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base: Team_2648:073b2ab7541e993084bbd15dffdde7cb43799a5d
Branches Tags
Team_2648:main Team_2648:faster_elevator Team_2648:maybe_fix_field_oriented Team_2648:brad_elevator_control_rework Team_2648:kraken_swerve Team_2648:2025-2-1-setup
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compare: Team_2648:faster_elevator
Branches Tags
Team_2648:main Team_2648:faster_elevator Team_2648:maybe_fix_field_oriented Team_2648:brad_elevator_control_rework Team_2648:kraken_swerve Team_2648:2025-2-1-setup

30 Commits
073b2ab754 ... faster_ele

Author SHA1 Message Date
Tyler-j42
ba7e8d59ad no worky 2025-05-20 16:47:48 -04:00
Tylr-J42
626b92b769 on controller elevator PID control 2025-05-19 22:49:28 -04:00
Tylr-J42
42d47d6075 in the midst of making controller based pid control 2025-05-19 18:16:57 -04:00
Tylr-J42
68da3c630c Noah WTF are you smoking? (fixed driver bindings) 2025-05-19 01:55:28 -04:00
Team 2648
c9316cebc3 end of mayhem 2025-05-19 01:48:50 -04:00
Team 2648
d312e125cd before mayhem elims 2025-05-17 13:48:42 -04:00
Team 2648
4386de4d4d After champs code 2025-04-22 21:35:52 -04:00
Team 2648
cca7d68766 before auto manipultor drift fixds 2025-04-17 16:01:39 -04:00
Team 2648
a8a597985f good 2 piece 2025-04-16 17:46:16 -04:00
Team 2648
060b39669f attempted auto changes 2025-04-16 15:22:24 -04:00
Tylr-J42
4ada896603 pre champs changes 2025-04-15 02:14:49 -04:00
Tylr-J42
dd26ff6de4 faster 3 piece 2025-04-13 05:29:38 -04:00
Tylr-J42
0589463c4e pose, logger, and barge shot tweaks 2025-04-13 04:32:46 -04:00
Team 2648
339bf642a1 post-dcmp code 2025-04-08 17:30:11 -04:00
Team 2648
c75554dfc5 before selectino 2025-04-05 08:23:29 -04:00
Team 2648
e98b3a585e 2 piece worked in match 2025-04-04 11:09:09 -04:00
Team 2648
83db16794f changes to vision filtering and more logging 2025-04-04 09:22:33 -04:00
Team 2648
3dcbac25cc auto sucky 2025-04-03 19:59:58 -04:00
Team 2648
a391cc7910 algae setpoints 2025-04-03 08:20:37 -04:00
Team 2648
a19285cb0b tweaks to L1 and auto align good when PIs are on 2025-03-28 23:33:24 -04:00
Team 2648
f6c2a82779 saved encoder offset good 2025-03-28 17:49:40 -04:00
Tylr-J42
dead4a7289 correcting import error from old subsystem 2025-03-28 01:27:28 -04:00
Tylr-J42
9b7d2b45a4 integrated indexer motor with manipulator 2025-03-28 01:21:28 -04:00
Team 2648
11512e140c added the indexer 2025-03-27 19:04:10 -04:00
NoahLacks63
c7071d409b added a faster auto shoot and INDENTATION 2025-03-25 00:51:36 +00:00
Tylr-J42
23e2ad5a9b improving auto align command implementation 2025-03-24 02:13:02 -04:00
Tylr-J42
d693faf5c9 mirrored paths and vision disconnection detection 2025-03-24 01:00:35 -04:00
Team 2648
c9f6928806 progress on 3 piece auto 2025-03-22 20:47:47 -04:00
Team 2648
fdf837ab10 working 2.5 piece 2025-03-22 19:23:19 -04:00
Team 2648
be961d286b 2 piece left works 2025-03-22 19:19:09 -04:00
39 changed files with 1041 additions and 535 deletions
Expand all files Collapse all files

6
src/main/deploy/pathplanner/autos/1 L4 Center.auto
View File

@@ -27,6 +27,12 @@
"data": { "data": {
"pathName": "H Backup" "pathName": "H Backup"
} }
},
{
"type": "named",
"data": {
"name": "HP Pickup"
}
} }
] ]
} }

74
src/main/deploy/pathplanner/autos/Two Coral Left Event.auto → src/main/deploy/pathplanner/autos/1L4 + Algae Center.auto
View File

@@ -7,7 +7,7 @@
{ {
"type": "path", "type": "path",
"data": { "data": {
"pathName": "Start to 30 Right" "pathName": "Start to H"
} }
}, },
{ {
@@ -16,54 +16,54 @@
"name": "Shoot Coral L4" "name": "Shoot Coral L4"
} }
}, },
{
"type": "path",
"data": {
"pathName": "H Backup"
}
},
{
"type": "named",
"data": {
"name": "Pickup Algae L2"
}
},
{
"type": "path",
"data": {
"pathName": "HG Algae"
}
},
{
"type": "path",
"data": {
"pathName": "HG to Barge"
}
},
{
"type": "named",
"data": {
"name": "Shoot Algae"
}
},
{ {
"type": "parallel", "type": "parallel",
"data": { "data": {
"commands": [ "commands": [
{
"type": "path",
"data": {
"pathName": "30 Right to HP"
}
},
{ {
"type": "named", "type": "named",
"data": { "data": {
"name": "HP Pickup" "name": "HP Pickup"
} }
},
{
"type": "path",
"data": {
"pathName": "Post-Barge Backup"
}
} }
] ]
} }
},
{
"type": "named",
"data": {
"name": "Collect Coral"
}
},
{
"type": "path",
"data": {
"pathName": "HP to 330 Left"
}
},
{
"type": "named",
"data": {
"name": "Lift L4"
}
},
{
"type": "path",
"data": {
"pathName": "K Approach"
}
},
{
"type": "named",
"data": {
"name": "Shoot Coral L4"
}
} }
] ]
} }

81
src/main/deploy/pathplanner/autos/2.5 Coral Left.auto Normal file
View File

@@ -0,0 +1,81 @@
{
"version": "2025.0",
"command": {
"type": "sequential",
"data": {
"commands": [
{
"type": "path",
"data": {
"pathName": "Start to 30 Right"
}
},
{
"type": "named",
"data": {
"name": "Shoot Coral L4"
}
},
{
"type": "parallel",
"data": {
"commands": [
{
"type": "path",
"data": {
"pathName": "30 Right to HP"
}
},
{
"type": "named",
"data": {
"name": "HP Pickup"
}
}
]
}
},
{
"type": "named",
"data": {
"name": "Collect Coral"
}
},
{
"type": "path",
"data": {
"pathName": "HP to 330 Right"
}
},
{
"type": "named",
"data": {
"name": "Shoot Coral L4"
}
},
{
"type": "parallel",
"data": {
"commands": [
{
"type": "path",
"data": {
"pathName": "L Backup"
}
},
{
"type": "named",
"data": {
"name": "HP Pickup"
}
}
]
}
}
]
}
},
"resetOdom": true,
"folder": null,
"choreoAuto": false
}

43
src/main/deploy/pathplanner/autos/Two Coral Left.auto → src/main/deploy/pathplanner/autos/3 Coral Left.auto
View File

@@ -10,18 +10,6 @@
"pathName": "Start to 30 Right" "pathName": "Start to 30 Right"
} }
}, },
{
"type": "named",
"data": {
"name": "Lift L4"
}
},
{
"type": "path",
"data": {
"pathName": "J Approach"
}
},
{ {
"type": "named", "type": "named",
"data": { "data": {
@@ -56,19 +44,44 @@
{ {
"type": "path", "type": "path",
"data": { "data": {
"pathName": "HP to 330 Left" "pathName": "HP to 330 Right"
} }
}, },
{ {
"type": "named", "type": "named",
"data": { "data": {
"name": "Lift L4" "name": "Shoot Coral L4"
}
},
{
"type": "parallel",
"data": {
"commands": [
{
"type": "path",
"data": {
"pathName": "L Backup"
}
},
{
"type": "named",
"data": {
"name": "HP Pickup"
}
}
]
}
},
{
"type": "named",
"data": {
"name": "Collect Coral"
} }
}, },
{ {
"type": "path", "type": "path",
"data": { "data": {
"pathName": "K Approach" "pathName": "HP to K"
} }
}, },
{ {

49
src/main/deploy/pathplanner/autos/Two Coral Right.auto
View File

@@ -1,49 +0,0 @@
{
"version": "2025.0",
"command": {
"type": "sequential",
"data": {
"commands": [
{
"type": "path",
"data": {
"pathName": "Right Start to E"
}
},
{
"type": "named",
"data": {
"name": "Shoot Coral L4"
}
},
{
"type": "named",
"data": {
"name": "HP Pickup"
}
},
{
"type": "path",
"data": {
"pathName": "E to HP"
}
},
{
"type": "named",
"data": {
"name": "Collect Coral"
}
},
{
"type": "path",
"data": {
"pathName": "HP to D"
}
}
]
}
},
"resetOdom": true,
"folder": null,
"choreoAuto": false
}

20
src/main/deploy/pathplanner/paths/30 Right to HP.path
View File

@@ -8,20 +8,20 @@
}, },
"prevControl": null, "prevControl": null,
"nextControl": { "nextControl": {
"x": 5.649657534252619, "x": 4.843032786885245,
"y": 6.474186643842743 "y": 6.30266393442623
}, },
"isLocked": false, "isLocked": false,
"linkedName": null "linkedName": null
}, },
{ {
"anchor": { "anchor": {
"x": 1.1987704918032787, "x": 1.1268442622950818,
"y": 7.189754098360656 "y": 7.201741803278688
}, },
"prevControl": { "prevControl": {
"x": 2.055234532899169, "x": 2.287270519874242,
"y": 6.243135947675724 "y": 6.774371912194027
}, },
"nextControl": null, "nextControl": null,
"isLocked": false, "isLocked": false,
@@ -33,8 +33,8 @@
"pointTowardsZones": [], "pointTowardsZones": [],
"eventMarkers": [], "eventMarkers": [],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 5.0,
"maxAcceleration": 1.0, "maxAcceleration": 2.5,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0, "nominalVoltage": 12.0,
@@ -45,10 +45,10 @@
"rotation": -53.97262661489646 "rotation": -53.97262661489646
}, },
"reversed": false, "reversed": false,
"folder": null, "folder": "Left Paths",
"idealStartingState": { "idealStartingState": {
"velocity": 0, "velocity": 0,
"rotation": -120.06858282186238 "rotation": -120.06858282186238
}, },
"useDefaultConstraints": true "useDefaultConstraints": false
} }

8
src/main/deploy/pathplanner/paths/330 Right to HP.path
View File

@@ -45,8 +45,8 @@
} }
], ],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 5.0,
"maxAcceleration": 1.0, "maxAcceleration": 3.5,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0, "nominalVoltage": 12.0,
@@ -57,10 +57,10 @@
"rotation": -53.98486432191523 "rotation": -53.98486432191523
}, },
"reversed": false, "reversed": false,
"folder": null, "folder": "Left Paths",
"idealStartingState": { "idealStartingState": {
"velocity": 0, "velocity": 0,
"rotation": -59.99999999999999 "rotation": -59.99999999999999
}, },
"useDefaultConstraints": true "useDefaultConstraints": false
} }

4
src/main/deploy/pathplanner/paths/E to HP.path
View File

@@ -52,8 +52,8 @@
} }
], ],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 3.5,
"maxAcceleration": 1.0, "maxAcceleration": 1.75,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0, "nominalVoltage": 12.0,

26
src/main/deploy/pathplanner/paths/H Backup.path
View File

@@ -3,29 +3,29 @@
"waypoints": [ "waypoints": [
{ {
"anchor": { "anchor": {
"x": 5.7, "x": 5.758260140458621,
"y": 4.3 "y": 4.193633481772718
}, },
"prevControl": null, "prevControl": null,
"nextControl": { "nextControl": {
"x": 6.053790983606557, "x": 6.112051124065178,
"y": 4.312704918032787 "y": 4.206338399805505
}, },
"isLocked": false, "isLocked": false,
"linkedName": "H" "linkedName": "H"
}, },
{ {
"anchor": { "anchor": {
"x": 6.389446721311475, "x": 6.5,
"y": 4.3 "y": 4.021985060730393
}, },
"prevControl": { "prevControl": {
"x": 6.1394487099079695, "x": 6.250001988596495,
"y": 4.300997143065429 "y": 4.022982203795822
}, },
"nextControl": null, "nextControl": null,
"isLocked": false, "isLocked": false,
"linkedName": null "linkedName": "Behind HG Face"
} }
], ],
"rotationTargets": [], "rotationTargets": [],
@@ -33,8 +33,8 @@
"pointTowardsZones": [], "pointTowardsZones": [],
"eventMarkers": [], "eventMarkers": [],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 3.5,
"maxAcceleration": 1.0, "maxAcceleration": 0.75,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0, "nominalVoltage": 12.0,
@@ -45,10 +45,10 @@
"rotation": 180.0 "rotation": 180.0
}, },
"reversed": false, "reversed": false,
"folder": null, "folder": "Center",
"idealStartingState": { "idealStartingState": {
"velocity": 0, "velocity": 0,
"rotation": 180.0 "rotation": 180.0
}, },
"useDefaultConstraints": true "useDefaultConstraints": false
} }

54
src/main/deploy/pathplanner/paths/HG Algae.path Normal file
View File

@@ -0,0 +1,54 @@
{
"version": "2025.0",
"waypoints": [
{
"anchor": {
"x": 6.5,
"y": 4.021985060730393
},
"prevControl": null,
"nextControl": {
"x": 6.224227344787433,
"y": 4.009974315068493
},
"isLocked": false,
"linkedName": "Behind HG Face"
},
{
"anchor": {
"x": 5.872671261177789,
"y": 4.021985060730393
},
"prevControl": {
"x": 6.125859753477119,
"y": 4.004837296105254
},
"nextControl": null,
"isLocked": false,
"linkedName": "HG Algae"
}
],
"rotationTargets": [],
"constraintZones": [],
"pointTowardsZones": [],
"eventMarkers": [],
"globalConstraints": {
"maxVelocity": 3.5,
"maxAcceleration": 1.75,
"maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0,
"unlimited": false
},
"goalEndState": {
"velocity": 0,
"rotation": 180.0
},
"reversed": false,
"folder": "Center",
"idealStartingState": {
"velocity": 0,
"rotation": 180.0
},
"useDefaultConstraints": true
}

71
src/main/deploy/pathplanner/paths/HG to Barge.path Normal file
View File

@@ -0,0 +1,71 @@
{
"version": "2025.0",
"waypoints": [
{
"anchor": {
"x": 5.872671261177789,
"y": 4.021985060730393
},
"prevControl": null,
"nextControl": {
"x": 7.829105562465259,
"y": 3.8676166530198106
},
"isLocked": false,
"linkedName": "HG Algae"
},
{
"anchor": {
"x": 7.032020547945206,
"y": 4.761258561643835
},
"prevControl": {
"x": 7.262336691900294,
"y": 4.359747737103425
},
"nextControl": null,
"isLocked": false,
"linkedName": "Pre-Barge"
}
],
"rotationTargets": [
{
"waypointRelativePos": 0.17234468937875755,
"rotationDegrees": 180.0
}
],
"constraintZones": [],
"pointTowardsZones": [],
"eventMarkers": [
{
"name": "Processor Position",
"waypointRelativePos": 0.188095238095238,
"endWaypointRelativePos": null,
"command": {
"type": "named",
"data": {
"name": "Processor Position"
}
}
}
],
"globalConstraints": {
"maxVelocity": 3.5,
"maxAcceleration": 1.75,
"maxAngularVelocity": 360.0,
"maxAngularAcceleration": 300.0,
"nominalVoltage": 12.0,
"unlimited": false
},
"goalEndState": {
"velocity": 0,
"rotation": 0.0
},
"reversed": false,
"folder": "Center",
"idealStartingState": {
"velocity": 0,
"rotation": 180.0
},
"useDefaultConstraints": false
}

66
src/main/deploy/pathplanner/paths/HP to 330 Right.path Normal file
View File

@@ -0,0 +1,66 @@
{
"version": "2025.0",
"waypoints": [
{
"anchor": {
"x": 1.1268442622950818,
"y": 7.201741803278688
},
"prevControl": null,
"nextControl": {
"x": 2.0019467213114757,
"y": 6.434528688524591
},
"isLocked": false,
"linkedName": "HP Left Position"
},
{
"anchor": {
"x": 3.609900518622585,
"y": 5.005924534374863
},
"prevControl": {
"x": 3.2943611350609414,
"y": 5.531823506977602
},
"nextControl": null,
"isLocked": false,
"linkedName": "L"
}
],
"rotationTargets": [],
"constraintZones": [],
"pointTowardsZones": [],
"eventMarkers": [
{
"name": "Lift L4",
"waypointRelativePos": 0.0,
"endWaypointRelativePos": null,
"command": {
"type": "named",
"data": {
"name": "Lift L4"
}
}
}
],
"globalConstraints": {
"maxVelocity": 3.5,
"maxAcceleration": 1.25,
"maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0,
"unlimited": false
},
"goalEndState": {
"velocity": 0,
"rotation": -59.69923999693802
},
"reversed": false,
"folder": "Left Paths",
"idealStartingState": {
"velocity": 0,
"rotation": -53.97262661489646
},
"useDefaultConstraints": false
}

4
src/main/deploy/pathplanner/paths/HP to D.path
View File

@@ -52,8 +52,8 @@
} }
], ],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 3.5,
"maxAcceleration": 1.0, "maxAcceleration": 1.75,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0, "nominalVoltage": 12.0,

66
src/main/deploy/pathplanner/paths/HP to K.path Normal file
View File

@@ -0,0 +1,66 @@
{
"version": "2025.0",
"waypoints": [
{
"anchor": {
"x": 1.1268442622950818,
"y": 7.201741803278688
},
"prevControl": null,
"nextControl": {
"x": 1.9266540815180775,
"y": 6.744320542331013
},
"isLocked": false,
"linkedName": "HP Left Position"
},
{
"anchor": {
"x": 3.9679303278688525,
"y": 5.211782786885246
},
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"y": 6.023416095890411
},
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"isLocked": false,
"linkedName": null
}
],
"rotationTargets": [],
"constraintZones": [],
"pointTowardsZones": [],
"eventMarkers": [
{
"name": "Lift L4",
"waypointRelativePos": 0.0,
"endWaypointRelativePos": null,
"command": {
"type": "named",
"data": {
"name": "Lift L4"
}
}
}
],
"globalConstraints": {
"maxVelocity": 5.0,
"maxAcceleration": 1.5,
"maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0,
"unlimited": false
},
"goalEndState": {
"velocity": 0,
"rotation": -60.49491285058726
},
"reversed": false,
"folder": "Left Paths",
"idealStartingState": {
"velocity": 0,
"rotation": -53.97262661489646
},
"useDefaultConstraints": false
}

4
src/main/deploy/pathplanner/paths/J Approach.path
View File

@@ -33,8 +33,8 @@
"pointTowardsZones": [], "pointTowardsZones": [],
"eventMarkers": [], "eventMarkers": [],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 3.5,
"maxAcceleration": 1.0, "maxAcceleration": 1.75,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0, "nominalVoltage": 12.0,

4
src/main/deploy/pathplanner/paths/J Backup.path
View File

@@ -33,8 +33,8 @@
"pointTowardsZones": [], "pointTowardsZones": [],
"eventMarkers": [], "eventMarkers": [],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 3.5,
"maxAcceleration": 1.0, "maxAcceleration": 1.75,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0, "nominalVoltage": 12.0,

22
src/main/deploy/pathplanner/paths/K Approach.path
View File

@@ -3,25 +3,25 @@
"waypoints": [ "waypoints": [
{ {
"anchor": { "anchor": {
"x": 3.6202868852459016, "x": 3.35655737704918,
"y": 5.859118852459017 "y": 5.78719262295082
}, },
"prevControl": null, "prevControl": null,
"nextControl": { "nextControl": {
"x": 3.6663590190101236, "x": 3.402629510813402,
"y": 5.6134008057257505 "y": 5.541474576217554
}, },
"isLocked": false, "isLocked": false,
"linkedName": "Before K" "linkedName": "Before K"
}, },
{ {
"anchor": { "anchor": {
"x": 3.7290765411991873, "x": 3.6322745901639335,
"y": 5.091647695859483 "y": 5.019979508196721
}, },
"prevControl": { "prevControl": {
"x": 3.693113426445089, "x": 3.596311475409835,
"y": 5.343389499138171 "y": 5.271721311475409
}, },
"nextControl": null, "nextControl": null,
"isLocked": false, "isLocked": false,
@@ -33,8 +33,8 @@
"pointTowardsZones": [], "pointTowardsZones": [],
"eventMarkers": [], "eventMarkers": [],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 1.0,
"maxAcceleration": 1.0, "maxAcceleration": 0.5,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0, "nominalVoltage": 12.0,
@@ -50,5 +50,5 @@
"velocity": 0, "velocity": 0,
"rotation": -59.69923999693802 "rotation": -59.69923999693802
}, },
"useDefaultConstraints": true "useDefaultConstraints": false
} }

38
src/main/deploy/pathplanner/paths/HP to 330 Left.path → src/main/deploy/pathplanner/paths/L Backup.path
View File

@@ -3,29 +3,29 @@
"waypoints": [ "waypoints": [
{ {
"anchor": { "anchor": {
"x": 1.1987704918032787, "x": 3.609900518622585,
"y": 7.189754098360656 "y": 5.005924534374863
}, },
"prevControl": null, "prevControl": null,
"nextControl": { "nextControl": {
"x": 2.490979395912868, "x": 3.47740078362179,
"y": 6.964368824388053 "y": 5.217924110376135
}, },
"isLocked": false, "isLocked": false,
"linkedName": "HP Left Position" "linkedName": "L"
}, },
{ {
"anchor": { "anchor": {
"x": 3.6202868852459016, "x": 1.1268442622950818,
"y": 5.859118852459017 "y": 7.201741803278688
}, },
"prevControl": { "prevControl": {
"x": 3.304747501684258, "x": 1.3306352459016395,
"y": 6.385017825061756 "y": 6.926024590163935
}, },
"nextControl": null, "nextControl": null,
"isLocked": false, "isLocked": false,
"linkedName": "Before K" "linkedName": "HP Left Position"
} }
], ],
"rotationTargets": [], "rotationTargets": [],
@@ -33,22 +33,22 @@
"pointTowardsZones": [], "pointTowardsZones": [],
"eventMarkers": [], "eventMarkers": [],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 5.0,
"maxAcceleration": 1.0, "maxAcceleration": 3.5,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0, "nominalVoltage": 12.0,
"unlimited": false "unlimited": false
}, },
"goalEndState": { "goalEndState": {
"velocity": 0,
"rotation": -59.69923999693802
},
"reversed": false,
"folder": null,
"idealStartingState": {
"velocity": 0, "velocity": 0,
"rotation": -53.97262661489646 "rotation": -53.97262661489646
}, },
"useDefaultConstraints": true "reversed": false,
"folder": "Left Paths",
"idealStartingState": {
"velocity": 0,
"rotation": -59.69923999693802
},
"useDefaultConstraints": false
} }

29
src/main/deploy/pathplanner/paths/New Path.path
View File

@@ -16,12 +16,12 @@
}, },
{ {
"anchor": { "anchor": {
"x": 12.272, "x": 3.756421232876712,
"y": 2.975 "y": 5.227054794520548
}, },
"prevControl": { "prevControl": {
"x": 10.940715672291898, "x": 2.756421232876712,
"y": 2.975 "y": 5.227054794520548
}, },
"nextControl": null, "nextControl": null,
"isLocked": false, "isLocked": false,
@@ -30,22 +30,11 @@
], ],
"rotationTargets": [], "rotationTargets": [],
"constraintZones": [], "constraintZones": [],
"pointTowardsZones": [ "pointTowardsZones": [],
{
"fieldPosition": {
"x": 0.4,
"y": 5.5
},
"rotationOffset": 0.0,
"minWaypointRelativePos": 0.15,
"maxWaypointRelativePos": 0.4,
"name": "Point Towards Zone"
}
],
"eventMarkers": [], "eventMarkers": [],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 3.5,
"maxAcceleration": 1.0, "maxAcceleration": 1.75,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0, "nominalVoltage": 12.0,
@@ -53,10 +42,10 @@
}, },
"goalEndState": { "goalEndState": {
"velocity": 0, "velocity": 0,
"rotation": 59.99999999999999 "rotation": -59.18537788806707
}, },
"reversed": false, "reversed": false,
"folder": null, "folder": "Left Paths",
"idealStartingState": { "idealStartingState": {
"velocity": 0, "velocity": 0,
"rotation": 0.0 "rotation": 0.0

54
src/main/deploy/pathplanner/paths/Post-Barge Backup.path Normal file
View File

@@ -0,0 +1,54 @@
{
"version": "2025.0",
"waypoints": [
{
"anchor": {
"x": 7.032020547945206,
"y": 4.761258561643835
},
"prevControl": null,
"nextControl": {
"x": 6.71311475409836,
"y": 4.9480532786885245
},
"isLocked": false,
"linkedName": "Pre-Barge"
},
{
"anchor": {
"x": 5.933913934426228,
"y": 5.247745901639345
},
"prevControl": {
"x": 6.641188524590164,
"y": 5.043954918032786
},
"nextControl": null,
"isLocked": false,
"linkedName": null
}
],
"rotationTargets": [],
"constraintZones": [],
"pointTowardsZones": [],
"eventMarkers": [],
"globalConstraints": {
"maxVelocity": 3.5,
"maxAcceleration": 1.0,
"maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0,
"unlimited": false
},
"goalEndState": {
"velocity": 0,
"rotation": 0.0
},
"reversed": false,
"folder": "Center",
"idealStartingState": {
"velocity": 0,
"rotation": 0.0
},
"useDefaultConstraints": false
}

4
src/main/deploy/pathplanner/paths/Right Start to E.path
View File

@@ -52,8 +52,8 @@
} }
], ],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 3.5,
"maxAcceleration": 1.0, "maxAcceleration": 1.75,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0, "nominalVoltage": 12.0,

16
src/main/deploy/pathplanner/paths/Start to 30 Right.path
View File

@@ -3,13 +3,13 @@
"waypoints": [ "waypoints": [
{ {
"anchor": { "anchor": {
"x": 7.1686475409836055, "x": 7.150967037968244,
"y": 7.573360655737705 "y": 7.5521014571037055
}, },
"prevControl": null, "prevControl": null,
"nextControl": { "nextControl": {
"x": 5.933913934426228, "x": 5.916233431410867,
"y": 6.5544057377049185 "y": 6.533146539070919
}, },
"isLocked": false, "isLocked": false,
"linkedName": null "linkedName": null
@@ -45,8 +45,8 @@
} }
], ],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 3.5,
"maxAcceleration": 1.0, "maxAcceleration": 1.25,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0, "nominalVoltage": 12.0,
@@ -57,10 +57,10 @@
"rotation": -119.71497744813712 "rotation": -119.71497744813712
}, },
"reversed": false, "reversed": false,
"folder": null, "folder": "Left Paths",
"idealStartingState": { "idealStartingState": {
"velocity": 0, "velocity": 0,
"rotation": -90.0 "rotation": -90.0
}, },
"useDefaultConstraints": true "useDefaultConstraints": false
} }

28
src/main/deploy/pathplanner/paths/Start to H.path
View File

@@ -16,12 +16,12 @@
}, },
{ {
"anchor": { "anchor": {
"x": 5.7, "x": 5.758260140458621,
"y": 4.3 "y": 4.193633481772718
}, },
"prevControl": { "prevControl": {
"x": 6.347336065573771, "x": 6.405596206032391,
"y": 4.2640368852459005 "y": 4.157670367018619
}, },
"nextControl": null, "nextControl": null,
"isLocked": false, "isLocked": false,
@@ -31,9 +31,21 @@
"rotationTargets": [], "rotationTargets": [],
"constraintZones": [], "constraintZones": [],
"pointTowardsZones": [], "pointTowardsZones": [],
"eventMarkers": [], "eventMarkers": [
{
"name": "Lift L4",
"waypointRelativePos": 0.10238095238095252,
"endWaypointRelativePos": null,
"command": {
"type": "named",
"data": {
"name": "Lift L4"
}
}
}
],
"globalConstraints": { "globalConstraints": {
"maxVelocity": 2.0, "maxVelocity": 3.5,
"maxAcceleration": 1.0, "maxAcceleration": 1.0,
"maxAngularVelocity": 540.0, "maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0, "maxAngularAcceleration": 400.0,
@@ -45,10 +57,10 @@
"rotation": 180.0 "rotation": 180.0
}, },
"reversed": false, "reversed": false,
"folder": null, "folder": "Center",
"idealStartingState": { "idealStartingState": {
"velocity": 0, "velocity": 0,
"rotation": 180.0 "rotation": 180.0
}, },
"useDefaultConstraints": true "useDefaultConstraints": false
} }

70
src/main/deploy/pathplanner/paths/fein.path
View File

@@ -1,70 +0,0 @@
{
"version": "2025.0",
"waypoints": [
{
"anchor": {
"x": 7.600204918039607,
"y": 6.374590163938041
},
"prevControl": null,
"nextControl": {
"x": 7.600204918032786,
"y": 7.573360655737705
},
"isLocked": false,
"linkedName": null
},
{
"anchor": {
"x": 6.209631147540984,
"y": 6.074897540983606
},
"prevControl": {
"x": 7.120696721311476,
"y": 6.074897540983606
},
"nextControl": {
"x": 4.745363537952068,
"y": 6.074897540983606
},
"isLocked": false,
"linkedName": null
},
{
"anchor": {
"x": 4.8670081967213115,
"y": 6.973975409836065
},
"prevControl": {
"x": 5.826024590163935,
"y": 6.9979508196721305
},
"nextControl": null,
"isLocked": false,
"linkedName": null
}
],
"rotationTargets": [],
"constraintZones": [],
"pointTowardsZones": [],
"eventMarkers": [],
"globalConstraints": {
"maxVelocity": 2.0,
"maxAcceleration": 1.0,
"maxAngularVelocity": 540.0,
"maxAngularAcceleration": 400.0,
"nominalVoltage": 12.0,
"unlimited": false
},
"goalEndState": {
"velocity": 0,
"rotation": 90.0
},
"reversed": false,
"folder": null,
"idealStartingState": {
"velocity": 0,
"rotation": 180.0
},
"useDefaultConstraints": true
}

9
src/main/deploy/pathplanner/settings.json
View File

@@ -2,10 +2,13 @@
"robotWidth": 0.8763, "robotWidth": 0.8763,
"robotLength": 0.8763, "robotLength": 0.8763,
"holonomicMode": true, "holonomicMode": true,
"pathFolders": [], "pathFolders": [
"Left Paths",
"Center"
],
"autoFolders": [], "autoFolders": [],
"defaultMaxVel": 2.0, "defaultMaxVel": 3.5,
"defaultMaxAccel": 1.0, "defaultMaxAccel": 1.75,
"defaultMaxAngVel": 540.0, "defaultMaxAngVel": 540.0,
"defaultMaxAngAccel": 400.0, "defaultMaxAngAccel": 400.0,
"defaultNominalVoltage": 12.0, "defaultNominalVoltage": 12.0,

214
src/main/java/frc/robot/RobotContainer.java
View File

@@ -7,11 +7,9 @@ package frc.robot;
import frc.robot.constants.ManipulatorPivotConstants; import frc.robot.constants.ManipulatorPivotConstants;
import frc.robot.constants.ClimberPivotConstants; import frc.robot.constants.ClimberPivotConstants;
import frc.robot.constants.ElevatorConstants; import frc.robot.constants.ElevatorConstants;
import frc.robot.constants.ManipulatorConstants;
import frc.robot.constants.OIConstants; import frc.robot.constants.OIConstants;
import frc.robot.constants.VisionConstants; import frc.robot.constants.VisionConstants;
import frc.robot.subsystems.ManipulatorPivot; import frc.robot.subsystems.ManipulatorPivot;
import frc.robot.subsystems.Vision;
import frc.robot.subsystems.ClimberPivot; import frc.robot.subsystems.ClimberPivot;
import frc.robot.subsystems.ClimberRollers; import frc.robot.subsystems.ClimberRollers;
import frc.robot.subsystems.Drivetrain; import frc.robot.subsystems.Drivetrain;
@@ -22,8 +20,7 @@ import java.util.function.IntSupplier;
import com.pathplanner.lib.auto.AutoBuilder; import com.pathplanner.lib.auto.AutoBuilder;
import com.pathplanner.lib.auto.NamedCommands; import com.pathplanner.lib.auto.NamedCommands;
import com.pathplanner.lib.events.EventTrigger; import com.pathplanner.lib.commands.PathPlannerAuto;
import com.pathplanner.lib.path.EventMarker;
import edu.wpi.first.math.geometry.Rotation2d; import edu.wpi.first.math.geometry.Rotation2d;
import edu.wpi.first.math.util.Units; import edu.wpi.first.math.util.Units;
@@ -33,9 +30,7 @@ import edu.wpi.first.wpilibj.shuffleboard.ShuffleboardTab;
import edu.wpi.first.wpilibj.smartdashboard.SendableChooser; import edu.wpi.first.wpilibj.smartdashboard.SendableChooser;
import edu.wpi.first.wpilibj2.command.Command; import edu.wpi.first.wpilibj2.command.Command;
import edu.wpi.first.wpilibj2.command.Commands; import edu.wpi.first.wpilibj2.command.Commands;
import edu.wpi.first.wpilibj2.command.InstantCommand;
import edu.wpi.first.wpilibj2.command.button.CommandXboxController; import edu.wpi.first.wpilibj2.command.button.CommandXboxController;
import edu.wpi.first.wpilibj2.command.button.Trigger;
public class RobotContainer { public class RobotContainer {
private ClimberPivot climberPivot; private ClimberPivot climberPivot;
@@ -47,6 +42,8 @@ public class RobotContainer {
private Elevator elevator; private Elevator elevator;
//private ElevatorSysID elevator; //private ElevatorSysID elevator;
//private Indexer indexer;
private Manipulator manipulator; private Manipulator manipulator;
private ManipulatorPivot manipulatorPivot; private ManipulatorPivot manipulatorPivot;
@@ -68,6 +65,8 @@ public class RobotContainer {
elevator = new Elevator(); elevator = new Elevator();
//elevator = new ElevatorSysID(); //elevator = new ElevatorSysID();
//indexer = new Indexer();
manipulator = new Manipulator(); manipulator = new Manipulator();
manipulatorPivot = new ManipulatorPivot(); manipulatorPivot = new ManipulatorPivot();
@@ -78,6 +77,9 @@ public class RobotContainer {
operator = new CommandXboxController(OIConstants.kOperatorControllerPort); operator = new CommandXboxController(OIConstants.kOperatorControllerPort);
autoChooser = AutoBuilder.buildAutoChooser(); autoChooser = AutoBuilder.buildAutoChooser();
autoChooser.addOption("One Coral Left", new PathPlannerAuto("One Coral Left", true));
autoChooser.addOption("2.5 Coral Right", new PathPlannerAuto("2.5 Coral Left", true));
autoChooser.addOption("3 Coral Right", new PathPlannerAuto("3 Coral Left", true));
closestTag = drivetrain::getClosestTag; closestTag = drivetrain::getClosestTag;
@@ -109,9 +111,9 @@ public class RobotContainer {
drivetrain.setDefaultCommand( drivetrain.setDefaultCommand(
drivetrain.drive( drivetrain.drive(
() -> driver.getLeftY() * Math.pow(Math.abs(driver.getLeftY()) + Math.abs(driver.getLeftX()), 3), () -> Math.pow(driver.getLeftY(), 3),
() -> driver.getLeftX() * Math.pow(Math.abs(driver.getLeftY()) + Math.abs(driver.getLeftX()), 3), () -> Math.pow(driver.getLeftX(), 3),
driver::getRightX, //Math.signum(driver.getRightX()) * Math.pow(driver.getRightX(), 3) () -> driver.getRightX(),
() -> true () -> true
) )
); );
@@ -119,6 +121,10 @@ public class RobotContainer {
elevator.setDefaultCommand( elevator.setDefaultCommand(
elevator.maintainPosition() elevator.maintainPosition()
); );
//indexer.setDefaultCommand(
// indexer.runIndexer(() -> 0)
//);
manipulatorPivot.setDefaultCommand( manipulatorPivot.setDefaultCommand(
@@ -142,6 +148,7 @@ public class RobotContainer {
driver.leftTrigger().whileTrue( driver.leftTrigger().whileTrue(
manipulator.runUntilCollected(() -> 0.75) manipulator.runUntilCollected(() -> 0.75)
//.alongWith(indexer.runIndexer(() -> .75))
.until(() -> manipulator.getCoralBeamBreak() == false) .until(() -> manipulator.getCoralBeamBreak() == false)
.andThen(manipulator.retractCommand(() -> .1)) .andThen(manipulator.retractCommand(() -> .1))
); );
@@ -155,9 +162,20 @@ public class RobotContainer {
driver.a().whileTrue(manipulator.runManipulator(() -> -0.5, false)); driver.a().whileTrue(manipulator.runManipulator(() -> -0.5, false));
driver.b().whileTrue(manipulator.runManipulator(() -> -0.35, true)); driver.b().whileTrue(manipulator.runManipulator(() -> -0.35, true));
driver.x().whileTrue(manipulator.runManipulator(() -> -0.2, true));
driver.start().whileTrue(drivetrain.resetToVision()); driver.start().whileTrue(drivetrain.resetToVision());
driver.povUp().whileTrue(
drivetrain.resetToVision().andThen(
drivetrain.goToPose(
() -> VisionConstants.algaeSetpointsMap[closestTag.getAsInt()][0],
() -> VisionConstants.algaeSetpointsMap[closestTag.getAsInt()][1],
() -> Rotation2d.fromRadians(Units.degreesToRadians(VisionConstants.globalTagCoords[closestTag.getAsInt()][3]+180))
))
);
driver.rightBumper().whileTrue( driver.rightBumper().whileTrue(
drivetrain.resetToVision().andThen( drivetrain.resetToVision().andThen(
drivetrain.goToPose( drivetrain.goToPose(
@@ -207,7 +225,9 @@ public class RobotContainer {
operator.back().onTrue(elevator.homeCommand()); operator.back().onTrue(elevator.homeCommand());
operator.start().toggleOnTrue(climberPivot.runPivot(() -> -operator.getRightY()*0.5).alongWith(climberRollers.runRoller(() -> operator.getLeftY()*0.5))); operator.start().toggleOnTrue(
climberPivot.runPivot(() -> -operator.getRightY())
.alongWith(climberRollers.runRoller(() -> operator.getLeftY())));
operator.a().onTrue( operator.a().onTrue(
safeMoveManipulator(ElevatorConstants.kCoralIntakePosition, ManipulatorPivotConstants.kStartingPosition) safeMoveManipulator(ElevatorConstants.kCoralIntakePosition, ManipulatorPivotConstants.kStartingPosition)
@@ -237,12 +257,122 @@ public class RobotContainer {
//new EventTrigger("Lift L4").onTrue(safeMoveManipulator(ElevatorConstants.kL4Position, ManipulatorPivotConstants.kL4Position)); //new EventTrigger("Lift L4").onTrue(safeMoveManipulator(ElevatorConstants.kL4Position, ManipulatorPivotConstants.kL4Position));
//new EventTrigger("HP Pickup").onTrue(safeMoveManipulator(ElevatorConstants.kL4Position, ManipulatorPivotConstants.kL4Position)); //new EventTrigger("HP Pickup").onTrue(safeMoveManipulator(ElevatorConstants.kL4Position, ManipulatorPivotConstants.kL4Position));
NamedCommands.registerCommand("Drivetrain Set X", drivetrain.setXCommand()); NamedCommands.registerCommand(
NamedCommands.registerCommand("Shoot Coral L4", Commands.race(manipulator.runManipulator(() -> 0.4, true).withTimeout(1).andThen(manipulator.runManipulator(() -> 0.0, false).withTimeout(0.1)), Commands.parallel(elevator.maintainPosition(), manipulatorPivot.maintainPosition()))); "Drivetrain Set X",
NamedCommands.registerCommand("Collect Coral", manipulator.runUntilCollected(() -> 0.30).until(() -> manipulator.getCoralBeamBreak() == false).andThen(manipulator.runManipulator(() -> 0, false)).withTimeout(0.1)); drivetrain.setXCommand()
NamedCommands.registerCommand("Lift L4", safeMoveManipulator(ElevatorConstants.kL4Position, ManipulatorPivotConstants.kL4Position) );
.andThen(elevator.maintainPosition().withTimeout(0.1), manipulatorPivot.maintainPosition().withTimeout(0.1)));
NamedCommands.registerCommand("HP Pickup", safeMoveManipulator(ElevatorConstants.kCoralIntakePosition, ManipulatorPivotConstants.kStartingPosition)); NamedCommands.registerCommand(
"Shoot Coral L4",
Commands.race(
manipulator.runManipulator(
() -> 0.4,
true
).withTimeout(
0.5
).andThen(
manipulator.runManipulator(
() -> 0.0,
false
).withTimeout(
0.01
)
),
Commands.parallel(
elevator.maintainPosition(),
manipulatorPivot.maintainPosition()
)
)
);
NamedCommands.registerCommand(
"Shoot Coral L4 Fast",
Commands.race(
manipulator.runManipulator(
() -> 1,
true
).andThen(
manipulator.runManipulator(
() -> 1,
true
).withTimeout(
0.125
)
).withTimeout(
3
).andThen(
manipulator.runManipulator(
() -> 0,
true
)
),
Commands.parallel(
elevator.maintainPosition(),
manipulatorPivot.maintainPosition()
)
)
);
NamedCommands.registerCommand(
"Collect Coral",
manipulator.runUntilCollected(
() -> 0.30
).andThen(
manipulator.runManipulator(
() -> 0,
false
).withTimeout(
0.01
)
)
);
NamedCommands.registerCommand(
"Lift L4",
safeMoveManipulator(
ElevatorConstants.kL4Position,
ManipulatorPivotConstants.kL4Position
).andThen(
elevator.maintainPosition()
.withTimeout(
0.1
),
manipulatorPivot.maintainPosition()
.withTimeout(
0.1
)
)
);
NamedCommands.registerCommand(
"HP Pickup",
safeMoveManipulator(
ElevatorConstants.kCoralIntakePosition,
ManipulatorPivotConstants.kStartingPosition
)
);
NamedCommands.registerCommand(
"Shoot Algae",
shootAlgae().withTimeout(2)
);
NamedCommands.registerCommand(
"Processor Position",
moveWithAlgae(ElevatorConstants.kProcessorPosition, ManipulatorPivotConstants.kProcessorPosition)
.raceWith(manipulator.runManipulator(() -> 0.85, false))
);
NamedCommands.registerCommand(
"Pickup Algae L2",
moveWithAlgae(ElevatorConstants.kL2AlgaePosition, ManipulatorPivotConstants.kL2AlgaePosition)
.raceWith(manipulator.runManipulator(() -> 0.85, false))
.andThen(
elevator.maintainPosition()
.alongWith(manipulatorPivot.maintainPosition())).withTimeout(0.1)
//Dont you need a holdPosition call?
);
} }
//creates tabs and transforms them on the shuffleboard //creates tabs and transforms them on the shuffleboard
@@ -261,7 +391,7 @@ public class RobotContainer {
sensorTab.addDouble("Elevator Position", elevator::getEncoderPosition) sensorTab.addDouble("Elevator Position", elevator::getEncoderPosition)
.withSize(2, 1) .withSize(2, 1)
.withPosition(0, 0) .withPosition(0, 0)
.withWidget(BuiltInWidgets.kGraph); .withWidget(BuiltInWidgets.kTextView);
sensorTab.addDouble("Manipulator Position", manipulatorPivot::getEncoderPosition) sensorTab.addDouble("Manipulator Position", manipulatorPivot::getEncoderPosition)
.withSize(2, 1) .withSize(2, 1)
@@ -294,32 +424,8 @@ public class RobotContainer {
sensorTab.addDouble("ElevMotor2", elevator::getMotor2) sensorTab.addDouble("ElevMotor2", elevator::getMotor2)
.withWidget(BuiltInWidgets.kGraph); .withWidget(BuiltInWidgets.kGraph);
sensorTab.addDouble("Elevator setpoint up", elevator::getPIDUpSetpoint)
.withSize(1, 1)
.withPosition(5, 0)
.withWidget(BuiltInWidgets.kTextView);
sensorTab.addDouble("Elevator error up", elevator::getPIDUpError)
.withSize(1, 1)
.withPosition(5, 1)
.withWidget(BuiltInWidgets.kTextView);
sensorTab.addDouble("Elevator setpoint down", elevator::getPIDDownSetpoint)
.withSize(1, 1)
.withPosition(5, 0)
.withWidget(BuiltInWidgets.kTextView);
sensorTab.addDouble("Elevator error down", elevator::getPIDDownError)
.withSize(1, 1)
.withPosition(5, 1)
.withWidget(BuiltInWidgets.kTextView);
sensorTab.addDouble("manipulator output", manipulatorPivot::getPivotOutput); sensorTab.addDouble("manipulator output", manipulatorPivot::getPivotOutput);
sensorTab.addDouble("manipulator cg position", manipulatorPivot::getCGPosition);
sensorTab.addDouble("dt distance", drivetrain::driveDistance);
sensorTab.addDouble("velocity", drivetrain::getVelocity); sensorTab.addDouble("velocity", drivetrain::getVelocity);
sensorTab.addDouble("heading", drivetrain::getHeading); sensorTab.addDouble("heading", drivetrain::getHeading);
@@ -330,15 +436,15 @@ public class RobotContainer {
apriltagTab.addDouble("Orange ID", () -> drivetrain.vision.getOrangeClosestTag()) apriltagTab.addDouble("Orange ID", () -> drivetrain.vision.getOrangeClosestTag())
.withSize(1,1).withPosition(1,1); .withSize(1,1).withPosition(1,1);
apriltagTab.addDouble("Orange tx", () -> drivetrain.vision.getOrangeTX()) apriltagTab.addDouble("Orange tx", () -> drivetrain.vision.getOrangeTX())
.withSize(2,1).withPosition(2,1); .withSize(1,1).withPosition(2,1);
apriltagTab.addDouble("Orange ty", () -> drivetrain.vision.getOrangeTY()) apriltagTab.addDouble("Orange ty", () -> drivetrain.vision.getOrangeTY())
.withSize(3,1).withPosition(3,1); .withSize(1,1).withPosition(3,1);
apriltagTab.addDouble("Orange dist", () -> drivetrain.vision.getOrangeDist()) apriltagTab.addDouble("Orange dist", () -> drivetrain.vision.getOrangeDist())
.withSize(4,1).withPosition(4,1); .withSize(1,1).withPosition(4,1);
apriltagTab.addDouble("orange fps", () -> drivetrain.vision.getOrangeFPS()) apriltagTab.addDouble("orange fps", () -> drivetrain.vision.getOrangeFPS())
.withSize(6,1).withPosition(5,1); .withSize(1,1).withPosition(5,1);
apriltagTab.addBoolean("orange detected", () -> drivetrain.vision.getOrangeTagDetected()) apriltagTab.addBoolean("orange detected", () -> drivetrain.vision.getOrangeTagDetected())
.withSize(7,1).withPosition(6,1); .withSize(1,1).withPosition(6,1);
apriltagTab.addDouble("Black ID", () -> drivetrain.vision.getBlackClosestTag()) apriltagTab.addDouble("Black ID", () -> drivetrain.vision.getBlackClosestTag())
.withSize(1,1).withPosition(1,2); .withSize(1,1).withPosition(1,2);
@@ -354,7 +460,13 @@ public class RobotContainer {
.withSize(1,1).withPosition(6,2); .withSize(1,1).withPosition(6,2);
apriltagTab.addDouble("Closest tag", () -> drivetrain.getClosestTag()) apriltagTab.addDouble("Closest tag", () -> drivetrain.getClosestTag())
.withSize(1,1).withPosition(4,4); .withSize(2,1).withPosition(4,4);
apriltagTab.addBoolean("Is orange connected?", () -> drivetrain.vision.isOrangeConnected())
.withSize(2, 1).withPosition(4, 2);
apriltagTab.addBoolean("Is black connected?", () -> drivetrain.vision.isBlackConnected())
.withSize(2, 1).withPosition(6, 2);
} }
@@ -497,10 +609,10 @@ public class RobotContainer {
} }
private Command shootAlgae(){ private Command shootAlgae(){
return manipulatorPivot.goToSetpoint(() -> ManipulatorPivotConstants.kBargeShotPosition) return manipulatorPivot.goToSetpointAlgae(() -> ManipulatorPivotConstants.kBargeShotPosition)
.andThen(elevator.goToSetpoint(() -> ElevatorConstants.kL4Position), manipulatorPivot.goToSetpoint(() -> ManipulatorPivotConstants.kBargeShotPosition) .andThen(elevator.goToSetpointAlgae(() -> ElevatorConstants.kL4Position), manipulatorPivot.goToSetpointAlgae(() -> ManipulatorPivotConstants.kBargeShotPosition)
.raceWith(elevator.maintainPosition())).until(() -> elevator.getEncoderPosition()>44).andThen(manipulator.runManipulator(() -> -1, false), .raceWith(elevator.maintainPosition())).until(() -> elevator.getEncoderPosition()>36/* 44*/).andThen(manipulator.runManipulator(() -> -1, false),
elevator.goToSetpoint(() -> ElevatorConstants.kL4Position), manipulatorPivot.goToSetpoint(() -> ManipulatorPivotConstants.kBargeShotPosition) elevator.goToSetpointAlgae(() -> ElevatorConstants.kL4Position), manipulatorPivot.goToSetpointAlgae(() -> ManipulatorPivotConstants.kBargeShotPosition)
.raceWith(elevator.maintainPosition())); .raceWith(elevator.maintainPosition()));
} }

21
src/main/java/frc/robot/constants/AutoConstants.java
View File

@@ -11,25 +11,32 @@ import com.pathplanner.lib.controllers.PPHolonomicDriveController;
import edu.wpi.first.math.trajectory.TrapezoidProfile; import edu.wpi.first.math.trajectory.TrapezoidProfile;
public class AutoConstants { public class AutoConstants {
public static final double kMaxSpeedMetersPerSecond = 5.5; public static final double kMaxSpeedMetersPerSecond = 5;
public static final double kMaxAccelerationMetersPerSecondSquared = 3; public static final double kMaxAccelerationMetersPerSecondSquared = 4;
public static final double kMaxAngularSpeedRadiansPerSecond = Math.PI; public static final double kMaxAngularSpeedRadiansPerSecond = Math.PI;
public static final double kMaxAngularSpeedRadiansPerSecondSquared = Math.PI; public static final double kMaxAngularSpeedRadiansPerSecondSquared = Math.PI;
public static final double kPXController = 3; public static final double kMaxSpeedMetersPerSecondAutoAlign = 2.5;
public static final double kPYController = 3;
public static final double kPThetaController = 5.5; public static final double kPXYController = 3.5;
public static final double kPThetaController = 5;
public static final double kAlignPXYController = 2;
public static final double kAlignPThetaController = 5;
// Constraint for the motion profiled robot angle controller // Constraint for the motion profiled robot angle controller
public static final TrapezoidProfile.Constraints kThetaControllerConstraints = new TrapezoidProfile.Constraints( public static final TrapezoidProfile.Constraints kThetaControllerConstraints = new TrapezoidProfile.Constraints(
kMaxAngularSpeedRadiansPerSecond, kMaxAngularSpeedRadiansPerSecondSquared); kMaxAngularSpeedRadiansPerSecond, kMaxAngularSpeedRadiansPerSecondSquared);
public static final TrapezoidProfile.Constraints kAlignThetaControllerConstraints = new TrapezoidProfile.Constraints(
kMaxAngularSpeedRadiansPerSecond, kMaxAngularSpeedRadiansPerSecondSquared);
// TODO This is a constant being managed like a static rewriteable variable // TODO This is a constant being managed like a static rewriteable variable
public static RobotConfig kRobotConfig; public static RobotConfig kRobotConfig;
public static final PPHolonomicDriveController kPPDriveController = new PPHolonomicDriveController( public static final PPHolonomicDriveController kPPDriveController = new PPHolonomicDriveController(
new PIDConstants(kPXController, 0, 0), new PIDConstants(kPXYController, 0, 0),
new PIDConstants(kPYController, 0, 0) new PIDConstants(kPThetaController, 0, 0)
); );
static { static {

9
src/main/java/frc/robot/constants/ClimberRollersConstants.java
View File

@@ -1,9 +1,18 @@
package frc.robot.constants; package frc.robot.constants;
import com.revrobotics.spark.config.SparkMaxConfig; import com.revrobotics.spark.config.SparkMaxConfig;
import com.revrobotics.spark.config.SparkBaseConfig.IdleMode;
public class ClimberRollersConstants { public class ClimberRollersConstants {
public static final int kRollerMotorID = 9; public static final int kRollerMotorID = 9;
public static final SparkMaxConfig motorConfig = new SparkMaxConfig(); public static final SparkMaxConfig motorConfig = new SparkMaxConfig();
static {
motorConfig
.smartCurrentLimit(40)
.idleMode(IdleMode.kBrake)
.inverted(true);
}
} }

2
src/main/java/frc/robot/constants/DrivetrainConstants.java
View File

@@ -13,7 +13,7 @@ import edu.wpi.first.wpilibj2.command.sysid.SysIdRoutine.Config;
public class DrivetrainConstants { public class DrivetrainConstants {
// Driving Parameters - Note that these are not the maximum capable speeds of // Driving Parameters - Note that these are not the maximum capable speeds of
// the robot, rather the allowed maximum speeds // the robot, rather the allowed maximum speeds
public static final double kMaxSpeedMetersPerSecond = 5.5; public static final double kMaxSpeedMetersPerSecond = 5.5 * 0.75;
public static final double kMaxAngularSpeed = 2 * Math.PI; // radians per second public static final double kMaxAngularSpeed = 2 * Math.PI; // radians per second
// Chassis configuration // Chassis configuration

23
src/main/java/frc/robot/constants/ElevatorConstants.java
View File

@@ -5,6 +5,7 @@ import static edu.wpi.first.units.Units.Second;
import static edu.wpi.first.units.Units.Seconds; import static edu.wpi.first.units.Units.Seconds;
import com.revrobotics.spark.config.SparkMaxConfig; import com.revrobotics.spark.config.SparkMaxConfig;
import com.revrobotics.spark.config.ClosedLoopConfig.FeedbackSensor;
import com.revrobotics.spark.config.SparkBaseConfig.IdleMode; import com.revrobotics.spark.config.SparkBaseConfig.IdleMode;
import edu.wpi.first.wpilibj2.command.sysid.SysIdRoutine; import edu.wpi.first.wpilibj2.command.sysid.SysIdRoutine;
@@ -22,6 +23,7 @@ public class ElevatorConstants {
public static final int kCurrentLimit = 40; public static final int kCurrentLimit = 40;
/*
public static final double kUpControllerP = 5.6;//7; // public static final double kUpControllerP = 5.6;//7; //
public static final double kUpControllerI = 0; public static final double kUpControllerI = 0;
public static final double kUpControllerD = 0.28;//0.28 public static final double kUpControllerD = 0.28;//0.28
@@ -31,18 +33,25 @@ public class ElevatorConstants {
public static final double kDownControllerD = 0.57;//0.175;//0.1;//0.35 public static final double kDownControllerD = 0.57;//0.175;//0.1;//0.35
public static final double kMaintainP = 3; public static final double kMaintainP = 3;
*/
public static final double kP = 3;//7; //
public static final double kI = 0;
public static final double kD = 0;//.28;//0.28
public static final double kAllowedError = 1; public static final double kAllowedError = 1;
public static final double kFeedForwardS = (0.95 - 0.2)/2*0.8; /* kG too high - kG too low / 2 0.95, 0.2 */ public static final double kFeedForwardS = (0.95 - 0.2)/2*0.8; /* kG too high - kG too low / 2 0.95, 0.2 */
public static final double kFeedForwardG = (0.95 + 0.2)/2; /* kG too high + kG too low / 2 */ // calculated value 0.6 public static final double kFeedForwardG = (0.95 + 0.2)/2; /* kG too high + kG too low / 2 */ // calculated value 0.6
public static final double kFeedForwardV = 0.12; // calculated value 0.12 public static final double kFeedForwardV = 0.12; // calculated value 0.12
public static final double kMaxVelocity = 150.0; // 120 inches per second (COOKING) calculated max is 184 in/s public static final double kMaxVelocity = 100.0; // 100 inches per second (COOKING) calculated max is 184 in/s
public static final double kMaxAcceleration = 240; // 400 inches per second^2 (also COOKING) calculated max is 600 in/s^2 public static final double kMaxAcceleration = 50; // 50 inches per second^2 (also COOKING) calculated max is 600 in/s^2
public static final double kMaxVelocityAlgae = 120;
public static final double kMaxAccelerationAlgae = 400;
public static final double kCoralIntakePosition = 0; public static final double kCoralIntakePosition = 0;
public static final double kL1Position = 14; public static final double kL1Position = 17;
public static final double kL2Position = 11; public static final double kL2Position = 11;
public static final double kL3Position = 27; public static final double kL3Position = 27;
public static final double kL4Position = 50.5; public static final double kL4Position = 50.5;
@@ -56,6 +65,8 @@ public class ElevatorConstants {
public static final double kVoltageLimit = 7; public static final double kVoltageLimit = 7;
public static final double kVoltageLimitAlgae = 9;
// 1, 7, 10 are the defaults for these, change as necessary // 1, 7, 10 are the defaults for these, change as necessary
public static final double kSysIDRampRate = .25; public static final double kSysIDRampRate = .25;
public static final double kSysIDStepVolts = 3; public static final double kSysIDStepVolts = 3;
@@ -81,5 +92,9 @@ public class ElevatorConstants {
motorConfig.encoder motorConfig.encoder
.positionConversionFactor(kEncoderPositionConversionFactor) .positionConversionFactor(kEncoderPositionConversionFactor)
.velocityConversionFactor(kEncoderVelocityConversionFactor); .velocityConversionFactor(kEncoderVelocityConversionFactor);
motorConfig.closedLoop
.feedbackSensor(FeedbackSensor.kPrimaryEncoder)
.pid(kP, kI, kD)
.outputRange(-1, 1);
} }
} }

15
src/main/java/frc/robot/constants/IndexerConstants.java Normal file
View File

@@ -0,0 +1,15 @@
package frc.robot.constants;
import com.revrobotics.spark.config.SparkBaseConfig.IdleMode;
import com.revrobotics.spark.config.SparkMaxConfig;
public class IndexerConstants {
public static final int kIndexerMotorID = 16;
public static final SparkMaxConfig motorConfig = new SparkMaxConfig();
static{
motorConfig.smartCurrentLimit(30)
.idleMode(IdleMode.kBrake);
};
}

6
src/main/java/frc/robot/constants/ManipulatorPivotConstants.java
View File

@@ -23,7 +23,9 @@ public class ManipulatorPivotConstants {
public static final double kPositionalP = 4.5; public static final double kPositionalP = 4.5;
public static final double kPositionalI = 0; public static final double kPositionalI = 0;
public static final double kPositionalD = 0; public static final double kPositionalD = 0;
public static final double kPositionalTolerance = Units.degreesToRadians(1.5); public static final double kPositionalTolerance = Units.degreesToRadians(3);
public static final double kAlgaeP = 7;
public static final double kFeedForwardS = (0.3-0.19) / 2 * 0.8; //upper: 0.3 lower: 0.19 public static final double kFeedForwardS = (0.3-0.19) / 2 * 0.8; //upper: 0.3 lower: 0.19
public static final double kFeedForwardG = (0.3+0.19) / 2; // calculated value 0.41 public static final double kFeedForwardG = (0.3+0.19) / 2; // calculated value 0.41
@@ -34,7 +36,7 @@ public class ManipulatorPivotConstants {
public static final double kMaxAcceleration = Units.degreesToRadians(1000.0); // degrees per second^2 calculated max = 2100 public static final double kMaxAcceleration = Units.degreesToRadians(1000.0); // degrees per second^2 calculated max = 2100
public static final double kMaxVelocity = Units.degreesToRadians(100.0); // degrees per second calculated max = 168 public static final double kMaxVelocity = Units.degreesToRadians(100.0); // degrees per second calculated max = 168
public static final double kEncoderOffset = 0.78-0.25; public static final double kEncoderOffset = 0.04500000178813934;
public static final double kStartingPosition = Units.degreesToRadians(90); public static final double kStartingPosition = Units.degreesToRadians(90);
public static final double kCoralIntakePosition = Units.degreesToRadians(175.0+90); public static final double kCoralIntakePosition = Units.degreesToRadians(175.0+90);

26
src/main/java/frc/robot/constants/VisionConstants.java
View File

@@ -59,6 +59,32 @@ public class VisionConstants {
{4.993, 2.816, 5.272, 2.996} {4.993, 2.816, 5.272, 2.996}
}; };
public static final double[][] algaeSetpointsMap = {
{},
{},
{},
{},
{},
{},
{13.906, 2.658},//6
{14.661, 4.013},
{13.834, 5.428},
{12.263, 5.452},
{11.412, 4.025},
{12.191, 2.574},//11
{},
{},
{},
{},
{},
{3.649, 2.558},//17
{2.776, 4.005},
{3.644, 5.514},
{5.296, 5.522},//4.991, 5.246},
{6.225, 4.008},
{5.322, 2.511}//22
};
public static final double latencyFudge = 0.0; public static final double latencyFudge = 0.0;
} }

90
src/main/java/frc/robot/subsystems/Drivetrain.java
View File

@@ -14,14 +14,14 @@ import org.littletonrobotics.junction.Logger;
import com.ctre.phoenix6.Orchestra; import com.ctre.phoenix6.Orchestra;
import com.pathplanner.lib.auto.AutoBuilder; import com.pathplanner.lib.auto.AutoBuilder;
import com.pathplanner.lib.path.RotationTarget;
import com.studica.frc.AHRS; import com.studica.frc.AHRS;
import com.studica.frc.AHRS.NavXComType; import com.studica.frc.AHRS.NavXComType;
import edu.wpi.first.math.MathUtil; import edu.wpi.first.math.MathUtil;
import edu.wpi.first.math.VecBuilder; import edu.wpi.first.math.VecBuilder;
import edu.wpi.first.math.controller.HolonomicDriveController;
import edu.wpi.first.math.controller.PIDController; import edu.wpi.first.math.controller.PIDController;
import edu.wpi.first.math.estimator.PoseEstimator; import edu.wpi.first.math.controller.ProfiledPIDController;
import edu.wpi.first.math.estimator.SwerveDrivePoseEstimator; import edu.wpi.first.math.estimator.SwerveDrivePoseEstimator;
import edu.wpi.first.math.geometry.Pose2d; import edu.wpi.first.math.geometry.Pose2d;
import edu.wpi.first.math.geometry.Rotation2d; import edu.wpi.first.math.geometry.Rotation2d;
@@ -62,10 +62,12 @@ public class Drivetrain extends SubsystemBase {
public Orchestra m_orchestra = new Orchestra(); public Orchestra m_orchestra = new Orchestra();
private Timer musicTimer = new Timer(); private Timer musicTimer = new Timer();
private PIDController pidHeading; private ProfiledPIDController pidHeading;
private PIDController pidTranslationX; private PIDController pidTranslationX;
private PIDController pidTranslationY; private PIDController pidTranslationY;
private HolonomicDriveController driveController;
public Vision vision; public Vision vision;
public Pose2d orangePose2d; public Pose2d orangePose2d;
@@ -113,15 +115,16 @@ public class Drivetrain extends SubsystemBase {
VecBuilder.fill(1, 1, Units.degreesToRadians(360)) VecBuilder.fill(1, 1, Units.degreesToRadians(360))
); );
pidHeading = new PIDController(DrivetrainConstants.kHeadingP,0,0); pidHeading = new ProfiledPIDController(AutoConstants.kAlignPThetaController, 0, 0, AutoConstants.kAlignThetaControllerConstraints);
pidHeading.setTolerance(Units.degreesToRadians(3)); pidHeading.setTolerance(Units.degreesToRadians(3));
pidHeading.enableContinuousInput(-Units.degreesToRadians(180), Units.degreesToRadians(180)); pidHeading.enableContinuousInput(-Units.degreesToRadians(180), Units.degreesToRadians(180));
pidTranslationX = new PIDController(DrivetrainConstants.kXTranslationP,0,0); pidTranslationX = new PIDController(AutoConstants.kAlignPXYController,0,0);
pidTranslationX.setTolerance(Units.inchesToMeters(0.5)); pidTranslationX.setTolerance(Units.inchesToMeters(0.5));
pidTranslationY = new PIDController(DrivetrainConstants.kYTranslationP,0,0); pidTranslationY = new PIDController(AutoConstants.kAlignPXYController,0,0);
pidTranslationY.setTolerance(Units.inchesToMeters(0.5)); pidTranslationY.setTolerance(Units.inchesToMeters(0.5));
driveController = new HolonomicDriveController(pidTranslationX, pidTranslationY, pidHeading);
AutoBuilder.configure( AutoBuilder.configure(
this::getPose, this::getPose,
@@ -174,11 +177,17 @@ public class Drivetrain extends SubsystemBase {
gyroBuffer.addSample(Timer.getFPGATimestamp(), m_estimator.getEstimatedPosition().getRotation().getDegrees()); gyroBuffer.addSample(Timer.getFPGATimestamp(), m_estimator.getEstimatedPosition().getRotation().getDegrees());
m_estimator.setVisionMeasurementStdDevs(VecBuilder.fill(1, 1, Units.degreesToRadians(360))); m_estimator.setVisionMeasurementStdDevs(VecBuilder.fill(0.40, 0.40, Units.degreesToRadians(360)));
if(vision.getOrangeTagDetected()){ if(vision.getOrangeTagDetected() && vision.getOrangeTagDetected()){
if(vision.getOrangeDist() < 60){ if(vision.getOrangeDist() < 60 && Math.abs(getVelocity()) < 3){
m_estimator.setVisionMeasurementStdDevs(VecBuilder.fill(0.03, 0.03, Units.degreesToRadians(360)));
}else if(vision.getOrangeDist() < 100 && Math.abs(getVelocity()) < 3){
m_estimator.setVisionMeasurementStdDevs(VecBuilder.fill(0.05, 0.05, Units.degreesToRadians(360)));
}else if(vision.getOrangeDist() < 60 && Math.abs(getVelocity()) > 3){
m_estimator.setVisionMeasurementStdDevs(VecBuilder.fill(0.2, 0.2, Units.degreesToRadians(360))); m_estimator.setVisionMeasurementStdDevs(VecBuilder.fill(0.2, 0.2, Units.degreesToRadians(360)));
}else if(vision.getOrangeDist() < 100 && Math.abs(getVelocity()) > 3){
m_estimator.setVisionMeasurementStdDevs(VecBuilder.fill(0.3, 0.3, Units.degreesToRadians(360)));
} }
// if the detected tags match your alliances reef tags use their pose estimates // if the detected tags match your alliances reef tags use their pose estimates
@@ -189,14 +198,24 @@ public class Drivetrain extends SubsystemBase {
}else if(vision.getOrangeClosestTag() >= 17 && vision.getOrangeClosestTag() <= 22 && DriverStation.getAlliance().get().equals(Alliance.Blue) && vision.getOrangeTagDetected()){ }else if(vision.getOrangeClosestTag() >= 17 && vision.getOrangeClosestTag() <= 22 && DriverStation.getAlliance().get().equals(Alliance.Blue) && vision.getOrangeTagDetected()){
orangePose2d = vision.getOrangeGlobalPose(gyroBuffer); orangePose2d = vision.getOrangeGlobalPose(gyroBuffer);
m_estimator.addVisionMeasurement(orangePose2d, vision.getOrangeTimeStamp()); m_estimator.addVisionMeasurement(orangePose2d, vision.getOrangeTimeStamp());
} }
} }
Logger.recordOutput("orange pose", new Pose3d(orangePose2d)); Logger.recordOutput("orange pose", new Pose3d(orangePose2d));
Logger.recordOutput("orange dist", vision.getOrangeDist());
Logger.recordOutput("orange detected", vision.getOrangeTagDetected());
Logger.recordOutput("orange tag", vision.getOrangeTagDetected());
Logger.recordOutput("orange FPS", vision.getOrangeFPS());
if(vision.getBlackTagDetected()){ if(vision.getBlackTagDetected() && vision.getBlackTagDetected()){
if(vision.getBlackDist() < 60){ if(vision.getBlackDist() < 60 && Math.abs(getVelocity()) < 3){
m_estimator.setVisionMeasurementStdDevs(VecBuilder.fill(0.15, 0.15, Units.degreesToRadians(360))); m_estimator.setVisionMeasurementStdDevs(VecBuilder.fill(0.03, 0.03, Units.degreesToRadians(360)));
}else if(vision.getBlackDist() < 100 && Math.abs(getVelocity()) < 3){
m_estimator.setVisionMeasurementStdDevs(VecBuilder.fill(0.05, 0.05, Units.degreesToRadians(360)));
}else if(vision.getBlackDist() < 60 && Math.abs(getVelocity()) > 3){
m_estimator.setVisionMeasurementStdDevs(VecBuilder.fill(0.2, 0.2, Units.degreesToRadians(360)));
}else if(vision.getBlackDist() < 100 && Math.abs(getVelocity()) > 3){
m_estimator.setVisionMeasurementStdDevs(VecBuilder.fill(0.3, 0.3, Units.degreesToRadians(360)));
} }
if(vision.getBlackClosestTag() >= 6 && vision.getBlackClosestTag() <= 11 && DriverStation.getAlliance().get().equals(Alliance.Red) && vision.getBlackTagDetected()){ if(vision.getBlackClosestTag() >= 6 && vision.getBlackClosestTag() <= 11 && DriverStation.getAlliance().get().equals(Alliance.Red) && vision.getBlackTagDetected()){
@@ -209,7 +228,13 @@ public class Drivetrain extends SubsystemBase {
} }
} }
Logger.recordOutput("black pose", new Pose3d(blackPose2d)); Logger.recordOutput("black pose", new Pose3d(blackPose2d));
Logger.recordOutput("black dist", vision.getBlackDist());
Logger.recordOutput("black detected", vision.getBlackTagDetected());
Logger.recordOutput("black tag", vision.getBlackTagDetected());
Logger.recordOutput("black FPS", vision.getBlackFPS());
Logger.recordOutput("drive velocity", getVelocity());
Logger.recordOutput("closest tag", getClosestTag());
Logger.recordOutput("robot pose", new Pose3d(m_estimator.getEstimatedPosition())); Logger.recordOutput("robot pose", new Pose3d(m_estimator.getEstimatedPosition()));
if(musicTimer.get()>10){ if(musicTimer.get()>10){
@@ -323,16 +348,27 @@ public class Drivetrain extends SubsystemBase {
public Command goToPose(DoubleSupplier xSetpoint, DoubleSupplier ySetpoint, Supplier<Rotation2d> headingSetpoint){ public Command goToPose(DoubleSupplier xSetpoint, DoubleSupplier ySetpoint, Supplier<Rotation2d> headingSetpoint){
return startRun(() -> { return startRun(() -> {
pidHeading.reset(); pidTranslationX.reset();
pidTranslationX.reset(); pidTranslationY.reset();
pidTranslationY.reset(); pidHeading.reset(m_estimator.getEstimatedPosition().getRotation().getRadians(), gyro.getVelocityZ());
}, },
() -> { () -> {
drive(MathUtil.clamp(pidTranslationX.calculate(m_estimator.getEstimatedPosition().getX(), xSetpoint.getAsDouble()), -0.05, 0.05), ChassisSpeeds controlEffort = driveController.calculate(
MathUtil.clamp(pidTranslationY.calculate(m_estimator.getEstimatedPosition().getY(), ySetpoint.getAsDouble()), -0.05, 0.05), m_estimator.getEstimatedPosition(),
pidHeading.calculate(Units.degreesToRadians(getHeading()), headingSetpoint.get().getRadians()), new Pose2d(xSetpoint.getAsDouble(), ySetpoint.getAsDouble(),
true); headingSetpoint.get()),
Logger.recordOutput("reeeee", pidHeading.getError()); 0,
headingSetpoint.get()
);
double speed = Math.hypot(controlEffort.vxMetersPerSecond, controlEffort.vyMetersPerSecond);
if (speed > AutoConstants.kMaxSpeedMetersPerSecondAutoAlign) {
double mul = AutoConstants.kMaxSpeedMetersPerSecondAutoAlign / speed;
controlEffort.vxMetersPerSecond *= mul;
controlEffort.vyMetersPerSecond *= mul;
}
driveWithChassisSpeeds(controlEffort);
Logger.recordOutput("reef setpoint", new Pose3d(new Pose2d( Logger.recordOutput("reef setpoint", new Pose3d(new Pose2d(
new Translation2d(xSetpoint.getAsDouble(), ySetpoint.getAsDouble()), new Translation2d(xSetpoint.getAsDouble(), ySetpoint.getAsDouble()),
@@ -442,17 +478,17 @@ public class Drivetrain extends SubsystemBase {
return gyro.getRate() * (DrivetrainConstants.kGyroReversed ? -1.0 : 1.0); return gyro.getRate() * (DrivetrainConstants.kGyroReversed ? -1.0 : 1.0);
} }
public double driveDistance(){
return m_frontLeft.getTotalDist();
}
public double getVelocity(){ public double getVelocity(){
return m_frontLeft.getState().speedMetersPerSecond; return m_frontLeft.getState().speedMetersPerSecond;
} }
public Command resetToVision(){ public Command resetToVision(){
return runOnce(() -> { return runOnce(() -> {
m_estimator.resetPose(orangePose2d); if(vision.getOrangeTagDetected()){
m_estimator.resetPose(new Pose2d(orangePose2d.getTranslation(), m_estimator.getEstimatedPosition().getRotation()));
}else if(vision.getBlackTagDetected()){
m_estimator.resetPose(new Pose2d(blackPose2d.getTranslation(), m_estimator.getEstimatedPosition().getRotation()));
}
}); });
} }
} }

218
src/main/java/frc/robot/subsystems/Elevator.java
View File

@@ -2,15 +2,20 @@ package frc.robot.subsystems;
import java.util.function.DoubleSupplier; import java.util.function.DoubleSupplier;
import org.littletonrobotics.junction.Logger;
import com.revrobotics.RelativeEncoder; import com.revrobotics.RelativeEncoder;
import com.revrobotics.spark.ClosedLoopSlot;
import com.revrobotics.spark.SparkClosedLoopController;
import com.revrobotics.spark.SparkMax; import com.revrobotics.spark.SparkMax;
import com.revrobotics.spark.SparkBase.ControlType;
import com.revrobotics.spark.SparkBase.PersistMode; import com.revrobotics.spark.SparkBase.PersistMode;
import com.revrobotics.spark.SparkBase.ResetMode; import com.revrobotics.spark.SparkBase.ResetMode;
import com.revrobotics.spark.SparkLowLevel.MotorType; import com.revrobotics.spark.SparkLowLevel.MotorType;
import edu.wpi.first.math.MathUtil; import edu.wpi.first.math.MathUtil;
import edu.wpi.first.math.controller.ElevatorFeedforward; import edu.wpi.first.math.controller.ElevatorFeedforward;
import edu.wpi.first.math.controller.PIDController; import edu.wpi.first.math.trajectory.TrapezoidProfile;
import edu.wpi.first.wpilibj.DigitalInput; import edu.wpi.first.wpilibj.DigitalInput;
import edu.wpi.first.wpilibj2.command.Command; import edu.wpi.first.wpilibj2.command.Command;
import edu.wpi.first.wpilibj2.command.SubsystemBase; import edu.wpi.first.wpilibj2.command.SubsystemBase;
@@ -24,12 +29,14 @@ public class Elevator extends SubsystemBase {
private DigitalInput bottomLimitSwitch; private DigitalInput bottomLimitSwitch;
private PIDController pidControllerUp;
private PIDController pidControllerDown;
private PIDController maintainPID;
private ElevatorFeedforward feedForward; private ElevatorFeedforward feedForward;
private TrapezoidProfile trapProfile;
private TrapezoidProfile trapProfileAlgae;
private TrapezoidProfile.State goal;
private TrapezoidProfile.State setpoint;
private SparkClosedLoopController controller;
public Elevator() { public Elevator() {
elevatorMotor1 = new SparkMax( elevatorMotor1 = new SparkMax(
@@ -60,33 +67,17 @@ public class Elevator extends SubsystemBase {
ElevatorConstants.kBottomLimitSwitchID ElevatorConstants.kBottomLimitSwitchID
); );
pidControllerDown = new PIDController(
ElevatorConstants.kDownControllerP,
ElevatorConstants.kDownControllerI,
ElevatorConstants.kDownControllerD
);
pidControllerDown.setSetpoint(0);
pidControllerDown.setTolerance(ElevatorConstants.kAllowedError);
pidControllerUp = new PIDController(
ElevatorConstants.kUpControllerP,
ElevatorConstants.kUpControllerI,
ElevatorConstants.kUpControllerD
);
pidControllerUp.setSetpoint(0);
pidControllerUp.setTolerance(ElevatorConstants.kAllowedError);
maintainPID = new PIDController(ElevatorConstants.kMaintainP, 0, 0);
maintainPID.setTolerance(ElevatorConstants.kAllowedError);
feedForward = new ElevatorFeedforward( feedForward = new ElevatorFeedforward(
ElevatorConstants.kFeedForwardS, ElevatorConstants.kFeedForwardS,
ElevatorConstants.kFeedForwardG, ElevatorConstants.kFeedForwardG,
ElevatorConstants.kFeedForwardV ElevatorConstants.kFeedForwardV
); );
trapProfile = new TrapezoidProfile(new TrapezoidProfile.Constraints(ElevatorConstants.kMaxVelocity, ElevatorConstants.kMaxAcceleration));
trapProfileAlgae = new TrapezoidProfile(new TrapezoidProfile.Constraints(ElevatorConstants.kMaxVelocityAlgae, ElevatorConstants.kMaxAccelerationAlgae));
controller = elevatorMotor1.getClosedLoopController();
} }
@Override @Override
@@ -94,6 +85,8 @@ public class Elevator extends SubsystemBase {
if (!getBottomLimitSwitch()) { if (!getBottomLimitSwitch()) {
encoder.setPosition(0); encoder.setPosition(0);
} }
Logger.recordOutput("elevator position", getEncoderPosition());
} }
/** /**
@@ -147,28 +140,15 @@ public class Elevator extends SubsystemBase {
public Command maintainPosition() { public Command maintainPosition() {
return startRun(() -> { return startRun(() -> {
maintainPID.reset();
maintainPID.setSetpoint(pidControllerUp.getSetpoint());
}, },
() -> { () -> {
controller.setReference(
double maintainOutput = maintainPID.calculate(getEncoderPosition()); encoder.getPosition(),
ControlType.kPosition,
if(!maintainPID.atSetpoint()) ClosedLoopSlot.kSlot0,
elevatorMotor1.setVoltage( MathUtil.clamp( feedForward.calculate(0.0)
maintainOutput + feedForward.calculate(0), -2, 2) );
);
else{
elevatorMotor1.setVoltage(
feedForward.calculate(0)
);
}
/*
elevatorMotor1.setVoltage(
feedForward.calculate(0)
);
*/
}); });
@@ -186,109 +166,42 @@ public class Elevator extends SubsystemBase {
* Moves the elevator to a target destination (setpoint). * Moves the elevator to a target destination (setpoint).
* *
* @param setpoint Target destination of the subsystem * @param setpoint Target destination of the subsystem
* @param timeout Time to achieve the setpoint before quitting
* @return Sets motor voltage to achieve the target destination * @return Sets motor voltage to achieve the target destination
*/ */
public Command goToSetpoint(DoubleSupplier setpoint) { public Command goToSetpoint(DoubleSupplier setGoal) {
if (setpoint.getAsDouble() == 0) {
return startRun(() -> {
pidControllerUp.reset(); return startRun(() -> {
pidControllerDown.reset(); goal = new TrapezoidProfile.State(setGoal.getAsDouble(), 0.0);
pidControllerUp.setSetpoint(setpoint.getAsDouble()); }, () -> {
pidControllerDown.setSetpoint(setpoint.getAsDouble()); setpoint = trapProfile.calculate(0.02, new TrapezoidProfile.State(encoder.getPosition(), encoder.getVelocity()), goal);
},
() -> {
double upOutput = pidControllerUp.calculate(getEncoderPosition());
double downOutput = pidControllerDown.calculate(getEncoderPosition());
if(setpoint.getAsDouble()>encoder.getPosition())
elevatorMotor1.setVoltage( MathUtil.clamp(
upOutput + feedForward.calculate(0), ElevatorConstants.kVoltageLimit * -1, ElevatorConstants.kVoltageLimit)
);
else{
elevatorMotor1.setVoltage(
MathUtil.clamp(
downOutput + feedForward.calculate(0), ElevatorConstants.kVoltageLimit * -1, ElevatorConstants.kVoltageLimit)
);
}
}).until(() -> pidControllerUp.atSetpoint() || pidControllerDown.atSetpoint())
.andThen(runManualElevator(() -> -.5)
.until(() -> encoder.getPosition() == 0));
} else { controller.setReference(
return startRun(() -> { setpoint.position,
ControlType.kPosition,
pidControllerUp.reset(); ClosedLoopSlot.kSlot0,
pidControllerDown.reset(); feedForward.calculate(encoder.getVelocity())
pidControllerUp.setSetpoint(setpoint.getAsDouble());
pidControllerDown.setSetpoint(setpoint.getAsDouble());
},
() -> {
double upOutput = pidControllerUp.calculate(getEncoderPosition());
double downOutput = pidControllerDown.calculate(getEncoderPosition());
if(setpoint.getAsDouble()>encoder.getPosition())
elevatorMotor1.setVoltage( MathUtil.clamp(
upOutput + feedForward.calculate(0), ElevatorConstants.kVoltageLimit * -1, ElevatorConstants.kVoltageLimit)
);
else{
elevatorMotor1.setVoltage(
MathUtil.clamp(
downOutput + feedForward.calculate(0), ElevatorConstants.kVoltageLimit * -1, ElevatorConstants.kVoltageLimit)
);
}
}).until(() -> pidControllerUp.atSetpoint() || pidControllerDown.atSetpoint());
}
/*
elevatorMotor1.setVoltage(
pidController.calculate(
encoder.getPosition(),
clampedSetpoint
) + feedForward.calculate(0)
); );
*/
/* }).until(() -> trapProfile.isFinished(encoder.getPosition()));
if (!pidController.atSetpoint()) {
elevatorMotor1.setVoltage( }
pidController.calculate(
encoder.getPosition(), public Command goToSetpointAlgae(DoubleSupplier setGoal) {
clampedSetpoint
) + feedForward.calculate(0)
);
} else {
elevatorMotor1.setVoltage(
feedForward.calculate(0)
);
}
});*/
}
/* return startRun(() -> {
if(encoder.getPosition() >= setpoint.getAsDouble()){ goal = new TrapezoidProfile.State(setGoal.getAsDouble(), 0.0);
elevatorMotor1.setVoltage( }, () -> {
pidControllerUp.calculate( setpoint = trapProfileAlgae.calculate(0.02, new TrapezoidProfile.State(encoder.getPosition(), encoder.getVelocity()), goal);
encoder.getPosition(),
clampedSetpoint controller.setReference(
) + feedForward.calculate(pidControllerUp.getSetpoint().velocity) setpoint.position,
); ControlType.kPosition,
}else if(encoder.getPosition() <= setpoint.getAsDouble()){ ClosedLoopSlot.kSlot0,
elevatorMotor1.setVoltage( feedForward.calculate(setpoint.velocity)
pidControllerDown.calculate( );
encoder.getPosition(),
clampedSetpoint }).until(() -> trapProfileAlgae.isFinished(encoder.getPosition()));
) + feedForward.calculate(pidControllerDown.getSetpoint().velocity) }
);
}
*/
/** /**
* Returns the current encoder position * Returns the current encoder position
@@ -327,19 +240,4 @@ public class Elevator extends SubsystemBase {
return elevatorMotor2.getAppliedOutput()*elevatorMotor2.getBusVoltage(); return elevatorMotor2.getAppliedOutput()*elevatorMotor2.getBusVoltage();
} }
public double getPIDUpSetpoint() {
return pidControllerUp.getSetpoint();
}
public double getPIDUpError() {
return pidControllerUp.getError();
}
public double getPIDDownSetpoint() {
return pidControllerDown.getSetpoint();
}
public double getPIDDownError() {
return pidControllerDown.getError();
}
} }

3
src/main/java/frc/robot/subsystems/MAXSwerveModule.java
View File

@@ -144,7 +144,4 @@ public class MAXSwerveModule {
m_drive.setPosition(0); m_drive.setPosition(0);
} }
public double getTotalDist(){
return m_drive.getPosition().getValueAsDouble() * ModuleConstants.kWheelCircumferenceMeters;
}
} }

34
src/main/java/frc/robot/subsystems/Manipulator.java
View File

@@ -2,6 +2,8 @@ package frc.robot.subsystems;
import java.util.function.DoubleSupplier; import java.util.function.DoubleSupplier;
import org.littletonrobotics.junction.Logger;
import com.revrobotics.spark.SparkMax; import com.revrobotics.spark.SparkMax;
import com.revrobotics.spark.SparkBase.PersistMode; import com.revrobotics.spark.SparkBase.PersistMode;
import com.revrobotics.spark.SparkBase.ResetMode; import com.revrobotics.spark.SparkBase.ResetMode;
@@ -10,11 +12,14 @@ import com.revrobotics.spark.SparkLowLevel.MotorType;
import edu.wpi.first.wpilibj.DigitalInput; import edu.wpi.first.wpilibj.DigitalInput;
import edu.wpi.first.wpilibj2.command.Command; import edu.wpi.first.wpilibj2.command.Command;
import edu.wpi.first.wpilibj2.command.SubsystemBase; import edu.wpi.first.wpilibj2.command.SubsystemBase;
import frc.robot.constants.IndexerConstants;
import frc.robot.constants.ManipulatorConstants; import frc.robot.constants.ManipulatorConstants;
public class Manipulator extends SubsystemBase { public class Manipulator extends SubsystemBase {
private SparkMax manipulatorMotor; private SparkMax manipulatorMotor;
private SparkMax indexerMotor;
private DigitalInput coralBeamBreak; private DigitalInput coralBeamBreak;
public Manipulator() { public Manipulator() {
@@ -29,9 +34,27 @@ public class Manipulator extends SubsystemBase {
PersistMode.kPersistParameters PersistMode.kPersistParameters
); );
indexerMotor = new SparkMax(
IndexerConstants.kIndexerMotorID,
MotorType.kBrushless
);
indexerMotor.configure(
IndexerConstants.motorConfig,
ResetMode.kResetSafeParameters,
PersistMode.kPersistParameters
);
coralBeamBreak = new DigitalInput(ManipulatorConstants.kCoralBeamBreakID); coralBeamBreak = new DigitalInput(ManipulatorConstants.kCoralBeamBreakID);
} }
@Override
public void periodic() {
super.periodic();
Logger.recordOutput("coral beam break", getCoralBeamBreak());
}
/** /**
* The default command for the manipulator that either stops the manipulator or slowly * The default command for the manipulator that either stops the manipulator or slowly
* runs the manipulator to retain the algae * runs the manipulator to retain the algae
@@ -56,6 +79,8 @@ public class Manipulator extends SubsystemBase {
manipulatorMotor.set( manipulatorMotor.set(
coral ? speed.getAsDouble() : speed.getAsDouble() * -1 coral ? speed.getAsDouble() : speed.getAsDouble() * -1
); );
indexerMotor.set(0);
}); });
} }
@@ -68,9 +93,12 @@ public class Manipulator extends SubsystemBase {
*/ */
public Command runUntilCollected(DoubleSupplier speed) { public Command runUntilCollected(DoubleSupplier speed) {
return run(() -> { return run(() -> {
manipulatorMotor.set( manipulatorMotor.setVoltage(
speed.getAsDouble() speed.getAsDouble()*12
); );
indexerMotor.set(1);
}).unless(() -> !coralBeamBreak.get()) }).unless(() -> !coralBeamBreak.get())
.until(() -> !coralBeamBreak.get()); .until(() -> !coralBeamBreak.get());
/* /*
@@ -90,6 +118,8 @@ public class Manipulator extends SubsystemBase {
public Command retractCommand(DoubleSupplier retractSpeed){ public Command retractCommand(DoubleSupplier retractSpeed){
return run(() -> { return run(() -> {
manipulatorMotor.set(-retractSpeed.getAsDouble()); manipulatorMotor.set(-retractSpeed.getAsDouble());
indexerMotor.set(0);
} }
).until(() -> coralBeamBreak.get()); ).until(() -> coralBeamBreak.get());
} }

57
src/main/java/frc/robot/subsystems/ManipulatorPivot.java
View File

@@ -4,12 +4,13 @@ import com.revrobotics.spark.SparkMax;
import java.util.function.DoubleSupplier; import java.util.function.DoubleSupplier;
import org.littletonrobotics.junction.Logger;
import com.revrobotics.spark.SparkAbsoluteEncoder; import com.revrobotics.spark.SparkAbsoluteEncoder;
import com.revrobotics.spark.SparkBase.PersistMode; import com.revrobotics.spark.SparkBase.PersistMode;
import com.revrobotics.spark.SparkBase.ResetMode; import com.revrobotics.spark.SparkBase.ResetMode;
import com.revrobotics.spark.SparkLowLevel.MotorType; import com.revrobotics.spark.SparkLowLevel.MotorType;
import edu.wpi.first.math.MathUtil;
import edu.wpi.first.math.controller.ArmFeedforward; import edu.wpi.first.math.controller.ArmFeedforward;
import edu.wpi.first.math.controller.PIDController; import edu.wpi.first.math.controller.PIDController;
import edu.wpi.first.math.util.Units; import edu.wpi.first.math.util.Units;
@@ -26,6 +27,8 @@ public class ManipulatorPivot extends SubsystemBase {
private PIDController pidController; private PIDController pidController;
private PIDController algaePIDController;
public ManipulatorPivot() { public ManipulatorPivot() {
pivotMotor = new SparkMax( pivotMotor = new SparkMax(
ManipulatorPivotConstants.kPivotMotorID, ManipulatorPivotConstants.kPivotMotorID,
@@ -45,10 +48,22 @@ public class ManipulatorPivot extends SubsystemBase {
ManipulatorPivotConstants.kPositionalI, ManipulatorPivotConstants.kPositionalI,
ManipulatorPivotConstants.kPositionalD ManipulatorPivotConstants.kPositionalD
); );
pidController.setTolerance(ManipulatorPivotConstants.kPositionalTolerance);
pidController.setSetpoint(0); pidController.setSetpoint(0);
pidController.enableContinuousInput(0, 280); pidController.enableContinuousInput(0, 280);
algaePIDController = new PIDController(
ManipulatorPivotConstants.kAlgaeP,
0,
0);
algaePIDController.setTolerance(ManipulatorPivotConstants.kPositionalTolerance);
algaePIDController.setSetpoint(0);
algaePIDController.enableContinuousInput(0, 280);
feedForward = new ArmFeedforward( feedForward = new ArmFeedforward(
ManipulatorPivotConstants.kFeedForwardS, ManipulatorPivotConstants.kFeedForwardS,
ManipulatorPivotConstants.kFeedForwardG, ManipulatorPivotConstants.kFeedForwardG,
@@ -56,6 +71,14 @@ public class ManipulatorPivot extends SubsystemBase {
); );
} }
@Override
public void periodic() {
super.periodic();
Logger.recordOutput("manipulator position", getEncoderPosition());
Logger.recordOutput("manipulator setpoint", pidController.getSetpoint());
}
/** /**
* Returns whether or not the motion is safe relative to the encoder's current position * Returns whether or not the motion is safe relative to the encoder's current position
* and the arm safe stow position * and the arm safe stow position
@@ -126,6 +149,38 @@ public class ManipulatorPivot extends SubsystemBase {
}).until(() -> pidController.atSetpoint()); }).until(() -> pidController.atSetpoint());
} }
public Command goToSetpointAlgae(DoubleSupplier setpoint) {
return startRun(() -> {
algaePIDController.setSetpoint(setpoint.getAsDouble());
algaePIDController.reset();
pidController.setSetpoint(setpoint.getAsDouble());
pidController.reset();
},
() -> {
/*
if (!pidController.atSetpoint()) {
pivotMotor.setVoltage(
pidController.calculate(
encoder.getPosition(),
setpoint.getAsDouble()
) - feedForward.calculate(-encoder.getPosition() + ManipulatorPivotConstants.kFFGravityOffset, 0)
);
} else {
pivotMotor.setVoltage(
-feedForward.calculate(-encoder.getPosition() + ManipulatorPivotConstants.kFFGravityOffset, 0)
);
}
*/
pivotMotor.setVoltage(
algaePIDController.calculate(
encoder.getPosition(),
setpoint.getAsDouble()
) - feedForward.calculate(-encoder.getPosition() + ManipulatorPivotConstants.kFFGravityOffset, 0)
);
}).until(() -> algaePIDController.atSetpoint());
}
public Command maintainPosition() { public Command maintainPosition() {
return startRun(() -> { return startRun(() -> {

8
src/main/java/frc/robot/subsystems/Vision.java
View File

@@ -175,5 +175,13 @@ public class Vision{
public double getOrangeFPS(){ public double getOrangeFPS(){
return orangeFramerate.get(); return orangeFramerate.get();
} }
public boolean isBlackConnected(){
return Timer.getFPGATimestamp()-blackFramerate.getLastChange() > 3.0;
}
public boolean isOrangeConnected(){
return Timer.getFPGATimestamp()-orangeFramerate.getLastChange() > 3.0;
}
} }