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197 Commits

Author SHA1 Message Date
DevTekVE 13d173d37c Merge remote-tracking branch 'origin/master-tici' into hkg-angle-steering-2025-tici
# Conflicts:
#	.github/workflows/sunnypilot-build-prebuilt.yaml
#	.github/workflows/sunnypilot-master-dev-prep.yaml
#	system/version.py
2025-09-14 12:51:08 +02:00
DevTekVE e7a3ea1b32 (TICI) sync master and master-tici (#1245)
* SL: bugfix parameter handling in sunnylink restore and remote setting (#1234)

* refactor: improve parameter handling in sunnylink for robustness

- Updated `get_param_as_byte` to return `None` for nonexistent parameters.
- Enhanced param compression and encoding in `sunnylinkd`.

* refactor: centralize parameter restoration with new helper function

- Added `save_param_from_base64_encoded_string` to handle param decoding and saving.
- Updated backup manager and sunnylinkd to use the new method.
- Improved code readability and reduced duplication in parameter handling logic.

* don't bother

* clean

(cherry picked from commit b7f8dd11a5)

* UI: Developer UI (#1233)

(cherry picked from commit 1bb4ca2547)

* Revert & Reapply "UI: Developer UI" temporarily due to QT version mismatch (#1237)

* Revert "UI: Developer UI (#1233)"

This reverts commit 1bb4ca2547.

* Reapply "UI: Developer UI (#1233)"

This reverts commit b0a77049da.

* QColorConstants is not on device's QT version. Thanks @kumar for the fix

(cherry picked from commit 810a2d9448)

* Revert "UI: Developer UI" (#1238)

* Revert "Revert & Reapply "UI: Developer UI" temporarily due to QT version mismatch (#1237)"

This reverts commit 810a2d9448.

* Revert "UI: Developer UI (#1233)"

This reverts commit 1bb4ca2547.

(cherry picked from commit 1be13fdc55)

* Reapply "UI: Developer UI" (#1238) (#1239)

This reverts commit 1be13fdc55.

Co-authored-by: Jason Wen <haibin.wen3@gmail.com>
(cherry picked from commit 4f44d6e643)

---------

Co-authored-by: Nayan <nayan8teen@gmail.com>
Co-authored-by: Jason Wen <haibin.wen3@gmail.com>
2025-09-14 12:18:59 +02:00
DevTekVE 9077a1082a Sorry for C3 :( but moving you out to a last working branch before I sync it up 2025-09-14 06:52:24 +02:00
DevTekVE 7ae7000254 Rework override behavior and feeling 2025-09-14 06:38:00 +02:00
DevTekVE 7029455706 better juggle 2025-09-13 08:32:27 +02:00
DevTekVE 3a71a62215 Merge branch 'master' into hkg-angle-steering-2025 2025-09-12 10:14:52 +02:00
DevTekVE 810a2d9448 Revert & Reapply "UI: Developer UI" temporarily due to QT version mismatch (#1237)
* Revert "UI: Developer UI (#1233)"

This reverts commit 1bb4ca2547.

* Reapply "UI: Developer UI (#1233)"

This reverts commit b0a77049da.

* QColorConstants is not on device's QT version. Thanks @kumar for the fix
2025-09-12 09:03:17 +02:00
Nayan 1bb4ca2547 UI: Developer UI (#1233) 2025-09-12 01:00:05 -04:00
DevTekVE b7f8dd11a5 SL: bugfix parameter handling in sunnylink restore and remote setting (#1234)
* refactor: improve parameter handling in sunnylink for robustness

- Updated `get_param_as_byte` to return `None` for nonexistent parameters.
- Enhanced param compression and encoding in `sunnylinkd`.

* refactor: centralize parameter restoration with new helper function

- Added `save_param_from_base64_encoded_string` to handle param decoding and saving.
- Updated backup manager and sunnylinkd to use the new method.
- Improved code readability and reduced duplication in parameter handling logic.

* don't bother

* clean
2025-09-11 21:44:43 +02:00
Jason Wen 698e0ca00f migration: new branch names (#1225)
* migration: new branch names

* more migration

* update channel type

* no more var

* update

* more

* more
2025-09-07 23:23:03 -04:00
Jason Wen 87af129090 tici: fix staging root updates (#1224) 2025-09-06 18:46:19 -04:00
Jason Wen ff4d1923f0 tici: fix staging root updates (#1223) 2025-09-06 18:46:10 -04:00
Jason Wen f6cf1336ef update: actually detect device type as TICI (#1222) 2025-09-06 18:08:26 -04:00
Jason Wen 3a91ae08a9 update: actually detect device type as TICI (#1221) 2025-09-06 18:03:16 -04:00
Jason Wen 51046dd7fd ci: restore cache based on master-tici 2025-09-06 17:43:36 -04:00
Jason Wen 2c85f29a0b staging-c3-new > staging-tici 2025-09-06 17:38:11 -04:00
Jason Wen 68af0c4a17 ci: update for master-tici (#1220)
* ci: master > master-ci

* disable reset and squash for master-tici

* disable release drafter

* docker img

* temp builds

* actual temp

* new ref

* Revert "actual temp"

This reverts commit 2e73befd17.

* wrong name

* Revert "wrong name"

This reverts commit 5efa687aaf.

* Reapply "actual temp"

This reverts commit 75a9d986fd.

* Revert "Reapply "actual temp""

This reverts commit 1f77d902d4.

* Reapply "wrong name"

This reverts commit ed24def13c.

* revert
2025-09-06 17:28:43 -04:00
Jason Wen b161764b1e update: sunnypilot branch migrations for tici (#1212)
* update: sunnypilot branch migrations for tici

* block onroad and notify

* type

* check channel type

* update

* ui init

* no search and locked list for tici

* whenever available
2025-09-06 15:26:32 -04:00
Jason Wen 7057c57419 ui: cleanup cereal event params parsing (#1219)
* Revert "bugfix: streamline LiveDelay parameter loading with safe handling (#1204)"

This reverts commit 288a5e14da.

* ui: use AlignedBuffer for cereal data processing for Models panel

* align

* separate

* split

* event it

* no more backup

* Revert "no more backup"

This reverts commit fa66ce5e77.
2025-09-05 20:51:58 -04:00
DevTekVE 7d4df73ea5 hotfix: model fetcher warning instead of exception when fetching fail 2025-09-05 14:42:08 +02:00
DevTekVE 00622e8c33 Merge remote-tracking branch 'origin/master' into hkg-angle-steering-2025
# Conflicts:
#	opendbc_repo
2025-09-05 09:46:41 +02:00
James Vecellio-Grant 29fe152bd3 modeld_v2: desire rename and add many parts from thneed modeld (#1197)
* Add model metadata lookup and update desire handling

* Bump selector version to 10

* meh

* Refactor shape mode parameters for desire handling in test buffer logic

* loop more models

* Refactor buffer handling for temporal inputs and streamline desire updates

* Refactor lateral control input handling and remove unused code
2025-09-04 22:26:59 -04:00
Jason Wen 31918c067a events: add sunnypilot/openpilot to remote origin check (#1216)
events: add sunnypilot/openpilot to remote origin check
2025-09-04 22:22:48 -04:00
Jason Wen daf5ea2783 update: remove git cleanup in finalized stage (#1210)
* updater: remove git cleanup in finalized stage for quicker updates

* nah
2025-09-04 22:10:08 -04:00
github-actions[bot] fd7295c980 [bot] Update Python packages (#1214)
Update Python packages

Co-authored-by: github-actions[bot] <github-actions[bot]@users.noreply.github.com>
2025-09-04 14:31:01 -04:00
Jason Wen 220cfff04d ci: skip uv lock upgrade on forks (#1213) 2025-09-04 14:29:11 -04:00
DevTekVE 549da3ee92 Merge branch 'master' into hkg-angle-steering-2025 2025-09-04 20:20:37 +02:00
Jason Wen ee0fb6bf8e Revert "[bot] Update Python packages" (#1211)
Revert "[bot] Update Python packages (#1201)"

This reverts commit 0cd2bbf6c0.
2025-09-04 14:19:31 -04:00
github-actions[bot] 0cd2bbf6c0 [bot] Update Python packages (#1201)
Update Python packages

Co-authored-by: github-actions[bot] <github-actions[bot]@users.noreply.github.com>
2025-09-04 10:08:51 -04:00
DevTekVE 0871abcf55 bugfix: fix fetching params for sunnylink and backup (#1177)
* Hotfix for the params stuff until I rework this properly and leverage the new data types

* Revert "Hotfix for the params stuff until I rework this properly and leverage the new data types"

This reverts commit c6031b29d92d3ff5b679ffce3ba53611bb2dba0e.

* refactor: enhance getParams function to support JSON and bytes types with optional compression

* refactor: add TODO for enhancing server support of metadata in sunnylinkd.py

* lint and clean

* refactor: update value handling in getParams to return decoded values for JSON serialization

* refactor: simplify params_dict initialization by removing type hint

* refactor: update response handling in getParams to include JSON serialization of params

* refactor: update response handling in getParams to include JSON serialization of params

* Add to dic types

* refactor: extract get_param_as_byte function for improved parameter handling and fix backup inconsistencies

* cleanup

* ensure error propagates on backup fail
2025-09-04 14:45:37 +02:00
DevTekVE 8ccb777192 bugfix: improve exception handling for sunnylinkd (SUN-89) (#1207)
* bugfix: improve exception handling for WebSocket connections in sunnylinkd

* bugfix: enhance exception handling for WebSocket connections in sunnylinkd

* bugfix: improve OSError handling in sunnylinkd for better error reporting
2025-09-04 14:45:03 +02:00
DevTekVE 0593667601 bugfix: improve error handling in model fetching process (SUN-87) (#1205)
* bugfix: improve error handling in model fetching process

* cleanup

* bugfix: refine error handling in model fetching process
2025-09-04 14:44:42 +02:00
DevTekVE 288a5e14da bugfix: streamline LiveDelay parameter loading with safe handling (#1204) 2025-09-03 17:18:18 +02:00
James Vecellio-Grant 9447aa0e3d modeld: turn desires (#1182)
* Add modelDataV2SP and lane turn logic implementation

Note: still need to hook up to other modeld's create unit test, fix stuff, and do the UI for it

* add unit tests for lane turn logic

* Add lane turn desire controls to models panel

* use `events_sp` instead of `events`

* integrate modelDataV2SP messaging to the other modeld controllers

* move this to that

* use min for general population here, on custom branches, change this to max :)

* Update events.py

Co-authored-by: royjr <royjr96@gmail.com>

* Update events.py

Co-authored-by: royjr <royjr96@gmail.com>

* refactor lane turn value control into one method

* Update selfdrive/ui/sunnypilot/qt/offroad/settings/models_panel.cc

* add integration tests for lane turn desire

* 10 updates is possibly more representative of real life

* real objects ofc

* desc: add toggle description for clarity

---------

Co-authored-by: royjr <royjr96@gmail.com>
2025-09-03 05:49:12 -07:00
DevTekVE e038a65ef8 Merge branch 'master' into hkg-angle-steering-2025 2025-08-31 13:14:33 +02:00
DevTekVE 8d0513c657 dbc: update CHECKSUM format for multiple messages to improve data integrity 2025-08-30 19:56:21 +02:00
DevTekVE 2cea48f4cd Merge remote-tracking branch 'origin/master' into hkg-angle-steering-2025
# Conflicts:
#	opendbc_repo
2025-08-30 15:27:45 +02:00
DevTekVE 8855a9ab65 Improve surprise jerk by safety blocks 2025-08-26 14:47:26 +02:00
DevTekVE 32321c01cc A bit more helpful safety block investigation help 2025-08-26 10:09:11 +02:00
DevTekVE 52cd65fefb lint dont bother me 2025-08-25 08:24:24 +02:00
DevTekVE 1fcdeccd40 Merge branch 'master' into hkg-angle-steering-2025
# Conflicts:
#	common/params_keys.h
#	opendbc_repo
2025-08-25 08:01:51 +02:00
DevTekVE 3517c36978 Revert "Add HkgAngleDebug structure and enhance angle debugging in car controller" 2025-08-24 19:02:48 +02:00
DevTekVE fb30c3c1e8 cleanup and honour params 2025-08-23 15:42:47 +02:00
DevTekVE 1c25e568d5 Update steering pressed logic to include hands-on-wheel detection for improved safety 2025-08-23 15:11:07 +02:00
DevTekVE f172122b7c Update steering pressed logic to include hands-on-wheel detection for improved safety 2025-08-22 19:55:16 +02:00
Jason Wen 67d6cdc7cd Merge remote-tracking branch 'sunnypilot/sunnypilot/hkg-angle-steering-2025' into hkg-angle-steering-2025 2025-08-21 16:39:36 -04:00
DevTekVE 6724085cfd Refactor angle limit calculations and adjust average road roll for improved steering dynamics 2025-08-21 20:09:57 +02:00
DevTekVE 6774f34eee Refine non-linear mapping in torque reduction gain calculation for improved steering response 2025-08-21 00:21:46 +02:00
DevTekVE 6d0402896d Adjust STEER_THRESHOLD and refine non-linear mapping in torque reduction gain calculation for improved steering response 2025-08-20 23:16:04 +02:00
DevTekVE 344021a3d9 Adjust non-linear mapping in torque reduction gain calculation for improved response 2025-08-20 19:54:31 +02:00
DevTekVE a9b85ab27d Refactor HkgAngleDebug structure to include current and baseline limits for angle parameters 2025-08-20 19:54:10 +02:00
DevTekVE 17204a46e4 Add HkgAngleDebug structure and enhance angle debugging in car controller 2025-08-20 18:39:53 +02:00
DevTekVE 7c4d415462 Enhance torque reduction gain calculation with non-linear mapping and smoothing 2025-08-20 00:12:43 +02:00
DevTekVE b8985b6d72 Enhance torque reduction gain calculation with non-linear mapping and smoothing 2025-08-19 19:50:13 +02:00
DevTekVE c669473f88 Refine torque reduction parameters and update UI for angle error analysis 2025-08-19 19:35:34 +02:00
DevTekVE 8751435bf5 Improving tq redc gain and override behavior 2025-08-19 10:08:51 +02:00
DevTekVE 30ae210761 Merge branch 'master' into hkg-angle-steering-2025 2025-08-19 10:07:42 +02:00
Jason Wen 3eb693f58b Merge remote-tracking branch 'sunnypilot/sunnypilot/hkg-angle-steering-2025' into hkg-angle-steering-2025 2025-08-18 12:30:29 -04:00
DevTekVE 7b4a31c5ac bugfix 2025-08-17 16:07:45 +02:00
DevTekVE 1527c8cf88 bump opendbc 2025-08-17 15:31:31 +02:00
DevTekVE ab0a7ae666 no joystick on this branch, causing issues 2025-08-17 15:25:40 +02:00
DevTekVE 11ec2f1f21 Apply suggestions from code review 2025-08-17 15:10:17 +02:00
DevTekVE 2c6808d37e Merge branch 'master' into hkg-angle-steering-2025
# Conflicts:
#	opendbc_repo
2025-08-17 15:02:28 +02:00
Jason Wen 2e96382c49 notebook init 2025-08-17 00:34:01 -04:00
DevTekVE 0239e440ca Adjust replay 2025-08-15 10:32:07 +02:00
Jason Wen 76b972daff Hyundai angle steering: STEERING_ANGLE_2 available on all cars 2025-08-14 01:56:46 -04:00
Jason Wen bc3ef3e7dd Hyundai angle steering: hugging no more - use the true steering angle signal from MDPS 2025-08-13 23:08:32 -04:00
DevTekVE 9839291dd0 Merge remote-tracking branch 'origin/master' into hkg-angle-steering-2025 2025-08-13 20:13:42 +02:00
DevTekVE 17cba328d6 refactor: update torque tuning configuration for angle steering
- Adjusted torque tuning configuration to avoid reliance on torque controller for Hyundai angle steering.
- Simplified control logic by removing unnecessary checks for torque control type.
refactor: clean up code formatting and improve test structure for torque reduction gain
2025-08-13 20:03:51 +02:00
DevTekVE 86093765d8 Merge branch 'master' into hkg-angle-steering-2025
# Conflicts:
#	opendbc_repo
2025-08-13 07:55:46 +02:00
DevTekVE 05fa1c8ae8 Adjust default params and cleanup 2025-08-12 21:36:22 +02:00
DevTekVE e8a40d6b85 Merge branch 'master' into hkg-angle-steering-2025
# Conflicts:
#	opendbc_repo
#	system/manager/process_config.py
2025-08-10 14:24:10 +02:00
DevTekVE c265e0bb85 Merge remote-tracking branch 'origin/master' into hkg-angle-steering-2025
# Conflicts:
#	common/params_keys.h
#	opendbc_repo
#	system/manager/manager.py
2025-08-02 09:56:58 +02:00
DevTekVE c6b118788b Merge branch 'master-new' into hkg-angle-steering-2025 2025-07-31 18:25:08 +02:00
DevTekVE b004f6dbdc Merge branch 'master-new' into hkg-angle-steering-2025 2025-07-31 18:17:34 +02:00
DevTekVE cd4930b680 Bump opendbc 2025-07-26 10:56:49 +02:00
DevTekVE f861aca628 Refactor vehicle model initialization and adjust angle limits for baseline model 2025-07-26 08:12:06 +02:00
DevTekVE 1ff0d8e2ee please don't bother me anymore! 2025-07-26 08:09:51 +02:00
DevTekVE d76d70764e Update slip factor precision for Hyundai steering parameters
- Adjusted `slip_factor` in Hyundai CANFD safety modes for improved consistency and accuracy.
- Ensured proper representation of `slip_factor` output in test logs.
2025-07-25 20:17:19 +02:00
DevTekVE dc73ce0b71 save tools replay 2025-07-25 19:47:31 +02:00
DevTekVE 3f666748af bump opendbc 2025-07-25 14:16:02 +02:00
DevTekVE 8de8a8838c bumo opendbc 2025-07-25 14:08:53 +02:00
DevTekVE f563b7eb71 Refactor steering angle limit application for improved safety and model compliance 2025-07-25 12:12:42 +02:00
DevTekVE 3c18b83708 save temp 2025-07-25 09:56:30 +02:00
DevTekVE bd35f5904b Enhance steering angle rate limiting and safety enforcement logic
- Introduced explicit post-rate limiting using model-specific dynamics.
- Improved low-speed smoothing and precision of applied angles.
2025-07-25 08:12:41 +02:00
DevTekVE 474f2737f6 Refactor steering angle limit logic for conservative seleion
- Removed unused lateral accel/jerk logic for simplicity.
- Updated angle limit calculations to choose the smallest delta for safer control.
2025-07-24 21:48:24 +02:00
DevTekVE ea1ac4a212 Revert "Add configurable max lateral accel and jerk parameters for Hyundai vehicles"
This reverts commit b95f8c5929.

Revert "Add baseline safety model and improve steering angle limiting logic"

This reverts commit b53cbb2e18.

Revert "Disable lateral accel/jerk params and ensure float consistency in angle limits"

This reverts commit 165d7c7b36.
2025-07-24 10:02:48 +02:00
DevTekVE 165d7c7b36 Disable lateral accel/jerk params and ensure float consistency in angle limits
- Commented out unused lateral accel/jerk parameters for clarity.
- Ensured `np.clip` always returns a float for precision.
2025-07-24 09:41:52 +02:00
DevTekVE b53cbb2e18 Add baseline safety model and improve steering angle limiting logic
- Introduced a baseline safety model (`GENESIS_GV80_2025`) for comparison.
- Enhanced steer angle limit calculation using both baseline and current limits for improved safety and precision.
2025-07-24 09:38:03 +02:00
DevTekVE b95f8c5929 Add configurable max lateral accel and jerk parameters for Hyundai vehicles
- Introduced user-configurable options for max lateral acceleration and jerk.
- Enables fine-tuning of vehicle handling for smoother control.
2025-07-24 08:39:10 +02:00
DevTekVE e564bb0b85 bumo openbc 2025-07-23 18:46:52 +02:00
DevTekVE e2ec8a7b13 Refine lateral control limits and simplify safety model handling
- Reduced max lateral acceleration and jerk by 20% for smoother handling.
- Removed unused `get_safety_CP` function, simplifying `VehicleModel` initialization.
2025-07-22 08:07:51 +02:00
DevTekVE 75c6f0f10e Test with gv80 as baseline for limits 2025-07-20 22:14:18 +02:00
DevTekVE af38044b42 Merge branch 'master-new' into hkg-angle-steering-2025 2025-07-20 10:14:46 +02:00
DevTekVE 684fa846d8 Merge branch 'master-new' into hkg-angle-steering-2025
# Conflicts:
#	.codespellignore
#	opendbc_repo
#	system/manager/manager.py
2025-07-19 21:51:46 +02:00
DevTekVE 416e722855 Update baseline model to IONIQ 5 PE for improved angle safety tuning
- Replaced conservative GENESIS_GV80_2025 model with IONIQ 5 PE parameters.
- Adjusted steering parameters (ratio, slip factor, wheelbase) for better lateral control performance.
2025-07-19 21:46:17 +02:00
DevTekVE 9fd4613bbb Add 2025 Kia EV6 support with updated radar and camera fingerprints 2025-07-09 09:47:31 +02:00
DevTekVE a0362e3c5f "Refined UI labels and tooltips for HKG tuning options to improve clarity and user understanding." 2025-06-29 16:48:53 +02:00
DevTekVE e32ef1cdc0 Fix incorrect torque sign usage in torque reduction calculation
Ensure `actuators.torque` uses its absolute value in the `calculate_angle_torque_reduction_gain` method to prevent sign-related issues during Hyundai steering angle control.
2025-06-29 14:33:30 +02:00
DevTekVE 20673ec8a6 Adjust warning font size in angle tuning settings panel. 2025-06-29 13:35:09 +02:00
DevTekVE 53fbdf7329 Rename "IdleTorque" to "ActiveTorque" for clarity.
The parameter name "HkgTuningAngleIdleTorqueReductionGain" was updated to "HkgTuningAngleActiveTorqueReductionGain" across multiple files for better clarity and alignment with its functionality. This change ensures consistency in naming conventions and improves code readability.
2025-06-29 13:23:56 +02:00
DevTekVE 6f72b74fac Add idle torque reduction for Hyundai lateral control
Introduced `ANGLE_IDLE_TORQUE_REDUCTION_GAIN` to manage torque when the vehicle is stationary, ensuring smoother handling and better lane centering. Updated parsing, parameters, and UI settings to support this new idle torque parameter. Adjusted torque calculation logic and smoothing factor behavior for enhanced control flexibility.
2025-06-29 13:22:18 +02:00
DevTekVE e83705a32e Merge branch 'master-new' into hkg-angle-steering-2025
# Conflicts:
#	opendbc_repo
2025-06-29 09:44:01 +02:00
DevTekVE 95d36b9ba2 Refactor and enhance HKG angle tuning logic.
Introduced a toggle for angle smoothing factor and renamed related parameters for clarity. Refactored backend settings to use new parameter names and expanded smoothing matrices for better tuning granularity. Updated UI elements to reflect these changes, emphasizing usability and consistency.
2025-06-28 21:25:44 +02:00
DevTekVE b9e74254bd Merge branch 'master-new' into hkg-angle-steering-2025 2025-06-27 10:46:22 +02:00
DevTekVE b4405b200d Merge remote-tracking branch 'origin/master-new' into hkg-angle-steering-2025 2025-06-25 09:27:21 +02:00
DevTekVE a8a3fdac54 Rename parameter in calculate_target_torque for clarity. 2025-06-23 22:53:45 +02:00
DevTekVE 4eddc622a7 Refactor torque calculations in Hyundai controller
Rename methods and variables for clarity in torque reduction and override calculations. Adjust logic to streamline handling of steering inputs and improve maintainability.
2025-06-23 22:51:40 +02:00
DevTekVE 4e42ada240 Refactor torque management in Hyundai controller for cleaner override and ramp logic
Extract torque ramping and override functionality into dedicated methods within `LkasTorqueManager` to improve maintainability and reduce redundancy. Simplify `update` logic by delegating state-specific operations to new methods.
2025-06-23 22:47:51 +02:00
DevTekVE 6266217655 Introduce LkasTorqueManager for LKAS torque handling in Hyundai controller
Encapsulate LKAS torque calculations, ramping, and override logic into the new `LkasTorqueManager` class to improve modularity and maintainability. Replace existing torque logic with calls to the manager.
2025-06-23 22:20:10 +02:00
DevTekVE ea09d32e98 Remove lateral acceleration logic from Hyundai steering controller 2025-06-23 21:55:17 +02:00
DevTekVE 15958c88d3 Refactor lateral acceleration scaling logic in Hyundai controller
Move scaling of `max_angle_delta` under high lateral acceleration to improve clarity and prevent redundant operations.
2025-06-23 20:22:03 +02:00
DevTekVE b80d7fb5ea Adding GV70 electrified 2026 2025-06-22 14:30:59 +02:00
DevTekVE 1c3d25c6ff Refine lateral acceleration handling in Hyundai steering logic
Enforce absolute check for `real_a_lat` against `MAX_LATERAL_ACCEL` to improve angle scaling under high lateral acceleration conditions.
2025-06-22 11:03:35 +02:00
rav4kumar c9f22b32c7 Revert "Incorporate lateral acceleration in Hyundai angle steering logic"
This reverts commit c0524985bb.
2025-06-21 11:40:58 -07:00
DevTekVE c0524985bb Incorporate lateral acceleration in Hyundai angle steering logic
Add handling for IMU lateral acceleration to refine steering angle limits in CAN FD configurations. Parse and utilize `IMU_LatAccelVal` signal for enhanced lateral control accuracy.
2025-06-21 17:34:13 +02:00
DevTekVE 83839c7ea7 Add angle steering support and refactor related logic for Hyundai CAN FD.
Introduced support for CAN FD angle steering, including updated parameters, signal parsing, and new tests. Refactored related steering logic for clarity, reducing unused code and enhancing maintainability.
2025-06-21 13:38:50 +02:00
DevTekVE c1a1d4b4c3 Update lint script to exclude .xml files in layouts directory
Added `layouts/.*\.xml` to `IGNORED_FILES` in `lint.sh` to prevent linting of layout XML files.
2025-06-20 10:50:45 +02:00
DevTekVE b5af7a905a Merge branch 'master-new' into hkg-angle-steering-2025 2025-06-18 20:13:45 +02:00
DevTekVE 96b1b2f55f Update steering request logic in Hyundai controller
Ensure steering request activation depends on lateral control being active. This adds clarity and aligns better with control logic requirements.
2025-06-17 18:51:54 +02:00
DevTekVE 9361ba5d70 Refactor Hyundai steering angle handling logic
Streamline steering angle calculations and fault avoidance logic by removing redundant comments and unused code. Simplified `round_angle` implementation for clarity and consistency.
2025-06-17 12:08:06 +02:00
DevTekVE 4e9014311e Refactor steeringPressed logic in Hyundai carstate.py.
Revised the determination of `steeringPressed` to account for both hands-on-wheel detection and torque overriding in CAN FD setups. Simplified fallback logic for non-CAN FD configurations for better code clarity and maintainability.
2025-06-12 00:31:07 +02:00
DevTekVE 232873fc70 Refine steering press detection logic.
Adjusted the sensitivity and threshold values for `HOD_Dir_Status` in steering press updates, improving accuracy in detecting steering input. This change aligns with updated parameter requirements for better responsiveness.
2025-06-12 00:14:05 +02:00
DevTekVE 0a61fca9c9 Fix steering press detection for Hyundai models.
Updated the condition to detect steering press by changing HOD_Dir_Status threshold from `> 2` to `>= 2`. This ensures the detection logic aligns correctly with expected behavior.
2025-06-12 00:06:52 +02:00
DevTekVE 480bdc34dc Add support for CANFD angle steering in Hyundai cars
Introduced handling for the `HOD_FD_01_100ms` message when the CANFD angle steering flag is enabled. This ensures proper message parsing and extends compatibility for specific Hyundai vehicle configurations.
2025-06-12 00:04:44 +02:00
DevTekVE 716b475a13 Update Hyundai controls for HOD status and steer limits
Adjusted the steering override frame window and incorporated new HOD_Dir_Status to improve hands-on detection. Added parsing for new signals in Hyundai CAN FD, enhancing steering override responsiveness and reliability.
2025-06-12 00:01:31 +02:00
DevTekVE b1ec5ec034 Adjust override angle cap in Hyundai car controller
Increased the minimum override angle cap from 0.01 to 0.1 and explicitly cast the maximum cap to a float. This change improves consistency and ensures proper handling of steering limits.
2025-06-11 23:20:19 +02:00
DevTekVE 470613c2b7 Adjust Hyundai steer override parameters for improved control.
Reduced the override frame window and updated the angle cap logic to use MAX_ANGLE_RATE. These changes aim to enhance steering responsiveness and safety by fine-tuning steer angle limits.
2025-06-11 23:07:49 +02:00
DevTekVE 336c5b4154 Remove smoothing_factor from Hyundai car controller logic
The `smoothing_factor` parameter and related logic have been removed to simplify the steering angle smoothing approach. All references and usage of this parameter have been eliminated, relying solely on speed-based dynamic interpolation. This change streamlines the code while maintaining functionality.
2025-06-11 23:04:32 +02:00
DevTekVE abdb9dc750 Adjust Hyundai steering override frame logic
Reduced `OVERRIDE_FRAME_WINDOW` and updated condition to properly respect override frame limits. This ensures smoother handling and more precise steering adjustments under certain driving scenarios.
2025-06-11 22:49:04 +02:00
DevTekVE ab98683973 Refactor steering override logic in Hyundai carcontroller
Replaced `recently_overridden` with `frames_since_override` for better granularity and added dynamic override angle limits using interpolation. These changes enhance steering control accuracy during user overrides and improve overall code readability.
2025-06-11 22:42:05 +02:00
DevTekVE 186c24dbe6 Refine Hyundai steering override handling logic
Adjusted logic for recently overridden steering to improve angle limits and torque smoothing. Removed unused or redundant code, optimizing the functionality and maintaining cleaner readability.
2025-06-11 21:49:18 +02:00
DevTekVE 9cdf6340a1 Refactor steering angle smoothing for clarity and reuse.
Extracted the steering angle smoothing logic into a standalone function `sp_smooth_angle` to enhance readability and reusability. Adjusted angle smoothing parameters and introduced a maximum vehicle speed threshold for applying smoothing. Minor updates improve maintainability and ensure consistent behavior across speed ranges.
2025-06-11 10:07:44 +02:00
DevTekVE 2855b1341c Adjust steering thresholds for Hyundai CAN FD vehicles
Updated `STEER_THRESHOLD` to 350 and `NO_LONGER_OVERRIDING_THRESHOLD` to 150 for better alignment with Hyundai CAN FD steering behavior. These changes ensure improved compatibility and more accurate steering response.
2025-06-10 09:53:08 +02:00
DevTekVE cf28f99976 Revert "Add twilsonco's LKAS torque calculator for improved lateral control"
This reverts commit b1770fb0e7aece0e160b1b083cb260edbbdc53dd.
2025-06-10 09:40:59 +02:00
DevTekVE a39d67dc47 Fix apply_angle_last reset logic in Hyundai carcontroller
Re-enables resetting `apply_angle_last` to `steering_angle` when steering is recently overridden. This ensures proper handling of steering angle limits during transitions.
2025-06-08 19:04:02 +02:00
DevTekVE 7e75257f12 Refine Hyundai steering control logic.
Simplified torque ramp-up logic by combining conditions and adjusted `STEER_THRESHOLD` for CANFD angle steering. These changes aim to enhance control precision and maintain consistency in overrides.
2025-06-08 19:02:49 +02:00
DevTekVE df38449553 Reduce override timeout for Hyundai carcontroller
Decrease the override timeout from 100 to 50 frames, ensuring quicker recognition of driver input override. This improves responsiveness and aligns with refined control behavior.
2025-06-08 18:22:44 +02:00
DevTekVE 1385ef3bc5 Fix steering control behavior during user override
Removed restrictive rate limiting during recent user overrides to improve steering response. Adjusted logic to ensure correct handling of steering angle when lateral control is inactive or overridden.
2025-06-08 18:01:47 +02:00
DevTekVE 7c23c11c51 Refine steering logic with override detection.
Adjust steering behavior to account for recent user overrides, improving safety and control. Introduced a "recently_overridden" check to limit angle rates and torque adjustments when user intervention is detected.
2025-06-08 17:52:16 +02:00
DevTekVE aeff2e12ec Refine steering logic with user override handling.
Added logic to use the current steering angle when the steering wheel is pressed, ensuring smoother transitions during user overrides. Updated function parameters and implementation to reflect this enhancement.
2025-06-08 17:38:34 +02:00
DevTekVE 7274899671 Refactor Hyundai override logic for steering thresholds
Removed redundant `recently_overridden` logic and introduced a more robust approach for tracking user steering overrides. Added `NO_LONGER_OVERRIDING_THRESHOLD` and updated conditions to improve steer override handling. Adjustments ensure smoother torque transitions and more accurate steering state detection.
2025-06-08 17:00:44 +02:00
DevTekVE 6c00fd608f pass tests? 2025-06-08 12:28:11 +02:00
DevTekVE df6a034c11 Bump opendbc 2025-06-08 12:26:09 +02:00
DevTekVE acb109c290 adding plotjuggler stuff 2025-06-08 10:02:44 +02:00
DevTekVE b227b00249 Update torque clamping to use parameterized min torque
Replaced hardcoded `angle_min_active_torque` with `ANGLE_MIN_TORQUE` from params for better configurability and consistency. This ensures the torque clamping logic aligns with defined parameters.
2025-06-07 19:43:01 +02:00
DevTekVE 3ec9d6c18a Merge branch 'master-new' into hkg-angle-steering-2025
# Conflicts:
#	common/params_keys.h
2025-06-07 15:04:16 +02:00
DevTekVE 86db8b95f0 Refactor torque calculation and deactivate live tuning.
Updated torque calculation logic with a new optional parameter for minimum active torque, streamlining control behavior. Deactivated and cleaned up references to HkgAngleLiveTuning, simplifying configuration and reducing runtime complexities. Updated relevant UI and parameter descriptions for clarity.
2025-06-07 11:55:57 +02:00
DevTekVE 4cfff8a35f Merge branch 'master-new' into hkg-angle-steering-2025 2025-06-06 23:08:37 +02:00
DevTekVE 962fedf48c Merge branch 'master-new' into hkg-angle-steering-2025
# Conflicts:
#	opendbc/car/tests/routes.py
2025-06-06 20:49:06 +02:00
DevTekVE 04494414d1 Merge branch 'master-new' into hkg-angle-steering-2025
# Conflicts:
#	opendbc_repo
2025-06-05 09:18:53 +02:00
DevTekVE 0b83576e9b Adjust torque ramping logic and update steering thresholds
Increase the override window and refine torque ramp-up behavior to avoid conflicts during recent overrides. Updated steering driver allowance and threshold values for CANFD angle steering to improve compatibility and performance.
2025-06-02 09:49:31 +02:00
DevTekVE ce4ef0f817 Refine steering override logic in Hyundai car controller
Added logic to track recent steering overrides and adjust LKAS torque behavior accordingly. This ensures smoother transitions when the steering is overridden and reduces potential conflicts with driver input. Updated CANFD-specific steering thresholds for enhanced compatibility.
2025-06-02 09:12:03 +02:00
DevTekVE f0b15c1c56 Adding twil's torque calculation 2025-06-01 19:04:34 +02:00
DevTekVE f898e9fdfe Merge branch 'master-new' into hkg-angle-steering-2025
# Conflicts:
#	opendbc_repo
2025-06-01 09:46:45 +02:00
DevTekVE 8ee7804b0e Bump opendbc (no tesla controls, no twil yet) 2025-05-29 16:31:42 +02:00
DevTekVE 923228194e bump opendbc to prior tesla changes until i can pass safety validations 2025-05-28 12:44:44 +02:00
DevTekVE 8837b2e3f6 Merge branch 'master-new' into hkg-angle-steering-2025
# Conflicts:
#	opendbc_repo
2025-05-28 12:36:02 +02:00
DevTekVE f48c9dc1c2 bump opendbc 2025-05-25 17:34:24 +02:00
DevTekVE 74aa07a8cd Ingore something i dont control thx 2025-05-25 17:31:37 +02:00
DevTekVE 5236e4860f Make lint happy, maybe 2025-05-25 17:31:37 +02:00
DevTekVE 3d174da1c3 adding some of my tests and validaitons 2025-05-25 17:31:25 +02:00
DevTekVE 8faa40f3a3 clean 2025-05-25 17:31:25 +02:00
DevTekVE 3e03275f28 Add PlotJuggler layout for analyzing torque and angle data
This new layout visualizes actuator data, CAN steering messages, and car state variables. It provides multiple time-series plots to aid in debugging and analysis. Plugin configurations are also included for extended functionality.
2025-05-25 17:31:22 +02:00
DevTekVE 7595cf8a25 Refine Hyundai angle and torque control logic.
Simplified control flag handling for angle steering, adjusted torque calculations for smoother ramp rates, and updated tuning parameters for the Hyundai Ioniq 5 PE. Minor adjustment to return value handling in lateral control functions.
2025-05-25 17:31:22 +02:00
DevTekVE 2675d43adb bump opendbc
Remove duplicate STEER_ANGLE_SATURATION_THRESHOLD import

Cleaned up an unnecessary duplicate import of STEER_ANGLE_SATURATION_THRESHOLD from latcontrol_angle_torque. This simplifies the module imports and prevents potential redundancy or confusion.

Refactor lateral control to combine torque and angle logic

Merged functionalities of LatControlTorque and LatControlAngle into a single LatControlAngleTorque class. Refactored code to utilize methods from both parent classes, reducing duplication and improving maintainability.

Add angle-torque hybrid lateral control for Hyundai CAN FD

Introduces `LatControlAngleTorque` to enable hybrid angle and torque-based steering for specific Hyundai models. Updates related logic in carcontroller, interface, and controlsd to accommodate this new lateral control method. Adjusts torque parameters for enhanced control in supported models.
2025-05-25 17:31:21 +02:00
DevTekVE d9f4ce82e6 clean 2025-05-25 17:31:21 +02:00
DevTekVE 648a1845d8 cleanup the mess 2025-05-25 17:31:21 +02:00
DevTekVE a87eff6d1c Add HKG Angle Live Tuning parameter and update related handling 2025-05-25 17:31:21 +02:00
DevTekVE dd6ad37e23 Absolutely zero clue on this, I did it with AI and it's for me to play. Don't take this notebook seriously please 2025-05-25 17:31:21 +02:00
DevTekVE c5e778b939 How annoying the linter on a comment lol 2025-05-25 17:31:21 +02:00
DevTekVE a9ab81a77a useless but should keep linter happy 2025-05-25 17:31:21 +02:00
DevTekVE 2d40e1d8e5 Refactor torque parameter handling in Hyundai carcontroller
Replaced direct access to `params` with instance variables for torque parameters to improve code clarity and maintainability. Updated smoothing factor description in angle tuning settings to include speed-related behavior. This enhances readability and prepares for further tuning adjustments.
2025-05-25 17:31:20 +02:00
DevTekVE 7c8f367a5d Fix data type for HkgTuningOverridingCycles value
Updated the value of HkgTuningOverridingCycles to a string for consistency with other parameters in the tuning configuration. This ensures proper handling and avoids potential issues with type mismatches.

Add overriding cycles parameter for torque adjustment

Introduced "HkgTuningOverridingCycles" for configurable user override torque ramp-down cycles. Updated relevant logic in torque control and UI settings to handle the new parameter. This improves flexibility in adjusting steering torque override behavior.
2025-05-25 17:31:20 +02:00
DevTekVE ff4cf558aa Add HKG angle tuning settings with min/max torque parameters
Introduce separate angle tuning controls for HKG vehicles, including smoothing factor, min torque, and max torque parameters. Refactor developer panel to integrate the new settings into a dedicated UI panel, enhancing modularity and customization capabilities.
2025-05-25 17:31:20 +02:00
DevTekVE 0e151e51bc Update HKG Angle Smoothing Factor description in Developer Panel
Enhanced the description to clarify its effect on steering behavior. Included details on how the smoothing factor impacts steering smoothness using EMA, aiding user understanding.
2025-05-25 17:31:20 +02:00
DevTekVE 60cc0031b0 Revert "Revert "Revert the EMA calculation on the curvature to test another approach""
This reverts commit 58fcda8c
2025-05-25 17:31:20 +02:00
DevTekVE d24cac0998 Refactor steering angle logic for smoother control adjustments
Refactored the calculation and application of the steering angle to improve code clarity and ensure smoother transitions. Removed unused parameter update logic in `latcontrol_angle.py` and enhanced handling of driver overrides in `carcontroller.py`.
2025-05-25 17:31:20 +02:00
DevTekVE 45d110830c Fix typo in parameter access method.
Replaced `self._params` with `self.params` to correctly access the parameter `HkgTuningAngleSmoothingFactor`. This ensures the smoothing factor is updated as intended during the control loop.
2025-05-25 17:31:20 +02:00
DevTekVE ea3a9ae911 Improve angle smoothing by integrating dynamic parameter tuning
Introduced a dynamic smoothing factor using the `HkgTuningAngleSmoothingFactor` parameter. This allows more granular control over curvature smoothing based on customizable user input, enhancing driving smoothness. Added necessary logic to process and apply this parameter efficiently.
2025-05-25 17:31:19 +02:00
DevTekVE 6bff8c0e7c Revert "Revert the EMA calculation on the curvature to test another approach"
This reverts commit bd471b3498.
2025-05-25 17:31:19 +02:00
DevTekVE bc6b8802b8 Add HKG angle smoothing factor for steering adjustments
Introduced a new parameter, `HkgTuningAngleSmoothingFactor`, to apply exponential moving average (EMA) smoothing to steering angle changes, reducing sudden adjustments. Added associated UI controls, parameter persistence, and integration into Hyundai carcontroller logic for improved steering stability.
2025-05-25 17:31:19 +02:00
DevTekVE 252ef572d3 Revert the EMA calculation on the curvature to test another approach 2025-05-25 17:31:19 +02:00
DevTekVE 414d397e3f Handle missing pygame import gracefully
Wrap the pygame import in a try-except block to catch ImportError. This prevents the script from crashing and provides a clear message prompting the user to install pygame if it's missing.

Remove "inputs" package and update "pygame" dependency

The "inputs" package has been removed from the lockfile and dependency list, while "pygame" is now included universally without the "dev" extra marker. This change simplifies dependencies and ensures consistency across environments.

Update dependencies: replace 'inputs' with 'pygame'

Replaced the 'inputs' library with 'pygame' for joystickd dependencies in `pyproject.toml`. Additionally, removed a redundant 'pygame' entry from the general dependencies.

Ugly, I know, but soundd is unhappy with joystick

Allowing lat with mads

Invert steering input for joystick control

The steering axis input is now multiplied by -1 to reverse its direction. This ensures correct handling of the left stick's horizontal input, aligning behavior with expected control dynamics.

Refactor joystick control to use pygame for broader support

Replaced the `inputs` library with `pygame` for joystick handling, providing improved compatibility with Xbox and PlayStation controllers. Added initialization, adaptive mappings, deadzone handling, and enhanced event processing for robust joystick operation. Updated README with dependencies and usage information for Xbox controllers.
2025-05-25 17:31:19 +02:00
DevTekVE 11b7b3789d Adjust speed thresholds in filter_speed_matrox.
Updated the `filter_speed_matrox` values to improve curvature filtering behavior at different speeds. This change ensures better handling and stability across a wider range of driving conditions.
2025-05-25 17:31:19 +02:00
DevTekVE 871ac53717 Optimize curvature filtering by adding speed-dependent logic.
Introduced speed-based dynamic alpha adjustment using interpolation for smoother curvature filtering. This improves steering angle calculations by adapting filter sensitivity to vehicle speed, enhancing control performance.
2025-05-25 17:31:19 +02:00
DevTekVE 64ea66b6e6 chsnge alpha to nicer value 2025-05-25 17:31:19 +02:00
DevTekVE 6d7c6759b3 Adjust curvature handling and filtering parameters
Updated curvature breakpoints and torque scaling for improved control in sharp turns. Increased filter alpha for faster curvature response while maintaining system stability.
2025-05-25 17:31:18 +02:00
DevTekVE 4cea013570 Adjust curvature handling and filtering parameters
Updated curvature breakpoints in Hyundai carcontroller to improve torque scaling for curved driving. Slightly refined the filter coefficient in lateral control for smoother curvature filtering and more accurate steering adjustments.
2025-05-25 17:31:18 +02:00
DevTekVE eb375c0587 Refactor curvature-based steering angle and torque logic.
Introduced dynamic torque scaling based on curvature for smoother and more adaptive steering control. Replaced raw curvature inputs with filtered curvature for enhanced stability and reduced noise in steering angle calculations. Removed unused speed scaling logic to simplify the lateral control flow.
2025-05-25 17:31:18 +02:00
DevTekVE 7fd8a5a4bd Reapply "Significant improvement on the jerkiness"
This reverts commit 85ce84e7b7.
2025-05-25 17:31:18 +02:00
DevTekVE b3c90216bb Revert "Significant improvement on the jerkiness"
This reverts commit ea1af879ba2905b076ccfe65993a9db701d689dd.

Revert "More improvement but still not quite"

This reverts commit ad95493c5c61b2ace7c459d2ebc151ddaa80040f.

Revert "Adjust low-speed scaling for lateral control angle"

This reverts commit 6f789ac1ebb66b0239b4028303573c2d7d386b39.

Revert "Refactor speed-based steering scaling logic."

This reverts commit 1d40735ab8db8d470ff3b287a6b42847beffff7d.
2025-05-25 17:31:18 +02:00
DevTekVE 10f345f956 Refactor speed-based steering scaling logic.
Updated the steering angle computation to use a clearer and more descriptive speed-scaling configuration. Replaced low-speed-specific logic with a generalized approach based on speed breakpoints and corresponding influence factors. This improves maintainability and ensures smoother steering adjustments at varying speeds.
2025-05-25 17:31:18 +02:00
DevTekVE 956d2c36d0 Adjust low-speed scaling for lateral control angle
Refined the low-speed scaling parameters by modifying speed breakpoints and factors. This improves handling at lower speeds for smoother and more predictable behavior.
2025-05-25 17:31:18 +02:00
DevTekVE 55e688b6f2 More improvement but still not quite 2025-05-25 17:31:17 +02:00
DevTekVE f017954027 Significant improvement on the jerkiness 2025-05-25 17:31:17 +02:00
DevTekVE 7e992d11b1 bump panda and opendbc 2025-05-25 17:31:15 +02:00
85 changed files with 5177 additions and 282 deletions
+1
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@@ -2,4 +2,5 @@ Wen
REGIST
PullRequest
cancelled
indeces
FOF
+2 -2
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@@ -29,11 +29,11 @@ jobs:
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
with:
target: /^(?!master$).*/
target: /^(?!master-tici$).*/
exclude: /sunnypilot:.*/
change-to: ${{ github.base_ref }}
already-exists-action: close_this
already-exists-comment: "Your PR should be made against the `master` branch"
already-exists-comment: "Your PR should be made against the `master-tici` branch"
update-pr-labels:
name: Update fork's PR Labels
+1 -1
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@@ -5,7 +5,7 @@ on:
workflow_dispatch:
env:
BASE_IMAGE: sunnypilot-base
BASE_IMAGE: sunnypilot-tici-base
DOCKER_REGISTRY: ghcr.io/sunnypilot
RUN: docker run --shm-size 2G -v $PWD:/tmp/openpilot -w /tmp/openpilot -e PYTHONPATH=/tmp/openpilot -e NUM_JOBS -e JOB_ID -e GITHUB_ACTION -e GITHUB_REF -e GITHUB_HEAD_REF -e GITHUB_SHA -e GITHUB_REPOSITORY -e GITHUB_RUN_ID -v $GITHUB_WORKSPACE/.ci_cache/scons_cache:/tmp/scons_cache -v $GITHUB_WORKSPACE/.ci_cache/comma_download_cache:/tmp/comma_download_cache -v $GITHUB_WORKSPACE/.ci_cache/openpilot_cache:/tmp/openpilot_cache $DOCKER_REGISTRY/$BASE_IMAGE:latest /bin/bash -c
+2 -2
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@@ -3,7 +3,7 @@ name: cereal validation
on:
push:
branches:
- master
- master-tici
pull_request:
paths:
- 'cereal/**'
@@ -16,7 +16,7 @@ on:
type: string
concurrency:
group: cereal-validation-ci-run-${{ inputs.run_number }}-${{ github.event_name == 'push' && github.ref == 'refs/heads/master' && github.run_id || github.head_ref || github.ref }}-${{ github.workflow }}-${{ github.event_name }}
group: cereal-validation-ci-run-${{ inputs.run_number }}-${{ github.event_name == 'push' && github.ref == 'refs/heads/master-tici' && github.run_id || github.head_ref || github.ref }}-${{ github.workflow }}-${{ github.event_name }}
cancel-in-progress: true
env:
+1 -1
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@@ -31,7 +31,7 @@ jobs:
strategy:
fail-fast: false
matrix: ${{fromJSON(needs.setup.outputs.ci_runs)}}
uses: sunnypilot/sunnypilot/.github/workflows/ci_weekly_run.yaml@master
uses: sunnypilot/sunnypilot/.github/workflows/ci_weekly_run.yaml@master-tici
with:
run_number: ${{ matrix.run_number }}
+1 -1
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@@ -12,6 +12,6 @@ concurrency:
jobs:
selfdrive_tests:
uses: sunnypilot/sunnypilot/.github/workflows/selfdrive_tests.yaml@master
uses: sunnypilot/sunnypilot/.github/workflows/selfdrive_tests.yaml@master-tici
with:
run_number: ${{ inputs.run_number }}
@@ -15,7 +15,7 @@ runs:
scons -j$(nproc) --cache-populate"
- name: Save scons cache
uses: actions/cache/save@v4
if: github.ref == 'refs/heads/master'
if: github.ref == 'refs/heads/master-tici'
with:
path: .ci_cache/scons_cache
key: scons-${{ runner.arch }}-${{ env.CACHE_COMMIT_DATE }}-${{ github.sha }}
+4 -4
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@@ -3,7 +3,7 @@ name: docs
on:
push:
branches:
- master
- master-tici
pull_request:
workflow_call:
inputs:
@@ -12,7 +12,7 @@ on:
required: true
type: string
concurrency:
group: docs-tests-ci-run-${{ inputs.run_number }}-${{ github.event_name == 'push' && github.ref == 'refs/heads/master' && github.run_id || github.head_ref || github.ref }}-${{ github.workflow }}-${{ github.event_name }}
group: docs-tests-ci-run-${{ inputs.run_number }}-${{ github.event_name == 'push' && github.ref == 'refs/heads/master-tici' && github.run_id || github.head_ref || github.ref }}-${{ github.workflow }}-${{ github.event_name }}
cancel-in-progress: true
jobs:
@@ -35,13 +35,13 @@ jobs:
# Push to docs.comma.ai
- uses: actions/checkout@v4
if: github.ref == 'refs/heads/master' && github.repository == 'sunnypilot/sunnypilot'
if: github.ref == 'refs/heads/master-tici' && github.repository == 'sunnypilot/sunnypilot'
with:
path: openpilot-docs
ssh-key: ${{ secrets.OPENPILOT_DOCS_KEY }}
repository: sunnypilot/sunnypilot-docs
- name: Push
if: github.ref == 'refs/heads/master' && github.repository == 'sunnypilot/sunnypilot'
if: github.ref == 'refs/heads/master-tici' && github.repository == 'sunnypilot/sunnypilot'
run: |
set -x
+2 -2
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@@ -24,11 +24,11 @@ jobs:
if: ${{ github.event_name != 'workflow_dispatch' }}
uses: lewagon/wait-on-check-action@ccfb013c15c8afb7bf2b7c028fb74dc5a068cccc
with:
ref: master
ref: master-tici
wait-interval: 30
running-workflow-name: 'build prebuilt'
repo-token: ${{ secrets.GITHUB_TOKEN }}
check-regexp: ^((?!.*(build master-ci).*).)*$
check-regexp: ^((?!.*(build __nightly).*).)*$
- uses: actions/checkout@v4
with:
submodules: true
+1
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@@ -19,6 +19,7 @@ jobs:
contents: write
pull-requests: write
runs-on: ubuntu-latest
if: False
steps:
- uses: release-drafter/release-drafter@v6
with:
+2 -2
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@@ -10,7 +10,7 @@ jobs:
env:
ImageOS: ubuntu24
container:
image: ghcr.io/sunnypilot/sunnypilot-base:latest
image: ghcr.io/sunnypilot/sunnypilot-tici-base:latest
runs-on: ubuntu-latest
if: github.repository == 'sunnypilot/sunnypilot'
permissions:
@@ -25,7 +25,7 @@ jobs:
if: ${{ github.event_name == 'schedule' }}
uses: lewagon/wait-on-check-action@ccfb013c15c8afb7bf2b7c028fb74dc5a068cccc
with:
ref: master
ref: master-tici
wait-interval: 30
running-workflow-name: 'build __nightly'
repo-token: ${{ secrets.GITHUB_TOKEN }}
+5 -4
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@@ -6,7 +6,7 @@ on:
workflow_dispatch:
env:
BASE_IMAGE: sunnypilot-base
BASE_IMAGE: sunnypilot-tici-base
BUILD: release/ci/docker_build_sp.sh base
RUN: docker run --shm-size 2G -v $PWD:/tmp/openpilot -w /tmp/openpilot -e CI=1 -e PYTHONWARNINGS=error -e FILEREADER_CACHE=1 -e PYTHONPATH=/tmp/openpilot -e NUM_JOBS -e JOB_ID -e GITHUB_ACTION -e GITHUB_REF -e GITHUB_HEAD_REF -e GITHUB_SHA -e GITHUB_REPOSITORY -e GITHUB_RUN_ID -v $GITHUB_WORKSPACE/.ci_cache/scons_cache:/tmp/scons_cache -v $GITHUB_WORKSPACE/.ci_cache/comma_download_cache:/tmp/comma_download_cache -v $GITHUB_WORKSPACE/.ci_cache/openpilot_cache:/tmp/openpilot_cache $BASE_IMAGE /bin/bash -c
@@ -28,7 +28,7 @@ jobs:
title: "[bot] Update translations"
body: "Automatic PR from repo-maintenance -> update_translations"
branch: "update-translations"
base: "master"
base: "master-tici"
delete-branch: true
labels: bot
@@ -36,13 +36,14 @@ jobs:
name: package_updates
runs-on: ubuntu-latest
container:
image: ghcr.io/sunnypilot/sunnypilot-base:latest
image: ghcr.io/sunnypilot/sunnypilot-tici-base:latest
if: github.repository == 'sunnypilot/sunnypilot'
steps:
- uses: actions/checkout@v4
with:
submodules: true
- name: uv lock
if: github.repository == 'commaai/openpilot'
run: |
python3 -m ensurepip --upgrade
pip3 install uv
@@ -67,7 +68,7 @@ jobs:
commit-message: Update Python packages
title: '[bot] Update Python packages'
branch: auto-package-updates
base: master
base: master-tici
delete-branch: true
body: 'Automatic PR from repo-maintenance -> package_updates'
labels: bot
+10 -10
View File
@@ -3,7 +3,7 @@ name: selfdrive
on:
push:
branches:
- master
- master-tici
pull_request:
workflow_dispatch:
workflow_call:
@@ -14,12 +14,12 @@ on:
type: string
concurrency:
group: selfdrive-tests-ci-run-${{ inputs.run_number }}-${{ github.event_name == 'push' && github.ref == 'refs/heads/master' && github.run_id || github.head_ref || github.ref }}-${{ github.workflow }}-${{ github.event_name }}
group: selfdrive-tests-ci-run-${{ inputs.run_number }}-${{ github.event_name == 'push' && github.ref == 'refs/heads/master-tici' && github.run_id || github.head_ref || github.ref }}-${{ github.workflow }}-${{ github.event_name }}
cancel-in-progress: true
env:
PYTHONWARNINGS: error
BASE_IMAGE: sunnypilot-base
BASE_IMAGE: sunnypilot-tici-base
AZURE_TOKEN: ${{ secrets.AZURE_COMMADATACI_OPENPILOTCI_TOKEN }}
DOCKER_LOGIN: docker login ghcr.io -u ${{ github.actor }} -p ${{ secrets.GITHUB_TOKEN }}
@@ -68,10 +68,10 @@ jobs:
if: github.repository == 'sunnypilot/sunnypilot'
timeout-minutes: 3
run: |
if [ "${{ github.ref }}" != "refs/heads/master" ]; then
git fetch origin master:refs/remotes/origin/master
if [ "${{ github.ref }}" != "refs/heads/master-tici" ]; then
git fetch origin master-tici:refs/remotes/origin/master-tici
SUBMODULE_PATHS=$(git diff origin/master HEAD --name-only | grep -E '^[^/]+$' | while read path; do
SUBMODULE_PATHS=$(git diff origin/master-tici HEAD --name-only | grep -E '^[^/]+$' | while read path; do
if git ls-files --stage "$path" | grep -q "^160000"; then
echo "$path"
fi
@@ -97,7 +97,7 @@ jobs:
with:
submodules: true
- name: Setup docker push
if: github.ref == 'refs/heads/master' && github.event_name != 'pull_request' && github.repository == 'sunnypilot/sunnypilot'
if: github.ref == 'refs/heads/master-tici' && github.event_name != 'pull_request' && github.repository == 'sunnypilot/sunnypilot'
run: |
echo "PUSH_IMAGE=true" >> "$GITHUB_ENV"
$DOCKER_LOGIN
@@ -129,7 +129,7 @@ jobs:
PYTHONWARNINGS: default
- name: Save Homebrew cache
uses: actions/cache/save@v4
if: github.ref == 'refs/heads/master'
if: github.ref == 'refs/heads/master-tici'
with:
path: ~/Library/Caches/Homebrew
key: brew-macos-${{ env.CACHE_COMMIT_DATE }}-${{ github.sha }}
@@ -146,7 +146,7 @@ jobs:
run: . .venv/bin/activate && scons -j$(nproc)
- name: Save scons cache
uses: actions/cache/save@v4
if: github.ref == 'refs/heads/master'
if: github.ref == 'refs/heads/master-tici'
with:
path: /tmp/scons_cache
key: scons-${{ runner.arch }}-macos-${{ env.CACHE_COMMIT_DATE }}-${{ github.sha }}
@@ -305,5 +305,5 @@ jobs:
- name: Upload Test Report
uses: actions/upload-artifact@v4
with:
name: report-${{ inputs.run_number || '1' }}-${{ github.event_name == 'push' && github.ref == 'refs/heads/master' && 'master' || github.event.number }}
name: report-${{ inputs.run_number || '1' }}-${{ github.event_name == 'push' && github.ref == 'refs/heads/master-tici' && 'master-tici' || github.event.number }}
path: selfdrive/ui/tests/test_ui/report_1/screenshots
@@ -14,7 +14,7 @@ on:
upstream_branch:
description: 'Upstream branch to build from'
required: true
default: 'master'
default: 'master-tici'
type: string
custom_name:
description: 'Custom name for the model (no date, only name)'
@@ -35,7 +35,7 @@ on:
upstream_branch:
description: 'Upstream branch to build from'
required: true
default: 'master'
default: 'master-tici'
type: string
custom_name:
description: 'Custom name for the model (no date, only name)'
@@ -8,14 +8,14 @@ env:
PUBLIC_REPO_URL: "https://github.com/sunnypilot/sunnypilot"
# Branch configurations
STAGING_C3_SOURCE_BRANCH: ${{ vars.STAGING_C3_SOURCE_BRANCH || 'master' }} # vars are set on repo settings.
STAGING_C3_SOURCE_BRANCH: 'master-tici' # vars.STAGING_C3_SOURCE_BRANCH could be used, set on repo settings.
# Runtime configuration
SOURCE_BRANCH: "${{ github.head_ref || github.ref_name }}"
on:
push:
branches: [ master, master-dev-c3-new ]
branches: [ master-tici ]
tags: [ 'release/*' ]
pull_request_target:
types: [ labeled ]
@@ -1,7 +1,7 @@
name: Build dev-c3-new
env:
DEFAULT_SOURCE_BRANCH: "master"
DEFAULT_SOURCE_BRANCH: "master-tici"
DEFAULT_TARGET_BRANCH: "master-dev-c3-new"
PR_LABEL: "dev-c3"
LFS_URL: 'https://gitlab.com/sunnypilot/public/sunnypilot-new-lfs.git/info/lfs'
@@ -10,17 +10,17 @@ env:
on:
push:
branches:
- master
- master-tici
pull_request_target:
types: [ labeled ]
branches:
- 'master'
- 'master-tici'
workflow_dispatch:
inputs:
source_branch:
description: 'Source branch to reset from'
required: true
default: 'master'
default: 'master-tici'
type: string
target_branch:
description: 'Target branch to reset and squash into'
@@ -40,11 +40,7 @@ concurrency:
jobs:
reset-and-squash:
runs-on: ubuntu-latest
if: (
(github.event_name == 'workflow_dispatch')
|| (github.event_name == 'push' && github.ref == format('refs/heads/{0}', github.event.repository.default_branch))
|| (contains(github.event_name, 'pull_request') && ((github.event.action == 'labeled' && (github.event.label.name == 'dev-c3' || github.event.label.name == 'trust-fork-pr') && contains(github.event.pull_request.labels.*.name, 'dev-c3'))))
)
if: False
steps:
- uses: actions/checkout@v4
with:
+10 -10
View File
@@ -2,19 +2,19 @@ name: "ui preview"
on:
push:
branches:
- master
- master-tici
pull_request_target:
types: [assigned, opened, synchronize, reopened, edited]
branches:
- 'master'
- 'master-tici'
paths:
- 'selfdrive/ui/**'
workflow_dispatch:
env:
UI_JOB_NAME: "Create UI Report"
REPORT_NAME: ${{ github.event_name == 'push' && github.ref == 'refs/heads/master' && 'master' || github.event.number }}
SHA: ${{ github.event_name == 'push' && github.ref == 'refs/heads/master' && github.sha || github.event.pull_request.head.sha }}
REPORT_NAME: ${{ github.event_name == 'push' && github.ref == 'refs/heads/master-tici' && 'master-tici' || github.event.number }}
SHA: ${{ github.event_name == 'push' && github.ref == 'refs/heads/master-tici' && github.sha || github.event.pull_request.head.sha }}
BRANCH_NAME: "openpilot/pr-${{ github.event.number }}"
jobs:
@@ -55,7 +55,7 @@ jobs:
name: report-1-${{ env.REPORT_NAME }}
path: ${{ github.workspace }}/pr_ui
- name: Getting master ui
- name: Getting master-tici ui
uses: actions/checkout@v4
with:
repository: sunnypilot/ci-artifacts
@@ -63,8 +63,8 @@ jobs:
path: ${{ github.workspace }}/master_ui
ref: openpilot_master_ui
- name: Saving new master ui
if: github.ref == 'refs/heads/master' && github.event_name == 'push'
- name: Saving new master-tici ui
if: github.ref == 'refs/heads/master-tici' && github.event_name == 'push'
working-directory: ${{ github.workspace }}/master_ui
run: |
git checkout --orphan=new_master_ui
@@ -93,9 +93,9 @@ jobs:
for ((i=0; i<${#A[*]}; i=i+1));
do
# Check if the master file exists
# Check if the master-tici file exists
if [ ! -f "${{ github.workspace }}/master_ui/${A[$i]}.png" ]; then
# This is a new file in PR UI that doesn't exist in master
# This is a new file in PR UI that doesn't exist in master-tici
DIFF="${DIFF}<details open>"
DIFF="${DIFF}<summary>${A[$i]} : \$\${\\color{cyan}\\text{NEW}}\$\$</summary>"
DIFF="${DIFF}<table>"
@@ -118,7 +118,7 @@ jobs:
DIFF="${DIFF}<table>"
DIFF="${DIFF}<tr>"
DIFF="${DIFF} <td> master <img src=\"https://raw.githubusercontent.com/sunnypilot/ci-artifacts/${{ env.BRANCH_NAME }}/${A[$i]}_master_ref.png\"> </td>"
DIFF="${DIFF} <td> master-tici <img src=\"https://raw.githubusercontent.com/sunnypilot/ci-artifacts/${{ env.BRANCH_NAME }}/${A[$i]}_master_ref.png\"> </td>"
DIFF="${DIFF} <td> proposed <img src=\"https://raw.githubusercontent.com/sunnypilot/ci-artifacts/${{ env.BRANCH_NAME }}/${A[$i]}.png\"> </td>"
DIFF="${DIFF}</tr>"
+7
View File
@@ -21,5 +21,12 @@
</clean>
</configuration>
</target>
<target id="f2590b2b-9b93-49f9-8510-da3f3724a2ae" name="replay" defaultType="TOOL">
<configuration id="d475264f-6f4c-4092-9b4e-6773309f38b7" name="replay" toolchainName="Default">
<build type="TOOL">
<tool actionId="Tool_External Tools_uv build tools replay" />
</build>
</configuration>
</target>
</component>
</project>
+7
View File
@@ -20,4 +20,11 @@
<option name="WORKING_DIRECTORY" value="$ProjectFileDir$" />
</exec>
</tool>
<tool name="uv build tools replay" showInMainMenu="false" showInEditor="false" showInProject="false" showInSearchPopup="false" disabled="false" useConsole="true" showConsoleOnStdOut="false" showConsoleOnStdErr="false" synchronizeAfterRun="true">
<exec>
<option name="COMMAND" value="bash" />
<option name="PARAMETERS" value="-c &quot;source .venv/bin/activate &amp;&amp; scons -u -j$(nproc) tools/replay/&quot;" />
<option name="WORKING_DIRECTORY" value="$ProjectFileDir$" />
</exec>
</tool>
</toolSet>
+1 -1
View File
@@ -1,5 +1,5 @@
<component name="ProjectRunConfigurationManager">
<configuration default="false" name="Build Debug" type="CLionExternalRunConfiguration" factoryName="Application" REDIRECT_INPUT="false" ELEVATE="false" USE_EXTERNAL_CONSOLE="false" EMULATE_TERMINAL="false" WORKING_DIR="file://$ProjectFileDir$/selfdrive/ui" PASS_PARENT_ENVS_2="true" PROJECT_NAME="sunnypilot" TARGET_NAME="uv Scons Build Debug" CONFIG_NAME="uv Scons Build Debug" RUN_PATH="ui">
<configuration default="false" name="Build Debug" type="CLionExternalRunConfiguration" factoryName="Application" REDIRECT_INPUT="false" ELEVATE="false" USE_EXTERNAL_CONSOLE="false" EMULATE_TERMINAL="false" WORKING_DIR="file://$ProjectFileDir$/selfdrive/ui" PASS_PARENT_ENVS_2="true" PROJECT_NAME="openpilot-special" TARGET_NAME="uv Scons Build Debug" CONFIG_NAME="uv Scons Build Debug" RUN_PATH="ui">
<envs>
<env name="QT_DBL_CLICK_DIST" value="150" />
</envs>
+27
View File
@@ -0,0 +1,27 @@
<component name="ProjectRunConfigurationManager">
<configuration default="false" name="Debug Route Controls" type="PythonConfigurationType" factoryName="Python">
<module name="openpilot-special" />
<option name="ENV_FILES" value="" />
<option name="INTERPRETER_OPTIONS" value="" />
<option name="PARENT_ENVS" value="true" />
<envs>
<env name="PYTHONUNBUFFERED" value="1" />
<env name="FINGERPRINT" value="KIA_EV9" />
<env name="SKIP_FW_QUERY" value="1" />
</envs>
<option name="SDK_HOME" value="" />
<option name="WORKING_DIRECTORY" value="$PROJECT_DIR$/selfdrive/car" />
<option name="IS_MODULE_SDK" value="true" />
<option name="ADD_CONTENT_ROOTS" value="true" />
<option name="ADD_SOURCE_ROOTS" value="true" />
<EXTENSION ID="PythonCoverageRunConfigurationExtension" runner="coverage.py" />
<option name="SCRIPT_NAME" value="$PROJECT_DIR$/selfdrive/car/card.py" />
<option name="PARAMETERS" value="" />
<option name="SHOW_COMMAND_LINE" value="false" />
<option name="EMULATE_TERMINAL" value="true" />
<option name="MODULE_MODE" value="false" />
<option name="REDIRECT_INPUT" value="false" />
<option name="INPUT_FILE" value="" />
<method v="2" />
</configuration>
</component>
+7
View File
@@ -0,0 +1,7 @@
<component name="ProjectRunConfigurationManager">
<configuration default="false" name="Replay for controls + ui" type="Multirun" separateTabs="false" reuseTabsWithFailures="false" startOneByOne="true" markFailedProcess="true" hideSuccessProcess="false" delayTime="0.0">
<runConfiguration name="replay for controls" type="Native Application" />
<runConfiguration name="Build Debug" type="Custom Build Application" />
<method v="2" />
</configuration>
</component>
+7
View File
@@ -0,0 +1,7 @@
<component name="ProjectRunConfigurationManager">
<configuration default="false" name="replay for controls" type="CLionNativeAppRunConfigurationType" focusToolWindowBeforeRun="true" PROGRAM_PARAMS="&quot;$Prompt$&quot; --block &quot;sendcan,carState,carParams,carOutput,liveTracks,carParamsSP,carStateSP,bookmarkButton&quot;" REDIRECT_INPUT="false" ELEVATE="false" USE_EXTERNAL_CONSOLE="false" EMULATE_TERMINAL="true" WORKING_DIR="file://$ProjectFileDir$/tools/replay" PASS_PARENT_ENVS_2="true" PROJECT_NAME="openpilot-special" TARGET_NAME="replay" CONFIG_NAME="replay" version="1" RUN_PATH="replay">
<method v="2">
<option name="CLION.COMPOUND.BUILD" enabled="true" />
</method>
</configuration>
</component>
+1 -1
View File
@@ -1,4 +1,4 @@
FROM ghcr.io/sunnypilot/sunnypilot-base:latest
FROM ghcr.io/sunnypilot/sunnypilot-tici-base:latest
ENV PYTHONUNBUFFERED=1
+9 -10
View File
@@ -22,7 +22,7 @@ https://docs.sunnypilot.ai/ is your one stop shop for everything from features t
Detailed instructions for [how to mount the device in a car](https://comma.ai/setup).
## Installation
Please refer to [Recommended Branches](#-recommended-branches) to find your preferred/supported branch. This guide will assume you want to install the latest `staging-c3-new` branch.
Please refer to [Recommended Branches](#-recommended-branches) to find your preferred/supported branch. This guide will assume you want to install the latest `staging-tici` branch.
### If you want to use our newest branches (our rewrite)
> [!TIP]
@@ -31,25 +31,24 @@ Please refer to [Recommended Branches](#-recommended-branches) to find your pref
* sunnypilot not installed or you installed a version before 0.8.17?
1. [Factory reset/uninstall](https://github.com/commaai/openpilot/wiki/FAQ#how-can-i-reset-the-device) the previous software if you have another software/fork installed.
2. After factory reset/uninstall and upon reboot, select `Custom Software` when given the option.
3. Input the installation URL per [Recommended Branches](#-recommended-branches). Example: ```https://staging-c3-new.sunnypilot.ai```.
3. Input the installation URL per [Recommended Branches](#-recommended-branches). Example: ```https://staging-tici.sunnypilot.ai```.
4. Complete the rest of the installation following the onscreen instructions.
* sunnypilot already installed and you installed a version after 0.8.17?
1. On the comma three, go to `Settings` ▶️ `Software`.
2. At the `Download` option, press `CHECK`. This will fetch the list of latest branches from sunnypilot.
3. At the `Target Branch` option, press `SELECT` to open the Target Branch selector.
4. Scroll to select the desired branch per Recommended Branches (see below). Example: `staging-c3-new`
4. Scroll to select the desired branch per Recommended Branches (see below). Example: `staging-tici`
| Branch | Installation URL |
|:----------------:|:---------------------------------------------:|
| `staging-c3-new` | `https://staging-c3-new.sunnypilot.ai` |
| `dev-c3-new` | `https://dev-c3-new.sunnypilot.ai` |
| `custom-branch` | `https://install.sunnypilot.ai/{branch_name}` |
| `release-c3-new` | **Not yet available**. |
| Branch | Installation URL |
|:---------------:|:---------------------------------------------:|
| `staging-tici` | `https://staging-tici.sunnypilot.ai` |
| `custom-branch` | `https://install.sunnypilot.ai/{branch_name}` |
| `release-tici` | **Not yet available**. |
> [!TIP]
> You can use sunnypilot/targetbranch as an install URL. Example: 'sunnypilot/staging-c3-new'.
> You can use sunnypilot/targetbranch as an install URL. Example: 'sunnypilot/staging-tici'.
> [!NOTE]
> Do you require further assistance with software installation? Join the [sunnypilot Discord server](https://discord.sunnypilot.com) and message us in the `#installation-help` channel.
+10 -1
View File
@@ -172,6 +172,8 @@ struct OnroadEventSP @0xda96579883444c35 {
experimentalModeSwitched @14;
wrongCarModeAlertOnly @15;
pedalPressedAlertOnly @16;
laneTurnLeft @17;
laneTurnRight @18;
}
}
@@ -258,9 +260,16 @@ struct LiveMapDataSP @0xf416ec09499d9d19 {
roadName @5 :Text;
}
struct CustomReserved9 @0xa1680744031fdb2d {
struct ModelDataV2SP @0xa1680744031fdb2d {
laneTurnDirection @0 :TurnDirection;
}
enum TurnDirection {
none @0;
turnLeft @1;
turnRight @2;
}
struct CustomReserved10 @0xcb9fd56c7057593a {
}
+1 -1
View File
@@ -2631,7 +2631,7 @@ struct Event {
backupManagerSP @113 :Custom.BackupManagerSP;
carStateSP @114 :Custom.CarStateSP;
liveMapDataSP @115 :Custom.LiveMapDataSP;
customReserved9 @116 :Custom.CustomReserved9;
modelDataV2SP @116 :Custom.ModelDataV2SP;
customReserved10 @136 :Custom.CustomReserved10;
customReserved11 @137 :Custom.CustomReserved11;
customReserved12 @138 :Custom.CustomReserved12;
+1
View File
@@ -88,6 +88,7 @@ _services: dict[str, tuple] = {
"carControlSP": (True, 100., 10),
"carStateSP": (True, 100., 10),
"liveMapDataSP": (True, 1., 1),
"modelDataV2SP": (True, 20.),
# debug
"uiDebug": (True, 0., 1),
+12 -1
View File
@@ -146,6 +146,7 @@ inline static std::unordered_map<std::string, ParamKeyAttributes> keys = {
{"CustomAccLongPressIncrement", {PERSISTENT | BACKUP, INT, "5"}},
{"CustomAccShortPressIncrement", {PERSISTENT | BACKUP, INT, "1"}},
{"DeviceBootMode", {PERSISTENT | BACKUP, INT, "0"}},
{"DevUIInfo", {PERSISTENT | BACKUP, INT, "0"}},
{"EnableCopyparty", {PERSISTENT | BACKUP, BOOL}},
{"EnableGithubRunner", {PERSISTENT | BACKUP, BOOL}},
{"GithubRunnerSufficientVoltage", {CLEAR_ON_MANAGER_START , BOOL}},
@@ -154,6 +155,7 @@ inline static std::unordered_map<std::string, ParamKeyAttributes> keys = {
{"MaxTimeOffroad", {PERSISTENT | BACKUP, INT, "1800"}},
{"ModelRunnerTypeCache", {CLEAR_ON_ONROAD_TRANSITION, INT}},
{"OffroadMode", {CLEAR_ON_MANAGER_START, BOOL}},
{"Offroad_TiciSupport", {CLEAR_ON_MANAGER_START, JSON}},
{"QuickBootToggle", {PERSISTENT | BACKUP, BOOL, "0"}},
{"QuietMode", {PERSISTENT | BACKUP, BOOL, "0"}},
{"RainbowMode", {PERSISTENT | BACKUP, BOOL, "0"}},
@@ -195,10 +197,12 @@ inline static std::unordered_map<std::string, ParamKeyAttributes> keys = {
{"DynamicExperimentalControl", {PERSISTENT | BACKUP, BOOL, "0"}},
{"BlindSpot", {PERSISTENT | BACKUP, BOOL, "0"}},
// model panel params
// sunnypilot model params
{"LagdToggle", {PERSISTENT | BACKUP, BOOL, "1"}},
{"LagdToggleDelay", {PERSISTENT | BACKUP, FLOAT, "0.2"}},
{"LagdValueCache", {PERSISTENT, FLOAT, "0.2"}},
{"LaneTurnDesire", {PERSISTENT | BACKUP, BOOL, "0"}},
{"LaneTurnValue", {PERSISTENT | BACKUP, FLOAT, "19.0"}},
// mapd
{"MapAdvisorySpeedLimit", {CLEAR_ON_ONROAD_TRANSITION, FLOAT}},
@@ -219,4 +223,11 @@ inline static std::unordered_map<std::string, ParamKeyAttributes> keys = {
{"OsmStateTitle", {PERSISTENT, STRING}},
{"OsmWayTest", {PERSISTENT, STRING}},
{"RoadName", {CLEAR_ON_ONROAD_TRANSITION, STRING}},
// Tuning keys
{"EnableHkgTuningAngleSmoothingFactor", {PERSISTENT | BACKUP, BOOL, "1"}},
{"HkgTuningAngleMinTorqueReductionGain", {PERSISTENT | BACKUP, INT, "10"}},
{"HkgTuningAngleMaxTorqueReductionGain", {PERSISTENT | BACKUP, INT, "100"}},
{"HkgTuningAngleActiveTorqueReductionGain", {PERSISTENT | BACKUP, INT, "100"}},
{"HkgTuningOverridingCycles", {PERSISTENT | BACKUP, INT, "17"}},
};
+1 -1
Submodule panda updated: f10ddc6a89...7eab6fd61b
+2 -2
View File
@@ -1,8 +1,8 @@
if [ "$1" = "base" ]; then
export DOCKER_IMAGE=sunnypilot-base
export DOCKER_IMAGE=sunnypilot-tici-base
export DOCKER_FILE=Dockerfile.sunnypilot_base
elif [ "$1" = "prebuilt" ]; then
export DOCKER_IMAGE=sunnypilot-prebuilt
export DOCKER_IMAGE=sunnypilot-tici-prebuilt
export DOCKER_FILE=Dockerfile.sunnypilot
else
echo "Invalid docker build image: '$1'"
+1 -1
View File
@@ -13,7 +13,7 @@ cd $ROOT
FAILED=0
IGNORED_FILES="uv\.lock|docs\/CARS.md|LICENSE\.md"
IGNORED_FILES="uv\.lock|docs\/CARS.md|LICENSE\.md|layouts\/.*\.xml|.*\.ipynb"
IGNORED_DIRS="^third_party.*|^msgq.*|^msgq_repo.*|^opendbc.*|^opendbc_repo.*|^cereal.*|^panda.*|^rednose.*|^rednose_repo.*|^tinygrad.*|^tinygrad_repo.*|^teleoprtc.*|^teleoprtc_repo.*"
function run() {
+20 -2
View File
@@ -1,7 +1,8 @@
from cereal import log
from cereal import log, custom
from openpilot.common.constants import CV
from openpilot.common.realtime import DT_MDL
from openpilot.sunnypilot.selfdrive.controls.lib.auto_lane_change import AutoLaneChangeController, AutoLaneChangeMode
from openpilot.sunnypilot.selfdrive.controls.lib.lane_turn_desire import LaneTurnController
LaneChangeState = log.LaneChangeState
LaneChangeDirection = log.LaneChangeDirection
@@ -30,6 +31,12 @@ DESIRES = {
},
}
TURN_DESIRES = {
custom.TurnDirection.none: log.Desire.none,
custom.TurnDirection.turnLeft: log.Desire.turnLeft,
custom.TurnDirection.turnRight: log.Desire.turnRight,
}
class DesireHelper:
def __init__(self):
@@ -41,13 +48,21 @@ class DesireHelper:
self.prev_one_blinker = False
self.desire = log.Desire.none
self.alc = AutoLaneChangeController(self)
self.lane_turn_controller = LaneTurnController(self)
self.lane_turn_direction = custom.TurnDirection.none
def update(self, carstate, lateral_active, lane_change_prob):
self.alc.update_params()
self.lane_turn_controller.update_params()
v_ego = carstate.vEgo
one_blinker = carstate.leftBlinker != carstate.rightBlinker
below_lane_change_speed = v_ego < LANE_CHANGE_SPEED_MIN
# Lane turn controller update
self.lane_turn_controller.update_lane_turn(blindspot_left=carstate.leftBlindspot, blindspot_right=carstate.rightBlindspot,
left_blinker=carstate.leftBlinker, right_blinker=carstate.rightBlinker, v_ego=v_ego)
self.lane_turn_direction = self.lane_turn_controller.get_turn_direction()
if not lateral_active or self.lane_change_timer > LANE_CHANGE_TIME_MAX or self.alc.lane_change_set_timer == AutoLaneChangeMode.OFF:
self.lane_change_state = LaneChangeState.off
self.lane_change_direction = LaneChangeDirection.none
@@ -106,7 +121,10 @@ class DesireHelper:
self.prev_one_blinker = one_blinker
self.desire = DESIRES[self.lane_change_direction][self.lane_change_state]
if self.lane_turn_direction != custom.TurnDirection.none:
self.desire = TURN_DESIRES[self.lane_turn_direction]
else:
self.desire = DESIRES[self.lane_change_direction][self.lane_change_state]
# Send keep pulse once per second during LaneChangeStart.preLaneChange
if self.lane_change_state in (LaneChangeState.off, LaneChangeState.laneChangeStarting):
@@ -0,0 +1,13 @@
from openpilot.selfdrive.controls.lib.latcontrol_torque import LatControlTorque
from openpilot.selfdrive.controls.lib.latcontrol_angle import LatControlAngle
class LatControlAngleTorque(LatControlTorque, LatControlAngle):
def __init__(self, CP, CP_SP, CI):
LatControlTorque.__init__(self, CP, CP_SP, CI)
LatControlAngle.__init__(self, CP, CP_SP, CI)
def update(self, active, CS, VM, params, steer_limited_by_controls, desired_curvature, calibrated_pose, curvature_limited):
torque, _, _ = LatControlTorque.update(self, active, CS, VM, params, steer_limited_by_controls, desired_curvature, calibrated_pose, curvature_limited)
_, angle, angle_log = LatControlAngle.update(self, active, CS, VM, params, steer_limited_by_controls, desired_curvature, calibrated_pose, curvature_limited)
return torque, angle, angle_log
+4 -1
View File
@@ -216,7 +216,7 @@ def main(demo=False):
cloudlog.warning(f"connected extra cam with buffer size: {vipc_client_extra.buffer_len} ({vipc_client_extra.width} x {vipc_client_extra.height})")
# messaging
pm = PubMaster(["modelV2", "drivingModelData", "cameraOdometry"])
pm = PubMaster(["modelV2", "drivingModelData", "cameraOdometry", "modelDataV2SP"])
sm = SubMaster(["deviceState", "carState", "roadCameraState", "liveCalibration", "driverMonitoringState", "carControl", "liveDelay"])
publish_state = PublishState()
@@ -333,6 +333,7 @@ def main(demo=False):
modelv2_send = messaging.new_message('modelV2')
drivingdata_send = messaging.new_message('drivingModelData')
posenet_send = messaging.new_message('cameraOdometry')
mdv2sp_send = messaging.new_message('modelDataV2SP')
action = get_action_from_model(model_output, prev_action, lat_delay + DT_MDL, long_delay + DT_MDL, v_ego)
prev_action = action
@@ -347,6 +348,7 @@ def main(demo=False):
DH.update(sm['carState'], sm['carControl'].latActive, lane_change_prob)
modelv2_send.modelV2.meta.laneChangeState = DH.lane_change_state
modelv2_send.modelV2.meta.laneChangeDirection = DH.lane_change_direction
mdv2sp_send.modelDataV2SP.laneTurnDirection = DH.lane_turn_direction
drivingdata_send.drivingModelData.meta.laneChangeState = DH.lane_change_state
drivingdata_send.drivingModelData.meta.laneChangeDirection = DH.lane_change_direction
@@ -354,6 +356,7 @@ def main(demo=False):
pm.send('modelV2', modelv2_send)
pm.send('drivingModelData', drivingdata_send)
pm.send('cameraOdometry', posenet_send)
pm.send('modelDataV2SP', mdv2sp_send)
last_vipc_frame_id = meta_main.frame_id
+5
View File
@@ -49,5 +49,10 @@
"text": "openpilot detected excessive %1 actuation on your last drive. Please contact support at https://comma.ai/support and share your device's Dongle ID for troubleshooting.",
"severity": 1,
"_comment": "Set extra field to lateral or longitudinal."
},
"Offroad_TiciSupport": {
"text": "<b>Unsupported branch detected</b> - The current version of <b><u>%1</u></b> branch is no longer supported on the comma three. Please go to <b>[Device > Software]</b> and install a supported branch with <b><u>-tici</u></b> in the branch name for the comma three.",
"severity": 1,
"_comment": "Set extra field to the current branch name."
}
}
+10 -2
View File
@@ -86,7 +86,7 @@ class SelfdriveD(CruiseHelper):
# TODO: de-couple selfdrived with card/conflate on carState without introducing controls mismatches
self.car_state_sock = messaging.sub_sock('carState', timeout=20)
ignore = self.sensor_packets + self.gps_packets + ['alertDebug']
ignore = self.sensor_packets + self.gps_packets + ['alertDebug'] + ['modelDataV2SP']
if SIMULATION:
ignore += ['driverCameraState', 'managerState']
if REPLAY:
@@ -95,7 +95,8 @@ class SelfdriveD(CruiseHelper):
self.sm = messaging.SubMaster(['deviceState', 'pandaStates', 'peripheralState', 'modelV2', 'liveCalibration',
'carOutput', 'driverMonitoringState', 'longitudinalPlan', 'livePose', 'liveDelay',
'managerState', 'liveParameters', 'radarState', 'liveTorqueParameters',
'controlsState', 'carControl', 'driverAssistance', 'alertDebug', 'userBookmark', 'audioFeedback'] + \
'controlsState', 'carControl', 'driverAssistance', 'alertDebug', 'userBookmark', 'audioFeedback',
'modelDataV2SP'] + \
self.camera_packets + self.sensor_packets + self.gps_packets,
ignore_alive=ignore, ignore_avg_freq=ignore,
ignore_valid=ignore, frequency=int(1/DT_CTRL))
@@ -300,6 +301,13 @@ class SelfdriveD(CruiseHelper):
LaneChangeState.laneChangeFinishing):
self.events.add(EventName.laneChange)
# Handle lane turn
lane_turn_direction = self.sm['modelDataV2SP'].laneTurnDirection
if lane_turn_direction == custom.TurnDirection.turnLeft:
self.events_sp.add(custom.OnroadEventSP.EventName.laneTurnLeft)
elif lane_turn_direction == custom.TurnDirection.turnRight:
self.events_sp.add(custom.OnroadEventSP.EventName.laneTurnRight)
for i, pandaState in enumerate(self.sm['pandaStates']):
# All pandas must match the list of safetyConfigs, and if outside this list, must be silent or noOutput
if i < len(self.CP.safetyConfigs):
+9
View File
@@ -4,6 +4,9 @@
#include <map>
#include "selfdrive/ui/qt/util.h"
#ifdef SUNNYPILOT
#include "selfdrive/ui/sunnypilot/ui.h"
#endif
void OnroadAlerts::updateState(const UIState &s) {
Alert a = getAlert(*(s.sm), s.scene.started_frame);
@@ -73,6 +76,12 @@ void OnroadAlerts::paintEvent(QPaintEvent *event) {
}
QRect r = QRect(0 + margin, height() - h + margin, width() - margin*2, h - margin*2);
#ifdef SUNNYPILOT
const int dev_ui_info = uiStateSP()->scene.dev_ui_info;
const int adjustment = dev_ui_info > 1 && alert.size != cereal::SelfdriveState::AlertSize::FULL ? 30 : 0;
r = QRect(0 + margin, height() - h + margin - adjustment, width() - margin*2, h - margin*2);
#endif
QPainter p(this);
// draw background + gradient
@@ -12,6 +12,7 @@
#include "selfdrive/ui/sunnypilot/qt/onroad/model.h"
#define ExperimentalButton ExperimentalButtonSP
#define ModelRenderer ModelRendererSP
#define HudRenderer HudRendererSP
#else
#include "selfdrive/ui/qt/onroad/buttons.h"
#include "selfdrive/ui/qt/onroad/hud.h"
@@ -73,6 +73,11 @@ void DriverMonitorRenderer::draw(QPainter &painter, const QRect &surface_rect) {
float y = surface_rect.height() - offset;
float opacity = is_active ? 0.65f : 0.2f;
#ifdef SUNNYPILOT
const int dev_ui_info = uiStateSP()->scene.dev_ui_info;
y -= dev_ui_info > 1 ? 50 : 0;
#endif
drawIcon(painter, QPoint(x, y), dm_img, QColor(0, 0, 0, 70), opacity);
QPointF keypoints[std::size(DEFAULT_FACE_KPTS_3D)];
+2
View File
@@ -39,6 +39,7 @@ qt_src = [
"sunnypilot/qt/offroad/settings/visuals_panel.cc",
"sunnypilot/qt/onroad/annotated_camera.cc",
"sunnypilot/qt/onroad/buttons.cc",
"sunnypilot/qt/onroad/developer_ui/developer_ui.cc",
"sunnypilot/qt/onroad/hud.cc",
"sunnypilot/qt/onroad/model.cc",
"sunnypilot/qt/onroad/onroad_home.cc",
@@ -48,6 +49,7 @@ lateral_panel_qt_src = [
"sunnypilot/qt/offroad/settings/lateral/blinker_pause_lateral_settings.cc",
"sunnypilot/qt/offroad/settings/lateral/lane_change_settings.cc",
"sunnypilot/qt/offroad/settings/lateral/mads_settings.cc",
"sunnypilot/qt/offroad/settings/lateral/angle_tuning_settings.cc",
"sunnypilot/qt/offroad/settings/lateral/neural_network_lateral_control.cc",
]
@@ -0,0 +1,87 @@
/**
* Copyright (c) 2021-, Haibin Wen, sunnypilot, and a number of other contributors.
*
* This file is part of sunnypilot and is licensed under the MIT License.
* See the LICENSE.md file in the root directory for more details.
*/
#include "selfdrive/ui/sunnypilot/qt/offroad/settings/lateral/angle_tuning_settings.h"
#include "selfdrive/ui/sunnypilot/qt/widgets/scrollview.h"
AngleTunningSettings::AngleTunningSettings(QWidget *parent) : QWidget(parent) {
QVBoxLayout *main_layout = new QVBoxLayout(this);
main_layout->setContentsMargins(50, 20, 50, 20);
main_layout->setSpacing(20);
// Back button
PanelBackButton *back = new PanelBackButton();
connect(back, &QPushButton::clicked, [=]() { emit backPress(); });
main_layout->addWidget(back, 0, Qt::AlignLeft);
auto *list = new ListWidgetSP(this, false);
main_layout->addWidget(new QWidget());
enableHkgAngleSmoothingFactor = new ExpandableToggleRow("EnableHkgTuningAngleSmoothingFactor", tr("HKG Angle Smoothing Factor"), tr("Applies EMA (Exponential Moving Average) to the desired angle steering and avoid overcorrections."), "../assets/offroad/icon_blank.png");
list->addItem(enableHkgAngleSmoothingFactor);
auto first_row = new QHBoxLayout();
hkgTuningOverridingCycles = new OptionControlSP("HkgTuningOverridingCycles", tr("Override Ramp-Down Cycles"), tr("Number of cycles to ramp down the current amount of torque on the steering wheel.<br/>A smaller value means a faster override by the user (less effort)"), "../assets/offroad/icon_blank.png", {10, 30}, 1);
connect(hkgTuningOverridingCycles, &OptionControlSP::updateLabels, hkgTuningOverridingCycles, [=]() {
this->updateToggles(offroad);
});
first_row->addWidget(hkgTuningOverridingCycles);
hkgAngleMinTorque = new OptionControlSP("HkgTuningAngleMinTorqueReductionGain", tr("Override Steering Effort"), tr("Sets the steering effort percentage used when the driver is overriding lateral control.<br/>Higher values increase resistance and make the wheel feel stiffer."), "../assets/offroad/icon_blank.png", {5, 60}, 1);
connect(hkgAngleMinTorque, &OptionControlSP::updateLabels, hkgAngleMinTorque, [=]() {
this->updateToggles(offroad);
});
first_row->addWidget(hkgAngleMinTorque);
list->addItem(first_row);
auto second_row = new QHBoxLayout();
hkgAngleActiveTorque = new OptionControlSP("HkgTuningAngleActiveTorqueReductionGain", tr("Min Active Torque"), tr("Torque applied when lateral control is active but the vehicle is not turning.<br/>Used to maintain lane centering on straight paths when no user input is detected."), "../assets/offroad/icon_blank.png", {10, 100}, 1);
connect(hkgAngleActiveTorque, &OptionControlSP::updateLabels, hkgAngleActiveTorque, [=]() {
this->updateToggles(offroad);
});
second_row->addWidget(hkgAngleActiveTorque);
hkgAngleMaxTorque = new OptionControlSP("HkgTuningAngleMaxTorqueReductionGain", tr("Max Torque Allowance"), tr("Sets the maximum torque reduction percentage the controller can apply during normal lateral control.<br/>"), "../assets/offroad/icon_blank.png", {10, 100}, 1);
connect(hkgAngleMaxTorque, &OptionControlSP::updateLabels, hkgAngleMaxTorque, [=]() {
this->updateToggles(offroad);
});
second_row->addWidget(hkgAngleMaxTorque);
list->addItem(second_row);
QObject::connect(uiState(), &UIState::offroadTransition, this, &AngleTunningSettings::updateToggles);
main_layout->addWidget(new ScrollViewSP(list, this));
auto *warning = new QLabel(tr("Reboot required for settings to apply; Tap on each setting to see more details."));
warning->setStyleSheet("font-size: 30px; font-weight: 500; font-family: 'Noto Color Emoji'; color: orange;");
main_layout->addWidget(warning, 0, Qt::AlignCenter);
}
void AngleTunningSettings::showEvent(QShowEvent *event) {
updateToggles(offroad);
}
void AngleTunningSettings::updateToggles(bool _offroad) {
auto HkgAngleSmoothingFactorValue = params.getBool("EnableHkgTuningAngleSmoothingFactor");
enableHkgAngleSmoothingFactor->toggleFlipped(HkgAngleSmoothingFactorValue);
auto HkgAngleMinTorqueValue = QString::fromStdString(params.get("HkgTuningAngleMinTorqueReductionGain")).toInt();
hkgAngleMinTorque->setLabel(QString::number(HkgAngleMinTorqueValue)+"%");
auto HkgAngleActiveTorqueValue = QString::fromStdString(params.get("HkgTuningAngleActiveTorqueReductionGain")).toInt();
hkgAngleActiveTorque->setLabel(QString::number(HkgAngleActiveTorqueValue)+"%");
auto HkgAngleMaxTorqueValue = QString::fromStdString(params.get("HkgTuningAngleMaxTorqueReductionGain")).toInt();
hkgAngleMaxTorque->setLabel(QString::number(HkgAngleMaxTorqueValue)+"%");
auto HkgTuningOverridingCyclesValue = QString::fromStdString(params.get("HkgTuningOverridingCycles")).toInt();
hkgTuningOverridingCycles->setLabel(QString::number(HkgTuningOverridingCyclesValue));
offroad = _offroad;
}
@@ -0,0 +1,39 @@
/**
* Copyright (c) 2021-, Haibin Wen, sunnypilot, and a number of other contributors.
*
* This file is part of sunnypilot and is licensed under the MIT License.
* See the LICENSE.md file in the root directory for more details.
*/
#pragma once
#include "selfdrive/ui/qt/util.h"
#include "selfdrive/ui/sunnypilot/ui.h"
#include "selfdrive/ui/sunnypilot/qt/offroad/settings/settings.h"
#include "selfdrive/ui/sunnypilot/qt/widgets/controls.h"
#include "selfdrive/ui/sunnypilot/qt/widgets/expandable_row.h"
class AngleTunningSettings : public QWidget {
Q_OBJECT
public:
explicit AngleTunningSettings(QWidget *parent = nullptr);
void showEvent(QShowEvent *event) override;
signals:
void backPress();
public slots:
void updateToggles(bool _offroad);
private:
Params params;
bool offroad;
ExpandableToggleRow* enableHkgAngleSmoothingFactor;
OptionControlSP* hkgAngleMinTorque;
OptionControlSP* hkgAngleActiveTorque;
OptionControlSP* hkgAngleMaxTorque;
OptionControlSP* hkgTuningOverridingCycles;
};
@@ -89,6 +89,36 @@ LateralPanel::LateralPanel(SettingsWindowSP *parent) : QFrame(parent) {
nnlcToggle->updateToggle();
});
#pragma region hkg angle tuning
list->addItem(vertical_space());
list->addItem(horizontal_line());
list->addItem(vertical_space());
// HKG Angle Tuning
// angleTuningToggle = new ParamControl(
// "AngleTuning",
// tr("Modular Assistive Driving System (MADS)"),
// tr("Enable the beloved MADS feature. Disable toggle to revert back to stock sunnypilot engagement/disengagement."),
// "");
// angleTuningToggle->setConfirmation(true, false);
// list->addItem(angleTuningToggle);
angleTuningSettingsButton = new PushButtonSP(tr("Customize ANGLE Tuning"));
angleTuningSettingsButton->setObjectName("angle_btn");
connect(angleTuningSettingsButton, &QPushButton::clicked, [=]() {
sunnypilotScroller->setLastScrollPosition();
main_layout->setCurrentWidget(angleTuningWidget);
});
// QObject::connect(angleTuningToggle, &ToggleControl::toggleFlipped, angleTuningSettingsButton, &PushButtonSP::setEnabled);
angleTuningWidget = new AngleTunningSettings(this);
connect(angleTuningWidget, &AngleTunningSettings::backPress, [=]() {
sunnypilotScroller->restoreScrollPosition();
main_layout->setCurrentWidget(sunnypilotScreen);
});
list->addItem(angleTuningSettingsButton);
#pragma endregion
toggleOffroadOnly = {
madsToggle, nnlcToggle,
};
@@ -99,6 +129,7 @@ LateralPanel::LateralPanel(SettingsWindowSP *parent) : QFrame(parent) {
main_layout->addWidget(sunnypilotScreen);
main_layout->addWidget(madsWidget);
main_layout->addWidget(angleTuningWidget);
main_layout->addWidget(laneChangeWidget);
setStyleSheet(R"(
@@ -149,6 +180,7 @@ void LateralPanel::updateToggles(bool _offroad) {
}
madsSettingsButton->setEnabled(madsToggle->isToggled());
// angleTuningSettingsButton->setEnabled(angleTuningToggle->isToggled());
blinkerPauseLateralSettings->refresh();
@@ -13,6 +13,7 @@
#include "selfdrive/ui/sunnypilot/ui.h"
#include "selfdrive/ui/sunnypilot/qt/offroad/settings/lateral/blinker_pause_lateral_settings.h"
#include "selfdrive/ui/sunnypilot/qt/offroad/settings/lateral/mads_settings.h"
#include "selfdrive/ui/sunnypilot/qt/offroad/settings/lateral/angle_tuning_settings.h"
#include "selfdrive/ui/sunnypilot/qt/offroad/settings/lateral/neural_network_lateral_control.h"
#include "selfdrive/ui/sunnypilot/qt/offroad/settings/lateral/lane_change_settings.h"
#include "selfdrive/ui/qt/util.h"
@@ -39,8 +40,11 @@ private:
bool offroad;
ParamControl *madsToggle;
// ParamControl *angleTuningToggle;
PushButtonSP *madsSettingsButton;
PushButtonSP *angleTuningSettingsButton;
MadsSettings *madsWidget = nullptr;
AngleTunningSettings *angleTuningWidget = nullptr;
PushButtonSP *laneChangeSettingsButton;
LaneChangeSettings *laneChangeWidget = nullptr;
NeuralNetworkLateralControl *nnlcToggle = nullptr;
@@ -101,32 +101,42 @@ ModelsPanel::ModelsPanel(QWidget *parent) : QWidget(parent) {
QString policyType = tr("Policy Model");
policyFrame = createModelDetailFrame(this, policyType, policyProgressBar);
list->addItem(policyFrame);
list->addItem(horizontal_line());
// Lane Turn Desire toggle
lane_turn_desire_toggle = new ParamControlSP("LaneTurnDesire", tr("Use Lane Turn Desires"),
"If youre driving at 20 mph (32 km/h) or below and have your blinker on, "
"the car will plan a turn in that direction at the nearest drivable path. "
"This prevents situations (like at red lights) where the car might plan the wrong turn direction.",
"../assets/offroad/icon_shell.png");
list->addItem(lane_turn_desire_toggle);
// Lane Turn Value control
int max_value_mph = 20;
bool is_metric_initial = params.getBool("IsMetric");
const float K = 1.609344f;
int per_value_change_scaled = is_metric_initial ? static_cast<int>(std::round((1.0f / K) * 100.0f)) : 100; // 100 -> 1 mph
lane_turn_value_control = new OptionControlSP("LaneTurnValue", tr("Adjust Lane Turn Speed"),
tr("Set the maximum speed for lane turn desires. Default is 19 %1.").arg(is_metric_initial ? "km/h" : "mph"),
"", {5 * 100, max_value_mph * 100}, per_value_change_scaled, false, nullptr, true, true);
lane_turn_value_control->showDescription();
list->addItem(lane_turn_value_control);
// Show based on toggle
refreshLaneTurnValueControl();
connect(lane_turn_desire_toggle, &ParamControlSP::toggleFlipped, this, &ModelsPanel::refreshLaneTurnValueControl);
connect(lane_turn_value_control, &OptionControlSP::updateLabels, this, &ModelsPanel::refreshLaneTurnValueControl);
// LiveDelay toggle
lagd_toggle_control = new ParamControlSP("LagdToggle", tr("Live Learning Steer Delay"), "", "../assets/offroad/icon_shell.png");
lagd_toggle_control->showDescription();
list->addItem(lagd_toggle_control);
// Software delay control
int liveDelayMaxInt = 30;
std::string liveDelayBytes = params.get("LiveDelay");
if (!liveDelayBytes.empty()) {
capnp::FlatArrayMessageReader msg(kj::ArrayPtr<const capnp::word>(
reinterpret_cast<const capnp::word*>(liveDelayBytes.data()),
liveDelayBytes.size() / sizeof(capnp::word)));
auto event = msg.getRoot<cereal::Event>();
if (event.hasLiveDelay()) {
auto liveDelay = event.getLiveDelay();
float lateralDelay = liveDelay.getLateralDelay();
liveDelayMaxInt = static_cast<int>(lateralDelay * 100.0f) + 20;
}
}
delay_control = new OptionControlSP("LagdToggleDelay", tr("Adjust Software Delay"),
tr("Adjust the software delay when Live Learning Steer Delay is toggled off."
"\nThe default software delay value is 0.2"),
"", {5, liveDelayMaxInt}, 1, false, nullptr, true, true);
tr("Adjust the software delay when Live Learning Steer Delay is toggled off."
"\nThe default software delay value is 0.2"),
"", {5, 50}, 1, false, nullptr, true, true);
connect(delay_control, &OptionControlSP::updateLabels, [=]() {
float value = QString::fromStdString(params.get("LagdToggleDelay")).toFloat();
@@ -159,6 +169,19 @@ QFrame* ModelsPanel::createModelDetailFrame(QWidget *parent, QString &typeName,
return frame;
}
void ModelsPanel::refreshLaneTurnValueControl() {
if (!lane_turn_value_control) return;
float stored_mph = QString::fromStdString(params.get("LaneTurnValue")).toFloat();
bool is_metric = params.getBool("IsMetric");
QString unit = is_metric ? "km/h" : "mph";
float display_value = stored_mph;
if (is_metric) {
display_value = stored_mph * 1.609344f;
}
lane_turn_value_control->setLabel(QString::number(static_cast<int>(std::round(display_value))) + " " + unit);
lane_turn_value_control->setVisible(params.getBool("LaneTurnDesire"));
}
/**
* @brief Updates the UI with bundle download progress information
* Reads status from modelManagerSP cereal message and displays status for all models
@@ -401,34 +424,28 @@ void ModelsPanel::updateLabels() {
"Disable to use a fixed steering response time. Keeping this on provides the stock openpilot experience.");
bool lagdEnabled = params.getBool("LagdToggle");
if (lagdEnabled) {
std::string liveDelayBytes = params.get("LiveDelay");
auto liveDelayBytes = params.get("LiveDelay");
if (!liveDelayBytes.empty()) {
capnp::FlatArrayMessageReader msg(kj::ArrayPtr<const capnp::word>(
reinterpret_cast<const capnp::word*>(liveDelayBytes.data()),
liveDelayBytes.size() / sizeof(capnp::word)));
auto event = msg.getRoot<cereal::Event>();
if (event.hasLiveDelay()) {
auto liveDelay = event.getLiveDelay();
float lateralDelay = liveDelay.getLateralDelay();
desc += QString("<br><br><b><span style=\"color:#e0e0e0\">%1</span></b> <span style=\"color:#e0e0e0\">%2 s</span>")
.arg(tr("Live Steer Delay:")).arg(QString::number(lateralDelay, 'f', 3));
}
auto LD = loadCerealEvent(params, "LiveDelay");
float lateralDelay = LD->getLiveDelay().getLateralDelay();
desc += QString("<br><br><b><span style=\"color:#e0e0e0\">%1</span></b> <span style=\"color:#e0e0e0\">%2 s</span>")
.arg(tr("Live Steer Delay:")).arg(QString::number(lateralDelay, 'f', 3));
}
} else {
std::string carParamsBytes = params.get("CarParamsPersistent");
auto carParamsBytes = params.get("CarParamsPersistent");
if (!carParamsBytes.empty()) {
capnp::FlatArrayMessageReader msg(kj::ArrayPtr<const capnp::word>(
reinterpret_cast<const capnp::word*>(carParamsBytes.data()),
carParamsBytes.size() / sizeof(capnp::word)));
auto carParams = msg.getRoot<cereal::CarParams>();
float steerDelay = carParams.getSteerActuatorDelay();
AlignedBuffer aligned_buf_cp;
capnp::FlatArrayMessageReader cmsg(aligned_buf_cp.align(carParamsBytes.data(), carParamsBytes.size()));
cereal::CarParams::Reader CP = cmsg.getRoot<cereal::CarParams>();
float steerDelay = CP.getSteerActuatorDelay();
float softwareDelay = QString::fromStdString(params.get("LagdToggleDelay")).toFloat();
float totalLag = steerDelay + softwareDelay;
desc += QString("<br><br><span style=\"color:#e0e0e0\">"
"<b>%1</b> %2 s + <b>%3</b> %4 s = <b>%5</b> %6 s</span>")
.arg(tr("Actuator Delay:"), QString::number(steerDelay, 'f', 2),
tr("Software Delay:"), QString::number(softwareDelay, 'f', 2),
tr("Total Delay:"), QString::number(totalLag, 'f', 2));
.arg(tr("Actuator Delay:"), QString::number(steerDelay, 'f', 2),
tr("Software Delay:"), QString::number(softwareDelay, 'f', 2),
tr("Total Delay:"), QString::number(totalLag, 'f', 2));
}
}
lagd_toggle_control->setDescription(desc);
@@ -439,6 +456,9 @@ void ModelsPanel::updateLabels() {
delay_control->setLabel(QString::number(value, 'f', 2) + "s");
}
// Update lane turn desire label and visibility
refreshLaneTurnValueControl();
clearModelCacheBtn->setValue(QString::number(calculateCacheSize(), 'f', 2) + " MB");
}
@@ -9,6 +9,7 @@
#include <QProgressBar>
#include "selfdrive/ui/sunnypilot/qt/util.h"
#include "selfdrive/ui/sunnypilot/qt/offroad/settings/settings.h"
class ModelsPanel : public QWidget {
@@ -37,6 +38,7 @@ private:
void updateLabels();
void handleCurrentModelLblBtnClicked();
void handleBundleDownloadProgress();
void refreshLaneTurnValueControl();
void showResetParamsDialog();
QProgressBar* createProgressBar(QWidget *parent);
QFrame* createModelDetailFrame(QWidget *parent, QString &typeName, QProgressBar *progressBar);
@@ -81,5 +83,6 @@ private:
Params params;
ButtonControlSP *clearModelCacheBtn;
ButtonControlSP *refreshAvailableModelsBtn;
ParamControlSP *lane_turn_desire_toggle;
OptionControlSP *lane_turn_value_control;
};
@@ -11,12 +11,39 @@ SoftwarePanelSP::SoftwarePanelSP(QWidget *parent) : SoftwarePanel(parent) {
// branch selector
QObject::disconnect(targetBranchBtn, nullptr, nullptr, nullptr);
connect(targetBranchBtn, &ButtonControlSP::clicked, [=]() {
InputDialog d(tr("Search Branch"), this, tr("Enter search keywords, or leave blank to list all branches."), false);
if (Hardware::get_device_type() == cereal::InitData::DeviceType::TICI) {
auto current = params.get("GitBranch");
QStringList allBranches = QString::fromStdString(params.get("UpdaterAvailableBranches")).split(",");
QStringList branches;
for (const QString &b : allBranches) {
if (b.endsWith("-tici")) {
branches.append(b);
}
}
for (QString b : {current.c_str(), "master-tici", "staging-tici", "release-tici"}) {
auto i = branches.indexOf(b);
if (i >= 0) {
branches.removeAt(i);
branches.insert(0, b);
}
}
QString cur = QString::fromStdString(params.get("UpdaterTargetBranch"));
QString selection = MultiOptionDialog::getSelection(tr("Select a branch"), branches, cur, this);
if (!selection.isEmpty()) {
params.put("UpdaterTargetBranch", selection.toStdString());
targetBranchBtn->setValue(QString::fromStdString(params.get("UpdaterTargetBranch")));
checkForUpdates();
}
} else {
InputDialog d(tr("Search Branch"), this, tr("Enter search keywords, or leave blank to list all branches."), false);
d.setMinLength(0);
const int ret = d.exec();
if (ret) {
searchBranches(d.text());
}
}
});
// Disable Updates toggle
@@ -72,6 +72,15 @@ VisualsPanel::VisualsPanel(QWidget *parent) : QWidget(parent) {
list->addItem(chevron_info_settings);
param_watcher->addParam("ChevronInfo");
// Visuals: Developer UI Info (Dev UI)
std::vector<QString> dev_ui_settings_texts{tr("Off"), tr("Right"), tr("Right &&\nBottom")};
dev_ui_settings = new ButtonParamControlSP(
"DevUIInfo", tr("Developer UI"), tr("Display real-time parameters and metrics from various sources."),
"",
dev_ui_settings_texts,
380);
list->addItem(dev_ui_settings);
sunnypilotScroller = new ScrollViewSP(list, this);
vlayout->addWidget(sunnypilotScroller);
@@ -90,4 +99,7 @@ void VisualsPanel::paramsRefresh() {
if (chevron_info_settings) {
chevron_info_settings->refresh();
}
if (dev_ui_settings) {
dev_ui_settings->refresh();
}
}
@@ -28,4 +28,5 @@ protected:
std::map<std::string, ParamControlSP*> toggles;
ParamWatcher * param_watcher;
ButtonParamControlSP *chevron_info_settings;
ButtonParamControlSP *dev_ui_settings;
};
@@ -14,3 +14,8 @@ AnnotatedCameraWidgetSP::AnnotatedCameraWidgetSP(VisionStreamType type, QWidget
void AnnotatedCameraWidgetSP::updateState(const UIState &s) {
AnnotatedCameraWidget::updateState(s);
}
void AnnotatedCameraWidgetSP::showEvent(QShowEvent *event) {
AnnotatedCameraWidget::showEvent(event);
ui_update_params_sp(uiState());
}
@@ -15,4 +15,7 @@ class AnnotatedCameraWidgetSP : public AnnotatedCameraWidget {
public:
explicit AnnotatedCameraWidgetSP(VisionStreamType type, QWidget *parent = nullptr);
void updateState(const UIState &s) override;
protected:
void showEvent(QShowEvent *event) override;
};
@@ -0,0 +1,227 @@
/**
* Copyright (c) 2021-, Haibin Wen, sunnypilot, and a number of other contributors.
*
* This file is part of sunnypilot and is licensed under the MIT License.
* See the LICENSE.md file in the root directory for more details.
*/
#include <cmath>
#include "common/util.h"
#include "selfdrive/ui/sunnypilot/qt/onroad/developer_ui/developer_ui.h"
// Add Relative Distance to Primary Lead Car
// Unit: Meters
UiElement DeveloperUi::getDRel(bool lead_status, float lead_d_rel) {
QString value = lead_status ? QString::number(lead_d_rel, 'f', 0) : "-";
QColor color = QColor(255, 255, 255, 255);
if (lead_status) {
// Orange if close, Red if very close
if (lead_d_rel < 5) {
color = QColor(255, 0, 0, 255);
} else if (lead_d_rel < 15) {
color = QColor(255, 188, 0, 255);
}
}
return UiElement(value, "REL DIST", "m", color);
}
// Add Relative Velocity vs Primary Lead Car
// Unit: kph if metric, else mph
UiElement DeveloperUi::getVRel(bool lead_status, float lead_v_rel, bool is_metric, const QString &speed_unit) {
QString value = lead_status ? QString::number(lead_v_rel * (is_metric ? MS_TO_KPH : MS_TO_MPH), 'f', 0) : "-";
QColor color = QColor(255, 255, 255, 255);
if (lead_status) {
// Red if approaching faster than 10mph
// Orange if approaching (negative)
if (lead_v_rel < -4.4704) {
color = QColor(255, 0, 0, 255);
} else if (lead_v_rel < 0) {
color = QColor(255, 188, 0, 255);
}
}
return UiElement(value, "REL SPEED", speed_unit, color);
}
// Add Real Steering Angle
// Unit: Degrees
UiElement DeveloperUi::getSteeringAngleDeg(float angle_steers, bool lat_active, bool steer_override) {
QString value = QString("%1%2%3").arg(QString::number(angle_steers, 'f', 1)).arg("°").arg("");
QColor color = lat_active ? (steer_override ? QColor(0x91, 0x9b, 0x95, 0xff) : QColor(0, 255, 0, 255)) : QColor(255, 255, 255, 255);
// Red if large steering angle
// Orange if moderate steering angle
if (std::fabs(angle_steers) > 180) {
color = QColor(255, 0, 0, 255);
} else if (std::fabs(angle_steers) > 90) {
color = QColor(255, 188, 0, 255);
}
return UiElement(value, "REAL STEER", "", color);
}
// Add Actual Lateral Acceleration (roll compensated) when using Torque
// Unit: m/s²
UiElement DeveloperUi::getActualLateralAccel(float curvature, float v_ego, float roll, bool lat_active, bool steer_override) {
double actualLateralAccel = (curvature * pow(v_ego, 2)) - (roll * 9.81);
QString value = QString::number(actualLateralAccel, 'f', 2);
QColor color = lat_active ? (steer_override ? QColor(0x91, 0x9b, 0x95, 0xff) : QColor(0, 255, 0, 255)) : QColor(255, 255, 255, 255);
return UiElement(value, "ACTUAL L.A.", "m/s²", color);
}
// Add Desired Steering Angle when using PID
// Unit: Degrees
UiElement DeveloperUi::getSteeringAngleDesiredDeg(bool lat_active, float steer_angle_desired, float angle_steers) {
QString value = lat_active ? QString("%1%2%3").arg(QString::number(steer_angle_desired, 'f', 1)).arg("°").arg("") : "-";
QColor color = QColor(255, 255, 255, 255);
if (lat_active) {
// Red if large steering angle
// Orange if moderate steering angle
if (std::fabs(angle_steers) > 180) {
color = QColor(255, 0, 0, 255);
} else if (std::fabs(angle_steers) > 90) {
color = QColor(255, 188, 0, 255);
} else {
color = QColor(0, 255, 0, 255);
}
}
return UiElement(value, "DESIRED STEER", "", color);
}
// Add Device Memory (RAM) Usage
// Unit: Percent
UiElement DeveloperUi::getMemoryUsagePercent(int memory_usage_percent) {
QString value = QString("%1%2").arg(QString::number(memory_usage_percent, 'd', 0)).arg("%");
QColor color = (memory_usage_percent > 85) ? QColor(255, 188, 0, 255) : QColor(255, 255, 255, 255);
return UiElement(value, "RAM", "", color);
}
// Add Vehicle Current Acceleration
// Unit: m/s²
UiElement DeveloperUi::getAEgo(float a_ego) {
QString value = QString::number(a_ego, 'f', 1);
QColor color = QColor(255, 255, 255, 255);
return UiElement(value, "ACC.", "m/s²", color);
}
// Add Relative Velocity to Primary Lead Car
// Unit: kph if metric, else mph
UiElement DeveloperUi::getVEgoLead(bool lead_status, float lead_v_rel, float v_ego, bool is_metric, const QString &speed_unit) {
QString value = lead_status ? QString::number((lead_v_rel + v_ego) * (is_metric ? MS_TO_KPH : MS_TO_MPH), 'f', 0) : "-";
QColor color = QColor(255, 255, 255, 255);
if (lead_status) {
// Red if approaching faster than 10mph
// Orange if approaching (negative)
if (lead_v_rel < -4.4704) {
color = QColor(255, 0, 0, 255);
} else if (lead_v_rel < 0) {
color = QColor(255, 188, 0, 255);
}
}
return UiElement(value, "L.S.", speed_unit, color);
}
// Add Friction Coefficient Raw from torqued
// Unit: None
UiElement DeveloperUi::getFrictionCoefficientFiltered(float friction_coefficient_filtered, bool live_valid) {
QString value = QString::number(friction_coefficient_filtered, 'f', 3);
QColor color = live_valid ? QColor(0, 255, 0, 255) : QColor(255, 255, 255, 255);
return UiElement(value, "FRIC.", "", color);
}
// Add Lateral Acceleration Factor Raw from torqued
// Unit: m/s²
UiElement DeveloperUi::getLatAccelFactorFiltered(float lat_accel_factor_filtered, bool live_valid) {
QString value = QString::number(lat_accel_factor_filtered, 'f', 3);
QColor color = live_valid ? QColor(0, 255, 0, 255) : QColor(255, 255, 255, 255);
return UiElement(value, "L.A.", "m/s²", color);
}
// Add Steering Torque from Car EPS
// Unit: Newton Meters
UiElement DeveloperUi::getSteeringTorqueEps(float steering_torque_eps) {
QString value = QString::number(std::fabs(steering_torque_eps), 'f', 1);
QColor color = QColor(255, 255, 255, 255);
return UiElement(value, "E.T.", "N·dm", color);
}
// Add Bearing Degree and Direction from Car (Compass)
// Unit: Meters
UiElement DeveloperUi::getBearingDeg(float bearing_accuracy_deg, float bearing_deg) {
QString value = (bearing_accuracy_deg != 180.00) ? QString("%1%2%3").arg(QString::number(bearing_deg, 'd', 0)).arg("°").arg("") : "-";
QColor color = QColor(255, 255, 255, 255);
QString dir_value;
if (bearing_accuracy_deg != 180.00) {
if (((bearing_deg >= 337.5) && (bearing_deg <= 360)) || ((bearing_deg >= 0) && (bearing_deg <= 22.5))) {
dir_value = "N";
} else if ((bearing_deg > 22.5) && (bearing_deg < 67.5)) {
dir_value = "NE";
} else if ((bearing_deg >= 67.5) && (bearing_deg <= 112.5)) {
dir_value = "E";
} else if ((bearing_deg > 112.5) && (bearing_deg < 157.5)) {
dir_value = "SE";
} else if ((bearing_deg >= 157.5) && (bearing_deg <= 202.5)) {
dir_value = "S";
} else if ((bearing_deg > 202.5) && (bearing_deg < 247.5)) {
dir_value = "SW";
} else if ((bearing_deg >= 247.5) && (bearing_deg <= 292.5)) {
dir_value = "W";
} else if ((bearing_deg > 292.5) && (bearing_deg < 337.5)) {
dir_value = "NW";
}
} else {
dir_value = "OFF";
}
return UiElement(QString("%1 | %2").arg(dir_value).arg(value), "B.D.", "", color);
}
// Add Altitude of Current Location
// Unit: Meters
UiElement DeveloperUi::getAltitude(float gps_accuracy, float altitude) {
QString value = (gps_accuracy != 0.00) ? QString::number(altitude, 'f', 1) : "-";
QColor color = QColor(255, 255, 255, 255);
return UiElement(value, "ALT.", "m", color);
}
// Add Actuators Output
// Unit: Degree (angle) or m/s² (torque)
UiElement DeveloperUi::getActuatorsOutputLateral(cereal::CarParams::SteerControlType steerControlType,
cereal::CarControl::Actuators::Reader &actuators,
float desiredCurvature, float v_ego, float roll, bool lat_active, bool steer_override) {
QString label;
QString value;
QString unit;
if (steerControlType == cereal::CarParams::SteerControlType::ANGLE) {
label = "DESIRED STEER";
value = QString("%1%2%3").arg(QString::number(actuators.getSteeringAngleDeg(), 'f', 1)).arg("°").arg("");
} else {
label = "DESIRED L.A.";
double desiredLateralAccel = (desiredCurvature * pow(v_ego, 2)) - (roll * 9.81);
value = QString::number(desiredLateralAccel, 'f', 2);
unit = "m/s²";
}
value = lat_active ? value : "-";
QColor color = lat_active ? (steer_override ? QColor(0x91, 0x9b, 0x95, 0xff) : QColor(0, 255, 0, 255)) : QColor(255, 255, 255, 255);
return UiElement(value, label, unit, color);
}
@@ -0,0 +1,31 @@
/**
* Copyright (c) 2021-, Haibin Wen, sunnypilot, and a number of other contributors.
*
* This file is part of sunnypilot and is licensed under the MIT License.
* See the LICENSE.md file in the root directory for more details.
*/
#pragma once
#include "selfdrive/ui/qt/util.h"
#include "selfdrive/ui/sunnypilot/qt/onroad/developer_ui/ui_elements.h"
class DeveloperUi {
public:
static UiElement getDRel(bool lead_status, float lead_d_rel);
static UiElement getVRel(bool lead_status, float lead_v_rel, bool is_metric, const QString &speed_unit);
static UiElement getSteeringAngleDeg(float angle_steers, bool lat_active, bool steer_override);
static UiElement getActualLateralAccel(float curvature, float v_ego, float roll, bool lat_active, bool steer_override);
static UiElement getSteeringAngleDesiredDeg(bool lat_active, float steer_angle_desired, float angle_steers);
static UiElement getMemoryUsagePercent(int memory_usage_percent);
static UiElement getAEgo(float a_ego);
static UiElement getVEgoLead(bool lead_status, float lead_v_rel, float v_ego, bool is_metric, const QString &speed_unit);
static UiElement getFrictionCoefficientFiltered(float friction_coefficient_filtered, bool live_valid);
static UiElement getLatAccelFactorFiltered(float lat_accel_factor_filtered, bool live_valid);
static UiElement getSteeringTorqueEps(float steering_torque_eps);
static UiElement getBearingDeg(float bearing_accuracy_deg, float bearing_deg);
static UiElement getAltitude(float gps_accuracy, float altitude);
static UiElement getActuatorsOutputLateral(cereal::CarParams::SteerControlType steerControlType,
cereal::CarControl::Actuators::Reader &actuators,
float desiredCurvature, float v_ego, float roll, bool lat_active, bool steer_override);
};
@@ -0,0 +1,19 @@
/**
* Copyright (c) 2021-, Haibin Wen, sunnypilot, and a number of other contributors.
*
* This file is part of sunnypilot and is licensed under the MIT License.
* See the LICENSE.md file in the root directory for more details.
*/
#pragma once
#include <QColor>
struct UiElement {
QString value{};
QString label{};
QString units{};
QColor color{};
explicit UiElement(const QString &value = "", const QString &label = "", const QString &units = "", const QColor &color = QColor(255, 255, 255, 255))
: value(value), label(label), units(units), color(color) {}
};
+190
View File
@@ -7,12 +7,202 @@
#include "selfdrive/ui/sunnypilot/qt/onroad/hud.h"
#include "selfdrive/ui/qt/util.h"
HudRendererSP::HudRendererSP() {}
void HudRendererSP::updateState(const UIState &s) {
HudRenderer::updateState(s);
const SubMaster &sm = *(s.sm);
const bool cs_alive = sm.alive("controlsState");
const auto cs = sm["controlsState"].getControlsState();
const auto car_state = sm["carState"].getCarState();
const auto car_control = sm["carControl"].getCarControl();
const auto radar_state = sm["radarState"].getRadarState();
const auto is_gps_location_external = sm.rcv_frame("gpsLocationExternal") > 1;
const auto gpsLocation = is_gps_location_external ? sm["gpsLocationExternal"].getGpsLocationExternal() : sm["gpsLocation"].getGpsLocation();
const auto ltp = sm["liveTorqueParameters"].getLiveTorqueParameters();
const auto car_params = sm["carParams"].getCarParams();
static int reverse_delay = 0;
bool reverse_allowed = false;
if (int(car_state.getGearShifter()) != 4) {
reverse_delay = 0;
reverse_allowed = false;
} else {
reverse_delay += 50;
if (reverse_delay >= 1000) {
reverse_allowed = true;
}
}
reversing = reverse_allowed;
is_metric = s.scene.is_metric;
// Handle older routes where vEgoCluster is not set
v_ego_cluster_seen = v_ego_cluster_seen || car_state.getVEgoCluster() != 0.0;
float v_ego = v_ego_cluster_seen ? car_state.getVEgoCluster() : car_state.getVEgo();
speed = cs_alive ? std::max<float>(0.0, v_ego) : 0.0;
speed *= is_metric ? MS_TO_KPH : MS_TO_MPH;
latActive = car_control.getLatActive();
steerOverride = car_state.getSteeringPressed();
devUiInfo = s.scene.dev_ui_info;
speedUnit = is_metric ? tr("km/h") : tr("mph");
lead_d_rel = radar_state.getLeadOne().getDRel();
lead_v_rel = radar_state.getLeadOne().getVRel();
lead_status = radar_state.getLeadOne().getStatus();
steerControlType = car_params.getSteerControlType();
actuators = car_control.getActuators();
torqueLateral = steerControlType == cereal::CarParams::SteerControlType::TORQUE;
angleSteers = car_state.getSteeringAngleDeg();
desiredCurvature = cs.getDesiredCurvature();
curvature = cs.getCurvature();
roll = sm["liveParameters"].getLiveParameters().getRoll();
memoryUsagePercent = sm["deviceState"].getDeviceState().getMemoryUsagePercent();
gpsAccuracy = is_gps_location_external ? gpsLocation.getHorizontalAccuracy() : 1.0; // External reports accuracy, internal does not.
altitude = gpsLocation.getAltitude();
vEgo = car_state.getVEgo();
aEgo = car_state.getAEgo();
steeringTorqueEps = car_state.getSteeringTorqueEps();
bearingAccuracyDeg = gpsLocation.getBearingAccuracyDeg();
bearingDeg = gpsLocation.getBearingDeg();
torquedUseParams = ltp.getUseParams();
latAccelFactorFiltered = ltp.getLatAccelFactorFiltered();
frictionCoefficientFiltered = ltp.getFrictionCoefficientFiltered();
liveValid = ltp.getLiveValid();
}
void HudRendererSP::draw(QPainter &p, const QRect &surface_rect) {
HudRenderer::draw(p, surface_rect);
if (!reversing) {
// Bottom Dev UI
if (devUiInfo == 2) {
QRect rect_bottom(surface_rect.left(), surface_rect.bottom() - 60, surface_rect.width(), 61);
p.setPen(Qt::NoPen);
p.setBrush(QColor(0, 0, 0, 100));
p.drawRect(rect_bottom);
drawBottomDevUI(p, rect_bottom.left(), rect_bottom.center().y());
}
// Right Dev UI
if (devUiInfo != 0) {
QRect rect_right(surface_rect.right() - (UI_BORDER_SIZE * 2), UI_BORDER_SIZE * 1.5, 184, 170);
drawRightDevUI(p, surface_rect.right() - 184 - UI_BORDER_SIZE * 2, UI_BORDER_SIZE * 2 + rect_right.height());
}
}
}
void HudRendererSP::drawText(QPainter &p, int x, int y, const QString &text, QColor color) {
QRect real_rect = p.fontMetrics().boundingRect(text);
real_rect.moveCenter({x, y - real_rect.height() / 2});
p.setPen(color);
p.drawText(real_rect.x(), real_rect.bottom(), text);
}
int HudRendererSP::drawRightDevUIElement(QPainter &p, int x, int y, const QString &value, const QString &label, const QString &units, QColor &color) {
p.setFont(InterFont(28, QFont::Bold));
x += 92;
y += 80;
drawText(p, x, y, label);
p.setFont(InterFont(30 * 2, QFont::Bold));
y += 65;
drawText(p, x, y, value, color);
p.setFont(InterFont(28, QFont::Bold));
if (units.length() > 0) {
p.save();
x += 120;
y -= 25;
p.translate(x, y);
p.rotate(-90);
drawText(p, 0, 0, units);
p.restore();
}
return 130;
}
void HudRendererSP::drawRightDevUI(QPainter &p, int x, int y) {
int rh = 5;
int ry = y;
UiElement dRelElement = DeveloperUi::getDRel(lead_status, lead_d_rel);
rh += drawRightDevUIElement(p, x, ry, dRelElement.value, dRelElement.label, dRelElement.units, dRelElement.color);
ry = y + rh;
UiElement vRelElement = DeveloperUi::getVRel(lead_status, lead_v_rel, is_metric, speedUnit);
rh += drawRightDevUIElement(p, x, ry, vRelElement.value, vRelElement.label, vRelElement.units, vRelElement.color);
ry = y + rh;
UiElement steeringAngleDegElement = DeveloperUi::getSteeringAngleDeg(angleSteers, latActive, steerOverride);
rh += drawRightDevUIElement(p, x, ry, steeringAngleDegElement.value, steeringAngleDegElement.label, steeringAngleDegElement.units, steeringAngleDegElement.color);
ry = y + rh;
UiElement actuatorsOutputLateralElement = DeveloperUi::getActuatorsOutputLateral(steerControlType, actuators, desiredCurvature, vEgo, roll, latActive, steerOverride);
rh += drawRightDevUIElement(p, x, ry, actuatorsOutputLateralElement.value, actuatorsOutputLateralElement.label, actuatorsOutputLateralElement.units, actuatorsOutputLateralElement.color);
ry = y + rh;
UiElement actualLateralAccelElement = DeveloperUi::getActualLateralAccel(curvature, vEgo, roll, latActive, steerOverride);
rh += drawRightDevUIElement(p, x, ry, actualLateralAccelElement.value, actualLateralAccelElement.label, actualLateralAccelElement.units, actualLateralAccelElement.color);
}
int HudRendererSP::drawBottomDevUIElement(QPainter &p, int x, int y, const QString &value, const QString &label, const QString &units, QColor &color) {
p.setFont(InterFont(38, QFont::Bold));
QFontMetrics fm(p.font());
QRect init_rect = fm.boundingRect(label + " ");
QRect real_rect = fm.boundingRect(init_rect, 0, label + " ");
real_rect.moveCenter({x, y});
QRect init_rect2 = fm.boundingRect(value);
QRect real_rect2 = fm.boundingRect(init_rect2, 0, value);
real_rect2.moveTop(real_rect.top());
real_rect2.moveLeft(real_rect.right() + 10);
QRect init_rect3 = fm.boundingRect(units);
QRect real_rect3 = fm.boundingRect(init_rect3, 0, units);
real_rect3.moveTop(real_rect.top());
real_rect3.moveLeft(real_rect2.right() + 10);
p.setPen(Qt::white);
p.drawText(real_rect, Qt::AlignLeft | Qt::AlignVCenter, label);
p.setPen(color);
p.drawText(real_rect2, Qt::AlignRight | Qt::AlignVCenter, value);
p.drawText(real_rect3, Qt::AlignLeft | Qt::AlignVCenter, units);
return 430;
}
void HudRendererSP::drawBottomDevUI(QPainter &p, int x, int y) {
int rw = 90;
UiElement aEgoElement = DeveloperUi::getAEgo(aEgo);
rw += drawBottomDevUIElement(p, rw, y, aEgoElement.value, aEgoElement.label, aEgoElement.units, aEgoElement.color);
UiElement vEgoLeadElement = DeveloperUi::getVEgoLead(lead_status, lead_v_rel, vEgo, is_metric, speedUnit);
rw += drawBottomDevUIElement(p, rw, y, vEgoLeadElement.value, vEgoLeadElement.label, vEgoLeadElement.units, vEgoLeadElement.color);
if (torqueLateral && torquedUseParams) {
UiElement frictionCoefficientFilteredElement = DeveloperUi::getFrictionCoefficientFiltered(frictionCoefficientFiltered, liveValid);
rw += drawBottomDevUIElement(p, rw, y, frictionCoefficientFilteredElement.value, frictionCoefficientFilteredElement.label, frictionCoefficientFilteredElement.units, frictionCoefficientFilteredElement.color);
UiElement latAccelFactorFilteredElement = DeveloperUi::getLatAccelFactorFiltered(latAccelFactorFiltered, liveValid);
rw += drawBottomDevUIElement(p, rw, y, latAccelFactorFilteredElement.value, latAccelFactorFilteredElement.label, latAccelFactorFilteredElement.units, latAccelFactorFilteredElement.color);
} else {
UiElement steeringTorqueEpsElement = DeveloperUi::getSteeringTorqueEps(steeringTorqueEps);
rw += drawBottomDevUIElement(p, rw, y, steeringTorqueEpsElement.value, steeringTorqueEpsElement.label, steeringTorqueEpsElement.units, steeringTorqueEpsElement.color);
UiElement bearingDegElement = DeveloperUi::getBearingDeg(bearingAccuracyDeg, bearingDeg);
rw += drawBottomDevUIElement(p, rw, y, bearingDegElement.value, bearingDegElement.label, bearingDegElement.units, bearingDegElement.color);
}
UiElement altitudeElement = DeveloperUi::getAltitude(gpsAccuracy, altitude);
rw += drawBottomDevUIElement(p, rw, y, altitudeElement.value, altitudeElement.label, altitudeElement.units, altitudeElement.color);
}
+37 -2
View File
@@ -7,9 +7,8 @@
#pragma once
#include <QPainter>
#include "selfdrive/ui/qt/onroad/hud.h"
#include "selfdrive/ui/sunnypilot/qt/onroad/developer_ui/developer_ui.h"
class HudRendererSP : public HudRenderer {
Q_OBJECT
@@ -18,4 +17,40 @@ public:
HudRendererSP();
void updateState(const UIState &s) override;
void draw(QPainter &p, const QRect &surface_rect) override;
private:
Params params;
void drawText(QPainter &p, int x, int y, const QString &text, QColor color = Qt::white);
void drawRightDevUI(QPainter &p, int x, int y);
int drawRightDevUIElement(QPainter &p, int x, int y, const QString &value, const QString &label, const QString &units, QColor &color);
int drawBottomDevUIElement(QPainter &p, int x, int y, const QString &value, const QString &label, const QString &units, QColor &color);
void drawBottomDevUI(QPainter &p, int x, int y);
bool lead_status;
float lead_d_rel;
float lead_v_rel;
bool torqueLateral;
float angleSteers;
float desiredCurvature;
float curvature;
float roll;
int memoryUsagePercent;
int devUiInfo;
float gpsAccuracy;
float altitude;
float vEgo;
float aEgo;
float steeringTorqueEps;
float bearingAccuracyDeg;
float bearingDeg;
bool torquedUseParams;
float latAccelFactorFiltered;
float frictionCoefficientFiltered;
bool liveValid;
QString speedUnit;
bool latActive;
bool steerOverride;
bool reversing;
cereal::CarParams::SteerControlType steerControlType;
cereal::CarControl::Actuators::Reader actuators;
};
+13
View File
@@ -110,3 +110,16 @@ QStringList searchFromList(const QString &query, const QStringList &list) {
}
return search_results;
}
std::optional<cereal::Event::Reader> loadCerealEvent(Params& params, const std::string& _param) {
std::string bytes = params.get(_param);
try {
AlignedBuffer aligned_buf;
capnp::FlatArrayMessageReader cmsg(aligned_buf.align(bytes.data(), bytes.size()));
return cmsg.getRoot<cereal::Event>();
} catch (kj::Exception& e) {
qInfo() << "invalid " << QString::fromStdString(_param) << ":" << e.getDescription().cStr();
return std::nullopt;
}
}
+3
View File
@@ -15,8 +15,11 @@
#include <QRegularExpression>
#include <QWidget>
#include "selfdrive/ui/sunnypilot/ui.h"
QString getUserAgent(bool sunnylink = false);
std::optional<QString> getSunnylinkDongleId();
std::optional<QString> getParamIgnoringDefault(const std::string &param_name, const std::string &default_value);
QMap<QString, QVariantMap> loadPlatformList();
QStringList searchFromList(const QString &query, const QStringList &list);
std::optional<cereal::Event::Reader> loadCerealEvent(Params& params, const std::string& _param);
+15 -1
View File
@@ -18,13 +18,22 @@ UIStateSP::UIStateSP(QObject *parent) : UIState(parent) {
"modelV2", "controlsState", "liveCalibration", "radarState", "deviceState",
"pandaStates", "carParams", "driverMonitoringState", "carState", "driverStateV2",
"wideRoadCameraState", "managerState", "selfdriveState", "longitudinalPlan",
"modelManagerSP", "selfdriveStateSP", "longitudinalPlanSP", "backupManagerSP"
"modelManagerSP", "selfdriveStateSP", "longitudinalPlanSP", "backupManagerSP",
"carControl", "gpsLocationExternal", "gpsLocation", "liveTorqueParameters",
"carStateSP", "liveParameters"
});
// update timer
timer = new QTimer(this);
QObject::connect(timer, &QTimer::timeout, this, &UIStateSP::update);
timer->start(1000 / UI_FREQ);
// Param watcher for UIScene param updates
param_watcher = new ParamWatcher(this);
connect(param_watcher, &ParamWatcher::paramChanged, [=](const QString &param_name, const QString &param_value) {
ui_update_params_sp(this);
});
param_watcher->addParam("DevUIInfo");
}
// This method overrides completely the update method from the parent class intentionally.
@@ -39,6 +48,11 @@ void UIStateSP::update() {
emit uiUpdate(*this);
}
void ui_update_params_sp(UIStateSP *s) {
auto params = Params();
s->scene.dev_ui_info = std::atoi(params.get("DevUIInfo").c_str());
}
DeviceSP::DeviceSP(QObject *parent) : Device(parent) {
QObject::connect(uiStateSP(), &UIStateSP::uiUpdate, this, &DeviceSP::update);
QObject::connect(this, &Device::displayPowerChanged, this, &DeviceSP::handleDisplayPowerChanged);
+4
View File
@@ -13,6 +13,7 @@
#include "selfdrive/ui/sunnypilot/qt/network/sunnylink/models/role_model.h"
#include "selfdrive/ui/sunnypilot/qt/network/sunnylink/models/sponsor_role_model.h"
#include "selfdrive/ui/ui.h"
#include "selfdrive/ui/qt/util.h"
class UIStateSP : public UIState {
Q_OBJECT
@@ -73,6 +74,7 @@ private slots:
private:
std::vector<RoleModel> sunnylinkRoles = {};
std::vector<UserModel> sunnylinkUsers = {};
ParamWatcher *param_watcher;
};
UIStateSP *uiStateSP();
@@ -92,3 +94,5 @@ private:
DeviceSP *deviceSP();
inline DeviceSP *device() { return deviceSP(); }
void ui_update_params_sp(UIStateSP *s);
+12
View File
@@ -0,0 +1,12 @@
/**
* Copyright (c) 2021-, Haibin Wen, sunnypilot, and a number of other contributors.
*
* This file is part of sunnypilot and is licensed under the MIT License.
* See the LICENSE.md file in the root directory for more details.
*/
#pragma once
typedef struct UISceneSP : UIScene {
int dev_ui_info = 0;
} UISceneSP;
+5
View File
@@ -66,6 +66,11 @@ typedef struct UIScene {
uint64_t started_frame;
} UIScene;
#ifdef SUNNYPILOT
#include "sunnypilot/ui_scene.h"
#define UIScene UISceneSP
#endif
class UIState : public QObject {
Q_OBJECT
+4 -1
View File
@@ -177,7 +177,7 @@ def main(demo=False):
cloudlog.warning(f"connected extra cam with buffer size: {vipc_client_extra.buffer_len} ({vipc_client_extra.width} x {vipc_client_extra.height})")
# messaging
pm = PubMaster(["modelV2", "drivingModelData", "cameraOdometry"])
pm = PubMaster(["modelV2", "drivingModelData", "cameraOdometry", "modelDataV2SP"])
sm = SubMaster(["deviceState", "carState", "roadCameraState", "liveCalibration", "driverMonitoringState", "carControl", "liveDelay"])
publish_state = PublishState()
@@ -304,6 +304,7 @@ def main(demo=False):
modelv2_send = messaging.new_message('modelV2')
drivingdata_send = messaging.new_message('drivingModelData')
posenet_send = messaging.new_message('cameraOdometry')
mdv2sp_send = messaging.new_message('modelDataV2SP')
action = model.get_action_from_model(model_output, prev_action, long_delay + DT_MDL)
fill_model_msg(drivingdata_send, modelv2_send, model_output, action, publish_state, meta_main.frame_id, meta_extra.frame_id, frame_id,
frame_drop_ratio, meta_main.timestamp_eof, model_execution_time, live_calib_seen,
@@ -316,6 +317,7 @@ def main(demo=False):
DH.update(sm['carState'], sm['carControl'].latActive, lane_change_prob)
modelv2_send.modelV2.meta.laneChangeState = DH.lane_change_state
modelv2_send.modelV2.meta.laneChangeDirection = DH.lane_change_direction
mdv2sp_send.modelDataV2SP.laneTurnDirection = DH.lane_turn_direction
drivingdata_send.drivingModelData.meta.laneChangeState = DH.lane_change_state
drivingdata_send.drivingModelData.meta.laneChangeDirection = DH.lane_change_direction
@@ -323,6 +325,7 @@ def main(demo=False):
pm.send('modelV2', modelv2_send)
pm.send('drivingModelData', drivingdata_send)
pm.send('cameraOdometry', posenet_send)
pm.send('modelDataV2SP', mdv2sp_send)
last_vipc_frame_id = meta_main.frame_id
+31 -22
View File
@@ -27,7 +27,7 @@ from openpilot.sunnypilot.modeld.modeld_base import ModelStateBase
from openpilot.sunnypilot.models.helpers import get_active_bundle
from openpilot.sunnypilot.models.runners.helpers import get_model_runner
PROCESS_NAME = "selfdrive.modeld.modeld"
PROCESS_NAME = "selfdrive.modeld.modeld_tinygrad"
class FrameMeta:
@@ -77,42 +77,47 @@ class ModelState(ModelStateBase):
self.numpy_inputs[key] = np.zeros(shape, dtype=np.float32)
# Temporal input: shape is [batch, history, features]
if len(shape) == 3 and shape[1] > 1:
buffer_history_len = max(100, (shape[1] * 4 if shape[1] < 100 else shape[1])) # Allow for higher history buffers in the future
buffer_history_len = shape[1] * 4 if shape[1] < 99 else shape[1] # Allow for higher history buffers in the future
feature_len = shape[2]
self.temporal_buffers[key] = np.zeros((1, buffer_history_len, feature_len), dtype=np.float32)
features_buffer_shape = self.model_runner.input_shapes.get('features_buffer')
if shape[1] in (24, 25) and features_buffer_shape is not None and features_buffer_shape[1] == 24: # 20Hz
buffer_history_len = (features_buffer_shape[1] + 1) * 4
step = int(-buffer_history_len / shape[1])
self.temporal_idxs_map[key] = np.arange(step, step * (shape[1] + 1), step)[::-1]
elif shape[1] == 25: # Split
skip = buffer_history_len // shape[1]
self.temporal_idxs_map[key] = np.arange(buffer_history_len)[-1 - (skip * (shape[1] - 1))::skip]
elif shape[1] == buffer_history_len: # non20hz
self.temporal_idxs_map[key] = np.arange(buffer_history_len)
elif shape[1] >= 99: # non20hz
self.temporal_idxs_map[key] = np.arange(shape[1])
self.temporal_buffers[key] = np.zeros((1, buffer_history_len, feature_len), dtype=np.float32)
@property
def mlsim(self) -> bool:
return bool(self.generation is not None and self.generation >= 11)
@property
def desire_key(self) -> str:
return next(key for key in self.numpy_inputs if key.startswith('desire'))
def run(self, bufs: dict[str, VisionBuf], transforms: dict[str, np.ndarray],
inputs: dict[str, np.ndarray], prepare_only: bool) -> dict[str, np.ndarray] | None:
# Model decides when action is completed, so desire input is just a pulse triggered on rising edge
inputs['desire'][0] = 0
new_desire = np.where(inputs['desire'] - self.prev_desire > .99, inputs['desire'], 0)
self.prev_desire[:] = inputs['desire']
self.temporal_buffers['desire'][0,:-1] = self.temporal_buffers['desire'][0,1:]
self.temporal_buffers['desire'][0,-1] = new_desire
inputs[self.desire_key][0] = 0
new_desire = np.where(inputs[self.desire_key] - self.prev_desire > .99, inputs[self.desire_key], 0)
self.prev_desire[:] = inputs[self.desire_key]
self.temporal_buffers[self.desire_key][0,:-1] = self.temporal_buffers[self.desire_key][0,1:]
self.temporal_buffers[self.desire_key][0,-1] = new_desire
# Roll buffer and assign based on desire.shape[1] value
if self.temporal_buffers['desire'].shape[1] > self.numpy_inputs['desire'].shape[1]:
skip = self.temporal_buffers['desire'].shape[1] // self.numpy_inputs['desire'].shape[1]
self.numpy_inputs['desire'][:] = (
self.temporal_buffers['desire'][0].reshape(self.numpy_inputs['desire'].shape[0], self.numpy_inputs['desire'].shape[1], skip, -1).max(axis=2))
if self.temporal_buffers[self.desire_key].shape[1] > self.numpy_inputs[self.desire_key].shape[1]:
skip = self.temporal_buffers[self.desire_key].shape[1] // self.numpy_inputs[self.desire_key].shape[1]
self.numpy_inputs[self.desire_key][:] = (self.temporal_buffers[self.desire_key][0].reshape(
self.numpy_inputs[self.desire_key].shape[0], self.numpy_inputs[self.desire_key].shape[1], skip, -1).max(axis=2))
else:
self.numpy_inputs['desire'][:] = self.temporal_buffers['desire'][0, self.temporal_idxs_map['desire']]
self.numpy_inputs[self.desire_key][:] = self.temporal_buffers[self.desire_key][0, self.temporal_idxs_map[self.desire_key]]
for key in self.numpy_inputs:
if key in inputs and key not in ['desire']:
if key in inputs and key not in [self.desire_key]:
self.numpy_inputs[key][:] = inputs[key]
imgs_cl = {name: self.frames[name].prepare(bufs[name], transforms[name].flatten()) for name in self.model_runner.vision_input_names}
@@ -156,10 +161,11 @@ class ModelState(ModelStateBase):
desired_accel = smooth_value(desired_accel, prev_action.desiredAcceleration, self.LONG_SMOOTH_SECONDS)
desired_curvature = get_curvature_from_output(model_output, v_ego, lat_action_t, self.mlsim)
if v_ego > self.MIN_LAT_CONTROL_SPEED:
desired_curvature = smooth_value(desired_curvature, prev_action.desiredCurvature, self.LAT_SMOOTH_SECONDS)
else:
desired_curvature = prev_action.desiredCurvature
if self.generation is not None and self.generation >= 10: # smooth curvature for post FOF models
if v_ego > self.MIN_LAT_CONTROL_SPEED:
desired_curvature = smooth_value(desired_curvature, prev_action.desiredCurvature, self.LAT_SMOOTH_SECONDS)
else:
desired_curvature = prev_action.desiredCurvature
return log.ModelDataV2.Action(desiredCurvature=float(desired_curvature),desiredAcceleration=float(desired_accel), shouldStop=bool(should_stop))
@@ -202,7 +208,7 @@ def main(demo=False):
cloudlog.warning(f"connected extra cam with buffer size: {vipc_client_extra.buffer_len} ({vipc_client_extra.width} x {vipc_client_extra.height})")
# messaging
pm = PubMaster(["modelV2", "drivingModelData", "cameraOdometry"])
pm = PubMaster(["modelV2", "drivingModelData", "cameraOdometry", "modelDataV2SP"])
sm = SubMaster(["deviceState", "carState", "roadCameraState", "liveCalibration", "driverMonitoringState", "carControl", "liveDelay"])
publish_state = PublishState()
@@ -306,7 +312,7 @@ def main(demo=False):
bufs = {name: buf_extra if 'big' in name else buf_main for name in model.model_runner.vision_input_names}
transforms = {name: model_transform_extra if 'big' in name else model_transform_main for name in model.model_runner.vision_input_names}
inputs:dict[str, np.ndarray] = {
'desire': vec_desire,
model.desire_key: vec_desire,
'traffic_convention': traffic_convention,
}
@@ -322,6 +328,7 @@ def main(demo=False):
modelv2_send = messaging.new_message('modelV2')
drivingdata_send = messaging.new_message('drivingModelData')
posenet_send = messaging.new_message('cameraOdometry')
mdv2sp_send = messaging.new_message('modelDataV2SP')
action = model.get_action_from_model(model_output, prev_action, lat_delay + DT_MDL, long_delay + DT_MDL, v_ego)
prev_action = action
@@ -336,6 +343,7 @@ def main(demo=False):
DH.update(sm['carState'], sm['carControl'].latActive, lane_change_prob)
modelv2_send.modelV2.meta.laneChangeState = DH.lane_change_state
modelv2_send.modelV2.meta.laneChangeDirection = DH.lane_change_direction
mdv2sp_send.modelDataV2SP.laneTurnDirection = DH.lane_turn_direction
drivingdata_send.drivingModelData.meta.laneChangeState = DH.lane_change_state
drivingdata_send.drivingModelData.meta.laneChangeDirection = DH.lane_change_direction
@@ -343,6 +351,7 @@ def main(demo=False):
pm.send('modelV2', modelv2_send)
pm.send('drivingModelData', drivingdata_send)
pm.send('cameraOdometry', posenet_send)
pm.send('modelDataV2SP', mdv2sp_send)
last_vipc_frame_id = meta_main.frame_id
@@ -8,12 +8,16 @@ import openpilot.sunnypilot.modeld_v2.modeld as modeld_module
ModelState = modeld_module.ModelState
# These are the shapes extracted/loaded from the model onnx
SHAPE_MODE_PARAMS = [
({'desire': (1, 25, 8), 'features_buffer': (1, 25, 512), 'prev_desired_curv': (1, 25, 1)}, 'split'),
({'desire': (1, 25, 8), 'features_buffer': (1, 24, 512), 'prev_desired_curv': (1, 25, 1)}, '20hz'),
({'desire': (1, 100, 8), 'features_buffer': (1, 99, 512), 'prev_desired_curv': (1, 100, 1)}, 'non20hz'),
({'desire': (1, 100, 8), 'features_buffer': (1, 99, 512), "nav_features": (1, 256), "nav_instructions": (1, 150)}, 'non20hz'), # Optimus Prime
({'desire': (1, 100, 8), 'features_buffer': (1, 99, 512), "lat_planner_state": (1, 4),}, 'non20hz'), # farmville
({'desire': (1, 100, 8), 'features_buffer': (1, 99, 512), "lateral_control_params": (1, 2), "prev_desired_curv": (1, 100, 1)}, 'non20hz'), # wd40
({'desire': (1, 100, 8), 'features_buffer': (1, 99, 512), 'prev_desired_curv': (1, 100, 1), "lateral_control_params": (1, 2),}, 'non20hz'), # NTS
({'desire': (1, 25, 8), 'features_buffer': (1, 24, 512)}, '20hz'), # NPR
({'desire': (1, 100, 8), 'features_buffer': (1, 99, 512), 'prev_desired_curv': (1, 100, 1), "lateral_control_params": (1, 2),}, 'non20hz'), # NTS
({'desire': (1, 25, 8), 'features_buffer': (1, 25, 512)}, 'split'), # Steam Powered v2
({'desire_pulse': (1, 25, 8), 'features_buffer': (1, 25, 512)}, 'split'), # desire rename
]
@@ -95,9 +99,7 @@ def get_expected_indices(shape, constants, mode, key=None):
idxs = np.arange(step_size, step_size * (num_elements + 1), step_size)[::-1]
return idxs
elif mode == 'non20hz':
if key and shape[1] == constants.FULL_HISTORY_BUFFER_LEN:
return np.arange(constants.FULL_HISTORY_BUFFER_LEN)
return None
return np.arange(shape[1])
return None
@@ -108,6 +110,8 @@ def test_buffer_shapes_and_indices(shapes, mode, apply_patches):
for key in shapes:
buf = state.temporal_buffers.get(key, None)
idxs = state.temporal_idxs_map.get(key, None)
if buf is None:
continue # not all shapes are 3D, and the non-3D ones are not buffered
# Buffer shape logic
if mode == 'split':
expected_shape = (1, constants.FULL_HISTORY_BUFFER_LEN, shapes[key][2])
@@ -116,10 +120,7 @@ def test_buffer_shapes_and_indices(shapes, mode, apply_patches):
expected_shape = (1, constants.FULL_HISTORY_BUFFER_LEN, shapes[key][2])
expected_idxs = get_expected_indices(shapes[key], constants, '20hz', key)
elif mode == 'non20hz':
if key == 'features_buffer':
expected_shape = (1, shapes[key][1]*4, shapes[key][2])
else:
expected_shape = (1, shapes[key][1], shapes[key][2])
expected_shape = (1, shapes[key][1], shapes[key][2])
expected_idxs = get_expected_indices(shapes[key], constants, 'non20hz', key)
assert buf is not None, f"{key}: buffer not found"
@@ -130,10 +131,10 @@ def test_buffer_shapes_and_indices(shapes, mode, apply_patches):
assert idxs is None or idxs.size == 0, f"{key}: buffer idxs should be None or empty"
def legacy_buffer_update(buf, new_val, mode, key, constants, idxs):
def legacy_buffer_update(buf, new_val, mode, key, constants, idxs, input_shape, prev_desire=None):
# This is what we compare the new dynamic logic to, to ensure it does the same thing
if mode == 'split':
if key == 'desire':
if key == 'desire' or key.startswith('desire'):
buf[0,:-1] = buf[0,1:]
buf[0,-1] = new_val
return buf.reshape((1, constants.INPUT_HISTORY_BUFFER_LEN, constants.TEMPORAL_SKIP, -1)).max(axis=2)
@@ -173,15 +174,22 @@ def legacy_buffer_update(buf, new_val, mode, key, constants, idxs):
return legacy_buf[idxs]
elif mode == 'non20hz':
if key == 'desire':
length = new_val.shape[0]
buf[0,:-1,:length] = buf[0,1:,:length]
buf[0,-1,:length] = new_val[:length]
desire_len = constants.DESIRE_LEN
if prev_desire is None:
prev_desire = np.zeros(desire_len, dtype=np.float32)
# Set first element to zero
new_val = new_val.copy()
new_val[0] = 0
# Shift buffer by desire len
buf[0][:-desire_len] = buf[0][desire_len:]
# Only insert new desire if rising edge
buf[0][-desire_len:] = np.where(new_val - prev_desire > 0.99, new_val, 0)
prev_desire[:] = new_val
return buf[0]
elif key == 'features_buffer':
feature_len = new_val.shape[0]
buf[0,:-1,:feature_len] = buf[0,1:,:feature_len]
buf[0,-1,:feature_len] = new_val[:feature_len]
return buf[0]
buf[0, :-1] = buf[0, 1:]
buf[0, -1] = new_val
return buf[0, -input_shape[1]:] # (99, 512)
elif key == 'prev_desired_curv':
length = new_val.shape[0]
buf[0,:-length,0] = buf[0,length:,0]
@@ -191,32 +199,18 @@ def legacy_buffer_update(buf, new_val, mode, key, constants, idxs):
def dynamic_buffer_update(state, key, new_val, mode):
if key == 'desire':
state.temporal_buffers['desire'][0,:-1] = state.temporal_buffers['desire'][0,1:]
state.temporal_buffers['desire'][0,-1] = new_val
if state.temporal_buffers['desire'].shape[1] > state.numpy_inputs['desire'].shape[1]:
skip = state.temporal_buffers['desire'].shape[1] // state.numpy_inputs['desire'].shape[1]
return state.temporal_buffers['desire'][0].reshape(
state.numpy_inputs['desire'].shape[0], state.numpy_inputs['desire'].shape[1], skip, -1
).max(axis=2)
else:
return state.temporal_buffers['desire'][0, state.temporal_idxs_map['desire']]
inputs = {'desire': np.zeros((1, state.constants.DESIRE_LEN), dtype=np.float32)}
for k, tb in state.temporal_buffers.items():
if k in state.temporal_idxs_map:
continue
buf_len = tb.shape[1]
if k in state.numpy_inputs:
out_len = state.numpy_inputs[k].shape[1]
if out_len <= buf_len:
state.temporal_idxs_map[k] = np.arange(buf_len)[-out_len:]
else:
state.temporal_idxs_map[k] = np.arange(buf_len)
else:
state.temporal_idxs_map[k] = np.arange(buf_len)
if key == 'desire' or key.startswith('desire'):
inputs = {k: np.zeros(v[2], dtype=np.float32) if len(v) == 3 else np.zeros(v[1], dtype=np.float32)
for k, v in state.model_runner.input_shapes.items() if k != key}
inputs[key] = new_val.copy()
# ModelState.run expects desire as a pulse, so we zero the first element.
inputs[key][0] = 0
state.run({}, {}, inputs, prepare_only=False)
return state.numpy_inputs[key]
if key == 'features_buffer':
inputs = {k: np.zeros(v[2], dtype=np.float32) if len(v) == 3 else np.zeros(v[1], dtype=np.float32)
for k, v in state.model_runner.input_shapes.items() if k != 'features_buffer'}
def run_model_stub():
return {
'hidden_state': np.asarray(new_val, dtype=np.float32).reshape(1, -1),
@@ -226,6 +220,8 @@ def dynamic_buffer_update(state, key, new_val, mode):
return state.numpy_inputs['features_buffer'][0]
if key == 'prev_desired_curv':
inputs = {k: np.zeros(v[2], dtype=np.float32) if len(v) == 3 else np.zeros(v[1], dtype=np.float32)
for k, v in state.model_runner.input_shapes.items() if k != 'prev_desired_curv'}
def run_model_stub():
return {
'hidden_state': np.zeros((1, state.constants.FEATURE_LEN), dtype=np.float32),
@@ -241,16 +237,27 @@ def dynamic_buffer_update(state, key, new_val, mode):
@pytest.mark.parametrize("key", ["desire", "features_buffer", "prev_desired_curv"])
def test_buffer_update_equivalence(shapes, mode, key, apply_patches):
state = ModelState(None)
if key == "desire":
desire_keys = [k for k in shapes.keys() if k.startswith('desire')]
if desire_keys:
actual_key = desire_keys[0] # Use the first (and likely only) desire key
else:
actual_key = key
if actual_key not in state.numpy_inputs:
pytest.skip()
constants = DummyModelRunner(shapes).constants
buf = state.temporal_buffers.get(key, None)
idxs = state.temporal_idxs_map.get(key, None)
input_shape = shapes[key]
buf = state.temporal_buffers.get(actual_key, None)
idxs = state.temporal_idxs_map.get(actual_key, None)
input_shape = shapes[actual_key]
prev_desire = np.zeros(constants.DESIRE_LEN, dtype=np.float32) if key == 'desire' else None
for step in range(20): # multiple steps to ensure history is built up
new_val = np.full((input_shape[2],), step, dtype=np.float32)
expected = legacy_buffer_update(buf, new_val, mode, key, constants, idxs)
actual = dynamic_buffer_update(state, key, new_val, mode)
# Model returns the reduced numpy_inputs history, compare the last n entries so the test is checking the same slices.
expected = legacy_buffer_update(buf, new_val, mode, actual_key, constants, idxs, input_shape, prev_desire)
actual = dynamic_buffer_update(state, actual_key, new_val, mode)
if expected is not None and actual is not None and expected.shape != actual.shape:
if expected.ndim == 2 and actual.ndim == 2 and expected.shape[1] == actual.shape[1]:
expected = expected[-actual.shape[0]:]
assert np.allclose(actual, expected), f"{mode} {key}: dynamic buffer update does not match legacy logic"
assert np.allclose(actual, expected), f"{mode} {actual_key}: dynamic buffer update does not match legacy logic"
+31 -13
View File
@@ -8,6 +8,7 @@ See the LICENSE.md file in the root directory for more details.
import time
import requests
from requests.exceptions import (SSLError, RequestException, HTTPError)
from openpilot.common.params import Params
from openpilot.common.swaglog import cloudlog
from sunnypilot.models.helpers import is_bundle_version_compatible
@@ -122,19 +123,36 @@ class ModelFetcher:
self.model_cache = ModelCache(params)
self.model_parser = ModelParser()
def _fetch_and_cache_models(self) -> list[custom.ModelManagerSP.ModelBundle]:
"""Fetches fresh model data from remote and updates cache"""
def _fetch_and_cache_models(self) -> list[custom.ModelManagerSP.ModelBundle] | None:
"""Fetches fresh model data from remote and updates cache.
Returns None on transport errors. Raises on 404 and other fatal HTTP errors.
"""
try:
response = requests.get(self.MODEL_URL, timeout=10)
response.raise_for_status()
json_data = response.json()
# Explicitly handle 404 differently
if response.status_code == 404:
cloudlog.error(f"Models URL returned 404 Not Found: {self.MODEL_URL}")
raise HTTPError(f"404 Not Found: {self.MODEL_URL}", response=response)
# Raise for any other 4xx/5xx
response.raise_for_status()
json_data = response.json()
self.model_cache.set(json_data)
cloudlog.debug("Successfully updated models cache")
return self.model_parser.parse_models(json_data)
except Exception:
cloudlog.exception("Error fetching models")
raise
except ConnectionError as e:
cloudlog.warning(f"DNS/connection error while fetching models: {e}")
except SSLError as e:
cloudlog.warning(f"SSL error while fetching models: {e}")
except RequestException as e:
cloudlog.warning(f"Request transport error while fetching models: {e}")
except Exception as e:
cloudlog.exception(f"Unexpected error fetching models: {e}")
return None
def get_available_bundles(self) -> list[custom.ModelManagerSP.ModelBundle]:
"""Gets the list of available models, with smart cache handling"""
@@ -144,12 +162,12 @@ class ModelFetcher:
cloudlog.debug("Using valid cached models data")
return self.model_parser.parse_models(cached_data)
try:
return self._fetch_and_cache_models()
except Exception:
if not cached_data:
cloudlog.exception("Failed to fetch fresh data and no cache available")
raise
fetched_bundles = self._fetch_and_cache_models()
if fetched_bundles is not None:
return fetched_bundles
if not cached_data:
cloudlog.warning("Failed to fetch fresh data and no cache available")
cloudlog.warning("Failed to fetch fresh data. Using expired cache as fallback")
return self.model_parser.parse_models(cached_data)
+1 -1
View File
@@ -19,7 +19,7 @@ from openpilot.system.hardware.hw import Paths
from pathlib import Path
# see the README.md for more details on the model selector versioning
CURRENT_SELECTOR_VERSION = 9
CURRENT_SELECTOR_VERSION = 10
REQUIRED_MIN_SELECTOR_VERSION = 9
USE_ONNX = os.getenv('USE_ONNX', PC)
@@ -0,0 +1,45 @@
"""
Copyright (c) 2021-, Haibin Wen, sunnypilot, and a number of other contributors.
This file is part of sunnypilot and is licensed under the MIT License.
See the LICENSE.md file in the root directory for more details.
"""
from cereal import custom
from openpilot.common.constants import CV
from openpilot.common.params import Params
LANE_CHANGE_SPEED_MIN = 20 * CV.MPH_TO_MS
class LaneTurnController:
def __init__(self, desire_helper):
self.DH = desire_helper
self.turn_direction = custom.TurnDirection.none
self.params = Params()
self.lane_turn_value = float(self.params.get("LaneTurnValue", return_default=True)) * CV.MPH_TO_MS
self.param_read_counter = 0
self.enabled = self.params.get_bool("LaneTurnDesire")
def read_params(self):
self.enabled = self.params.get_bool("LaneTurnDesire")
value = float(self.params.get("LaneTurnValue", return_default=True)) * CV.MPH_TO_MS
self.lane_turn_value = min(float(LANE_CHANGE_SPEED_MIN), value)
def update_params(self) -> None:
if self.param_read_counter % 50 == 0:
self.read_params()
self.param_read_counter += 1
def update_lane_turn(self, blindspot_left: bool, blindspot_right: bool, left_blinker: bool, right_blinker: bool, v_ego: float) -> None:
if left_blinker and not right_blinker and v_ego < self.lane_turn_value and not blindspot_left:
self.turn_direction = custom.TurnDirection.turnLeft
elif right_blinker and not left_blinker and v_ego < self.lane_turn_value and not blindspot_right:
self.turn_direction = custom.TurnDirection.turnRight
else:
self.turn_direction = custom.TurnDirection.none
def get_turn_direction(self):
if not self.enabled:
return custom.TurnDirection.none
return self.turn_direction
@@ -0,0 +1,113 @@
import pytest
from cereal import log
from openpilot.common.params import Params
from openpilot.selfdrive.controls.lib.desire_helper import DesireHelper
from openpilot.sunnypilot.selfdrive.controls.lib.lane_turn_desire import LaneTurnController, LANE_CHANGE_SPEED_MIN
from openpilot.sunnypilot.selfdrive.controls.lib.auto_lane_change import AutoLaneChangeMode
class TurnDirection:
none = 0
turnLeft = 1
turnRight = 2
@pytest.mark.parametrize("left_blinker,right_blinker,v_ego,blindspot_left,blindspot_right,expected", [
(True, False, 5, False, False, TurnDirection.turnLeft),
(False, True, 6, False, False, TurnDirection.turnRight),
(True, False, 9, False, False, TurnDirection.none),
(True, False, 7, True, False, TurnDirection.none),
(False, True, 6, False, True, TurnDirection.none),
(False, False, 5, False, False, TurnDirection.none),
(True, True, 5, False, False, TurnDirection.none),
])
def test_lane_turn_desire_conditions(left_blinker, right_blinker, v_ego, blindspot_left, blindspot_right, expected):
dh = DesireHelper()
controller = LaneTurnController(dh)
controller.enabled = True
controller.lane_turn_value = LANE_CHANGE_SPEED_MIN
controller.turn_direction = TurnDirection.none
controller.update_lane_turn(blindspot_left, blindspot_right, left_blinker, right_blinker, v_ego)
assert controller.get_turn_direction() == expected
def test_lane_turn_desire_disabled():
dh = DesireHelper()
controller = LaneTurnController(dh)
controller.enabled = False
controller.lane_turn_value = LANE_CHANGE_SPEED_MIN
controller.turn_direction = TurnDirection.none
controller.update_lane_turn(False, False, True, False, 7)
assert controller.get_turn_direction() == TurnDirection.none
def test_lane_turn_overrides_lane_change():
dh = DesireHelper()
controller = LaneTurnController(dh)
controller.enabled = True
controller.lane_turn_value = LANE_CHANGE_SPEED_MIN
controller.turn_direction = TurnDirection.none
# left turn desire
controller.update_lane_turn(False, False, True, False, 5)
assert controller.get_turn_direction() == TurnDirection.turnLeft
# right turn desire
controller.update_lane_turn(False, False, False, True, 6)
assert controller.get_turn_direction() == TurnDirection.turnRight
# no turn
controller.update_lane_turn(False, False, False, False, 7)
assert controller.get_turn_direction() == TurnDirection.none
@pytest.mark.parametrize("v_ego,expected", [
(8.93, TurnDirection.turnLeft), # just below threshold
(8.96, TurnDirection.none), # above threshold
(8.95, TurnDirection.none), # just above threshold
])
def test_lane_turn_desire_speed_boundary(v_ego, expected):
dh = DesireHelper()
controller = LaneTurnController(dh)
controller.enabled = True
controller.lane_turn_value = LANE_CHANGE_SPEED_MIN
controller.turn_direction = TurnDirection.none
controller.update_lane_turn(False, True, True, False, v_ego)
assert controller.get_turn_direction() == expected
class DummyCarState:
def __init__(self, vEgo=0, leftBlinker=False, rightBlinker=False, leftBlindspot=False, rightBlindspot=False,
steeringPressed=False, steeringTorque=0, brakePressed=False):
self.vEgo = vEgo
self.leftBlinker = leftBlinker
self.rightBlinker = rightBlinker
self.leftBlindspot = leftBlindspot
self.rightBlindspot = rightBlindspot
self.steeringPressed = steeringPressed
self.steeringTorque = steeringTorque
self.brakePressed = brakePressed
@pytest.fixture
def set_lane_turn_params():
params = Params()
params.put("LaneTurnDesire", True)
params.put("LaneTurnValue", 20.0)
@pytest.mark.parametrize("carstate, lateral_active, lane_change_prob, expected_desire", [
# Lane turn desire overrides lane change desire
(DummyCarState(vEgo=5, leftBlinker=True, rightBlinker=False, leftBlindspot=False, rightBlindspot=False), True, 1.0, log.Desire.turnLeft),
(DummyCarState(vEgo=7, leftBlinker=False, rightBlinker=True, leftBlindspot=False, rightBlindspot=False), True, 1.0, log.Desire.turnRight),
# Lane change desire only (no turn desires)
(DummyCarState(vEgo=9, leftBlinker=True, rightBlinker=False, leftBlindspot=False, rightBlindspot=False,
steeringPressed=True, steeringTorque=1), True, 1.0, log.Desire.laneChangeLeft),
(DummyCarState(vEgo=9, leftBlinker=False, rightBlinker=True, leftBlindspot=False, rightBlindspot=False,
steeringPressed=True, steeringTorque=-1), True, 1.0, log.Desire.laneChangeRight),
# No desire (inactive)
(DummyCarState(vEgo=9, leftBlinker=False, rightBlinker=False), False, 1.0, log.Desire.none),
(DummyCarState(vEgo=4, leftBlinker=False, rightBlinker=False), True, 1.0, log.Desire.none), # No blinkers? no desire!
])
def test_desire_helper_integration(carstate, lateral_active, lane_change_prob, expected_desire, set_lane_turn_params):
dh = DesireHelper()
dh.alc.lane_change_set_timer = AutoLaneChangeMode.NUDGE
for _ in range(10):
dh.update(carstate, lateral_active, lane_change_prob)
assert dh.desire == expected_desire # The first four tests were unit tests to test the controller, where this tests the integration in desire helpers
+16 -1
View File
@@ -132,6 +132,21 @@ EVENTS_SP: dict[int, dict[str, Alert | AlertCallbackType]] = {
EventNameSP.pedalPressedAlertOnly: {
ET.WARNING: NoEntryAlert("Pedal Pressed")
}
},
EventNameSP.laneTurnLeft: {
ET.WARNING: Alert(
"Turning Left",
"",
AlertStatus.normal, AlertSize.small,
Priority.LOW, VisualAlert.none, AudibleAlert.none, 1.),
},
EventNameSP.laneTurnRight: {
ET.WARNING: Alert(
"Turning Right",
"",
AlertStatus.normal, AlertSize.small,
Priority.LOW, VisualAlert.none, AudibleAlert.none, 1.),
}
}
+46 -28
View File
@@ -3,7 +3,9 @@
from __future__ import annotations
import base64
import errno
import gzip
import json
import os
import ssl
import threading
@@ -17,11 +19,11 @@ from openpilot.common.swaglog import cloudlog
from openpilot.system.athena.athenad import ws_send, jsonrpc_handler, \
recv_queue, UploadQueueCache, upload_queue, cur_upload_items, backoff, ws_manage, log_handler, start_local_proxy_shim, upload_handler
from websocket import (ABNF, WebSocket, WebSocketException, WebSocketTimeoutException,
create_connection)
create_connection, WebSocketConnectionClosedException)
import cereal.messaging as messaging
from sunnypilot.sunnylink.api import SunnylinkApi
from sunnypilot.sunnylink.utils import sunnylink_need_register, sunnylink_ready
from sunnypilot.sunnylink.utils import sunnylink_need_register, sunnylink_ready, get_param_as_byte, save_param_from_base64_encoded_string
SUNNYLINK_ATHENA_HOST = os.getenv('SUNNYLINK_ATHENA_HOST', 'wss://ws.stg.api.sunnypilot.ai')
HANDLER_THREADS = int(os.getenv('HANDLER_THREADS', "4"))
@@ -107,10 +109,13 @@ def ws_recv(ws: WebSocket, end_event: threading.Event) -> None:
except WebSocketTimeoutException:
ns_since_last_ping = int(time.monotonic() * 1e9) - last_ping
if ns_since_last_ping > SUNNYLINK_RECONNECT_TIMEOUT_S * 1e9:
cloudlog.exception("sunnylinkd.ws_recv.timeout")
cloudlog.warning("sunnylinkd.ws_recv.timeout")
end_event.set()
except Exception:
cloudlog.exception("sunnylinkd.ws_recv.exception")
except Exception as e:
if isinstance(e, WebSocketConnectionClosedException):
cloudlog.warning(f"sunnylinkd.ws_recv.{type(e).__name__}")
else:
cloudlog.exception("sunnylinkd.ws_recv.exception")
end_event.set()
@@ -137,11 +142,15 @@ def ws_queue(end_event: threading.Event) -> None:
sunnylink_api.resume_queued(timeout=29)
resume_requested = True
tries = 0
except Exception:
cloudlog.exception("sunnylinkd.ws_queue.resume_queued.exception")
except Exception as e:
if isinstance(e, (ConnectionError, TimeoutError)):
cloudlog.warning(f"sunnylinkd.ws_queue.resume_queued.{type(e).__name__}")
else:
cloudlog.exception("sunnylinkd.ws_queue.resume_queued.exception")
resume_requested = False
tries += 1
time.sleep(backoff(tries)) # Wait for the backoff time before the next attempt
time.sleep(backoff(tries))
if end_event.is_set():
cloudlog.debug("end_event is set, exiting ws_queue thread")
@@ -171,16 +180,26 @@ def getParamsAllKeys() -> list[str]:
@dispatcher.add_method
def getParams(params_keys: list[str], compression: bool = False) -> str | dict[str, str]:
params = Params()
try:
params = Params()
params_dict: dict[str, bytes] = {key: params.get(key) or b'' for key in params_keys}
param_keys_validated = [key for key in params_keys if key in getParamsAllKeys()]
params_dict: dict[str, list[dict[str, str | bool | int]]] = {"params": []}
for key in param_keys_validated:
value = get_param_as_byte(key)
if value is None:
continue
# Compress the values before encoding to base64 as output from params.get is bytes and same for compression
if compression:
params_dict = {key: gzip.compress(value) for key, value in params_dict.items()}
params_dict["params"].append({
"key": key,
"value": base64.b64encode(gzip.compress(value) if compression else value).decode('utf-8'),
"type": int(params.get_type(key).value),
"is_compressed": compression
})
# Last step is to encode the values to base64 and decode to utf-8 for JSON serialization
return {key: base64.b64encode(value).decode('utf-8') for key, value in params_dict.items()}
response = {str(param.get('key')): str(param.get('value')) for param in params_dict.get("params", [])}
response |= {"params": json.dumps(params_dict.get("params", []))} # Upcoming for settings v1
return response
except Exception as e:
cloudlog.exception("sunnylinkd.getParams.exception", e)
@@ -189,15 +208,9 @@ def getParams(params_keys: list[str], compression: bool = False) -> str | dict[s
@dispatcher.add_method
def saveParams(params_to_update: dict[str, str], compression: bool = False) -> None:
params = Params()
params_dict = {key: base64.b64decode(value) for key, value in params_to_update.items()}
if compression:
params_dict = {key: gzip.decompress(value) for key, value in params_dict.items()}
for key, value in params_dict.items():
for key, value in params_to_update.items():
try:
params.put(key, value)
save_param_from_base64_encoded_string(key, value, compression)
except Exception as e:
cloudlog.error(f"sunnylinkd.saveParams.exception {e}")
@@ -252,14 +265,19 @@ def main(exit_event: threading.Event = None):
handle_long_poll(ws, exit_event)
except (KeyboardInterrupt, SystemExit):
break
except (ConnectionError, TimeoutError, WebSocketException):
except Exception as e:
conn_retries += 1
params.remove("LastSunnylinkPingTime")
except Exception:
cloudlog.exception("sunnylinkd.main.exception")
conn_retries += 1
params.remove("LastSunnylinkPingTime")
if isinstance(e, (ConnectionError, TimeoutError, WebSocketException)):
cloudlog.warning(f"sunnylinkd.main.{type(e).__name__}")
elif isinstance(e, OSError):
name = errno.errorcode.get(e.errno or -1, "UNKNOWN")
msg = f"sunnylinkd.main.OSError.{name} ({e.errno})"
is_expected_error = e.errno in (errno.ENETDOWN, errno.ENETRESET, errno.ENETUNREACH)
cloudlog.warning(msg) if is_expected_error else cloudlog.exception(msg)
else:
cloudlog.exception("sunnylinkd.main.exception")
time.sleep(backoff(conn_retries))
+11 -26
View File
@@ -12,7 +12,7 @@ from enum import Enum
from typing import Any
from openpilot.common.git import get_branch
from openpilot.common.params import Params, ParamKeyType, ParamKeyFlag
from openpilot.common.params import Params, ParamKeyFlag
from openpilot.common.realtime import Ratekeeper
from openpilot.common.swaglog import cloudlog
from openpilot.system.version import get_version
@@ -20,6 +20,7 @@ from openpilot.system.version import get_version
from cereal import messaging, custom
from sunnypilot.sunnylink.api import SunnylinkApi
from sunnypilot.sunnylink.backups.utils import decrypt_compressed_data, encrypt_compress_data, SnakeCaseEncoder
from sunnypilot.sunnylink.utils import get_param_as_byte, save_param_from_base64_encoded_string
class OperationType(Enum):
@@ -74,7 +75,7 @@ class BackupManagerSP:
config_data = {}
params_to_backup = [k.decode('utf-8') for k in self.params.all_keys(ParamKeyFlag.BACKUP)]
for param in params_to_backup:
value = str(self.params.get(param)).encode('utf-8')
value = get_param_as_byte(param)
if value is not None:
config_data[param] = base64.b64encode(value).decode('utf-8')
return config_data
@@ -113,6 +114,7 @@ class BackupManagerSP:
payload = json.loads(json.dumps(backup_info.to_dict(), cls=SnakeCaseEncoder))
self._update_progress(75.0, OperationType.BACKUP)
cloudlog.debug(f"Uploading backup with payload: {json.dumps(payload)}")
# Upload to sunnylink
result = self.api.api_get(
f"backup/{self.device_id}",
@@ -124,9 +126,11 @@ class BackupManagerSP:
if result:
self.backup_status = custom.BackupManagerSP.Status.completed
self._update_progress(100.0, OperationType.BACKUP)
cloudlog.info("Backup successfully created and uploaded")
else:
self.backup_status = custom.BackupManagerSP.Status.failed
self.last_error = "Failed to upload backup"
cloudlog.error(result)
self._report_status()
return bool(self.backup_status == custom.BackupManagerSP.Status.completed)
@@ -169,8 +173,7 @@ class BackupManagerSP:
self._update_progress(75.0, OperationType.RESTORE)
# Apply configuration
all_values_encoded = self._get_metadata_value(backup_metadata, "all_values_encoded", "false")
self._apply_config(config_data, str(all_values_encoded).lower() == "true")
self._apply_config(config_data)
self.restore_status = custom.BackupManagerSP.Status.completed
self._update_progress(100.0, OperationType.RESTORE)
@@ -183,7 +186,7 @@ class BackupManagerSP:
self._report_status()
return False
def _apply_config(self, config_data: dict[str, str], all_values_encoded: bool = False) -> None:
def _apply_config(self, config_data: dict[str, str]) -> None:
"""Applies configuration data from a backup, but only for parameters marked as backupable."""
backupable_params = [k.decode('utf-8') for k in self.params.all_keys(ParamKeyFlag.BACKUP)]
backupable_set_lower = {p.lower() for p in backupable_params}
@@ -195,26 +198,8 @@ class BackupManagerSP:
if param.lower() in backupable_set_lower:
# Find real param name (with correct casing)
real_param = next(p for p in backupable_params if p.lower() == param.lower())
param_type = self.params.get_type(real_param)
try:
value = base64.b64decode(encoded_value) if all_values_encoded else encoded_value
if param_type != ParamKeyType.BYTES:
value = value.decode('utf-8') # type: ignore
if param_type == ParamKeyType.STRING:
value = value
elif param_type == ParamKeyType.BOOL:
value = value.lower() in ('true', '1', 'yes') # type: ignore
elif param_type == ParamKeyType.INT:
value = int(value) # type: ignore
elif param_type == ParamKeyType.FLOAT:
value = float(value) # type: ignore
elif param_type == ParamKeyType.TIME:
value = str(value)
elif param_type == ParamKeyType.JSON:
value = json.loads(value)
self.params.put(real_param, value)
save_param_from_base64_encoded_string(real_param, encoded_value)
restored_count += 1
except Exception as e:
cloudlog.error(f"Failed to restore param {param}: {str(e)}")
@@ -264,8 +249,8 @@ class BackupManagerSP:
# Check for backup command
if self.params.get_bool("BackupManager_CreateBackup"):
try:
await self.create_backup()
reset_progress = True
if await self.create_backup():
reset_progress = True
finally:
self.params.remove("BackupManager_CreateBackup")
+48 -1
View File
@@ -1,5 +1,8 @@
import base64
import gzip
import json
from sunnypilot.sunnylink.api import SunnylinkApi, UNREGISTERED_SUNNYLINK_DONGLE_ID
from openpilot.common.params import Params
from openpilot.common.params import Params, ParamKeyType
from openpilot.system.version import is_prebuilt
@@ -55,3 +58,47 @@ def get_api_token():
sunnylink_api = SunnylinkApi(sunnylink_dongle_id)
token = sunnylink_api.get_token()
print(f"API Token: {token}")
def get_param_as_byte(param_name: str) -> bytes | None:
"""Get a parameter as bytes. Returns None if the parameter does not exist."""
params = Params()
param = params.get(param_name)
if param is None:
return None
param_type = params.get_type(param_name)
if param_type == ParamKeyType.BYTES:
return bytes(param)
elif param_type == ParamKeyType.JSON:
return json.dumps(param).encode('utf-8')
return str(param).encode('utf-8')
def save_param_from_base64_encoded_string(param_name: str, base64_encoded_data: str, is_compressed=False) -> None:
"""Save a parameter from bytes. Overwrites the parameter if it already exists."""
params = Params()
# Find real param name (with correct casing)
param_type = params.get_type(param_name)
value = base64.b64decode(base64_encoded_data)
if is_compressed:
value = gzip.decompress(value)
# We convert to string anything that isn't bytes first. We later transform further.
if param_type != ParamKeyType.BYTES:
value = value.decode('utf-8') # type: ignore
if param_type == ParamKeyType.STRING:
value = value
elif param_type == ParamKeyType.BOOL:
value = value.lower() in ('true', '1', 'yes') # type: ignore
elif param_type == ParamKeyType.INT:
value = int(value) # type: ignore
elif param_type == ParamKeyType.FLOAT:
value = float(value) # type: ignore
elif param_type == ParamKeyType.TIME:
value = str(value) # type: ignore
elif param_type == ParamKeyType.JSON:
value = json.loads(value)
params.put(param_name, value)
@@ -9,3 +9,5 @@ export VECLIB_MAXIMUM_THREADS=1
if [ -z "$AGNOS_VERSION" ]; then
export AGNOS_VERSION="12.8"
fi
export STAGING_ROOT="/data/safe_staging"
+11 -1
View File
@@ -24,7 +24,7 @@ from openpilot.system.statsd import statlog
from openpilot.common.swaglog import cloudlog
from openpilot.system.hardware.power_monitoring import PowerMonitoring
from openpilot.system.hardware.fan_controller import TiciFanController
from openpilot.system.version import terms_version, training_version
from openpilot.system.version import terms_version, training_version, get_build_metadata
ThermalStatus = log.DeviceState.ThermalStatus
NetworkType = log.DeviceState.NetworkType
@@ -326,6 +326,16 @@ def hardware_thread(end_event, hw_queue) -> None:
startup_conditions["not_always_offroad"] = not offroad_mode
onroad_conditions["not_always_offroad"] = not offroad_mode
# if an unsupported device and branch is detected, going onroad is blocked
# only allow going onroad when:
# - TIZI, or
# - TICI and channel_type is "tici"
build_metadata = get_build_metadata()
is_unsupported_combo = TICI and HARDWARE.get_device_type() == "tici" and build_metadata.channel_type != "tici"
startup_conditions["not_tici"] = not is_unsupported_combo
onroad_conditions["not_tici"] = not is_unsupported_combo
set_offroad_alert("Offroad_TiciSupport", is_unsupported_combo, extra_text=build_metadata.channel)
# if the temperature enters the danger zone, go offroad to cool down
onroad_conditions["device_temp_good"] = thermal_status < ThermalStatus.danger
extra_text = f"{offroad_comp_temp:.1f}C"
+2 -14
View File
@@ -7,7 +7,6 @@ import psutil
import shutil
import signal
import fcntl
import time
import threading
from collections import defaultdict
from pathlib import Path
@@ -19,7 +18,7 @@ from openpilot.common.markdown import parse_markdown
from openpilot.common.swaglog import cloudlog
from openpilot.selfdrive.selfdrived.alertmanager import set_offroad_alert
from openpilot.system.hardware import AGNOS, HARDWARE
from openpilot.system.version import get_build_metadata
from openpilot.system.version import get_build_metadata, SP_BRANCH_MIGRATIONS
LOCK_FILE = os.getenv("UPDATER_LOCK_FILE", "/tmp/safe_staging_overlay.lock")
STAGING_ROOT = os.getenv("UPDATER_STAGING_ROOT", "/data/safe_staging")
@@ -190,15 +189,6 @@ def finalize_update() -> None:
run(["git", "reset", "--hard"], FINALIZED)
run(["git", "submodule", "foreach", "--recursive", "git", "reset", "--hard"], FINALIZED)
cloudlog.info("Starting git cleanup in finalized update")
t = time.monotonic()
try:
run(["git", "gc"], FINALIZED)
run(["git", "lfs", "prune"], FINALIZED)
cloudlog.event("Done git cleanup", duration=time.monotonic() - t)
except subprocess.CalledProcessError:
cloudlog.exception(f"Failed git cleanup, took {time.monotonic() - t:.3f} s")
set_consistent_flag(True)
cloudlog.info("done finalizing overlay")
@@ -242,9 +232,7 @@ class Updater:
b: str | None = self.params.get("UpdaterTargetBranch")
if b is None:
b = self.get_branch(BASEDIR)
b = {
("tici", "release3"): "release-tici"
}.get((HARDWARE.get_device_type(), b), b)
b = SP_BRANCH_MIGRATIONS.get((HARDWARE.get_device_type(), b), b)
return b
@property
+15 -3
View File
@@ -11,11 +11,20 @@ from openpilot.common.swaglog import cloudlog
from openpilot.common.git import get_commit, get_origin, get_branch, get_short_branch, get_commit_date
RELEASE_SP_BRANCHES = ['release-c3']
TESTED_SP_BRANCHES = ['staging-c3', 'staging-c3-new']
TESTED_SP_BRANCHES = ['staging-c3', 'staging-c3-new', 'staging-tici']
MASTER_SP_BRANCHES = ['master']
RELEASE_BRANCHES = ['release3-staging', 'release3', 'release-tici', 'nightly'] + RELEASE_SP_BRANCHES
TESTED_BRANCHES = RELEASE_BRANCHES + ['devel', 'devel-staging', 'nightly-dev'] + TESTED_SP_BRANCHES
SP_BRANCH_MIGRATIONS = {
("tici", "staging-c3-new"): "staging-tici",
("tici", "dev-c3-new"): "staging-tici",
("tici", "master"): "master-tici",
("tici", "master-dev-c3-new"): "master-tici",
("tici", "hkg-angle-steering-2025"): "hkg-angle-steering-2025-tici",
("tici", "hkg-angle-steering-2025-prebuilt"): "hkg-angle-steering-2025-tici-prebuilt"
}
BUILD_METADATA_FILENAME = "build.json"
training_version: str = "0.2.0"
@@ -85,7 +94,8 @@ class OpenpilotMetadata:
@property
def sunnypilot_remote(self) -> bool:
return self.git_normalized_origin == "github.com/sunnypilot/sunnypilot"
return self.git_normalized_origin in ("github.com/sunnypilot/sunnypilot",
"github.com/sunnypilot/openpilot")
@property
def git_normalized_origin(self) -> str:
@@ -127,7 +137,9 @@ class BuildMetadata:
@property
def channel_type(self) -> str:
if self.development_channel:
if self.channel.endswith("-tici"):
return "tici"
elif self.development_channel:
return "development"
elif self.channel.startswith("staging-"):
return "staging"
File diff suppressed because it is too large Load Diff
File diff suppressed because one or more lines are too long
@@ -0,0 +1,183 @@
<?xml version='1.0' encoding='UTF-8'?>
<root>
<tabbed_widget parent="main_window" name="Main Window">
<Tab containers="1" tab_name="actuator data">
<Container>
<DockSplitter orientation="-" sizes="0.25;0.25;0.25;0.25" count="4">
<DockArea name="...">
<plot mode="TimeSeries" flip_x="false" flip_y="false" style="Lines">
<range bottom="-0.100000" left="301.990881" top="0.100000" right="462.962504"/>
<limitY/>
<curve name="/carControl/actuators/torque" color="#17becf"/>
</plot>
</DockArea>
<DockArea name="...">
<plot mode="TimeSeries" flip_x="false" flip_y="false" style="Lines">
<range bottom="-130.920132" left="301.990881" top="103.993176" right="462.962504"/>
<limitY/>
<curve name="/carControl/actuators/steeringAngleDeg" color="#1f77b4"/>
</plot>
</DockArea>
<DockArea name="...">
<plot mode="TimeSeries" flip_x="false" flip_y="false" style="Lines">
<range bottom="-0.604818" left="301.990881" top="24.797527" right="462.962504"/>
<limitY/>
<curve name="/carState/vEgoRaw" color="#ff7f0e"/>
</plot>
</DockArea>
<DockArea name="...">
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<range bottom="-0.037812" left="301.990881" top="0.047261" right="462.962504"/>
<limitY/>
<curve name="/carControl/actuators/curvature" color="#f14cc1"/>
</plot>
</DockArea>
</DockSplitter>
</Container>
</Tab>
<Tab containers="1" tab_name="steering messages (CAN)">
<Container>
<DockSplitter orientation="-" sizes="0.142857;0.142857;0.142857;0.142857;0.142857;0.142857;0.142857" count="7">
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<limitY/>
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<limitY/>
<curve name="/carState/steeringPressed" color="#d62728"/>
</plot>
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<DockArea name="...">
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<range bottom="0.975000" left="301.990881" top="2.025000" right="462.962504"/>
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<range bottom="-0.025000" left="301.990881" top="1.025000" right="462.962504"/>
<limitY/>
<curve name="/carState/steerFaultTemporary" color="#d62728"/>
<curve name="/carControl/latActive" color="#1ac938"/>
</plot>
</DockArea>
<DockArea name="...">
<plot mode="TimeSeries" flip_x="false" flip_y="false" style="Lines">
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<limitY/>
<curve name="/pandaStates/0/safetyTxBlocked" color="#1f77b4"/>
</plot>
</DockArea>
</DockSplitter>
</Container>
</Tab>
<Tab containers="1" tab_name="Understanding Torque">
<Container>
<DockSplitter orientation="-" sizes="0.5;0.5" count="2">
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<Tab containers="1" tab_name="tab2">
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</plot>
</DockArea>
</DockSplitter>
</Container>
</Tab>
<currentTabIndex index="3"/>
</tabbed_widget>
<use_relative_time_offset enabled="1"/>
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<plugin ID="DataLoad CSV">
<default time_axis="" delimiter="0"/>
</plugin>
<plugin ID="DataLoad MCAP"/>
<plugin ID="DataLoad Rlog"/>
<plugin ID="DataLoad ULog"/>
<plugin ID="Cereal Subscriber"/>
<plugin ID="UDP Server"/>
<plugin ID="WebSocket Server"/>
<plugin ID="ZMQ Subscriber"/>
<plugin ID="Fast Fourier Transform"/>
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<scripts/>
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<plugin ID="CSV Exporter"/>
</Plugins>
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<customMathEquations/>
<snippets/>
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</root>
@@ -0,0 +1,636 @@
<?xml version='1.0' encoding='UTF-8'?>
<root>
<tabbed_widget name="Main Window" parent="main_window">
<Tab tab_name="actuator data" containers="1">
<Container>
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<limitY/>
<curve name="/carControl/actuators/torque" color="#17becf"/>
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<curve name="/carControl/actuators/steeringAngleDeg" color="#1f77b4"/>
</plot>
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</plot>
</DockArea>
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</Container>
</Tab>
<Tab tab_name="steering messages (CAN)" containers="1">
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<default time_axis="" delimiter="0"/>
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<library code="--[[ Helper function to create a series from arrays&#xa;&#xa; new_series: a series previously created with ScatterXY.new(name)&#xa; prefix: prefix of the timeseries, before the index of the array&#xa; suffix_X: suffix to complete the name of the series containing the X value. If [nil], use the index of the array.&#xa; suffix_Y: suffix to complete the name of the series containing the Y value&#xa; timestamp: usually the tracker_time variable&#xa; &#xa; Example:&#xa; &#xa; Assuming we have multiple series in the form:&#xa; &#xa; /trajectory/node.{X}/position/x&#xa; /trajectory/node.{X}/position/y&#xa; &#xa; where {N} is the index of the array (integer). We can create a reactive series from the array with:&#xa; &#xa; new_series = ScatterXY.new(&quot;my_trajectory&quot;) &#xa; CreateSeriesFromArray( new_series, &quot;/trajectory/node&quot;, &quot;position/x&quot;, &quot;position/y&quot;, tracker_time );&#xa;--]]&#xa;&#xa;function CreateSeriesFromArray( new_series, prefix, suffix_X, suffix_Y, timestamp )&#xa; &#xa; --- clear previous values&#xa; new_series:clear()&#xa; &#xa; --- Append points to new_series&#xa; index = 0&#xa; while(true) do&#xa;&#xa; x = index;&#xa; -- if not nil, get the X coordinate from a series&#xa; if suffix_X ~= nil then &#xa; series_x = TimeseriesView.find( string.format( &quot;%s.%d/%s&quot;, prefix, index, suffix_X) )&#xa; if series_x == nil then break end&#xa; x = series_x:atTime(timestamp)&#x9; &#xa; end&#xa; &#xa; series_y = TimeseriesView.find( string.format( &quot;%s.%d/%s&quot;, prefix, index, suffix_Y) )&#xa; if series_y == nil then break end &#xa; y = series_y:atTime(timestamp)&#xa; &#xa; new_series:push_back(x,y)&#xa; index = index+1&#xa; end&#xa;end&#xa;&#xa;--[[ Similar to the built-in function GetSeriesNames(), but select only the names with a give prefix. --]]&#xa;&#xa;function GetSeriesNamesByPrefix(prefix)&#xa; -- GetSeriesNames(9 is a built-in function&#xa; all_names = GetSeriesNames()&#xa; filtered_names = {}&#xa; for i, name in ipairs(all_names) do&#xa; -- check the prefix&#xa; if name:find(prefix, 1, #prefix) then&#xa; table.insert(filtered_names, name);&#xa; end&#xa; end&#xa; return filtered_names&#xa;end&#xa;&#xa;--[[ Modify an existing series, applying offsets to all their X and Y values&#xa;&#xa; series: an existing timeseries, obtained with TimeseriesView.find(name)&#xa; delta_x: offset to apply to each x value&#xa; delta_y: offset to apply to each y value &#xa; &#xa;--]]&#xa;&#xa;function ApplyOffsetInPlace(series, delta_x, delta_y)&#xa; -- use C++ indeces, not Lua indeces&#xa; for index=0, series:size()-1 do&#xa; x,y = series:at(index)&#xa; series:set(index, x + delta_x, y + delta_y)&#xa; end&#xa;end&#xa;"/>
<scripts/>
</plugin>
<plugin ID="CSV Exporter"/>
</Plugins>
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<!-- - - - - - - - - - - - - - - -->
<customMathEquations>
<snippet name="Angle Staturation">
<global></global>
<function>if value > .3 then
return 1
end
return 0</function>
<linked_source>Angle Error</linked_source>
</snippet>
<snippet name="ang_cmd rate">
<global>firstX = 0
firstY = 0
is_first = true
secondX = 0
secondY = 0
is_second = false</global>
<function>-- Wait for initial values
if (is_first) then
is_first = false
is_second = true
firstX = time
firstY = value
end
if (is_second) then
is_second = false
secondX = time
secondY = value
end
-- Central derivative: dy/dx ~= f(x+delta_x)-f(x-delta_x)/(2*delta_x)
dx = time - firstX
dy = value - firstY
-- Increment
firstX = secondX
firstY = secondY
secondX = time
secondY = value
return dy/dx</function>
<linked_source>/can/1/LFA_ALT/LKAS_ANGLE_CMD</linked_source>
</snippet>
<snippet name="max torque lj adj">
<global>min=0
max=250
max_from_speed=96
k1=200
k2=30
k3=1
k4=1
k5=10
function sign(number)
return number > 0 and 1 or (number == 0 and 0 or -1)
end</global>
<function>return 250 - value * 20</function>
<linked_source>desired lateral jark</linked_source>
</snippet>
<snippet name="max torque(calc)">
<global>min=0
max=250
max_from_speed=96
rate_lim = 500
la_deadzone = 0.38
k1=200
k2=20
k3=1.0
k4=1
k5=10
old = 0
function sign(number)
return number > 0 and 1 or (number == 0 and 0 or -1)
end
function apply_rate_limit(old, new, limit)
return math.min(math.max(new, old - limit), old + limit)
end
function apply_deadzone(val, deadzone)
if math.abs(val) &lt;= deadzone then
return 0.0
elseif val &lt; 0.0 then
return val + deadzone
else
return val - deadzone
end
end</global>
<function>la = apply_deadzone(v2, la_deadzone)
lj = v3
if la == 0.0 then
lj = 0.0
end
fla = math.min(math.abs(k1 * la)^k3, max)
flj = math.min(math.abs(k2 * lj)^k4, max)
out = fla
flv = math.min(max_from_speed, k5 * v4)
out = out + flv
out = math.max(math.min(out, max), min)
if sign(la) == sign(lj) then
out = out - flj
else
out = out + flj
end
if v5 == 1.0 then
out = 0.0
end
out = math.max(math.min(out, max), min)
out = apply_rate_limit(old, out, rate_lim)
old = out
return out</function>
<linked_source>/can/1/LFA_ALT/LKAS_ANGLE_CMD</linked_source>
<additional_sources>
<v1>ang_cmd rate</v1>
<v2>desired lat accel</v2>
<v3>desired lateral jark</v3>
<v4>/carState/vEgo</v4>
<v5>/can/1/LFA_ALT/LKAS_ANGLE_ACTIVE</v5>
</additional_sources>
</snippet>
<snippet name="carState.vEgo mph">
<global></global>
<function>return value * 2.23694</function>
<linked_source>/carState/vEgo</linked_source>
</snippet>
<snippet name="abs(des la accel)">
<global></global>
<function>return math.abs(value)</function>
<linked_source>desired lat accel</linked_source>
</snippet>
<snippet name="roll compensated lateral acceleration">
<global></global>
<function>if (v3 == 0 and v4 == 1) then
return (value * v1 ^ 2) - (v2 * 9.81)
end
return 0</function>
<linked_source>/controlsState/curvature</linked_source>
<additional_sources>
<v1>/carState/vEgo</v1>
<v2>/liveParameters/roll</v2>
<v3>/carState/steeringPressed</v3>
<v4>/carControl/latActive</v4>
</additional_sources>
</snippet>
<snippet name="Zero">
<global></global>
<function>return (0)</function>
<linked_source>/carState/canValid</linked_source>
</snippet>
<snippet name="IMU_LatAccelVal_ms^2">
<global></global>
<function>return value * -9.8</function>
<linked_source>/can/1/IMU_01_10ms/IMU_LatAccelVal</linked_source>
<additional_sources>
<v1>/carState/steeringPressed</v1>
<v2>/carControl/latActive</v2>
</additional_sources>
</snippet>
<snippet name="desired lat accel">
<global></global>
<function>return value * v1^2</function>
<linked_source>/controlsState/desiredCurvature</linked_source>
<additional_sources>
<v1>/carState/vEgo</v1>
</additional_sources>
</snippet>
<snippet name="engaged_accel_actuator">
<global>engage_delay = 5
last_bad_time = -engage_delay</global>
<function>accel = value
brake = v1
gas = v2
enabled = v3
if (brake ~= 0 or gas ~= 0 or enabled == 0) then
last_bad_time = time
end
if (time > last_bad_time + engage_delay) then
return value
else
return 0
end</function>
<linked_source>/carControl/actuators/accel</linked_source>
<additional_sources>
<v1>/carState/brakePressed</v1>
<v2>/carState/gasPressed</v2>
<v3>/carControl/enabled</v3>
</additional_sources>
</snippet>
<snippet name="Angle Error">
<global>last_angle_requested = 0</global>
<function>angle_error = last_angle_requested - v1
last_angle_requested = value
return angle_error</function>
<linked_source>/carControl/actuators/steeringAngleDeg</linked_source>
<additional_sources>
<v1>/carState/steeringAngleDeg</v1>
</additional_sources>
</snippet>
<snippet name="carState.vEgo kmh">
<global></global>
<function>return value * 3.6</function>
<linked_source>/carState/vEgo</linked_source>
</snippet>
<snippet name="engaged_accel_plan">
<global>engage_delay = 5
last_bad_time = -engage_delay</global>
<function>accel = value
brake = v1
gas = v2
enabled = v3
if (brake ~= 0 or gas ~= 0 or enabled == 0) then
last_bad_time = time
end
if (time > last_bad_time + engage_delay) then
return value
else
return 0
end</function>
<linked_source>/longitudinalPlan/accels/0</linked_source>
<additional_sources>
<v1>/carState/brakePressed</v1>
<v2>/carState/gasPressed</v2>
<v3>/carControl/enabled</v3>
</additional_sources>
</snippet>
<snippet name="engaged_accel_actual">
<global>engage_delay = 5
last_bad_time = -engage_delay</global>
<function>accel = value
brake = v1
gas = v2
enabled = v3
if (brake ~= 0 or gas ~= 0 or enabled == 0) then
last_bad_time = time
end
if (time > last_bad_time + engage_delay) then
return value
else
return 0
end</function>
<linked_source>/carState/aEgo</linked_source>
<additional_sources>
<v1>/carState/brakePressed</v1>
<v2>/carState/gasPressed</v2>
<v3>/carControl/enabled</v3>
</additional_sources>
</snippet>
<snippet name="desired lateral jark">
<global>firstX = 0
firstY = 0
is_first = true
secondX = 0
secondY = 0
is_second = false</global>
<function>-- Wait for initial values
if (is_first) then
is_first = false
is_second = true
firstX = time
firstY = value
end
if (is_second) then
is_second = false
secondX = time
secondY = value
end
-- Central derivative: dy/dx ~= f(x+delta_x)-f(x-delta_x)/(2*delta_x)
dx = time - firstX
dy = value - firstY
-- Increment
firstX = secondX
firstY = secondY
secondX = time
secondY = value
return dy/dx</function>
<linked_source>desired lat accel</linked_source>
</snippet>
<snippet name="engaged curvature plan">
<global>engage_delay = 5
last_bad_time = -engage_delay</global>
<function>curvature = value
pressed = v1
enabled = v2
if (pressed == 1 or enabled == 0) then
last_bad_time = time
end
if (time > last_bad_time + engage_delay) then
return value
else
return 0
end</function>
<linked_source>/lateralPlan/curvatures/0</linked_source>
<additional_sources>
<v1>/carState/steeringPressed</v1>
<v2>/carControl/enabled</v2>
</additional_sources>
</snippet>
<snippet name="abs(ang_cmd)">
<global></global>
<function>return math.abs(value)</function>
<linked_source>/can/1/LFA_ALT/LKAS_ANGLE_CMD</linked_source>
</snippet>
<snippet name="zero">
<global>min=0
max=250
max_from_speed=96
rate_lim = 500
la_deadzone = 0.38
k1=200
k2=20
k3=1.0
k4=1
k5=10
old = 0
function sign(number)
return number > 0 and 1 or (number == 0 and 0 or -1)
end
function apply_rate_limit(old, new, limit)
return math.min(math.max(new, old - limit), old + limit)
end
function apply_deadzone(val, deadzone)
if math.abs(val) &lt;= deadzone then
return 0.0
elseif val &lt; 0.0 then
return val + deadzone
else
return val - deadzone
end
end</global>
<function>return 0</function>
<linked_source>/carState/aEgo</linked_source>
</snippet>
<snippet name="engaged curvature vehicle model">
<global>engage_delay = 5
last_bad_time = -engage_delay</global>
<function>curvature = value
pressed = v1
enabled = v2
if (pressed == 1 or enabled == 0) then
last_bad_time = time
end
if (time > last_bad_time + engage_delay) then
return value
else
return 0
end</function>
<linked_source>/controlsState/curvature</linked_source>
<additional_sources>
<v1>/carState/steeringPressed</v1>
<v2>/carControl/enabled</v2>
</additional_sources>
</snippet>
<snippet name="Actual lateral accel (roll compensated)">
<global></global>
<function>return (value * v1 ^ 2) - (v2 * 9.81)</function>
<linked_source>/controlsState/curvature</linked_source>
<additional_sources>
<v1>/carState/vEgo</v1>
<v2>/liveParameters/roll</v2>
</additional_sources>
</snippet>
<snippet name="IMU_LatAccelVal_ms^2_roll_compensated">
<global></global>
<function>if (v1 == 0 and v2 == 1) then
return (value * -9.8) - (v3 * 9.81)
end
--return 0
return (value * -9.8) - (v3 * 9.81)</function>
<linked_source>/can/1/IMU_01_10ms/IMU_LatAccelVal</linked_source>
<additional_sources>
<v1>/carState/steeringPressed</v1>
<v2>/carControl/latActive</v2>
<v3>/liveParameters/roll</v3>
</additional_sources>
</snippet>
<snippet name="IMU_LatAccelVal_Ms^2">
<global></global>
<function>if (v1 == 0 and v2 == 1) then
return value * -9.8
end
return 0</function>
<linked_source>/can/1/IMU_01_10ms/IMU_LatAccelVal</linked_source>
<additional_sources>
<v1>/carState/steeringPressed</v1>
<v2>/carControl/latActive</v2>
</additional_sources>
</snippet>
<snippet name="engaged curvature yaw">
<global>engage_delay = 5
last_bad_time = -engage_delay</global>
<function>curvature = value / v3
pressed = v1
enabled = v2
if (pressed == 1 or enabled == 0) then
last_bad_time = time
end
if (time > last_bad_time + engage_delay) then
return curvature
else
return 0
end</function>
<linked_source>/liveLocationKalman/angularVelocityCalibrated/value/2</linked_source>
<additional_sources>
<v1>/carState/steeringPressed</v1>
<v2>/carControl/enabled</v2>
<v3>/liveLocationKalman/velocityCalibrated/value/0</v3>
</additional_sources>
</snippet>
<snippet name="IMU_LatAccelVal_Ms^3">
<global></global>
<function>return value * -9.8</function>
<linked_source>/can/1/IMU_01_10ms/IMU_LatAccelVal</linked_source>
<additional_sources>
<v1>/carState/steeringPressed</v1>
<v2>/carControl/latActive</v2>
</additional_sources>
</snippet>
<snippet name="Desired lateral accel (roll compensated)">
<global></global>
<function>return (value * v1 ^ 2) - (v2 * 9.81)</function>
<linked_source>/controlsState/desiredCurvature</linked_source>
<additional_sources>
<v1>/carState/vEgo</v1>
<v2>/liveParameters/roll</v2>
</additional_sources>
</snippet>
</customMathEquations>
<snippets/>
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</root>
@@ -0,0 +1,281 @@
<?xml version='1.0' encoding='UTF-8'?>
<root>
<tabbed_widget name="Main Window" parent="main_window">
<Tab containers="1" tab_name="tab1">
<Container>
<DockSplitter sizes="0.500397;0.499603" count="2" orientation="-">
<DockArea name="...">
<plot flip_x="false" flip_y="false" mode="TimeSeries" style="Lines">
<range top="256.250000" left="0.000000" right="421.102293" bottom="-6.250000"/>
<limitY/>
<curve color="#1ac938" name="/can/1/LFA_ALT/LKAS_ANGLE_MAX_TORQUE"/>
<curve color="#17becf" name="max torque(calc)">
<transform name="Moving Average" alias="max torque(calc)[Moving Average]">
<options compensate_offset="true" value="10"/>
</transform>
</curve>
</plot>
</DockArea>
<DockArea name="...">
<plot flip_x="false" flip_y="false" mode="TimeSeries" style="Lines">
<range top="2.776497" left="0.000000" right="421.102293" bottom="-2.918548"/>
<limitY/>
<curve color="#f14cc1" name="desired lat accel"/>
<curve color="#888888" name="zero"/>
</plot>
</DockArea>
</DockSplitter>
</Container>
</Tab>
<currentTabIndex index="0"/>
</tabbed_widget>
<use_relative_time_offset enabled="1"/>
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<Plugins>
<plugin ID="DataLoad CSV">
<default time_axis="" delimiter="0"/>
</plugin>
<plugin ID="DataLoad MCAP"/>
<plugin ID="DataLoad Rlog"/>
<plugin ID="DataLoad ULog"/>
<plugin ID="Cereal Subscriber"/>
<plugin ID="UDP Server"/>
<plugin ID="WebSocket Server"/>
<plugin ID="ZMQ Subscriber"/>
<plugin ID="Fast Fourier Transform"/>
<plugin ID="Quaternion to RPY"/>
<plugin ID="Reactive Script Editor">
<library code="--[[ Helper function to create a series from arrays&#xa;&#xa; new_series: a series previously created with ScatterXY.new(name)&#xa; prefix: prefix of the timeseries, before the index of the array&#xa; suffix_X: suffix to complete the name of the series containing the X value. If [nil], use the index of the array.&#xa; suffix_Y: suffix to complete the name of the series containing the Y value&#xa; timestamp: usually the tracker_time variable&#xa; &#xa; Example:&#xa; &#xa; Assuming we have multiple series in the form:&#xa; &#xa; /trajectory/node.{X}/position/x&#xa; /trajectory/node.{X}/position/y&#xa; &#xa; where {N} is the index of the array (integer). We can create a reactive series from the array with:&#xa; &#xa; new_series = ScatterXY.new(&quot;my_trajectory&quot;) &#xa; CreateSeriesFromArray( new_series, &quot;/trajectory/node&quot;, &quot;position/x&quot;, &quot;position/y&quot;, tracker_time );&#xa;--]]&#xa;&#xa;function CreateSeriesFromArray( new_series, prefix, suffix_X, suffix_Y, timestamp )&#xa; &#xa; --- clear previous values&#xa; new_series:clear()&#xa; &#xa; --- Append points to new_series&#xa; index = 0&#xa; while(true) do&#xa;&#xa; x = index;&#xa; -- if not nil, get the X coordinate from a series&#xa; if suffix_X ~= nil then &#xa; series_x = TimeseriesView.find( string.format( &quot;%s.%d/%s&quot;, prefix, index, suffix_X) )&#xa; if series_x == nil then break end&#xa; x = series_x:atTime(timestamp)&#x9; &#xa; end&#xa; &#xa; series_y = TimeseriesView.find( string.format( &quot;%s.%d/%s&quot;, prefix, index, suffix_Y) )&#xa; if series_y == nil then break end &#xa; y = series_y:atTime(timestamp)&#xa; &#xa; new_series:push_back(x,y)&#xa; index = index+1&#xa; end&#xa;end&#xa;&#xa;--[[ Similar to the built-in function GetSeriesNames(), but select only the names with a give prefix. --]]&#xa;&#xa;function GetSeriesNamesByPrefix(prefix)&#xa; -- GetSeriesNames(9 is a built-in function&#xa; all_names = GetSeriesNames()&#xa; filtered_names = {}&#xa; for i, name in ipairs(all_names) do&#xa; -- check the prefix&#xa; if name:find(prefix, 1, #prefix) then&#xa; table.insert(filtered_names, name);&#xa; end&#xa; end&#xa; return filtered_names&#xa;end&#xa;&#xa;--[[ Modify an existing series, applying offsets to all their X and Y values&#xa;&#xa; series: an existing timeseries, obtained with TimeseriesView.find(name)&#xa; delta_x: offset to apply to each x value&#xa; delta_y: offset to apply to each y value &#xa; &#xa;--]]&#xa;&#xa;function ApplyOffsetInPlace(series, delta_x, delta_y)&#xa; -- use C++ indeces, not Lua indeces&#xa; for index=0, series:size()-1 do&#xa; x,y = series:at(index)&#xa; series:set(index, x + delta_x, y + delta_y)&#xa; end&#xa;end&#xa;"/>
<scripts/>
</plugin>
<plugin ID="CSV Exporter"/>
</Plugins>
<!-- - - - - - - - - - - - - - - -->
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<fileInfo prefix="" filename="../tmpa_e8kwpj.rlog">
<selected_datasources value=""/>
</fileInfo>
</previouslyLoaded_Datafiles>
<!-- - - - - - - - - - - - - - - -->
<customMathEquations>
<snippet name="zero">
<global>min=0
max=250
max_from_speed=96
rate_lim = 500
la_deadzone = 0.38
k1=200
k2=20
k3=1.0
k4=1
k5=10
old = 0
function sign(number)
return number > 0 and 1 or (number == 0 and 0 or -1)
end
function apply_rate_limit(old, new, limit)
return math.min(math.max(new, old - limit), old + limit)
end
function apply_deadzone(val, deadzone)
if math.abs(val) &lt;= deadzone then
return 0.0
elseif val &lt; 0.0 then
return val + deadzone
else
return val - deadzone
end
end</global>
<function>return 0</function>
<linked_source>/carState/aEgo</linked_source>
</snippet>
<snippet name="max torque lj adj">
<global>min=0
max=250
max_from_speed=96
k1=200
k2=30
k3=1
k4=1
k5=10
function sign(number)
return number > 0 and 1 or (number == 0 and 0 or -1)
end</global>
<function>return 250 - value * 20</function>
<linked_source>desired lateral jark</linked_source>
</snippet>
<snippet name="ang_cmd rate">
<global>firstX = 0
firstY = 0
is_first = true
secondX = 0
secondY = 0
is_second = false</global>
<function>-- Wait for initial values
if (is_first) then
is_first = false
is_second = true
firstX = time
firstY = value
end
if (is_second) then
is_second = false
secondX = time
secondY = value
end
-- Central derivative: dy/dx ~= f(x+delta_x)-f(x-delta_x)/(2*delta_x)
dx = time - firstX
dy = value - firstY
-- Increment
firstX = secondX
firstY = secondY
secondX = time
secondY = value
return dy/dx</function>
<linked_source>/can/1/LFA_ALT/LKAS_ANGLE_CMD</linked_source>
</snippet>
<snippet name="max torque(calc)">
<global>min=0
max=250
max_from_speed=96
rate_lim = 500
la_deadzone = 0.38
k1=200
k2=20
k3=1.0
k4=1
k5=10
old = 0
function sign(number)
return number > 0 and 1 or (number == 0 and 0 or -1)
end
function apply_rate_limit(old, new, limit)
return math.min(math.max(new, old - limit), old + limit)
end
function apply_deadzone(val, deadzone)
if math.abs(val) &lt;= deadzone then
return 0.0
elseif val &lt; 0.0 then
return val + deadzone
else
return val - deadzone
end
end</global>
<function>la = apply_deadzone(v2, la_deadzone)
lj = v3
if la == 0.0 then
lj = 0.0
end
fla = math.min(math.abs(k1 * la)^k3, max)
flj = math.min(math.abs(k2 * lj)^k4, max)
out = fla
flv = math.min(max_from_speed, k5 * v4)
out = out + flv
out = math.max(math.min(out, max), min)
if sign(la) == sign(lj) then
out = out - flj
else
out = out + flj
end
if v5 == 1.0 then
out = 0.0
end
out = math.max(math.min(out, max), min)
out = apply_rate_limit(old, out, rate_lim)
old = out
return out</function>
<linked_source>/can/1/LFA_ALT/LKAS_ANGLE_CMD</linked_source>
<additional_sources>
<v1>ang_cmd rate</v1>
<v2>desired lat accel</v2>
<v3>desired lateral jark</v3>
<v4>/carState/vEgo</v4>
<v5>/can/1/LFA_ALT/LKAS_ANGLE_ACTIVE</v5>
</additional_sources>
</snippet>
<snippet name="desired lateral jark">
<global>firstX = 0
firstY = 0
is_first = true
secondX = 0
secondY = 0
is_second = false</global>
<function>-- Wait for initial values
if (is_first) then
is_first = false
is_second = true
firstX = time
firstY = value
end
if (is_second) then
is_second = false
secondX = time
secondY = value
end
-- Central derivative: dy/dx ~= f(x+delta_x)-f(x-delta_x)/(2*delta_x)
dx = time - firstX
dy = value - firstY
-- Increment
firstX = secondX
firstY = secondY
secondX = time
secondY = value
return dy/dx</function>
<linked_source>desired lat accel</linked_source>
</snippet>
<snippet name="abs(des la accel)">
<global></global>
<function>return math.abs(value)</function>
<linked_source>desired lat accel</linked_source>
</snippet>
<snippet name="desired lat accel">
<global></global>
<function>return value * v1^2</function>
<linked_source>/controlsState/desiredCurvature</linked_source>
<additional_sources>
<v1>/carState/vEgo</v1>
</additional_sources>
</snippet>
<snippet name="abs(ang_cmd)">
<global></global>
<function>return math.abs(value)</function>
<linked_source>/can/1/LFA_ALT/LKAS_ANGLE_CMD</linked_source>
</snippet>
</customMathEquations>
<snippets/>
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<curve name="Desired lateral accel (roll compensated)" color="#ff7f0e"/>
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<!-- - - - - - - - - - - - - - - -->
<!-- - - - - - - - - - - - - - - -->
<customMathEquations>
<snippet name="IMU_LatAccelVal_ms^2">
<global></global>
<function>return value * -9.8</function>
<linked_source>/can/1/IMU_01_10ms/IMU_LatAccelVal</linked_source>
<additional_sources>
<v1>/carState/steeringPressed</v1>
<v2>/carControl/latActive</v2>
</additional_sources>
</snippet>
<snippet name="roll compensated lateral acceleration">
<global></global>
<function>if (v3 == 0 and v4 == 1) then
return (value * v1 ^ 2) - (v2 * 9.81)
end
return 0</function>
<linked_source>/controlsState/curvature</linked_source>
<additional_sources>
<v1>/carState/vEgo</v1>
<v2>/liveParameters/roll</v2>
<v3>/carState/steeringPressed</v3>
<v4>/carControl/latActive</v4>
</additional_sources>
</snippet>
<snippet name="IMU_LatAccelVal_Ms^2">
<global></global>
<function>if (v1 == 0 and v2 == 1) then
return value * -9.8
end
return 0</function>
<linked_source>/can/1/IMU_01_10ms/IMU_LatAccelVal</linked_source>
<additional_sources>
<v1>/carState/steeringPressed</v1>
<v2>/carControl/latActive</v2>
</additional_sources>
</snippet>
<snippet name="IMU_LatAccelVal_Ms^3">
<global></global>
<function>return value * -9.8</function>
<linked_source>/can/1/IMU_01_10ms/IMU_LatAccelVal</linked_source>
<additional_sources>
<v1>/carState/steeringPressed</v1>
<v2>/carControl/latActive</v2>
</additional_sources>
</snippet>
<snippet name="IMU_LatAccelVal_ms^2_roll_compensated">
<global></global>
<function>
if (v1 == 0 and v2 == 1) then
return (value * -9.8) - (v3 * 9.81)
end
return 0</function>
<linked_source>/can/1/IMU_01_10ms/IMU_LatAccelVal</linked_source>
<additional_sources>
<v1>/carState/steeringPressed</v1>
<v2>/carControl/latActive</v2>
<v3>/liveParameters/roll</v3>
</additional_sources>
</snippet>
<snippet name="Actual lateral accel (roll compensated)">
<global></global>
<function>return (value * v1 ^ 2) - (v2 * 9.81)</function>
<linked_source>/controlsState/curvature</linked_source>
<additional_sources>
<v1>/carState/vEgo</v1>
<v2>/liveParameters/roll</v2>
</additional_sources>
</snippet>
<snippet name="Desired lateral accel (roll compensated)">
<global></global>
<function>return (value * v1 ^ 2) - (v2 * 9.81)</function>
<linked_source>/controlsState/desiredCurvature</linked_source>
<additional_sources>
<v1>/carState/vEgo</v1>
<v2>/liveParameters/roll</v2>
</additional_sources>
</snippet>
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