_map(self.config.color_map)
self.set_auto_downsample(self.config.downsample)
if self.config.vrange is not None:
self.set_vrange(vrange=self.config.vrange)
def set(self, **kwargs):
"""
Set the properties of the image.
Args:
**kwargs: Keyword arguments for the properties to be set.
Possible properties:
- downsample
- color_map
- monitor
- opacity
- vrange
- fft
- log
- rot
- transpose
"""
method_map = {
"downsample": self.set_auto_downsample,
"color_map": self.set_color_map,
"monitor": self.set_monitor,
"opacity": self.set_opacity,
"vrange": self.set_vrange,
"fft": self.set_fft,
"log": self.set_log,
"rot": self.set_rotation,
"transpose": self.set_transpose,
}
for key, value in kwargs.items():
if key in method_map:
method_map[key](value)
else:
print(f"Warning: '{key}' is not a recognized property.")
def set_fft(self, enable: bool = False):
"""
Set the FFT of the image.
Args:
enable(bool): Whether to perform FFT on the monitor data.
"""
self.config.processing.fft = enable
def set_log(self, enable: bool = False):
"""
Set the log of the image.
Args:
enable(bool): Whether to perform log on the monitor data.
"""
self.config.processing.log = enable
if enable and self.color_bar and self.config.color_bar == "full":
self.color_bar.autoHistogramRange()
def set_rotation(self, deg_90: int = 0):
"""
Set the rotation of the image.
Args:
deg_90(int): The rotation angle of the monitor data before displaying.
"""
self.config.processing.rotation = deg_90
def set_transpose(self, enable: bool = False):
"""
Set the transpose of the image.
Args:
enable(bool): Whether to transpose the image.
"""
self.config.processing.transpose = enable
def set_opacity(self, opacity: float = 1.0):
"""
Set the opacity of the image.
Args:
opacity(float): The opacity of the image.
"""
self.setOpacity(opacity)
self.config.opacity = opacity
def set_autorange(self, autorange: bool = False):
"""
Set the autorange of the color bar.
Args:
autorange(bool): Whether to autorange the color bar.
"""
self.config.autorange = autorange
if self.color_bar is not None:
self.color_bar.autoHistogramRange()
def set_color_map(self, cmap: str = "magma"):
"""
Set the color map of the image.
Args:
cmap(str): The color map of the image.
"""
self.setColorMap(cmap)
if self.color_bar is not None:
if self.config.color_bar == "simple":
self.color_bar.setColorMap(cmap)
elif self.config.color_bar == "full":
self.color_bar.gradient.loadPreset(cmap)
self.config.color_map = cmap
def set_auto_downsample(self, auto: bool = True):
"""
Set the auto downsample of the image.
Args:
auto(bool): Whether to downsample the image.
"""
self.setAutoDownsample(auto)
self.config.downsample = auto
def set_monitor(self, monitor: str):
"""
Set the monitor of the image.
Args:
monitor(str): The name of the monitor.
"""
self.config.monitor = monitor
def set_vrange(self, vmin: float = None, vmax: float = None, vrange: tuple[int, int] = None):
"""
Set the range of the color bar.
Args:
vmin(float): Minimum value of the color bar.
vmax(float): Maximum value of the color bar.
"""
if vrange is not None:
vmin, vmax = vrange
self.setLevels([vmin, vmax])
self.config.vrange = (vmin, vmax)
self.config.autorange = False
if self.color_bar is not None:
if self.config.color_bar == "simple":
self.color_bar.setLevels(low=vmin, high=vmax)
elif self.config.color_bar == "full":
self.color_bar.setLevels(min=vmin, max=vmax)
self.color_bar.setHistogramRange(vmin - 0.1 * vmin, vmax + 0.1 * vmax)
def get_data(self) -> np.ndarray:
"""
Get the data of the image.
Returns:
np.ndarray: The data of the image.
"""
return self.image
def _add_color_bar(
self, color_bar_style: str = "simple", vrange: Optional[tuple[int, int]] = None
):
"""
Add color bar to the layout.
Args:
style(Literal["simple,full"]): The style of the color bar.
vrange(tuple[int,int]): The range of the color bar.
"""
if color_bar_style == "simple":
self.color_bar = pg.ColorBarItem(colorMap=self.config.color_map)
if vrange is not None:
self.color_bar.setLevels(low=vrange[0], high=vrange[1])
self.color_bar.setImageItem(self)
self.parent_image.addItem(self.color_bar) # , row=0, col=1)
self.config.color_bar = "simple"
elif color_bar_style == "full":
# Setting histogram
self.color_bar = pg.HistogramLUTItem()
self.color_bar.setImageItem(self)
self.color_bar.gradient.loadPreset(self.config.color_map)
if vrange is not None:
self.color_bar.setLevels(min=vrange[0], max=vrange[1])
self.color_bar.setHistogramRange(
vrange[0] - 0.1 * vrange[0], vrange[1] + 0.1 * vrange[1]
)
# Adding histogram to the layout
self.parent_image.addItem(self.color_bar) # , row=0, col=1)
# save settings
self.config.color_bar = "full"
else:
raise ValueError("style should be 'simple' or 'full'")

153
bec_widgets/widgets/figure/plots/image/image_processor.py Normal file
View File

@@ -0,0 +1,153 @@
from __future__ import annotations
from typing import Optional
import numpy as np
from pydantic import BaseModel, Field
from qtpy.QtCore import QObject, Signal, Slot
class ProcessingConfig(BaseModel):
fft: Optional[bool] = Field(False, description="Whether to perform FFT on the monitor data.")
log: Optional[bool] = Field(False, description="Whether to perform log on the monitor data.")
center_of_mass: Optional[bool] = Field(
False, description="Whether to calculate the center of mass of the monitor data."
)
transpose: Optional[bool] = Field(
False, description="Whether to transpose the monitor data before displaying."
)
rotation: Optional[int] = Field(
None, description="The rotation angle of the monitor data before displaying."
)
model_config: dict = {"validate_assignment": True}
class ImageProcessor:
"""
Class for processing the image data.
"""
def __init__(self, config: ProcessingConfig = None):
if config is None:
config = ProcessingConfig()
self.config = config
def set_config(self, config: ProcessingConfig):
"""
Set the configuration of the processor.
Args:
config(ProcessingConfig): The configuration of the processor.
"""
self.config = config
def FFT(self, data: np.ndarray) -> np.ndarray:
"""
Perform FFT on the data.
Args:
data(np.ndarray): The data to be processed.
Returns:
np.ndarray: The processed data.
"""
return np.abs(np.fft.fftshift(np.fft.fft2(data)))
def rotation(self, data: np.ndarray, rotate_90: int) -> np.ndarray:
"""
Rotate the data by 90 degrees n times.
Args:
data(np.ndarray): The data to be processed.
rotate_90(int): The number of 90 degree rotations.
Returns:
np.ndarray: The processed data.
"""
return np.rot90(data, k=rotate_90, axes=(0, 1))
def transpose(self, data: np.ndarray) -> np.ndarray:
"""
Transpose the data.
Args:
data(np.ndarray): The data to be processed.
Returns:
np.ndarray: The processed data.
"""
return np.transpose(data)
def log(self, data: np.ndarray) -> np.ndarray:
"""
Perform log on the data.
Args:
data(np.ndarray): The data to be processed.
Returns:
np.ndarray: The processed data.
"""
# TODO this is not final solution -> data should stay as int16
data = data.astype(np.float32)
offset = 1e-6
data_offset = data + offset
return np.log10(data_offset)
# def center_of_mass(self, data: np.ndarray) -> tuple: # TODO check functionality
# return np.unravel_index(np.argmax(data), data.shape)
def process_image(self, data: np.ndarray) -> np.ndarray:
"""
Process the data according to the configuration.
Args:
data(np.ndarray): The data to be processed.
Returns:
np.ndarray: The processed data.
"""
if self.config.fft:
data = self.FFT(data)
if self.config.rotation is not None:
data = self.rotation(data, self.config.rotation)
if self.config.transpose:
data = self.transpose(data)
if self.config.log:
data = self.log(data)
return data
class ProcessorWorker(QObject):
"""
Worker for processing the image data.
"""
processed = Signal(str, np.ndarray)
stopRequested = Signal()
finished = Signal()
def __init__(self, processor):
super().__init__()
self.processor = processor
self._isRunning = False
self.stopRequested.connect(self.stop)
@Slot(str, np.ndarray)
def process_image(self, device: str, image: np.ndarray):
"""
Process the image data.
Args:
device(str): The name of the device.
image(np.ndarray): The image data.
"""
self._isRunning = True
processed_image = self.processor.process_image(image)
self._isRunning = False
if not self._isRunning:
self.processed.emit(device, processed_image)
self.finished.emit()
def stop(self):
self._isRunning = False

0
bec_widgets/examples/modular_app/___init__.py → bec_widgets/widgets/figure/plots/motor_map/__init__.py
View File

39
bec_widgets/widgets/plots/motor_map.py → bec_widgets/widgets/figure/plots/motor_map/motor_map.py
View File

@@ -5,7 +5,7 @@ from typing import Optional, Union
import numpy as np
import pyqtgraph as pg
from bec_lib import MessageEndpoints
from bec_lib.endpoints import MessageEndpoints
from pydantic import Field
from qtpy import QtCore, QtGui
from qtpy.QtCore import Signal as pyqtSignal
@@ -13,11 +13,11 @@ from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtWidgets import QWidget
from bec_widgets.utils import EntryValidator
from bec_widgets.widgets.plots.plot_base import BECPlotBase, WidgetConfig
from bec_widgets.widgets.plots.waveform import Signal, SignalData
from bec_widgets.widgets.figure.plots.plot_base import BECPlotBase, SubplotConfig
from bec_widgets.widgets.figure.plots.waveform.waveform import Signal, SignalData
class MotorMapConfig(WidgetConfig):
class MotorMapConfig(SubplotConfig):
signals: Optional[Signal] = Field(None, description="Signals of the motor map")
color_map: Optional[str] = Field(
"Greys", description="Color scheme of the motor position gradient."
@@ -102,6 +102,7 @@ class BECMotorMap(BECPlotBase):
) -> None:
"""
Change the active motors for the plot.
Args:
motor_x(str): Motor name for the X axis.
motor_y(str): Motor name for the Y axis.
@@ -135,16 +136,14 @@ class BECMotorMap(BECPlotBase):
Returns:
dict: Data of the motor map.
"""
data = {
"x": self.database_buffer["x"],
"y": self.database_buffer["y"],
}
data = {"x": self.database_buffer["x"], "y": self.database_buffer["y"]}
return data
# TODO setup all visual properties
def set_max_points(self, max_points: int) -> None:
"""
Set the maximum number of points to display.
Args:
max_points(int): Maximum number of points to display.
"""
@@ -153,6 +152,7 @@ class BECMotorMap(BECPlotBase):
def set_precision(self, precision: int) -> None:
"""
Set the decimal precision of the motor position.
Args:
precision(int): Decimal precision of the motor position.
"""
@@ -161,6 +161,7 @@ class BECMotorMap(BECPlotBase):
def set_num_dim_points(self, num_dim_points: int) -> None:
"""
Set the number of dim points for the motor map.
Args:
num_dim_points(int): Number of dim points.
"""
@@ -169,6 +170,7 @@ class BECMotorMap(BECPlotBase):
def set_background_value(self, background_value: int) -> None:
"""
Set the background value of the motor map.
Args:
background_value(int): Background value of the motor map.
"""
@@ -177,6 +179,7 @@ class BECMotorMap(BECPlotBase):
def set_scatter_size(self, scatter_size: int) -> None:
"""
Set the scatter size of the motor map plot.
Args:
scatter_size(int): Size of the scatter points.
"""
@@ -247,6 +250,7 @@ class BECMotorMap(BECPlotBase):
def _add_coordinantes_crosshair(self, x: float, y: float) -> None:
"""
Add crosshair to the plot to highlight the current position.
Args:
x(float): X coordinate.
y(float): Y coordinate.
@@ -274,6 +278,7 @@ class BECMotorMap(BECPlotBase):
def _make_limit_map(self, limits_x: list, limits_y: list) -> pg.ImageItem:
"""
Create a limit map for the motor map plot.
Args:
limits_x(list): Motor limits for the x axis.
limits_y(list): Motor limits for the y axis.
@@ -303,14 +308,16 @@ class BECMotorMap(BECPlotBase):
def _get_motor_init_position(self, name: str, entry: str, precision: int) -> float:
"""
Get the motor initial position from the config.
Args:
name(str): Motor name.
entry(str): Motor entry.
precision(int): Decimal precision of the motor position.
Returns:
float: Motor initial position.
"""
init_position = round(self.dev[name].read()[entry]["value"], precision)
init_position = round(float(self.dev[name].read()[entry]["value"]), precision)
return init_position
def _validate_signal_entries(
@@ -323,12 +330,14 @@ class BECMotorMap(BECPlotBase):
) -> tuple[str, str]:
"""
Validate the signal name and entry.
Args:
x_name(str): Name of the x signal.
y_name(str): Name of the y signal.
x_entry(str|None): Entry of the x signal.
y_entry(str|None): Entry of the y signal.
validate_bec(bool, optional): If True, validate the signal with BEC. Defaults to True.
Returns:
tuple[str,str]: Validated x and y entries.
"""
@@ -343,6 +352,7 @@ class BECMotorMap(BECPlotBase):
def _get_motor_limit(self, motor: str) -> Union[list | None]: # TODO check if works correctly
"""
Get the motor limit from the config.
Args:
motor(str): Motor name.
@@ -378,11 +388,7 @@ class BECMotorMap(BECPlotBase):
# Update the scatter plot
self.plot_components["scatter"].setData(
x=x,
y=y,
brush=brushes,
pen=None,
size=scatter_size,
x=x, y=y, brush=brushes, pen=None, size=scatter_size
)
# Get last know position for crosshair
@@ -397,13 +403,14 @@ class BECMotorMap(BECPlotBase):
# Update plot title
precision = self.config.precision
self.set_title(
f"Motor position: ({round(current_x,precision)}, {round(current_y,precision)})"
f"Motor position: ({round(float(current_x),precision)}, {round(float(current_y),precision)})"
)
@pyqtSlot(dict)
def on_device_readback(self, msg: dict) -> None:
"""
Update the motor map plot with the new motor position.
Args:
msg(dict): Message from the device readback.
"""
@@ -425,4 +432,4 @@ class BECMotorMap(BECPlotBase):
def cleanup(self):
"""Cleanup the widget."""
self._disconnect_current_motors()
self.rpc_register.remove_rpc(self)
super().cleanup()

30
bec_widgets/widgets/plots/plot_base.py → bec_widgets/widgets/figure/plots/plot_base.py
View File

@@ -20,9 +20,10 @@ class AxisConfig(BaseModel):
y_lim: Optional[tuple] = Field(None, description="The limits of the y-axis.")
x_grid: bool = Field(False, description="Show grid on the x-axis.")
y_grid: bool = Field(False, description="Show grid on the y-axis.")
model_config: dict = {"validate_assignment": True}
class WidgetConfig(ConnectionConfig):
class SubplotConfig(ConnectionConfig):
parent_id: Optional[str] = Field(None, description="The parent figure of the plot.")
# Coordinates in the figure
@@ -48,7 +49,6 @@ class BECPlotBase(BECConnector, pg.GraphicsLayout):
"set_y_lim",
"set_grid",
"lock_aspect_ratio",
"plot",
"remove",
]
@@ -56,12 +56,12 @@ class BECPlotBase(BECConnector, pg.GraphicsLayout):
self,
parent: Optional[QWidget] = None, # TODO decide if needed for this class
parent_figure=None,
config: Optional[WidgetConfig] = None,
config: Optional[SubplotConfig] = None,
client=None,
gui_id: Optional[str] = None,
):
if config is None:
config = WidgetConfig(widget_class=self.__class__.__name__)
config = SubplotConfig(widget_class=self.__class__.__name__)
super().__init__(client=client, config=config, gui_id=gui_id)
pg.GraphicsLayout.__init__(self, parent)
@@ -73,8 +73,10 @@ class BECPlotBase(BECConnector, pg.GraphicsLayout):
def set(self, **kwargs) -> None:
"""
Set the properties of the plot widget.
Args:
**kwargs: Keyword arguments for the properties to be set.
Possible properties:
- title: str
- x_label: str
@@ -117,6 +119,7 @@ class BECPlotBase(BECConnector, pg.GraphicsLayout):
def set_title(self, title: str):
"""
Set the title of the plot widget.
Args:
title(str): Title of the plot widget.
"""
@@ -126,6 +129,7 @@ class BECPlotBase(BECConnector, pg.GraphicsLayout):
def set_x_label(self, label: str):
"""
Set the label of the x-axis.
Args:
label(str): Label of the x-axis.
"""
@@ -135,6 +139,7 @@ class BECPlotBase(BECConnector, pg.GraphicsLayout):
def set_y_label(self, label: str):
"""
Set the label of the y-axis.
Args:
label(str): Label of the y-axis.
"""
@@ -144,6 +149,7 @@ class BECPlotBase(BECConnector, pg.GraphicsLayout):
def set_x_scale(self, scale: Literal["linear", "log"] = "linear"):
"""
Set the scale of the x-axis.
Args:
scale(Literal["linear", "log"]): Scale of the x-axis.
"""
@@ -153,6 +159,7 @@ class BECPlotBase(BECConnector, pg.GraphicsLayout):
def set_y_scale(self, scale: Literal["linear", "log"] = "linear"):
"""
Set the scale of the y-axis.
Args:
scale(Literal["linear", "log"]): Scale of the y-axis.
"""
@@ -208,6 +215,7 @@ class BECPlotBase(BECConnector, pg.GraphicsLayout):
def set_grid(self, x: bool = False, y: bool = False):
"""
Set the grid of the plot widget.
Args:
x(bool): Show grid on the x-axis.
y(bool): Show grid on the y-axis.
@@ -223,23 +231,12 @@ class BECPlotBase(BECConnector, pg.GraphicsLayout):
def lock_aspect_ratio(self, lock):
"""
Lock aspect ratio.
Args:
lock(bool): True to lock, False to unlock.
"""
self.plot_item.setAspectLocked(lock)
def plot(self, data_x: list | np.ndarray, data_y: list | np.ndarray, **kwargs):
"""
Plot custom data on the plot widget. These data are not saved in config.
Args:
data_x(list|np.ndarray): x-axis data
data_y(list|np.ndarray): y-axis data
**kwargs: Keyword arguments for the plot.
"""
# TODO very basic so far, add more options
# TODO decide name of the method
self.plot_item.plot(data_x, data_y, **kwargs)
def remove(self):
"""Remove the plot widget from the figure."""
if self.figure is not None:
@@ -248,3 +245,4 @@ class BECPlotBase(BECConnector, pg.GraphicsLayout):
def cleanup(self):
"""Cleanup the plot widget."""
super().cleanup()

0
bec_widgets/widgets/figure/plots/waveform/__init__.py Normal file
View File

368
bec_widgets/widgets/plots/waveform.py → bec_widgets/widgets/figure/plots/waveform/waveform.py
View File

@@ -5,55 +5,24 @@ from typing import Any, Literal, Optional
import numpy as np
import pyqtgraph as pg
from bec_lib import MessageEndpoints
from bec_lib.endpoints import MessageEndpoints
from bec_lib.scan_data import ScanData
from pydantic import BaseModel, Field, ValidationError
from pyqtgraph import mkBrush
from qtpy import QtCore
from pydantic import Field, ValidationError
from qtpy.QtCore import Signal as pyqtSignal
from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtWidgets import QWidget
from bec_widgets.utils import BECConnector, Colors, ConnectionConfig, EntryValidator
from bec_widgets.widgets.plots.plot_base import BECPlotBase, WidgetConfig
from bec_widgets.utils import Colors, EntryValidator
from bec_widgets.widgets.figure.plots.plot_base import BECPlotBase, SubplotConfig
from bec_widgets.widgets.figure.plots.waveform.waveform_curve import (
BECCurve,
CurveConfig,
Signal,
SignalData,
)
class SignalData(BaseModel):
"""The data configuration of a signal in the 1D waveform widget for x and y axis."""
name: str
entry: str
unit: Optional[str] = None # todo implement later
modifier: Optional[str] = None # todo implement later
limits: Optional[list[float]] = None # todo implement later
class Signal(BaseModel):
"""The configuration of a signal in the 1D waveform widget."""
source: str
x: SignalData # TODO maybe add metadata for config gui later
y: SignalData
z: Optional[SignalData] = None
class CurveConfig(ConnectionConfig):
parent_id: Optional[str] = Field(None, description="The parent plot of the curve.")
label: Optional[str] = Field(None, description="The label of the curve.")
color: Optional[Any] = Field(None, description="The color of the curve.")
symbol: Optional[str] = Field("o", description="The symbol of the curve.")
symbol_color: Optional[str] = Field(None, description="The color of the symbol of the curve.")
symbol_size: Optional[int] = Field(5, description="The size of the symbol of the curve.")
pen_width: Optional[int] = Field(2, description="The width of the pen of the curve.")
pen_style: Optional[Literal["solid", "dash", "dot", "dashdot"]] = Field(
"solid", description="The style of the pen of the curve."
)
source: Optional[str] = Field(None, description="The source of the curve.")
signals: Optional[Signal] = Field(None, description="The signal of the curve.")
colormap: Optional[str] = Field("plasma", description="The colormap of the curves z gradient.")
class Waveform1DConfig(WidgetConfig):
class Waveform1DConfig(SubplotConfig):
color_palette: Literal["plasma", "viridis", "inferno", "magma"] = Field(
"plasma", description="The color palette of the figure widget."
) # TODO can be extended to all colormaps from current pyqtgraph session
@@ -62,189 +31,11 @@ class Waveform1DConfig(WidgetConfig):
)
class BECCurve(BECConnector, pg.PlotDataItem):
USER_ACCESS = [
"remove",
"rpc_id",
"config_dict",
"set",
"set_data",
"set_color",
"set_colormap",
"set_symbol",
"set_symbol_color",
"set_symbol_size",
"set_pen_width",
"set_pen_style",
"get_data",
]
def __init__(
self,
name: Optional[str] = None,
config: Optional[CurveConfig] = None,
gui_id: Optional[str] = None,
parent_item: Optional[pg.PlotItem] = None,
**kwargs,
):
if config is None:
config = CurveConfig(label=name, widget_class=self.__class__.__name__)
self.config = config
else:
self.config = config
# config.widget_class = self.__class__.__name__
super().__init__(config=config, gui_id=gui_id)
pg.PlotDataItem.__init__(self, name=name)
self.parent_item = parent_item
self.apply_config()
if kwargs:
self.set(**kwargs)
def apply_config(self):
pen_style_map = {
"solid": QtCore.Qt.SolidLine,
"dash": QtCore.Qt.DashLine,
"dot": QtCore.Qt.DotLine,
"dashdot": QtCore.Qt.DashDotLine,
}
pen_style = pen_style_map.get(self.config.pen_style, QtCore.Qt.SolidLine)
pen = pg.mkPen(color=self.config.color, width=self.config.pen_width, style=pen_style)
self.setPen(pen)
if self.config.symbol:
symbol_color = self.config.symbol_color or self.config.color
brush = mkBrush(color=symbol_color)
self.setSymbolBrush(brush)
self.setSymbolSize(self.config.symbol_size)
self.setSymbol(self.config.symbol)
def set_data(self, x, y):
if self.config.source == "custom":
self.setData(x, y)
else:
raise ValueError(f"Source {self.config.source} do not allow custom data setting.")
def set(self, **kwargs):
"""
Set the properties of the curve.
Args:
**kwargs: Keyword arguments for the properties to be set.
Possible properties:
- color: str
- symbol: str
- symbol_color: str
- symbol_size: int
- pen_width: int
- pen_style: Literal["solid", "dash", "dot", "dashdot"]
"""
# Mapping of keywords to setter methods
method_map = {
"color": self.set_color,
"colormap": self.set_colormap,
"symbol": self.set_symbol,
"symbol_color": self.set_symbol_color,
"symbol_size": self.set_symbol_size,
"pen_width": self.set_pen_width,
"pen_style": self.set_pen_style,
}
for key, value in kwargs.items():
if key in method_map:
method_map[key](value)
else:
print(f"Warning: '{key}' is not a recognized property.")
def set_color(self, color: str, symbol_color: Optional[str] = None):
"""
Change the color of the curve.
Args:
color(str): Color of the curve.
symbol_color(str, optional): Color of the symbol. Defaults to None.
"""
self.config.color = color
self.config.symbol_color = symbol_color or color
self.apply_config()
def set_symbol(self, symbol: str):
"""
Change the symbol of the curve.
Args:
symbol(str): Symbol of the curve.
"""
self.config.symbol = symbol
self.apply_config()
def set_symbol_color(self, symbol_color: str):
"""
Change the symbol color of the curve.
Args:
symbol_color(str): Color of the symbol.
"""
self.config.symbol_color = symbol_color
self.apply_config()
def set_symbol_size(self, symbol_size: int):
"""
Change the symbol size of the curve.
Args:
symbol_size(int): Size of the symbol.
"""
self.config.symbol_size = symbol_size
self.apply_config()
def set_pen_width(self, pen_width: int):
"""
Change the pen width of the curve.
Args:
pen_width(int): Width of the pen.
"""
self.config.pen_width = pen_width
self.apply_config()
def set_pen_style(self, pen_style: Literal["solid", "dash", "dot", "dashdot"]):
"""
Change the pen style of the curve.
Args:
pen_style(Literal["solid", "dash", "dot", "dashdot"]): Style of the pen.
"""
self.config.pen_style = pen_style
self.apply_config()
def set_colormap(self, colormap: str):
"""
Set the colormap for the scatter plot z gradient.
Args:
colormap(str): Colormap for the scatter plot.
"""
self.config.colormap = colormap
def get_data(self) -> tuple[np.ndarray, np.ndarray]:
"""
Get the data of the curve.
Returns:
tuple[np.ndarray,np.ndarray]: X and Y data of the curve.
"""
x_data, y_data = self.getData()
return x_data, y_data
def cleanup(self):
"""Cleanup the curve."""
self.rpc_register.remove_rpc(self)
def remove(self):
"""Remove the curve from the plot."""
self.cleanup()
self.parent_item.removeItem(self)
class BECWaveform(BECPlotBase):
USER_ACCESS = [
"rpc_id",
"config_dict",
"add_curve_scan",
"add_curve_custom",
"plot",
"remove_curve",
"scan_history",
"curves",
@@ -262,7 +53,6 @@ class BECWaveform(BECPlotBase):
"set_y_lim",
"set_grid",
"lock_aspect_ratio",
"plot",
"remove",
]
scan_signal_update = pyqtSignal()
@@ -300,11 +90,12 @@ class BECWaveform(BECPlotBase):
self.add_legend()
self.apply_config(self.config)
def apply_config(self, config: dict | WidgetConfig, replot_last_scan: bool = False):
def apply_config(self, config: dict | SubplotConfig, replot_last_scan: bool = False):
"""
Apply the configuration to the 1D waveform widget.
Args:
config(dict|WidgetConfig): Configuration settings.
config(dict|SubplotConfig): Configuration settings.
replot_last_scan(bool, optional): If True, replot the last scan. Defaults to False.
"""
if isinstance(config, dict):
@@ -343,8 +134,10 @@ class BECWaveform(BECPlotBase):
def add_curve_by_config(self, curve_config: CurveConfig | dict) -> BECCurve:
"""
Add a curve to the plot widget by its configuration.
Args:
curve_config(CurveConfig|dict): Configuration of the curve to be added.
Returns:
BECCurve: The curve object.
"""
@@ -358,8 +151,10 @@ class BECWaveform(BECPlotBase):
def get_curve_config(self, curve_id: str, dict_output: bool = True) -> CurveConfig | dict:
"""
Get the configuration of a curve by its ID.
Args:
curve_id(str): ID of the curve.
Returns:
CurveConfig|dict: Configuration of the curve.
"""
@@ -386,8 +181,10 @@ class BECWaveform(BECPlotBase):
def get_curve(self, identifier) -> BECCurve:
"""
Get the curve by its index or ID.
Args:
identifier(int|str): Identifier of the curve. Can be either an integer (index) or a string (curve_id).
Returns:
BECCurve: The curve object.
"""
@@ -401,6 +198,57 @@ class BECWaveform(BECPlotBase):
else:
raise ValueError("Identifier must be either an integer (index) or a string (curve_id).")
def plot(
self,
x: list | np.ndarray | None = None,
y: list | np.ndarray | None = None,
x_name: str | None = None,
y_name: str | None = None,
z_name: str | None = None,
x_entry: str | None = None,
y_entry: str | None = None,
z_entry: str | None = None,
color: str | None = None,
color_map_z: str | None = "plasma",
label: str | None = None,
validate: bool = True,
) -> BECCurve:
"""
Plot a curve to the plot widget.
Args:
x(list | np.ndarray): Custom x data to plot.
y(list | np.ndarray): Custom y data to plot.
x_name(str): The name of the device for the x-axis.
y_name(str): The name of the device for the y-axis.
z_name(str): The name of the device for the z-axis.
x_entry(str): The name of the entry for the x-axis.
y_entry(str): The name of the entry for the y-axis.
z_entry(str): The name of the entry for the z-axis.
color(str): The color of the curve.
color_map_z(str): The color map to use for the z-axis.
label(str): The label of the curve.
validate(bool): If True, validate the device names and entries.
Returns:
BECCurve: The curve object.
"""
if x is not None and y is not None:
return self.add_curve_custom(x=x, y=y, label=label, color=color)
else:
return self.add_curve_scan(
x_name=x_name,
y_name=y_name,
z_name=z_name,
x_entry=x_entry,
y_entry=y_entry,
z_entry=z_entry,
color=color,
color_map_z=color_map_z,
label=label,
validate_bec=validate,
)
def add_curve_custom(
self,
x: list | np.ndarray,
@@ -411,6 +259,7 @@ class BECWaveform(BECPlotBase):
) -> BECCurve:
"""
Add a custom data curve to the plot widget.
Args:
x(list|np.ndarray): X data of the curve.
y(list|np.ndarray): Y data of the curve.
@@ -452,31 +301,6 @@ class BECWaveform(BECPlotBase):
)
return curve
def _add_curve_object(
self,
name: str,
source: str,
config: CurveConfig,
data: tuple[list | np.ndarray, list | np.ndarray] = None,
) -> BECCurve:
"""
Add a curve object to the plot widget.
Args:
name(str): ID of the curve.
source(str): Source of the curve.
config(CurveConfig): Configuration of the curve.
data(tuple[list|np.ndarray,list|np.ndarray], optional): Data (x,y) to be plotted. Defaults to None.
Returns:
BECCurve: The curve object.
"""
curve = BECCurve(config=config, name=name, parent_item=self.plot_item)
self._curves_data[source][name] = curve
self.plot_item.addItem(curve)
self.config.curves[name] = curve.config
if data is not None:
curve.setData(data[0], data[1])
return curve
def add_curve_scan(
self,
x_name: str,
@@ -493,6 +317,7 @@ class BECWaveform(BECPlotBase):
) -> BECCurve:
"""
Add a curve to the plot widget from the scan segment.
Args:
x_name(str): Name of the x signal.
x_entry(str): Entry of the x signal.
@@ -538,7 +363,7 @@ class BECWaveform(BECPlotBase):
parent_id=self.gui_id,
label=label,
color=color,
color_map=color_map_z,
color_map_z=color_map_z,
source=curve_source,
signals=Signal(
source=curve_source,
@@ -551,6 +376,33 @@ class BECWaveform(BECPlotBase):
curve = self._add_curve_object(name=label, source=curve_source, config=curve_config)
return curve
def _add_curve_object(
self,
name: str,
source: str,
config: CurveConfig,
data: tuple[list | np.ndarray, list | np.ndarray] = None,
) -> BECCurve:
"""
Add a curve object to the plot widget.
Args:
name(str): ID of the curve.
source(str): Source of the curve.
config(CurveConfig): Configuration of the curve.
data(tuple[list|np.ndarray,list|np.ndarray], optional): Data (x,y) to be plotted. Defaults to None.
Returns:
BECCurve: The curve object.
"""
curve = BECCurve(config=config, name=name, parent_item=self)
self._curves_data[source][name] = curve
self.plot_item.addItem(curve)
self.config.curves[name] = curve.config
if data is not None:
curve.setData(data[0], data[1])
return curve
def _validate_signal_entries(
self,
x_name: str,
@@ -563,6 +415,7 @@ class BECWaveform(BECPlotBase):
) -> tuple[str, str, str | None]:
"""
Validate the signal name and entry.
Args:
x_name(str): Name of the x signal.
y_name(str): Name of the y signal.
@@ -571,6 +424,7 @@ class BECWaveform(BECPlotBase):
y_entry(str|None): Entry of the y signal.
z_entry(str|None): Entry of the z signal.
validate_bec(bool, optional): If True, validate the signal with BEC. Defaults to True.
Returns:
tuple[str,str,str|None]: Validated x, y, z entries.
"""
@@ -588,6 +442,7 @@ class BECWaveform(BECPlotBase):
def _check_curve_id(self, val: Any, dict_to_check: dict) -> bool:
"""
Check if val is in the values of the dict_to_check or in the values of the nested dictionaries.
Args:
val(Any): Value to check.
dict_to_check(dict): Dictionary to check.
@@ -606,6 +461,7 @@ class BECWaveform(BECPlotBase):
def remove_curve(self, *identifiers):
"""
Remove a curve from the plot widget.
Args:
*identifiers: Identifier of the curve to be removed. Can be either an integer (index) or a string (curve_id).
"""
@@ -622,6 +478,7 @@ class BECWaveform(BECPlotBase):
def _remove_curve_by_id(self, curve_id):
"""
Remove a curve by its ID from the plot widget.
Args:
curve_id(str): ID of the curve to be removed.
"""
@@ -638,6 +495,7 @@ class BECWaveform(BECPlotBase):
def _remove_curve_by_order(self, N):
"""
Remove a curve by its order from the plot widget.
Args:
N(int): Order of the curve to be removed.
"""
@@ -683,6 +541,7 @@ class BECWaveform(BECPlotBase):
def _update_scan_curves(self, data: ScanData):
"""
Update the scan curves with the data from the scan segment.
Args:
data(ScanData): Data from the scan segment.
"""
@@ -704,7 +563,7 @@ class BECWaveform(BECPlotBase):
if curve.config.signals.z:
data_z = data[z_name][z_entry].val
color_z = self._make_z_gradient(
data_z, curve.config.colormap
data_z, curve.config.color_map_z
) # TODO decide how to implement custom gradient
except TypeError:
continue
@@ -717,6 +576,7 @@ class BECWaveform(BECPlotBase):
def _make_z_gradient(self, data_z: list | np.ndarray, colormap: str) -> list | None:
"""
Make a gradient color for the z values.
Args:
data_z(list|np.ndarray): Z values.
colormap(str): Colormap for the gradient color.
@@ -739,6 +599,7 @@ class BECWaveform(BECPlotBase):
"""
Update the scan curves with the data from the scan storage.
Provide only one of scan_id or scan_index.
Args:
scan_id(str, optional): ScanID of the scan to be updated. Defaults to None.
scan_index(int, optional): Index of the scan to be updated. Defaults to None.
@@ -758,12 +619,13 @@ class BECWaveform(BECPlotBase):
def get_all_data(self, output: Literal["dict", "pandas"] = "dict") -> dict | pd.DataFrame:
"""
Extract all curve data into a dictionary or a pandas DataFrame.
Args:
output (Literal["dict", "pandas"]): Format of the output data.
Returns:
dict | pd.DataFrame: Data of all curves in the specified format.
"""
data = {}
try:
import pandas as pd
@@ -799,4 +661,4 @@ class BECWaveform(BECPlotBase):
self.bec_dispatcher.disconnect_slot(self.on_scan_segment, MessageEndpoints.scan_segment())
for curve in self.curves:
curve.cleanup()
self.rpc_register.remove_rpc(self)
super().cleanup()

245
bec_widgets/widgets/figure/plots/waveform/waveform_curve.py Normal file
View File

@@ -0,0 +1,245 @@
from __future__ import annotations
from typing import TYPE_CHECKING, Any, Literal, Optional
import pyqtgraph as pg
from pydantic import BaseModel, Field, field_validator
from pydantic_core import PydanticCustomError
from qtpy import QtCore
from bec_widgets.utils import BECConnector, Colors, ConnectionConfig
if TYPE_CHECKING:
from bec_widgets.widgets.figure.plots.waveform import BECWaveform1D
class SignalData(BaseModel):
"""The data configuration of a signal in the 1D waveform widget for x and y axis."""
name: str
entry: str
unit: Optional[str] = None # todo implement later
modifier: Optional[str] = None # todo implement later
limits: Optional[list[float]] = None # todo implement later
model_config: dict = {"validate_assignment": True}
class Signal(BaseModel):
"""The configuration of a signal in the 1D waveform widget."""
source: str
x: SignalData # TODO maybe add metadata for config gui later
y: SignalData
z: Optional[SignalData] = None
model_config: dict = {"validate_assignment": True}
class CurveConfig(ConnectionConfig):
parent_id: Optional[str] = Field(None, description="The parent plot of the curve.")
label: Optional[str] = Field(None, description="The label of the curve.")
color: Optional[str | tuple] = Field(None, description="The color of the curve.")
symbol: Optional[str] = Field("o", description="The symbol of the curve.")
symbol_color: Optional[str | tuple] = Field(
None, description="The color of the symbol of the curve."
)
symbol_size: Optional[int] = Field(5, description="The size of the symbol of the curve.")
pen_width: Optional[int] = Field(2, description="The width of the pen of the curve.")
pen_style: Optional[Literal["solid", "dash", "dot", "dashdot"]] = Field(
"solid", description="The style of the pen of the curve."
)
source: Optional[str] = Field(None, description="The source of the curve.")
signals: Optional[Signal] = Field(None, description="The signal of the curve.")
color_map_z: Optional[str] = Field(
"plasma", description="The colormap of the curves z gradient.", validate_default=True
)
model_config: dict = {"validate_assignment": True}
_validate_color_map_z = field_validator("color_map_z")(Colors.validate_color_map)
_validate_color = field_validator("color")(Colors.validate_color)
_validate_symbol_color = field_validator("symbol_color")(Colors.validate_color)
class BECCurve(BECConnector, pg.PlotDataItem):
USER_ACCESS = [
"remove",
"rpc_id",
"config_dict",
"set",
"set_data",
"set_color",
"set_color_map_z",
"set_symbol",
"set_symbol_color",
"set_symbol_size",
"set_pen_width",
"set_pen_style",
"get_data",
]
def __init__(
self,
name: Optional[str] = None,
config: Optional[CurveConfig] = None,
gui_id: Optional[str] = None,
parent_item: Optional[BECWaveform1D] = None,
**kwargs,
):
if config is None:
config = CurveConfig(label=name, widget_class=self.__class__.__name__)
self.config = config
else:
self.config = config
# config.widget_class = self.__class__.__name__
super().__init__(config=config, gui_id=gui_id)
pg.PlotDataItem.__init__(self, name=name)
self.parent_item = parent_item
self.apply_config()
if kwargs:
self.set(**kwargs)
def apply_config(self):
pen_style_map = {
"solid": QtCore.Qt.SolidLine,
"dash": QtCore.Qt.DashLine,
"dot": QtCore.Qt.DotLine,
"dashdot": QtCore.Qt.DashDotLine,
}
pen_style = pen_style_map.get(self.config.pen_style, QtCore.Qt.SolidLine)
pen = pg.mkPen(color=self.config.color, width=self.config.pen_width, style=pen_style)
self.setPen(pen)
if self.config.symbol:
symbol_color = self.config.symbol_color or self.config.color
brush = pg.mkBrush(color=symbol_color)
self.setSymbolBrush(brush)
self.setSymbolSize(self.config.symbol_size)
self.setSymbol(self.config.symbol)
def set_data(self, x, y):
if self.config.source == "custom":
self.setData(x, y)
else:
raise ValueError(f"Source {self.config.source} do not allow custom data setting.")
def set(self, **kwargs):
"""
Set the properties of the curve.
Args:
**kwargs: Keyword arguments for the properties to be set.
Possible properties:
- color: str
- symbol: str
- symbol_color: str
- symbol_size: int
- pen_width: int
- pen_style: Literal["solid", "dash", "dot", "dashdot"]
"""
# Mapping of keywords to setter methods
method_map = {
"color": self.set_color,
"color_map_z": self.set_color_map_z,
"symbol": self.set_symbol,
"symbol_color": self.set_symbol_color,
"symbol_size": self.set_symbol_size,
"pen_width": self.set_pen_width,
"pen_style": self.set_pen_style,
}
for key, value in kwargs.items():
if key in method_map:
method_map[key](value)
else:
print(f"Warning: '{key}' is not a recognized property.")
def set_color(self, color: str, symbol_color: Optional[str] = None):
"""
Change the color of the curve.
Args:
color(str): Color of the curve.
symbol_color(str, optional): Color of the symbol. Defaults to None.
"""
self.config.color = color
self.config.symbol_color = symbol_color or color
self.apply_config()
def set_symbol(self, symbol: str):
"""
Change the symbol of the curve.
Args:
symbol(str): Symbol of the curve.
"""
self.config.symbol = symbol
self.apply_config()
def set_symbol_color(self, symbol_color: str):
"""
Change the symbol color of the curve.
Args:
symbol_color(str): Color of the symbol.
"""
self.config.symbol_color = symbol_color
self.apply_config()
def set_symbol_size(self, symbol_size: int):
"""
Change the symbol size of the curve.
Args:
symbol_size(int): Size of the symbol.
"""
self.config.symbol_size = symbol_size
self.apply_config()
def set_pen_width(self, pen_width: int):
"""
Change the pen width of the curve.
Args:
pen_width(int): Width of the pen.
"""
self.config.pen_width = pen_width
self.apply_config()
def set_pen_style(self, pen_style: Literal["solid", "dash", "dot", "dashdot"]):
"""
Change the pen style of the curve.
Args:
pen_style(Literal["solid", "dash", "dot", "dashdot"]): Style of the pen.
"""
self.config.pen_style = pen_style
self.apply_config()
def set_color_map_z(self, colormap: str):
"""
Set the colormap for the scatter plot z gradient.
Args:
colormap(str): Colormap for the scatter plot.
"""
self.config.color_map_z = colormap
self.apply_config()
self.parent_item.scan_history(-1)
def get_data(self) -> tuple[np.ndarray, np.ndarray]:
"""
Get the data of the curve.
Returns:
tuple[np.ndarray,np.ndarray]: X and Y data of the curve.
"""
x_data, y_data = self.getData()
return x_data, y_data
def remove(self):
"""Remove the curve from the plot."""
self.parent_item.removeItem(self)
self.cleanup()

0
bec_widgets/widgets/jupyter_console/__init__.py Normal file
View File

72
bec_widgets/widgets/jupyter_console/jupyter_console.py Normal file
View File

@@ -0,0 +1,72 @@
from bec_ipython_client.main import BECIPythonClient
from qtconsole.inprocess import QtInProcessKernelManager
from qtconsole.manager import QtKernelManager
from qtconsole.rich_jupyter_widget import RichJupyterWidget
from qtpy.QtWidgets import QApplication, QMainWindow
class BECJupyterConsole(RichJupyterWidget): # pragma: no cover:
def __init__(self, inprocess: bool = False):
super().__init__()
self.inprocess = None
self.kernel_manager, self.kernel_client = self._init_kernel(inprocess=inprocess)
self.set_default_style("linux")
self._init_bec()
def _init_kernel(self, inprocess: bool = False, kernel_name: str = "python3"):
self.inprocess = inprocess
if inprocess is True:
print("starting inprocess kernel")
kernel_manager = QtInProcessKernelManager()
else:
kernel_manager = QtKernelManager(kernel_name=kernel_name)
kernel_manager.start_kernel()
kernel_client = kernel_manager.client()
kernel_client.start_channels()
return kernel_manager, kernel_client
def _init_bec(self):
if self.inprocess is True:
self._init_bec_inprocess()
else:
self._init_bec_kernel()
def _init_bec_inprocess(self):
self.client = BECIPythonClient()
self.client.start()
self.kernel_manager.kernel.shell.push(
{
"bec": self.client,
"dev": self.client.device_manager.devices,
"scans": self.client.scans,
}
)
def _init_bec_kernel(self):
self.execute(
"""
from bec_ipython_client.main import BECIPythonClient
bec = BECIPythonClient()
bec.start()
dev = bec.device_manager.devices if bec else None
scans = bec.scans if bec else None
"""
)
def shutdown_kernel(self):
self.kernel_client.stop_channels()
self.kernel_manager.shutdown_kernel()
if __name__ == "__main__": # pragma: no cover
import sys
app = QApplication(sys.argv)
win = QMainWindow()
win.setCentralWidget(BECJupyterConsole(True))
win.show()
sys.exit(app.exec_())

1
bec_widgets/widgets/monitor/__init__.py
View File

@@ -1 +0,0 @@
from .monitor import BECMonitor

590
bec_widgets/widgets/monitor/config_dialog.py
View File

@@ -1,590 +0,0 @@
import os
from pydantic import ValidationError
from qtpy import uic
from qtpy.QtCore import Signal as pyqtSignal
from qtpy.QtWidgets import (
QApplication,
QLineEdit,
QMessageBox,
QTableWidget,
QTableWidgetItem,
QTabWidget,
QVBoxLayout,
QWidget,
)
from bec_widgets.utils.bec_dispatcher import BECDispatcher
from bec_widgets.utils.yaml_dialog import load_yaml, save_yaml
from bec_widgets.validation import MonitorConfigValidator
current_path = os.path.dirname(__file__)
Ui_Form, BaseClass = uic.loadUiType(os.path.join(current_path, "config_dialog.ui"))
Tab_Ui_Form, Tab_BaseClass = uic.loadUiType(os.path.join(current_path, "tab_template.ui"))
# test configs for demonstration purpose
# Configuration for default mode when only devices are monitored
CONFIG_DEFAULT = {
"plot_settings": {
"background_color": "black",
"num_columns": 1,
"colormap": "plasma",
"scan_types": False,
},
"plot_data": [
{
"plot_name": "BPM4i plots vs samx",
"x_label": "Motor Y",
"y_label": "bpm4i",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "bpm4i", "entry": "bpm4i"}],
},
}
],
},
{
"plot_name": "Gauss plots vs samx",
"x_label": "Motor X",
"y_label": "Gauss",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [
{"name": "gauss_bpm"},
{"name": "gauss_adc1"},
{"name": "gauss_adc2"},
],
},
}
],
},
],
}
# Configuration which is dynamically changing depending on the scan type
CONFIG_SCAN_MODE = {
"plot_settings": {
"background_color": "white",
"num_columns": 3,
"colormap": "plasma",
"scan_types": True,
},
"plot_data": {
"grid_scan": [
{
"plot_name": "Grid plot 1",
"x_label": "Motor X",
"y_label": "BPM",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "gauss_bpm"}],
},
}
],
},
{
"plot_name": "Grid plot 2",
"x_label": "Motor X",
"y_label": "BPM",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "gauss_adc1"}],
},
}
],
},
{
"plot_name": "Grid plot 3",
"x_label": "Motor X",
"y_label": "BPM",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samy"}],
"y": [{"name": "gauss_adc2"}],
},
}
],
},
{
"plot_name": "Grid plot 4",
"x_label": "Motor X",
"y_label": "BPM",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samy", "entry": "samy"}],
"y": [{"name": "gauss_adc3"}],
},
}
],
},
],
"line_scan": [
{
"plot_name": "BPM plots vs samx",
"x_label": "Motor X",
"y_label": "Gauss",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "bpm4i"}],
},
}
],
},
{
"plot_name": "Gauss plots vs samx",
"x_label": "Motor X",
"y_label": "Gauss",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "gauss_bpm"}, {"name": "gauss_adc1"}],
},
}
],
},
],
},
}
class ConfigDialog(QWidget, Ui_Form):
config_updated = pyqtSignal(dict)
def __init__(
self,
client=None,
default_config=None,
skip_validation: bool = False,
):
super(ConfigDialog, self).__init__()
self.setupUi(self)
# Client
bec_dispatcher = BECDispatcher()
self.client = bec_dispatcher.client if client is None else client
self.dev = self.client.device_manager.devices
# Init validator
self.skip_validation = skip_validation
if self.skip_validation is False:
self.validator = MonitorConfigValidator(self.dev)
# Connect the Ok/Apply/Cancel buttons
self.pushButton_ok.clicked.connect(self.apply_and_close)
self.pushButton_apply.clicked.connect(self.apply_config)
self.pushButton_cancel.clicked.connect(self.close)
# Hook signals top level
self.pushButton_new_scan_type.clicked.connect(
lambda: self.generate_empty_scan_tab(
self.tabWidget_scan_types, self.lineEdit_scan_type.text()
)
)
# Load/save yaml file buttons
self.pushButton_import.clicked.connect(self.load_config_from_yaml)
self.pushButton_export.clicked.connect(self.save_config_to_yaml)
# Scan Types changed
self.comboBox_scanTypes.currentIndexChanged.connect(self._init_default)
# Make scan tabs closable
self.tabWidget_scan_types.tabCloseRequested.connect(self.handle_tab_close_request)
# Init functions to make a default dialog
if default_config is None:
self._init_default()
else:
self.load_config(default_config)
def _init_default(self):
"""Init default dialog"""
if self.comboBox_scanTypes.currentText() == "Disabled": # Default mode
self.add_new_scan_tab(self.tabWidget_scan_types, "Default")
self.add_new_plot_tab(self.tabWidget_scan_types.widget(0))
self.pushButton_new_scan_type.setEnabled(False)
self.lineEdit_scan_type.setEnabled(False)
else: # Scan mode with clear tab
self.pushButton_new_scan_type.setEnabled(True)
self.lineEdit_scan_type.setEnabled(True)
self.tabWidget_scan_types.clear()
def add_new_scan_tab(
self, parent_tab: QTabWidget, scan_name: str, closable: bool = False
) -> QWidget:
"""
Add a new scan tab to the parent tab widget
Args:
parent_tab(QTabWidget): Parent tab widget, where to add scan tab
scan_name(str): Scan name
closable(bool): If True, the scan tab will be closable
Returns:
scan_tab(QWidget): Scan tab widget
"""
# Check for an existing tab with the same name
for index in range(parent_tab.count()):
if parent_tab.tabText(index) == scan_name:
print(f'Scan name "{scan_name}" already exists.')
return None # or return the existing tab: return parent_tab.widget(index)
# Create a new scan tab
scan_tab = QWidget()
scan_tab_layout = QVBoxLayout(scan_tab)
# Set a tab widget for plots
tabWidget_plots = QTabWidget()
tabWidget_plots.setObjectName("tabWidget_plots") # TODO decide if needed to give a name
tabWidget_plots.setTabsClosable(True)
tabWidget_plots.tabCloseRequested.connect(self.handle_tab_close_request)
scan_tab_layout.addWidget(tabWidget_plots)
# Add scan tab
parent_tab.addTab(scan_tab, scan_name)
# Make tabs closable
if closable:
parent_tab.setTabsClosable(closable)
return scan_tab
def add_new_plot_tab(self, scan_tab: QWidget) -> QWidget:
"""
Add a new plot tab to the scan tab
Args:
scan_tab (QWidget): Scan tab widget
Returns:
plot_tab (QWidget): Plot tab
"""
# Create a new plot tab from .ui template
plot_tab = QWidget()
plot_tab_ui = Tab_Ui_Form()
plot_tab_ui.setupUi(plot_tab)
plot_tab.ui = plot_tab_ui
# Add plot to current scan tab
tabWidget_plots = scan_tab.findChild(
QTabWidget, "tabWidget_plots"
) # TODO decide if putting name is needed
plot_name = f"Plot {tabWidget_plots.count() + 1}"
tabWidget_plots.addTab(plot_tab, plot_name)
# Hook signal
self.hook_plot_tab_signals(scan_tab=scan_tab, plot_tab=plot_tab.ui)
return plot_tab
def hook_plot_tab_signals(self, scan_tab: QTabWidget, plot_tab: Tab_Ui_Form) -> None:
"""
Hook signals of the plot tab
Args:
scan_tab(QTabWidget): Scan tab widget
plot_tab(Tab_Ui_Form): Plot tab widget
"""
plot_tab.pushButton_add_new_plot.clicked.connect(
lambda: self.add_new_plot_tab(scan_tab=scan_tab)
)
plot_tab.pushButton_y_new.clicked.connect(
lambda: self.add_new_signal(plot_tab.tableWidget_y_signals)
)
def add_new_signal(self, table: QTableWidget) -> None:
"""
Add a new signal to the table
Args:
table(QTableWidget): Table widget
"""
row_position = table.rowCount()
table.insertRow(row_position)
table.setItem(row_position, 0, QTableWidgetItem(""))
table.setItem(row_position, 1, QTableWidgetItem(""))
def handle_tab_close_request(self, index: int) -> None:
"""
Handle tab close request
Args:
index(int): Index of the tab to be closed
"""
parent_tab = self.sender()
if parent_tab.count() > 1: # ensure there is at least one tab
parent_tab.removeTab(index)
def generate_empty_scan_tab(self, parent_tab: QTabWidget, scan_name: str):
"""
Generate an empty scan tab
Args:
parent_tab (QTabWidget): Parent tab widget where to add the scan tab
scan_name(str): name of the scan tab
"""
scan_tab = self.add_new_scan_tab(parent_tab, scan_name, closable=True)
if scan_tab is not None:
self.add_new_plot_tab(scan_tab)
def get_plot_config(self, plot_tab: QWidget) -> dict:
"""
Get plot configuration from the plot tab adn send it as dict
Args:
plot_tab(QWidget): Plot tab widget
Returns:
dict: Plot configuration
"""
ui = plot_tab.ui
table = ui.tableWidget_y_signals
x_signals = [
{
"name": self.safe_text(ui.lineEdit_x_name),
"entry": self.safe_text(ui.lineEdit_x_entry),
}
]
y_signals = [
{
"name": self.safe_text(table.item(row, 0)),
"entry": self.safe_text(table.item(row, 1)),
}
for row in range(table.rowCount())
]
plot_data = {
"plot_name": self.safe_text(ui.lineEdit_plot_title),
"x_label": self.safe_text(ui.lineEdit_x_label),
"y_label": self.safe_text(ui.lineEdit_y_label),
"sources": [
{
"type": "scan_segment",
"signals": {
"x": x_signals,
"y": y_signals,
},
}
],
}
return plot_data
def apply_config(self) -> dict:
"""
Apply configuration from the whole configuration window
Returns:
dict: Current configuration
"""
# General settings
config = {
"plot_settings": {
"background_color": self.comboBox_appearance.currentText(),
"num_columns": self.spinBox_n_column.value(),
"colormap": self.comboBox_colormap.currentText(),
"scan_types": True if self.comboBox_scanTypes.currentText() == "Enabled" else False,
},
"plot_data": {} if self.comboBox_scanTypes.currentText() == "Enabled" else [],
}
# Iterate through the plot tabs - Device monitor mode
if config["plot_settings"]["scan_types"] == False:
plot_tab = self.tabWidget_scan_types.widget(0).findChild(QTabWidget)
for index in range(plot_tab.count()):
plot_data = self.get_plot_config(plot_tab.widget(index))
config["plot_data"].append(plot_data)
# Iterate through the scan tabs - Scan mode
elif config["plot_settings"]["scan_types"] == True:
# Iterate through the scan tabs
for index in range(self.tabWidget_scan_types.count()):
scan_tab = self.tabWidget_scan_types.widget(index)
scan_name = self.tabWidget_scan_types.tabText(index)
plot_tab = scan_tab.findChild(QTabWidget)
config["plot_data"][scan_name] = []
# Iterate through the plot tabs
for index in range(plot_tab.count()):
plot_data = self.get_plot_config(plot_tab.widget(index))
config["plot_data"][scan_name].append(plot_data)
return config
def load_config(self, config: dict) -> None:
"""
Load configuration to the configuration window
Args:
config(dict): Configuration to be loaded
"""
# Plot setting General box
plot_settings = config.get("plot_settings", {})
self.comboBox_appearance.setCurrentText(plot_settings.get("background_color", "black"))
self.spinBox_n_column.setValue(plot_settings.get("num_columns", 1))
self.comboBox_colormap.setCurrentText(
plot_settings.get("colormap", "magma")
) # TODO make logic to allow also different colormaps -> validation of incoming dict
self.comboBox_scanTypes.setCurrentText(
"Enabled" if plot_settings.get("scan_types", False) else "Disabled"
)
# Clear exiting scan tabs
self.tabWidget_scan_types.clear()
# Get what mode is active - scan vs default device monitor
scan_mode = plot_settings.get("scan_types", False)
if scan_mode is False: # default mode:
plot_data = config.get("plot_data", [])
self.add_new_scan_tab(self.tabWidget_scan_types, "Default")
for plot_config in plot_data: # Create plot tab for each plot and populate GUI
plot = self.add_new_plot_tab(self.tabWidget_scan_types.widget(0))
self.load_plot_setting(plot, plot_config)
elif scan_mode is True: # scan mode
plot_data = config.get("plot_data", {})
for scan_name, scan_config in plot_data.items():
scan_tab = self.add_new_scan_tab(self.tabWidget_scan_types, scan_name)
for plot_config in scan_config:
plot = self.add_new_plot_tab(scan_tab)
self.load_plot_setting(plot, plot_config)
def load_plot_setting(self, plot: QWidget, plot_config: dict) -> None:
"""
Load plot setting from config
Args:
plot (QWidget): plot tab widget
plot_config (dict): config for single plot tab
"""
sources = plot_config.get("sources", [{}])[0]
x_signals = sources.get("signals", {}).get("x", [{}])[0]
y_signals = sources.get("signals", {}).get("y", [])
# LabelBox
plot.ui.lineEdit_plot_title.setText(plot_config.get("plot_name", ""))
plot.ui.lineEdit_x_label.setText(plot_config.get("x_label", ""))
plot.ui.lineEdit_y_label.setText(plot_config.get("y_label", ""))
# X axis
plot.ui.lineEdit_x_name.setText(x_signals.get("name", ""))
plot.ui.lineEdit_x_entry.setText(x_signals.get("entry", ""))
# Y axis
for y_signal in y_signals:
row_position = plot.ui.tableWidget_y_signals.rowCount()
plot.ui.tableWidget_y_signals.insertRow(row_position)
plot.ui.tableWidget_y_signals.setItem(
row_position, 0, QTableWidgetItem(y_signal.get("name", ""))
)
plot.ui.tableWidget_y_signals.setItem(
row_position, 1, QTableWidgetItem(y_signal.get("entry", ""))
)
def load_config_from_yaml(self):
"""
Load configuration from yaml file
"""
config = load_yaml(self)
self.load_config(config)
def save_config_to_yaml(self):
"""
Save configuration to yaml file
"""
config = self.apply_config()
save_yaml(self, config)
@staticmethod
def safe_text(line_edit: QLineEdit) -> str:
"""
Get text from a line edit, if it is None, return empty string
Args:
line_edit(QLineEdit): Line edit widget
Returns:
str: Text from the line edit
"""
return "" if line_edit is None else line_edit.text()
def apply_and_close(self):
new_config = self.apply_config()
if self.skip_validation is True:
self.config_updated.emit(new_config)
self.close()
else:
try:
validated_config = self.validator.validate_monitor_config(new_config)
approved_config = validated_config.model_dump()
self.config_updated.emit(approved_config)
self.close()
except ValidationError as e:
error_str = str(e)
formatted_error_message = ConfigDialog.format_validation_error(error_str)
# Display the formatted error message in a popup
QMessageBox.critical(self, "Configuration Error", formatted_error_message)
@staticmethod
def format_validation_error(error_str: str) -> str:
"""
Format the validation error string to be displayed in a popup.
Args:
error_str(str): Error string from the validation error.
"""
error_lines = error_str.split("\n")
# The first line contains the number of errors.
error_header = f"<p><b>{error_lines[0]}</b></p><hr>"
formatted_error_message = error_header
# Skip the first line as it's the header.
error_details = error_lines[1:]
# Iterate through pairs of lines (each error's two lines).
for i in range(0, len(error_details), 2):
location = error_details[i]
message = error_details[i + 1] if i + 1 < len(error_details) else ""
formatted_error_message += f"<p><b>{location}</b><br>{message}</p><hr>"
return formatted_error_message
if __name__ == "__main__": # pragma: no cover
app = QApplication([])
main_app = ConfigDialog()
main_app.show()
main_app.load_config(CONFIG_SCAN_MODE)
app.exec()

210
bec_widgets/widgets/monitor/config_dialog.ui
View File

@@ -1,210 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<ui version="4.0">
<class>Form</class>
<widget class="QWidget" name="Form">
<property name="geometry">
<rect>
<x>0</x>
<y>0</y>
<width>597</width>
<height>769</height>
</rect>
</property>
<property name="windowTitle">
<string>Plot Configuration</string>
</property>
<layout class="QVBoxLayout" name="verticalLayout_2">
<item>
<layout class="QHBoxLayout" name="horizontalLayout">
<item>
<widget class="QGroupBox" name="groupBox_plot_setting">
<property name="title">
<string>Plot Layout Settings</string>
</property>
<layout class="QHBoxLayout" name="horizontalLayout_2">
<item>
<layout class="QGridLayout" name="gridLayout">
<item row="0" column="0">
<widget class="QLabel" name="label_5">
<property name="text">
<string>Number of Columns</string>
</property>
</widget>
</item>
<item row="1" column="0">
<widget class="QLabel" name="label_6">
<property name="text">
<string>Scan Types</string>
</property>
</widget>
</item>
<item row="3" column="0">
<widget class="QPushButton" name="pushButton_new_scan_type">
<property name="text">
<string>New Scan Type</string>
</property>
</widget>
</item>
<item row="1" column="1">
<widget class="QComboBox" name="comboBox_scanTypes">
<item>
<property name="text">
<string>Disabled</string>
</property>
</item>
<item>
<property name="text">
<string>Enabled</string>
</property>
</item>
</widget>
</item>
<item row="0" column="1">
<widget class="QSpinBox" name="spinBox_n_column">
<property name="minimum">
<number>1</number>
</property>
</widget>
</item>
<item row="3" column="1">
<widget class="QLineEdit" name="lineEdit_scan_type"/>
</item>
</layout>
</item>
<item>
<widget class="Line" name="line">
<property name="orientation">
<enum>Qt::Vertical</enum>
</property>
</widget>
</item>
<item>
<layout class="QVBoxLayout" name="verticalLayout_3">
<item>
<widget class="QLabel" name="label_4">
<property name="text">
<string>Appearance</string>
</property>
</widget>
</item>
<item>
<widget class="QComboBox" name="comboBox_appearance">
<property name="enabled">
<bool>false</bool>
</property>
<item>
<property name="text">
<string>black</string>
</property>
</item>
<item>
<property name="text">
<string>white</string>
</property>
</item>
</widget>
</item>
<item>
<widget class="QLabel" name="label_3">
<property name="text">
<string>Default Color Palette</string>
</property>
</widget>
</item>
<item>
<widget class="QComboBox" name="comboBox_colormap">
<item>
<property name="text">
<string>magma</string>
</property>
</item>
<item>
<property name="text">
<string>plasma</string>
</property>
</item>
<item>
<property name="text">
<string>viridis</string>
</property>
</item>
<item>
<property name="text">
<string>reds</string>
</property>
</item>
</widget>
</item>
</layout>
</item>
</layout>
</widget>
</item>
<item>
<widget class="QGroupBox" name="groupBox_config">
<property name="title">
<string>Configuration</string>
</property>
<layout class="QVBoxLayout" name="verticalLayout">
<item>
<widget class="QPushButton" name="pushButton_import">
<property name="text">
<string>Import</string>
</property>
</widget>
</item>
<item>
<widget class="QPushButton" name="pushButton_export">
<property name="text">
<string>Export</string>
</property>
</widget>
</item>
</layout>
</widget>
</item>
</layout>
</item>
<item>
<widget class="QTabWidget" name="tabWidget_scan_types">
<property name="tabPosition">
<enum>QTabWidget::West</enum>
</property>
<property name="tabShape">
<enum>QTabWidget::Rounded</enum>
</property>
<property name="currentIndex">
<number>-1</number>
</property>
</widget>
</item>
<item>
<layout class="QHBoxLayout" name="confirm_layout">
<item>
<widget class="QPushButton" name="pushButton_cancel">
<property name="text">
<string>Cancel</string>
</property>
</widget>
</item>
<item>
<widget class="QPushButton" name="pushButton_apply">
<property name="text">
<string>Apply</string>
</property>
</widget>
</item>
<item>
<widget class="QPushButton" name="pushButton_ok">
<property name="text">
<string>OK</string>
</property>
</widget>
</item>
</layout>
</item>
</layout>
</widget>
<resources/>
<connections/>
</ui>

60
bec_widgets/widgets/monitor/example_configs/config_device.yaml
View File

@@ -1,60 +0,0 @@
plot_settings:
background_color: "black"
num_columns: 2
colormap: "viridis"
scan_types: False
plot_data:
- plot_name: "BPM4i plots vs samy"
x:
label: 'Motor Y'
signals:
- name: "samy"
entry: "samy"
y:
label: 'bpm4i'
signals:
- name: "bpm4i"
entry: "bpm4i"
- plot_name: "BPM4i plots vs samx"
x:
label: 'Motor X'
signals:
- name: "samx"
entry: "samx"
y:
label: 'bpm6b'
signals:
- name: "bpm6b"
entry: "bpm6b"
- name: "samy"
entry: "samy"
- plot_name: "Multiple Gaussian"
x:
label: 'Motor X'
signals:
- name: "samx"
entry: "samx"
y:
label: 'Gauss ADC'
signals:
- name: "gauss_adc1"
entry: "gauss_adc1"
- name: "gauss_adc2"
entry: "gauss_adc2"
- name: "gauss_adc3"
entry: "gauss_adc3"
- plot_name: "Linear Signals"
x:
label: 'Motor X'
signals:
- name: "samy"
entry: "samy"
y:
label: 'Motor Y'
signals:
- name: "samy"
entry: "samy"

92
bec_widgets/widgets/monitor/example_configs/config_scans.yaml
View File

@@ -1,92 +0,0 @@
plot_settings:
background_color: "black"
num_columns: 2
colormap: "plasma"
scan_types: True
plot_data:
line_scan:
- plot_name: "BPM plot"
x:
label: 'Motor X'
signals:
- name: "samx"
entry: "samx"
y:
label: 'BPM'
signals:
- name: "gauss_bpm"
entry: "gauss_bpm"
- name: "gauss_adc1"
entry: "gauss_adc1"
- name: "gauss_adc2"
entry: "gauss_adc2"
- plot_name: "Multi"
x:
label: 'Motor X'
signals:
- name: "samx"
entry: "samx"
y:
label: 'Multi'
signals:
- name: "gauss_bpm"
entry: "gauss_bpm"
- name: "samx"
entry: "samx"
grid_scan:
- plot_name: "Grid plot 1"
x:
label: 'Motor X'
signals:
- name: "samx"
entry: "samx"
y:
label: 'BPM'
signals:
- name: "gauss_bpm"
entry: "gauss_bpm"
- name: "gauss_adc1"
entry: "gauss_adc1"
- plot_name: "Grid plot 2"
x:
label: 'Motor X'
signals:
- name: "samx"
entry: "samx"
y:
label: 'BPM'
signals:
- name: "gauss_bpm"
entry: "gauss_bpm"
- name: "gauss_adc1"
entry: "gauss_adc1"
- plot_name: "Grid plot 3"
x:
label: 'Motor Y'
signals:
- name: "samy"
entry: "samy"
y:
label: 'BPM'
signals:
- name: "gauss_bpm"
entry: "gauss_bpm"
- plot_name: "Grid plot 4"
x:
label: 'Motor Y'
signals:
- name: "samy"
entry: "samy"
y:
label: 'BPM'
signals:
- name: "gauss_adc3"
entry: "gauss_adc3"

845
bec_widgets/widgets/monitor/monitor.py
View File

@@ -1,845 +0,0 @@
# pylint: disable = no-name-in-module,missing-module-docstring
import time
import pyqtgraph as pg
from bec_lib import MessageEndpoints
from pydantic import ValidationError
from pyqtgraph import mkBrush, mkPen
from qtpy import QtCore
from qtpy.QtCore import Signal as pyqtSignal
from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtWidgets import QApplication, QMessageBox
from bec_widgets.utils import Colors, Crosshair, yaml_dialog
from bec_widgets.utils.bec_dispatcher import BECDispatcher
from bec_widgets.validation import MonitorConfigValidator
from bec_widgets.widgets.monitor.config_dialog import ConfigDialog
# just for demonstration purposes if script run directly
CONFIG_SCAN_MODE = {
"plot_settings": {
"background_color": "white",
"num_columns": 3,
"colormap": "plasma",
"scan_types": True,
},
"plot_data": {
"grid_scan": [
{
"plot_name": "Grid plot 1",
"x_label": "Motor X",
"y_label": "BPM",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "bpm4i"}],
},
}
],
},
{
"plot_name": "Grid plot 2",
"x_label": "Motor X",
"y_label": "BPM",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "bpm4i"}],
},
}
],
},
{
"plot_name": "Grid plot 3",
"x_label": "Motor X",
"y_label": "BPM",
"sources": [
{
"type": "scan_segment",
"signals": {"x": [{"name": "samy"}], "y": [{"name": "bpm4i"}]},
}
],
},
{
"plot_name": "Grid plot 4",
"x_label": "Motor X",
"y_label": "BPM",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samy", "entry": "samy"}],
"y": [{"name": "bpm4i"}],
},
}
],
},
],
"line_scan": [
{
"plot_name": "BPM plots vs samx",
"x_label": "Motor X",
"y_label": "Gauss",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "bpm4i"}],
},
}
],
},
{
"plot_name": "Gauss plots vs samx",
"x_label": "Motor X",
"y_label": "Gauss",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "bpm4i"}, {"name": "bpm4i"}],
},
}
],
},
],
},
}
CONFIG_WRONG = {
"plot_settings": {
"background_color": "black",
"num_columns": 2,
"colormap": "plasma",
"scan_types": False,
},
"plot_data": [
{
"plot_name": "BPM4i plots vs samx",
"x_label": "Motor Y",
"y_label": "bpm4i",
"sources": [
{
"type": "non_existing_source",
"signals": {
"x": [{"name": "samy"}],
"y": [{"name": "bpm4i", "entry": "bpm4i"}],
},
},
{
"type": "history",
"scan_id": "<scan_id>",
"signals": {
"x": [{"name": "samy"}],
"y": [{"name": "bpm4i", "entry": "bpm4i"}],
},
},
],
},
{
"plot_name": "Gauss plots vs samx",
"x_label": "Motor X",
"y_label": "Gauss",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "non_sense_entry"}],
"y": [
{"name": "non_existing_name"},
{"name": "samy", "entry": "non_existing_entry"},
],
},
}
],
},
{
"plot_name": "Gauss plots vs samx",
"x_label": "Motor X",
"y_label": "Gauss",
"sources": [
{
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "samx"}, {"name": "samy", "entry": "samx"}],
}
}
],
},
],
}
CONFIG_SIMPLE = {
"plot_settings": {
"background_color": "black",
"num_columns": 2,
"colormap": "plasma",
"scan_types": False,
},
"plot_data": [
{
"plot_name": "BPM4i plots vs samx",
"x_label": "Motor X",
"y_label": "bpm4i",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx"}],
"y": [{"name": "bpm4i", "entry": "bpm4i"}],
},
},
# {
# "type": "history",
# "signals": {
# "x": [{"name": "samx"}],
# "y": [{"name": "bpm4i", "entry": "bpm4i"}],
# },
# },
# {
# "type": "dap",
# 'worker':'some_worker',
# "signals": {
# "x": [{"name": "samx"}],
# "y": [{"name": "bpm4i", "entry": "bpm4i"}],
# },
# },
],
},
{
"plot_name": "Gauss plots vs samx",
"x_label": "Motor X",
"y_label": "Gauss",
"sources": [
{
"type": "scan_segment",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "bpm4i"}, {"name": "bpm4i"}],
},
}
],
},
],
}
CONFIG_REDIS = {
"plot_settings": {
"background_color": "white",
"axis_width": 2,
"num_columns": 5,
"colormap": "plasma",
"scan_types": False,
},
"plot_data": [
{
"plot_name": "BPM4i plots vs samx",
"x_label": "Motor Y",
"y_label": "bpm4i",
"sources": [
{
"type": "scan_segment",
"signals": {"x": [{"name": "samx"}], "y": [{"name": "gauss_bpm"}]},
},
{
"type": "redis",
"endpoint": "public/gui/data/6cd5ea3f-a9a9-4736-b4ed-74ab9edfb996",
"update": "append",
"signals": {"x": [{"name": "x_default_tag"}], "y": [{"name": "y_default_tag"}]},
},
],
}
],
}
class BECMonitor(pg.GraphicsLayoutWidget):
update_signal = pyqtSignal()
def __init__(
self,
parent=None,
client=None,
config: dict = None,
enable_crosshair: bool = True,
gui_id=None,
skip_validation: bool = False,
):
super().__init__(parent=parent)
# Client and device manager from BEC
self.plot_data = None
bec_dispatcher = BECDispatcher()
self.client = bec_dispatcher.client if client is None else client
self.dev = self.client.device_manager.devices
self.queue = self.client.queue
self.validator = MonitorConfigValidator(self.dev)
self.gui_id = gui_id
if self.gui_id is None:
self.gui_id = self.__class__.__name__ + str(time.time())
# Connect slots dispatcher
bec_dispatcher.connect_slot(self.on_scan_segment, MessageEndpoints.scan_segment())
bec_dispatcher.connect_slot(self.on_config_update, MessageEndpoints.gui_config(self.gui_id))
bec_dispatcher.connect_slot(
self.on_instruction, MessageEndpoints.gui_instructions(self.gui_id)
)
bec_dispatcher.connect_slot(self.on_data_from_redis, MessageEndpoints.gui_data(self.gui_id))
# Current configuration
self.config = config
self.skip_validation = skip_validation
# Enable crosshair
self.enable_crosshair = enable_crosshair
# Displayed Data
self.database = None
self.crosshairs = None
self.plots = None
self.curves_data = None
self.grid_coordinates = None
self.scan_id = None
# TODO make colors accessible to users
self.user_colors = {} # key: (plot_name, y_name, y_entry), value: color
# Connect the update signal to the update plot method
self.proxy_update_plot = pg.SignalProxy(
self.update_signal, rateLimit=25, slot=self.update_scan_segment_plot
)
# Init UI
if self.config is None:
print("No initial config found for BECDeviceMonitor")
else:
self.on_config_update(self.config)
def _init_config(self):
"""
Initializes or update the configuration settings for the PlotApp.
"""
# Separate configs
self.plot_settings = self.config.get("plot_settings", {})
self.plot_data_config = self.config.get("plot_data", {})
self.scan_types = self.plot_settings.get("scan_types", False)
if self.scan_types is False: # Device tracking mode
self.plot_data = self.plot_data_config # TODO logic has to be improved
else: # without incoming data setup the first configuration to the first scan type sorted alphabetically by name
self.plot_data = self.plot_data_config[min(list(self.plot_data_config.keys()))]
# Initialize the database
self.database = self._init_database(self.plot_data)
# Initialize the UI
self._init_ui(self.plot_settings["num_columns"])
if self.scan_id is not None:
self.replot_last_scan()
def _init_database(self, plot_data_config: dict, source_type_to_init=None) -> dict:
"""
Initializes or updates the database for the PlotApp.
Args:
plot_data_config(dict): Configuration settings for plots.
source_type_to_init(str, optional): Specific source type to initialize. If None, initialize all.
Returns:
dict: Updated or new database dictionary.
"""
database = {} if source_type_to_init is None else self.database.copy()
for plot in plot_data_config:
for source in plot["sources"]:
source_type = source["type"]
if source_type_to_init and source_type != source_type_to_init:
continue # Skip if not the specified source type
if source_type not in database:
database[source_type] = {}
for axis, signals in source["signals"].items():
for signal in signals:
name = signal["name"]
entry = signal.get("entry", name)
if name not in database[source_type]:
database[source_type][name] = {}
if entry not in database[source_type][name]:
database[source_type][name][entry] = []
return database
def _init_ui(self, num_columns: int = 3) -> None:
"""
Initialize the UI components, create plots and store their grid positions.
Args:
num_columns (int): Number of columns to wrap the layout.
This method initializes a dictionary `self.plots` to store the plot objects
along with their corresponding x and y signal names. It dynamically arranges
the plots in a grid layout based on the given number of columns and dynamically
stretches the last plots to fit the remaining space.
"""
self.clear()
self.plots = {}
self.grid_coordinates = []
num_plots = len(self.plot_data)
# Check if num_columns exceeds the number of plots
if num_columns >= num_plots:
num_columns = num_plots
self.plot_settings["num_columns"] = num_columns # Update the settings
print(
"Warning: num_columns in the YAML file was greater than the number of plots."
f" Resetting num_columns to number of plots:{num_columns}."
)
else:
self.plot_settings["num_columns"] = num_columns # Update the settings
num_rows = num_plots // num_columns
last_row_cols = num_plots % num_columns
remaining_space = num_columns - last_row_cols
for i, plot_config in enumerate(self.plot_data):
row, col = i // num_columns, i % num_columns
colspan = 1
if row == num_rows and remaining_space > 0:
if last_row_cols == 1:
colspan = num_columns
else:
colspan = remaining_space // last_row_cols + 1
remaining_space -= colspan - 1
last_row_cols -= 1
plot_name = plot_config.get("plot_name", "")
x_label = plot_config.get("x_label", "")
y_label = plot_config.get("y_label", "")
plot = self.addPlot(row=row, col=col, colspan=colspan, title=plot_name)
plot.setLabel("bottom", x_label)
plot.setLabel("left", y_label)
plot.addLegend()
self._set_plot_colors(plot, self.plot_settings)
self.plots[plot_name] = plot
self.grid_coordinates.append((row, col))
# Initialize curves
self.init_curves()
def _set_plot_colors(self, plot: pg.PlotItem, plot_settings: dict) -> None:
"""
Set the plot colors based on the plot config.
Args:
plot (pg.PlotItem): Plot object to set the colors.
plot_settings (dict): Plot settings dictionary.
"""
if plot_settings.get("show_grid", False):
plot.showGrid(x=True, y=True, alpha=0.5)
pen_width = plot_settings.get("axis_width")
color = plot_settings.get("axis_color")
if color is None:
if plot_settings["background_color"].lower() == "black":
color = "w"
self.setBackground("k")
elif plot_settings["background_color"].lower() == "white":
color = "k"
self.setBackground("w")
else:
raise ValueError(
f"Invalid background color {plot_settings['background_color']}. Allowed values"
" are 'white' or 'black'."
)
pen = pg.mkPen(color=color, width=pen_width)
x_axis = plot.getAxis("bottom") # 'bottom' corresponds to the x-axis
x_axis.setPen(pen)
x_axis.setTextPen(pen)
x_axis.setTickPen(pen)
y_axis = plot.getAxis("left") # 'left' corresponds to the y-axis
y_axis.setPen(pen)
y_axis.setTextPen(pen)
y_axis.setTickPen(pen)
def init_curves(self) -> None:
"""
Initialize curve data and properties for each plot and data source.
"""
self.curves_data = {}
for idx, plot_config in enumerate(self.plot_data):
plot_name = plot_config.get("plot_name", "")
plot = self.plots[plot_name]
plot.clear()
for source in plot_config["sources"]:
source_type = source["type"]
y_signals = source["signals"].get("y", [])
colors_ys = Colors.golden_angle_color(
colormap=self.plot_settings["colormap"], num=len(y_signals)
)
if source_type not in self.curves_data:
self.curves_data[source_type] = {}
if plot_name not in self.curves_data[source_type]:
self.curves_data[source_type][plot_name] = []
for i, (y_signal, color) in enumerate(zip(y_signals, colors_ys)):
y_name = y_signal["name"]
y_entry = y_signal.get("entry", y_name)
curve_name = f"{y_name} ({y_entry})-{source_type[0].upper()}"
curve_data = self.create_curve(curve_name, color)
plot.addItem(curve_data)
self.curves_data[source_type][plot_name].append((y_name, y_entry, curve_data))
# Render static plot elements
self.update_plot()
# # Hook Crosshair #TODO enable later, currently not working
if self.enable_crosshair is True:
self.hook_crosshair()
def create_curve(self, curve_name: str, color: str) -> pg.PlotDataItem:
"""
Create
Args:
curve_name: Name of the curve
color(str): Color of the curve
Returns:
pg.PlotDataItem: Assigned curve object
"""
user_color = self.user_colors.get(curve_name, None)
color_to_use = user_color if user_color else color
pen_curve = mkPen(color=color_to_use, width=2, style=QtCore.Qt.DashLine)
brush_curve = mkBrush(color=color_to_use)
return pg.PlotDataItem(
symbolSize=5,
symbolBrush=brush_curve,
pen=pen_curve,
skipFiniteCheck=True,
name=curve_name,
)
def hook_crosshair(self) -> None:
"""Hook the crosshair to all plots."""
# TODO can be extended to hook crosshair signal for mouse move/clicked
self.crosshairs = {}
for plot_name, plot in self.plots.items():
crosshair = Crosshair(plot, precision=3)
self.crosshairs[plot_name] = crosshair
def update_scan_segment_plot(self):
"""
Update the plot with the latest scan segment data.
"""
self.update_plot(source_type="scan_segment")
def update_plot(self, source_type=None) -> None:
"""
Update the plot data based on the stored data dictionary.
Only updates data for the specified source_type if provided.
"""
for src_type, plots in self.curves_data.items():
if source_type and src_type != source_type:
continue
for plot_name, curve_list in plots.items():
plot_config = next(
(pc for pc in self.plot_data if pc.get("plot_name") == plot_name), None
)
if not plot_config:
continue
x_name, x_entry = self.extract_x_config(plot_config, src_type)
for y_name, y_entry, curve in curve_list:
data_x = self.database.get(src_type, {}).get(x_name, {}).get(x_entry, [])
data_y = self.database.get(src_type, {}).get(y_name, {}).get(y_entry, [])
curve.setData(data_x, data_y)
def extract_x_config(self, plot_config: dict, source_type: str) -> tuple:
"""Extract the signal configurations for x and y axes from plot_config.
Args:
plot_config (dict): Plot configuration.
Returns:
tuple: Tuple containing the x name and x entry.
"""
x_name, x_entry = None, None
for source in plot_config["sources"]:
if source["type"] == source_type and "x" in source["signals"]:
x_signal = source["signals"]["x"][0]
x_name = x_signal.get("name")
x_entry = x_signal.get("entry", x_name)
return x_name, x_entry
def get_config(self):
"""Return the current configuration settings."""
return self.config
def show_config_dialog(self):
"""Show the configuration dialog."""
dialog = ConfigDialog(
client=self.client, default_config=self.config, skip_validation=self.skip_validation
)
dialog.config_updated.connect(self.on_config_update)
dialog.show()
def update_client(self, client) -> None:
"""Update the client and device manager from BEC.
Args:
client: BEC client
"""
self.client = client
self.dev = self.client.device_manager.devices
def _close_all_plots(self):
"""Close all plots."""
for plot in self.plots.values():
plot.clear()
@pyqtSlot(dict)
def on_instruction(self, msg_content: dict) -> None:
"""
Handle instructions sent to the GUI.
Possible actions are:
- clear: Clear the plots
- close: Close the GUI
- config_dialog: Open the configuration dialog
Args:
msg_content (dict): Message content with the instruction and parameters.
"""
action = msg_content.get("action", None)
parameters = msg_content.get("parameters", None)
if action == "clear":
self.flush()
self._close_all_plots()
elif action == "close":
self.close()
elif action == "config_dialog":
self.show_config_dialog()
else:
print(f"Unknown instruction received: {msg_content}")
@pyqtSlot(dict)
def on_config_update(self, config: dict) -> None:
"""
Validate and update the configuration settings for the PlotApp.
Args:
config(dict): Configuration settings
"""
# convert config from BEC CLI to correct formatting
config_tag = config.get("config", None)
if config_tag is not None:
config = config["config"]
if self.skip_validation is True:
self.config = config
self._init_config()
else:
try:
validated_config = self.validator.validate_monitor_config(config)
self.config = validated_config.model_dump()
self._init_config()
except ValidationError as e:
error_str = str(e)
formatted_error_message = BECMonitor.format_validation_error(error_str)
# Display the formatted error message in a popup
QMessageBox.critical(self, "Configuration Error", formatted_error_message)
@staticmethod
def format_validation_error(error_str: str) -> str:
"""
Format the validation error string to be displayed in a popup.
Args:
error_str(str): Error string from the validation error.
"""
error_lines = error_str.split("\n")
# The first line contains the number of errors.
error_header = f"<p><b>{error_lines[0]}</b></p><hr>"
formatted_error_message = error_header
# Skip the first line as it's the header.
error_details = error_lines[1:]
# Iterate through pairs of lines (each error's two lines).
for i in range(0, len(error_details), 2):
location = error_details[i]
message = error_details[i + 1] if i + 1 < len(error_details) else ""
formatted_error_message += f"<p><b>{location}</b><br>{message}</p><hr>"
return formatted_error_message
def flush(self, flush_all=False, source_type_to_flush=None) -> None:
"""Update or reset the database to match the current configuration.
Args:
flush_all (bool): If True, reset the entire database.
source_type_to_flush (str): Specific source type to reset. Ignored if flush_all is True.
"""
if flush_all:
self.database = self._init_database(self.plot_data)
self.init_curves()
else:
if source_type_to_flush in self.database:
# TODO maybe reinit the database from config again instead of cycle through names/entries
# Reset only the specified source type
for name in self.database[source_type_to_flush]:
for entry in self.database[source_type_to_flush][name]:
self.database[source_type_to_flush][name][entry] = []
# Reset curves for the specified source type
if source_type_to_flush in self.curves_data:
self.init_curves()
@pyqtSlot(dict, dict)
def on_scan_segment(self, msg: dict, metadata: dict):
"""
Handle new scan segments and saves data to a dictionary. Linked through bec_dispatcher.
Args:
msg (dict): Message received with scan data.
metadata (dict): Metadata of the scan.
"""
current_scan_id = msg.get("scan_id", None)
if current_scan_id is None:
return
if current_scan_id != self.scan_id:
if self.scan_types is False:
self.plot_data = self.plot_data_config
elif self.scan_types is True:
current_name = metadata.get("scan_name")
if current_name is None:
raise ValueError(
"Scan name not found in metadata. Please check the scan_name in the YAML"
" config or in bec configuration."
)
self.plot_data = self.plot_data_config.get(current_name, None)
if not self.plot_data:
raise ValueError(
f"Scan name {current_name} not found in the YAML config. Please check the scan_name in the "
"YAML config or in bec configuration."
)
# Init UI
self._init_ui(self.plot_settings["num_columns"])
self.scan_id = current_scan_id
self.scan_data = self.queue.scan_storage.find_scan_by_ID(self.scan_id)
if not self.scan_data:
print(f"No data found for scan_id: {self.scan_id}") # TODO better error
return
self.flush(source_type_to_flush="scan_segment")
self.scan_segment_update()
self.update_signal.emit()
def scan_segment_update(self):
"""
Update the database with data from scan storage based on the provided scan_id.
"""
scan_data = self.scan_data.data
for device_name, device_entries in self.database.get("scan_segment", {}).items():
for entry in device_entries.keys():
dataset = scan_data[device_name][entry].val
if dataset:
self.database["scan_segment"][device_name][entry] = dataset
else:
print(f"No data found for {device_name} {entry}")
def replot_last_scan(self):
"""
Replot the last scan.
"""
self.scan_segment_update()
self.update_plot(source_type="scan_segment")
@pyqtSlot(dict)
def on_data_from_redis(self, msg) -> None:
"""
Handle new data sent from redis.
Args:
msg (dict): Message received with data.
"""
# wait until new config is loaded
while "redis" not in self.database:
time.sleep(0.1)
self._init_database(
self.plot_data, source_type_to_init="redis"
) # add database entry for redis dataset
data = msg.get("data", {})
x_data = data.get("x", {})
y_data = data.get("y", {})
# Update x data
if x_data:
x_tag = x_data.get("tag")
self.database["redis"][x_tag][x_tag] = x_data["data"]
# Update y data
for y_tag, y_info in y_data.items():
self.database["redis"][y_tag][y_tag] = y_info["data"]
# Trigger plot update
self.update_plot(source_type="redis")
print(f"database after: {self.database}")
if __name__ == "__main__": # pragma: no cover
import argparse
import json
import sys
parser = argparse.ArgumentParser()
parser.add_argument("--config_file", help="Path to the config file.")
parser.add_argument("--config", help="Path to the config file.")
parser.add_argument("--id", help="GUI ID.")
args = parser.parse_args()
if args.config is not None:
# Load config from file
config = json.loads(args.config)
elif args.config_file is not None:
# Load config from file
config = yaml_dialog.load_yaml(args.config_file)
else:
config = CONFIG_SIMPLE
client = BECDispatcher().client
client.start()
app = QApplication(sys.argv)
monitor = BECMonitor(config=config, gui_id=args.id, skip_validation=False)
monitor.show()
# just to test redis data
# redis_data = {
# "x": {"data": [1, 2, 3], "tag": "x_default_tag"},
# "y": {"y_default_tag": {"data": [1, 2, 3]}},
# }
# monitor.on_data_from_redis({"data": redis_data})
sys.exit(app.exec())

180
bec_widgets/widgets/monitor/tab_template.ui
View File

@@ -1,180 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<ui version="4.0">
<class>Form</class>
<widget class="QWidget" name="Form">
<property name="geometry">
<rect>
<x>0</x>
<y>0</y>
<width>506</width>
<height>592</height>
</rect>
</property>
<property name="windowTitle">
<string>Form</string>
</property>
<layout class="QVBoxLayout" name="verticalLayout_2">
<item>
<widget class="QGroupBox" name="groupBox_general">
<property name="title">
<string>General</string>
</property>
<layout class="QGridLayout" name="gridLayout">
<item row="2" column="0">
<widget class="QLabel" name="label_5">
<property name="text">
<string>X Label</string>
</property>
</widget>
</item>
<item row="1" column="0" colspan="5">
<widget class="Line" name="line_2">
<property name="orientation">
<enum>Qt::Horizontal</enum>
</property>
</widget>
</item>
<item row="2" column="4">
<widget class="QLineEdit" name="lineEdit_y_label"/>
</item>
<item row="2" column="3">
<widget class="QLabel" name="label_11">
<property name="text">
<string>Y Label</string>
</property>
</widget>
</item>
<item row="0" column="1" colspan="4">
<widget class="QLineEdit" name="lineEdit_plot_title"/>
</item>
<item row="2" column="1">
<widget class="QLineEdit" name="lineEdit_x_label"/>
</item>
<item row="0" column="0">
<widget class="QLabel" name="label_4">
<property name="text">
<string>Plot Title</string>
</property>
</widget>
</item>
<item row="2" column="2">
<widget class="Line" name="line_3">
<property name="orientation">
<enum>Qt::Vertical</enum>
</property>
</widget>
</item>
</layout>
</widget>
</item>
<item>
<layout class="QVBoxLayout" name="verticalLayout">
<item>
<widget class="QGroupBox" name="groupBox_x_axis">
<property name="title">
<string>X Axis</string>
</property>
<layout class="QHBoxLayout" name="horizontalLayout">
<item>
<widget class="QLabel" name="label_6">
<property name="text">
<string>Name:</string>
</property>
</widget>
</item>
<item>
<widget class="QLineEdit" name="lineEdit_x_name"/>
</item>
<item>
<widget class="Line" name="line">
<property name="orientation">
<enum>Qt::Vertical</enum>
</property>
</widget>
</item>
<item>
<widget class="QLabel" name="label_7">
<property name="text">
<string>Entry:</string>
</property>
</widget>
</item>
<item>
<widget class="QLineEdit" name="lineEdit_x_entry"/>
</item>
</layout>
</widget>
</item>
<item>
<widget class="QGroupBox" name="groupBox_y_signals">
<property name="title">
<string>Y Signals</string>
</property>
<layout class="QVBoxLayout" name="verticalLayout_3">
<item>
<widget class="BECTable" name="tableWidget_y_signals">
<column>
<property name="text">
<string>Name</string>
</property>
</column>
<column>
<property name="text">
<string>Entries</string>
</property>
</column>
<column>
<property name="text">
<string>Color</string>
</property>
</column>
</widget>
</item>
</layout>
</widget>
</item>
<item>
<layout class="QHBoxLayout" name="horizontalLayout_2">
<item>
<widget class="QPushButton" name="pushButton_add_new_plot">
<property name="text">
<string>Add New Plot</string>
</property>
</widget>
</item>
<item>
<spacer name="horizontalSpacer_3">
<property name="orientation">
<enum>Qt::Horizontal</enum>
</property>
<property name="sizeHint" stdset="0">
<size>
<width>40</width>
<height>20</height>
</size>
</property>
</spacer>
</item>
<item>
<widget class="QPushButton" name="pushButton_y_new">
<property name="text">
<string>Add New Signal</string>
</property>
</widget>
</item>
</layout>
</item>
</layout>
</item>
</layout>
</widget>
<customwidgets>
<customwidget>
<class>BECTable</class>
<extends>QTableWidget</extends>
<header>bec_widgets.utils.h</header>
</customwidget>
</customwidgets>
<resources/>
<connections/>
</ui>

7
bec_widgets/widgets/motor_control/__init__.py
View File

@@ -1,7 +0,0 @@
from .motor_control import (
MotorControlAbsolute,
MotorControlRelative,
MotorControlSelection,
MotorCoordinateTable,
MotorThread,
)

950
bec_widgets/widgets/motor_control/motor_control.py
View File

@@ -1,26 +1,12 @@
# pylint: disable = no-name-in-module,missing-module-docstring
import os
from enum import Enum
from bec_lib.alarm_handler import AlarmBase
from bec_lib.device import Positioner
from qtpy import uic
from qtpy.QtCore import Qt, QThread
from qtpy.QtCore import QThread
from qtpy.QtCore import Signal as pyqtSignal
from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtGui import QDoubleValidator, QKeySequence
from qtpy.QtWidgets import (
QCheckBox,
QComboBox,
QDoubleSpinBox,
QLineEdit,
QMessageBox,
QPushButton,
QShortcut,
QTableWidget,
QTableWidgetItem,
QWidget,
)
from qtpy.QtWidgets import QMessageBox, QWidget
from bec_widgets.utils.bec_dispatcher import BECDispatcher
@@ -77,938 +63,6 @@ class MotorControlWidget(QWidget):
self._init_ui()
class MotorControlSelection(MotorControlWidget):
"""
Widget for selecting the motors to control.
Signals:
selected_motors_signal (pyqtSignal(str,str)): Signal to emit the selected motors.
Slots:
get_available_motors (pyqtSlot): Slot to populate the available motors in the combo boxes and set the index based on the configuration.
enable_motor_controls (pyqtSlot(bool)): Slot to enable/disable the motor controls GUI.
on_config_update (pyqtSlot(dict)): Slot to update the config dict.
"""
selected_motors_signal = pyqtSignal(str, str)
def _load_ui(self):
"""Load the UI from the .ui file."""
current_path = os.path.dirname(__file__)
uic.loadUi(os.path.join(current_path, "motor_control_selection.ui"), self)
def _init_ui(self):
"""Initialize the UI."""
# Lock GUI while motors are moving
self.motor_thread.lock_gui.connect(self.enable_motor_controls)
self.pushButton_connecMotors.clicked.connect(self.select_motor)
self.get_available_motors()
# Connect change signals to change color
self.comboBox_motor_x.currentIndexChanged.connect(
lambda: self.set_combobox_style(self.comboBox_motor_x, "#ffa700")
)
self.comboBox_motor_y.currentIndexChanged.connect(
lambda: self.set_combobox_style(self.comboBox_motor_y, "#ffa700")
)
@pyqtSlot(dict)
def on_config_update(self, config: dict) -> None:
"""
Update config dict
Args:
config(dict): New config dict
"""
self.config = config
# Get motor names
self.motor_x, self.motor_y = (
self.config["motor_control"]["motor_x"],
self.config["motor_control"]["motor_y"],
)
self._init_ui()
@pyqtSlot(bool)
def enable_motor_controls(self, enable: bool) -> None:
"""
Enable or disable the motor controls.
Args:
enable(bool): True to enable, False to disable.
"""
self.motorSelection.setEnabled(enable)
@pyqtSlot()
def get_available_motors(self) -> None:
"""
Slot to populate the available motors in the combo boxes and set the index based on the configuration.
"""
# Get all available motors
self.motor_list = self.motor_thread.get_all_motors_names()
# Populate the combo boxes
self.comboBox_motor_x.addItems(self.motor_list)
self.comboBox_motor_y.addItems(self.motor_list)
# Set the index based on the config if provided
if self.config:
index_x = self.comboBox_motor_x.findText(self.motor_x)
index_y = self.comboBox_motor_y.findText(self.motor_y)
self.comboBox_motor_x.setCurrentIndex(index_x if index_x != -1 else 0)
self.comboBox_motor_y.setCurrentIndex(index_y if index_y != -1 else 0)
def set_combobox_style(self, combobox: QComboBox, color: str) -> None:
"""
Set the combobox style to a specific color.
Args:
combobox(QComboBox): Combobox to change the color.
color(str): Color to set the combobox to.
"""
combobox.setStyleSheet(f"QComboBox {{ background-color: {color}; }}")
def select_motor(self):
"""Emit the selected motors"""
motor_x = self.comboBox_motor_x.currentText()
motor_y = self.comboBox_motor_y.currentText()
# Reset the combobox color to normal after selection
self.set_combobox_style(self.comboBox_motor_x, "")
self.set_combobox_style(self.comboBox_motor_y, "")
self.selected_motors_signal.emit(motor_x, motor_y)
class MotorControlAbsolute(MotorControlWidget):
"""
Widget for controlling the motors to absolute coordinates.
Signals:
coordinates_signal (pyqtSignal(tuple)): Signal to emit the coordinates.
Slots:
change_motors (pyqtSlot): Slot to change the active motors.
enable_motor_controls (pyqtSlot(bool)): Slot to enable/disable the motor controls.
"""
coordinates_signal = pyqtSignal(tuple)
def _load_ui(self):
"""Load the UI from the .ui file."""
current_path = os.path.dirname(__file__)
uic.loadUi(os.path.join(current_path, "motor_control_absolute.ui"), self)
def _init_ui(self):
"""Initialize the UI."""
# Check if there are any motors connected
if self.motor_x is None or self.motor_y is None:
self.motorControl_absolute.setEnabled(False)
return
# Move to absolute coordinates
self.pushButton_go_absolute.clicked.connect(
lambda: self.move_motor_absolute(
self.spinBox_absolute_x.value(), self.spinBox_absolute_y.value()
)
)
self.pushButton_set.clicked.connect(self.save_absolute_coordinates)
self.pushButton_save.clicked.connect(self.save_current_coordinates)
self.pushButton_stop.clicked.connect(self.motor_thread.stop_movement)
# Enable/Disable GUI
self.motor_thread.lock_gui.connect(self.enable_motor_controls)
# Error messages
self.motor_thread.motor_error.connect(
lambda error: MotorControlErrors.display_error_message(error)
)
# Keyboard shortcuts
self._init_keyboard_shortcuts()
@pyqtSlot(dict)
def on_config_update(self, config: dict) -> None:
"""Update config dict"""
self.config = config
# Get motor names
self.motor_x, self.motor_y = (
self.config["motor_control"]["motor_x"],
self.config["motor_control"]["motor_y"],
)
# Update step precision
self.precision = self.config["motor_control"]["precision"]
self._init_ui()
@pyqtSlot(bool)
def enable_motor_controls(self, enable: bool) -> None:
"""
Enable or disable the motor controls.
Args:
enable(bool): True to enable, False to disable.
"""
# Disable or enable all controls within the motorControl_absolute group box
for widget in self.motorControl_absolute.findChildren(QWidget):
widget.setEnabled(enable)
# Enable the pushButton_stop if the motor is moving
self.pushButton_stop.setEnabled(True)
@pyqtSlot(str, str)
def change_motors(self, motor_x: str, motor_y: str):
"""
Change the active motors and update config.
Can be connected to the selected_motors_signal from MotorControlSelection.
Args:
motor_x(str): New motor X to be controlled.
motor_y(str): New motor Y to be controlled.
"""
self.motor_x = motor_x
self.motor_y = motor_y
self.config["motor_control"]["motor_x"] = motor_x
self.config["motor_control"]["motor_y"] = motor_y
@pyqtSlot(int)
def set_precision(self, precision: int) -> None:
"""
Set the precision of the coordinates.
Args:
precision(int): Precision of the coordinates.
"""
self.precision = precision
self.config["motor_control"]["precision"] = precision
self.spinBox_absolute_x.setDecimals(precision)
self.spinBox_absolute_y.setDecimals(precision)
def move_motor_absolute(self, x: float, y: float) -> None:
"""
Move the motor to the target coordinates.
Args:
x(float): Target x coordinate.
y(float): Target y coordinate.
"""
# self._enable_motor_controls(False)
target_coordinates = (x, y)
self.motor_thread.move_absolute(self.motor_x, self.motor_y, target_coordinates)
if self.checkBox_save_with_go.isChecked():
self.save_absolute_coordinates()
def _init_keyboard_shortcuts(self):
"""Initialize the keyboard shortcuts."""
# Go absolute button
self.pushButton_go_absolute.setShortcut("Ctrl+G")
self.pushButton_go_absolute.setToolTip("Ctrl+G")
# Set absolute coordinates
self.pushButton_set.setShortcut("Ctrl+D")
self.pushButton_set.setToolTip("Ctrl+D")
# Save Current coordinates
self.pushButton_save.setShortcut("Ctrl+S")
self.pushButton_save.setToolTip("Ctrl+S")
# Stop Button
self.pushButton_stop.setShortcut("Ctrl+X")
self.pushButton_stop.setToolTip("Ctrl+X")
def save_absolute_coordinates(self):
"""Emit the setup coordinates from the spinboxes"""
x, y = round(self.spinBox_absolute_x.value(), self.precision), round(
self.spinBox_absolute_y.value(), self.precision
)
self.coordinates_signal.emit((x, y))
def save_current_coordinates(self):
"""Emit the current coordinates from the motor thread"""
x, y = self.motor_thread.get_coordinates(self.motor_x, self.motor_y)
self.coordinates_signal.emit((round(x, self.precision), round(y, self.precision)))
class MotorControlRelative(MotorControlWidget):
"""
Widget for controlling the motors to relative coordinates.
Signals:
precision_signal (pyqtSignal): Signal to emit the precision of the coordinates.
Slots:
change_motors (pyqtSlot(str,str)): Slot to change the active motors.
enable_motor_controls (pyqtSlot): Slot to enable/disable the motor controls.
"""
precision_signal = pyqtSignal(int)
def _load_ui(self):
"""Load the UI from the .ui file."""
# Loading UI
current_path = os.path.dirname(__file__)
uic.loadUi(os.path.join(current_path, "motor_control_relative.ui"), self)
def _init_ui(self):
"""Initialize the UI."""
self._init_ui_motor_control()
self._init_keyboard_shortcuts()
@pyqtSlot(dict)
def on_config_update(self, config: dict) -> None:
"""
Update config dict
Args:
config(dict): New config dict
"""
self.config = config
# Get motor names
self.motor_x, self.motor_y = (
self.config["motor_control"]["motor_x"],
self.config["motor_control"]["motor_y"],
)
# Update step precision
self.precision = self.config["motor_control"]["precision"]
self.spinBox_precision.setValue(self.precision)
# Update step sizes
self.spinBox_step_x.setValue(self.config["motor_control"]["step_size_x"])
self.spinBox_step_y.setValue(self.config["motor_control"]["step_size_y"])
# Checkboxes for keyboard shortcuts and x/y step size link
self.checkBox_same_xy.setChecked(self.config["motor_control"]["step_x_y_same"])
self.checkBox_enableArrows.setChecked(self.config["motor_control"]["move_with_arrows"])
self._init_ui()
def _init_ui_motor_control(self) -> None:
"""Initialize the motor control elements"""
# Connect checkbox and spinBoxes
self.checkBox_same_xy.stateChanged.connect(self._sync_step_sizes)
self.spinBox_step_x.valueChanged.connect(self._update_step_size_x)
self.spinBox_step_y.valueChanged.connect(self._update_step_size_y)
self.toolButton_right.clicked.connect(
lambda: self.move_motor_relative(self.motor_x, "x", 1)
)
self.toolButton_left.clicked.connect(
lambda: self.move_motor_relative(self.motor_x, "x", -1)
)
self.toolButton_up.clicked.connect(lambda: self.move_motor_relative(self.motor_y, "y", 1))
self.toolButton_down.clicked.connect(
lambda: self.move_motor_relative(self.motor_y, "y", -1)
)
# Switch between key shortcuts active
self.checkBox_enableArrows.stateChanged.connect(self._update_arrow_key_shortcuts)
self._update_arrow_key_shortcuts()
# Enable/Disable GUI
self.motor_thread.lock_gui.connect(self.enable_motor_controls)
# Precision update
self.spinBox_precision.valueChanged.connect(lambda x: self._update_precision(x))
# Error messages
self.motor_thread.motor_error.connect(
lambda error: MotorControlErrors.display_error_message(error)
)
# Stop Button
self.pushButton_stop.clicked.connect(self.motor_thread.stop_movement)
def _init_keyboard_shortcuts(self) -> None:
"""Initialize the keyboard shortcuts"""
# Increase/decrease step size for X motor
increase_x_shortcut = QShortcut(QKeySequence("Ctrl+A"), self)
decrease_x_shortcut = QShortcut(QKeySequence("Ctrl+Z"), self)
increase_x_shortcut.activated.connect(
lambda: self._change_step_size(self.spinBox_step_x, 2)
)
decrease_x_shortcut.activated.connect(
lambda: self._change_step_size(self.spinBox_step_x, 0.5)
)
self.spinBox_step_x.setToolTip("Increase step size: Ctrl+A\nDecrease step size: Ctrl+Z")
# Increase/decrease step size for Y motor
increase_y_shortcut = QShortcut(QKeySequence("Alt+A"), self)
decrease_y_shortcut = QShortcut(QKeySequence("Alt+Z"), self)
increase_y_shortcut.activated.connect(
lambda: self._change_step_size(self.spinBox_step_y, 2)
)
decrease_y_shortcut.activated.connect(
lambda: self._change_step_size(self.spinBox_step_y, 0.5)
)
self.spinBox_step_y.setToolTip("Increase step size: Alt+A\nDecrease step size: Alt+Z")
# Stop Button
self.pushButton_stop.setShortcut("Ctrl+X")
self.pushButton_stop.setToolTip("Ctrl+X")
def _update_arrow_key_shortcuts(self) -> None:
"""Update the arrow key shortcuts based on the checkbox state."""
if self.checkBox_enableArrows.isChecked():
# Set the arrow key shortcuts for motor movement
self.toolButton_right.setShortcut(Qt.Key_Right)
self.toolButton_left.setShortcut(Qt.Key_Left)
self.toolButton_up.setShortcut(Qt.Key_Up)
self.toolButton_down.setShortcut(Qt.Key_Down)
else:
# Clear the shortcuts
self.toolButton_right.setShortcut("")
self.toolButton_left.setShortcut("")
self.toolButton_up.setShortcut("")
self.toolButton_down.setShortcut("")
def _update_precision(self, precision: int) -> None:
"""
Update the precision of the coordinates.
Args:
precision(int): Precision of the coordinates.
"""
self.spinBox_step_x.setDecimals(precision)
self.spinBox_step_y.setDecimals(precision)
self.precision_signal.emit(precision)
def _change_step_size(self, spinBox: QDoubleSpinBox, factor: float) -> None:
"""
Change the step size of the spinbox.
Args:
spinBox(QDoubleSpinBox): Spinbox to change the step size.
factor(float): Factor to change the step size.
"""
old_step = spinBox.value()
new_step = old_step * factor
spinBox.setValue(new_step)
def _sync_step_sizes(self):
"""Sync step sizes based on checkbox state."""
if self.checkBox_same_xy.isChecked():
value = self.spinBox_step_x.value()
self.spinBox_step_y.setValue(value)
def _update_step_size_x(self):
"""Update step size for x if checkbox is checked."""
if self.checkBox_same_xy.isChecked():
value = self.spinBox_step_x.value()
self.spinBox_step_y.setValue(value)
def _update_step_size_y(self):
"""Update step size for y if checkbox is checked."""
if self.checkBox_same_xy.isChecked():
value = self.spinBox_step_y.value()
self.spinBox_step_x.setValue(value)
@pyqtSlot(str, str)
def change_motors(self, motor_x: str, motor_y: str):
"""
Change the active motors and update config.
Can be connected to the selected_motors_signal from MotorControlSelection.
Args:
motor_x(str): New motor X to be controlled.
motor_y(str): New motor Y to be controlled.
"""
self.motor_x = motor_x
self.motor_y = motor_y
self.config["motor_control"]["motor_x"] = motor_x
self.config["motor_control"]["motor_y"] = motor_y
@pyqtSlot(bool)
def enable_motor_controls(self, disable: bool) -> None:
"""
Enable or disable the motor controls.
Args:
disable(bool): True to disable, False to enable.
"""
# Disable or enable all controls within the motorControl_absolute group box
for widget in self.motorControl.findChildren(QWidget):
widget.setEnabled(disable)
# Enable the pushButton_stop if the motor is moving
self.pushButton_stop.setEnabled(True)
def move_motor_relative(self, motor, axis: str, direction: int) -> None:
"""
Move the motor relative to the current position.
Args:
motor: Motor to move.
axis(str): Axis to move.
direction(int): Direction to move. 1 for positive, -1 for negative.
"""
if axis == "x":
step = direction * self.spinBox_step_x.value()
elif axis == "y":
step = direction * self.spinBox_step_y.value()
self.motor_thread.move_relative(motor, step)
class MotorCoordinateTable(MotorControlWidget):
"""
Widget to save coordinates from motor, display them in the table and move back to them.
There are two modes of operation:
- Individual: Each row is a single coordinate.
- Start/Stop: Each pair of rows is a start and end coordinate.
Signals:
plot_coordinates_signal (pyqtSignal(list, str, str)): Signal to plot the coordinates in the MotorMap.
Slots:
add_coordinate (pyqtSlot(tuple)): Slot to add a coordinate to the table.
mode_switch (pyqtSlot): Slot to switch between individual and start/stop mode.
"""
plot_coordinates_signal = pyqtSignal(list, str, str)
def _load_ui(self):
"""Load the UI for the coordinate table."""
current_path = os.path.dirname(__file__)
uic.loadUi(os.path.join(current_path, "motor_control_table.ui"), self)
def _init_ui(self):
"""Initialize the UI"""
# Setup table behaviour
self._setup_table()
self.table.setSelectionBehavior(QTableWidget.SelectRows)
# for tag columns default tag
self.tag_counter = 1
# Connect signals and slots
self.checkBox_resize_auto.stateChanged.connect(self.resize_table_auto)
self.comboBox_mode.currentIndexChanged.connect(self.mode_switch)
# Keyboard shortcuts for deleting a row
self.delete_shortcut = QShortcut(QKeySequence(Qt.Key_Delete), self.table)
self.delete_shortcut.activated.connect(self.delete_selected_row)
self.backspace_shortcut = QShortcut(QKeySequence(Qt.Key_Backspace), self.table)
self.backspace_shortcut.activated.connect(self.delete_selected_row)
# Warning message for mode switch enable/disable
self.warning_message = True
@pyqtSlot(dict)
def on_config_update(self, config: dict) -> None:
"""
Update config dict
Args:
config(dict): New config dict
"""
self.config = config
# Get motor names
self.motor_x, self.motor_y = (
self.config["motor_control"]["motor_x"],
self.config["motor_control"]["motor_y"],
)
# Decimal precision of the table coordinates
self.precision = self.config["motor_control"].get("precision", 3)
# Mode switch default option
self.mode = self.config["motor_control"].get("mode", "Individual")
# Set combobox to default mode
self.comboBox_mode.setCurrentText(self.mode)
self._init_ui()
def _setup_table(self):
"""Setup the table with appropriate headers and configurations."""
mode = self.comboBox_mode.currentText()
if mode == "Individual":
self._setup_individual_mode()
elif mode == "Start/Stop":
self._setup_start_stop_mode()
self.start_stop_counter = 0 # TODO: remove this??
self.wipe_motor_map_coordinates()
def _setup_individual_mode(self):
"""Setup the table for individual mode."""
self.table.setColumnCount(5)
self.table.setHorizontalHeaderLabels(["Show", "Move", "Tag", "X", "Y"])
self.table.verticalHeader().setVisible(False)
def _setup_start_stop_mode(self):
"""Setup the table for start/stop mode."""
self.table.setColumnCount(8)
self.table.setHorizontalHeaderLabels(
[
"Show",
"Move [start]",
"Move [end]",
"Tag",
"X [start]",
"Y [start]",
"X [end]",
"Y [end]",
]
)
self.table.verticalHeader().setVisible(False)
# Set flag to track if the coordinate is stat or the end of the entry
self.is_next_entry_end = False
def mode_switch(self):
"""Switch between individual and start/stop mode."""
last_selected_index = self.comboBox_mode.currentIndex()
if self.table.rowCount() > 0 and self.warning_message is True:
msgBox = QMessageBox()
msgBox.setIcon(QMessageBox.Critical)
msgBox.setText(
"Switching modes will delete all table entries. Do you want to continue?"
)
msgBox.setStandardButtons(QMessageBox.Ok | QMessageBox.Cancel)
returnValue = msgBox.exec()
if returnValue is QMessageBox.Cancel:
self.comboBox_mode.blockSignals(True) # Block signals
self.comboBox_mode.setCurrentIndex(last_selected_index)
self.comboBox_mode.blockSignals(False) # Unblock signals
return
# Wipe table
self.wipe_motor_map_coordinates()
# Initiate new table with new mode
self._setup_table()
@pyqtSlot(tuple)
def add_coordinate(self, coordinates: tuple):
"""
Add a coordinate to the table.
Args:
coordinates(tuple): Coordinates (x,y) to add to the table.
"""
tag = f"Pos {self.tag_counter}"
self.tag_counter += 1
x, y = coordinates
self._add_row(tag, x, y)
def _add_row(self, tag: str, x: float, y: float) -> None:
"""
Add a row to the table.
Args:
tag(str): Tag of the coordinate.
x(float): X coordinate.
y(float): Y coordinate.
"""
mode = self.comboBox_mode.currentText()
if mode == "Individual":
checkbox_pos = 0
button_pos = 1
tag_pos = 2
x_pos = 3
y_pos = 4
coordinate_reference = "Individual"
color = "green"
# Add new row -> new entry
row_count = self.table.rowCount()
self.table.insertRow(row_count)
# Add Widgets
self._add_widgets(
tag,
x,
y,
row_count,
checkbox_pos,
tag_pos,
button_pos,
x_pos,
y_pos,
coordinate_reference,
color,
)
if mode == "Start/Stop":
# These positions are always fixed
checkbox_pos = 0
tag_pos = 3
if self.is_next_entry_end is False: # It is the start position of the entry
print("Start position")
button_pos = 1
x_pos = 4
y_pos = 5
coordinate_reference = "Start"
color = "blue"
# Add new row -> new entry
row_count = self.table.rowCount()
self.table.insertRow(row_count)
# Add Widgets
self._add_widgets(
tag,
x,
y,
row_count,
checkbox_pos,
tag_pos,
button_pos,
x_pos,
y_pos,
coordinate_reference,
color,
)
# Next entry will be the end of the current entry
self.is_next_entry_end = True
elif self.is_next_entry_end is True: # It is the end position of the entry
print("End position")
row_count = self.table.rowCount() - 1 # Current row
button_pos = 2
x_pos = 6
y_pos = 7
coordinate_reference = "Stop"
color = "red"
# Add Widgets
self._add_widgets(
tag,
x,
y,
row_count,
checkbox_pos,
tag_pos,
button_pos,
x_pos,
y_pos,
coordinate_reference,
color,
)
self.is_next_entry_end = False # Next entry will be the start of the new entry
# Auto table resize
self.resize_table_auto()
def _add_widgets(
self,
tag: str,
x: float,
y: float,
row: int,
checkBox_pos: int,
tag_pos: int,
button_pos: int,
x_pos: int,
y_pos: int,
coordinate_reference: str,
color: str,
) -> None:
"""
Add widgets to the table.
Args:
tag(str): Tag of the coordinate.
x(float): X coordinate.
y(float): Y coordinate.
row(int): Row of the QTableWidget where to add the widgets.
checkBox_pos(int): Column where to put CheckBox.
tag_pos(int): Column where to put Tag.
button_pos(int): Column where to put Move button.
x_pos(int): Column where to link x coordinate.
y_pos(int): Column where to link y coordinate.
coordinate_reference(str): Reference to the coordinate for MotorMap.
color(str): Color of the coordinate for MotorMap.
"""
# Add widgets
self._add_checkbox(row, checkBox_pos, x_pos, y_pos)
self._add_move_button(row, button_pos, x_pos, y_pos)
self.table.setItem(row, tag_pos, QTableWidgetItem(tag))
self._add_line_edit(x, row, x_pos, x_pos, y_pos, coordinate_reference, color)
self._add_line_edit(y, row, y_pos, x_pos, y_pos, coordinate_reference, color)
# # Emit the coordinates to be plotted
self.emit_plot_coordinates(x_pos, y_pos, coordinate_reference, color)
# Connect item edit to emit coordinates
self.table.itemChanged.connect(
lambda: print(f"item changed from {coordinate_reference} slot \n {x}-{y}-{color}")
)
self.table.itemChanged.connect(
lambda: self.emit_plot_coordinates(x_pos, y_pos, coordinate_reference, color)
)
def _add_checkbox(self, row: int, checkBox_pos: int, x_pos: int, y_pos: int):
"""
Add a checkbox to the table.
Args:
row(int): Row of QTableWidget where to add the checkbox.
checkBox_pos(int): Column where to put CheckBox.
x_pos(int): Column where to link x coordinate.
y_pos(int): Column where to link y coordinate.
"""
show_checkbox = QCheckBox()
show_checkbox.setChecked(True)
show_checkbox.stateChanged.connect(lambda: self.emit_plot_coordinates(x_pos, y_pos))
self.table.setCellWidget(row, checkBox_pos, show_checkbox)
def _add_move_button(self, row: int, button_pos: int, x_pos: int, y_pos: int) -> None:
"""
Add a move button to the table.
Args:
row(int): Row of QTableWidget where to add the move button.
button_pos(int): Column where to put move button.
x_pos(int): Column where to link x coordinate.
y_pos(int): Column where to link y coordinate.
"""
move_button = QPushButton("Move")
move_button.clicked.connect(lambda: self.handle_move_button_click(x_pos, y_pos))
self.table.setCellWidget(row, button_pos, move_button)
def _add_line_edit(
self,
value: float,
row: int,
line_pos: int,
x_pos: int,
y_pos: int,
coordinate_reference: str,
color: str,
) -> None:
"""
Add a QLineEdit to the table.
Args:
value(float): Initial value of the QLineEdit.
row(int): Row of QTableWidget where to add the QLineEdit.
line_pos(int): Column where to put QLineEdit.
x_pos(int): Column where to link x coordinate.
y_pos(int): Column where to link y coordinate.
coordinate_reference(str): Reference to the coordinate for MotorMap.
color(str): Color of the coordinate for MotorMap.
"""
# Adding validator
validator = QDoubleValidator()
validator.setDecimals(self.precision)
# Create line edit
edit = QLineEdit(str(f"{value:.{self.precision}f}"))
edit.setValidator(validator)
edit.setAlignment(Qt.AlignmentFlag.AlignCenter)
# Add line edit to the table
self.table.setCellWidget(row, line_pos, edit)
edit.textChanged.connect(
lambda: self.emit_plot_coordinates(x_pos, y_pos, coordinate_reference, color)
)
def wipe_motor_map_coordinates(self):
"""Wipe the motor map coordinates."""
try:
self.table.itemChanged.disconnect() # Disconnect all previous connections
except TypeError:
print("No previous connections to disconnect")
self.table.setRowCount(0)
reference_tags = ["Individual", "Start", "Stop"]
for reference_tag in reference_tags:
self.plot_coordinates_signal.emit([], reference_tag, "green")
def handle_move_button_click(self, x_pos: int, y_pos: int) -> None:
"""
Handle the move button click.
Args:
x_pos(int): X position of the coordinate.
y_pos(int): Y position of the coordinate.
"""
button = self.sender()
row = self.table.indexAt(button.pos()).row()
x = self.get_coordinate(row, x_pos)
y = self.get_coordinate(row, y_pos)
self.move_motor(x, y)
def emit_plot_coordinates(self, x_pos: float, y_pos: float, reference_tag: str, color: str):
"""
Emit the coordinates to be plotted.
Args:
x_pos(float): X position of the coordinate.
y_pos(float): Y position of the coordinate.
reference_tag(str): Reference tag of the coordinate.
color(str): Color of the coordinate.
"""
print(
f"Emitting plot coordinates: x_pos={x_pos}, y_pos={y_pos}, reference_tag={reference_tag}, color={color}"
)
coordinates = []
for row in range(self.table.rowCount()):
show = self.table.cellWidget(row, 0).isChecked()
x = self.get_coordinate(row, x_pos)
y = self.get_coordinate(row, y_pos)
coordinates.append((x, y, show)) # (x, y, show_flag)
self.plot_coordinates_signal.emit(coordinates, reference_tag, color)
def get_coordinate(self, row: int, column: int) -> float:
"""
Helper function to get the coordinate from the table QLineEdit cells.
Args:
row(int): Row of the table.
column(int): Column of the table.
Returns:
float: Value of the coordinate.
"""
edit = self.table.cellWidget(row, column)
value = float(edit.text()) if edit and edit.text() != "" else None
if value:
return value
def delete_selected_row(self):
"""Delete the selected row from the table."""
selected_rows = self.table.selectionModel().selectedRows()
for row in selected_rows:
self.table.removeRow(row.row())
if self.comboBox_mode.currentText() == "Start/Stop":
self.emit_plot_coordinates(x_pos=4, y_pos=5, reference_tag="Start", color="blue")
self.emit_plot_coordinates(x_pos=6, y_pos=7, reference_tag="Stop", color="red")
self.is_next_entry_end = False
elif self.comboBox_mode.currentText() == "Individual":
self.emit_plot_coordinates(x_pos=3, y_pos=4, reference_tag="Individual", color="green")
def resize_table_auto(self):
"""Resize the table to fit the contents."""
if self.checkBox_resize_auto.isChecked():
self.table.resizeColumnsToContents()
def move_motor(self, x: float, y: float) -> None:
"""
Move the motor to the target coordinates.
Args:
x(float): Target x coordinate.
y(float): Target y coordinate.
"""
self.motor_thread.move_absolute(self.motor_x, self.motor_y, (x, y))
@pyqtSlot(str, str)
def change_motors(self, motor_x: str, motor_y: str) -> None:
"""
Change the active motors and update config.
Can be connected to the selected_motors_signal from MotorControlSelection.
Args:
motor_x(str): New motor X to be controlled.
motor_y(str): New motor Y to be controlled.
"""
self.motor_x = motor_x
self.motor_y = motor_y
self.config["motor_control"]["motor_x"] = motor_x
self.config["motor_control"]["motor_y"] = motor_y
@pyqtSlot(int)
def set_precision(self, precision: int) -> None:
"""
Set the precision of the coordinates.
Args:
precision(int): Precision of the coordinates.
"""
self.precision = precision
self.config["motor_control"]["precision"] = precision
class MotorControlErrors:
"""Class for displaying formatted error messages."""

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bec_widgets/widgets/motor_control/motor_table/__init__.py Normal file
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# pylint: disable = no-name-in-module,missing-module-docstring
import os
from qtpy import uic
from qtpy.QtCore import Qt
from qtpy.QtCore import Signal as pyqtSignal
from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtGui import QDoubleValidator, QKeySequence
from qtpy.QtWidgets import (
QCheckBox,
QLineEdit,
QMessageBox,
QPushButton,
QShortcut,
QTableWidget,
QTableWidgetItem,
)
from bec_widgets.utils import UILoader
from bec_widgets.widgets.motor_control.motor_control import MotorControlWidget
class MotorCoordinateTable(MotorControlWidget):
"""
Widget to save coordinates from motor, display them in the table and move back to them.
There are two modes of operation:
- Individual: Each row is a single coordinate.
- Start/Stop: Each pair of rows is a start and end coordinate.
Signals:
plot_coordinates_signal (pyqtSignal(list, str, str)): Signal to plot the coordinates in the MotorMap.
Slots:
add_coordinate (pyqtSlot(tuple)): Slot to add a coordinate to the table.
mode_switch (pyqtSlot): Slot to switch between individual and start/stop mode.
"""
plot_coordinates_signal = pyqtSignal(list, str, str)
def _load_ui(self):
"""Load the UI for the coordinate table."""
current_path = os.path.dirname(__file__)
self.ui = UILoader().load_ui(os.path.join(current_path, "motor_table.ui"), self)
def _init_ui(self):
"""Initialize the UI"""
# Setup table behaviour
self._setup_table()
self.ui.table.setSelectionBehavior(QTableWidget.SelectRows)
# for tag columns default tag
self.tag_counter = 1
# Connect signals and slots
self.ui.checkBox_resize_auto.stateChanged.connect(self.resize_table_auto)
self.ui.comboBox_mode.currentIndexChanged.connect(self.mode_switch)
# Keyboard shortcuts for deleting a row
self.delete_shortcut = QShortcut(QKeySequence(Qt.Key_Delete), self.ui.table)
self.delete_shortcut.activated.connect(self.delete_selected_row)
self.backspace_shortcut = QShortcut(QKeySequence(Qt.Key_Backspace), self.ui.table)
self.backspace_shortcut.activated.connect(self.delete_selected_row)
# Warning message for mode switch enable/disable
self.warning_message = True
@pyqtSlot(dict)
def on_config_update(self, config: dict) -> None:
"""
Update config dict
Args:
config(dict): New config dict
"""
self.config = config
# Get motor names
self.motor_x, self.motor_y = (
self.config["motor_control"]["motor_x"],
self.config["motor_control"]["motor_y"],
)
# Decimal precision of the table coordinates
self.precision = self.config["motor_control"].get("precision", 3)
# Mode switch default option
self.mode = self.config["motor_control"].get("mode", "Individual")
# Set combobox to default mode
self.ui.comboBox_mode.setCurrentText(self.mode)
self._init_ui()
def _setup_table(self):
"""Setup the table with appropriate headers and configurations."""
mode = self.ui.comboBox_mode.currentText()
if mode == "Individual":
self._setup_individual_mode()
elif mode == "Start/Stop":
self._setup_start_stop_mode()
self.start_stop_counter = 0 # TODO: remove this??
self.wipe_motor_map_coordinates()
def _setup_individual_mode(self):
"""Setup the table for individual mode."""
self.ui.table.setColumnCount(5)
self.ui.table.setHorizontalHeaderLabels(["Show", "Move", "Tag", "X", "Y"])
self.ui.table.verticalHeader().setVisible(False)
def _setup_start_stop_mode(self):
"""Setup the table for start/stop mode."""
self.ui.table.setColumnCount(8)
self.ui.table.setHorizontalHeaderLabels(
[
"Show",
"Move [start]",
"Move [end]",
"Tag",
"X [start]",
"Y [start]",
"X [end]",
"Y [end]",
]
)
self.ui.table.verticalHeader().setVisible(False)
# Set flag to track if the coordinate is stat or the end of the entry
self.is_next_entry_end = False
def mode_switch(self):
"""Switch between individual and start/stop mode."""
last_selected_index = self.ui.comboBox_mode.currentIndex()
if self.ui.table.rowCount() > 0 and self.warning_message is True:
msgBox = QMessageBox()
msgBox.setIcon(QMessageBox.Critical)
msgBox.setText(
"Switching modes will delete all table entries. Do you want to continue?"
)
msgBox.setStandardButtons(QMessageBox.Ok | QMessageBox.Cancel)
returnValue = msgBox.exec()
if returnValue is QMessageBox.Cancel:
self.ui.comboBox_mode.blockSignals(True) # Block signals
self.ui.comboBox_mode.setCurrentIndex(last_selected_index)
self.ui.comboBox_mode.blockSignals(False) # Unblock signals
return
# Wipe table
self.wipe_motor_map_coordinates()
# Initiate new table with new mode
self._setup_table()
@pyqtSlot(tuple)
def add_coordinate(self, coordinates: tuple):
"""
Add a coordinate to the table.
Args:
coordinates(tuple): Coordinates (x,y) to add to the table.
"""
tag = f"Pos {self.tag_counter}"
self.tag_counter += 1
x, y = coordinates
self._add_row(tag, x, y)
def _add_row(self, tag: str, x: float, y: float) -> None:
"""
Add a row to the table.
Args:
tag(str): Tag of the coordinate.
x(float): X coordinate.
y(float): Y coordinate.
"""
mode = self.ui.comboBox_mode.currentText()
if mode == "Individual":
checkbox_pos = 0
button_pos = 1
tag_pos = 2
x_pos = 3
y_pos = 4
coordinate_reference = "Individual"
color = "green"
# Add new row -> new entry
row_count = self.ui.table.rowCount()
self.ui.table.insertRow(row_count)
# Add Widgets
self._add_widgets(
tag,
x,
y,
row_count,
checkbox_pos,
tag_pos,
button_pos,
x_pos,
y_pos,
coordinate_reference,
color,
)
if mode == "Start/Stop":
# These positions are always fixed
checkbox_pos = 0
tag_pos = 3
if self.is_next_entry_end is False: # It is the start position of the entry
print("Start position")
button_pos = 1
x_pos = 4
y_pos = 5
coordinate_reference = "Start"
color = "blue"
# Add new row -> new entry
row_count = self.ui.table.rowCount()
self.ui.table.insertRow(row_count)
# Add Widgets
self._add_widgets(
tag,
x,
y,
row_count,
checkbox_pos,
tag_pos,
button_pos,
x_pos,
y_pos,
coordinate_reference,
color,
)
# Next entry will be the end of the current entry
self.is_next_entry_end = True
elif self.is_next_entry_end is True: # It is the end position of the entry
print("End position")
row_count = self.ui.table.rowCount() - 1 # Current row
button_pos = 2
x_pos = 6
y_pos = 7
coordinate_reference = "Stop"
color = "red"
# Add Widgets
self._add_widgets(
tag,
x,
y,
row_count,
checkbox_pos,
tag_pos,
button_pos,
x_pos,
y_pos,
coordinate_reference,
color,
)
self.is_next_entry_end = False # Next entry will be the start of the new entry
# Auto table resize
self.resize_table_auto()
def _add_widgets(
self,
tag: str,
x: float,
y: float,
row: int,
checkBox_pos: int,
tag_pos: int,
button_pos: int,
x_pos: int,
y_pos: int,
coordinate_reference: str,
color: str,
) -> None:
"""
Add widgets to the table.
Args:
tag(str): Tag of the coordinate.
x(float): X coordinate.
y(float): Y coordinate.
row(int): Row of the QTableWidget where to add the widgets.
checkBox_pos(int): Column where to put CheckBox.
tag_pos(int): Column where to put Tag.
button_pos(int): Column where to put Move button.
x_pos(int): Column where to link x coordinate.
y_pos(int): Column where to link y coordinate.
coordinate_reference(str): Reference to the coordinate for MotorMap.
color(str): Color of the coordinate for MotorMap.
"""
# Add widgets
self._add_checkbox(row, checkBox_pos, x_pos, y_pos)
self._add_move_button(row, button_pos, x_pos, y_pos)
self.ui.table.setItem(row, tag_pos, QTableWidgetItem(tag))
self._add_line_edit(x, row, x_pos, x_pos, y_pos, coordinate_reference, color)
self._add_line_edit(y, row, y_pos, x_pos, y_pos, coordinate_reference, color)
# # Emit the coordinates to be plotted
self.emit_plot_coordinates(x_pos, y_pos, coordinate_reference, color)
# Connect item edit to emit coordinates
self.ui.table.itemChanged.connect(
lambda: print(f"item changed from {coordinate_reference} slot \n {x}-{y}-{color}")
)
self.ui.table.itemChanged.connect(
lambda: self.emit_plot_coordinates(x_pos, y_pos, coordinate_reference, color)
)
def _add_checkbox(self, row: int, checkBox_pos: int, x_pos: int, y_pos: int):
"""
Add a checkbox to the table.
Args:
row(int): Row of QTableWidget where to add the checkbox.
checkBox_pos(int): Column where to put CheckBox.
x_pos(int): Column where to link x coordinate.
y_pos(int): Column where to link y coordinate.
"""
show_checkbox = QCheckBox()
show_checkbox.setChecked(True)
show_checkbox.stateChanged.connect(lambda: self.emit_plot_coordinates(x_pos, y_pos))
self.ui.table.setCellWidget(row, checkBox_pos, show_checkbox)
def _add_move_button(self, row: int, button_pos: int, x_pos: int, y_pos: int) -> None:
"""
Add a move button to the table.
Args:
row(int): Row of QTableWidget where to add the move button.
button_pos(int): Column where to put move button.
x_pos(int): Column where to link x coordinate.
y_pos(int): Column where to link y coordinate.
"""
move_button = QPushButton("Move")
move_button.clicked.connect(lambda: self.handle_move_button_click(x_pos, y_pos))
self.ui.table.setCellWidget(row, button_pos, move_button)
def _add_line_edit(
self,
value: float,
row: int,
line_pos: int,
x_pos: int,
y_pos: int,
coordinate_reference: str,
color: str,
) -> None:
"""
Add a QLineEdit to the table.
Args:
value(float): Initial value of the QLineEdit.
row(int): Row of QTableWidget where to add the QLineEdit.
line_pos(int): Column where to put QLineEdit.
x_pos(int): Column where to link x coordinate.
y_pos(int): Column where to link y coordinate.
coordinate_reference(str): Reference to the coordinate for MotorMap.
color(str): Color of the coordinate for MotorMap.
"""
# Adding validator
validator = QDoubleValidator()
validator.setDecimals(self.precision)
# Create line edit
edit = QLineEdit(str(f"{value:.{self.precision}f}"))
edit.setValidator(validator)
edit.setAlignment(Qt.AlignmentFlag.AlignCenter)
# Add line edit to the table
self.ui.table.setCellWidget(row, line_pos, edit)
edit.textChanged.connect(
lambda: self.emit_plot_coordinates(x_pos, y_pos, coordinate_reference, color)
)
def wipe_motor_map_coordinates(self):
"""Wipe the motor map coordinates."""
try:
self.ui.table.itemChanged.disconnect() # Disconnect all previous connections
except TypeError:
print("No previous connections to disconnect")
self.ui.table.setRowCount(0)
reference_tags = ["Individual", "Start", "Stop"]
for reference_tag in reference_tags:
self.plot_coordinates_signal.emit([], reference_tag, "green")
def handle_move_button_click(self, x_pos: int, y_pos: int) -> None:
"""
Handle the move button click.
Args:
x_pos(int): X position of the coordinate.
y_pos(int): Y position of the coordinate.
"""
button = self.sender()
row = self.ui.table.indexAt(button.pos()).row()
x = self.get_coordinate(row, x_pos)
y = self.get_coordinate(row, y_pos)
self.move_motor(x, y)
def emit_plot_coordinates(self, x_pos: float, y_pos: float, reference_tag: str, color: str):
"""
Emit the coordinates to be plotted.
Args:
x_pos(float): X position of the coordinate.
y_pos(float): Y position of the coordinate.
reference_tag(str): Reference tag of the coordinate.
color(str): Color of the coordinate.
"""
print(
f"Emitting plot coordinates: x_pos={x_pos}, y_pos={y_pos}, reference_tag={reference_tag}, color={color}"
)
coordinates = []
for row in range(self.ui.table.rowCount()):
show = self.ui.table.cellWidget(row, 0).isChecked()
x = self.get_coordinate(row, x_pos)
y = self.get_coordinate(row, y_pos)
coordinates.append((x, y, show)) # (x, y, show_flag)
self.plot_coordinates_signal.emit(coordinates, reference_tag, color)
def get_coordinate(self, row: int, column: int) -> float:
"""
Helper function to get the coordinate from the table QLineEdit cells.
Args:
row(int): Row of the table.
column(int): Column of the table.
Returns:
float: Value of the coordinate.
"""
edit = self.ui.table.cellWidget(row, column)
value = float(edit.text()) if edit and edit.text() != "" else None
if value:
return value
def delete_selected_row(self):
"""Delete the selected row from the table."""
selected_rows = self.ui.table.selectionModel().selectedRows()
for row in selected_rows:
self.ui.table.removeRow(row.row())
if self.ui.comboBox_mode.currentText() == "Start/Stop":
self.emit_plot_coordinates(x_pos=4, y_pos=5, reference_tag="Start", color="blue")
self.emit_plot_coordinates(x_pos=6, y_pos=7, reference_tag="Stop", color="red")
self.is_next_entry_end = False
elif self.ui.comboBox_mode.currentText() == "Individual":
self.emit_plot_coordinates(x_pos=3, y_pos=4, reference_tag="Individual", color="green")
def resize_table_auto(self):
"""Resize the table to fit the contents."""
if self.ui.checkBox_resize_auto.isChecked():
self.ui.table.resizeColumnsToContents()
def move_motor(self, x: float, y: float) -> None:
"""
Move the motor to the target coordinates.
Args:
x(float): Target x coordinate.
y(float): Target y coordinate.
"""
self.motor_thread.move_absolute(self.motor_x, self.motor_y, (x, y))
@pyqtSlot(str, str)
def change_motors(self, motor_x: str, motor_y: str) -> None:
"""
Change the active motors and update config.
Can be connected to the selected_motors_signal from MotorControlSelection.
Args:
motor_x(str): New motor X to be controlled.
motor_y(str): New motor Y to be controlled.
"""
self.motor_x = motor_x
self.motor_y = motor_y
self.config["motor_control"]["motor_x"] = motor_x
self.config["motor_control"]["motor_y"] = motor_y
@pyqtSlot(int)
def set_precision(self, precision: int) -> None:
"""
Set the precision of the coordinates.
Args:
precision(int): Precision of the coordinates.
"""
self.precision = precision
self.config["motor_control"]["precision"] = precision

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bec_widgets/widgets/motor_control/movement_absolute/__init__.py Normal file
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bec_widgets/widgets/motor_control/movement_absolute/movement_absolute.py Normal file
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import os
from qtpy import uic
from qtpy.QtCore import Signal as pyqtSignal
from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtWidgets import QWidget
from bec_widgets.utils import UILoader
from bec_widgets.widgets.motor_control.motor_control import MotorControlErrors, MotorControlWidget
class MotorControlAbsolute(MotorControlWidget):
"""
Widget for controlling the motors to absolute coordinates.
Signals:
coordinates_signal (pyqtSignal(tuple)): Signal to emit the coordinates.
Slots:
change_motors (pyqtSlot): Slot to change the active motors.
enable_motor_controls (pyqtSlot(bool)): Slot to enable/disable the motor controls.
"""
coordinates_signal = pyqtSignal(tuple)
def _load_ui(self):
"""Load the UI from the .ui file."""
current_path = os.path.dirname(__file__)
self.ui = UILoader().load_ui(os.path.join(current_path, "movement_absolute.ui"), self)
def _init_ui(self):
"""Initialize the UI."""
# Check if there are any motors connected
if self.motor_x is None or self.motor_y is None:
self.ui.motorControl_absolute.setEnabled(False)
return
# Move to absolute coordinates
self.ui.pushButton_go_absolute.clicked.connect(
lambda: self.move_motor_absolute(
self.ui.spinBox_absolute_x.value(), self.ui.spinBox_absolute_y.value()
)
)
self.ui.pushButton_set.clicked.connect(self.save_absolute_coordinates)
self.ui.pushButton_save.clicked.connect(self.save_current_coordinates)
self.ui.pushButton_stop.clicked.connect(self.motor_thread.stop_movement)
# Enable/Disable GUI
self.motor_thread.lock_gui.connect(self.enable_motor_controls)
# Error messages
self.motor_thread.motor_error.connect(
lambda error: MotorControlErrors.display_error_message(error)
)
# Keyboard shortcuts
self._init_keyboard_shortcuts()
@pyqtSlot(dict)
def on_config_update(self, config: dict) -> None:
"""Update config dict"""
self.config = config
# Get motor names
self.motor_x, self.motor_y = (
self.config["motor_control"]["motor_x"],
self.config["motor_control"]["motor_y"],
)
# Update step precision
self.precision = self.config["motor_control"]["precision"]
self._init_ui()
@pyqtSlot(bool)
def enable_motor_controls(self, enable: bool) -> None:
"""
Enable or disable the motor controls.
Args:
enable(bool): True to enable, False to disable.
"""
# Disable or enable all controls within the motorControl_absolute group box
for widget in self.ui.motorControl_absolute.findChildren(QWidget):
widget.setEnabled(enable)
# Enable the pushButton_stop if the motor is moving
self.ui.pushButton_stop.setEnabled(True)
@pyqtSlot(str, str)
def change_motors(self, motor_x: str, motor_y: str):
"""
Change the active motors and update config.
Can be connected to the selected_motors_signal from MotorControlSelection.
Args:
motor_x(str): New motor X to be controlled.
motor_y(str): New motor Y to be controlled.
"""
self.motor_x = motor_x
self.motor_y = motor_y
self.config["motor_control"]["motor_x"] = motor_x
self.config["motor_control"]["motor_y"] = motor_y
@pyqtSlot(int)
def set_precision(self, precision: int) -> None:
"""
Set the precision of the coordinates.
Args:
precision(int): Precision of the coordinates.
"""
self.precision = precision
self.config["motor_control"]["precision"] = precision
self.ui.spinBox_absolute_x.setDecimals(precision)
self.ui.spinBox_absolute_y.setDecimals(precision)
def move_motor_absolute(self, x: float, y: float) -> None:
"""
Move the motor to the target coordinates.
Args:
x(float): Target x coordinate.
y(float): Target y coordinate.
"""
# self._enable_motor_controls(False)
target_coordinates = (x, y)
self.motor_thread.move_absolute(self.motor_x, self.motor_y, target_coordinates)
if self.ui.checkBox_save_with_go.isChecked():
self.save_absolute_coordinates()
def _init_keyboard_shortcuts(self):
"""Initialize the keyboard shortcuts."""
# Go absolute button
self.ui.pushButton_go_absolute.setShortcut("Ctrl+G")
self.ui.pushButton_go_absolute.setToolTip("Ctrl+G")
# Set absolute coordinates
self.ui.pushButton_set.setShortcut("Ctrl+D")
self.ui.pushButton_set.setToolTip("Ctrl+D")
# Save Current coordinates
self.ui.pushButton_save.setShortcut("Ctrl+S")
self.ui.pushButton_save.setToolTip("Ctrl+S")
# Stop Button
self.ui.pushButton_stop.setShortcut("Ctrl+X")
self.ui.pushButton_stop.setToolTip("Ctrl+X")
def save_absolute_coordinates(self):
"""Emit the setup coordinates from the spinboxes"""
x, y = round(self.ui.spinBox_absolute_x.value(), self.precision), round(
self.ui.spinBox_absolute_y.value(), self.precision
)
self.coordinates_signal.emit((x, y))
def save_current_coordinates(self):
"""Emit the current coordinates from the motor thread"""
x, y = self.motor_thread.get_coordinates(self.motor_x, self.motor_y)
self.coordinates_signal.emit((round(x, self.precision), round(y, self.precision)))

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bec_widgets/widgets/motor_control/motor_control_absolute.ui → bec_widgets/widgets/motor_control/movement_absolute/movement_absolute.ui
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bec_widgets/widgets/motor_control/movement_relative/__init__.py Normal file
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bec_widgets/widgets/motor_control/movement_relative/movement_relative.py Normal file
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import os
from qtpy import uic
from qtpy.QtCore import Qt
from qtpy.QtCore import Signal as pyqtSignal
from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtGui import QKeySequence
from qtpy.QtWidgets import QDoubleSpinBox, QShortcut, QWidget
from bec_widgets.utils import UILoader
from bec_widgets.widgets.motor_control.motor_control import MotorControlWidget
class MotorControlRelative(MotorControlWidget):
"""
Widget for controlling the motors to relative coordinates.
Signals:
precision_signal (pyqtSignal): Signal to emit the precision of the coordinates.
Slots:
change_motors (pyqtSlot(str,str)): Slot to change the active motors.
enable_motor_controls (pyqtSlot): Slot to enable/disable the motor controls.
"""
precision_signal = pyqtSignal(int)
def _load_ui(self):
"""Load the UI from the .ui file."""
# Loading UI
current_path = os.path.dirname(__file__)
self.ui = UILoader().load_ui(os.path.join(current_path, "movement_relative.ui"), self)
def _init_ui(self):
"""Initialize the UI."""
self._init_ui_motor_control()
self._init_keyboard_shortcuts()
@pyqtSlot(dict)
def on_config_update(self, config: dict) -> None:
"""
Update config dict
Args:
config(dict): New config dict
"""
self.config = config
# Get motor names
self.motor_x, self.motor_y = (
self.config["motor_control"]["motor_x"],
self.config["motor_control"]["motor_y"],
)
# Update step precision
self.precision = self.config["motor_control"]["precision"]
self.ui.spinBox_precision.setValue(self.precision)
# Update step sizes
self.ui.spinBox_step_x.setValue(self.config["motor_control"]["step_size_x"])
self.ui.spinBox_step_y.setValue(self.config["motor_control"]["step_size_y"])
# Checkboxes for keyboard shortcuts and x/y step size link
self.ui.checkBox_same_xy.setChecked(self.config["motor_control"]["step_x_y_same"])
self.ui.checkBox_enableArrows.setChecked(self.config["motor_control"]["move_with_arrows"])
self._init_ui()
def _init_ui_motor_control(self) -> None:
"""Initialize the motor control elements"""
# Connect checkbox and spinBoxes
self.ui.checkBox_same_xy.stateChanged.connect(self._sync_step_sizes)
self.ui.spinBox_step_x.valueChanged.connect(self._update_step_size_x)
self.ui.spinBox_step_y.valueChanged.connect(self._update_step_size_y)
self.ui.toolButton_right.clicked.connect(
lambda: self.move_motor_relative(self.motor_x, "x", 1)
)
self.ui.toolButton_left.clicked.connect(
lambda: self.move_motor_relative(self.motor_x, "x", -1)
)
self.ui.toolButton_up.clicked.connect(
lambda: self.move_motor_relative(self.motor_y, "y", 1)
)
self.ui.toolButton_down.clicked.connect(
lambda: self.move_motor_relative(self.motor_y, "y", -1)
)
# Switch between key shortcuts active
self.ui.checkBox_enableArrows.stateChanged.connect(self._update_arrow_key_shortcuts)
self._update_arrow_key_shortcuts()
# Enable/Disable GUI
self.motor_thread.lock_gui.connect(self.enable_motor_controls)
# Precision update
self.ui.spinBox_precision.valueChanged.connect(lambda x: self._update_precision(x))
# Error messages
self.motor_thread.motor_error.connect(
lambda error: MotorControlErrors.display_error_message(error)
)
# Stop Button
self.ui.pushButton_stop.clicked.connect(self.motor_thread.stop_movement)
def _init_keyboard_shortcuts(self) -> None:
"""Initialize the keyboard shortcuts"""
# Increase/decrease step size for X motor
increase_x_shortcut = QShortcut(QKeySequence("Ctrl+A"), self)
decrease_x_shortcut = QShortcut(QKeySequence("Ctrl+Z"), self)
increase_x_shortcut.activated.connect(
lambda: self._change_step_size(self.ui.spinBox_step_x, 2)
)
decrease_x_shortcut.activated.connect(
lambda: self._change_step_size(self.ui.spinBox_step_x, 0.5)
)
self.ui.spinBox_step_x.setToolTip("Increase step size: Ctrl+A\nDecrease step size: Ctrl+Z")
# Increase/decrease step size for Y motor
increase_y_shortcut = QShortcut(QKeySequence("Alt+A"), self)
decrease_y_shortcut = QShortcut(QKeySequence("Alt+Z"), self)
increase_y_shortcut.activated.connect(
lambda: self._change_step_size(self.ui.spinBox_step_y, 2)
)
decrease_y_shortcut.activated.connect(
lambda: self._change_step_size(self.ui.spinBox_step_y, 0.5)
)
self.ui.spinBox_step_y.setToolTip("Increase step size: Alt+A\nDecrease step size: Alt+Z")
# Stop Button
self.ui.pushButton_stop.setShortcut("Ctrl+X")
self.ui.pushButton_stop.setToolTip("Ctrl+X")
def _update_arrow_key_shortcuts(self) -> None:
"""Update the arrow key shortcuts based on the checkbox state."""
if self.ui.checkBox_enableArrows.isChecked():
# Set the arrow key shortcuts for motor movement
self.ui.toolButton_right.setShortcut(Qt.Key_Right)
self.ui.toolButton_left.setShortcut(Qt.Key_Left)
self.ui.toolButton_up.setShortcut(Qt.Key_Up)
self.ui.toolButton_down.setShortcut(Qt.Key_Down)
else:
# Clear the shortcuts
self.ui.toolButton_right.setShortcut("")
self.ui.toolButton_left.setShortcut("")
self.ui.toolButton_up.setShortcut("")
self.ui.toolButton_down.setShortcut("")
def _update_precision(self, precision: int) -> None:
"""
Update the precision of the coordinates.
Args:
precision(int): Precision of the coordinates.
"""
self.ui.spinBox_step_x.setDecimals(precision)
self.ui.spinBox_step_y.setDecimals(precision)
self.precision_signal.emit(precision)
def _change_step_size(self, spinBox: QDoubleSpinBox, factor: float) -> None:
"""
Change the step size of the spinbox.
Args:
spinBox(QDoubleSpinBox): Spinbox to change the step size.
factor(float): Factor to change the step size.
"""
old_step = spinBox.value()
new_step = old_step * factor
spinBox.setValue(new_step)
def _sync_step_sizes(self):
"""Sync step sizes based on checkbox state."""
if self.ui.checkBox_same_xy.isChecked():
value = self.ui.spinBox_step_x.value()
self.ui.spinBox_step_y.setValue(value)
def _update_step_size_x(self):
"""Update step size for x if checkbox is checked."""
if self.ui.checkBox_same_xy.isChecked():
value = self.ui.spinBox_step_x.value()
self.ui.spinBox_step_y.setValue(value)
def _update_step_size_y(self):
"""Update step size for y if checkbox is checked."""
if self.ui.checkBox_same_xy.isChecked():
value = self.ui.spinBox_step_y.value()
self.ui.spinBox_step_x.setValue(value)
@pyqtSlot(str, str)
def change_motors(self, motor_x: str, motor_y: str):
"""
Change the active motors and update config.
Can be connected to the selected_motors_signal from MotorControlSelection.
Args:
motor_x(str): New motor X to be controlled.
motor_y(str): New motor Y to be controlled.
"""
self.motor_x = motor_x
self.motor_y = motor_y
self.config["motor_control"]["motor_x"] = motor_x
self.config["motor_control"]["motor_y"] = motor_y
@pyqtSlot(bool)
def enable_motor_controls(self, disable: bool) -> None:
"""
Enable or disable the motor controls.
Args:
disable(bool): True to disable, False to enable.
"""
# Disable or enable all controls within the motorControl_absolute group box
for widget in self.ui.motorControl.findChildren(QWidget):
widget.setEnabled(disable)
# Enable the pushButton_stop if the motor is moving
self.ui.pushButton_stop.setEnabled(True)
def move_motor_relative(self, motor, axis: str, direction: int) -> None:
"""
Move the motor relative to the current position.
Args:
motor: Motor to move.
axis(str): Axis to move.
direction(int): Direction to move. 1 for positive, -1 for negative.
"""
if axis == "x":
step = direction * self.ui.spinBox_step_x.value()
elif axis == "y":
step = direction * self.ui.spinBox_step_y.value()
self.motor_thread.move_relative(motor, step)

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bec_widgets/widgets/motor_control/motor_control_relative.ui → bec_widgets/widgets/motor_control/movement_relative/movement_relative.ui
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bec_widgets/widgets/motor_control/selection/__init__.py Normal file
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bec_widgets/widgets/motor_control/selection/selection.py Normal file
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# pylint: disable = no-name-in-module,missing-module-docstring
import os
from qtpy import uic
from qtpy.QtCore import Signal as pyqtSignal
from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtWidgets import QComboBox
from bec_widgets.widgets.motor_control.motor_control import MotorControlWidget
class MotorControlSelection(MotorControlWidget):
"""
Widget for selecting the motors to control.
Signals:
selected_motors_signal (pyqtSignal(str,str)): Signal to emit the selected motors.
Slots:
get_available_motors (pyqtSlot): Slot to populate the available motors in the combo boxes and set the index based on the configuration.
enable_motor_controls (pyqtSlot(bool)): Slot to enable/disable the motor controls GUI.
on_config_update (pyqtSlot(dict)): Slot to update the config dict.
"""
selected_motors_signal = pyqtSignal(str, str)
def _load_ui(self):
"""Load the UI from the .ui file."""
current_path = os.path.dirname(__file__)
uic.loadUi(os.path.join(current_path, "selection.ui"), self)
def _init_ui(self):
"""Initialize the UI."""
# Lock GUI while motors are moving
self.motor_thread.lock_gui.connect(self.enable_motor_controls)
self.pushButton_connecMotors.clicked.connect(self.select_motor)
self.get_available_motors()
# Connect change signals to change color
self.comboBox_motor_x.currentIndexChanged.connect(
lambda: self.set_combobox_style(self.comboBox_motor_x, "#ffa700")
)
self.comboBox_motor_y.currentIndexChanged.connect(
lambda: self.set_combobox_style(self.comboBox_motor_y, "#ffa700")
)
@pyqtSlot(dict)
def on_config_update(self, config: dict) -> None:
"""
Update config dict
Args:
config(dict): New config dict
"""
self.config = config
# Get motor names
self.motor_x, self.motor_y = (
self.config["motor_control"]["motor_x"],
self.config["motor_control"]["motor_y"],
)
self._init_ui()
@pyqtSlot(bool)
def enable_motor_controls(self, enable: bool) -> None:
"""
Enable or disable the motor controls.
Args:
enable(bool): True to enable, False to disable.
"""
self.motorSelection.setEnabled(enable)
@pyqtSlot()
def get_available_motors(self) -> None:
"""
Slot to populate the available motors in the combo boxes and set the index based on the configuration.
"""
# Get all available motors
self.motor_list = self.motor_thread.get_all_motors_names()
# Populate the combo boxes
self.comboBox_motor_x.addItems(self.motor_list)
self.comboBox_motor_y.addItems(self.motor_list)
# Set the index based on the config if provided
if self.config:
index_x = self.comboBox_motor_x.findText(self.motor_x)
index_y = self.comboBox_motor_y.findText(self.motor_y)
self.comboBox_motor_x.setCurrentIndex(index_x if index_x != -1 else 0)
self.comboBox_motor_y.setCurrentIndex(index_y if index_y != -1 else 0)
def set_combobox_style(self, combobox, color: str) -> None:
"""
Set the combobox style to a specific color.
Args:
combobox(QComboBox): Combobox to change the color.
color(str): Color to set the combobox to.
"""
combobox.setStyleSheet(f"QComboBox {{ background-color: {color}; }}")
def select_motor(self):
"""Emit the selected motors"""
motor_x = self.comboBox_motor_x.currentText()
motor_y = self.comboBox_motor_y.currentText()
# Reset the combobox color to normal after selection
self.set_combobox_style(self.comboBox_motor_x, "")
self.set_combobox_style(self.comboBox_motor_y, "")
self.selected_motors_signal.emit(motor_x, motor_y)

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bec_widgets/widgets/motor_control/motor_control_selection.ui → bec_widgets/widgets/motor_control/selection/selection.ui
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bec_widgets/widgets/motor_map/__init__.py
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@@ -1 +0,0 @@
from .motor_map import MotorMap

605
bec_widgets/widgets/motor_map/motor_map.py
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@@ -1,605 +0,0 @@
# pylint: disable = no-name-in-module,missing-module-docstring
from __future__ import annotations
import time
from typing import Any, Union
import numpy as np
import pyqtgraph as pg
from bec_lib import MessageEndpoints
from qtpy import QtCore, QtGui
from qtpy.QtCore import Signal as pyqtSignal
from qtpy.QtCore import Slot as pyqtSlot
from qtpy.QtWidgets import QApplication
from bec_widgets.utils.bec_dispatcher import BECDispatcher
from bec_widgets.utils.yaml_dialog import load_yaml
CONFIG_DEFAULT = {
"plot_settings": {
"colormap": "Greys",
"scatter_size": 5,
"max_points": 1000,
"num_dim_points": 100,
"precision": 2,
"num_columns": 1,
"background_value": 25,
},
"motors": [
{
"plot_name": "Motor Map",
"x_label": "Motor X",
"y_label": "Motor Y",
"signals": {
"x": [{"name": "samx", "entry": "samx"}],
"y": [{"name": "samy", "entry": "samy"}],
},
},
{
"plot_name": "Motor Map 2 ",
"x_label": "Motor X",
"y_label": "Motor Y",
"signals": {
"x": [{"name": "aptrx", "entry": "aptrx"}],
"y": [{"name": "aptry", "entry": "aptry"}],
},
},
],
}
class MotorMap(pg.GraphicsLayoutWidget):
update_signal = pyqtSignal()
def __init__(
self,
parent=None,
client=None,
config: dict = None,
gui_id=None,
skip_validation: bool = True,
):
super().__init__(parent=parent)
# Import BEC related stuff
bec_dispatcher = BECDispatcher()
self.client = bec_dispatcher.client if client is None else client
self.dev = self.client.device_manager.devices
# TODO import validator when prepared
self.gui_id = gui_id
if self.gui_id is None:
self.gui_id = self.__class__.__name__ + str(time.time())
# Current configuration
self.config = config
self.skip_validation = skip_validation # TODO implement validation when validator is ready
# Connect the update signal to the update plot method
self.proxy_update_plot = pg.SignalProxy(
self.update_signal, rateLimit=25, slot=self._update_plots
)
# Config related variables
self.plot_data = None
self.plot_settings = None
self.max_points = None
self.num_dim_points = None
self.scatter_size = None
self.precision = None
self.background_value = None
self.database = {}
self.device_mapping = {}
self.plots = {}
self.grid_coordinates = []
self.curves_data = {}
# Init UI with config
if self.config is None:
print("No initial config found for MotorMap. Using default config.")
else:
self.on_config_update(self.config)
@pyqtSlot(dict)
def on_config_update(self, config: dict) -> None:
"""
Validate and update the configuration settings for the PlotApp.
Args:
config(dict): Configuration settings
"""
# TODO implement BEC CLI commands similar to BECPlotter
# convert config from BEC CLI to correct formatting
config_tag = config.get("config", None)
if config_tag is not None:
config = config["config"]
if self.skip_validation is True:
self.config = config
self._init_config()
else: # TODO implement validator
print("Do validation")
@pyqtSlot(str, str, int)
def change_motors(self, motor_x: str, motor_y: str, subplot: int = 0) -> None:
"""
Change the active motors for the plot.
Args:
motor_x(str): Motor name for the X axis.
motor_y(str): Motor name for the Y axis.
subplot(int): Subplot number.
"""
if subplot >= len(self.plot_data):
print(f"Invalid subplot index: {subplot}. Available subplots: {len(self.plot_data)}")
return
# Update the motor names in the plot configuration
self.config["motors"][subplot]["signals"]["x"][0]["name"] = motor_x
self.config["motors"][subplot]["signals"]["x"][0]["entry"] = motor_x
self.config["motors"][subplot]["signals"]["y"][0]["name"] = motor_y
self.config["motors"][subplot]["signals"]["y"][0]["entry"] = motor_y
# reinitialise the config and UI
self._init_config()
def _init_config(self):
"""Initiate the configuration."""
# Global widget settings
self._get_global_settings()
# Motor settings
self.plot_data = self.config.get("motors", {})
# Include motor limits into the config
self._add_limits_to_plot_data()
# Initialize the database
self.database = self._init_database()
# Create device mapping for x/y motor pairs
self.device_mapping = self._create_device_mapping()
# Initialize the plot UI
self._init_ui()
# Connect motors to slots
self._connect_motors_to_slots()
# Render init position of selected motors
self._update_plots()
def _get_global_settings(self):
"""Get global settings from the config."""
self.plot_settings = self.config.get("plot_settings", {})
self.max_points = self.plot_settings.get("max_points", 5000)
self.num_dim_points = self.plot_settings.get("num_dim_points", 100)
self.scatter_size = self.plot_settings.get("scatter_size", 5)
self.precision = self.plot_settings.get("precision", 2)
self.background_value = self.plot_settings.get("background_value", 25)
def _create_device_mapping(self):
"""
Create a mapping of device names to their corresponding x/y devices.
"""
mapping = {}
for motor in self.config.get("motors", []):
for axis in ["x", "y"]:
for signal in motor["signals"][axis]:
other_axis = "y" if axis == "x" else "x"
corresponding_device = motor["signals"][other_axis][0]["name"]
mapping[signal["name"]] = corresponding_device
return mapping
def _connect_motors_to_slots(self):
"""Connect motors to slots."""
# Disconnect all slots before connecting a new ones
bec_dispatcher = BECDispatcher()
bec_dispatcher.disconnect_all()
# Get list of all unique motors
unique_motors = []
for motor_config in self.plot_data:
for axis in ["x", "y"]:
for signal in motor_config["signals"][axis]:
unique_motors.append(signal["name"])
unique_motors = list(set(unique_motors))
# Create list of endpoint
endpoints = []
for motor in unique_motors:
endpoints.append(MessageEndpoints.device_readback(motor))
# Connect all topics to a single slot
bec_dispatcher.connect_slot(
self.on_device_readback,
endpoints,
)
def _add_limits_to_plot_data(self):
"""
Add limits to each motor signal in the plot_data.
"""
for motor_config in self.plot_data:
for axis in ["x", "y"]:
for signal in motor_config["signals"][axis]:
motor_name = signal["name"]
motor_limits = self._get_motor_limit(motor_name)
signal["limits"] = motor_limits
def _get_motor_limit(self, motor: str) -> Union[list | None]:
"""
Get the motor limit from the config.
Args:
motor(str): Motor name.
Returns:
float: Motor limit.
"""
try:
limits = self.dev[motor].limits
if limits == [0, 0]:
return None
return limits
except AttributeError: # TODO maybe not needed, if no limits it returns [0,0]
# If the motor doesn't have a 'limits' attribute, return a default value or raise a custom exception
print(f"The device '{motor}' does not have defined limits.")
return None
def _init_database(self):
"""Initiate the database according the config."""
database = {}
for plot in self.plot_data:
for axis, signals in plot["signals"].items():
for signal in signals:
name = signal["name"]
entry = signal.get("entry", name)
if name not in database:
database[name] = {}
if entry not in database[name]:
database[name][entry] = [self.get_coordinate(name, entry)]
return database
def get_coordinate(self, name, entry):
"""Get the initial coordinate value for a motor."""
try:
return self.dev[name].read()[entry]["value"]
except Exception as e:
print(f"Error getting initial value for {name}: {e}")
return None
def _init_ui(self, num_columns: int = 3) -> None:
"""
Initialize the UI components, create plots and store their grid positions.
Args:
num_columns (int): Number of columns to wrap the layout.
This method initializes a dictionary `self.plots` to store the plot objects
along with their corresponding x and y signal names. It dynamically arranges
the plots in a grid layout based on the given number of columns and dynamically
stretches the last plots to fit the remaining space.
"""
self.clear()
self.plots = {}
self.grid_coordinates = []
self.curves_data = {} # TODO moved from init_curves
num_plots = len(self.plot_data)
# Check if num_columns exceeds the number of plots
if num_columns >= num_plots:
num_columns = num_plots
self.plot_settings["num_columns"] = num_columns # Update the settings
print(
"Warning: num_columns in the YAML file was greater than the number of plots."
f" Resetting num_columns to number of plots:{num_columns}."
)
else:
self.plot_settings["num_columns"] = num_columns # Update the settings
num_rows = num_plots // num_columns
last_row_cols = num_plots % num_columns
remaining_space = num_columns - last_row_cols
for i, plot_config in enumerate(self.plot_data):
row, col = i // num_columns, i % num_columns
colspan = 1
if row == num_rows and remaining_space > 0:
if last_row_cols == 1:
colspan = num_columns
else:
colspan = remaining_space // last_row_cols + 1
remaining_space -= colspan - 1
last_row_cols -= 1
if "plot_name" not in plot_config:
plot_name = f"Plot ({row}, {col})"
plot_config["plot_name"] = plot_name
else:
plot_name = plot_config["plot_name"]
x_label = plot_config.get("x_label", "")
y_label = plot_config.get("y_label", "")
plot = self.addPlot(row=row, col=col, colspan=colspan, title="Motor position: (X, Y)")
plot.setLabel("bottom", f"{x_label} ({plot_config['signals']['x'][0]['name']})")
plot.setLabel("left", f"{y_label} ({plot_config['signals']['y'][0]['name']})")
plot.addLegend()
# self._set_plot_colors(plot, self.plot_settings) #TODO implement colors
self.plots[plot_name] = plot
self.grid_coordinates.append((row, col))
self._init_motor_map(plot_config)
def _init_motor_map(self, plot_config: dict) -> None:
"""
Initialize the motor map.
Args:
plot_config(dict): Plot configuration.
"""
# Get plot name to find appropriate plot
plot_name = plot_config.get("plot_name", "")
# Reset the curves data
plot = self.plots[plot_name]
plot.clear()
limits_x, limits_y = plot_config["signals"]["x"][0].get("limits", None), plot_config[
"signals"
]["y"][0].get("limits", None)
if limits_x is not None and limits_y is not None:
self._make_limit_map(plot, [limits_x, limits_y])
# Initiate ScatterPlotItem for motor coordinates
self.curves_data[plot_name] = {
"pos": pg.ScatterPlotItem(
size=self.scatter_size, pen=pg.mkPen(None), brush=pg.mkBrush(255, 255, 255, 255)
)
}
# Add the scatter plot to the plot
plot.addItem(self.curves_data[plot_name]["pos"])
# Set the point map to be always on the top
self.curves_data[plot_name]["pos"].setZValue(0)
# Add all layers to the plot
plot.showGrid(x=True, y=True)
# Add the crosshair for motor coordinates
init_position_x = self._get_motor_init_position(
plot_config["signals"]["x"][0]["name"], plot_config["signals"]["x"][0]["entry"]
)
init_position_y = self._get_motor_init_position(
plot_config["signals"]["y"][0]["name"], plot_config["signals"]["y"][0]["entry"]
)
self._add_coordinantes_crosshair(plot_name, init_position_x, init_position_y)
def _add_coordinantes_crosshair(self, plot_name: str, x: float, y: float) -> None:
"""
Add crosshair to the plot to highlight the current position.
Args:
plot_name(str): Name of the plot.
x(float): X coordinate.
y(float): Y coordinate.
"""
# find the current plot
plot = self.plots[plot_name]
# Crosshair to highlight the current position
highlight_H = pg.InfiniteLine(
angle=0, movable=False, pen=pg.mkPen(color="r", width=1, style=QtCore.Qt.DashLine)
)
highlight_V = pg.InfiniteLine(
angle=90, movable=False, pen=pg.mkPen(color="r", width=1, style=QtCore.Qt.DashLine)
)
# Add crosshair to the curve list for future referencing
self.curves_data[plot_name]["highlight_H"] = highlight_H
self.curves_data[plot_name]["highlight_V"] = highlight_V
# Add crosshair to the plot
plot.addItem(highlight_H)
plot.addItem(highlight_V)
highlight_H.setPos(x)
highlight_V.setPos(y)
def _make_limit_map(self, plot: pg.PlotItem, limits: list):
"""
Make a limit map from the limits list.
Args:
plot(pg.PlotItem): Plot to add the limit map to.
limits(list): List of limits.
"""
# Define the size of the image map based on the motor's limits
limit_x_min, limit_x_max = limits[0]
limit_y_min, limit_y_max = limits[1]
map_width = int(limit_x_max - limit_x_min + 1)
map_height = int(limit_y_max - limit_y_min + 1)
limit_map_data = np.full((map_width, map_height), self.background_value, dtype=np.float32)
# Create the image map
limit_map = pg.ImageItem()
limit_map.setImage(limit_map_data)
plot.addItem(limit_map)
# Translate and scale the image item to match the motor coordinates
tr = QtGui.QTransform()
tr.translate(limit_x_min, limit_y_min)
limit_map.setTransform(tr)
def _get_motor_init_position(self, name: str, entry: str) -> float:
"""
Get the motor initial position from the config.
Args:
name(str): Motor name.
entry(str): Motor entry.
Returns:
float: Motor initial position.
"""
init_position = round(self.dev[name].read()[entry]["value"], self.precision)
return init_position
def _update_plots(self):
"""Update the motor position on plots."""
for plot_name, curve_list in self.curves_data.items():
plot_config = next(
(pc for pc in self.plot_data if pc.get("plot_name") == plot_name), None
)
if not plot_config:
continue
# Get the motor coordinates
x_motor_name = plot_config["signals"]["x"][0]["name"]
x_motor_entry = plot_config["signals"]["x"][0]["entry"]
y_motor_name = plot_config["signals"]["y"][0]["name"]
y_motor_entry = plot_config["signals"]["y"][0]["entry"]
# update motor position only if there is data
if (
len(self.database[x_motor_name][x_motor_entry]) >= 1
and len(self.database[y_motor_name][y_motor_entry]) >= 1
):
# Relevant data for the plot
motor_x_data = self.database[x_motor_name][x_motor_entry]
motor_y_data = self.database[y_motor_name][y_motor_entry]
# Setup gradient brush for history
brushes = [pg.mkBrush(50, 50, 50, 255)] * len(motor_x_data)
# Calculate the decrement step based on self.num_dim_points
decrement_step = (255 - 50) / self.num_dim_points
for i in range(1, min(self.num_dim_points + 1, len(motor_x_data) + 1)):
brightness = max(60, 255 - decrement_step * (i - 1))
brushes[-i] = pg.mkBrush(brightness, brightness, brightness, 255)
brushes[-1] = pg.mkBrush(
255, 255, 255, 255
) # Newest point is always full brightness
# Update the scatter plot
self.curves_data[plot_name]["pos"].setData(
x=motor_x_data,
y=motor_y_data,
brush=brushes,
pen=None,
size=self.scatter_size,
)
# Get last know position for crosshair
current_x = motor_x_data[-1]
current_y = motor_y_data[-1]
# Update plot title
self.plots[plot_name].setTitle(
f"Motor position: ({round(current_x,self.precision)}, {round(current_y,self.precision)})"
)
# Update the crosshair
self.curves_data[plot_name]["highlight_V"].setPos(current_x)
self.curves_data[plot_name]["highlight_H"].setPos(current_y)
@pyqtSlot(list, str, str)
def plot_saved_coordinates(self, coordinates: list, tag: str, color: str):
"""
Plot saved coordinates on the map.
Args:
coordinates(list): List of coordinates to be plotted.
tag(str): Tag for the coordinates for future reference.
color(str): Color to plot coordinates in.
"""
for plot_name in self.plots:
plot = self.plots[plot_name]
# Clear previous saved points
if tag in self.curves_data[plot_name]:
plot.removeItem(self.curves_data[plot_name][tag])
# Filter coordinates to be shown
visible_coords = [coord[:2] for coord in coordinates if coord[2]]
if visible_coords:
saved_points = pg.ScatterPlotItem(
pos=np.array(visible_coords), brush=pg.mkBrush(color)
)
plot.addItem(saved_points)
self.curves_data[plot_name][tag] = saved_points
@pyqtSlot(dict)
def on_device_readback(self, msg: dict):
"""
Update the motor coordinates on the plots.
Args:
msg (dict): Message received with device readback data.
"""
for device_name, device_info in msg["signals"].items():
# Check if the device is relevant to our current context
if device_name in self.device_mapping:
self._update_device_data(device_name, device_info["value"])
self.update_signal.emit()
def _update_device_data(self, device_name: str, value: float):
"""
Update the device data.
Args:
device_name (str): Device name.
value (float): Device value.
"""
if device_name in self.database:
self.database[device_name][device_name].append(value)
corresponding_device = self.device_mapping.get(device_name)
if corresponding_device and corresponding_device in self.database:
last_value = (
self.database[corresponding_device][corresponding_device][-1]
if self.database[corresponding_device][corresponding_device]
else None
)
self.database[corresponding_device][corresponding_device].append(last_value)
if __name__ == "__main__": # pragma: no cover
import argparse
import json
import sys
parser = argparse.ArgumentParser()
parser.add_argument("--config_file", help="Path to the config file.")
parser.add_argument("--config", help="Path to the config file.")
parser.add_argument("--id", help="GUI ID.")
args = parser.parse_args()
if args.config is not None:
# Load config from file
config = json.loads(args.config)
elif args.config_file is not None:
# Load config from file
config = load_yaml(args.config_file)
else:
config = CONFIG_DEFAULT
client = BECDispatcher().client
client.start()
app = QApplication(sys.argv)
motor_map = MotorMap(
config=config,
gui_id=args.id,
skip_validation=True,
)
motor_map.show()
sys.exit(app.exec())

4
bec_widgets/widgets/plots/__init__.py
View File

@@ -1,4 +0,0 @@
from .image import BECImageItem, BECImageShow, ImageItemConfig
from .motor_map import BECMotorMap, MotorMapConfig
from .plot_base import AxisConfig, BECPlotBase, WidgetConfig
from .waveform import BECCurve, BECWaveform, Waveform1DConfig

19
bec_widgets/widgets/scan_control/scan_control.py
View File

@@ -1,5 +1,4 @@
import msgpack
from bec_lib import MessageEndpoints
from bec_lib.endpoints import MessageEndpoints
from qtpy.QtWidgets import (
QApplication,
QCheckBox,
@@ -109,6 +108,7 @@ class ScanControl(QWidget):
def add_horizontal_separator(self, layout) -> None:
"""
Adds a horizontal separator to the given layout
Args:
layout: Layout to add the separator to
"""
@@ -142,6 +142,7 @@ class ScanControl(QWidget):
def add_labels_to_layout(self, labels: list, grid_layout: QGridLayout) -> None:
"""
Adds labels to the given grid layout as a separate row.
Args:
labels (list): List of label names to add.
grid_layout (QGridLayout): The grid layout to which labels will be added.
@@ -157,6 +158,7 @@ class ScanControl(QWidget):
) -> None: # TODO could be moved to BECTable
"""
Adds labels to the given table widget as a header row.
Args:
labels(list): List of label names to add.
table(QTableWidget): The table widget to which labels will be added.
@@ -166,7 +168,8 @@ class ScanControl(QWidget):
def generate_args_input_fields(self, scan_info: dict) -> None:
"""
Generates input fields for args
Generates input fields for args.
Args:
scan_info(dict): Scan signature dictionary from BEC.
"""
@@ -188,6 +191,7 @@ class ScanControl(QWidget):
def generate_kwargs_input_fields(self, scan_info: dict) -> None:
"""
Generates input fields for kwargs
Args:
scan_info(dict): Scan signature dictionary from BEC.
"""
@@ -213,12 +217,13 @@ class ScanControl(QWidget):
def generate_widgets_from_signature(self, items: list, signature: dict = None) -> list:
"""
Generates widgets from the given list of items.
Args:
items(list): List of items to create widgets for.
signature(dict, optional): Scan signature dictionary from BEC.
Returns:
list: List of widgets created from the given items.
"""
widgets = [] # Initialize an empty list to hold the widgets
@@ -333,6 +338,7 @@ class ScanControl(QWidget):
def clear_and_delete_layout(self, layout: QLayout):
"""
Clears and deletes the given layout and all its child widgets.
Args:
layout(QLayout): Layout to clear and delete
"""
@@ -383,6 +389,7 @@ class ScanControl(QWidget):
def extract_args_from_table(self, table: QTableWidget) -> list:
"""
Extracts the arguments from the given table widget.
Args:
table(QTableWidget): Table widget from which to extract the arguments
"""
@@ -430,9 +437,7 @@ if __name__ == "__main__": # pragma: no cover
client.start()
app = QApplication([])
scan_control = ScanControl(
client=client,
) # allowed_scans=["line_scan", "grid_scan"])
scan_control = ScanControl(client=client) # allowed_scans=["line_scan", "grid_scan"])
window = scan_control
window.show()

1
bec_widgets/widgets/spiral_progress_bar/__init__.py Normal file
View File

@@ -0,0 +1 @@
from .spiral_progress_bar import SpiralProgressBar

278
bec_widgets/widgets/spiral_progress_bar/ring.py Normal file
View File

@@ -0,0 +1,278 @@
from __future__ import annotations
from typing import Literal, Optional
from bec_lib.endpoints import EndpointInfo
from pydantic import BaseModel, Field, field_validator
from pydantic_core import PydanticCustomError
from qtpy import QtGui
from bec_widgets.utils import BECConnector, ConnectionConfig
class RingConnections(BaseModel):
slot: Literal["on_scan_progress", "on_device_readback"] = None
endpoint: EndpointInfo | str = None
model_config: dict = {"validate_assignment": True}
@field_validator("endpoint")
def validate_endpoint(cls, v, values):
slot = values.data["slot"]
v = v.endpoint if isinstance(v, EndpointInfo) else v
if slot == "on_scan_progress":
if v != "scans/scan_progress":
raise PydanticCustomError(
"unsupported endpoint",
"For slot 'on_scan_progress', endpoint must be MessageEndpoint.scan_progress or 'scans/scan_progress'.",
{"wrong_value": v},
)
elif slot == "on_device_readback":
if not v.startswith("internal/devices/readback/"):
raise PydanticCustomError(
"unsupported endpoint",
"For slot 'on_device_readback', endpoint must be MessageEndpoint.device_readback(device) or 'internal/devices/readback/{device}'.",
{"wrong_value": v},
)
return v
class RingConfig(ConnectionConfig):
value: int | float | None = Field(0, description="Value for the progress bars.")
direction: int | None = Field(
-1, description="Direction of the progress bars. -1 for clockwise, 1 for counter-clockwise."
)
color: str | tuple | None = Field(
(0, 159, 227, 255),
description="Color for the progress bars. Can be tuple (R, G, B, A) or string HEX Code.",
)
background_color: str | tuple | None = Field(
(200, 200, 200, 50),
description="Background color for the progress bars. Can be tuple (R, G, B, A) or string HEX Code.",
)
index: int | None = Field(0, description="Index of the progress bar. 0 is outer ring.")
line_width: int | None = Field(10, description="Line widths for the progress bars.")
start_position: int | None = Field(
90,
description="Start position for the progress bars in degrees. Default is 90 degrees - corespons to "
"the top of the ring.",
)
min_value: int | float | None = Field(0, description="Minimum value for the progress bars.")
max_value: int | float | None = Field(100, description="Maximum value for the progress bars.")
precision: int | None = Field(3, description="Precision for the progress bars.")
update_behaviour: Literal["manual", "auto"] | None = Field(
"auto", description="Update behaviour for the progress bars."
)
connections: RingConnections | None = Field(
default_factory=RingConnections, description="Connections for the progress bars."
)
class Ring(BECConnector):
USER_ACCESS = [
"get_all_rpc",
"rpc_id",
"config_dict",
"set_value",
"set_color",
"set_background",
"set_line_width",
"set_min_max_values",
"set_start_angle",
"set_update",
"reset_connection",
]
def __init__(
self,
parent=None,
parent_progress_widget=None,
config: RingConfig | dict | None = None,
client=None,
gui_id: Optional[str] = None,
):
if config is None:
config = RingConfig(widget_class=self.__class__.__name__)
self.config = config
else:
if isinstance(config, dict):
config = RingConfig(**config)
self.config = config
super().__init__(client=client, config=config, gui_id=gui_id)
self.parent_progress_widget = parent_progress_widget
self.color = None
self.background_color = None
self.start_position = None
self.config = config
self.RID = None
self._init_config_params()
def _init_config_params(self):
self.color = self.convert_color(self.config.color)
self.background_color = self.convert_color(self.config.background_color)
self.set_start_angle(self.config.start_position)
if self.config.connections:
self.set_connections(self.config.connections.slot, self.config.connections.endpoint)
def set_value(self, value: int | float):
"""
Set the value for the ring widget
Args:
value(int | float): Value for the ring widget
"""
self.config.value = round(
float(max(self.config.min_value, min(self.config.max_value, value))),
self.config.precision,
)
def set_color(self, color: str | tuple):
"""
Set the color for the ring widget
Args:
color(str | tuple): Color for the ring widget. Can be HEX code or tuple (R, G, B, A).
"""
self.config.color = color
self.color = self.convert_color(color)
def set_background(self, color: str | tuple):
"""
Set the background color for the ring widget
Args:
color(str | tuple): Background color for the ring widget. Can be HEX code or tuple (R, G, B, A).
"""
self.config.background_color = color
self.color = self.convert_color(color)
def set_line_width(self, width: int):
"""
Set the line width for the ring widget
Args:
width(int): Line width for the ring widget
"""
self.config.line_width = width
def set_min_max_values(self, min_value: int | float, max_value: int | float):
"""
Set the min and max values for the ring widget.
Args:
min_value(int | float): Minimum value for the ring widget
max_value(int | float): Maximum value for the ring widget
"""
self.config.min_value = min_value
self.config.max_value = max_value
def set_start_angle(self, start_angle: int):
"""
Set the start angle for the ring widget
Args:
start_angle(int): Start angle for the ring widget in degrees
"""
self.config.start_position = start_angle
self.start_position = start_angle * 16
@staticmethod
def convert_color(color):
"""
Convert the color to QColor
Args:
color(str | tuple): Color for the ring widget. Can be HEX code or tuple (R, G, B, A).
"""
converted_color = None
if isinstance(color, str):
converted_color = QtGui.QColor(color)
elif isinstance(color, tuple):
converted_color = QtGui.QColor(*color)
return converted_color
def set_update(self, mode: Literal["manual", "scan", "device"], device: str = None):
"""
Set the update mode for the ring widget.
Modes:
- "manual": Manual update mode, the value is set by the user.
- "scan": Update mode for the scan progress. The value is updated by the current scan progress.
- "device": Update mode for the device readback. The value is updated by the device readback. Take into account that user has to set the device name and limits.
Args:
mode(str): Update mode for the ring widget. Can be "manual", "scan" or "device"
device(str): Device name for the device readback mode, only used when mode is "device"
"""
if mode == "manual":
self.bec_dispatcher.disconnect_slot(
getattr(self, self.config.connections.slot), self.config.connections.endpoint
)
self.config.connections.slot = None
self.config.connections.endpoint = None
elif mode == "scan":
self.set_connections("on_scan_progress", "scans/scan_progress")
elif mode == "device":
self.set_connections("on_device_readback", f"internal/devices/readback/{device}")
self.parent_progress_widget.enable_auto_updates(False)
def set_connections(self, slot: str, endpoint: str | EndpointInfo):
"""
Set the connections for the ring widget
Args:
slot(str): Slot for the ring widget update. Can be "on_scan_progress" or "on_device_readback".
endpoint(str | EndpointInfo): Endpoint for the ring widget update. Endpoint has to match the slot type.
"""
if self.config.connections.endpoint == endpoint and self.config.connections.slot == slot:
return
else:
self.bec_dispatcher.disconnect_slot(
self.config.connections.slot, self.config.connections.endpoint
)
self.config.connections = RingConnections(slot=slot, endpoint=endpoint)
self.bec_dispatcher.connect_slot(getattr(self, slot), endpoint)
def reset_connection(self):
"""
Reset the connections for the ring widget. Disconnect the current slot and endpoint.
"""
self.bec_dispatcher.disconnect_slot(
self.config.connections.slot, self.config.connections.endpoint
)
self.config.connections = RingConnections()
def on_scan_progress(self, msg, meta):
"""
Update the ring widget with the scan progress.
Args:
msg(dict): Message with the scan progress
meta(dict): Metadata for the message
"""
current_RID = meta.get("RID", None)
if current_RID != self.RID:
self.set_min_max_values(0, msg.get("max_value", 100))
self.set_value(msg.get("value", 0))
self.parent_progress_widget.update()
def on_device_readback(self, msg, meta):
"""
Update the ring widget with the device readback.
Args:
msg(dict): Message with the device readback
meta(dict): Metadata for the message
"""
if isinstance(self.config.connections.endpoint, EndpointInfo):
endpoint = self.config.connections.endpoint.endpoint
else:
endpoint = self.config.connections.endpoint
device = endpoint.split("/")[-1]
value = msg.get("signals").get(device).get("value")
self.set_value(value)
self.parent_progress_widget.update()
def cleanup(self):
self.reset_connection()
super().cleanup()

636
bec_widgets/widgets/spiral_progress_bar/spiral_progress_bar.py Normal file
View File

@@ -0,0 +1,636 @@
from __future__ import annotations
from typing import Literal, Optional
import pyqtgraph as pg
from bec_lib.endpoints import MessageEndpoints
from pydantic import Field, field_validator
from pydantic_core import PydanticCustomError
from qtpy import QtCore, QtGui
from qtpy.QtCore import QSize, Slot
from qtpy.QtWidgets import QSizePolicy, QWidget
from bec_widgets.utils import BECConnector, Colors, ConnectionConfig, EntryValidator
from bec_widgets.widgets.spiral_progress_bar.ring import Ring, RingConfig
class SpiralProgressBarConfig(ConnectionConfig):
color_map: Optional[str] = Field(
"magma", description="Color scheme for the progress bars.", validate_default=True
)
min_number_of_bars: int | None = Field(
1, description="Minimum number of progress bars to display."
)
max_number_of_bars: int | None = Field(
10, description="Maximum number of progress bars to display."
)
num_bars: int | None = Field(1, description="Number of progress bars to display.")
gap: int | None = Field(20, description="Gap between progress bars.")
auto_updates: bool | None = Field(
True, description="Enable or disable updates based on scan queue status."
)
rings: list[RingConfig] | None = Field([], description="List of ring configurations.")
@field_validator("num_bars")
def validate_num_bars(cls, v, values):
min_number_of_bars = values.data.get("min_number_of_bars", None)
max_number_of_bars = values.data.get("max_number_of_bars", None)
if min_number_of_bars is not None and max_number_of_bars is not None:
print(
f"Number of bars adjusted to be between defined min:{min_number_of_bars} and max:{max_number_of_bars} number of bars."
)
v = max(min_number_of_bars, min(v, max_number_of_bars))
return v
@field_validator("rings")
def validate_rings(cls, v, values):
if v is not None and v is not []:
num_bars = values.data.get("num_bars", None)
if len(v) != num_bars:
raise PydanticCustomError(
"different number of configs",
f"Length of rings configuration ({len(v)}) does not match the number of bars ({num_bars}).",
{"wrong_value": len(v)},
)
indices = [ring.index for ring in v]
if sorted(indices) != list(range(len(indices))):
raise PydanticCustomError(
"wrong indices",
f"Indices of ring configurations must be unique and in order from 0 to num_bars {num_bars}.",
{"wrong_value": indices},
)
return v
_validate_colormap = field_validator("color_map")(Colors.validate_color_map)
class SpiralProgressBar(BECConnector, QWidget):
USER_ACCESS = [
"get_all_rpc",
"rpc_id",
"config_dict",
"rings",
"update_config",
"add_ring",
"remove_ring",
"set_precision",
"set_min_max_values",
"set_number_of_bars",
"set_value",
"set_colors_from_map",
"set_colors_directly",
"set_line_widths",
"set_gap",
"set_diameter",
"reset_diameter",
"enable_auto_updates",
]
def __init__(
self,
parent=None,
config: SpiralProgressBarConfig | dict | None = None,
client=None,
gui_id: str | None = None,
num_bars: int | None = None,
):
if config is None:
config = SpiralProgressBarConfig(widget_class=self.__class__.__name__)
self.config = config
else:
if isinstance(config, dict):
config = SpiralProgressBarConfig(**config, widget_class=self.__class__.__name__)
self.config = config
super().__init__(client=client, config=config, gui_id=gui_id)
QWidget.__init__(self, parent=None)
self.get_bec_shortcuts()
self.entry_validator = EntryValidator(self.dev)
self.RID = None
# For updating bar behaviour
self._auto_updates = True
self._rings = None
if num_bars is not None:
self.config.num_bars = max(
self.config.min_number_of_bars, min(num_bars, self.config.max_number_of_bars)
)
self.initialize_bars()
self.enable_auto_updates(self.config.auto_updates)
@property
def rings(self):
return self._rings
@rings.setter
def rings(self, value):
self._rings = value
def update_config(self, config: SpiralProgressBarConfig | dict):
"""
Update the configuration of the widget.
Args:
config(SpiralProgressBarConfig|dict): Configuration to update.
"""
if isinstance(config, dict):
config = SpiralProgressBarConfig(**config, widget_class=self.__class__.__name__)
self.config = config
self.clear_all()
def initialize_bars(self):
"""
Initialize the progress bars.
"""
start_positions = [90 * 16] * self.config.num_bars
directions = [-1] * self.config.num_bars
self.config.rings = [
RingConfig(
widget_class="Ring",
index=i,
start_positions=start_positions[i],
directions=directions[i],
)
for i in range(self.config.num_bars)
]
self._rings = [
Ring(parent_progress_widget=self, config=config) for config in self.config.rings
]
if self.config.color_map:
self.set_colors_from_map(self.config.color_map)
min_size = self._calculate_minimum_size()
self.setMinimumSize(min_size)
self.update()
def add_ring(self, **kwargs) -> Ring:
"""
Add a new progress bar.
Args:
**kwargs: Keyword arguments for the new progress bar.
Returns:
Ring: Ring object.
"""
if self.config.num_bars < self.config.max_number_of_bars:
ring_index = self.config.num_bars
ring_config = RingConfig(
widget_class="Ring",
index=ring_index,
start_positions=90 * 16,
directions=-1,
**kwargs,
)
ring = Ring(parent_progress_widget=self, config=ring_config)
self.config.num_bars += 1
self._rings.append(ring)
self.config.rings.append(ring.config)
if self.config.color_map:
self.set_colors_from_map(self.config.color_map)
base_line_width = self._rings[ring.config.index].config.line_width
self.set_line_widths(base_line_width, ring.config.index)
self.update()
return ring
def remove_ring(self, index: int):
"""
Remove a progress bar by index.
Args:
index(int): Index of the progress bar to remove.
"""
ring = self._find_ring_by_index(index)
ring.cleanup()
self._rings.remove(ring)
self.config.rings.remove(ring.config)
self.config.num_bars -= 1
self._reindex_rings()
if self.config.color_map:
self.set_colors_from_map(self.config.color_map)
del ring
self.update()
def _reindex_rings(self):
"""
Reindex the progress bars.
"""
for i, ring in enumerate(self._rings):
ring.config.index = i
def set_precision(self, precision: int, bar_index: int = None):
"""
Set the precision for the progress bars. If bar_index is not provide, the precision will be set for all progress bars.
Args:
precision(int): Precision for the progress bars.
bar_index(int): Index of the progress bar to set the precision for. If provided, only a single precision can be set.
"""
if bar_index is not None:
bar_index = self._bar_index_check(bar_index)
ring = self._find_ring_by_index(bar_index)
ring.config.precision = precision
else:
for ring in self._rings:
ring.config.precision = precision
self.update()
def set_min_max_values(
self,
min_values: int | float | list[int | float],
max_values: int | float | list[int | float],
):
"""
Set the minimum and maximum values for the progress bars.
Args:
min_values(int|float | list[float]): Minimum value(s) for the progress bars. If multiple progress bars are displayed, provide a list of minimum values for each progress bar.
max_values(int|float | list[float]): Maximum value(s) for the progress bars. If multiple progress bars are displayed, provide a list of maximum values for each progress bar.
"""
if isinstance(min_values, int) or isinstance(min_values, float):
min_values = [min_values]
if isinstance(max_values, int) or isinstance(max_values, float):
max_values = [max_values]
min_values = self._adjust_list_to_bars(min_values)
max_values = self._adjust_list_to_bars(max_values)
for ring, min_value, max_value in zip(self._rings, min_values, max_values):
ring.set_min_max_values(min_value, max_value)
self.update()
def set_number_of_bars(self, num_bars: int):
"""
Set the number of progress bars to display.
Args:
num_bars(int): Number of progress bars to display.
"""
num_bars = max(
self.config.min_number_of_bars, min(num_bars, self.config.max_number_of_bars)
)
current_num_bars = self.config.num_bars
if num_bars > current_num_bars:
for i in range(current_num_bars, num_bars):
new_ring_config = RingConfig(
widget_class="Ring", index=i, start_positions=90 * 16, directions=-1
)
self.config.rings.append(new_ring_config)
new_ring = Ring(parent_progress_widget=self, config=new_ring_config)
self._rings.append(new_ring)
elif num_bars < current_num_bars:
for i in range(current_num_bars - 1, num_bars - 1, -1):
self.remove_ring(i)
self.config.num_bars = num_bars
if self.config.color_map:
self.set_colors_from_map(self.config.color_map)
base_line_width = self._rings[0].config.line_width
self.set_line_widths(base_line_width)
self.update()
def set_value(self, values: int | list, ring_index: int = None):
"""
Set the values for the progress bars.
Args:
values(int | tuple): Value(s) for the progress bars. If multiple progress bars are displayed, provide a tuple of values for each progress bar.
ring_index(int): Index of the progress bar to set the value for. If provided, only a single value can be set.
Examples:
>>> SpiralProgressBar.set_value(50)
>>> SpiralProgressBar.set_value([30, 40, 50]) # (outer, middle, inner)
>>> SpiralProgressBar.set_value(60, bar_index=1) # Set the value for the middle progress bar.
"""
if ring_index is not None:
ring = self._find_ring_by_index(ring_index)
if isinstance(values, list):
values = values[0]
print(
f"Warning: Only a single value can be set for a single progress bar. Using the first value in the list {values}"
)
ring.set_value(values)
else:
if isinstance(values, int):
values = [values]
values = self._adjust_list_to_bars(values)
for ring, value in zip(self._rings, values):
ring.set_value(value)
self.update()
def set_colors_from_map(self, colormap, color_format: Literal["RGB", "HEX"] = "RGB"):
"""
Set the colors for the progress bars from a colormap.
Args:
colormap(str): Name of the colormap.
color_format(Literal["RGB","HEX"]): Format of the returned colors ('RGB', 'HEX').
"""
if colormap not in pg.colormap.listMaps():
raise ValueError(
f"Colormap '{colormap}' not found in the current installation of pyqtgraph"
)
colors = Colors.golden_angle_color(colormap, self.config.num_bars, color_format)
self.set_colors_directly(colors)
self.config.color_map = colormap
self.update()
def set_colors_directly(self, colors: list[str | tuple] | str | tuple, bar_index: int = None):
"""
Set the colors for the progress bars directly.
Args:
colors(list[str | tuple] | str | tuple): Color(s) for the progress bars. If multiple progress bars are displayed, provide a list of colors for each progress bar.
bar_index(int): Index of the progress bar to set the color for. If provided, only a single color can be set.
"""
if bar_index is not None and isinstance(colors, (str, tuple)):
bar_index = self._bar_index_check(bar_index)
ring = self._find_ring_by_index(bar_index)
ring.set_color(colors)
else:
if isinstance(colors, (str, tuple)):
colors = [colors]
colors = self._adjust_list_to_bars(colors)
for ring, color in zip(self._rings, colors):
ring.set_color(color)
self.update()
def set_line_widths(self, widths: int | list[int], bar_index: int = None):
"""
Set the line widths for the progress bars.
Args:
widths(int | list[int]): Line width(s) for the progress bars. If multiple progress bars are displayed, provide a list of line widths for each progress bar.
bar_index(int): Index of the progress bar to set the line width for. If provided, only a single line width can be set.
"""
if bar_index is not None:
bar_index = self._bar_index_check(bar_index)
ring = self._find_ring_by_index(bar_index)
if isinstance(widths, list):
widths = widths[0]
print(
f"Warning: Only a single line width can be set for a single progress bar. Using the first value in the list {widths}"
)
ring.set_line_width(widths)
else:
if isinstance(widths, int):
widths = [widths]
widths = self._adjust_list_to_bars(widths)
self.config.gap = max(widths) * 2
for ring, width in zip(self._rings, widths):
ring.set_line_width(width)
min_size = self._calculate_minimum_size()
self.setMinimumSize(min_size)
self.update()
def set_gap(self, gap: int):
"""
Set the gap between the progress bars.
Args:
gap(int): Gap between the progress bars.
"""
self.config.gap = gap
self.update()
def set_diameter(self, diameter: int):
"""
Set the diameter of the widget.
Args:
diameter(int): Diameter of the widget.
"""
size = QSize(diameter, diameter)
self.resize(size)
self.setFixedSize(size)
def _find_ring_by_index(self, index: int) -> Ring:
"""
Find the ring by index.
Args:
index(int): Index of the ring.
Returns:
Ring: Ring object.
"""
found_ring = None
for ring in self._rings:
if ring.config.index == index:
found_ring = ring
break
if found_ring is None:
raise ValueError(f"Ring with index {index} not found.")
return found_ring
def enable_auto_updates(self, enable: bool = True):
"""
Enable or disable updates based on scan status. Overrides manual updates.
The behaviour of the whole progress bar widget will be driven by the scan queue status.
Args:
enable(bool): True or False.
Returns:
bool: True if scan segment updates are enabled.
"""
self._auto_updates = enable
if enable is True:
self.bec_dispatcher.connect_slot(
self.on_scan_queue_status, MessageEndpoints.scan_queue_status()
)
else:
self.bec_dispatcher.disconnect_slot(
self.on_scan_queue_status, MessageEndpoints.scan_queue_status()
)
return self._auto_updates
@Slot(dict, dict)
def on_scan_queue_status(self, msg, meta):
"""
Slot to handle scan queue status messages. Decides what update to perform based on the scan queue status.
Args:
msg(dict): Message from the BEC.
meta(dict): Metadata from the BEC.
"""
primary_queue = msg.get("queue").get("primary")
info = primary_queue.get("info", None)
if info:
active_request_block = info[0].get("active_request_block", None)
if active_request_block:
report_instructions = active_request_block.get("report_instructions", None)
if report_instructions:
instruction_type = list(report_instructions[0].keys())[0]
if instruction_type == "scan_progress":
self._hook_scan_progress(ring_index=0)
elif instruction_type == "readback":
devices = report_instructions[0].get("readback").get("devices")
start = report_instructions[0].get("readback").get("start")
end = report_instructions[0].get("readback").get("end")
if self.config.num_bars != len(devices):
self.set_number_of_bars(len(devices))
for index, device in enumerate(devices):
self._hook_readback(index, device, start[index], end[index])
else:
print(f"{instruction_type} not supported yet.")
# elif instruction_type == "device_progress":
# print("hook device_progress")
def _hook_scan_progress(self, ring_index: int = None):
"""
Hook the scan progress to the progress bars.
Args:
ring_index(int): Index of the progress bar to hook the scan progress to.
"""
if ring_index is not None:
ring = self._find_ring_by_index(ring_index)
else:
ring = self._rings[0]
if ring.config.connections.slot == "on_scan_progress":
return
else:
ring.set_connections("on_scan_progress", MessageEndpoints.scan_progress())
def _hook_readback(self, bar_index: int, device: str, min: float | int, max: float | int):
"""
Hook the readback values to the progress bars.
Args:
bar_index(int): Index of the progress bar to hook the readback values to.
device(str): Device to readback values from.
min(float|int): Minimum value for the progress bar.
max(float|int): Maximum value for the progress bar.
"""
ring = self._find_ring_by_index(bar_index)
ring.set_min_max_values(min, max)
endpoint = MessageEndpoints.device_readback(device)
ring.set_connections("on_device_readback", endpoint)
def _adjust_list_to_bars(self, items: list) -> list:
"""
Utility method to adjust the list of parameters to match the number of progress bars.
Args:
items(list): List of parameters for the progress bars.
Returns:
list: List of parameters for the progress bars.
"""
if items is None:
raise ValueError(
"Items cannot be None. Please provide a list for parameters for the progress bars."
)
if not isinstance(items, list):
items = [items]
if len(items) < self.config.num_bars:
last_item = items[-1]
items.extend([last_item] * (self.config.num_bars - len(items)))
elif len(items) > self.config.num_bars:
items = items[: self.config.num_bars]
return items
def _bar_index_check(self, bar_index: int):
"""
Utility method to check if the bar index is within the range of the number of progress bars.
Args:
bar_index(int): Index of the progress bar to set the value for.
"""
if not (0 <= bar_index < self.config.num_bars):
raise ValueError(
f"bar_index {bar_index} out of range of number of bars {self.config.num_bars}."
)
return bar_index
def paintEvent(self, event):
painter = QtGui.QPainter(self)
painter.setRenderHint(QtGui.QPainter.Antialiasing)
size = min(self.width(), self.height())
rect = QtCore.QRect(0, 0, size, size)
rect.adjust(
max(ring.config.line_width for ring in self._rings),
max(ring.config.line_width for ring in self._rings),
-max(ring.config.line_width for ring in self._rings),
-max(ring.config.line_width for ring in self._rings),
)
for i, ring in enumerate(self._rings):
# Background arc
painter.setPen(
QtGui.QPen(ring.background_color, ring.config.line_width, QtCore.Qt.SolidLine)
)
offset = self.config.gap * i
adjusted_rect = QtCore.QRect(
rect.left() + offset,
rect.top() + offset,
rect.width() - 2 * offset,
rect.height() - 2 * offset,
)
painter.drawArc(adjusted_rect, ring.config.start_position, 360 * 16)
# Foreground arc
pen = QtGui.QPen(ring.color, ring.config.line_width, QtCore.Qt.SolidLine)
pen.setCapStyle(QtCore.Qt.RoundCap)
painter.setPen(pen)
proportion = (ring.config.value - ring.config.min_value) / (
(ring.config.max_value - ring.config.min_value) + 1e-3
)
angle = int(proportion * 360 * 16 * ring.config.direction)
painter.drawArc(adjusted_rect, ring.start_position, angle)
def reset_diameter(self):
"""
Reset the fixed size of the widget.
"""
self.setSizePolicy(QSizePolicy.Preferred, QSizePolicy.Preferred)
self.setMinimumSize(self._calculate_minimum_size())
self.setMaximumSize(16777215, 16777215)
def _calculate_minimum_size(self):
"""
Calculate the minimum size of the widget.
"""
if not self.config.rings:
print("no rings to get size from setting size to 10x10")
return QSize(10, 10)
ring_widths = [self.config.rings[i].line_width for i in range(self.config.num_bars)]
total_width = sum(ring_widths) + self.config.gap * (self.config.num_bars - 1)
diameter = total_width * 2
if diameter < 50:
diameter = 50
return QSize(diameter, diameter)
def sizeHint(self):
min_size = self._calculate_minimum_size()
return min_size
def clear_all(self):
for ring in self._rings:
ring.cleanup()
del ring
self._rings = []
self.update()
self.initialize_bars()
def cleanup(self):
self.bec_dispatcher.disconnect_slot(
self.on_scan_queue_status, MessageEndpoints.scan_queue_status()
)
for ring in self._rings:
ring.cleanup()
del ring
super().cleanup()

1
bec_widgets/widgets/toolbar/toolbar.py
View File

@@ -82,6 +82,7 @@ class RunScriptAction:
class ModularToolBar(QToolBar):
"""Modular toolbar with optional automatic initialization.
Args:
parent (QWidget, optional): The parent widget of the toolbar. Defaults to None.
auto_init (bool, optional): If True, automatically populates the toolbar based on the parent widget.

0
bec_widgets/widgets/website/__init__.py Normal file
View File

65
bec_widgets/widgets/website/website.py Normal file
View File

@@ -0,0 +1,65 @@
from qtpy.QtCore import QUrl
from qtpy.QtWebEngineWidgets import QWebEngineView
from qtpy.QtWidgets import QApplication
from bec_widgets.utils import BECConnector
class WebsiteWidget(BECConnector, QWebEngineView):
"""
A simple widget to display a website
"""
USER_ACCESS = ["set_url", "get_url", "reload", "back", "forward"]
def __init__(self, url: str = None, parent=None, config=None, client=None, gui_id=None):
super().__init__(client=client, config=config, gui_id=gui_id)
QWebEngineView.__init__(self, parent=parent)
self.set_url(url)
def set_url(self, url: str) -> None:
"""
Set the url of the website widget
Args:
url (str): The url to set
"""
if not url:
return
self.setUrl(QUrl(url))
def get_url(self) -> str:
"""
Get the current url of the website widget
Returns:
str: The current url
"""
return self.url().toString()
def reload(self):
"""
Reload the website
"""
QWebEngineView.reload(self)
def back(self):
"""
Go back in the history
"""
QWebEngineView.back(self)
def forward(self):
"""
Go forward in the history
"""
QWebEngineView.forward(self)
if __name__ == "__main__":
import sys
app = QApplication(sys.argv)
mainWin = WebsiteWidget("https://scilog.psi.ch")
mainWin.show()
sys.exit(app.exec())

170
docs/_static/custom.css vendored Normal file
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